View source for HANcoder/Training Material/Highwaysurfer
You do not have permission to edit this page, for the following reason:
You can view and copy the source of this page.
Return to HANcoder/Training Material/Highwaysurfer.
You do not have permission to edit this page, for the following reason:
The action you have requested is limited to users in one of the groups: Administrators, Bureaucrats.
You can view and copy the source of this page.
Return to HANcoder/Training Material/Highwaysurfer.
The HAN-AR have two model based development tools, HANcoder and HANtune, that they would like to promote. In order to do this a new demonstration model was required. This is what the project team Highway Surfer has created. The model will showcase the abilities of the tools and will act as an eye catcher at tech fairs and conferences that the HAN-AR attends. With the help of this document people who are interested in recreating this project or start their own projects will be able to see what the steps involved are, the materials required and the capabilities of the tools, HANcoder and HANtune.
In this document, you can find the building process for the mechanical parts, the wiring and other processes for the electronics, and the logic for building the software algorithm. To make it easy for the consumer, we have an easy to understand order list with relevant links.
In the Appendix, a detailed order list has been attached. However, a simple list is added in each subchapter to tender to specific parts.
HANcoder and HANtune are available at OpenMBD. (On the website is a download manual for all the software.)
For the mechanical design the dimensions can be found in the CAD 2D drawings, which can be downloaded from the website [link here]. When all the parts are cut, they can be assembled. In the exploded views in this document the exact order of assembly is explained.
To build the housing of the conveyor belt you need following items:
To get the right dimensions for this DEMO a LaserPro X500 was used which can be seen in figure 1. The Solid Works drawings of all the wooden parts are send to a device that runs 'Corel Draw X8' which can be seen in figure 2. The process can be seen in Figure 3. We chose this option to get a cleaner finish. Of course, there are other ways to get the panels to the right dimensions. (INSERT PICTURES FROM WIKI DOCUMENTATION FILE)
The following L-profiles need to be cut
Some holes need to be drilled in the L-profiles to match the bolts, for this DEMO 5mm. Be aware that the holes in the two planes are not on top of each other, see figure 4.
Place the plates with the L-profile against each other and mark the holes. Do not forget witch L-profile you use, every profile is slightly different even with the best measurements. Continue by drilling the marked holes in the wood and assemble the parts with bolts and nuts. Start from the bottom and work all the way up. (ADD PICTURE FORM DOCUMENTATION)
To build the rollers the following parts are needed:
(ADD EXPLODED VIEWS FROM WIKI DOCUMENTATION)
Cut 2 pieces of PVC to a length of 450mm. (3x PICTURES FROM WIKI DOCUMENTATION) Drill the 4 roller blocks and put them into the lathe to machine them to their final form as seen on the drawings. (3x PICTURES FROM WIKI DOCUMENTATION) When that is finished place the bearings in the blocks and glue the blocks into the PVC pipe. For the powered side the tooth wheel is pressed in and for the tension side the ABS-ring is pressed around it. For friction between the belt and PVC pipe a couple of strips of rubbery material (EPDM) are glued around it. (2x PICTURES FROM WIKI DOCUMENTATION)
Items needed:
Test fit the conveyor belt around the rollers which are placed at a minimum width. Mark some spots on the overlapped part which you can see circled in picture(?). Remove the conveyor belt and align it back on the spots so you can stitch it together with a needle or a sewing mill. (ADD PICTURE OF BELT)
The housing assembly for the bridge has the same procedure as the conveyor belt box. On the front panel of the bridge, the ultrasonic sensors are mounted. Extra parts needed are: - 500x50 sheet metal bracket for the 3 ultrasonic sensors - 2x piano-hinge (for easy excess to the lane change mechanism) - Toggle switch
A piece of sheet metal (500x50 [mm]) is needed to create the bracket for the ultrasonic sensors. This bracket will be clammed on between the bottom panel and the 20x20 [mm] profile. The ultrasonic sensors are screwed on the bracket and the wiring goes thru the slot that is created by the piano hinges up top.
(INSERT PICTURE BRACKET, AND PICTURE FINISHED WITH SENSORS)
Within the bridge the lane change mechanism located. To create this, you need the following items: - Wooden bracket to hold everything together - 20x20 aluminum profile - M5 screws and nuts - Step motor - Toothed belt 5m (10 mm wide) - 2x Tooth wheel with spline - 2x custom bushings - Potentiometer - 2x Threaded bushing - Link from bike chain. - 4x m4 screws and nuts - Wire rod - Model car
Use the same aluminum profiles as the conveyor belt box to attach all the panels to each other. On top of the front panel the piano hinges are mounted to create the cover. (ADD 2 PICTURES: HINGES AND PROFILES)
To mount the lane change mechanism a bracket is needed. The dimensions of the bracket are located on the drawings. The bracket is laser cut. The slots are used to tension the belt. On the other side, there is a hole for the potentiometer. (ADD PICTURES LCM BRACKET, POTENTIOMETER)
For the lane change mechanism, the 2 tooth wheels are fitted, one on the potentiometer that reads the position of the car and the other one on the step motor that creates the linear movement. The custom bushings are needed to get the tooth wheels fitted on the step motor and potentiometer. On the bottom of the bridge a switch is mounted to turn on the demo. (ADD EXPLODED VIEW LCM)
The clamp that is used to hold the car is made from sheet metal and a threaded bushing. The pieces of sheet metal are cut and clammed together with the chain links around the belt with the m4 screws and nuts. (3x PICTURES OF LCM CHAIN-CLAMP)
Drill a hole in the roof of the model car and place the threaded bushing. Then a piece of wire rod is used to connect the car to the clamp on the belt. (2x PICTURES OF THE MODEL CAR)