THIS IS THE TEST SITE OF EUROBRICKS!
Search the Community
Showing results for tags 'sbrick'.
-
BrickController2 is an Android and iOS application that allows you to control your Lego models using a compatible gamepad. It supports the following devices: - SBrick - BuWizz 1-2 - BuWizz 3 (basic support) - Lego Powered-Up devices: Boost, PUP HUB and Technic HUB (or Control+) - PF infrared (on Android devices having infrared emitter). Features: - Multiple profiles for a single creation - Multiple motor (or output) assignment to a single controller event - Different types of devices can be used at the same time - The same motor (or output) can be assigned to multiple controller events - Different joystick characteristic settings - Different button modes: normal button, simple toggle, ping-pong toggle, carousel toggle, ... - Train mode on joysticks - Normal and servo mode for the new Control+ motors - Sequences (like for flashing light) BrickController 2 on the Google Play Store: BrickController2 android BrickController 2 is also available on the Apple App Store. BrickController2 iOS Video tutorial created by @kbalage (many thanks for this): And another great video by @kbalage: Older versions: BrickController Android application. It lets you to control Lego creations via Lego infra-red, SBrick and BuWizz V1 and V2 using any Android compatible game controller: Current version: BrickController 0.6 User guide: BrickController User Guide Minimum system requirement: Android 4.4 and bluetooth low energy support on the phone (or tablet) Video on the older SBrickController application:
- 1,257 replies
-
- sbrick
- game controller
-
(and 8 more)
Tagged with:
-
hello hello guys im at the moment also working on a similare crane, a ltm 1050/1055/1060 a mixder of those three. it has one axle less, but im trying to implemte crape steering too the all wheel steering, also im building it as a all axis driven vihicle. problem now is not the switching between the two steering modes, but the axis that connect the transmission to the gear rack thats steering, because there is just to too much play at the end of the system. important to know is that im building this with flying axis and at the end of the transmission i have used a wormgear and a 20 tooth gear so the play build up between the 20 tooth gear and the gearrack at the end of the system. So my question is how to get rid of that play, and im pretty sure there has to be a sulotion because im very certain im not the first person who has build a model with flying axis that are steered
-
Lego RC E-100 super heavy tank by Tommy Styrvoky, on Flickr I have been busy with my latest model, the WWII German prototype vehicle E-100. This one being my second rendition of it since 4 years ago, when I started building MOCs. This one is smaller and greatly improved scale accuracy. more information and photos on my blog. http://tommystyrvoky.blogspot.com/2018/02/e-100-super-heavy-tank.html instructions https://www.rebrickable.com/mocs/MOC-13061/TommyStyrvoky/rc-e-100-super-heavy-tank/#comments The process of rendering all of the animations for this video took some time, as I rendered all of this on my laptop, the end result, each frame requiring about 5 minutes at only 720p , and well there are a few thousand frames rendered for the animations, and I also completely redid my channel outro with the new PBR shaders from Meccabricks. Lego RC E-100 super heavy tank by Tommy Styrvoky, on Flickr And after all of that time rendering I realized that I forgot to include the second turret hatch... This is probably one of my most accurate vehicles so far, given the constraints of lego, and the mechanical challenges. Though I am still striving to do better in the future. Lego RC E-100 super heavy tank by Tommy Styrvoky, on Flickr and a comparison with blueprints from the real one. E-100 Blueprint overlay by Tommy Styrvoky, on Flickr
-
