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    The description :-- ken stewart menu skip to content velomobile build yelomobile testing galleries the blimp gh2ost first principles tools congo paintings from the northland links sketchup reprap kudzo craft cykelvalg...

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-- ken stewart menu skip to content velomobile build yelomobile testing galleries the blimp gh2ost first principles tools congo paintings from the northland links sketchup reprap kudzo craft cykelvalg contact post navigation ← older posts velomobile development drawings: part 4 posted on 4th december 2017 by bookmongerjim in part 1 of this write up i said the steering geometry is based on the invention of jurgen mages and his python recumbents:- http://en.openbike.org/wiki/main_page there has been a great deal of discussion and argument about the best steering angles for any size wheel in any application of the bicycle, road racing, track, mountain bike, shopping bike. all have their subtle variations in angles and trail, all to do with where the tyre meets the ground and pivots. then along comes jurgen who places the steering head behind the wheel, does not attempt any of the known rules and it works. what jurgen discovered was that at a steering head angle of +/- 65 degrees as the steered wheel is turned the frame rises. the weight of the rider pushes back down stabilising the system. i refer to python projects survey http://www.python-lowracer.de/projects.html where i find the trail figure for a 20 inch wheel is +/- 140 mm and a steering pivot angle of 57.5 – 71 degrees. now i know this is for two wheeled vehicles and i am designing a three wheeled vehicle but you have to start somewhere. at this point in this project i have developed a simple idea. i have looked at wheel sizes, axles, airflow, body shape by profile stacking, rotation, and extrusion. i have enough toys to play with. now is the time to measure the movement in the body structure to give a reasonable turning radius. to do this i use the original chassis bounded volume set up with 20 inch wheels. the file is smaller and takes less generating time. it also allows me to check i am not entering any clearance borders. importantly it will also show where a chassis will have to reach to tie it all in to a structure. i take the axle and wheels and add a rotation block with its axis at the point where the 65 degree steering angle meets the ground. i then place a circle at the origin (the centre of the 3 axiis) and make it a component. the axle, which is a separate component is then placed with the trail point at the origin, and tilted forward. both components are then made a group. when the group is tilted back so the axle is level the handling circle is now at 25 or 65 degrees. when the rotation tool is applied the handling circle the axle rotates at 65 degrees to the horizontal. i then position the axle to the correct point on the body and rotate the axle. axle and body are now combined as a group. when the group is rotated to get the axle level the body leans away from the turning direction. at this point, i reversed the direction of the steering pivot, everything else remains exactly the same. the body now leans into the turning direction. by the findings of jurgen the geometry is self centering so to pull the body back upright release the steering. i repeated the process with the rendered body and the 26 inch wheels and straight axle to check for clearance, and this is what you get. i still have to carry on with the development of the one piece axle/nose and body bending design, but this is a good indication the geometry might work. when i started out to design something i did not ‘see’ before, i did not expect this, but that is why you do it. | tagged design , recumbent trike , tilting trike , trike , velomobile , velomobile construction | leave a comment velomobile development drawings: part 3 posted on 3rd december 2017 by bookmongerjim in various drawings you will see blocks and cubes dotted around. these are for handling, they allow you to manipulate the component accurately, sketchup rotation tools have a hard time handling curved surfaces. now i have a quick-and-dirty knock up drawing. some parts are accurately placed but nothing is fixed or final. the only restriction i have placed on this design is that the maximum width is 800 mm, to go through a door in my apartment. the first thing i checked for was the sight line, it was way too long. so i redesigned the body with a straight line nose profile from just below the eyes and clearing the front axle. it was so ungainly i am not allowing it out in public. maybe the theory is sound but it does not always produce pleasing results as i found. maybe there is work to be done improving visibility without scaring people. so i went back to body 1. i had a 20 inch bmx wheel lying around while i was drawing. the smaller diameter rims have a hard time with the condition of the road and cycle track around here. i drew 26 inch 559 wheels and spats. the increase in surface wetted area and cross sectional area is offset by the decrease in rolling resistance and tyre availability. the down side of the larger wheels means the air flow between the spats and nose is becoming more restricted and looks like it will generate higher air pressure and therefore drag. i act on niggles. i am not very smart and it takes time for things to sink in. then they start to niggle at me, then i have to do something about it. the problem was always there, it is just exaggerated with larger spats. the thing i tried was to increase the size of the axle fairing and placed so the air travels up the profile increasing in pressure. however when it goes over the hump on both fairing and spats the pressure will be negative by the time it hits the nose which has effectively pushed back. body 3.1 is the same but with an enclosed head fairing and a larger rear wheel spat, but this will cause grounding problems. body 3.2 