How does the Iqazator Tank LEGO Mindstorms EV3 robot work?
One of the students' favorite LEGO Mindstorms robots. Have fun with Iqazator, moving over all kinds of obstacles as a real millitary tank machine.
- #1362
- 17 Jul 2019
One of the students' favorite LEGO Mindstorms robots. Have fun with Iqazator, moving over all kinds of obstacles as a real millitary tank machine.
Devi is a stubborn robot. No mater how many times you press the button, it will press the button last. It if you press again, it will press again. Sometimes it will rotate and speak, but will again press the button, and will continue pressing until the end of times.
This video tutorial shows how the LEGO Mindstorms EV3 Handlebar Chopper Motorcycle robot works. See how fast it is.
This video tutorial shows how the LEGO Mindstorms EV3 Rider Robot Motorcycle with Cart robot works. You can ride a friend with you.
Коди е робот, създаден да се движи в права линия. Той има един единствен мотор, задвижващ две колела. Зад мотора се крие сензор за цвят. Комбинирайки мотора със сензора, Коди може да се програмира да измерва колко е дължината на всяка ивица от различен цвят, създаващ един същински баркод-четец.
Играта "Развален телефон" с LEGO роботи разчита на сензора за цвят, но понякога той не работи както трябва. Сензорите за цвят може да бъдат повлияни от много външни фактори като позицията му и светлината в стаята. Този урок демонстрира как да се съобразим с тези фактори и да решим проблемите възникнали от тях.
This robot was designed for the VEX IQ Challenge 2019-2020. It could push four hubs simultaneously. It can carry one. And it call pull itself on the bar at the end of the run. We've used four omni wheels of which the two at the back are the driving wheels.
Demo program can be found at Program for Winner - VEX IQ Competition Robot for the 2018-2019 Challenge.
Инструкции за конструиране на камионче от ЛЕГО. Използва среден мотор за насочване на предните колела и голям мотор за задвижване на едно от задните колела.
Франческо 2 е вдъхновен от робота Франческо.
Инструкции за конструиране на проста LEGO количка, използваща голям мотор за завъртането на предните колела и среден мотор с диференциал за задвижване на задните колела. За разлика от оригиналния Франческо, Франческо 2 има предвидена позиция за заключващ механизъм на диференциала му.
Това е добавка за Уелдър – супер обикновен мотоциклет, направен от ЛЕГО Mindstorms EV3. Тя позволява на мотора да се движи само на задната си гума и по този начин да прави готини трикове. Какви по-точно ще трябва да откриете сами!
Zat is fun. Zat is great. It is a simple construction for a car with 4 large wheels. And who does not like cars with large wheels. Built from LEGO SPIKE Core set 45678 + LEGO SPIKE Expansion Set 45680 we had a lot of fun with it on Sunday. It was an idea of my wife and the kids took a lot of time putting things on in and moving it around. Just put things on it and play with it.
Zatty is the smaller sibling if Zat. Zatty is small and cute. It's a car on a frame with 4 small wheels and of course two mini figures riding in it or on it. Built from LEGO SPIKE Core set 45678 + LEGO SPIKE Expansion Set 45680 it was designed by my 7 years old daughter and then slightly improved by me and the colleagues.
Play time for a week: About an hour
Zatter is the big brother of Zat and Zatty. Zatter is here to take the load. It has a large container on its back, suitable for placing different toys inside and playing with them. Built from LEGO SPIKE Core set 45678 + LEGO SPIKE Expansion Set 45680 it was designed by my wife and just slightly improved by me and my colleagues. We spend a good hour or two with the kids placing different plush toys and playing with it.
Play time for a week: About an hour
The name of the game? Football!
This Kick the ball attachment for Tricky - the Mindstorms 51515 Robot Inventor smallest robot - is one of our favorites. Imagine a LEGO robot playing football. It is dribbling through the center of the field, it enters the box, it strikes and... goooooooal. What a fun game to play at home, if you decide to build Tricky with this kicking attachment. Aptly named for it’s “trick shots” with the included Mindstorms/Duplo ball. After you're ready with the construction of this robot, you'll find the instructions for building the goal frame below.
You can find the LEGO set, with which this was built, by following this link.
You can find other attachments for Tricky, by following the links below:
You can find constructions created to play with Tricky, by following the links below:
Here are the building instructions for the Turning attachment for Tricky - the Mindstorms 51515 Robot Inventor robot. Tricky might be the smallest robot, built with this set, but it will surprise you with its abilities to spin the ball. If you build this Turning attachment for Tricky, you could try to play a crazy little bowling game with it. As the robot is spinning the ball, you can program it to move forward and then stop, so the ball could go forward (hopefully towards the bowling pins). You can play to see who will be the first to make a strike. The Mindstorms/Duplo ball and the bowling pins are included in the set.
You can find the LEGO set, with which this was built, by following this link
You can find other attachments for Tricky, by following the links below:
You can find constructions created to play with Tricky, by following the links below:
Astronauts, prepare to enter lunar orbit! This robot comes equipped with a stand that can hold a camera or a phone in order to take a picture of the far side of the moon. If your phone or camera does not fit, the stand can be easily modified to suit your needs. With its two motors, Aitken can make both wide and narrow circles around the Moon to ensure the perfect shot!
Този робот изглежда малко странно. Можете ли да познаете защо? Двигателите са разположени в противоположни посоки. Единият двигател е обърнат "напред", а другият е обърнат "назад". Това означава, че ако кажете на двата мотора да се въртят напред, роботът просто ще се върти! За да накарате робота да се движи напред, ще трябва да накарате единия двигател да се върти напред, а другия - назад.
Целта на този робот е да научи учениците, че двигателите могат да бъдат поставени по много различни начини. Не винаги двата двигателя са обърнати в една и съща посока и това трябва да се вземе предвид по време на програмирането.