I ended up building a second Bartop Arcade. This one has a few changes compared to the first one. The cabinet is made with grey Melamine coated fiberboard. So it didn’t need painted. I also didn’t do the cutout of cabinet or the main assembly. The marquee top issue was addressed and cut to the proper angle. The Door was properly sized. The cabinet is assembled with Kreg Jig pocket screws and not corner blocks. For the fan the larger “speaker” pattern was used at the bottom of the door. Edge banding was used on the back of the cabinet instead of tmolding. The edge banding was used on the edges of the door and door opening, any of the board ends that weren’t covered with the Melamine coating. It makes it look very clean.
With the VESA Mounted monitor, it is cleaner inside, with more room. This build is a better fit to put a small or “Tiny” form factor PC into with Ubuntu and Retropie instead of using a RaspberryPi with Retropie. The Pi5 is out now, which is even more powerful than the Pi4 used on this build, but as of 3/24 does not yet have a Retropie Image made for it, although it is possible to do a manual install just as I did with the Pi4 on this build back when it didn’t have a build for it then. I don’t know the limits of a Pi4 or Pi5 and what it can’t run, but I expect there are plenty of (even used) Tiny PCs out there that are even more capable. It is good though that the Pi4 prices have come back to proper retail pricing, and the Pi5 is having some availability, so they are again at least viable options. With the Pi4 I don’t think ventilation is an issue, with the Pi5 it does run warmer, and with a PC you may want more ventilation that was put into this build.
here you can see the lock placement was a bit different. I also used one of the spare 30mm buttons for the safe shutdown.
The monitor was specifically purchased for this build. It is a BenQ 24″ IPS Monitor Model GW2480. This monitor supports using a VESA mount, so this time it is mounted with the VESA bracket. That made it much cleaner inside as far as not having that big block in the way in the middle. This monitor is larger than the one in the first cabinet. It “just” fits. Some 24″ monitors do not fit, this one does as it is virtually bezel-less on the sides and top. I used the same techniques for the plexiglass bezel on the monitor, there was very little black on the sides with this one though.
The back of the control panel has a piece on it that the plexiglass panel slots into so it doesn’t flex there. You can just see part of that piece of white textured material there below the edge of the monitor, that is the part the plexiglass rests into the front and it is attached to the control panel board. For the Marquee I went with the same design, as well as the same speakers. I am also using the same type of Meanwell dual voltage power supply.
There are other changes on the inside, for this build I am using a Raspberry Pi 4 not a 3b+. The basic reason being the Pi 4 is the same price and a more powerful system. When I build the unit there wasn’t yet a supported build for the Pi 4 though. In the end the only features that wouldn’t work for me was the splash screen/video.
I did run the speakers to the audio jack on the Pi this time tough. I couldn’t do the audio from the HDMI off of the BenQ and get rid of the static. Running the audio off of the Monitor audio out in the last one had eliminated the noise from the shared power supply on the speaker and Pi, but this time with this monitor that didn’t work. I had to put in a ground loop isolator. It is hard to make out much of it, but it is sitting there at in the middle of the bundle of wires. It is a little unit that has what looks like “Design” on it it is actually “Besign” Ground Loop Noise Isolator available on Amazon for $8.99 usually. I have had a number of these little units, one being in my pi1541. Since putting the audio through the monitor out didn’t fix the ground loop, I went strait to the Pi’s audio jack, as the output on the monitor I believe was much lower making the speakers not as loud.
The Pi4 does get hotter, and requires a good cooling solution. I went with a heatsink style case with the 2 fans on it. This case keeps the Pi nice and cool, the fans are not very loud. It is attached to the bottom of the cabinet with a piece of Velcro.
Here is another view, just showing the fan mounted in. You can also see the the stopper block in the middle of where the door closes. I think the unit looks much nicer inside. You can’t see it any pictures I though to take, but the controllers use a different pc board design. The ones I have used before are the kind with a header for a permanently attached usb cable, these have the usb port and use standard usb a to b cables. The order of the buttons is different. So it took me a little while to sort out how to wire these in the exact same order as my other cabinet and usb arcade stick. Having everything wired the same lets me use the usb arcade stick I had made as a third player controller. I also can have a single Retropie image for any cabinet without having to reconfigure the controllers. My Pi3 SD card is not compatible with the Pi4 though. I used alternate instructions on getting a new image setup with the Pi4. I built this back in the end of January, but they have since released a new version with “beta” support for the Pi4. The game scraper has not been working on either machine, but the update is listed to have fixed that. To set this one up, I pulled game info and images from another Retropi install that I have.
