With six people in our family our calendar is FULL. If we don’t have an organized method to keep track of events, things will get missed. We have tried many different family command center variations. Wall calendars, clipboards with lists, chalkboard and dry erase weekly planners. You name it and we’ve probably tried it. It’s easy to get lost in the many beautiful command center ideas you find on Pinterest. One aspect of the typical family command centers that has been our downfall in the past is that our schedules often change throughout the week. This involves a lot of erasing and re-writing, which often doesn’t get done. It’s hard to trust a planner that might be missing something. I always found myself reverting to my trusty Google calendar. When we moved to a new house, I found myself wondering why we couldn’t just put our Google calendars up on the wall. Then, events would automatically update as they were scheduled and we all could see where everyone was supposed to be and when. A quick internet search showed me lots of great digital command center ideas to get started. Check out the photos below to see just a few. Click on the images to link to their sites for more information on each. Let’s get to making our own! I did some research about the various options, figured out the size we’d need for our wall, and began the planning process. Keep reading to see the materials used and steps followed to make ours. Supplies: Screen with HDMI input First I tried out a TV we had that wasn’t being used. It worked great but was an older model that could only be displayed in landscape orientation. I ended up ordering this computer screen that could be used in portrait mode. Raspberry Pi 4 – I used the Labists Starter Kit, which comes with everything you’ll need to get started USB mouse and keyboard for initial Raspberry Pi setup (Once configured, the Pi can be operated from its own peripherals or another computer connected over the Internet). Screen wall mount – This is what I used but you may need something different for your screen. If it’s small enough, you could also just support the screen with your frame. Infrared Touchscreen Frame (optional) – I plan on making our command center interactive at some point. Kreg Jig Drill 1-1/4″ coarse thread pocket hole screws Level Tape measure Stud Finder Boards for frame 1×3’s Molding for frame – optional Miter saw Don’t forget safety gear like eye protection, sanding mask, and earplugs when using your saw. Wood Glue Clamps Black latex paint Velcro strips with adhesive Step 1: Set up your Raspberry Pi Set up the Raspberry Pi and attach it to your screen of choice. If you need help with this step you can check out this post on how to set up a Raspberry Pi. During the digital dashboard setup process, you can use a USB mouse and keyboard attached to the Pi and then disconnect them when you’re ready to hang it on the wall. Another method is to set up remote access to Pi so you can work from your laptop or desktop computer to control the command center. I’ll do a future post explaining how this can be done. Step 2: Connect the Pi to your wireless network Click on the wireless icon in the upper righthand corner of the screen and choose your network. Add a password if needed. Step 3: Configure the command center You could also save this step for the end, after everything is mounted. There are multiple options for your display. The two that I looked into are: Dakboard – You can create and customize a digital wall display on their website and it will run on your screen through a wireless connection. There is a free version and tiered premium versions with more options. MagicMirror² – A free, opensource, modular option that takes a little more effort to set up but is more customizable. Most people use one-way glass over their screen for this install, to make it look like a mirror that has digital images coming out of it. Here’s an example of a MagicMirror shared by Amy Lee Bennett on medium.com: Step 4: Mount the screen on the wall I decided to mount the screen first, and then build the frame around it. My reasoning was that the screen needed to be very secure. I planned on adding a touchscreen interface in the future and we didn’t want little fingers accidentally knocking the whole thing off the wall. This is the TV Wall Mount I used but you may need to find something different that will work for your screen. Since we chose to mount the screen sideways in a portrait orientation, I attached the wall mount turned sideways as well. As you can see from the picture below, our screen is wider on the bottom than the top. This meant that either the right or left side would be wider once the screen was up in position. The way our screen is set up, the mount attaches to the thin side. If I had simply to mounted the screen sideways, it would have hung on the wall with the thin side close to the wall and the thicker side pushed out at an angle. To remedy this, I added washers in between the mount and the wall to push it out enough for that side to be even with the thicker, bottom part of the screen. You can see below how the mount is pushed off the wall with washers. The two screws on the far right are secured into the stud. The two screw holes on the left wouldn’t reach the next stud and drywall anchor wouldn’t work with my washer tweak pushing out the mount. To give the entire setup a little extra stability, I used some supplies we had in our garage to make one of these screw holes connect to the next stud over. Here is the screen mounted: Then, just because I was worried that the sideways mount might not be secure enough, I attached the bottom of the frame directly to the wall under the screen. I screwed two pocket hole screws on each side directly into the studs with a 1×3. This screen isn’t going anywhere. Step 5: Add the IR touchscreen (optional) The IR touchscreen is something we hope to use to make our command center interactive. We have grand plans to have individual screens to show each family member’s schedule and to-do list. Check out the Youtube video below to see a sample of what the touchscreen can do. It’s from Smartbuilds.io and you can find more great projects on his site as well. To install the touchscreen, I simply clicked the corners together. Then I added the sticky backing that came with the kit and stuck it onto the monitor. Step 6: Add the frame The next step was to build the frame around the screen. I measured and cut 1×4’s to fit and secured two of them together with pocket holes. We wanted to maintain access to the monitor controls and the Raspberry Pi later so I left one board separate. This side was added later onto the frame with velcro. I painted the boards with one coat of black latex paint. You could add a second coat but I liked the way it looked a little distressed with just one. At this point, I also painted the bottom of the frame already attached to the wall. In the photo below you can see the top three sides of the frame just sitting on the bottom one secured to the wall. I felt like I could have stopped here but I had some molding that I thought would look nice around the edges of the frame to make it look more finished. Using our miter saw, I cut the molding ends at 45 degrees to frame the edges. Don’t be afraid to cut the pieces a little too long and then keep slicing small pieces off to get the molding to just the right length. It beats having to go back to the store because you wasted an entire piece on a cut that’s too short. After I had the frame the size set, I glued each piece individually to the 1×3’s of the main frame, but not together at the corners. This way I could remove each side individually if I need access to the monitor or Pi in the future. Here are a couple close-ups of the molding: It turned out pretty nice! Now I need to play with the Magic Mirror modules a bit and tweak the screen setup. I’m working on future posts about how to use Magic Mirror. If I can do it, with absolutely zero coding experiences, you can too!
Keep clutter at bay with these clever organizing solutions for home command centers.
With six people in our family our calendar is FULL. If we don’t have an organized method to keep track of events, things will get missed. We have tried many different family command center variations. Wall calendars, clipboards with lists, chalkboard and dry erase weekly planners. You name it and we’ve probably tried it. It’s easy to get lost in the many beautiful command center ideas you find on Pinterest. One aspect of the typical family command centers that has been our downfall in the past is that our schedules often change throughout the week. This involves a lot of erasing and re-writing, which often doesn’t get done. It’s hard to trust a planner that might be missing something. I always found myself reverting to my trusty Google calendar. When we moved to a new house, I found myself wondering why we couldn’t just put our Google calendars up on the wall. Then, events would automatically update as they were scheduled and we all could see where everyone was supposed to be and when. A quick internet search showed me lots of great digital command center ideas to get started. Check out the photos below to see just a few. Click on the images to link to their sites for more information on each. Let’s get to making our own! I did some research about the various options, figured out the size we’d need for our wall, and began the planning process. Keep reading to see the materials used and steps followed to make ours. Supplies: Screen with HDMI input First I tried out a TV we had that wasn’t being used. It worked great but was an older model that could only be displayed in landscape orientation. I ended up ordering this computer screen that could be used in portrait mode. Raspberry Pi 4 – I used the Labists Starter Kit, which comes with everything you’ll need to get started USB mouse and keyboard for initial Raspberry Pi setup (Once configured, the Pi can be operated from its own peripherals or another computer connected over the Internet). Screen wall mount – This is what I used but you may need something different for your screen. If it’s small enough, you could also just support the screen with your frame. Infrared Touchscreen Frame (optional) – I plan on making our command center interactive at some point. Kreg Jig Drill 1-1/4″ coarse thread pocket hole screws Level Tape measure Stud Finder Boards for frame 1×3’s Molding for frame – optional Miter saw Don’t forget safety gear like eye protection, sanding mask, and earplugs when using your saw. Wood Glue Clamps Black latex paint Velcro strips with adhesive Step 1: Set up your Raspberry Pi Set up the Raspberry Pi and attach it to your screen of choice. If you need help with this step you can check out this post on how to set up a Raspberry Pi. During the digital dashboard setup process, you can use a USB mouse and keyboard attached to the Pi and then disconnect them when you’re ready to hang it on the wall. Another method is to set up remote access to Pi so you can work from your laptop or desktop computer to control the command center. I’ll do a future post explaining how this can be done. Step 2: Connect the Pi to your wireless network Click on the wireless icon in the upper righthand corner of the screen and choose your network. Add a password if needed. Step 3: Configure the command center You could also save this step for the end, after everything is mounted. There are multiple options for your display. The two that I looked into are: Dakboard – You can create and customize a digital wall display on their website and it will run on your screen through a wireless connection. There is a free version and tiered premium versions with more options. MagicMirror² – A free, opensource, modular option that takes a little more effort to set up but is more customizable. Most people use one-way glass over their screen for this install, to make it look like a mirror that has digital images coming out of it. Here’s an example of a MagicMirror shared by Amy Lee Bennett on medium.com: Step 4: Mount the screen on the wall I decided to mount the screen first, and then build the frame around it. My reasoning was that the screen needed to be very secure. I planned on adding a touchscreen interface in the future and we didn’t want little fingers accidentally knocking the whole thing off the wall. This is the TV Wall Mount I used but you may need to find something different that will work for your screen. Since we chose to mount the screen sideways in a portrait orientation, I attached the wall mount turned sideways as well. As you can see from the picture below, our screen is wider on the bottom than the top. This meant that either the right or left side would be wider once the screen was up in position. The way our screen is set up, the mount attaches to the thin side. If I had simply to mounted the screen sideways, it would have hung on the wall with the thin side close to the wall and the thicker side pushed out at an angle. To remedy this, I added washers in between the mount and the wall to push it out enough for that side to be even with the thicker, bottom part of the screen. You can see below how the mount is pushed off the wall with washers. The two screws on the far right are secured into the stud. The two screw holes on the left wouldn’t reach the next stud and drywall anchor wouldn’t work with my washer tweak pushing out the mount. To give the entire setup a little extra stability, I used some supplies we had in our garage to make one of these screw holes connect to the next stud over. Here is the screen mounted: Then, just because I was worried that the sideways mount might not be secure enough, I attached the bottom of the frame directly to the wall under the screen. I screwed two pocket hole screws on each side directly into the studs with a 1×3. This screen isn’t going anywhere. Step 5: Add the IR touchscreen (optional) The IR touchscreen is something we hope to use to make our command center interactive. We have grand plans to have individual screens to show each family member’s schedule and to-do list. Check out the Youtube video below to see a sample of what the touchscreen can do. It’s from Smartbuilds.io and you can find more great projects on his site as well. To install the touchscreen, I simply clicked the corners together. Then I added the sticky backing that came with the kit and stuck it onto the monitor. Step 6: Add the frame The next step was to build the frame around the screen. I measured and cut 1×4’s to fit and secured two of them together with pocket holes. We wanted to maintain access to the monitor controls and the Raspberry Pi later so I left one board separate. This side was added later onto the frame with velcro. I painted the boards with one coat of black latex paint. You could add a second coat but I liked the way it looked a little distressed with just one. At this point, I also painted the bottom of the frame already attached to the wall. In the photo below you can see the top three sides of the frame just sitting on the bottom one secured to the wall. I felt like I could have stopped here but I had some molding that I thought would look nice around the edges of the frame to make it look more finished. Using our miter saw, I cut the molding ends at 45 degrees to frame the edges. Don’t be afraid to cut the pieces a little too long and then keep slicing small pieces off to get the molding to just the right length. It beats having to go back to the store because you wasted an entire piece on a cut that’s too short. After I had the frame the size set, I glued each piece individually to the 1×3’s of the main frame, but not together at the corners. This way I could remove each side individually if I need access to the monitor or Pi in the future. Here are a couple close-ups of the molding: It turned out pretty nice! Now I need to play with the Magic Mirror modules a bit and tweak the screen setup. I’m working on future posts about how to use Magic Mirror. If I can do it, with absolutely zero coding experiences, you can too!