is another variation on the head fairing. body 4 gh2ost rerun: is the beginning of thinking about the engineering of bending the body to steer the wheels. i have lying about some 100 mm diameter tumble dryer hose, 25 mm compressed length stretches out to 120 mm, while retaining it’s circular form. i also have 80 mm hose. i needed a semi circular cross section round about the trailing edge of the spats. at the same time i took the opportunity to split the body into two zones. the upper section for the width of the arms and shoulders and the lower for the rib cage, hips and feet. i used e 817 for the upper profile, angling it in from the spats through clearance at the shoulders to the tail. i went back to loft along path and this time got it to work. this essentially the same system as ‘gh2ost’ a tapered central flat section with circular rotated profiles on the edge. the air flow underneath needs more work. the air flow on top is improved and the overall shape is simplified. with my new found success with lap i went back to body 1 and rendered all the e 214 profiles. body 5. with the body 1 chunk i reversed the trike setup and put the spats at the back. this has the chance of excellent airflow well down the form. i can also reduce the overall width down to +/-600 mm. | tagged aerodynamics , design , recumbent trike , velomobile , velomobile construction | leave a comment velomobile development drawings: part 2 posted on 3rd december 2017 by bookmongerjim the next step was to measure the dimensions of the body i am aiming to transport. i set up a board as seat back and surrounded myself with boxes for the rib cage/hips, shoulders, back of the head, eye line, leg bent and straight for knee height. the bent knee height sets the velomobile body height which sets the eye line. i then drew these up as chassis bounded volume. it is not a chassis it is only the volumes and boundaries of a human body cycling lying down. the light blue plane is the flat foot length. the top edge of the green plane is the knee height and relative distance. the dark red plane is the back of the shoulders and head the purple plane is the eye line height and distance of the eyes from the back of the head. the yellow plane is eppler 214 scaled to clearance fit at the shoulders at the dark red plane. i then place a station at the red plane with 16 points where 8 x eppler 214 profiles would pass for minimum clearance. there is clearance below the chassis bounded volume for sag in the hammock and the 150 mm (6 inch) ground clearance. a 26 inch 559 rear wheel and the 20 inch 406 wheels, spats and inboard axle, were placed approximately in the right area. an eppler 817 hydrofoil profile was chosen because it is designed to work at low flow speeds and is rear loaded, that is its maximum height is well back on the chord line. this was scaled in the vertical plane, only to give a taut profile line to the nose of the body. as with the front wheel spats the e214 were then laid on the profile line and then scaled to pass through the station. whatever shape was generated would be exactly right, but i had no idea what it would look like! i thought the nose profile was irrelevant because the e214’s are stacked with no distortions between levels, aah, well, maybe. | tagged aerodynamics , design , recumbent trike , velomobile construction | leave a comment velomobile development drawings: part 1 posted on 2nd december 2017 by bookmongerjim my aim in designing this new velomobile was to make it as simple as possible while reducing the effort to push it through the air. i also wanted to make something with as few compromises as possible. the major influences at work in this design is the invention of jurgen mages and his python recumbent bicycle geometry. this went completely against the rules of bicycle steering geometry and created bikes which not only steer and handle but have done so over thousands of miles of commuting and touring. please see in http://en.openbike.org/wiki/main_page one of the biggest sources of drag in a land traveling vehicles are the holes needed to clear the wheel(s) when they steer. reduce the clearances to a minimum and you are doing as much as you can. this image shows the plan view of a 20 inch 406 bmx front wheel. the aero profile is eppler 214 low reynolds number which is calculated for low speed air flow. the ellipse is to give enough clearance for tyre punctures while not creating interference drag. the leading edge profile comes from the ellipse. i could not imagine what this might look like, so i had to generate it to find out. this latest design completely changed my approach. usually i draw what i want and then work on it until i am happy with the result. this time i set out the rules and see what comes about and worry about making it later. the wheel does not pivot in the fairing, so pivot the fairing, this creates aero problems with the axle/fairing join. simplify the whole front end and make the wheels, fairings and axle one piece. this does away with pivots, uprights, steering arms, rose joints and a mass of nuts bolts and washers. “nothing weighs less than nothing” the next step was to put the disk brakes in-board. the axle then only had to deal with bending forces, all torsional braking forces are dealt with in the central structure leading directly into the chassis. make the nose of the body one piece with the axle and the messy aero join is avoided. now bend the body to steer the wheels. so far i have come up with 3 ways in principle to do this. | tagged aerodynamics , design , python , recumbent trike , velomobile construction | leave a comment velomobile skin on frame body from cezar posted on 22nd december 2015 by bookmongerjim recently cezar totth from romania contacted me with this message, and i have included it and the images here, as it is similar to what i am doing. hi ken, i just started a sketch for a simple and lightweight skin-on-frame velomobile hull. not aiming for that gorgeous streamline you made, i’m more