Tiny Traffic Light Work

By: Michael Dempsey

N scale Tiny Traffic Light

While we have been waiting for circuit boards for our Tiny Railroad Crossing Controller to arrive, we have been hard at work developing our next product; the Tiny Traffic Light. The Tiny Traffic light is an operational scale model traffic light head for use on model railroads and dioramas. This product is designed to work seamlessly with our Tiny Traffic Light Controller! We have developed traffic light heads for HO scale (1:87) and for N scale (1:160).

The first step in the development of these lights was to design the circuit boards. These are extremely simple boards, with the pads to mount the LEDs on one side, and pads for soldering the wires on the other. Once these circuit boards had been made at a PCB fab house, we used a reflow oven and solder paste to solder the red, yellow, and green LEDs in place.

Once the LEDs have been soldered to the boards, we prepared the foot-long wires for each traffic light head. Each light has four wires; red, yellow, green, and black for the common ground. Once the wires were soldered and the lights tested, the traffic light heads were ready to be cast in resin.

While we were designing and assembling the circuit boards for the traffic lights,  we simultaneously prepared to cast these lights. We started by machining a 3/4″ thick block of plastic into the positive shape, from which we would create a mold. This positive features 12 HO scale traffic lights and 12 N scale traffic lights. Each light is a solid rectangle with shallow dimples where the individual lights would be positioned. We left out the hoods over the lights to make the lights easier to see once the traffic light was installed on a model railroad.

From this positive, we cast a silicone negative mold. This process went extremely well, even without a vacuum chamber. There are only a few minor defects in the mold, none of which make the mold un-useable. With this mold in hand, we could then cast the resin traffic lights. We used a simple resin, tinted yellow. After dispensing the resin into each mold, we inserted an assembled circuit board into each one. This way, the circuit board is encased in resin, making the traffic light one finished assembly! The resin also acts as a strain relief for the power wires, reducing the risk of accidental damage.

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It was extremely refreshing to try something new with these Tiny Traffic Lights. While we have had experience with casting, electronic assembly, and CNC routing, this was the first time we combined these separate skills to produce a finished product! We are extremely proud of our Tiny Traffic Lights, and look forward to listing them for sale on our website very soon!

Fellow model railroaders, be prepared for four additional new  products from D5 DEM. We are in the design and prototyping phase for several different products which will being new levels of realism to the model railroading hobby. Stay tuned!

Custom Product: Small Dog Houses

By: Michael J. Dempsey

At D5 DEM, we love taking on custom work. Often times, it helps give us insight into what our customers look for. Sometimes, a customer’s idea evolves into a new standard product offering from D5. But besides all that, we enjoy the fresh change-of-pace that this work often brings.

Less than a week ago, a customer contacted us about building a pair of very large animal houses. These houses were to match the design and look of our line of Small Animal Houses, but they were to measure 15″x15″x15″ and 13″x13″x13″. As is always our reply, I told the customer that we could absolutely accommodate this request. After settling on a reasonable price, I set to work on these two houses for a small dog named Brody.

Five of ten panels glued up. Each panel is made of two boards, joined with biscuits and glue
The front of one house is clamped in the CNC router to have its door cut out

While the fabrication process of these houses is very similar to our standard houses, extra care had to be taken in wood selection and assembly. As 15″ wide boards are not commonly available, all ten pieces of these houses had to be joined as panels. We used biscuits with a biscuit joiner for added strength in these joints, and of course we had to ensure the biscuits would not later interfere with the door and window cutouts.

The 13″ house glued together and awaiting final finishing on the morning of July 26
The 15″ house is glued and awaits final finishing on the morning of July 26

Everything went smoothly on this build. Over the last three days of work, we have created two great dog houses which did not exist before. These houses are scheduled to ship today, and hopefully they will be to Brody’s liking! At D5 DEM, we take pride in our work. I am excited to have built these houses, and I think our customer will be excited to use them.

Development: Tiny Railroad Crossing Controller

By: Michael J. Dempsey

The past several days in the shop have been spent developing our latest product for model railroaders; the Tiny Railroad Crossing Controller. This is our second product designed to enhance the realism of model railroads, and to bring real-life animation to these displays.

The Tiny Railroad Crossing Controller is designed as an easy-to-use, all-in-one module for operating railroad crossings on model train displays. The animated effects are triggered automatically by proximity sensor modules mounted along the side of the train track. The when triggered, the controller starts flashing the lights on the railroad crossing signs, servo motors lower the crossing gates, and the bells start ringing. This controller also allows for the control of banjo-style signals with a standard DC motor. The lights and bell automatically turn off and the gates raise after the train passes.

Like our Tiny Traffic Light Controller, this controller will be available as an easy-to-assemble kit. All components required to build the controller will be included, and the kit can be assembled and installed in an afternoon. The Proximity Prime Distance Sensor Modules used to detect the trains will be shipped completely assembled; they need only be plugged into the controller.