Step by step tutorial to create a cheap electronic family calendar using an Amazon Fire Stick and a calendar app.
With six people in our family our calendar is FULL. If we don’t have an organized method to keep track of events, things will get missed. We have tried many different family command center variations. Wall calendars, clipboards with lists, chalkboard and dry erase weekly planners. You name it and we’ve probably tried it. It’s easy to get lost in the many beautiful command center ideas you find on Pinterest. One aspect of the typical family command centers that has been our downfall in the past is that our schedules often change throughout the week. This involves a lot of erasing and re-writing, which often doesn’t get done. It’s hard to trust a planner that might be missing something. I always found myself reverting to my trusty Google calendar. When we moved to a new house, I found myself wondering why we couldn’t just put our Google calendars up on the wall. Then, events would automatically update as they were scheduled and we all could see where everyone was supposed to be and when. A quick internet search showed me lots of great digital command center ideas to get started. Check out the photos below to see just a few. Click on the images to link to their sites for more information on each. Let’s get to making our own! I did some research about the various options, figured out the size we’d need for our wall, and began the planning process. Keep reading to see the materials used and steps followed to make ours. Supplies: Screen with HDMI input First I tried out a TV we had that wasn’t being used. It worked great but was an older model that could only be displayed in landscape orientation. I ended up ordering this computer screen that could be used in portrait mode. Raspberry Pi 4 – I used the Labists Starter Kit, which comes with everything you’ll need to get started USB mouse and keyboard for initial Raspberry Pi setup (Once configured, the Pi can be operated from its own peripherals or another computer connected over the Internet). Screen wall mount – This is what I used but you may need something different for your screen. If it’s small enough, you could also just support the screen with your frame. Infrared Touchscreen Frame (optional) – I plan on making our command center interactive at some point. Kreg Jig Drill 1-1/4″ coarse thread pocket hole screws Level Tape measure Stud Finder Boards for frame 1×3’s Molding for frame – optional Miter saw Don’t forget safety gear like eye protection, sanding mask, and earplugs when using your saw. Wood Glue Clamps Black latex paint Velcro strips with adhesive Step 1: Set up your Raspberry Pi Set up the Raspberry Pi and attach it to your screen of choice. If you need help with this step you can check out this post on how to set up a Raspberry Pi. During the digital dashboard setup process, you can use a USB mouse and keyboard attached to the Pi and then disconnect them when you’re ready to hang it on the wall. Another method is to set up remote access to Pi so you can work from your laptop or desktop computer to control the command center. I’ll do a future post explaining how this can be done. Step 2: Connect the Pi to your wireless network Click on the wireless icon in the upper righthand corner of the screen and choose your network. Add a password if needed. Step 3: Configure the command center You could also save this step for the end, after everything is mounted. There are multiple options for your display. The two that I looked into are: Dakboard – You can create and customize a digital wall display on their website and it will run on your screen through a wireless connection. There is a free version and tiered premium versions with more options. MagicMirror² – A free, opensource, modular option that takes a little more effort to set up but is more customizable. Most people use one-way glass over their screen for this install, to make it look like a mirror that has digital images coming out of it. Here’s an example of a MagicMirror shared by Amy Lee Bennett on medium.com: Step 4: Mount the screen on the wall I decided to mount the screen first, and then build the frame around it. My reasoning was that the screen needed to be very secure. I planned on adding a touchscreen interface in the future and we didn’t want little fingers accidentally knocking the whole thing off the wall. This is the TV Wall Mount I used but you may need to find something different that will work for your screen. Since we chose to mount the screen sideways in a portrait orientation, I attached the wall mount turned sideways as well. As you can see from the picture below, our screen is wider on the bottom than the top. This meant that either the right or left side would be wider once the screen was up in position. The way our screen is set up, the mount attaches to the thin side. If I had simply to mounted the screen sideways, it would have hung on the wall with the thin side close to the wall and the thicker side pushed out at an angle. To remedy this, I added washers in between the mount and the wall to push it out enough for that side to be even with the thicker, bottom part of the screen. You can see below how the mount is pushed off the wall with washers. The two screws on the far right are secured into the stud. The two screw holes on the left wouldn’t reach the next stud and drywall anchor wouldn’t work with my washer tweak pushing out the mount. To give the entire setup a little extra stability, I used some supplies we had in our garage to make one of these screw holes connect to the next stud over. Here is the screen mounted: Then, just because I was worried that the sideways mount might not be secure enough, I attached the bottom of the frame directly to the wall under the screen. I screwed two pocket hole screws on each side directly into the studs with a 1×3. This screen isn’t going anywhere. Step 5: Add the IR touchscreen (optional) The IR touchscreen is something we hope to use to make our command center interactive. We have grand plans to have individual screens to show each family member’s schedule and to-do list. Check out the Youtube video below to see a sample of what the touchscreen can do. It’s from Smartbuilds.io and you can find more great projects on his site as well. To install the touchscreen, I simply clicked the corners together. Then I added the sticky backing that came with the kit and stuck it onto the monitor. Step 6: Add the frame The next step was to build the frame around the screen. I measured and cut 1×4’s to fit and secured two of them together with pocket holes. We wanted to maintain access to the monitor controls and the Raspberry Pi later so I left one board separate. This side was added later onto the frame with velcro. I painted the boards with one coat of black latex paint. You could add a second coat but I liked the way it looked a little distressed with just one. At this point, I also painted the bottom of the frame already attached to the wall. In the photo below you can see the top three sides of the frame just sitting on the bottom one secured to the wall. I felt like I could have stopped here but I had some molding that I thought would look nice around the edges of the frame to make it look more finished. Using our miter saw, I cut the molding ends at 45 degrees to frame the edges. Don’t be afraid to cut the pieces a little too long and then keep slicing small pieces off to get the molding to just the right length. It beats having to go back to the store because you wasted an entire piece on a cut that’s too short. After I had the frame the size set, I glued each piece individually to the 1×3’s of the main frame, but not together at the corners. This way I could remove each side individually if I need access to the monitor or Pi in the future. Here are a couple close-ups of the molding: It turned out pretty nice! Now I need to play with the Magic Mirror modules a bit and tweak the screen setup. I’m working on future posts about how to use Magic Mirror. If I can do it, with absolutely zero coding experiences, you can too!
