tag:blogger.com,1999:blog-26085090886375489242024-03-13T13:15:56.962-07:00Craig Hudacko's BlogAnonymoushttp://www.blogger.com/profile/14818900494418425202noreply@blogger.comBlogger20125tag:blogger.com,1999:blog-2608509088637548924.post-81204655366748841102017-05-03T14:45:00.005-07:002017-05-03T14:45:48.272-07:005/3/2017For this week, I continued machining and fabricating parts for the brake assembly, completing every piece aside from the gearbox. I currently, and temporarily, mounted my pieces to the bogies yesterday to test the fit, which seemed to work well. Then I will finish the assembly at a later date, once I get the correct bolts for the job.Anonymoushttp://www.blogger.com/profile/14818900494418425202noreply@blogger.com0tag:blogger.com,1999:blog-2608509088637548924.post-44766364464877130752017-04-12T01:45:00.001-07:002017-04-12T01:45:27.885-07:004/12/2017This week was mainly spent in the machine shop. Most of the parts for our team have been cut to shape and need to have holes drill through them. I am hoping by the end of this week, or by next week, we could have the mounts for the propulsion motor finished, as well as the braking mechanism. The gearbox for the brake will take a little longer due to the complex shape, but it should not take much longer than the rest of the machine. Otherwise, we need to figure out a way to buy our motors for propulsion, and we are coming up with ideas now.Anonymoushttp://www.blogger.com/profile/14818900494418425202noreply@blogger.com0tag:blogger.com,1999:blog-2608509088637548924.post-38371168615456049802017-04-05T03:30:00.000-07:002017-04-05T03:30:02.294-07:004/5/2017Within the past two week, the brake design has been completed and fabrication has begun. I went ahead and bought the extra metal that I needed for the design, finidng appropriate stock material. Then from there, started to cut the stock to length and prep it for the mill, and cnc mill. Additionally, I preformed some FEA on the parts that have been design to make sure that the brakets for the motor would be able to hold up to the forces produced by the motor as well as the weight of the motor itself.Anonymoushttp://www.blogger.com/profile/14818900494418425202noreply@blogger.com0tag:blogger.com,1999:blog-2608509088637548924.post-3840670209662889002017-03-22T12:41:00.001-07:002017-03-22T12:41:18.437-07:003/22/2017This week I spent time turning shafts on the lathe to press fit gear onto for a gear box. It took some time to get the proper shape. Also there was a lot of time spent redesigning the brake, sizing springs and some wire to make the thing work. I believe the redesign will be fore effective than the caliper and master cylinder system that I originally though of.Anonymoushttp://www.blogger.com/profile/14818900494418425202noreply@blogger.com0tag:blogger.com,1999:blog-2608509088637548924.post-17108431091187825312017-03-15T03:51:00.003-07:002017-03-15T03:51:34.936-07:003/15/2017So this week, I went through a redesign of the brake and started to machine parts for the bogie. Most of that parts that I made currently were for the steering subteam as well as lathing the main wheel shaft.Anonymoushttp://www.blogger.com/profile/14818900494418425202noreply@blogger.com0tag:blogger.com,1999:blog-2608509088637548924.post-89881815575274496802017-03-08T08:53:00.000-08:002017-03-08T08:53:19.818-08:003/8/2017This week was mostly dedicated to development of the brake and its design in solidworks. Mostly working on the placement and the movement of the brake actuator. As well as a bit of research as to where I could pick up a master cylinder and was planning to visit a junkyard today in order to scrap a master cylinder from an available car.Anonymoushttp://www.blogger.com/profile/14818900494418425202noreply@blogger.com0tag:blogger.com,1999:blog-2608509088637548924.post-57129209414075975442017-02-22T11:17:00.002-08:002017-02-22T11:17:39.103-08:002/22/2017Hey, I haven't done much this week due to some complications on my computer, I was attempting to reinstall solidworks on my computer and am having a bit of difficulty with the licensing, therefore I started to redesign the brake within creo just so I could keep moving forward with the design of the brake.Anonymoushttp://www.blogger.com/profile/14818900494418425202noreply@blogger.com0tag:blogger.com,1999:blog-2608509088637548924.post-3302956391761537162017-02-08T03:07:00.001-08:002017-02-08T03:07:07.888-08:002/8/2016This is the first post of the new semester. For this reason I will overview what has happened over break.<br />
