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Product Overview
myArm M&C Embodied Human Composite Kit
A human-shaped composite kit with four general-purpose intelligent six-DOF robotic arms
Product introduction
myArm M&C Embodied Human Composite Kit is an innovative human robot platform launched by Shenzhen Elephant Robot Technology Co., LTD., designed for education, research and industrial applications. The suite's highly integrated composite design, combined with a human-shaped structure and adjustable joints, provides flexible motion control and precise task execution. Through embodied intelligence technology, the myArm M&C Embodied Human Composite Kit is not only capable of autonomously performing tasks, but also intelligently interacting, sensing and responding to the external environment in real time. Its modular design allows users to customize the hardware and software according to the needs, which greatly improves the scalability and flexibility of the application.
The precision control system of the myArm M&C Embodied Human Composite Kit ensures the high precision and stability of the robot in the execution of tasks, and is widely used in many fields such as industrial automation, robot education and research and development. Support ROS, Python and other development platforms, developers can easily carry out secondary development and application customization. myArm M&C Embodied Human Composite Kit not only provides a powerful hardware platform for the research and development of robotics technology, but also provides a highly potential solution for intelligent interaction and service robots, and is an ideal tool to explore future robot applications.
Design Philosophy
The design concept of myArm M&C Embodied Human Composite Kit comes from the deep integration of human intelligence and machine intelligence, and is committed to creating a robot platform with high flexibility, precision and scalability. By combining the human-shaped structure and advanced embodied intelligent technology, the product not only focuses on the precision and stability of the mechanical structure, but also pays more attention to the perception and interaction ability of the robot, and strives to provide users with an intelligent, easy-to-use and powerful tool to promote the popularization and application of robot technology.
During the design process, the myArm M&C Embodied Human Composite Suite adheres to the principles of modularity and openness, allowing users to freely customize hardware and software configurations according to their needs. Through high-precision motion control and flexible operation mode, the product can adapt to a variety of complex application scenarios, from education and scientific research to industrial automation, from single task execution to intelligent interactive experience, myArm M&C Embodied Human composite kit can provide users with efficient, accurate and personalized solutions. Its strong compatibility and extensive development platform support give developers unlimited creative space and promote the development of robot technology in a more intelligent, open and practical direction.
Design Goals
| Design Goals | Functional realisation |
|---|---|
| Universal multifunctional platform | The MyARM Embodied Human Composite Kit is suitable for various application scenarios such as education, research and business display. Its six -degree of freedom and 750mm wingspan support to perform complex motion control in various working environments, such as precise positioning and path planning. |
| Scientific research and education support | The MyARM Embodied Human Composite Kit is suitable for machine learning and artificial intelligence research, which can perform high -precision experiments and technical demonstrations. It supports end -to -end data training and reproduction, and basic visual tasks, which is an ideal device in the laboratory. |
| Programming and scalability | The highly programmer of the MyARM Embodied Human Composite Kit allows users to customize and programming according to emerging technology to meet future technical needs and achieve optimized operations and experimental results. |
| Technical innovation and knowledge spread | In business display, the MyARM Embodied Human Composite Kit can be used as a platform carrier to show the latest scientific and technological achievements. It aims to improve the public's understanding and interest in science and technology and promote the transformation of scientific and technological innovation to commercialization. |
Features
| Feature description | content |
|---|---|
| 4 units 6 degrees of freedom modular design | The perfect combination of flexibility and scalability is suitable for complex operations. |
| Industrial -grade digital servo motor | Ensure the precise control and long term stable operation of the robotic arm. |
| High-precision encoder | Provide accurate location, speed and acceleration information to optimize performance. |
| Support multiple development environments | Including Python and ROS to meet different development needs. |
| Support localization dragging teaching | Intuitive learning and operation methods do not rely on external devices. |
| High-speed data interface | Open a variety of state interfaces to support complex applications. |
| Customized embedded software | Provide user friendly operation interfaces to simplify complex tasks. |
| Built in 2 inch display | Real time display robotic arm status and operation feedback. |
| Multi -connection method support | Flexible scene application, seamlessly access the existing system. |
| Central symmetrical format | Ensure balanced and stable and improve operating accuracy. |
Product Value
| Enhance experiment and research capabilities | The MyARM Embodied Human Composite Kit provides researchers with a platform that can perform high precision operations to help complex data analysis and algorithm verification. |