Here you can see how narrow that black border is along the sides. The larger screen goes nearly to the edge on this build. It looks like I still had the tape on the speaker grills as the silicone that I used to install them was still curing.
Here you can see a better view of the Marquee as the unit is powered off. The marquee is the same design and print that I made for the first one printed on the inkjet printer. This marquee is slightly shorter, that is why the Atari is about to get cut off in the trim pieces. I don’t think I went over the trim pieces in the last build, they are cut from some angled vinyl window trim pieces I had left over. They go back in between the mdf and aluminum pan to hold them in, and have a short lip that goes up and holds in the plexiglass.
The other changes with it are that I ended up doing a 3d printed customized volume knob for the speakers. The knob is nothing special, it was off of Thingiverse, so that I had the proper shape and fitting, I then stretched it in Tinkercad to be tall enough. It did have a bit that stuck out to denote the position, I removed most of that, as there really is not a relative marking on the cabinet. I did it in white so it would not stand out too much. I also ended up designing and printing out some speaker covers on my 3d printer. They are nothing fancy, and are held in with some clear silicone in the openings. With the first one, I used the 2″ desk insert pieces with the fabric, I didn’t have any fabric or 2″ desk grommet inserts.
The Melamine coating saved a lot of work. The draw back being it is a very thin coating and brittle. It is easy to chip out and not much can be done to fix it that I know of anyways. The fiber board in it is coarse board not the fine cardboard like consistency of the MDF, which I think may make it lighter. Tmolding is just very slightly undersized, this exposed some of the unfinished edge of the board. With the MDF black cabinet, I had paint on the edge although not as smooth or well coated as the other surfaces, so that is more hidden on it. If I had realized that, I would have painted the edge of the board before putting on the tmolding or had the edge banding put on it all around. Overall the cabinet is lighter, I think partly the coarser board rather than the MDF, also the lack of a base on the monitor as well as no blocking to build that up. The monitor itself may be lighter even though it is a bit larger. Then there is the lack of corner blocking that may very well add up overall.
It is certainly different looking than the first cabinet. I like it though.
If you are interested and have not seen the other Bartop cabinet posts I do go into more detail there. This just notes many of the differences on this build. I have also posted about an AirMouse project that I made to use as a Zapper replacement for Duck Hunt.
This is part 2 of the Arcade. The first post has the Arcade in a good working condition. This will cover some of the final touches.
I did a bit more work on the Marquee. I am in no way a graphic artist. I had downloaded some logos to do the initial graphic. I found some better ones to use and made some other changes to it. I then printed it out on my inkjet printer onto 3 sheets just like the previous test one I did on a black only laser printer. It turned out pretty well, I couldn’t do a full color graphic though. I think I will leave it at this paper graphics for awhile anyways.
For the Marquee there really aren’t any hot spots. I was thinking doing a frosted piece of Plexiglass behind the marquee to handle any hotspots, but that turned out to not be needed (with the paper that is). It is a little brighter than I think I want it, but I didn’t find it too distracting while test playing it. It is quite hard to photograph anywhere near properly though as bright as it is. I have at this point decided to not make a dimmer system for it. I have a couple of workable circuits that I have used for that in the past, I just don’t want to take the time at this point, when the biggest issue is taking photographs of it.
For the LCD I wanted to make a bezel/cover that went over it. To do this I put some 1/8th inch strips up the sides of the cabinet to rest the Plexiglas against. It slides up behind the Marquee bottom board, between it and the top edge of the LCD itself. For Mike’s it seemed he was putting the MDF strips up infront of the monitor? At least in his plans, that would have pushed it back, in my case with the thin strips they are even with the front of the LCD and are just guides to keep the plexiglass from flexing. Mike also had a small board along the bottom above the control panel, which I omitted due to the Plexiglas. I fitted the Plexiglas so that it just meets up with the back edge of the control panel. It is not held along the bottom and just goes up against the control panel board, so it can flex and make a gap there a bit. I may have to secure that in some way in the future, but currently it is minimal, and I do not want to make it difficult to remove the control panel if I can help it.