Foremost is a Canadian company specialized in oil & gas, heavy oil, mining, water well and construction equipment. You can have here on Foremost’s website a complete overview of their activities and product. Note that @Erik Leppen is also working on a Foremost truck; the Delta III, which can be viewed here to discover a great modular big MOC. On myside, I prpose youthe Commander Tri-Axle. The main and only goal of this MOC was to test the “tri-axle” design. The Commander C Tri-Axle was launch in 2011 and is a 8x8 evolution of the classic 6x6 Commander C. “by adding a third axle to allow for an extended oilfield deck while maintaining low ground pressures. This also increases the maximum payload capacity from 60,000 lbs (27,216 kg) to 80,000 lbs (36,287 kg).” says Foremost. In the main line the truck is an all wheel drive articulated truck mounted on Terra tires, equipped with a 500hp Cummins engine, a 11m bed and a 58t winch. The full documentation of the Commander Series is available here. The MOC. The truck is a 8x8 articulated RC truck. The full Album is available on FLickR There is three power function controlled through a SBrick controller plus a manual one: 1 PF-XL motor for propulsion (redution 1:1) 1 PF-M motor for steering (12t-36t-Worm-24t) 2 PF-LED for headlight Manual winch with locking system The tires used are 68.8 x 40 Balloon Large. The front axle is only pendular, just to simplify the construction. The 3 rear axles are pendular and independent from each other. The forward axle has stiffer shock absorber to support the weight of the 2 motors and the battery box. The winch is manual and equipped with a locking mechanism. There is only few details in the cabin, it is actually hard to find pictures, it is a simple three seats cabin. The driver’s seat is equipped with some instruments. (the music in the video may not work properly ) Some Bonus. The Commander fitted with a "special" load for delivery: The commander fitted with gopro mount for outdoor filming: Nose 360 degrees mount Lateral 360 degrees mount (can bee fitted on both side) bed upper mount The aft cabin support used in the video has been included later so picture available Thank you for reading ! All my other MOC available here below ↓
- 11 replies
-
Hey guys! So, my intention was to replicate an industrial robot arm with 6 degrees of freedom, I am pretty satisfied with the result. As I do not have any Mindstorms, I decided to build it only using Power Functions. For operation, I use 2 sBricks, which allow me to do precise movements, from an interface of my own design. Most joints have a large movement range, it can lift up to 150g of weight and the operation speed is intentionally slow, for better control. The arm uses 7 motors, which can all be controlled independently. It has 1 XL, 3 L and 4 M motors. The arm is powered by 2 battery boxes, a large one in the base and a small AAA on the custom turn-table, which I am very proud of. By the way, the total weight is 2800g, so quite heavy. It actually took me one month to create, so it's definitely my longest build to date. But enough talk, here's the video (you maybe saw it on FB already). Here's what you can do with the robot arm, using a nice sBrick sequence: Photos are next: Feel free to comment an share your thoughts, thanks for your time If you want to see all the pictures, see my Flickr album: https://www.flickr.com/photos/braker23/albums/72157692147505855 PS: I will post more content soon, this is just the beginning!
- 4 replies
-
- industrial robot
- robot arm
-
(and 4 more)
Tagged with:
-
Hi everyone, Finally, I have finished a project which I was building since last September. It is the scale model of the Intrac 2011 snow blower which is/was often used in the swiss alps by the army and other communal parties. It was the aim to create another working snow blower after the success of the snow blower from last winter. The blower is powered by three buggy-motors which are all controlled by a separate Sbrick. Each track is driven by two PF XL motors. The snow blower shoot direction is controlled by two 9-volt micro motors and the height of the snow blower by one PF L motor. As power source I used two Buwizz as battery or a custom lipo battery. After a certain time in the cold I had the replace the Buwizz with the custom lipo battery. Cheers FT
- 74 replies
-
- lego
- lego technic
- (and 12 more)
-
Here is a sneak peak of one of my biggest projects up to date: Project started with a new type of a gearbox, which uses only two toothgears at any time in order to transfer power from motors efficient to the wheels: Here are a few specs of the model: Length cca. 80cm when folded Width cca. 30cm Height cca. 25cm Weight cca. 4,5 cm Dual rear live axles in the back independent suspension in front 4 electrically controlled gears + 1 additional electro-pneumatically controlled gear Working towing arm in the back capable of lifting weights of over 1kg Dynamic lights All functions controlled by 3 Sbricks Currently we have snow here and I can't shoot a video as planned I will post more info as soon as I manage to take more photos and a video.