With six people in our family our calendar is FULL. If we don’t have an organized method to keep track of events, things will get missed. We have tried many different family command center variations. Wall calendars, clipboards with lists, chalkboard and dry erase weekly planners. You name it and we’ve probably tried it. It’s easy to get lost in the many beautiful command center ideas you find on Pinterest. One aspect of the typical family command centers that has been our downfall in the past is that our schedules often change throughout the week. This involves a lot of erasing and re-writing, which often doesn’t get done. It’s hard to trust a planner that might be missing something. I always found myself reverting to my trusty Google calendar. When we moved to a new house, I found myself wondering why we couldn’t just put our Google calendars up on the wall. Then, events would automatically update as they were scheduled and we all could see where everyone was supposed to be and when. A quick internet search showed me lots of great digital command center ideas to get started. Check out the photos below to see just a few. Click on the images to link to their sites for more information on each. Let’s get to making our own! I did some research about the various options, figured out the size we’d need for our wall, and began the planning process. Keep reading to see the materials used and steps followed to make ours. Supplies: Screen with HDMI input First I tried out a TV we had that wasn’t being used. It worked great but was an older model that could only be displayed in landscape orientation. I ended up ordering this computer screen that could be used in portrait mode. Raspberry Pi 4 – I used the Labists Starter Kit, which comes with everything you’ll need to get started USB mouse and keyboard for initial Raspberry Pi setup (Once configured, the Pi can be operated from its own peripherals or another computer connected over the Internet). Screen wall mount – This is what I used but you may need something different for your screen. If it’s small enough, you could also just support the screen with your frame. Infrared Touchscreen Frame (optional) – I plan on making our command center interactive at some point. Kreg Jig Drill 1-1/4″ coarse thread pocket hole screws Level Tape measure Stud Finder Boards for frame 1×3’s Molding for frame – optional Miter saw Don’t forget safety gear like eye protection, sanding mask, and earplugs when using your saw. Wood Glue Clamps Black latex paint Velcro strips with adhesive Step 1: Set up your Raspberry Pi Set up the Raspberry Pi and attach it to your screen of choice. If you need help with this step you can check out this post on how to set up a Raspberry Pi. During the digital dashboard setup process, you can use a USB mouse and keyboard attached to the Pi and then disconnect them when you’re ready to hang it on the wall. Another method is to set up remote access to Pi so you can work from your laptop or desktop computer to control the command center. I’ll do a future post explaining how this can be done. Step 2: Connect the Pi to your wireless network Click on the wireless icon in the upper righthand corner of the screen and choose your network. Add a password if needed. Step 3: Configure the command center You could also save this step for the end, after everything is mounted. There are multiple options for your display. The two that I looked into are: Dakboard – You can create and customize a digital wall display on their website and it will run on your screen through a wireless connection. There is a free version and tiered premium versions with more options. MagicMirror² – A free, opensource, modular option that takes a little more effort to set up but is more customizable. Most people use one-way glass over their screen for this install, to make it look like a mirror that has digital images coming out of it. Here’s an example of a MagicMirror shared by Amy Lee Bennett on medium.com: Step 4: Mount the screen on the wall I decided to mount the screen first, and then build the frame around it. My reasoning was that the screen needed to be very secure. I planned on adding a touchscreen interface in the future and we didn’t want little fingers accidentally knocking the whole thing off the wall. This is the TV Wall Mount I used but you may need to find something different that will work for your screen. Since we chose to mount the screen sideways in a portrait orientation, I attached the wall mount turned sideways as well. As you can see from the picture below, our screen is wider on the bottom than the top. This meant that either the right or left side would be wider once the screen was up in position. The way our screen is set up, the mount attaches to the thin side. If I had simply to mounted the screen sideways, it would have hung on the wall with the thin side close to the wall and the thicker side pushed out at an angle. To remedy this, I added washers in between the mount and the wall to push it out enough for that side to be even with the thicker, bottom part of the screen. You can see below how the mount is pushed off the wall with washers. The two screws on the far right are secured into the stud. The two screw holes on the left wouldn’t reach the next stud and drywall anchor wouldn’t work with my washer tweak pushing out the mount. To give the entire setup a little extra stability, I used some supplies we had in our garage to make one of these screw holes connect to the next stud over. Here is the screen mounted: Then, just because I was worried that the sideways mount might not be secure enough, I attached the bottom of the frame directly to the wall under the screen. I screwed two pocket hole screws on each side directly into the studs with a 1×3. This screen isn’t going anywhere. Step 5: Add the IR touchscreen (optional) The IR touchscreen is something we hope to use to make our command center interactive. We have grand plans to have individual screens to show each family member’s schedule and to-do list. Check out the Youtube video below to see a sample of what the touchscreen can do. It’s from Smartbuilds.io and you can find more great projects on his site as well. To install the touchscreen, I simply clicked the corners together. Then I added the sticky backing that came with the kit and stuck it onto the monitor. Step 6: Add the frame The next step was to build the frame around the screen. I measured and cut 1×4’s to fit and secured two of them together with pocket holes. We wanted to maintain access to the monitor controls and the Raspberry Pi later so I left one board separate. This side was added later onto the frame with velcro. I painted the boards with one coat of black latex paint. You could add a second coat but I liked the way it looked a little distressed with just one. At this point, I also painted the bottom of the frame already attached to the wall. In the photo below you can see the top three sides of the frame just sitting on the bottom one secured to the wall. I felt like I could have stopped here but I had some molding that I thought would look nice around the edges of the frame to make it look more finished. Using our miter saw, I cut the molding ends at 45 degrees to frame the edges. Don’t be afraid to cut the pieces a little too long and then keep slicing small pieces off to get the molding to just the right length. It beats having to go back to the store because you wasted an entire piece on a cut that’s too short. After I had the frame the size set, I glued each piece individually to the 1×3’s of the main frame, but not together at the corners. This way I could remove each side individually if I need access to the monitor or Pi in the future. Here are a couple close-ups of the molding: It turned out pretty nice! Now I need to play with the Magic Mirror modules a bit and tweak the screen setup. I’m working on future posts about how to use Magic Mirror. If I can do it, with absolutely zero coding experiences, you can too!
I’ve always wanted a digital wall calendar. Something that could hang in the kitchen and keep track of family obligations, reminders, and to-dos. Wear red on Friday. Sign up for soccer. Early dismissal. Snack day at preschool. Work travel. You get the picture. In theory, I could purchase a tablet, mount it to a wall,...
Inexpensive Touchscreen "Life Command Center" Using Pine64: After deciding to back the Pine64 (similar to the Raspberry Pi) on Kickstarter I needed to figure out a cool project to use it with. After getting the Pine64 working with Android and finding a relatively cheap touchscreen LCD on eBay I had the idea…
With six people in our family our calendar is FULL. If we don’t have an organized method to keep track of events, things will get missed. We have tried many different family command center variations. Wall calendars, clipboards with lists, chalkboard and dry erase weekly planners. You name it and we’ve probably tried it. It’s easy to get lost in the many beautiful command center ideas you find on Pinterest. One aspect of the typical family command centers that has been our downfall in the past is that our schedules often change throughout the week. This involves a lot of erasing and re-writing, which often doesn’t get done. It’s hard to trust a planner that might be missing something. I always found myself reverting to my trusty Google calendar. When we moved to a new house, I found myself wondering why we couldn’t just put our Google calendars up on the wall. Then, events would automatically update as they were scheduled and we all could see where everyone was supposed to be and when. A quick internet search showed me lots of great digital command center ideas to get started. Check out the photos below to see just a few. Click on the images to link to their sites for more information on each. Let’s get to making our own! I did some research about the various options, figured out the size we’d need for our wall, and began the planning process. Keep reading to see the materials used and steps followed to make ours. Supplies: Screen with HDMI input First I tried out a TV we had that wasn’t being used. It worked great but was an older model that could only be displayed in landscape orientation. I ended up ordering this computer screen that could be used in portrait mode. Raspberry Pi 4 – I used the Labists Starter Kit, which comes with everything you’ll need to get started USB mouse and keyboard for initial Raspberry Pi setup (Once configured, the Pi can be operated from its own peripherals or another computer connected over the Internet). Screen wall mount – This is what I used but you may need something different for your screen. If it’s small enough, you could also just support the screen with your frame. Infrared Touchscreen Frame (optional) – I plan on making our command center interactive at some point. Kreg Jig Drill 1-1/4″ coarse thread pocket hole screws Level Tape measure Stud Finder Boards for frame 1×3’s Molding for frame – optional Miter saw Don’t forget safety gear like eye protection, sanding mask, and earplugs when using your saw. Wood Glue Clamps Black latex paint Velcro strips with adhesive Step 1: Set up your Raspberry Pi Set up the Raspberry Pi and attach it to your screen of choice. If you need help with this step you can check out this post on how to set up a Raspberry Pi. During the digital dashboard setup process, you can use a USB mouse and keyboard attached to the Pi and then disconnect them when you’re ready to hang it on the wall. Another method is to set up remote access to Pi so you can work from your laptop or desktop computer to control the command center. I’ll do a future post explaining how this can be done. Step 2: Connect the Pi to your wireless network Click on the wireless icon in the upper righthand corner of the screen and choose your network. Add a password if needed. Step 3: Configure the command center You could also save this step for the end, after everything is mounted. There are multiple options for your display. The two that I looked into are: Dakboard – You can create and customize a digital wall display on their website and it will run on your screen through a wireless connection. There is a free version and tiered premium versions with more options. MagicMirror² – A free, opensource, modular option that takes a little more effort to set up but is more customizable. Most people use one-way glass over their screen for this install, to make it look like a mirror that has digital images coming out of it. Here’s an example of a MagicMirror shared by Amy Lee Bennett on medium.com: Step 4: Mount the screen on the wall I decided to mount the screen first, and then build the frame around it. My reasoning was that the screen needed to be very secure. I planned on adding a touchscreen interface in the future and we didn’t want little fingers accidentally knocking the whole thing off the wall. This is the TV Wall Mount I used but you may need to find something different that will work for your screen. Since we chose to mount the screen sideways in a portrait orientation, I attached the wall mount turned sideways as well. As you can see from the picture below, our screen is wider on the bottom than the top. This meant that either the right or left side would be wider once the screen was up in position. The way our screen is set up, the mount attaches to the thin side. If I had simply to mounted the screen sideways, it would have hung on the wall with the thin side close to the wall and the thicker side pushed out at an angle. To remedy this, I added washers in between the mount and the wall to push it out enough for that side to be even with the thicker, bottom part of the screen. You can see below how the mount is pushed off the wall with washers. The two screws on the far right are secured into the stud. The two screw holes on the left wouldn’t reach the next stud and drywall anchor wouldn’t work with my washer tweak pushing out the mount. To give the entire setup a little extra stability, I used some supplies we had in our garage to make one of these screw holes connect to the next stud over. Here is the screen mounted: Then, just because I was worried that the sideways mount might not be secure enough, I attached the bottom of the frame directly to the wall under the screen. I screwed two pocket hole screws on each side directly into the studs with a 1×3. This screen isn’t going anywhere. Step 5: Add the IR touchscreen (optional) The IR touchscreen is something we hope to use to make our command center interactive. We have grand plans to have individual screens to show each family member’s schedule and to-do list. Check out the Youtube video below to see a sample of what the touchscreen can do. It’s from Smartbuilds.io and you can find more great projects on his site as well. To install the touchscreen, I simply clicked the corners together. Then I added the sticky backing that came with the kit and stuck it onto the monitor. Step 6: Add the frame The next step was to build the frame around the screen. I measured and cut 1×4’s to fit and secured two of them together with pocket holes. We wanted to maintain access to the monitor controls and the Raspberry Pi later so I left one board separate. This side was added later onto the frame with velcro. I painted the boards with one coat of black latex paint. You could add a second coat but I liked the way it looked a little distressed with just one. At this point, I also painted the bottom of the frame already attached to the wall. In the photo below you can see the top three sides of the frame just sitting on the bottom one secured to the wall. I felt like I could have stopped here but I had some molding that I thought would look nice around the edges of the frame to make it look more finished. Using our miter saw, I cut the molding ends at 45 degrees to frame the edges. Don’t be afraid to cut the pieces a little too long and then keep slicing small pieces off to get the molding to just the right length. It beats having to go back to the store because you wasted an entire piece on a cut that’s too short. After I had the frame the size set, I glued each piece individually to the 1×3’s of the main frame, but not together at the corners. This way I could remove each side individually if I need access to the monitor or Pi in the future. Here are a couple close-ups of the molding: It turned out pretty nice! Now I need to play with the Magic Mirror modules a bit and tweak the screen setup. I’m working on future posts about how to use Magic Mirror. If I can do it, with absolutely zero coding experiences, you can too!