Above is the Plexiglas I was cutting for the screen. To cut it, I used a board and metal angle clamped together. I was cutting from the side on the right side where the knife is laying. Because the Plexiglas had a bad edge from when I purchased it, I needed to be sure to get one good long cut for the bottom edge. The top edge is hidden up past the marquee bottom board. This stuff is very hard, it is not the softer type so I found that it likes to fracture/crack. I managed to get a very good first cut on the top edge. The next cut, which I was doing in that picture really cracked up the edge. The last cut, cutting it down to the right width, that cut went very well thankfully. I had 1 factory edge and 2 cut edges exposed that turned out pretty well. It was very slightly too wide, to get it down to the right width I used some 180 grit sandpaper with a sanding block to get it just right.
The next part after fitting the Plexiglas was to get it in the final position with the LCD in place and the Control Panel in place. I then used a marker to mark the corners of the LCD behind the Plexiglas. I removed the Plexiglas, and monitor. I placed the monitor on the bench facing up and then placed the Plexiglass back over it using the marks I did while it was in the Cabinet to get a good view and check the marks were correct and centered properly. Once I was sure I had the corners marked correctly, I took away the monitor and flipped the Plexiglas to the back side. The back side being the side that will in the end be toward the monitor itself once installed. From the back side, I cut into the protective plastic with a fresh Xacto blade around where the monitor will be placed, and removed the outer portion (yes only the outside part, not the center where the monitor will be). This left the “monitor area” covered and protected. I also kept the protective layer on the “front” side as well. Then I used some Gloss Black Rustoleum 2x Ultra Cover paint, painting that on the outer rim that I exposed by removing the film from it. This paint is on the back side of the plastic not the front, I have done this before for other projects. It leaves with me with a super gloss finish when viewed through the plexiglass and the paint won’t be touched so it won’t get scratched. You could use any opaque paint color, in my case I was using Black due to the black case, red, blue anything really should work. Even Flat paints look super gloss from the front side. I have used dark flat primers before to get the same effect. The back is not flawless, it is not quite 100% opaque if back lit with a single coat(with more coats of paint it can be made fully opaque), but it is opaque enough for this use in my case with the single coat. Viewing it from the front the finish is flawless.
Below you see the painted edge once the “inner” monitor protective plastic film was removed after painting on the black paint. The “front” still has the protective film on at this point, which is where that white label is stuck to.
Above is the panel after painting it once I removed the protective layer from the inside. This reveals where the monitor will now be behind. The paint does take a while to dry well. I wanted to make sure it was good and dry before installing it, I didn’t want paint lifting where it meets the strips on the side. The final installation it went well, it is held tightly in place by the monitor at the top edge. I have a fair bit of pressure on the board there from the Monitor to get a little more tilt than the base will give on its own. I was very happy with the result. If I didn’t have the monitor keeping pressure against the Plexi I would have drilled 2 or 3 small holes in the top edge of the Plexi and screwed it into the mdf at the top to keep it in place.
Above you can see the thin strips the Plexiglas rests on when it is installed. After installing them I painted them gloss black to blend in. You can also see the door latch and spacer block to keep it from moving much. The little block at the bottom of the door is to keep it from going in to far, there is another stop block on the top corner as well, but it is out of view in the picture. The round speaker grills are again easy to see here as well as the chrome volume knob on the right.
Above is the Plexiglas installed with the monitor behind it before I removed the front protective film. Yes those are the wires leading to the front panel, when I reinstalled the panel I wrapped them up so they weren’t such a tangled mess. The monitor is there sitting on the blocking it is screw into the cabinet with. I have some pressure on the marquee bottom support board to get a little more angle out of it, as well as the block is a bit angled itself. I would have used the VESA mount board in the cabinet except this monitor doesn’t support VESA mounting (The VESA mount method is so much easier to work with, and cleaner..). There are two screws in the back of the monitor base going into the block there. The block is built up so that the monitor was at the height I was going for, and it is secured to the bottom of the cabinet with 4 brackets with screws. I used brackets as I have it set so that I can get to the screws if I need to remove the monitor rather than gluing it in or putting in screws from the underside.
Above you can see the speakers installed before securing the wiring, the power supply board has been removed, or it would be attached there at the black and red wire, which now lead down to the 5Volt output on the Meanwell power supply below it. The other picture shows more of the internal wiring that goes to the Raspberry Pi, the two front mounted USB ports, the USB power cable which goes to the Meanwell 5Volt output as well. The safe shutdown/power up button wiring is there as well as the speaker input wiring. I ended up plugging the speakers into the Monitor’s Audio Output as I am using HDMI from the Pi. If I had plugged into the Pi I would have likely needed an audio ground loop isolator, because I have the Pi and the Speakers powered by the same power source. When powering the Pi and Speakers from the same power source, you can end up with a “buzz”, there are cheap Audio Ground Isolators that you can pass the audio through. I used one on my Pi1541 & Tapduino combo build post due to that. Using the Monitor Audio Out that it gets the Audio from from the HDMI input, lets me eliminate the need for that for this build.