- 32 replies
-
- power functions
- gearbox
-
(and 6 more)
Tagged with:
-
To be honest this video was supposed to be my video releasing a new version of the RC Car with Sbrick along with some instructions. However, after a request for a build battle by LEGO Technic Mastermind, I have decided to postpone that video, but that will happen sometime in the future. In the meantime, I have made a rear-wheel drive sports car with an opening hood, small-cylinder V8 engine, functional headlights and taillights with PF LEDs, full independent suspension on all four wheels, a steered front axle with toe in (steered by a PF servo), and a four speed manual gearbox driven by 4 PF L-motors. To control all the powered functions, I have used two Sbricks, each connected to their own AAA battery box. I have not much else to say, just enjoy the video and photos below.
-
The SBRICK profile designer documentation is pretty cryptic. Do the experts here at Eurobricks have some advice about using circuits and sequences to: 1. Gate a joystick control so that in one direction the motor only runs at full speed when the slider is moved all the way up (to 1.0), but leave the reverse control variable speed. Application: Flipper control for PKW's TC11 battle bot wheeled scorpion. The flipper fires with any forward motor motion, and often needs precise control when reloading. Gating the forward control will help limit misfiring. 2. Start a sequence from a button controlling a motor that is also controller by a joystick. Application: Automatically fire, and then reload the flipper.
-
Even before the release of the Lego 42069 set, I’ve always wanted to make a 4x4 vehicle with triangular tracks. Seeing that the season is perfect for vehicles like these (the snow!), I decided it’s finally time I make my dream come true. The build started out with, obviously, making the 4 triangular tracks. Drive is transferred to the tracks via a large sprocket, and two small sprockets form the triangular shape. There are also two small wheels at the bottom that guide the tracks and help reduce slack. The track modules are attached to their axles with a small turntable, which allows it tilt back and forth and also keeps it well attached to prevent it from falling off. The axles are attached to the chassis with 4 suspension arms, 3 links, and 2 6.5L shock absorbers. The entire vehicle is driven by 2 L motors, with 1 per axle. A servo motor at the center of the chassis controls steering, with the front output controlling the front axle and the rear output controlling the rear. The drive/steering setup is similar to that of the 9398. Since there are no mechanical connections between the two driven axles, I added an extra M motor just to drive the V6 piston engine. The fake engine is chain-driven and can be seen by opening the hood, which can be locked in place. The model also includes Lego LEDs that light up the front lights. However, due to the bright sunlight when I filmed it, I could not demonstrate this feature. As for the performance, the model could drive on snow pretty well. The use of tracks over wheels was advantageous in that it has better weight distribution, which reduces stress on the motor. However, since tracks are a lot less grippier than wheels, even a small obstacle means that the tracks will slip, so I had to omit differentials in the drivetrain. The lack of differentials meant that one of the tracks on each axle will be stressed when making a turn, which is why one of the tracks can be seen driving slightly tilted when making a turn. Using rubber inserts, however, may have helped with the tracks slipping, but unfortunately I do not have any at this point. The tracks also feature stoppers on the back that limit their maximum tilt, as the tracks would often tilt too far in its initial tests, especially when overcoming an obstacle.The entire model is powered by a rechargeable battery, which, despite delivering less voltage than the AA battery box, gave the model plenty of power. Overall, I am very satisfied with the result. The model was a success not only in performance but also in aesthetics. In fact, I think this is my best-looking pickup truck model so far. Video: Photos:
-
We have been enjoying controlling our Lego Battle Bots with SBRICK. Team battles are really fun. I can control two bots with my iPhone using a MFI gamepad for one, and the iPhone for the other. Before I buy a second gamepad to control three bots, has anyone used multiple gamepads with the iPhone SBRICK app?
