wallmount raspberry pi 7-inch lcd touch screen case brands

Protect your new 7" Raspberry Pi Touchscreen with this premium black case! Designed to house a Raspberry Pi B+/2/3 and the official 7" LCD Touchscreen, it leaves the touchscreen front and Raspberry Pi ports fully available, but encloses the unit completely.

It"s also fitted with two non-slip rubber feet, and an edge bezel that improves the appearance of the screen, whilst keeping the board neatly tucked away behind it. It"s even got a slot in the top for the Raspberry Pi camera!

Available in black, the case provides protection to the board and the display. The case also acts as a bezel to the display, improving its appearance while housing the board neatly behind it.

... is multifunctional and offers 6 positions. For mounting on walls or devices a VESA75 mount helps. The VESA mount can also be used to screw on a Raspberry housing. More details on my blog: https://nerd-corner.com/7-inch-touchscreen-design-case/

This is for a ElecLab 7 inch Touchscreen for a raspberry pi that is running octoscreen. This is the first thing I have designed in fusion 360. It is still a work in progress.

7" touch screen case https://www.banggood.com/7-Inch-800-x-480-HDMI-Capacitive-IPS-LCD-Display-5-Point-Touch-Screen-For-Raspberry-Pi-3-Model-B-p-1077683.html?rmmds=myorder&cur_warehouse=CN Mounting option for raspberry pi using my already printed...

place the screen into the front back top goes on and slides to the side back fits over the PI and slides up the leg slide into the slots (print 2 legs, they are both the same) All done Enjoy How I Designed This Raspberry Pi 7 inch touchscreen I have...

Very basic case I designed for the "Lebula" brand 7 inch RPi touchscreen on Amazon: https://smile.amazon.com/dp/B07VNX4ZWY/ref=cm_sw_em_r_mt_dp_U_2nyZEb2ST65VF, as I could not find one to even modify. Took several iterations to get everything dialed...

Easy to print solid Raspberry Pi 2 or 3, Official 7 inch touchscreen case. I wanted to keep the black bezel look of the screen and not making it bigger. You will need 4 M3x6 or 8 screws to secure the back cover. There is room inside for the power...

New files: - Raspi7Inch_Case_SD_Access_Tall.stl Original post: Easy to print solid Raspberry Pi 2 or 3, Official 7 inch touchscreen case. I wanted to keep the black bezel look of the screen and not making it bigger. You will need 4 M3x6 or 8 screws...

SummaryEasy to print solid Raspberry Pi 2 or 3, Official 7 inch touchscreen case. I wanted to keep the black bezel look of the screen and not making it bigger. You will need 4 M3x6 or 8 screws to secure the back cover. There is room inside for the...

Easy to print solid Raspberry Pi 2 or 3, Official 7 inch touchscreen case. I wanted to keep the black bezel look of the screen and not making it bigger. You will need 4 M3x6 or 8 screws to secure the back cover. There is room inside for the power...

This is a case for a Sain 7" TFT Touchscreen marketed for use with the Raspberry Pi (although it works with at least Windows as well. Pictured print needed hacking to get things to fit, but I modified the design based on the required hacking. Print 5...

This is a Raspberry Pi case that I designed in Google Sketchup for a common 7-inch touch screen. While it may be compatible with many, it was specifically designed for this one (link below):...

Basically, the only difference between my remix of the case and the original is that mine is slightly taller to accommodate the fiber optic indicator mounts and I made the side ports (USB-C, HDMI, etc) a bit easier to get into. ...

... the know screws in. ATTENTION: This case is a much tighter fit than the previous one. Don"t forget to remove the SD card previous to installation. You should try to move the ribbon cable out of the way to the left side facing up....

Hi, in my last project I made a case for raspberry pi. Small PC needs small display! So I bought a tiny 7-inch touch display and designed an enclosure.  Building guide: YouTube Materials I used and links to buy 1024*600...

The Following Screens will fit: - Waveshare 7-inch C LCD (1024x600) - Waveshare 7-inch B LCD (800x480) You will also need: - 5mm M3 Threaded inserts:...

This is a 3D printable case for the Raspberry Pi 4 + 7" touchscreen display, available here: https://www.amazon.com/gp/product/B07L6WT77H/ Front - Can be printed face down with no supports. If you"re having warping at the corners, try face up with...