Here is the back with the door latched of course. There is a fair gap at the hinge side, but with the wide hinge that does not show. I should have made it just a little shorter, it rubs easily, but I hope to not have to open it much. I also hope to not loose the keys.. You can see a bit of the run in the paint at the top, but it is on the back and shouldn’t be seen. Overall I have to say the paint turned out pretty good. I am certainly not great with spray painting, but those “Paint Spray Handles” I used really help me. My hand can’t take pressing that little nozzle enough for a paint project this size. There at the top, there is that extra T Molding strip on the Marquee Top. The Plug/Fuse/Switch unit in the back there can be wired a few different ways. The one I have has a lighted switch, that switch could be wired either as an Always On light even when turned off, or it can be wired to light up when the power is on (or not wired to ever light up). I have chosen to wire it so that it will only be lighted if the power is on. Some of them do come with a black switch and those don’t have lights in them. You could just switch the Hot line so that the light would not come on then because if the Neutral isn’t there it won’t light up. With the plug unit, be certain all the connections are secure and making good contact and not loose, a loose wire can cause heat and melting and potentially fire. I nearly used soldered and heat shrink on the plug unit for that reason, but I didn’t as then I would have to desolder it to ever remove the plug or power strip.
I had to edit the above picture, as the Marquee keeps washing out almost completely. That is the Marquee that is in it, I just took two pictures and over laid it over the lighter cabinet picture. The Marquee looks a little better in the picture than it looks to look at it. I did not remove the protective plastic from either side of the Marquee Plexiglas yet though. It turns out to be very hard to photograph this cabinet.
Above is the Pi 3B+ as it is sitting in the cabinet currently. I would have taken it out of the case and mounted it to the cabinet, but then I have to rig up a fan to it somehow. I may do that later (I never did, but it would be easier for me now that I have a 3d printer. I could make up a case with mounting points and a fan). You can see in the picture the wires coming down to the GPIO Pins. The round momentary button on the back of the case there is wired to GPIO3 (Physical Pin 5) and Ground (Physical Pin 6) of the Pi 3B+. GPIO3 is a pin that will by default wake the Pi from a the shutdown/halt condition. Simply editing the /boot/config.txt file and adding the line “dtoverlay=gpio-shutdown” will activate GPIO3 to be a “shutdown” button. You can change the Pin that it will use for the Shutdown by defining the pin in the dtoverlay value. That will then make the other pin be the shutdown pin, but it won’t move the “wake/start” function from GPIO3. The Pi will start the Shutdown process as soon as it has been pressed and detected. Once the Pi has shutdown, you can start it back up by pressing the button again (as long as you are using GPIO3 (Physical Pin5). There are other ways to set this up, they can include a delay where it will make sure the button is held down for a period of time, which could be handy to have. I went with the easiest option though, as I have the button on the back where it is not very likely to get bumped while the cabinet is in use. I found the instructions on how to set that up on this thread: https://www.raspberrypi.org/forums/viewtopic.php?t=217442#p1337231
I did do just a little testing firing up one of my old 2600 games. Asteroids, I managed to roll over the score easily. I was playing on the easiest level though. I went back and started with the next level and that did not go so well.
I want player 1 to be the left side, and player 2 to be the right side. I found after reinstalling the control panel that they were backwards. To correct his, I unplugged the joysticks from the USB ports on the Pi and swapped their positions. Joysticks are based on the USB Port they are plugged into. So Originally I must have had them in the other ports, and when I re connected them they were put in the opposite positions. I didn’t have to swap the control boards or anything.
The Pi is accessible from the back door if I need access to it. I can also easily remove the control panel. I have two brackets on the back of the Control Panel with screws into to keep it in from coming off. I briefly thought of making the SD Slot accessible on the Pi from the outside like I did with the Pi1541 project. It is a bit much with 3/4″ material though, and I don’t want the card to be to easy to remove and loose. If I want to add anything to it or make changes I have it connected to my wifi and I can access it over the network.