Due to the initial decline of our BOM, we were asked as a group to look into finding a new motor that could possibly be provided from Lin Engineering or Oriental Motors. Our contact at Oriental motors no longer worked there and we were referred to a different contact without much of a headway for getting some motors donated. I then contacted Lin Engineering and Yaskawa to see if they would be able to provide stepper motors and controllers. Unfortunately, those two companies were unable to provide anything as well as Oriental, so I am at an indecision with propulsion.<br />
As far as braking goes, I have looked through my personal stock of motors and found a suitable stepper to actuate the brake. I am still working to develop a small gear set for it to increase the torque and increase the force on the master cylinder that I will use to actuate the pistons in the brake calipers. Where the calipers will still have to be altered in order to fit around the rail.<br />
Additionally, other work that I did over break was to waterjet out the main frame of the bogie before the waterjet at techshop went down. Making sure to get most of the pieces made before to make fabrication easier down the line.Anonymoushttp://www.blogger.com/profile/14818900494418425202noreply@blogger.com0tag:blogger.com,1999:blog-2608509088637548924.post-69970303686402451172016-12-07T09:26:00.002-08:002016-12-07T09:26:56.918-08:0012/7/2016For this week, most of my time was spent cading new mounts for both the motor and the brake. the brake is now facing between the two bogie, where the most mounting space is available. The motor mount takes advantage of the pre existing bolt between the two bogies which are already used for the wheel bearings. The mount itself bolts together using 1/4-20 bolts and I am currently working to see the tear out failure for these bolts. Also, I 3d printed these mounts so they can be fixed to the pre-existing model that Michael had cut out.<br />
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I should also mention that the mount for the brake with going to be made out of 1inch tubing, using the same material as the bogie cross-members</div>
<br />Anonymoushttp://www.blogger.com/profile/14818900494418425202noreply@blogger.com0tag:blogger.com,1999:blog-2608509088637548924.post-45002659607223682502016-11-30T09:32:00.002-08:002016-11-30T09:32:17.834-08:0011/30/16<div class="MsoNormal">
I cannot say that I have been doing much for the project
over the past few weeks. What I have been doing is thinking about how to mount
a caliper large enough to clamp down on the rail from the bogie to act as a
brake. Knowing that we are limited on fund, I ask some family about any parts
that were available for making the braking system. As luck may have it, they
can provide us with some calipers and master cylinders from older cars that can
be used on the bogie. The downside is that there is no way to tell how large
they are or what process will need to take place to make them work for the
system. For that reason, only rough estimates can be made about the size and
the orientation of these caliper parts until they can be acquired. Otherwise,
the mounting of the motor need some reworking to be more effective given the
limited space.<o:p></o:p></div>
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3d printed models of
the motor and the bevel gear have been made in order to have an object to
compare with the bogie team’s rapid prototype. Providing a better idea of where
the motor will ultimately be placed as well as where a caliper can be mounted
without being in the way of other crucial components.<o:p></o:p></div>
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Although this is not easy to say. I am not sure what I can
do about braking at the moment. I can pick up any parts that my dad can provide
and use them in the system accordingly. Yet, the first chance that I will get
to acquire those part will be over winter break, so the design for that may be
held off until then. <o:p></o:p></div>
Anonymoushttp://www.blogger.com/profile/14818900494418425202noreply@blogger.com0tag:blogger.com,1999:blog-2608509088637548924.post-4624365281765538572016-11-16T02:25:00.001-08:002016-11-16T02:25:47.993-08:0011/16/2016For this week, not much can be said, I met with randy to further discuss braking options, and it is becoming increasingly clear that we are going to be limited on size. For the motor that I recently got a bid for, I am still working to figure out if it is capable of handling the back emf needed for engine braking as well as determining where it will become to hot from the process. In addition, I am working to fit a band brake to work with the motor in the bogie assembly, but tolerance is still an issue.<br />