With six people in our family our calendar is FULL. If we don’t have an organized method to keep track of events, things will get missed. We have tried many different family command center variations. Wall calendars, clipboards with lists, chalkboard and dry erase weekly planners. You name it and we’ve probably tried it. It’s easy to get lost in the many beautiful command center ideas you find on Pinterest. One aspect of the typical family command centers that has been our downfall in the past is that our schedules often change throughout the week. This involves a lot of erasing and re-writing, which often doesn’t get done. It’s hard to trust a planner that might be missing something. I always found myself reverting to my trusty Google calendar. When we moved to a new house, I found myself wondering why we couldn’t just put our Google calendars up on the wall. Then, events would automatically update as they were scheduled and we all could see where everyone was supposed to be and when. A quick internet search showed me lots of great digital command center ideas to get started. Check out the photos below to see just a few. Click on the images to link to their sites for more information on each. Let’s get to making our own! I did some research about the various options, figured out the size we’d need for our wall, and began the planning process. Keep reading to see the materials used and steps followed to make ours. Supplies: Screen with HDMI input First I tried out a TV we had that wasn’t being used. It worked great but was an older model that could only be displayed in landscape orientation. I ended up ordering this computer screen that could be used in portrait mode. Raspberry Pi 4 – I used the Labists Starter Kit, which comes with everything you’ll need to get started USB mouse and keyboard for initial Raspberry Pi setup (Once configured, the Pi can be operated from its own peripherals or another computer connected over the Internet). Screen wall mount – This is what I used but you may need something different for your screen. If it’s small enough, you could also just support the screen with your frame. Infrared Touchscreen Frame (optional) – I plan on making our command center interactive at some point. Kreg Jig Drill 1-1/4″ coarse thread pocket hole screws Level Tape measure Stud Finder Boards for frame 1×3’s Molding for frame – optional Miter saw Don’t forget safety gear like eye protection, sanding mask, and earplugs when using your saw. Wood Glue Clamps Black latex paint Velcro strips with adhesive Step 1: Set up your Raspberry Pi Set up the Raspberry Pi and attach it to your screen of choice. If you need help with this step you can check out this post on how to set up a Raspberry Pi. During the digital dashboard setup process, you can use a USB mouse and keyboard attached to the Pi and then disconnect them when you’re ready to hang it on the wall. Another method is to set up remote access to Pi so you can work from your laptop or desktop computer to control the command center. I’ll do a future post explaining how this can be done. Step 2: Connect the Pi to your wireless network Click on the wireless icon in the upper righthand corner of the screen and choose your network. Add a password if needed. Step 3: Configure the command center You could also save this step for the end, after everything is mounted. There are multiple options for your display. The two that I looked into are: Dakboard – You can create and customize a digital wall display on their website and it will run on your screen through a wireless connection. There is a free version and tiered premium versions with more options. MagicMirror² – A free, opensource, modular option that takes a little more effort to set up but is more customizable. Most people use one-way glass over their screen for this install, to make it look like a mirror that has digital images coming out of it. Here’s an example of a MagicMirror shared by Amy Lee Bennett on medium.com: Step 4: Mount the screen on the wall I decided to mount the screen first, and then build the frame around it. My reasoning was that the screen needed to be very secure. I planned on adding a touchscreen interface in the future and we didn’t want little fingers accidentally knocking the whole thing off the wall. This is the TV Wall Mount I used but you may need to find something different that will work for your screen. Since we chose to mount the screen sideways in a portrait orientation, I attached the wall mount turned sideways as well. As you can see from the picture below, our screen is wider on the bottom than the top. This meant that either the right or left side would be wider once the screen was up in position. The way our screen is set up, the mount attaches to the thin side. If I had simply to mounted the screen sideways, it would have hung on the wall with the thin side close to the wall and the thicker side pushed out at an angle. To remedy this, I added washers in between the mount and the wall to push it out enough for that side to be even with the thicker, bottom part of the screen. You can see below how the mount is pushed off the wall with washers. The two screws on the far right are secured into the stud. The two screw holes on the left wouldn’t reach the next stud and drywall anchor wouldn’t work with my washer tweak pushing out the mount. To give the entire setup a little extra stability, I used some supplies we had in our garage to make one of these screw holes connect to the next stud over. Here is the screen mounted: Then, just because I was worried that the sideways mount might not be secure enough, I attached the bottom of the frame directly to the wall under the screen. I screwed two pocket hole screws on each side directly into the studs with a 1×3. This screen isn’t going anywhere. Step 5: Add the IR touchscreen (optional) The IR touchscreen is something we hope to use to make our command center interactive. We have grand plans to have individual screens to show each family member’s schedule and to-do list. Check out the Youtube video below to see a sample of what the touchscreen can do. It’s from Smartbuilds.io and you can find more great projects on his site as well. To install the touchscreen, I simply clicked the corners together. Then I added the sticky backing that came with the kit and stuck it onto the monitor. Step 6: Add the frame The next step was to build the frame around the screen. I measured and cut 1×4’s to fit and secured two of them together with pocket holes. We wanted to maintain access to the monitor controls and the Raspberry Pi later so I left one board separate. This side was added later onto the frame with velcro. I painted the boards with one coat of black latex paint. You could add a second coat but I liked the way it looked a little distressed with just one. At this point, I also painted the bottom of the frame already attached to the wall. In the photo below you can see the top three sides of the frame just sitting on the bottom one secured to the wall. I felt like I could have stopped here but I had some molding that I thought would look nice around the edges of the frame to make it look more finished. Using our miter saw, I cut the molding ends at 45 degrees to frame the edges. Don’t be afraid to cut the pieces a little too long and then keep slicing small pieces off to get the molding to just the right length. It beats having to go back to the store because you wasted an entire piece on a cut that’s too short. After I had the frame the size set, I glued each piece individually to the 1×3’s of the main frame, but not together at the corners. This way I could remove each side individually if I need access to the monitor or Pi in the future. Here are a couple close-ups of the molding: It turned out pretty nice! Now I need to play with the Magic Mirror modules a bit and tweak the screen setup. I’m working on future posts about how to use Magic Mirror. If I can do it, with absolutely zero coding experiences, you can too!