Remix of Leetspeak"s excellent Raspberry Pi Official 7" Touchscreen case mounting arms. Per the original design, you have to assemble the mount by sliding it onto the end of a 2020 or 2040 extrusion. I didn"t want to disassemble, so I trimmed the...

Remix of Leetspeak"s excellent Raspberry Pi Official 7" Touchscreen case mounting arms. Per the original design, you have to assemble the mount by sliding it onto the end of a 2020 or 2040 extrusion. I didn"t want to disassemble, so I trimmed the...

Hi, update: added a loosen version of the adapter part I designed this wall mount fot this Raspberry Pi 7 inch Case https://www.thingiverse.com/thing:1585924 The Pi with the Screen have a weight about 400g. So you dont have to print the Parts solit...

Hi, update: added a loosen version of the adapter part I designed this wall mount fot this Raspberry Pi 7 inch Case https://www.thingiverse.com/thing:1585924 The Pi with the Screen have a weight about 400g. ...So you dont have to print the Parts solit...

The touch screen cases are designed to house your Raspberry Pi board (get it separately) and together with the Raspberry Pi 7” LCD Touch Screen(get it separately). Assembly is straight forward, just follow the guide:

We carry the black cases, it provides protection to the board and the display. The case also acts as a bezel to the display, improving its appearance while housing the board neatly behind it.

Your Raspberry Pi 7” LCD touch screen now has an effective protector stand which can also accommodate your programming board. It can be assembled in just minutes and enables access to the board’s USB and HDMI ports even once closed.

You’ve been incredibly patient: thank you. The official Raspberry Pi touch display is on sale today, priced at $60 (plus local taxes and shipping): you can buy it at RS Components/Allied Electronics and at Premier Farnell/Newark. Other sellers will be receiving stock later this week.

Two years ago, I began the process of looking for a simple, embeddable display for the Raspberry Pi. I honestly believed it would only take us six months from start to end, but there were a number of issues we met (and other products diverted our attention from the display – like Rev 2.1, B+, A+, and Pi 2). But we’ve finally got there, and I thought you might be interested in learning about our journey.

HDMI is the system we all know and love, it allows us to communicate with monitors up to 4K and has a relatively low signal swing to reduce EMI. There are lots of other very useful bits of the specification such as CEC (a communication channel between the TV and the Pi that allows us to receive input from the TV), EDID (a method of automatically identifying the different formats the TV supports) and a hotplug signal allow the Pi to know when you plug in the cable. The only problem with HDMI is that the electronics required to convert from HDMI to the native panel interface can be quite expensive.

DPI (Display Parallel Interface) is a 24-bit parallel interface with a clock and various synchronisation signals totalling 28 signals, all of which switch at a rate of around 70MHz. This interface has been phased out of tablets/phones because the electromagnetic noise created and power consumed by all those wires. Although it is possible to directly talk to a DPI display through the GPIO connector on a Raspberry Pi it would leave no GPIOs left for people to connect other HATs. DPI displays are available everywhere though, and are relatively cheap!

DBI (Display Bus Interface) is an old display technology that usually has inbuilt frame storage to reduce tearing, due to the memory and hardware it makes DBI screens expensive.

So our solution to this problem was to employ both DSI (to avoid using up all the GPIOs) and DPI (easily available screens in suitable resolutions) and a bridge chip/conversion board to convert between the two.

When looking for a device, we needed to look for what are termed ‘Industrial’ LCD displays. These tend to have better-quality metrics and guaranteed availability.

Our first PCB to do the DSI to DPI conversion was completed back in mid-2013. The board used a Toshiba bridge chip to convert the DSI signals to DPI ones. I spent quite a bit of time getting the Raspberry Pi to talk to the bridge device, and then got it working and displaying an image (yay). We then took it to our local EMC test facility to investigate how easy it would be to pass CE and FCC electromagnetic compliance.

When electrical currents flow around a circuit board, they create electro-magnetic fields, which can be picked up by other electronic devices. Maybe you remember what used to happen to your CRT television when your mum turned on the hoover (sorry for those of you without any experience of analogue television). This was becoming a problem for television and radio receivers; when I was a kid and plugged in my Spectrum 48K, the radio wouldn’t work properly any more. So the powers that be introduced new rules about the amount of energy a device can output at various frequencies from 25MHz up to a couple of GHz. You have to make sure your electronic devices do not cause interference, and are not susceptible to electronic interference.