In addition, I have rework the motor cad model to better resemble the new motor that I have chosen, I am still getting a few of the detail modeled and will apply it to the master cad model later this week. With the reworking of the motor, the mount, shaft, and gear will have to be alter to handle the different size for the output shaft of the motor,. The gears for replacement have already been selected of the McMaster Carr website and will be added to the bill of materials.Anonymoushttp://www.blogger.com/profile/14818900494418425202noreply@blogger.com0tag:blogger.com,1999:blog-2608509088637548924.post-31133361592624578982016-11-09T11:56:00.001-08:002016-11-09T11:56:36.515-08:0011/9/2016This past week I have contacted a few companies with regards to acquiring a motor with the specifications that we need to move a 600lb pod-car assembly. Out of these companies, I got a response back from one, giving me a quote for the prices of two motors with the specifications that we need. Due to the change in motor, I am still working on updating a few things for the bogie design, placing that motor and gears along with it. Looking at the current design, it might be a more viable option to use motor braking compared to using a physical brake just to save space. We are still looking at brake designs and seeing if we can fit it in the main bogie, but not much can be said until then.Anonymoushttp://www.blogger.com/profile/14818900494418425202noreply@blogger.com0tag:blogger.com,1999:blog-2608509088637548924.post-25557850595338967542016-10-26T11:08:00.001-07:002016-10-26T11:08:18.949-07:0010/26/16This week was spent more on cad than anything else, with the motor already selected, it was relatively easy to model the motor as well as a mounting bracket to attach it to attach it to the bogie as seen in the images below. In addition, a bevel gear, which was taken from a part supplier site, was mounted to the drive shaft of the motor and bogie, rotating the motion by 90 degrees. As fair as the brakes are concerned, we would have to go with something more compact than a disk brake to fit it onto the main axel. Even the smallest disk brake, which can be seen in the images below cannot fit into the tight space where the gears and motor are located. For this reason, we are looking at using a belt brake, which are typically used on pocket bikes due to their small form factor<br />
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Anonymoushttp://www.blogger.com/profile/14818900494418425202noreply@blogger.com0tag:blogger.com,1999:blog-2608509088637548924.post-84768797849110487942016-10-18T23:55:00.001-07:002016-10-18T23:55:39.899-07:0010/19/2016After weeks of calculations and determining various frictions, we have finally decided on a motor to use in the bogies as seen in the link below. Due to the lower power and high torque requirements needed for the bogie to move under solar power, the bogie itself will move quite slowly with the use of these motors. Although as we process further into the semester, the gearing can be altered to make the machine go faster than previously calculated due to having a lighter load than originally estimated (600lbs).<br />
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<a href="https://www.aliexpress.com/item/60W-24V-DC-brushless-gear-motor-with-Circular-gear-reducer-DC-planetary-gear-motor-Micro-DC/32288004020.html?scm=1007.13339.33317.0&pvid=a77c4949-c270-4fdf-a371-26e0f27ee021&tpp=1">Motor</a><br />
It should be noted that this motor will be geared to run at 45Nm at about 8rpm, running at 4 amps and 24 volts per motor. These motors already have gear boxes attached, in this case planetary which allows for the greatest gear reduction given the size. Due to the length of the motor, a few beveled gears will be needed to change the direction of the rotation, allowing for a chain to drive the wheels of the bogie. The brake will also be mounted to the shaft driving the chain and the caliper in a similar way. I am still working on the cad models for everything and those should be done over the weekend.<br />
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Further research is needed for finding a master cylinder for the brake caliper as well as a reservoir for the brake fluid.<br />