With six people in our family our calendar is FULL. If we don’t have an organized method to keep track of events, things will get missed. We have tried many different family command center variations. Wall calendars, clipboards with lists, chalkboard and dry erase weekly planners. You name it and we’ve probably tried it. It’s easy to get lost in the many beautiful command center ideas you find on Pinterest. One aspect of the typical family command centers that has been our downfall in the past is that our schedules often change throughout the week. This involves a lot of erasing and re-writing, which often doesn’t get done. It’s hard to trust a planner that might be missing something. I always found myself reverting to my trusty Google calendar. When we moved to a new house, I found myself wondering why we couldn’t just put our Google calendars up on the wall. Then, events would automatically update as they were scheduled and we all could see where everyone was supposed to be and when. A quick internet search showed me lots of great digital command center ideas to get started. Check out the photos below to see just a few. Click on the images to link to their sites for more information on each. Let’s get to making our own! I did some research about the various options, figured out the size we’d need for our wall, and began the planning process. Keep reading to see the materials used and steps followed to make ours. Supplies: Screen with HDMI input First I tried out a TV we had that wasn’t being used. It worked great but was an older model that could only be displayed in landscape orientation. I ended up ordering this computer screen that could be used in portrait mode. Raspberry Pi 4 – I used the Labists Starter Kit, which comes with everything you’ll need to get started USB mouse and keyboard for initial Raspberry Pi setup (Once configured, the Pi can be operated from its own peripherals or another computer connected over the Internet). Screen wall mount – This is what I used but you may need something different for your screen. If it’s small enough, you could also just support the screen with your frame. Infrared Touchscreen Frame (optional) – I plan on making our command center interactive at some point. Kreg Jig Drill 1-1/4″ coarse thread pocket hole screws Level Tape measure Stud Finder Boards for frame 1×3’s Molding for frame – optional Miter saw Don’t forget safety gear like eye protection, sanding mask, and earplugs when using your saw. Wood Glue Clamps Black latex paint Velcro strips with adhesive Step 1: Set up your Raspberry Pi Set up the Raspberry Pi and attach it to your screen of choice. If you need help with this step you can check out this post on how to set up a Raspberry Pi. During the digital dashboard setup process, you can use a USB mouse and keyboard attached to the Pi and then disconnect them when you’re ready to hang it on the wall. Another method is to set up remote access to Pi so you can work from your laptop or desktop computer to control the command center. I’ll do a future post explaining how this can be done. Step 2: Connect the Pi to your wireless network Click on the wireless icon in the upper righthand corner of the screen and choose your network. Add a password if needed. Step 3: Configure the command center You could also save this step for the end, after everything is mounted. There are multiple options for your display. The two that I looked into are: Dakboard – You can create and customize a digital wall display on their website and it will run on your screen through a wireless connection. There is a free version and tiered premium versions with more options. MagicMirror² – A free, opensource, modular option that takes a little more effort to set up but is more customizable. Most people use one-way glass over their screen for this install, to make it look like a mirror that has digital images coming out of it. Here’s an example of a MagicMirror shared by Amy Lee Bennett on medium.com: Step 4: Mount the screen on the wall I decided to mount the screen first, and then build the frame around it. My reasoning was that the screen needed to be very secure. I planned on adding a touchscreen interface in the future and we didn’t want little fingers accidentally knocking the whole thing off the wall. This is the TV Wall Mount I used but you may need to find something different that will work for your screen. Since we chose to mount the screen sideways in a portrait orientation, I attached the wall mount turned sideways as well. As you can see from the picture below, our screen is wider on the bottom than the top. This meant that either the right or left side would be wider once the screen was up in position. The way our screen is set up, the mount attaches to the thin side. If I had simply to mounted the screen sideways, it would have hung on the wall with the thin side close to the wall and the thicker side pushed out at an angle. To remedy this, I added washers in between the mount and the wall to push it out enough for that side to be even with the thicker, bottom part of the screen. You can see below how the mount is pushed off the wall with washers. The two screws on the far right are secured into the stud. The two screw holes on the left wouldn’t reach the next stud and drywall anchor wouldn’t work with my washer tweak pushing out the mount. To give the entire setup a little extra stability, I used some supplies we had in our garage to make one of these screw holes connect to the next stud over. Here is the screen mounted: Then, just because I was worried that the sideways mount might not be secure enough, I attached the bottom of the frame directly to the wall under the screen. I screwed two pocket hole screws on each side directly into the studs with a 1×3. This screen isn’t going anywhere. Step 5: Add the IR touchscreen (optional) The IR touchscreen is something we hope to use to make our command center interactive. We have grand plans to have individual screens to show each family member’s schedule and to-do list. Check out the Youtube video below to see a sample of what the touchscreen can do. It’s from Smartbuilds.io and you can find more great projects on his site as well. To install the touchscreen, I simply clicked the corners together. Then I added the sticky backing that came with the kit and stuck it onto the monitor. Step 6: Add the frame The next step was to build the frame around the screen. I measured and cut 1×4’s to fit and secured two of them together with pocket holes. We wanted to maintain access to the monitor controls and the Raspberry Pi later so I left one board separate. This side was added later onto the frame with velcro. I painted the boards with one coat of black latex paint. You could add a second coat but I liked the way it looked a little distressed with just one. At this point, I also painted the bottom of the frame already attached to the wall. In the photo below you can see the top three sides of the frame just sitting on the bottom one secured to the wall. I felt like I could have stopped here but I had some molding that I thought would look nice around the edges of the frame to make it look more finished. Using our miter saw, I cut the molding ends at 45 degrees to frame the edges. Don’t be afraid to cut the pieces a little too long and then keep slicing small pieces off to get the molding to just the right length. It beats having to go back to the store because you wasted an entire piece on a cut that’s too short. After I had the frame the size set, I glued each piece individually to the 1×3’s of the main frame, but not together at the corners. This way I could remove each side individually if I need access to the monitor or Pi in the future. Here are a couple close-ups of the molding: It turned out pretty nice! Now I need to play with the Magic Mirror modules a bit and tweak the screen setup. I’m working on future posts about how to use Magic Mirror. If I can do it, with absolutely zero coding experiences, you can too!
This is how to use widgets to customize your home screen in Evernote and turn it into your command center for your workflow.
Digital wall art, printable quotes, hand-lettering, instant download. Simple & quick art to decorate your home! *Item Specifics* "Menu" and “Shopping” list LARGE size Hand-lettered in white/black. Perfect printable for your command center or kitchen! Plan meals, take down what you need at the store, and plan your week! * I recommend printing the 16x12 from the PDF as its already formatted to fit an 16x12. If using smaller frames, resizing is easier with the JPG (up to 16x12). Size: 16x12 inches Resolution: 300dpi Watermarks not on digital files. Please note: This is an instant download and no physical item will be shipped. Simply purchase, go to your download link, and print from home using an inkjet printer and quality cardstock paper OR take it to your local photo lab to print! Download includes a JPEG version. Please be aware that colors vary from monitor to monitor and from monitor to print. All designs are uniquely designed and created by Snow Peak Prints. Digital files are for personal use ONLY. Copying, reproducing, sharing, selling, or transferring files or graphics is strictly prohibited. Copyright to Snow Peak Prints. Sale of file does not transfer copyright. Not for commercial use. Because these are digital files, we cannot offer refunds. However, if there is an error on my part, please do not hesitate to contact me and I will be happy to work with you on this! To see more of my work, please visit my shop link https://www.etsy.com/shop/snowpeakprints Thank you for visiting Snow Peak Prints!
With six people in our family our calendar is FULL. If we don’t have an organized method to keep track of events, things will get missed. We have tried many different family command center variations. Wall calendars, clipboards with lists, chalkboard and dry erase weekly planners. You name it and we’ve probably tried it. It’s easy to get lost in the many beautiful command center ideas you find on Pinterest. One aspect of the typical family command centers that has been our downfall in the past is that our schedules often change throughout the week. This involves a lot of erasing and re-writing, which often doesn’t get done. It’s hard to trust a planner that might be missing something. I always found myself reverting to my trusty Google calendar. When we moved to a new house, I found myself wondering why we couldn’t just put our Google calendars up on the wall. Then, events would automatically update as they were scheduled and we all could see where everyone was supposed to be and when. A quick internet search showed me lots of great digital command center ideas to get started. Check out the photos below to see just a few. Click on the images to link to their sites for more information on each. Let’s get to making our own! I did some research about the various options, figured out the size we’d need for our wall, and began the planning process. Keep reading to see the materials used and steps followed to make ours. Supplies: Screen with HDMI input First I tried out a TV we had that wasn’t being used. It worked great but was an older model that could only be displayed in landscape orientation. I ended up ordering this computer screen that could be used in portrait mode. Raspberry Pi 4 – I used the Labists Starter Kit, which comes with everything you’ll need to get started USB mouse and keyboard for initial Raspberry Pi setup (Once configured, the Pi can be operated from its own peripherals or another computer connected over the Internet). Screen wall mount – This is what I used but you may need something different for your screen. If it’s small enough, you could also just support the screen with your frame. Infrared Touchscreen Frame (optional) – I plan on making our command center interactive at some point. Kreg Jig Drill 1-1/4″ coarse thread pocket hole screws Level Tape measure Stud Finder Boards for frame 1×3’s Molding for frame – optional Miter saw Don’t forget safety gear like eye protection, sanding mask, and earplugs when using your saw. Wood Glue Clamps Black latex paint Velcro strips with adhesive Step 1: Set up your Raspberry Pi Set up the Raspberry Pi and attach it to your screen of choice. If you need help with this step you can check out this post on how to set up a Raspberry Pi. During the digital dashboard setup process, you can use a USB mouse and keyboard attached to the Pi and then disconnect them when you’re ready to hang it on the wall. Another method is to set up remote access to Pi so you can work from your laptop or desktop computer to control the command center. I’ll do a future post explaining how this can be done. Step 2: Connect the Pi to your wireless network Click on the wireless icon in the upper righthand corner of the screen and choose your network. Add a password if needed. Step 3: Configure the command center You could also save this step for the end, after everything is mounted. There are multiple options for your display. The two that I looked into are: Dakboard – You can create and customize a digital wall display on their website and it will run on your screen through a wireless connection. There is a free version and tiered premium versions with more options. MagicMirror² – A free, opensource, modular option that takes a little more effort to set up but is more customizable. Most people use one-way glass over their screen for this install, to make it look like a mirror that has digital images coming out of it. Here’s an example of a MagicMirror shared by Amy Lee Bennett on medium.com: Step 4: Mount the screen on the wall I decided to mount the screen first, and then build the frame around it. My reasoning was that the screen needed to be very secure. I planned on adding a touchscreen interface in the future and we didn’t want little fingers accidentally knocking the whole thing off the wall. This is the TV Wall Mount I used but you may need to find something different that will work for your screen. Since we chose to mount the screen sideways in a portrait orientation, I attached the wall mount turned sideways as well. As you can see from the picture below, our screen is wider on the bottom than the top. This meant that either the right or left side would be wider once the screen was up in position. The way our screen is set up, the mount attaches to the thin side. If I had simply to mounted the screen sideways, it would have hung on the wall with the thin side close to the wall and the thicker side pushed out at an angle. To remedy this, I added washers in between the mount and the wall to push it out enough for that side to be even with the thicker, bottom part of the screen. You can see below how the mount is pushed off the wall with washers. The two screws on the far right are secured into the stud. The two screw holes on the left wouldn’t reach the next stud and drywall anchor wouldn’t work with my washer tweak pushing out the mount. To give the entire setup a little extra stability, I used some supplies we had in our garage to make one of these screw holes connect to the next stud over. Here is the screen mounted: Then, just because I was worried that the sideways mount might not be secure enough, I attached the bottom of the frame directly to the wall under the screen. I screwed two pocket hole screws on each side directly into the studs with a 1×3. This screen isn’t going anywhere. Step 5: Add the IR touchscreen (optional) The IR touchscreen is something we hope to use to make our command center interactive. We have grand plans to have individual screens to show each family member’s schedule and to-do list. Check out the Youtube video below to see a sample of what the touchscreen can do. It’s from Smartbuilds.io and you can find more great projects on his site as well. To install the touchscreen, I simply clicked the corners together. Then I added the sticky backing that came with the kit and stuck it onto the monitor. Step 6: Add the frame The next step was to build the frame around the screen. I measured and cut 1×4’s to fit and secured two of them together with pocket holes. We wanted to maintain access to the monitor controls and the Raspberry Pi later so I left one board separate. This side was added later onto the frame with velcro. I painted the boards with one coat of black latex paint. You could add a second coat but I liked the way it looked a little distressed with just one. At this point, I also painted the bottom of the frame already attached to the wall. In the photo below you can see the top three sides of the frame just sitting on the bottom one secured to the wall. I felt like I could have stopped here but I had some molding that I thought would look nice around the edges of the frame to make it look more finished. Using our miter saw, I cut the molding ends at 45 degrees to frame the edges. Don’t be afraid to cut the pieces a little too long and then keep slicing small pieces off to get the molding to just the right length. It beats having to go back to the store because you wasted an entire piece on a cut that’s too short. After I had the frame the size set, I glued each piece individually to the 1×3’s of the main frame, but not together at the corners. This way I could remove each side individually if I need access to the monitor or Pi in the future. Here are a couple close-ups of the molding: It turned out pretty nice! Now I need to play with the Magic Mirror modules a bit and tweak the screen setup. I’m working on future posts about how to use Magic Mirror. If I can do it, with absolutely zero coding experiences, you can too!