- 2 replies
-
- sbrick
- battle bot
-
(and 2 more)
Tagged with:
-
I’ve been troubled by the vulnerability of LEGO parts on heavy models for a long time. Especially some crucial parts related to drivetrains, like universal joint, bevel gear, etc. One solution I can think of is to distribute torque by using multiple drivetrains. Instead of using 2 groups of motors driving the wheels on each side respectively, I built a live axle chassis with a dual-drivetrain system. In this way we don’t lose the benefit of differential while cornering. I actually designed 2 experimental MOCs utilizing this system. Today I’m gonna show you one of them - Mitsubishi Pajero. Bodywork is based on the very first generation of Pajero series, which was introduced in 1982. Some details have been exaggerated for a better looking, like the bull bar, rooftop, and engine hood. This MOC is built more for aesthetic purposes. Due to wheelbase concern, it’s only rear-wheel drive. Luckily both front and rear suspensions are quite responsive, which will help just a little bit on tractions when driving off-road. Each drivetrain is driven by an L Motor, rotates in opposite directions, and together they drive a single differential. I also managed to put a 2-speed linear gearbox in it. some renders to show them all: Outdoor test: I never expected it to have a great performance given the fact that it is 2-wheel drive and those 62.4mm tyres have a really bad traction. I think it is acceptable for its configuration. More photos: Upcoming New MOC This new MOC is a 4x4 model with a similar but different drivetrain. It is still an unfinished prototype, but I can’t help giving you guys a sneak peek of it. Stay tuned and enjoy
- 23 replies
-
- mitsubishi
- pajero
-
(and 1 more)
Tagged with:
-
This is the first non-contest MOC that I have posted. It started out as @Madoca 1977's Baja Trophy Truck. I think I originally got as far as mounting the engine when I first started. As I only have the long shocks in soft, I decided I needed to redesign how the suspension worked. I also added all-wheel drive, which significantly complicated the front end. As well as kingpin inclination. I spent a good amount of time trying to get Ackermann geometry, but could not get anything sturdy. That was almost a year ago. I shelved this project. Then my wife got me the Porsche, Claas, and a second SBrick.. And this is the result. The main frame and roll cage are the most similar to Madoca's. Since I have taken these pictures, have redesigned how the battery boxes are mounted. They attach to the frame and sit much lower into the truck. It is possible to take off the bodywork and roll cage and drive. I redesigned the rear axle so that the power sent to the front was from both sides, so that one set of l-motors was not power 3 tires. There is still some clicking in the front, but only when not driven on a flat surface. I had to reduce the gear ratio to 1:1.667. The differential at the rear acts as an adder and sends power to the front differential, and fake engine. The rear wheels are still driven directly by one pair of motors, each. I could not figure out a way, without buying shocks, to suspend the rear axle on the smaller shocks and still have plenty of travel. Until I found some small springs in my junk drawer. I have no idea what their strength is, but they get the job done. At full compression and fully turned, the front tires will touch the body. The body itself comes off in 4 pieces: each side, roof/hood, and front bumper. More pictures can be found in my Brickshelf folder at: http://www.brickshelf.com/cgi-bin/gallery.cgi?f=571486 I will leave you with my favorite picture
-
Today I present you the Dual-crane Pipe Transporter, a vehicle that came directly out of my mind. I mean, in my remain, I never seen a +real+ vehicle like this one. This kind of vehicle could actually been used on construction site of oilfield for the transport, the tracks allow a low ground pressure and good traction so it is suitable for every environment. The full review with all images are avialble at superk-technic.com/pipetransporter. I based the design of the Transporter on two vehicles from my Idea collection. The lateral reach stacker Meclift ML5016SR (on my to-do list for 2018) and a classical side loading container trainer similar to what has been released in the Mack Anthem 42078 set. The Dual Crane Pipe Transporter is a tracked vehicle equipped with a large flatbed to transport pipe of long loads, a dual articulated crane, 4 outriggers, a sliding cabin for improved view and a counterweight. The Power functions elements used in this MOC: 2 PF-L for propulsion (1 per track) 1 PF-M for the crane main structure w/ linear actuator 1 PF-M for crane articulation w/ mini linear actuator 1 PF-M for outriggers w/ 1 mini-LA per outrigger 1 PF-M for winches 1 battery box used as counterweight Plus 2 SBricks Bluetooth controllers. Thank you for reading.