<br />Anonymoushttp://www.blogger.com/profile/14818900494418425202noreply@blogger.com0tag:blogger.com,1999:blog-2608509088637548924.post-51439548983399824052016-10-11T23:12:00.000-07:002016-10-11T23:12:01.523-07:0010/12/16This week, I spent time looking at gearing as well as the motor in general. The original idea for the motor was to use one that was 24volts and 200watts. Under the assumptions that the amount of power that could be delivered to the motor was 75 watts, divided up as 24 volts and 3.3amps. The motor could produce a torque of .275Nm. Considering the assumption that the bogies and pod weights 600lbs, the amount of torque needed to turn the 6 inch wheels would have been 35Nm. Meaning that the motor would have to be gear 1:125 just to turn the wheels. The 35Nm doesn't even include the gearing losses, rolling resistance, and bearing frictions, which would bump up the 35Nm to 42Nm.<br />
At this point, there were only two options that could be taken, try and gear down the motor to the point it could turn, or use a larger motor with more power applied. Looking at gearing, there were a few different possibilities, worm gears, planetary gears, and simple gear chains. Worm gears were considered for a time considering the amount of torque they can convert given a limited space. Yet, the problem was that once the motor stopped turning, the wheels would completely lock in place due to the nature of worm gears, which would make braking difficult to do slowly. Using planetary gears would have the benefits of efficient motion conversion. Yet, due to the complex design, and need for specialty gears, it was not an option worth seeking. Finally, with conventional gears, the design is easy enough to create, but using this method to gear down a ratio of over 100:1 wound result in a large gear chain with similarly large gears.<br />Due to gearing being a rather difficult to produce, I started to look at using a different motor, possibly one that is 48 Volts instead of 24 volts and at a higher amperage, say 9 amps. Under those conditions a 400 watt motor can increase the stall torque to something more reasonable for this project.Anonymoushttp://www.blogger.com/profile/14818900494418425202noreply@blogger.com0tag:blogger.com,1999:blog-2608509088637548924.post-45957317324608911732016-10-05T04:08:00.001-07:002016-10-05T04:09:23.203-07:00October 5, 2016Not much work done this week, had been busy writing a few papers and dealing with other classes.Anonymoushttp://www.blogger.com/profile/14818900494418425202noreply@blogger.com0tag:blogger.com,1999:blog-2608509088637548924.post-90777569795069131252016-09-28T05:52:00.002-07:002016-09-28T05:57:47.168-07:00September 28, 2016For this week, most of my time was spent preparing for the first presentation, which included calculating out a few numbers as well as coming up with some concept designs. One of the first calculations that I made this week was finding the stall torque of the motor that we already have at our disposal: A Crystalyte SAW_408 motor paired with a 48 volt, 25 amp motor driver. Through looking into the superway archives, I found a data sheet on this motor, giving the potential torque and rotations per second at various amperage, given it had a constant voltage of 48 volts. Which has a stall torque of about 105 Nm. Now given that last years design used this one motor as a direct drive system, I used the outer diameter of the hub (about .406 m) to find the force that the direct drive motor could produce; approximately 519 N of force without accounting for friction. Yet, the bogie, which we are weighing at 600 lbs or 272 kg, would have a force of 780N going down a 17 degree slope, so using one motor as a direct drive would not be a viable option.<br />
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From there, I went into determining a more realistic weight distribution between the two bogies as it rests in the middle of a 17 degree incline. Surprising, it appears that the wheel that is higher on the track supports more of the systems weight compared to the lower wheel, due to carriage being underneath the bogies and causing the rear to swing up. For the calculations, I based it on the idea that the carriage was 400 lbs hanging from the cross member in the middle, much like the summer team developed. Each of the bogies therefore weight about 100lbs and were support (vertically) by one wheel on the track. With the wheel base of the bogies being 26 inches and the pivot point of the carriage hanging about 10 inches below the cross member. Upon running through the calculations for weight distribution, I discovered that both wheels would experience the same force sliding down the track 390N, but in terms of normal force, the front wheel would support 1583 N compared to the back wheel's 1015 N. What makes this information so important is that it give me a rough estimate of what size motor I would need for each bogie. And more importantly an idea of about the contact friction between the wheels and the metal rail.<br />