Very early, rough prototype circuit
Early, incomplete revision of printed circuit board design

Clearly, this new product is still only in development. However, we expect to have a production prototype prepared within a couple of weeks, and we will have units in stock by the end of August! If you have any questions or are interested in placing a pre-order on the Tiny Railroad Crossing Controller, please contact us at service@d5dem.com.

Router Table Tune Up

Our CNC router has proven to be an invaluable tool in our shop. We completely designed and built it ourselves over six years ago, and we have been improving on it ever since. Originally, the machine was controlled using software called TurboCNC, however we have since upgraded to the Window-based Mach 3 by Vectric. This works in tandem with Vectric V-Carve, which we use to generate the G Code. Other upgrades included a new driver system and beefier stepper motors, more rigid linear rails on the Y-Axis, a new DeWalt router, and a wireless jog wheel used to set up the machine for a cut. We have logged hundreds of hours of cutting on this machine, so it’s only right that we maintain it and give it some TLC every once in a while.

Squaring the Gantry

One of the main issues that the router has had recently is that the gantry was out of square. This means that on all cuts, the Y-Axis was not 90 degrees to the X-Axis. This issue arises from the fact that the X-Axis utilizes two separate motors and ball screws to move the main gantry. Over time, as the gantry is pulled one way or the other, or it is crashed at its stops (which occasionally happens), the motors come out of alignment.

I ran several test cuts to determine by how much the gantry was off. A test cut and a square showed that the machine was off by .05″ over ten inches. This is pretty significant, because this extrapolates to being off by about .15″ over the thirty inch spacing between the ball screws. So, I first disconnected the X-Axis motors from the driver. Next, I loosened the set screw on the timing pulley linking the two ball screws. This belt was intended to keep the screws in alignment, but clearly this has not worked great. In the future, we will probably install a tensioning idler pulley on the belt. However, after loosening one of the pulleys, I was able to manually rotate one of the screws against the pulley. This took a little guess and check, but it took approximately three quarters of a turn to realign the gantry, seeing as how the screws have a .2″ lead. One final test cut proved that the gantry was once again square.

Oiling the Bearings

Next up, the linear bearings could use some lubrication. The Y-Axis rails and bearings had been replaced recently, so I focused only on the X-Axis for now. These bearings consist of two parts. There are the main bearings, which are mounted in aluminum blocks which are then mounted to the gantry. However, these bearings also have rubber wipers, which are held in place by an aluminum plate. After clearing the rails of sawdust, the wiper plates were removed and slid to the far ends of the table. Next, some heavy gear oil was laid on the rails, and I simply ran the gantry back and forth to work this oil into the actual bearings. The wipers and their mounts were cleared of old sawdust, and the wipers were replaced on the ends of the bearings, all while being careful not to get any dust inside the bearings. Following this procedure, the gantry moved noticeably smoother.

Installing new Fences

The fences mounted to the table were only temporary to begin with. They were mounted to the table and trued up originally, however they were no longer true with the machine, and there were many marks from running the cutter beyond the fence and marks from general use. It was time for some proper fences.

This table uses a 2″ grid with ¼-20 tee nuts with long ¼-20 bolts to secure the pieces to be cut. We have utilized some of these holes to mount the fence, and this has worked in the past. So, using the router, I mounted and drilled some fresh pieces of melamine with identically spaced holes. Then, the new fences were mounted in place using several of these mounting holes and washers. The upper piece was mounted with an overhang, so this upper piece would be the true reference. To true the fences, I ran the router in an “L” shape, cutting the leading edges of the fences true to the machine’s motion. One final measure with a square confirmed that the machine was now cutting true.

More upgrades for our router will be coming soon. We are experimenting with the idea of using a vacuum top surface, eliminating the need for the 2″ grid to mount the pieces to be cut. Furthermore, we will be implementing a much-needed, proper dust collection system. Also, we may soon connect the limit switches, to prevent the possibility of crashing the gantry of Y-Axis. We take care of our tools, because they need to be ready to work when we need them. By performing this small amount of maintenance to our router, it will now run smoothly for another couple hundred hours.

Welcome to In the Shop

Hello, and welcome.

This blog series will be a place for us to show you the behind the scenes work we do at D5. We’ll share our workshop, tools, and methods we use on a daily basis while running D5. And, as we work on projects for home, shop infrastructure, and as finished products, we will include step-by-step descriptions of how we brought these projects to life.

If you want a small preview of some of our work, check out the R5-D5 Droid Build blog, which outlines the process by which we build R5-D5, a soon-to-be fully functional astromechanical droid from the Star Wars Universe.

Work at D5 will begin in earnest by May 2016, so be sure to check back then to see what we are working on!