With six people in our family our calendar is FULL. If we don’t have an organized method to keep track of events, things will get missed. We have tried many different family command center variations. Wall calendars, clipboards with lists, chalkboard and dry erase weekly planners. You name it and we’ve probably tried it. It’s easy to get lost in the many beautiful command center ideas you find on Pinterest. One aspect of the typical family command centers that has been our downfall in the past is that our schedules often change throughout the week. This involves a lot of erasing and re-writing, which often doesn’t get done. It’s hard to trust a planner that might be missing something. I always found myself reverting to my trusty Google calendar. When we moved to a new house, I found myself wondering why we couldn’t just put our Google calendars up on the wall. Then, events would automatically update as they were scheduled and we all could see where everyone was supposed to be and when. A quick internet search showed me lots of great digital command center ideas to get started. Check out the photos below to see just a few. Click on the images to link to their sites for more information on each. Let’s get to making our own! I did some research about the various options, figured out the size we’d need for our wall, and began the planning process. Keep reading to see the materials used and steps followed to make ours. Supplies: Screen with HDMI input First I tried out a TV we had that wasn’t being used. It worked great but was an older model that could only be displayed in landscape orientation. I ended up ordering this computer screen that could be used in portrait mode. Raspberry Pi 4 – I used the Labists Starter Kit, which comes with everything you’ll need to get started USB mouse and keyboard for initial Raspberry Pi setup (Once configured, the Pi can be operated from its own peripherals or another computer connected over the Internet). Screen wall mount – This is what I used but you may need something different for your screen. If it’s small enough, you could also just support the screen with your frame. Infrared Touchscreen Frame (optional) – I plan on making our command center interactive at some point. Kreg Jig Drill 1-1/4″ coarse thread pocket hole screws Level Tape measure Stud Finder Boards for frame 1×3’s Molding for frame – optional Miter saw Don’t forget safety gear like eye protection, sanding mask, and earplugs when using your saw. Wood Glue Clamps Black latex paint Velcro strips with adhesive Step 1: Set up your Raspberry Pi Set up the Raspberry Pi and attach it to your screen of choice. If you need help with this step you can check out this post on how to set up a Raspberry Pi. During the digital dashboard setup process, you can use a USB mouse and keyboard attached to the Pi and then disconnect them when you’re ready to hang it on the wall. Another method is to set up remote access to Pi so you can work from your laptop or desktop computer to control the command center. I’ll do a future post explaining how this can be done. Step 2: Connect the Pi to your wireless network Click on the wireless icon in the upper righthand corner of the screen and choose your network. Add a password if needed. Step 3: Configure the command center You could also save this step for the end, after everything is mounted. There are multiple options for your display. The two that I looked into are: Dakboard – You can create and customize a digital wall display on their website and it will run on your screen through a wireless connection. There is a free version and tiered premium versions with more options. MagicMirror² – A free, opensource, modular option that takes a little more effort to set up but is more customizable. Most people use one-way glass over their screen for this install, to make it look like a mirror that has digital images coming out of it. Here’s an example of a MagicMirror shared by Amy Lee Bennett on medium.com: Step 4: Mount the screen on the wall I decided to mount the screen first, and then build the frame around it. My reasoning was that the screen needed to be very secure. I planned on adding a touchscreen interface in the future and we didn’t want little fingers accidentally knocking the whole thing off the wall. This is the TV Wall Mount I used but you may need to find something different that will work for your screen. Since we chose to mount the screen sideways in a portrait orientation, I attached the wall mount turned sideways as well. As you can see from the picture below, our screen is wider on the bottom than the top. This meant that either the right or left side would be wider once the screen was up in position. The way our screen is set up, the mount attaches to the thin side. If I had simply to mounted the screen sideways, it would have hung on the wall with the thin side close to the wall and the thicker side pushed out at an angle. To remedy this, I added washers in between the mount and the wall to push it out enough for that side to be even with the thicker, bottom part of the screen. You can see below how the mount is pushed off the wall with washers. The two screws on the far right are secured into the stud. The two screw holes on the left wouldn’t reach the next stud and drywall anchor wouldn’t work with my washer tweak pushing out the mount. To give the entire setup a little extra stability, I used some supplies we had in our garage to make one of these screw holes connect to the next stud over. Here is the screen mounted: Then, just because I was worried that the sideways mount might not be secure enough, I attached the bottom of the frame directly to the wall under the screen. I screwed two pocket hole screws on each side directly into the studs with a 1×3. This screen isn’t going anywhere. Step 5: Add the IR touchscreen (optional) The IR touchscreen is something we hope to use to make our command center interactive. We have grand plans to have individual screens to show each family member’s schedule and to-do list. Check out the Youtube video below to see a sample of what the touchscreen can do. It’s from Smartbuilds.io and you can find more great projects on his site as well. To install the touchscreen, I simply clicked the corners together. Then I added the sticky backing that came with the kit and stuck it onto the monitor. Step 6: Add the frame The next step was to build the frame around the screen. I measured and cut 1×4’s to fit and secured two of them together with pocket holes. We wanted to maintain access to the monitor controls and the Raspberry Pi later so I left one board separate. This side was added later onto the frame with velcro. I painted the boards with one coat of black latex paint. You could add a second coat but I liked the way it looked a little distressed with just one. At this point, I also painted the bottom of the frame already attached to the wall. In the photo below you can see the top three sides of the frame just sitting on the bottom one secured to the wall. I felt like I could have stopped here but I had some molding that I thought would look nice around the edges of the frame to make it look more finished. Using our miter saw, I cut the molding ends at 45 degrees to frame the edges. Don’t be afraid to cut the pieces a little too long and then keep slicing small pieces off to get the molding to just the right length. It beats having to go back to the store because you wasted an entire piece on a cut that’s too short. After I had the frame the size set, I glued each piece individually to the 1×3’s of the main frame, but not together at the corners. This way I could remove each side individually if I need access to the monitor or Pi in the future. Here are a couple close-ups of the molding: It turned out pretty nice! Now I need to play with the Magic Mirror modules a bit and tweak the screen setup. I’m working on future posts about how to use Magic Mirror. If I can do it, with absolutely zero coding experiences, you can too!
Step by step tutorial to create a cheap electronic family calendar using an Amazon Fire Stick and a calendar app.
Raspberry Pi: Wall Mounted Calendar and Notification Center: Before the “digital age” many families used wall calendars to show a monthly view of upcoming events. This modern version of the wall mounted calendar includes the same basic functions: A monthly agenda Sync of family members activities Ea…
Homeschool in style this year with an awesome wall calendar! Teach your kids their months, days, letters, numbers, and weather. These files are an instant digital download. Print them off, put them up in a "toddler command center" and have your kids learn about their days every morning! Then let them learn about what the weather will be like. ****Reminder: these are digital files only! You can print them on your end.** Included: Calendar (24x36) Months (24x36 - cut these out) Numbers for Calendar (11x14s - cut these out) Number of the Day (8.5x11) Shape of the Weeks (8.5x11) Letter of the Day (8.5x11) Yesterday Was, Today is, Tomorrow is: (8.5x11) The Weather Today is: (8.5x11) Numbers 1-24 (8.5x11 - Cut these out and display on the wall, the last page is editable within Adobe Acrobat so you can add as many more numbers as you'd like) Alphabet A-Z (8.5x11 - Cut these out and display on the wall, or string and make a banner) ABC Poster (formatted in 24x36, 16x20, 11x14) *If you want the months to run the entire length of the calendar like in the photo, message me for the JPEG files. The months in the PDF downloads are formatted 6 per 24x36, as requested by most customers. These files are formatted as PDFs. If you need the JPEG files, please message me and I will send you a link!