The Marquee top has some brackets and screws that I used to secure it to the cabinet. I want to have it remain removable to easily access the Marquee graphics etc if needed. If I make another I am thinking of making it set back just slightly then use painted angle metal pieces to hold the Marquee in place like full size machines did. This will mean there would be no T Molding across the Marquee Top and Bottom. It would make it easier to install and support the Marquee though. I think I will still use the light box design behind it. That worked great, and I hope the Aluminum will distribute any heat from the LEDs which shouldn’t be very much. They are using nearly half an amp at 12volts, so there is some heat there over time.
So one may ask about what this project cost to build. In my case I believe that I have a little over $250 wrapped up in materials. I am not counting the Pi 3B+, SD card, Monitor or Power Strip. If those were purchased as well, I would have been looking at around $410. I did not include cost of Wood Glue, Brads, the bit of Aluminum sheet, as those are supplies I had around, as well as the corner blocks which are scrap wood. I did purchase a few tools, a 30mm Forster bit, a Slot Cutting bit for a router, and the Edge Guide Clamp, those items add up to around another $100. I now have those tools for future projects though.
I have enough MDF, LED strip light, hinge, Plexiglas and a few other bits for a second cabinet. I would need to buy some T Molding, Controls, the Pi, Monitor etc though. I would like to find a better way to cut the Plexiglas, the scoring it with a knife doesn’t work very well on this hard stuff, at least for long cuts. I managed to get it cut, but it could very easily have turned out bad. It really isn’t “Plexiglas” brand that I picked up, I think I have had some softer stuff in the past that was easier to cut, but that probably wouldn’t hold up well for this usage. I don’t remember Lucite cracking like this material has for me, I have used that in the past, it is pretty good stuff, although even more expensive. It has been quite a long time since I worked with it, so I don’t know if it was all that much more fun to work with.
In the end the cabinet is still difficult to photograph, at least with the camera I have. I guess Gloss Black is not much fun for that. Although it is not flawless, I am quite happy with the final result. Above the Plexiglas over the LCD is quite obvious though and gives a good view of how well that turned out for me. The little mix of colors of the buttons is that I purchase a Blue and Yellow set, and already had a white set. I felt mixing the colors gave a better effect.
I figured I would give a little update to what the machine looks like currently as of 2021. I did get around to having a marquee printed up on Plexiglass. This is based on my prototype design. It looks great, but does not photograph well.. It is direct printed on the back of the plexiglass by a local sign company. The background is a dark blue starfield looking effect. The PiCade text came out great. I made the marquee in GIMP, which is what I tend to use for anything like this. The background and the effects on the PiCade text are all effects that it can create. For the most part though I have been using it off and on for years, mostly I got lucky getting it looking that good, I really don’t know how to use it properly.
Here is the machine turned off.
This is the best shot I could get of the marquee. You may be able to just see the starfield effect a bit.
The other thing that has changed is it is now sitting on a stand/cabinet that was made for it. One of my uncles is a cabinet maker and he put it together. The top is inlayed about one inch, so there is a lip all the way around that keeps the Arcade cabinet from sliding off. You can see that pretty well in the one picture above. It has a good sized door on it that lets me use the cabinet for storage. I keep my SNES knock off USB Controllers inside, the Airmouse Gun and some other items. I put on a little hand turn lock on the front, it is like the key lock in the back of the cabinet but without a key. If I wanted I could simply swap it out for a lock, but in reality that is the kind of latch I wanted on the cabinet.. I really don’t want to loose the key someday and have to drill it out.. I wanted something secure that wouldn’t flap around though when I was building the Arcade, so I ended up putting in the lock. Lowes doesn’t carry the the keyless type.. Below you can see the complete cabinet powered up. The only fault on the marquee was that I didn’t know it would need light blocking on the “dark” areas, so it does end up washing out the “starfield” area. It is not as bad as the camera makes it look though. If I get another printed I will have to figure out the light blocking layer on the back first. I have since seen the backs of Pinball Backglass which you can see they have thicker paint for light blocking and such for dark areas. I can’t fault the company that printed it, they did a great job with their part.