| Improve the quality of education | In the educational environment, the device can provide opportunities for practical operations to help students better understand theory and cultivate practical ability. |
| Increase business and display opportunities | The Embodied Human Composite Kit is not limited to laboratory use, its application in technical exhibitions and public demonstrations can attract audiences and potential customers, enhance the interaction and attractiveness of technical display. |
Industry Contribution
| Promoting STEM Education | By providing high -level teaching tools, it will stimulate students' interest in science, technology, engineering and mathematics, and cultivate future innovators. |
| Promoting technology adopts | By providing easy -to -use and highly flexible robot platforms, reducing the technical threshold, so that more institutions can contact and use advanced robotics technology. |
| Stimulate innovation and personal development | Provide developers and engineers with an open platform, support cross -disciplinary learning and innovation, and cultivate key talents for the future development of robotics technology and related fields. |
Application
Client
| Higher education institutions and research laboratories | myArm Embodied Human Composite Kit is a teaching and research tool designed for high-precision experiments and technology demonstrations. It can effectively support complex data analysis, algorithm development and validation activities, significantly improving research quality and educational effectiveness. |
| Higher education institutions and research laboratories | Supporting both Python and ROS development environments, the myArm Embodied Human Composite Kit is suitable for professionals who need personalised programming and system integration. Its modular design and high programmability make it the ideal platform for developing and testing new control algorithms or robotics applications. |
| Organiser of commercial displays and public exhibitions | The myArm Embodied Human Composite Kit has become the preferred equipment for science and technology demonstrations and product presentations due to its precision operation and display advantages. Dynamic demonstration not only attracts the audience, but also enhances the sense of participation and effectively promotes technological innovations and products. |
| Innovative enterprises and start-ups | The myArm Master 750 provides powerful support for companies seeking to integrate cutting-edge robotics to enhance product functionality or optimise production processes. Its outstanding performance and adaptability make it ideal for exploring new technologies and solutions. |
Application Scenario
| User Group | Application Scenario | Aims of Strength |
|---|---|---|
| Teachers and students in the field of education | - STEM Education - Robotics Programmes - Interdisciplinary Research Programmes - Teaching Aids for Robotics Subjects |
- Increase students' interest in science and technology - Enhance hands-on and problem-solving skills - Promote creative thinking and teamwork - Serve as a construction tool for disciplines such as robotics structural design, circuit design, and mechanics analysis |
| Technology developers and engineers | - Prototyping - Experimental studies - Algorithm testing and validation - Robot kinematics validation - Robot composite scenario application validation |
- Accelerating Research Progress - Connecting Theory and Practice - Advancing Technological Innovation - Validating Robot Kinematics and Composite Scenario Applications |
| Business Presentation and Marketing Professionals | - Exhibition - Technology Demonstration - Brand Promotion |
- Attract potential customers and investors - Demonstrate the company's technological strength and innovative products - Enhance brand influence |
| Engineers and technology developers | - Robot Kinematics Validation - Robot Remote Control Scenario Exploration and Development - Machine Learning, AI and Vision Based Tasks<br |
- Perform validated machine operation of the C650 - Explore and develop robotic telecontrol applications - Extend the utility of robotics applications and scenarios |
Peripheral Accessories
A wide range of peripheral accessories provides myArm Embodied Human Composite Kit arm with extensive functionality extensions, making it suitable for a variety of industrial, research and educational scenarios. By combining these accessories, users can significantly increase the flexibility and utility of the myArm Embodied Human Composite Kit arm.
myCobot Adaptive jaws
The gripper jaws are self-adjusting to accommodate objects of different shapes and sizes and are designed to perform complex gripping tasks such as handling irregularly shaped or fragile objects. The flexibility and adaptability of the gripper significantly enhances the arm's operational efficiency and application versatility. The upgraded Adaptive Gripper provides even more gripping power and is compatible with a wide range of programming environments, making it suitable for a wide range of industrial-grade robotic arms.
myCobot Parallel jaws
Designed for tasks requiring precise control, such as the assembly and testing of electronic equipment. The gripper's two fingertips move in parallel to ensure object stability during gripping, making it ideal for handling uniformly shaped objects. Its compact design and multiple connection holes are designed to meet different mounting requirements, and it supports both IO and serial control, making it compatible with a wide range of industrial-grade robotic arms.
myCobot Flexible jaws
Suitable for handling sensitive or fragile objects, the flexible gripping jaws have a soft and resilient gripping surface that effectively reduces pressure on the object and reduces the risk of damage. Ideal for gripping fragile objects such as glass, plastic or porcelain. The fingertips are made of rubber and use pneumatic deformation for gripping. Widely used in a variety of automation and robotics applications, these grippers are favoured for their flexibility, adaptability and efficiency.