Unfortunately, DPI is 1.8V signal swing, and although much slower, it needs 28 signal wires, meaning 28x more paths with the same edges switching up and down at the same time. This gives us an output looking something like:

The next step was to understand why the EMI is so bad, so we tried redesigning the board so it looks like a HAT (it’s not actually a HAT because there is no EEPROM for device tree information), and added an Atmel device to control the power/reset and PWM for the backlight. We also went through three different iterations of adding chokes to improve the noise conducting down the power supply cable, and manipulating the route of the DPI signals to improve the path of the ground return.

The first displays are supplied as a kit which requires some initial construction. Alex Eames from RasPi.TV has helpfully provided a video showing how to do it.

The display module integrates the LCD display with a conversion board that should be plugged into the Raspberry Pi through the display connector. Be aware that the connector is the same as the camera connector, but the two are not compatible, so be careful to correctly identify the display connector first.

The 15-way FPC connector should already be plugged into the display conversion board with the silvered contacts face-up. You can then plug the connector into the Raspberry Pi with the silvered connectors inboard (facing towards the USB connectors).

Attach an official 2A Raspberry Pi power supply to the display board “PWR IN” connector, then attach a standard uUSB connector from the “PWR OUT” connector to the Raspberry Pi.

The Raspberry Pi will now automatically detect the display and use it as the default display (rather than HDMI), although HDMI will still be initialised. If you’d prefer for the HDMI display to stay as default then add:

Please note, you may need to increase the amount of memory allocated to the GPU to 128MB if the videos are 1080P, adjust the gpu_mem value in config.txt for this. The Raspberry Pi headline figures are 1080P30 decode, so if you are using two 1080P clips it may not play correctly depending on the complexity of the videos.

The Raspberry Pi display has an integrated 10-point touchscreen (a bit of an overkill, but it does seem to work well). The driver for this touchscreen outputs both standard mouse events and full multi-touch events, and therefore can work with X as a mouse (although not brilliantly – X was never designed to work with a touchscreen!).

Kivy is a Python GUI development system for cross-platform applications. It is designed to work with touchscreen devices (phones and tablets), but also runs on the Raspberry Pi. To install Kivy onto your Pi follow the instructions at

From the videos you can see how capable the interface is. I’m in the process of developing a touchscreen application for an installation at home to control a safety and heating monitoring system, so you’ll probably hear more about that at some point!

Science fiction has always served as a window into a potential future, namely in the way of technology. But what was once regulated to episodes of Star Trek is quickly becoming the stuff of reality. Many fixtures of these kinds of shows and books have begun to inspire real-life counterparts, including - but not limited to - touchscreen technology.

One only has to look at how far cell phones have come since their inception. Physical keyboards, like those from BlackBerry, gave people about as much of a solution as is possible for those who found themselves doing more on the devices as they became more advanced. Where tactile options came up short, touchscreens graciously stepped up to bat, providing a much fuller experience. This kind of functionality then spread to tablets, which are considered by many to be rivals of laptops and even standard PCs.

While there are still some things that are best done on a desktop computer, that does not change the fact that many users find themselves longing for the same abilities on their PCs afforded by many of their mobile devices. This is what helped breed the touchscreen monitor market, which has many viable options for people seeking the best of both worlds. With stronger computing power and a finer ability to control actions occurring in the screen, users can get more work done in new and exciting ways.

Traditionally, computer mice are what have allowed us to "touch" in a virtual context, but touchscreen monitors are changing all that. It might be said that the reason that mice were used in the first place was because the technology had not evolved to a responsive enough level to enable that natural solution. Now that people have the touchscreen technology, they want it everywhere.

If one thing is for certain, it is that the burgeoning adoption of touchscreen technology is no fad. Proliferation has already come too far to turn back now, and computer manufacturers are taking notice. Everyone is trying to get a piece of the action, including ELO Touch Solutions, Laiputuo Electronics, Planar, HP, 3M, Touch Systems, ViewSonic, Dell and ACER as well. Getting into the touchscreen monitor game is a no-brainer for the companies involved in this generation of computing. With so many different applications made for touchscreen monitors, options exist for all sorts of interested parties.