The Complete Cabinet
Thanks for checking out the project. I do have the second Grey cabinet build posted as well. It mostly shows the differences from this build. In some ways it is neater inside, due to using the VESA Mount for the monitor, which was not an option for this monitor. The other cabinet uses the controller version that has removable USB cables, they are seen by the Pi as the same type of controller, but it seemed the order of the buttons were different. I did match them up to work in the same order for two reasons. The first reason I wired them the same, is the cabinets are wired to let me use my arcade stick that uses the same electronics as a third player, if they weren’t wired in the same order one, or the other would be using the wrong buttons. The other reason is so the SD card images are then also compatible and the Pi could be swapped from one cabinet to the other. The second cabinet uses a Pi4b instead of a Pi3b+, I put it together last year before the Pi4 was supported, but it worked well. At that time the setup was more involved and you couldn’t do the splash screen/video with it. The Pi4 is now officially supported and it is also faster and that does help with RetroPie. I recently also rebuilt the Pi3b+ taking it to the latest RetroPie build from scratch and putting my games and getting the configurations back in place. The image was so old it couldn’t be directly upgraded. I may swap out for a Pi4 at some point, or maybe not..
I have been wanting an arcade machine for a long time. These days there are a lot of options out there that make it easier to build your own. I purchased the Bartop Arcade plans from The Geek Pub http://www.thegeekpub.com He has several different plans, from a full sized stand up unit to a tabletop design, as well as the Bartop design that I went with. So you can pick which you want to go with, but be sure to buy the one you want.
It has been a lot of work. I used a 50 Inch Clamp Edge And Saw Guide from Harbor Freight and circular saw to cut the strait cuts out of the pieces. For the arc cuts on the sides I clamped both sides together and used a jig saw to cut them out at the time time to match the cuts. It is hard to see in the picture below, but I rough cut the “upper right corner side” leaving the line and a tiny bit to spare. That let me sperate the two Side “A” parts. I then clamped them together and did the final cut right to the line. I had to go slow with the Jig Saw as to keep the blade making a nice vertical cut. With a table saw it would be much faster for the strait cuts. I optimized the cut layout from the original to help me get some larger extra bits to work with in case I needed them. Below you can see the layout I went with as I laid all the parts back onto the extra half of the 4’x8′ sheet to so that.
I essentially cut out the parts the same as the plans. In the end I found there was an issue with the Marquee Top (B) and Top Door Frame (F). The Marquee Top and Top Door Frame should have been cut at an angle to meet nicely in the back. To correct this, I shortened the Top Door Frame a bit so that it just let the Marquee Top clear it. I then also added T molding to the back side of the Marquee Top, as it was now going to be an exposed edge. If I made another Arcade, I will be changing how I end up cutting that out (Note: See the “Another Bartop Arcade” which the correction was made by having the pieces cut with the proper angles to fit). I may also make some other alterations to make it easier to put in the Marquee itself.
After cutting out all of the pieces, I did sand them all on both sides. You can see in the picture above that I laid them out on top of the second half of the 4’x8′ Sheet of 3/4″ MDF. This does only take half a sheet to make this unit. Depending how you build it though, you do need a bit of corner blocking to glue it up easily. In my case I could have used the “spare for lcd sides” cut into strips for the blocking. I also didn’t use the VESA mount on this build due to the monitor I used not having a VESA Mount option. I did use blocking in the corners, partly the bit off the Door side, and mostly some old pine strips I had around.
Before assembly I used a slot cutter in a router for all of the T molding areas. I used a 1/16″ slot cutter. I took the pieces outside and used a clamp to clamp them down to my saw horse. Then it only took a couple seconds for each on to put in the slot. The biggest thing being to get the slot bit set perfectly center, which you have to get it adjusted properly, which I tested on a scrap. The other thing, use a mask for this, it was awful the first one blew back right at me. Beyond that it is easy to put in the slot.
I assembled the unit with corner blocking, glue and brads like was done by Mike at The Geek Pub in his video on his Youtube Channel (which I believe are also linked on his website where you can buy his plans). Other methods could be used, if you want you can use screws. He mentioned Pocket screws, which I do have, but I didn’t feel like trying. I figured if I wasn’t careful they could split the mdf as well. If I used them I was probably going to still use glue too.. The blocking made it very easy to assemble. I was looking at trying to do it without putting in the blocking, but that made it more difficult to get good alignment. The blocking makes it stronger too with more surface area for the glue. The “Another Bartop” build Gray cabinet is assembled with pocket holes and screws, it isn’t mdf though, it is coarser flakeboard with the Gray factory top coat, like Arcade machines were often built from.
I realized that I had not drilled for the speakers in the Marquee bottom board until after I had it installed. I used some Logitech 2 piece speakers for the arcade. Removing them from the shell, they have some 2″ speakers in them. I used a 2″ hole saw to make the holes in the board. I also had to drill for the volume control access. I removed the power Led from the board. While the board also had a Headphone jack on it, I decided it wasn’t practical to do anything with it. I needed a longer knob than the one it came with. Had I not already glued the board in, I may have carved out the back so I could have used a more standard length knob (For the Gray Bartop I 3d printed a customized long knob for it).