- 17 replies
-
This year I spent less time online due to several reasons (like my career) but I haven’t been hanging around when it comes to LEGO. Next to co-organize LW I built a couple of models and one of them is this Scania T143 bulk hauler. I originally started with mk1 in 2016 but gave it an overhaul in 2017. For sure it is based on Ingmar Spijkhoven’s model but actually I wanted to give it a personnal touch. Is has another chassis and drive train which is more based on Jaaptechnic’s Actros. The cab is different from Ingmar’s. I chose for the original side panels with the typical 2-series and 3-series shapes. The rear panel got the same treatment. The truck is powered by a singe XL motor with is strong enough to pull a drawbar trailer. Both bodyworks can tip with a XL motor and it has lights on front and rear. It is supplied with an SBrick. Special thanks to Dirk Klijn and Jaaptechnic for the high quality decals. For more pictures please have a look in my album: https://flic.kr/s/aHskrBEUtv
-
I've been a bit inactive on Eurobricks the past couple of weeks (partly due to making instructions for @Aventador2004's excavator, and making a MOC for a competition), so I thought I'd share a little tank I made to test the gamepad support that was recently added to the SBrick app: (which by the way, is awesome!) I used a 3rd-party Lipo battery to power the SBrick, which was placed between the two L-motors, and connected to the SBrick via a custom adapter cable: (the red thing in the photo below is part of it) It's quite a fun little thing to drive, and is nice and quick too: Some more photos:
-
Here's a little something I've been working on for a while now, mainly because I just didn't have time to edit the video. Instructions should come out late 2017 to early 2018. The video link is below, and some pictures after that!! Before anyone else asks, I fixed the steering, it was something purely wrong with my configured profiles settings for the Sbrick, but no one could have known that ;) Enjoy!
-
The Cossack is an off-highway bed truck, designed for heavy transportation in very hard environment. It’s the truck It was designed and ordered by ATK, specialized in heavy transportation for oilfield operation, and built by Option Industries, a Canadian manufacturer. Some information and images here (in French) . And video here on youtube and here on facebook. Like the real machine, the MOC is a 6x6 suspended motorized articulated tracked truck. There is 4 power functions piloted through a SBricks Controller: 1 PF-XL motor for the propulsion, no central differential, no reduction 1 PF-M motor for the steering through two mini linear actuators 1 PF-M motor for the main winch (worm gear + 24t) 1 PF-M motor for the secondary winch (worm gear + 8t) Some details: The front axle is suspended thanks to 3 Steering Arm 57515 and the front axle suspension are mounted horizontally. The pivot as composed of a steering ball joint and steering arm. The movement is done through two mini linear actuators powered by a PF-M installed on the main body. The main structure (dark bluish grey) is the spine of the truck. It’s this part that supports the entire load in the truck. The design is not very sophisticated but it is very stiff. All the motors are integrated to this structure. The dual suspended axle is inspired from the Arocs one. Both axle are linked by a mini-turntable allowing free move. There is two winches, the main one at the front of the platform, the secondary winch can be found at the tail. Thank you for reading, A video to finish, and if you want more information about this MOC you can jump here to my website. Best regards,
-
Hi, another Mini-MOC for you: here comes the Mini-Skidder This little thing is very powerful as it uses 2 L-Motors for drive and a third L-Motor for steering. Watch the video: On my brick safe page you can find the pics in higher resolution and of course an LDD-File: https://bricksafe.com/files/Leonard_Goldstein/woody_and_the_woodpicker/Woody-Woodpicker_V02.lxf Let me know what you think Regards Leonard Goldstein
-