With six people in our family our calendar is FULL. If we don’t have an organized method to keep track of events, things will get missed. We have tried many different family command center variations. Wall calendars, clipboards with lists, chalkboard and dry erase weekly planners. You name it and we’ve probably tried it. It’s easy to get lost in the many beautiful command center ideas you find on Pinterest. One aspect of the typical family command centers that has been our downfall in the past is that our schedules often change throughout the week. This involves a lot of erasing and re-writing, which often doesn’t get done. It’s hard to trust a planner that might be missing something. I always found myself reverting to my trusty Google calendar. When we moved to a new house, I found myself wondering why we couldn’t just put our Google calendars up on the wall. Then, events would automatically update as they were scheduled and we all could see where everyone was supposed to be and when. A quick internet search showed me lots of great digital command center ideas to get started. Check out the photos below to see just a few. Click on the images to link to their sites for more information on each. Let’s get to making our own! I did some research about the various options, figured out the size we’d need for our wall, and began the planning process. Keep reading to see the materials used and steps followed to make ours. Supplies: Screen with HDMI input First I tried out a TV we had that wasn’t being used. It worked great but was an older model that could only be displayed in landscape orientation. I ended up ordering this computer screen that could be used in portrait mode. Raspberry Pi 4 – I used the Labists Starter Kit, which comes with everything you’ll need to get started USB mouse and keyboard for initial Raspberry Pi setup (Once configured, the Pi can be operated from its own peripherals or another computer connected over the Internet). Screen wall mount – This is what I used but you may need something different for your screen. If it’s small enough, you could also just support the screen with your frame. Infrared Touchscreen Frame (optional) – I plan on making our command center interactive at some point. Kreg Jig Drill 1-1/4″ coarse thread pocket hole screws Level Tape measure Stud Finder Boards for frame 1×3’s Molding for frame – optional Miter saw Don’t forget safety gear like eye protection, sanding mask, and earplugs when using your saw. Wood Glue Clamps Black latex paint Velcro strips with adhesive Step 1: Set up your Raspberry Pi Set up the Raspberry Pi and attach it to your screen of choice. If you need help with this step you can check out this post on how to set up a Raspberry Pi. During the digital dashboard setup process, you can use a USB mouse and keyboard attached to the Pi and then disconnect them when you’re ready to hang it on the wall. Another method is to set up remote access to Pi so you can work from your laptop or desktop computer to control the command center. I’ll do a future post explaining how this can be done. Step 2: Connect the Pi to your wireless network Click on the wireless icon in the upper righthand corner of the screen and choose your network. Add a password if needed. Step 3: Configure the command center You could also save this step for the end, after everything is mounted. There are multiple options for your display. The two that I looked into are: Dakboard – You can create and customize a digital wall display on their website and it will run on your screen through a wireless connection. There is a free version and tiered premium versions with more options. MagicMirror² – A free, opensource, modular option that takes a little more effort to set up but is more customizable. Most people use one-way glass over their screen for this install, to make it look like a mirror that has digital images coming out of it. Here’s an example of a MagicMirror shared by Amy Lee Bennett on medium.com: Step 4: Mount the screen on the wall I decided to mount the screen first, and then build the frame around it. My reasoning was that the screen needed to be very secure. I planned on adding a touchscreen interface in the future and we didn’t want little fingers accidentally knocking the whole thing off the wall. This is the TV Wall Mount I used but you may need to find something different that will work for your screen. Since we chose to mount the screen sideways in a portrait orientation, I attached the wall mount turned sideways as well. As you can see from the picture below, our screen is wider on the bottom than the top. This meant that either the right or left side would be wider once the screen was up in position. The way our screen is set up, the mount attaches to the thin side. If I had simply to mounted the screen sideways, it would have hung on the wall with the thin side close to the wall and the thicker side pushed out at an angle. To remedy this, I added washers in between the mount and the wall to push it out enough for that side to be even with the thicker, bottom part of the screen. You can see below how the mount is pushed off the wall with washers. The two screws on the far right are secured into the stud. The two screw holes on the left wouldn’t reach the next stud and drywall anchor wouldn’t work with my washer tweak pushing out the mount. To give the entire setup a little extra stability, I used some supplies we had in our garage to make one of these screw holes connect to the next stud over. Here is the screen mounted: Then, just because I was worried that the sideways mount might not be secure enough, I attached the bottom of the frame directly to the wall under the screen. I screwed two pocket hole screws on each side directly into the studs with a 1×3. This screen isn’t going anywhere. Step 5: Add the IR touchscreen (optional) The IR touchscreen is something we hope to use to make our command center interactive. We have grand plans to have individual screens to show each family member’s schedule and to-do list. Check out the Youtube video below to see a sample of what the touchscreen can do. It’s from Smartbuilds.io and you can find more great projects on his site as well. To install the touchscreen, I simply clicked the corners together. Then I added the sticky backing that came with the kit and stuck it onto the monitor. Step 6: Add the frame The next step was to build the frame around the screen. I measured and cut 1×4’s to fit and secured two of them together with pocket holes. We wanted to maintain access to the monitor controls and the Raspberry Pi later so I left one board separate. This side was added later onto the frame with velcro. I painted the boards with one coat of black latex paint. You could add a second coat but I liked the way it looked a little distressed with just one. At this point, I also painted the bottom of the frame already attached to the wall. In the photo below you can see the top three sides of the frame just sitting on the bottom one secured to the wall. I felt like I could have stopped here but I had some molding that I thought would look nice around the edges of the frame to make it look more finished. Using our miter saw, I cut the molding ends at 45 degrees to frame the edges. Don’t be afraid to cut the pieces a little too long and then keep slicing small pieces off to get the molding to just the right length. It beats having to go back to the store because you wasted an entire piece on a cut that’s too short. After I had the frame the size set, I glued each piece individually to the 1×3’s of the main frame, but not together at the corners. This way I could remove each side individually if I need access to the monitor or Pi in the future. Here are a couple close-ups of the molding: It turned out pretty nice! Now I need to play with the Magic Mirror modules a bit and tweak the screen setup. I’m working on future posts about how to use Magic Mirror. If I can do it, with absolutely zero coding experiences, you can too!
Turn any screen into a beautiful digital calendar display with our App. Organize your personal, family or business schedules. A paper wall calendar is
All the information I need each day, together in one place
Digital Wall Calendar and Home Information Center: In this Instructable I'll be turning on old flat screen TV in to a wood framed digital Wall Mounted Calendar and Home Information Center powered by a Raspberry Pi. The goal was to have at a glance access to pertinent information for all members of t…
With six people in our family our calendar is FULL. If we don’t have an organized method to keep track of events, things will get missed. We have tried many different family command center variations. Wall calendars, clipboards with lists, chalkboard and dry erase weekly planners. You name it and we’ve probably tried it. It’s easy to get lost in the many beautiful command center ideas you find on Pinterest. One aspect of the typical family command centers that has been our downfall in the past is that our schedules often change throughout the week. This involves a lot of erasing and re-writing, which often doesn’t get done. It’s hard to trust a planner that might be missing something. I always found myself reverting to my trusty Google calendar. When we moved to a new house, I found myself wondering why we couldn’t just put our Google calendars up on the wall. Then, events would automatically update as they were scheduled and we all could see where everyone was supposed to be and when. A quick internet search showed me lots of great digital command center ideas to get started. Check out the photos below to see just a few. Click on the images to link to their sites for more information on each. Let’s get to making our own! I did some research about the various options, figured out the size we’d need for our wall, and began the planning process. Keep reading to see the materials used and steps followed to make ours. Supplies: Screen with HDMI input First I tried out a TV we had that wasn’t being used. It worked great but was an older model that could only be displayed in landscape orientation. I ended up ordering this computer screen that could be used in portrait mode. Raspberry Pi 4 – I used the Labists Starter Kit, which comes with everything you’ll need to get started USB mouse and keyboard for initial Raspberry Pi setup (Once configured, the Pi can be operated from its own peripherals or another computer connected over the Internet). Screen wall mount – This is what I used but you may need something different for your screen. If it’s small enough, you could also just support the screen with your frame. Infrared Touchscreen Frame (optional) – I plan on making our command center interactive at some point. Kreg Jig Drill 1-1/4″ coarse thread pocket hole screws Level Tape measure Stud Finder Boards for frame 1×3’s Molding for frame – optional Miter saw Don’t forget safety gear like eye protection, sanding mask, and earplugs when using your saw. Wood Glue Clamps Black latex paint Velcro strips with adhesive Step 1: Set up your Raspberry Pi Set up the Raspberry Pi and attach it to your screen of choice. If you need help with this step you can check out this post on how to set up a Raspberry Pi. During the digital dashboard setup process, you can use a USB mouse and keyboard attached to the Pi and then disconnect them when you’re ready to hang it on the wall. Another method is to set up remote access to Pi so you can work from your laptop or desktop computer to control the command center. I’ll do a future post explaining how this can be done. Step 2: Connect the Pi to your wireless network Click on the wireless icon in the upper righthand corner of the screen and choose your network. Add a password if needed. Step 3: Configure the command center You could also save this step for the end, after everything is mounted. There are multiple options for your display. The two that I looked into are: Dakboard – You can create and customize a digital wall display on their website and it will run on your screen through a wireless connection. There is a free version and tiered premium versions with more options. MagicMirror² – A free, opensource, modular option that takes a little more effort to set up but is more customizable. Most people use one-way glass over their screen for this install, to make it look like a mirror that has digital images coming out of it. Here’s an example of a MagicMirror shared by Amy Lee Bennett on medium.com: Step 4: Mount the screen on the wall I decided to mount the screen first, and then build the frame around it. My reasoning was that the screen needed to be very secure. I planned on adding a touchscreen interface in the future and we didn’t want little fingers accidentally knocking the whole thing off the wall. This is the TV Wall Mount I used but you may need to find something different that will work for your screen. Since we chose to mount the screen sideways in a portrait orientation, I attached the wall mount turned sideways as well. As you can see from the picture below, our screen is wider on the bottom than the top. This meant that either the right or left side would be wider once the screen was up in position. The way our screen is set up, the mount attaches to the thin side. If I had simply to mounted the screen sideways, it would have hung on the wall with the thin side close to the wall and the thicker side pushed out at an angle. To remedy this, I added washers in between the mount and the wall to push it out enough for that side to be even with the thicker, bottom part of the screen. You can see below how the mount is pushed off the wall with washers. The two screws on the far right are secured into the stud. The two screw holes on the left wouldn’t reach the next stud and drywall anchor wouldn’t work with my washer tweak pushing out the mount. To give the entire setup a little extra stability, I used some supplies we had in our garage to make one of these screw holes connect to the next stud over. Here is the screen mounted: Then, just because I was worried that the sideways mount might not be secure enough, I attached the bottom of the frame directly to the wall under the screen. I screwed two pocket hole screws on each side directly into the studs with a 1×3. This screen isn’t going anywhere. Step 5: Add the IR touchscreen (optional) The IR touchscreen is something we hope to use to make our command center interactive. We have grand plans to have individual screens to show each family member’s schedule and to-do list. Check out the Youtube video below to see a sample of what the touchscreen can do. It’s from Smartbuilds.io and you can find more great projects on his site as well. To install the touchscreen, I simply clicked the corners together. Then I added the sticky backing that came with the kit and stuck it onto the monitor. Step 6: Add the frame The next step was to build the frame around the screen. I measured and cut 1×4’s to fit and secured two of them together with pocket holes. We wanted to maintain access to the monitor controls and the Raspberry Pi later so I left one board separate. This side was added later onto the frame with velcro. I painted the boards with one coat of black latex paint. You could add a second coat but I liked the way it looked a little distressed with just one. At this point, I also painted the bottom of the frame already attached to the wall. In the photo below you can see the top three sides of the frame just sitting on the bottom one secured to the wall. I felt like I could have stopped here but I had some molding that I thought would look nice around the edges of the frame to make it look more finished. Using our miter saw, I cut the molding ends at 45 degrees to frame the edges. Don’t be afraid to cut the pieces a little too long and then keep slicing small pieces off to get the molding to just the right length. It beats having to go back to the store because you wasted an entire piece on a cut that’s too short. After I had the frame the size set, I glued each piece individually to the 1×3’s of the main frame, but not together at the corners. This way I could remove each side individually if I need access to the monitor or Pi in the future. Here are a couple close-ups of the molding: It turned out pretty nice! Now I need to play with the Magic Mirror modules a bit and tweak the screen setup. I’m working on future posts about how to use Magic Mirror. If I can do it, with absolutely zero coding experiences, you can too!