myCobot Vertical Suction Pump V2.0
The Vertical Suction Pump V2.0 is an upgraded version of the vacuum adsorption system for vertical lifting of smooth surface objects such as sheet metal, glass or plastic. The new version offers greater suction capacity and higher durability and is particularly suitable for fast and repetitive handling operations.
myCobot Double head suction pumps
The dual-head suction pump is equipped with two independent suction cups, allowing the arm to handle two objects simultaneously or provide greater stability and support, enhancing efficiency in assembly line tasks or applications where multiple parts are handled simultaneously.
myCobot Camera Flange V2.0
Camera Flange V2.0 enables a standard camera to be mounted on a robotic arm to provide the necessary visual feedback to the arm, especially for tasks that require visual recognition, such as quality inspection, colour sorting or precision placement.
myCobot Mobile phone holder
This accessory allows the myCobotrobotic arm to hold and operate a smartphone or similar device and is suitable for automated testing of mobile phone applications, for educational presentations, or for using the phone's camera in specific scenarios.
Supported Extended Development
The myArm series of robotic arms are extremely valuable in education and research, especially in Python and ROS (Robot Operating System), two widely used development environments. These environments provide strong support for the myArm series in a wide range of machine learning, artificial intelligence research, complex motion control, and vision processing tasks.
| Python | - Provides interfaces for joint angle control, servo motor control, servo motor parameter configuration, and Cartesian coordinate system control. - Supports more advanced motion control and precise positioning for sophisticated robotics research and application development. - The driver library can be downloaded and installed via PyPI, providing comprehensive interface support for more complex educational or research projects. |
| ROS | - It supports basic MoveIt functions such as keyboard control and basic path planning, and provides dual version support for ROS1 and ROS2. - Enhanced real-time robot arm display and state information acquisition through RVIZ simulation environment, suitable for more advanced robot path planning and operation research. |
| Hardware Interface | - Includes IO, USB, etc. for easy connection to various sensors and actuators. |