Hello Eurobricks AFOLs, I am Engine and this is my first post here on EB forum. My friend HorcikDesigns told me, some of you here want to know more about my last MOC. My pleassure! Original Vehicle: As some of you noticed, my MOC should be scale model of Ghe-o Rescue. It is a Romanian rescue vehicle designed for extreme terrain, with a capacity of up to 11 people. Dimensions are: 5.2 m length; 2.7 m width (even wider version exists); 2.4 m higth (without rooftop carrier). The weight is 3.2 tons. Under the bonnet, more engine types can be monted, with the most powerful one with 500 hp. Live axles are used for suspension, both equipted by lockable differentials. There are also built-in water tanks for 620 liters for fire extinguishing. Another specialty is the possibility to mount tracks to rear wheels or pneumatic "pillows" on wheels for floating on water. Tires are also special. It is Arctictrans 1300x700-24 (diameter 1300 mm and width 700 mm). The manufacturer shows off an independent test in which they won over Avtoros and Trecol manufacturers. Here you can see several cars built on them. And because the tire diameter and width exactly match the 1:16 scale to the LEGO "Tumbler" tires Ø81.6x44, the scale of the model was decided. So far I do not know any other LEGO cration of Ghe-o Rescue. MOC: The MOC was designed for Kostky.org Trophy Competition, organized by our technic race event guru Peter. And the task was to build a drivable, remote-controlled, off-road vehicle that would be able to travel about 3 km. And at the same time, it should be as beautiful as possible and with design matches to original vehicles. Terrible task. The dimensions of the model are: 332 x 168 x 168 mm (41.5 x 21 x 21 studs), weight 1.2 kg. The drive is permanently 4x4 without differentials. Axles are not sprung. But thanks to the torsionally soft frame of the vehicle, decent axle crossing is achieved (some LEGO trial experience here). Inside, there is a functional winch with a length of 2.5 m. Good lighting is a necessity for the expedition special. The control is provided by sBrick. The propulsion is made by 1 x PF XL motor with a total gear ratio of 1: 1. Schizophrenic steering is provided by the PF Servo. The winch is driven by a PF M motor via a worm gear (8: 1 ratio). Five pairs of PF lights really shine in front of the car. Electrical source is a battery box with 6 AA batteries. The whole MOC is pure LEGO exept of: sBrick receiver, high strength thread as winch rope, threaded cardans and event mandatory stickers. Drive ability: Drivig speed corresponds to a pleasant walk. Off-road capabilities were adequate to the track. Tire traction did not limit offroad capabilities, but a small power of e-motor did. Then the winch becomes useful, that is able to lift the entire weight of the vehicle. And if it was still not enough, the other "competitors" were there to help. A minor issue was the steering. Thanks to the loose in steering mechanism and occasional insensivity in the mobile app, sometimes I sent it out of the way. A major issue was energy consumption. Within 1.5 km, I drained out three sets of batteries (2x alkaline GP Ultra Plus, 1x rechargeable GP 2700). And yet I do not know how to solve it. But most likely it is caused by PF Servo motor, as we disscussed after the event with other partipiciants. ----- Thank you for comments and questions. Pictures are here in my gallery. Original post on Kostky.org.
-
NEWS of 12-11-2017: I have been invited by Ropa Maschinenbau, to join them at Agritechnica in Hannover Germany with my Ropa Maus 5, and my Ropa EuroTiger 4 XL, the coming Thursday and Friday the 16-17. in Hall 25, Stand G14. Come and have a look if you plan to visit this exhibition. Hi Guys, long time no see. Bondemand Clausen is back with some farming equipment. It is a Ropa Maus 5, which is used for cleaning and loading sugarbeets onto trucks or tractor wagons. This MOC is build in Scale 1:16, weighs 8 kilo. It has been presented at Lego World 2017, Copenhagen, and Skaerbaek Fanweekend 2017. First pictures shows the Machine in transport position. Unfolded and ready to work. It has 23 motors, 13 Servos, 2 XL, 3 L, 4 M and 1 Micro. They are controlled by 6 Sbricks, via Ipad. 10 of the servos controls pneumatic valves, powered by 4 pneumatic pumps. It has 11 pairs of PF LED lights. The real machine the Ropa Maus 4, Cleaning and Loading my Sugarbeets in 2013.