Touchscreen monitors are becoming the new standard in both private and enterprise settings. Here are some of the ways they can be leveraged effectively for business: touchscreen monitors for workstations, touchscreen monitors for hospitals, and touchscreen monitors for POS systems.

Newegg offers a large selection of touchscreen monitors which vary according to the type from 5-wire Resistive touchscreen monitors, and Accu Touch touchscreen monitors, to Capacitive touchscreen monitors, and more. Newegg’s wide selections will definitely meet your needs.

The Raspberry Pi ranks as arguably the most popular single-board computer (SBC). Almost as important as selecting the proper operating system (OS) and Raspberry Pi board is snagging the right case for your Pi. Considerations include which Raspberry Pi version you’re using, as well as what you plan to use your Pi for. Check out the 19 best Raspberry Pi cases available!

Although most Raspberry Pi boards, except for the Zero, are compatible with almost any case, there’s a bit of variety. Most Raspberry Pi 3 cases are compatible with Raspberry Pi B+ and Pi 2 boards as well. The primary element dictating which case is best for your Raspberry Pi is form factor. If you have a newer Pi board, you’re usually fine with any case. Which Raspberry Pi you"re using largely dictates if a case will work. The Raspberry Pi Zero and Zero W require a different case than the Raspberry Pi 3 B+. Virtually every Pi 2 through Pi 3 B+ case should work for Raspberry Pi 2, 3, and 3 B+ boards. There"s also the Raspberry Pi 3 A+ with a smaller footprint. And the introduction of the Raspberry Pi 4 ushered in a hardware refresh that fractured compatibility with Pi 3 B+ cases. But what you plan to use your case for shapes what design and functionality you’ll need. For instance, if you require a hard drive, you’ll want a different case than for a retro gaming console. A Raspberry Pi board array will differ from a single Pi setup.

Among the easiest but most satisfying Raspberry Pi projects is a retro gaming console. There’s no shortage of means to accomplish this feat, from RetroPie to Recalbox or Lakka, and even a roll-your-own method. While Nintendo’s NES Classic Mini is a neat console, a Raspberry Pi offers greater functionality through additional emulators, more ROMs, and the ability to serve other purposes, such as doubling as an HTPC. However, the NES does come in an original Nintendo shell. With the Retroflag NESPi Case, you can transform your Pi into an NES Classic clone. Bonus points for working power and reset buttons. Additionally, the bottom of the console features a microSD card holder. However, note that the reset and power buttons simply cut the power, performing a hard shutdown. Therefore, you may consider properly shutting down your Raspberry Pi. Nevertheless, this is a fantastic case for the Pi that will let you game in style.

Just Retroflag makes its Raspberry Pi NES case, so too does it offer a SNES Raspberry Pi case. The RetroFlag SuperPi case comes in two variants: Super Nintendo North America clone, and the PAL version. Like the NESPi, the SuperPi rocks functioning power and reset buttons, SD card and port access, as well as a microSD card storage slot. There"s ample ventilation. While you can snag just the cases, you may also buy a case plus controller bundle for the SuperPi JCase andSuperPi UCase. It"s more fun running retro gaming OSes like RetroPie with an old school gaming case.

While RetroFlag allows you to make a DIY NES Classic Mini or SNES Classic Mini, you may prefer a Sega Mega Drive clone. Enter the Retroflag MegaPi case. As is the norm with Retroflag Raspberry Pi cases, the MegaPi touts functional power and safe shutdown buttons, microSD card storage, and access to all ports. Plus, ventilation keeps your system cool while in use. If you"re looking to build the ultimate Raspberry Pi retro gaming console, the MegaPi is a worthy choice. Try pairing this with an operating system such as Recalbox.

Similarly, the Super Tinytendo case brings a Super Nintendo (SNES) aesthetic to the Raspberry Pi. As such, this case makes the Pi a true SNES Classic competitor. It’s available in configurations with a cooling fan and without. For those planning to overclock, the cooling fan is recommended. Otherwise, sans cooling fan is fine. The Tinytendo Case allows for full access to USB, power, HDMI, and Ethernet components as well as the microSD card slot. On the front, you’ll find a red LED which lights up when powered on. On top, there are aesthetic power and reset buttons. Unlike on the Retroflag NES case, these don’t work. Still, it’s one of the best-looking cases and a solid choice for gamers. Best used in conjunction with an OS such as Lakka.