| Software Library | - Provides rich open source libraries and APIs to simplify the development process. |
| System Compatibility | - Compatible with Windows, Linux, MacOS, adapt to a variety of development environments. |
Purchase Address
Purchase Address:
Taobao:https://shop504055678.taobao.com
Shopify:https://shop.elephantrobotics.com/
AliExpress:https://elephantrobotics.aliexpress.com/store/1101941423
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1. 产品概述
myArm M&C 具身人型复合套件
装配四个通用型智能六自由度机械臂的人型复合套件
产品简介
myArm M&C 具身人型复合套件 具身人型复合套件是深圳市大象机器人科技有限公司推出的一款创新性人型机器人平台,专为教育、科研和工业应用设计。该套件采用高度集成的复合型设计,结合人型结构与可调关节,提供了灵活的运动控制和精准的任务执行能力。通过具身智能技术,myArm M&C 具身人型复合套件 不仅能够自主执行任务,还能进行智能交互,实时感知和响应外部环境。其模块化设计使得用户可以根据需求定制硬件和软件,极大地提高了应用的扩展性和灵活性。
myArm M&C 具身人型复合套件 具身人型复合套件的精密控制系统确保机器人在执行任务时的高精度与稳定性,广泛适用于工业自动化、机器人教育和研发等多个领域。支持ROS、Python等开发平台,开发人员可以轻松进行二次开发与应用定制。myArm M&C 具身人型复合套件 具身人型复合套件不仅为机器人技术的研究和开发提供了强大的硬件平台,也为智能交互和服务机器人提供了极具潜力的解决方案,是探索未来机器人应用的理想工具。
设计理念
myArm M&C 具身人型复合套件 具身人型复合套件的设计理念源自对人类智慧与机器智能的深度融合,致力于打造一个具备高灵活性、高精度和高度可扩展性的机器人平台。通过结合人型结构和先进的具身智能技术,该产品不仅注重机械结构的精密与稳定,更关注机器人的感知与交互能力,力求为用户提供一个智能、易用且功能强大的工具,推动机器人技术的普及与应用。
在设计过程中,myArm M&C 具身人型复合套件 秉承模块化与开放性的原则,使得用户能够根据自身需求自由定制硬件和软件配置。通过高精度的运动控制和灵活的操作方式,产品能够适应多种复杂的应用场景,从教育科研到工业自动化,从单一任务执行到智能交互体验,myArm M&C 具身人型复合套件 都能为用户提供高效、精准和个性化的解决方案。其兼容性强、开发平台支持广泛,赋予了开发者无限的创意空间,推动机器人技术朝着更加智能、开放、实用的方向发展。
设计目标
| 设计目标 | 功能实现 |
|---|---|
| 通用多功能平台 | myArm M&C 具身人型复合套件 适用于教育、研究和商业展示等多种应用场景。其六自由度与两组 750mm 和 650mm 的臂展支持在各种工作环境中执行复杂的运动控制,如精准定位和路径规划。 |
| 科研和教育支持 | myArm M&C 具身人型复合套件 适合机器学习和人工智能研究,能执行高精度的实验和技术演示。它支持端到端数据训练与复现,以及基础的视觉任务,是实验室中的理想设备。 |
| 可编程性与扩展性 | myArm M&C 具身人型复合套件 的高度可编程性允许用户根据新兴技术自定义和编程,满足未来的技术需求,实现优化操作和实验结果。 |
| 技术创新与知识传播 | 在商业展示中,myArm M&C 具身人型复合套件 可作为展示最新科技成果的平台载体,旨在提高公众对科技的理解和兴趣,推动科技创新向商业化转化。 |
产品特点
| 特征描述 | 内容 |
|---|---|
| 4台6 自由度模块化设计 | 灵活性与可扩展性的完美结合,适合复杂操作。 |
| 工业级数字伺服电机 | 保证机械臂的精准控制和长期稳定运行。 |
| 高精度编码器 | 提供精确的位置、速度和加速度信息,优化性能。 |
| 支持多种开发环境 | 包括 Python 和 ROS,满足不同开发需求。 |
| 支持本地化拖动示教 | 直观的学习和操作方式,不依赖外部设备。 |
| 高速数据接口 | 开放多种状态接口,支持复杂应用。 |
| 定制化嵌入式软件 | 提供用户友好的操作界面,简化复杂任务。 |
| 内置 2 寸显示屏 | 实时显示机械臂状态和操作反馈。 |
| 多连接方式支持 | 灵活的场景应用,无缝接入现有系统。 |
| 中心对称式构型 | 确保均衡稳定,提高操作精度。 |
产品价值
| 增强实验和研究能力 | myArm M&C 具身人型复合套件 为研究人员提供了一个能够进行高精度操作的平台,帮助进行复杂数据分析和算法验证。 |
| 提高教育质量 | 在教育环境中,该设备能够提供实践操作的机会,帮助学生更好地理解理论,并培养实际操作能力。 |
| 增加商业和展示机会 | M&C 具身人型复合套件 不仅限于实验室使用,其在技术展会和公众演示中的应用,能够吸引观众和潜在客户,增强技术展示的互动性和吸引力。 |
行业贡献
| 促进 STEM 教育 | 通过提供高级的教学工具,激发学生对科学、技术、工程和数学领域的兴趣,培养未来的创新者。 |
| 推动技术采用 | 通过提供易于使用且高度灵活的机器人平台,降低技术门槛,使更多机构能够接触和利用先进的机器人技术。 |
| 激发创新和个人发展 | 为开发者和工程师提供一个开放的平台,支持跨学科的学习和创新,为机器人技术及相关领域的未来发展培养关键人才。 |