into building simplicity and comfort, that means fatter & shorter, open cockpit, with fewer longitudinal tubes. my current target is a light electric commuter delta trike with pedal assist. i started a 1/2 scale model frame made of 11mm pvc tubest. thanks for your inspiring effort. as i mentioned, i find it gorgeous. keep having fun, cezar | tagged aerodynamics , design , non matrix manufacture , recumbent trike , trike , velomobile , velomobile construction | leave a comment yelomobile, velomobile, first trial run posted on 14th august 2015 by bookmongerjim this was the first test of the yelomobile, the first time the trike, and velomobile, had moved in over 2 years. we had previously spent some time aligning the body to the frame for cycling clearances. however between then and arrival on the track the adjustments had shifted again. all the data was collected on a garmin sat. nav. and a heart rate monitor. cadence could not be monitored, today. charles completed a couple of shake down laps and then started a flying lap of the 400 m cycle track in bellahouston park, glasgow. the same gear was used throughout. he tried to maintain a speed he would normally use for long distance cycling of around 18 kph, +/-11 mph, for 10 laps. this pace would be the target for +/- 50 miles a day for 100 days, +/- 5,000 miles. we then fitted the body. charles started from a standing start and then concentrated on producing the same cadence and effort. he found for the same effort he was spinning out and his heart rate elevated trying to keep up. this suggests a larger outer chain ring may need to be fitted, or reduce the effort for the same speed. yelomobile test results1 comparing the information at lap 5 the duration was reduced from 08:32 to 06:52 (-18%). however the heart rate was 14% higher. charles reported it just felt easier. we then had to leave to meet an appointment. it is way too early to early to draw conclusions but initial results are encouraging. | tagged aerodynamics , long-distance cycling , recumbent trike , trike , velomobile , velomobile construction | leave a comment velomobile infographic posted on 16th july 2015 by bookmongerjim i received an email from mads phikamphon from cykelvalg in denmark. he offered me this link to put on the site. it is very interesting. http://www.icebike.org/30-iconic-velomobile-designs-from-the-past-85-years/ | tagged aerodynamics , long-distance cycling , recumbent trike , velomobile , velomobile construction | leave a comment velomobile: coated and painted posted on 29th may 2015 by bookmongerjim the bare dacron is sealed with golden gel mediums : self leveling clear gel, mixed 1:1 with water by volume. the gel stops the paint from bleeding through the skin, and adds the first layer of waterproofing. two coats of golden cadmium yellow medium hue were then applied. the paint was mixed 1 volume paint to 2 volumes of water charles getting fitted for a new velomobile. i used approximately 474 ml of neat paint to cover the outside and edges. the lexan polycarbonate sheet comes with 2 protective skins. these were peeled away to allow gluing, using evo-stik contact adhesive, and pop riveting. the wheel discs are held on from the back. the dacron and protective skins were left in place on the windscreen until all coating and painting was completed. three longerons were left in place to maintain structural strength. they are narrower than the distance between your eyes so they do not register. | tagged aerodynamics , long-distance cycling , non matrix manufacture , recumbent trike , velomobile , velomobile construction | leave a comment velomobile: skin shrunk on posted on 19th may 2015 by bookmongerjim front elevation the skin was cut using the pre- shrunk pattern. i had to learn how to use a sewing machine to do this, so it is not perfect. it now has to be sealed and painted with acrylic mediums and paint. i use golden acrylics. side elevation the wheel covers are pvc foam rims and hubs with corex spokes covered withe dacron. three quarters above the tail is covered by sewing the two halves along the spine, nose and wheel well the dacron is heavy duty polyester sourced from kudzo craft . it is used for covering kayaks and small boats. i did not think aircraft fabric would hold up to being handled 200+ times on a long ride. | tagged 3d printing , aerodynamics , long-distance cycling , prusa mendel , recumbent trike , trike , velomobile , velomobile construction | leave a comment velomobile body pattern wrap posted on 16th march 2015 by bookmongerjim the pattern is shrunk bubble wrap. this is the body frame covered in bubble wrap which has been shrunk to fit with a heat gun. the bubble wrap is about the same width as the final covering material, so this is a very accurate pattern. this gives a quick and cheap way of giving a surface to sketch ideas on to before committing to the final and harder-to-come-by dacron. the red/brown lines are electrical tape which have been stretched on to give the cut lines. | tagged aerodynamics , long-distance cycling , recumbent trike , trike , velomobile , velomobile construction | leave a comment post navigation ← older posts meta log in entries rss comments rss wordpress.org kenny stewart facebook kenny stewart facebook search recent posts velomobile development drawings: part 4 velomobile development drawings: part 3 velomobile development drawings: part 2 velomobile development drawings: part 1 velomobile skin on frame body from cezar recent comments nouveau maillot equipe de france 2014 on charles barnard’s long distance cycling history sheens on drawing volumes sheens on developing drawing volumes jenniferjane on drawing volumes singasongsue on developing drawing volumes archives december 2017 december 2015 august 2015 july 2015 may 2015 march 2015 february 2015 july 2014 april 2014 november 2013 october 2013 categories uncategorized gallery proudly powered by wordpress | theme: able by automattic .

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