Similarly, the Rasptendo offers a SNES look. However, the Rasptendo differs from the Super Tinytendo in that its power and reset buttons actually work. You’ll first need to install a Python script, but this is a particularly neat touch. There’s full access to the microSD card, and rear access to power cables, HDMI port, and Ethernet. Further, the front features a pair of USB ports which is perfect for hooking up USB controllers. Since this case uses a Python script, it safely reboots or resets the Raspberry Pi making this an excellent option.

Most Raspberry Pi cases lack any room for a standard hard drive. However, the MediaPi+ case provides a hard drive bay, extra USB to power the hard drive, and an integrated infrared (IR) hub for using the included media remote, or most universal remotes. Since it includes a hard drive bay and IR sensor, as well as additional USB ports, the MediaPi+ is a top choice for home theatre PC enthusiasts. Simply install a media centre OS such as Kodi, OSMC, LibreELEC, OpenELEC, or even retro gaming OS like Recalbox and RetroPie, hook up your hard drive with your media, and you’re ready to go.

The CanaKit Raspberry Pi case in black is a barebones but well-constructed and sleek Raspberry Pi case. You’ll find heat sink openings, an easily-removable lid, and glossy surface that’s mountable. All connections including the microSD card reader are accessible. This is the first case I snagged along with my Raspberry Pi board, and it’s held up well over several years of use. Though it’s not necessarily flashy, it’s simply a durable, pleasant-looking case.

Like the Canakit Raspberry Pi case, the Raspberry Pi Foundation official case is an affordable, sturdy solution to housing your Raspberry Pi. Onboard, there’s a removable lid and removable side panels for quick GIPO access. The top frame comes off, and it’s engineered for Pi HATs, or hardware attached on top. That makes this the perfect case for do-it-yourself (DIY) makers wishing to utilise HATs.

A neat option for the Raspberry is use of a touchscreen. This touchscreen case for the Raspberry Pi includes a 7-inch touchscreen, wall-mountable stand with adjustable angle, and building block compatible camera case which attaches to the back. Moreover, this touchscreen case is functional with Pi HAT boards for further expansion. Since there’s a touchscreen, it’s easy to convert your Pi into a wall-mounted dashboard or a Mycroft AI unit.

This touchscreen resembles the official Raspberry Pi case, but includes a building block compatible front. There’s a camera case included and on the front a strip which you may connect LEGOs to. It’s compatible with Pi HAT boards, and GIPO connections are accessible. Overall, this is one of the better touchscreen cases for the Pi. This could be a solid choice for a wall-mounted smart home hub such as Hass.io aka Home Assistant.

Kuman makes an incredible TFT touchscreen case for the Raspberry Pi. The screen clocks in at 3.5 inches, with a 320x480 resolution. It houses the Pi board in a transparent protective case. Plus, the Kuman touchscreen case includes a pen and three heatsinks. It’s a really well-designed case complete with a bevvy of accessories. While the screen is smaller than that of the official touchscreen cases, it’s still usable though and ideal for smaller projects that require a touchscreen. Alternatively, use this as a general case which happens to have a touchscreen on top. Because it lacks a stand, this could be neat as a Pi desktop, retro gaming Pi, or low-powered HTPC.

Sometimes, just one Raspberry Pi won’t do. For these instances, you’ll need a Raspberry Pi array. Maybe you’re running a low-powered cloud cluster, or possibly a bit of cryptocurrency mining with your Raspberry Pi. If you have several Raspberry Pi devices running in conjunction, the Raspberry Pi four layer stackable dog bone case is your best bet. With this case, you can fit a whopping four Raspberry Pi boards. Comprised of 3mm laser cut acrylic, it’s durable yet aesthetically pleasing.

Featuring removable grey building block-compatible top sections, this Raspberry Pi allows for LEGO construction on the case. Plus, the SmartiPi includes a GoPro compatible mount and wall-hanging eyelets. There’s simple, stress-free GIPO access as well. With its LEGO-compatibility, the SmartiPi lets you build on whether for creativity or function.