2. 产品应用
用户群体
| 高等教育机构和研究实验室 | myArm M&C 具身人型复合套件 是专为高精度实验和技术演示而设计的教学与科研工具。它能有效支持复杂数据分析、算法开发和验证活动,显著提升研究质量和教育效果。 |
| 技术开发者和工程师 | 支持 Python 和 ROS 两种开发环境,myArm M&C 具身人型复合套件 适合需要个性化编程和系统集成的专业人员。其模块化设计和高度可编程性使其成为开发和测试新控制算法或机器人应用的理想平台。 |
| 商业展示和公共展览组织者 | myArm M&C 具身人型复合套件 以其精密操作展示优势,成为科技展示和产品演示的首选设备。动态演示不仅吸引观众,还增强参与感,有效推广科技创新和产品。 |
| 创新企业和初创公司 | myArm M&C 具身人型复合套件 为寻求集成尖端机器人技术以提升产品功能或优化生产流程的企业提供强大支持。其出色的性能和适应性使其成为探索新技术和解决方案的理想选择。 |
应用场景
| 用户群体 | 应用场景 | 优势目标 |
|---|---|---|
| 教育领域教师和学生 | - STEM 教育 - 机器人项目 - 跨学科研究项目 - 机器人学科教具 |
- 提高学生对科技的兴趣 - 增强动手能力和解决问题的能力 - 促进创新思维和团队合作 - 作为机器人结构设计、电路设计和力学分析等学科建设工具 |
| 技术开发者和工程师 | - 原型开发 - 实验研究 - 算法测试和验证 - 机器人运动学验证 - 机器人复合场景应用验证 |
- 加速研究进展 - 连接理论与实践 - 推进技术创新 - 验证机器人运动学和复合场景应用 |
| 商业演示和营销专业人士 | - 展览展示 - 技术演示 - 品牌推广 |
- 吸引潜在客户和投资者 - 展示公司技术实力和创新产品 - 提升品牌影响力 |
| 工程师和技术开发人员 | - 机器人运动学验证 - 机器人远程遥控场景探索和开发 - 机器学习、AI 和基于视觉任务 |
- 进行 C650 的验证机器操作 - 探索和开发机器人远程遥控应用 - 扩展机器人技术应用和场景的实用性 |
周边配件
多样化的周边配件为 myArm M&C 具身人型复合套件 机械臂提供了广泛的功能扩展,使其适用于各种工业、研究和教育场景。用户通过结合这些配件,可以显著提高 myArm M&C 具身人型复合套件 机械臂的灵活性和实用性。
myCobot 自适应夹爪
夹爪可自动调节以适配不同形状和大小的物体,专为执行复杂的抓取任务而设计,如处理不规则形状或易碎物品。其卓越的灵活性和适应性显著增强了机械臂的操作效能和应用广度。升级版自适应夹爪具备更强的夹持力,并兼容多种编程环境,适配多种工业级机械臂。
myCobot 平行夹爪
专为需要精确控制的任务设计,如电子设备的组装和测试。夹爪的两个指尖平行移动,确保在抓取过程中物体稳定,理想用于处理均匀形状的物体。其结构紧凑,多个连接孔设计满足不同的安装需求,同时支持 IO 和串口控制,兼容各种工业级机械臂。
myCobot 柔性夹爪
柔性夹爪适用于处理敏感或易损的物体,其夹持面柔软且有弹性,能有效减少对物体的压力,降低损坏风险。适合抓取玻璃、塑料或瓷器等易碎物品。指尖由橡胶制成,利用气压变形进行抓取,广泛应用于各种自动化和机器人领域,因其柔性、适应性和高效性而备受青睐。
myCobot 垂直吸泵 V2.0
垂直吸泵 V2.0 是升级版的真空吸附系统,用于垂直提升光滑表面物体,如金属板、玻璃或塑料。新版本具有更强的吸附能力和更高的耐用性,特别适用于快速和重复的搬运作业。
myCobot 双头吸泵
双头吸泵配备两个独立吸盘,使机械臂能同时搬运两个物体或提供更大的稳定性和支持力,增强在装配线任务或多部件同时处理的应用中的效率。
myCobot 摄像头法兰 V2.0
摄像头法兰 V2.0 使标准摄像头能够安装至机械臂上,为机械臂提供必要的视觉反馈,特别适用于需要视觉识别的任务,如质量检查、颜色分拣或精确放置。
myCobot 手机支架
此配件让 myCobot 机械臂能够持有并操作智能手机或类似设备,适用于自动化测试手机应用、进行教育演示或使用手机摄像头进行特定场景下的操作。
3. 支持的扩展开发
myArm 系列机械臂在教育和科研领域中极具价值,特别是在 Python 和 ROS(Robot Operating System)这两个广泛使用的开发环境中。这些环境提供了强大的支持,使得 myArm 系列产品能够广泛应用于机器学习、人工智能研究、复杂运动控制以及视觉处理任务中。
| Python | - 提供关节角度控制、伺服电机控制、伺服电机参数配置、笛卡尔坐标系控制等接口。 - 支持更高级的运动控制和精准定位,适合进行复杂的机器人学研究和应用开发。 - 驱动库可通过 PyPI 下载安装,提供全面的接口支持,适合需求更为复杂的教育或研究项目。 |
| ROS | - 支持 MoveIt 基本功能,如键盘控制和基础路径规划,提供 ROS1 和 ROS2 双版本支持。 - 通过 RVIZ 仿真环境加强实时机械臂显示和状态信息采集,适合进行更高级的机器人路径规划和操作研究。 |
| 硬件接口 | - 包括 IO、USB 等,方便连接各种传感器和执行器。 |
| 软件库 | - 提供丰富的开源库和 API 来简化开发过程。 |
| 系统兼容性 | - 兼容 Windows、Linux、MacOS,适应多种开发环境。 |
4. 购买地址
如果您有兴趣购买该设备,请点击下面的链接:
淘宝:https://shop504055678.taobao.com
Shopify:https://shop.elephantrobotics.com/
速卖通:https://elephantrobotics.aliexpress.com/store/1101941423
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