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<a href="http://4.bp.blogspot.com/-q_JAgJS5pbs/V-u-M0aHSbI/AAAAAAAAAJY/Rr7BFOo_GnAG0SEAZwVg9a-px75VAvRIgCK4B/s1600/20160928_054536.jpg" imageanchor="1"><img border="0" height="320" src="https://4.bp.blogspot.com/-q_JAgJS5pbs/V-u-M0aHSbI/AAAAAAAAAJY/Rr7BFOo_GnAG0SEAZwVg9a-px75VAvRIgCK4B/s320/20160928_054536.jpg" width="180" /></a>Anonymoushttp://www.blogger.com/profile/14818900494418425202noreply@blogger.com0tag:blogger.com,1999:blog-2608509088637548924.post-90629163651354351772016-09-21T09:50:00.001-07:002016-09-21T09:53:22.933-07:00Week 3For this week, I started some basic calculations for the braking force needed for a 600 lb object to be going down a slope of 17 degrees at a speed of 20 mph. Say we wanted it to stop in 5 seconds, 284.8 lb-force would be needed in order to brake at that rate. Or for stopping in three seconds down the same slope and the same speed a total of 358 lb-force would be needed. Now to calculate the force needed to be applied for the actual brake, I would need to know a bit more about the caliper and rotor compared to the wheel, so for now, I just assumed the caliper to be the same size as the rotor at 8 inches and a brake pad of 1.5 inches wide with a friction coefficient between the brake and brake pads being .3. The result is 1253 lb-f force needed to clamp onto the brake rotor for stopping in 5 seconds and 1574 lb-f for braking in 3 seconds. Which, I will have to see in the caliper that we currently possess can handle that about of clamping force. Also, I am not currently sure it that will cause the rotor to lock up and skid the wheel as apposed to slow it down at a steady rate.<br />
As far as the design of the motor and braking arrangement are concerned, I figure that we could put the motor and brake on a bracket in front of the bogie, which a chain that will drive the wheels that are in contact with the rail supporting the bogie's weight. Similarly, there will also be a fail-safe in place in front of the bogie acting as a physical brake between the rail and the bogie instead of using the wheel. This fail safe is basically a rubber stopper on an actuator that retracts under power and clamps into place if the bogie loses power.<br />
The motor is still up in the air at this point, I need to do calculations for going up a slope of 17 degrees at 600lbs to determine the torque, voltage, and amperage that would be ideal.<br />
<img alt="Displaying 20160921_094426.jpg" src="https://mail.google.com/mail/u/0/?ui=2&ik=1099abb716&view=fimg&th=1574da2b0ac989c5&attid=0.1&disp=inline&safe=1&attbid=ANGjdJ-nLlTh3aml1KNVMR5e5IS_ugWgSNzCRwd3jM8n0_PgItE6fRY2TiPDPkMTYGykRzFt8cq4hm-PejxO8H0QHhqk_Wvp6ADlgS-JyoQUPMpu_qSxYqJqois-ljs&ats=1474476392674&rm=1574da2b0ac989c5&zw&sz=w1920-h979" />Anonymoushttp://www.blogger.com/profile/14818900494418425202noreply@blogger.com0tag:blogger.com,1999:blog-2608509088637548924.post-34290372272443815662016-09-14T13:49:00.001-07:002016-09-14T13:49:55.967-07:00Last Week's PostSorry, due to the tardiness of this post.<br />
Last week, I did some simply calculation to the amount of normal force of the bogie to remain steady on the upward slope, basing it off of the an estimated weight of 300 lbs.<br />
<br />Anonymoushttp://www.blogger.com/profile/14818900494418425202noreply@blogger.com0tag:blogger.com,1999:blog-2608509088637548924.post-13799430660286944402016-08-30T20:54:00.001-07:002016-09-07T12:29:58.062-07:00IntroductionHello,<br />
I am creating this blog today for my senior project, which is the SJSU Spartan Superway. I am part of the breaking sub-team of the half-scale model and will most likely be posting here to give information on the progress of the design and build of the braking system.<br />
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-Craig<br />
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