I then rewired the speakers for installation in the cabinet. I was going to reuse the original AC power unit so I setup to be able to put it in as well. Below you can see the speakers rewired to fit the cabinet.
These speakers operate off of 5Volts DC. In the end I didn’t like the exposed AC board inside the cabinet. I went with a Meanwell dual voltage power supply for the cabinet. This let me run the Raspberry Pi and the Speakers both off of the 5Volt DC on it. It also provides 12Volts DC, which is for the Fan and the Marquee lights.
The next part was the primer. I used the recommended Rustoleum Filler Primer. This is pretty neat stuff. It has a filler product in the paint. It looks like it is fuzzy, but it sands out amazing.
Don’t skip primer, It just won’t work if you are using MDF. I waited until the next day to sand it. I used 220 grit paper to take off the fuzz. I then followed up with some finer paper. From there I wiped it down with paper towels and brushed it well, then used a microfiber cloth to wipe it down. I painted it with Rustoleum Gloss Black. I let that dry a day and took some 3000 grit to lightly sand any little bits that were in the paint. The paint I used is the 15 minute dry type to help keep the dust, bugs etc from blowing into while it was wet. I found that it was good to do a coat that caught most of the dust that got in it. Then I came back and did 2 more light coats after the 3000 grit. That later paint didn’t end up with as much dust in it. The last thing I did with the paint was put on a coat of Rustoleum Clear Gloss. The Clear Gloss dried very fast, it was quite different and had a lot of over spray. When I was doing the painting I was wearing a mask as well. I was thinking of trying to polish it, but I decided I wasn’t going to be that crazy about it, and I wasn’t sure I had the clear on thick enough. I used 2 cans of primer and about 2 cans of the black. The clear coat was less than a full can. I did end up with some runs on the top back door frame piece. I used one of the spray handles for the cans, as seen in the picture below. That makes it much easier for me to get a decent finish and better control a well as saving my wrist.
Well, there were two other things I didn’t get drilled before the initial assembly. The first being the “safe shutdown button” for the Pi on the back beside the power jack. The other being the USB ports in the front right there.
Here is the safe shutdown hole in the back of the cabinet. I had to back bore it.
I had to backbore the Shutdown button here by the power port due to the type of button I used. The USB on the front “nearly” needed to be backbored as well. The USB port insert I used goes into a 30mm hole it barely has any threading with the 3/4″ MDF, but it was just enough.
The T molding is not too bad to do, but I wish it had went a little better. I got a section of 20′ and used all but about 18′ on this cabinet. There would have been that bit more if I had not put that additional piece on the back side of the Marquee Top. I am assuming I had the full 20′ I was to have received, but I can see how it did use that much. I just did it like Mike showed in his video, back cutting at the corners, and put it in with a rubber mallet. I had a few issues here and there. I had some problem with snagging on the bottom and pulling it back out when moving the cabinet. I added some rubber feet and that should help to prevent it from dragging the edges too much in the future. I put a bit of glue toward the ends to help hold it incase it snags a bit.
Here I have the control panel assembled and the USB ports installed after finishing the Clear Coat. I am using a Dell LCD that I had around. It was almost a perfect fit, and had HDMI input and audio output (no speakers internally). The control panel layout is in the plans as well, the template prints out on multiple pages that get taped together. I used a spray adhesive to hold it on like Mike suggested. It was a bit of a pain to remove all of the adhesive after the fact ( I used a different product than he had, so maybe it is harder to get off?). The paper came off fine, but some of the spray stayed behind. I later used more of the templates in other areas and was careful to use as little spray as I could, that turned out better. I used the 2 player template and omitted 2 buttons, 8 was enough for me. You can choose to use the buttons you want. He also includes a 1 player layout template. The buttons I used are the pop in kind. I used a 30mm forstner bit for the hole with the 6 primary buttons, they went right in a perfect fit. For the Joysticks I used a slightly smaller sized bit, this didn’t cause issues in the travel of the stick. If I had used the 30mm bit, then the joystick washers wouldn’t have kept the holes covered at the maximum travel. For the smaller 24mm buttons I didn’t have the perfect drill bit for, so they were slightly loose, and a little glue on the bottom edge in a couple places to ensure they don’t move on me. The forstner bits do a very nice job, the butterfly bits I have are way too aggressive, but they are a weird type. The butterfly bits may be just fine if you are careful, mine are of a very aggressive verity that have a screw start point on them. I can’t hold them back or take it easy to get them started.. I used the bits in my cheap Harbor Freight Drill Press, which made the work go very nice with the forstner bits.