Whereas most Raspberry Pi cases are comprised of plastic, the Flirc differs in its premium aluminum construction. The top and bottom are soft-coated plastic, with a metal middle outer section. Plus, there’s a built-in thermal pad, heat sink, and screws. GIPO connections, as well as USB, Ethernet, HDMI, and microSD, are all easily accessible from the case. The vanilla Flirc is great, but the Kodi edition is perfect for home theatre PC buffs. The Kodi edition includes rubber feet so that the Pi hovers under a TV or monitor. On the bottom, you’ll find ventilation slots to maintain a cool operating temperature. Additionally, GIPO pins are accessible through the bottom of the case. Best of all, the top is adorned with Kodi insignia.

The Pibow Coupe is a sweet looking case available in a variety of colourways. Not only does this case appear gorgeous, but it’s among the thinnest Raspberry Pi cases available. This acrylic case is transparent, showing off the internals of the Pi, and all ports are easily reached. Further solidifying the Pibow as one of the top Raspberry Pi cases available, the price is super affordable at under $10 USD.

A major limitation of the Raspberry Pi is its lack of a hard drive bay. Sure, there’s a microSD card slot and USB ports. But hard drive storage is often available at a lower cost. If you want to use a hard drive with your Raspberry Pi, check out the MakerFocus Raspberry Pi case. This case includes a cooling fan and a power control switch so that it can power both the Pi and a hard drive. There’s a slot for a 2.5-inch SATA HDD or SSD. Users report that most any hard drive should function. Armed with a hard drive, this might make an excellent Raspberry Pi-powered server.

The Raspberry Pi, despite its low power draw, is reasonably capable of running a variety of operating systems and software options. As such, it’s a nifty low-powered desktop base. With the DIY Pi Desktop Case, you can morph your Raspberry Pi into a full-fledged desktop. There’s a safe power controller, real-time clock built-in, heatsink, and mSATA connection. Thus, you can add a hard drive and operate your Raspberry Pi as a desktop. Unfortunately, the microSD card is not accessible while in the case. Still, it’s a neat case and ideal for using your Pi as a traditional desktop or server.

If you"re going to build a retro gaming arcade with a Raspberry Pi, you"ve got several options. For a retro aesthetic, simply use an NES, SNES, or Megadrive-inspired case from the likes of Retroflag. Alternately, for an arcade cabinet form factor, you may make your own. But Pimoroni offers the Picade cabinet kit and Picade Console. Its cabinet kit, as the name suggests, is a mini tabletop arcade cabinet complete with joystick, buttons, and screen. The Picade Console, on the other hand, offers a plug-and-play arcade unit with joystick and buttons, similar to classic game connect and play devices.

Kintaro offers a high-quality Super Nintendo-inspired Raspberry Pi case. With the Super Kuma 9000, you"ll be revisiting "Turtles in Time," and "Yoshi"s Island," in style. It"s easily one of the best Raspberry Pi cases on the market. With a front LED, functional power and reset buttons, and excellent heat sink, your Pi won"t overheat while gaming.

There"s a reason that the original Raspberry Pi Foundation case tends to see a lot of use. It"s simple yet effective, and really eye-catching. My Raspberry Pi 4 remains safely nestled inside a fetching red-and-white color schemed Raspberry Pi Foundation case. I snagged a complete kit, so there"s a matching keyboard and mouse. You can pick up a Raspberry Pi Foundation kit for the Raspberry Pi 3 B+, Raspberry Pi 4, and Raspberry Pi Zero.

A quick search reveals that there’s no shortage of Raspberry Pi cases. For general use, almost any Raspberry Pi case will do. But for more specific tasks, you’ll want an enclosure which yields the functionality required, or simply the aesthetics. I’ve been more than pleased with my CanaKit glossy black Pi case. But the RetroFlag NES case and Rasptendo SNES clone case lend a fun retro sentiment to my dedicated Raspberry Pi game arcade. Cases like the DIY Pi Desktop Case, MakerFocus, and MediaPi+ include a hard drive bay for additional storage. If you require a touchscreen, many cases offer this feature standard. No matter which Raspberry Pi you have, or what project you’re planning, there’s a superb case for you.