The Digital Family Command Center is a modern, cutting-edge solution that brings organization, communication and efficiency to the heart of a household.
Digital Wall Calendar and Home Information Center: In this Instructable I'll be turning on old flat screen TV in to a wood framed digital Wall Mounted Calendar and Home Information Center powered by a Raspberry Pi. The goal was to have at a glance access to pertinent information for all members of t…
BlumSafe "The Screen" - Conceal Your BlumSafe or Wall Safe! Safe not included. This can be used for a current Blum Safe or your own wall safe you currently have. Or shop our large selection of wall safes. The BlumSafe "The Screen" is a cool way to conceal your BlumSafe Luxury Watch Winder Wall Safe or BlumSafe Luxury Watch Winder Wall Safe Gen 2.0 USA Built. It is a secretly-hinged 32" (diagonal) electronic photo album and information board that goes in front of your safe, any wall safe, or wall nook. If you don't have a wall safe or a BlumSafe, or have a wall with a 2" x 4" deep construction, consider the Wall Nook. The beautiful carpentry of the wood frame makes the safe perfectly hidden so that it is unknowable to any robber. The screen can be locked to the wall with an optional lock bar/valet tray using an RFID credit card "key" for easy unlatching to reveal your BlumSafe. The BlumSafe The Screen provides you with a rotating photo album and a wide array of information that you can easily program yourself through an online portal. The image shown is in a maple finish and photos of the back of the screen are of the prototype and not the final design. Specifications: Outside Dimensions: 31.38" H x 19.25" W x 3.00" D (6" D with Lock Bar) Weight: Approximately 33-35 Pounds Recessed Wall Niche - Select Option Before Adding to the Cart Dimensions In-wall cabinet, 24″ H x 14″ W x 3 3/4″ D Rough opening, 24 1/4″ H x 14 1/4″ W x 4″ D Cubbies, 7 3/8″ H x 13″ W x 3 1/2″ D Exterior at widest points, 25 1/8″ H x 15 1/8″ W x 4 1/2 D Note: This product will cover a rough opening up to 25″ H x 15″ W. If you don't have a BlumSafe Wall Safe or your own wall safe, consider the White Recessed Wall Niche with a plain back. Select this with the BlumSafe Electronic Display Screen. You can store valuables, cash, jewelry guns and install the screen in front of it. The Wall Niche will fit between 16" on-center studs in a 2" x 4" or deeper wall. Note that the cubbies are fixed in height and are not adjustable. They will not hold the Boxy watch winders as the cubby is only 3-1/2" deep. Features: The Screen’s “business end” consists of a 32” (diagonal) IPS high definition computer monitor with 1920X1080 resolution, coupled with its brains — a Raspberry Pi computer connected to the DAKBoard display board cloud service. We considered going with a homemade configuration, but the DAK product is so much easier for customers to use and well-supported. Just connect it to your wifi network, log in and either use one of many templated layouts or create your own completely custom and unique configuration of all your content DAKBoard uses a simple drag and drop, resizable block framework (options beyond a basic template are available with an inexpensive, optional subscription service). This video shows the initial screen setup and configuration. In short — zero maintenance but 100% customizable — the BlumSafe way. Mounting The BlumSafe Screen base mounts on the right side of the front of the BlumSafe. The Screen surface attaches to the wall with magnetic catches or the optional RFID lock (below) and swings away from the wall on high-quality Soss invisible hinges. It is made from solid wood – maple, oak, or walnut stock finishes, either stained or painted black or white. Power Power runs inside the wall cavity alongside the BlumSafe’s winders’ power wire to an outlet or electrical box. Optional RFID Lock Bar. An optional RFID Lock Bar (select below), will keep your Screen locked to the wall and includes a valet tray for your keys, wallet, phone, etc… See this video for operation – basically, the safe opens by swiping an enclosed RFID credit card key at the bottom left corner of the frame. You can also order available key fobs from our supplier. You can easily remove the Screen and the BlumSafe when you move and take them with you – just patch your wall and no one will ever know the safe or BlumSafe Screen was there. Notes: Custom order, non-returnable The Screen’s frame is oiled natural wood. It is normal for this to show unevenness – that is the natural beauty of the wood. You can also order it painted. If you use the Samsung SmartThings multisensor to monitor your BlumSafe, it may or may not work with your Screen (some seem to work, some don’t base on the strength of your wifi network, the monitor, and other considerations). Try it out – if it works, great, if not, simply move the multisensor to the Screen wood frame. Only works in flush-mount situations (will not work with BlumSafe Frame for shallow 2” X 4” walls, but you can use the Nook with this product in shallower 2”X4” walls).
Turn any screen into a beautiful digital calendar display with our App. Organize your personal, family or business schedules. A paper wall calendar is
* Delivery to the USA in just 4 business days! This customizable 32-inch smart display syncs with your calendar (Google, Apple, iCal, Microsoft and other online calendar services) and automatically updates information as soon as you make any changes to your schedule from your computer or smartphone. In addition to the digital calendar function, the display can show the current weather forecast for the next 3-5 days in the region of interest. You can also display to-do lists, traffic and congestion information, package tracking, any RSS news feeds, stock quotes, and more. You can also use the electronic display as a digital photo frame. In slideshow mode, you can show any photos from your family archive. KEY FEATURES: 📍 Display (4K Ultra HD, 3840 x 2160) is a matte panel, so the lighting has no effect on the readability of text and pictures, and there is no mirror effect even when the screen is off. 📍 The screen orientation is available in portrait or landscape. You can select the desired one during the ordering process. 📍 I have extensive experience in IT, so I guarantee that all technical components are of high quality and ready for a long life. 📍 The smart wall displays are dressed in wooden frames. The frames have no holes except for a hole for the power cord, but if you have an outlet behind the display or want to run a power supply through the wall, I won't make a hole in the frame. Just let me know in a comment on the order. WOODEN FRAME: Finished frames in dark ash, cherry and walnut are available. I also offer wood frames painted black and white. If you are interested in a wood or color that is not listed, just email me, very likely I can fulfill your wish. 📐 DIMENSIONS: External dimensions of the display, including frame: Width: 30" (765 mm) Height: 18" (460 mm) Depth: 2.8" (70 mm) Weight: 19.8 lbs (9 kg) Power source: 110-240V 25W 🔧 SETUP: The DAKboard software is used as pre-installed software to control the display. DAKboard usage requires a subscription, which may be free or paid depending on the functionality required. For current information, visit https://dakboard.com/pricing Important! I am not affiliated with DAKboard and am not responsible for the end use of the product. I offer free support to each customer to customize the display to meet your expectations. 💡 RETURNS: Buyer is responsible for return shipping. If the display is not returned in its original condition, additional charges may apply. Important: Your monitor's color settings may distort the true colors of the wood. ❗️ATTENTION UK CUSTOMERS: Please be aware that you will be requested to pay customs duties and local import taxes upon arrival of the parcel to the UK customs facility. Please consider about 19% from the item's price.
Raspberry Pi: Wall Mounted Calendar and Notification Center: Before the “digital age” many families used wall calendars to show a monthly view of upcoming events. This modern version of the wall mounted calendar includes the same basic functions: A monthly agenda Sync of family members activities Ea…
5 Things You Need In Your Kitchen Command Center
Simple line drawing of flowers in a mason jar. Cute minimalist illustration for your home decor. This is a printable Digital File (JPG Format) to download. This is not a physical item. Nothing will be physically mailed to you. You can print this artwork on your printer or use an online/local service to get it printed professionally. Please see my FAQ for more information ! *** You will receive*** 1 ZIP file with 5 High-Resolution JPG Files: 1) 4:5 ratio JPG file for printing: 4”x5”/ 8”x10”/ 16”x20”/ 24”x30”/ 20x25cm/ 40x50cm 2) 3:4 ratio JPG file for printing: 6”x8”/ 9”x12”/ 12”x16/ 18”x24”/ 15x20cm/ 30x40cm/ 45x60cm 3) 2:3 ratio JPG file for printing: 4”x6”/ 6”x9”/ 8”x12”/ 10”x15”/ 12”x18”/ 16”x24”/ 20”x30”/ 24”x36”/ 10x15cm/ 20x30cm/ 30x45cm/ 40x60cm/ 50x75cm/ 60x90cm 4) 5:7 ratio JPG file for printing: 5”x7”/ A5/ A4/ A3/ A2/ A1/ 50x70cm 5) A JPG file for printing 11”x14”inch. The JPG files have been created and designed by me in high 300 DPI, which makes the image super sharp when printing. You can instantly download the artwork once you purchased the item. 1. When the payment has been confirmed, you'll receive an email and be given a page to download the artwork. 2. Once you have the artwork, you can print at home, take it to a print shop, or an online printing service (recommended) ***Matching listing*** https://www.etsy.com/listing/806330595/floral-mason-jar-printable-mason-jar?ref=shop_home_active_1 LICENSE. FOR PERSONAL USE ONLY! This files are for personal use only. You are welcome to print as many copies as you like for personal use, but please note that they are not to be used for commercial purposes. This files may not be transferred or sold in any way. Once your payment has been cleared, Etsy will immediately notify you automatically when your download is available. ***I can resize the files for you for no extra charge, please contact me before making a purchase so I can be sure the requested size is available !***
‘Where’s the newsletter from Pre-School?’ ‘Where’s the electricity bill?’ ‘What did you do with my ticket for the football?’ These have all been utte…
The Hearth Display is the centralized touchscreen that helps your whole family stay organized.