-
Hey, Eurobricks! It’s been a long time. And for me it’s been a really tough time. Actually I’ve been suffering from anxiety disorder and OCD for a long time. It seems I can just handle it and not let it affect my life (which I did also for a long time) but things got out of control in the past few months. It’s the darkest time in my life and basically I lost interest in doing anything. God knows what I’ve been through. Luckily I got my family with me all the time. More importantly I didn’t do anything bad & stupid to myself. It is still a recovery process for me, but I think I’m well enough to pick up some unfinished LEGO projects, something I love to do, and something that will make me feel better. So today, I’m bringing you one of those projects - a LEGO version of the SHERP ATV. Parts count: 1374 pcs Weight: 1420 g Dimensions (Length x Width x Height): 232 mm x 195 mm x 178 mm / 9.13 in. x 7.68 in. x 7 in. Exterior I like this kind of compact vehicle, especially with massive tires. While building this model, I have a single goal for the exterior: full enclosure. It all started with the mudguard. I tried to use Technic parts to build the middle section but it’s nearly impossible to recreate the curves with no gaps. So sloped bricks become the best choice. To compensate a little bit on the extra “unnecessary” weight, the enclosure is also used as part of the gear housing. Drivetrain Instead of putting two identical motors on each side and making it skid-steer drive, I decided to make a drivetrain based on a subtractor. It made precise steering possible, and can be controlled one-handedly by Sbrick, which something I prefer when I drive the model while holding the camera on the other hand. This is a prototype: It’s a failed attempt. Knob wheels not only cause unsmooth power transmission, but also take the space of a 5x7 frame, which is supposed to be a sturdy housing for the lower differential. As a result, the lower diff got damaged from gear slipping after 5 minutes of test drive, the whole model couldn’t move completely. After several tests, I replace the knob wheels with 16-tooth clutch gears. it only introduces very little frictions and it’s very reliable. Here is the final version: Performance I made a short video (4K): More Details Hope you like it. Feels good to be back
- 41 replies
-
- sherp
- russian atv
-
(and 1 more)
Tagged with:
-
Quandary. First I apologize for the long post. I have finished the first stage of a large industrial MOC. So far it has 4 motors for several models AND 4 channels on an sbrick for an overhead crane. ( with more to come) I'd like some suggestions as to how to proceed with the animation/automation. I'd like to use a laptop as a central control point. I understand that sbrick is working with scratch on a pc interface. I have read that a pc running windows can communicate with an EV3 with Bluetooth protocol. Has anyone done any work with any kind of an integrated environment. Ideally I would like to make the EV3 sensor readings available to the pc and then issue commands to either EV3 motors or sbrick motors. The sensor capability of the sbrick is not versatile (at this time) to use a full range of EV3 sensors. Am I "beating a dead horse" with trying to keep the Ev3 + sbrick + pc in the loop or should I do a switch to Ardunio / Raspberry Pi / NanoPC etc? I 'was' an experienced programmer before retiring and am leaning towards a micro solution to get in a single language environment. Any help/comments would be appreciated. If you would rather continue this topic privately, drop me a message. Thanx
-
Hi everybody! Thats my new 4x4 rock crawler. So,here it is Specifications: -4 link suspension -portal axles -rc 108 mm tires -3s li-fe battrey -2 buggy motors -1 sbrick I hope you like it Let's see it in action!
- 14 replies