The one trick with the controls is they need to be wired identically, as the Pi (or any computer) can get confused if it has two of the same model of controllers with different layouts. I previously built a USB arcade joystick, with the same type of controls. I have wired both of the controllers on the Arcade as well as the separate USB arcade joystick the same so I can use it as a third player on the Arcade.
This was the first time I tried it out inside the cabinet. It is all together except the marquee and front plexi on the monitor. You can see the speakers in the top.
Here I worked on the Marquee light. I am using 12Volt White LED Strip light. I decided to build an Aluminum Light Box for it. I really didn’t have a good way to mount the LEDs otherwise, and I didn’t want the light going out other areas of the cabinet. The light box is made of a spare piece of flat stock aluminum used for flashing, boxing/facia, and around windows etc on a house from Lowes etc. I made it about 1″ deep, and rests against the corner blocking, and almost against the speakers.
Here I am using clamps and a board like a break to bend the aluminum. It worked ok.Here is the box. It was neater but I had it slight long and had to compress the ends down a bit.
Above you can see the LED Strip. I put it on the Sides not the bottom. This helps with Hotspots. In such a close space the points of light off of the LEDs would make hotspots all of the Marquee otherwise. Below you can also see the Speaker grills and volume knob installed. The Speaker grills are made from some 2″ desk grommets from the hardware store, and then covered in some speaker cloth (salvaged from an old speaker box I had).
Above you can see the back door. The door was slightly taller than it should have been, possibly a little wave and variation in my cuts for the back. The bigger thing was the that it turned out to be somewhat narrow, I am not sure if was my marking or cutting or what. The door Frame pieces seemed to all go just fine, but there is a bit more gap left and right. So I would watch for that if I make another. I wasn’t going to use a piano hinge for it, but due to the gap that was the only way I was going to be able to hide it well. I also decided to get a lock, not that I wanted to lock it, but that was the most elegant looking latching method, and also when moving I didn’t want a “semi-secure” latch that may flip open accidentally. The holes were drilled with other templates in the plans. The bottom is the 80mm fan pattern while the top two are the hole patterns for the suggested speakers. I used the speaker pattern holes just for additional venting on the door though. Here you can also see the door once it was installed with the 80mm fan 12Volt and latch assembly. The modification to the door frame top that I mentioned above did have the added benefit of adding some ventilation as well as there is a small gap there now. I like that bit of the change, as heat would have caught in the top had it been sealed up. You can also see the wiring going to the power strip I put in there. It is wired directly to the rear power jack. I had it around and it was easy to work with. I really did not want to get an electrical box like the plans suggested. This was a bit easier and I think did a nice job. It also has the added benefit that in my case it is a surge protector and not just a temporary “power tap” as well, not just a power strip.
The power jack includes a switch and fuse. I like it, but some have had it has issues with melting. I could see that if the connections were a bit loose, that would cause the conductors to get hot. The Safe Shutdown button for the Pi is also installed there. The button is wired up to the gpio on the Pi and the Pi is setup to use do a safe shutdown if it is pressed. It will wake the Pi after shutdown if pressed again. I will cover that in Part 2, it is quite easy with the Pi 3 (and pi4b).
The Marquee just has some paper in it behind the Plexiglass to test the brightness.
I have to finish the Marquee. I am also going to put Plexiglas in front of the monitor to hide it. Once I have the Plexiglas cut for the front of the monitor I will be able to mount the monitor in the cabinet. The Monitor I have does not have a VESA mount, so I have secured it to a built up block that I will secure with some brackets to the bottom of the cabinet. I don’t know the exact final position until the Plexiglas is in. The Marquee top needs secured as well, but I have to finish the Marquee first. The Pi is also floating free in there. I have been thinking of pulling it out of the case and mounting to the cabinet as a bare board, but I do want to put a fan on it still if I do that. To start with the Marquee I will probably finish a design for it and reprint it on my inkjet printer instead for some color. I may get proper marquee made professionally later on.. I may get some side graphics for the cabinet as well, but not full side covering graphics (not after the T molding is installed).
Muldrf's Hobbytronic 