【www.myl5520.com--英语教案】
工业机器人培训机构深度解析机器人选择方向
篇一:专业英语,工业机器人方向
机器人培训机构表示,工业机器人是许多企业都非常有兴趣的关注对象,但是他们大多都不是很清楚工业机器人,对于它的各方面了解也不是很到位。工业机器人培训机构建议大家在没有深入了解工业机器人的情况下,对于它的选择能够谨慎一点。
北京兄弟连工业机器人培训机构认为要弄明白要用工业机器人做什么,也就是用途。每种行业都有非常专业的机器人,好比焊接、切割、喷涂等等行业都有对应的专业机器人可以使用。确定好应用范围就要根据机器人的参数确定自己需要的型号了。
1、机器人的应用用途
机器人的用途决定了选择机器人的类型,像切割、搬运、焊接等工作都有专门的机器人,想要快速进行分拣工作,就可以选择Delta机器人;北京兄弟连机器人培训机构指导,想要在狭小空间进行搬运,可以使用SCARA机器人;如果想要在工作过程完成避障,就需要使用具有多自由度机器人了。
2、机器人的自由度
机器人的自由度也就是机器人的轴数,轴数越多机器人的自由度越高,机器人的灵活性也就越强,所能做的动作就可以更加复杂。如果只是用于简单的拾取放置工作,那么一个四轴机器人足够完成这个工作了。
3、负载
机器人的负载决定了机器人工作时候可以承载的最大重量,北京兄弟连工业机器人培训机构认为你需要对你生产线上配件的重量有一个认识,然后选择合适的重量就好。
4、最大运动范围
每一台工业机器人都有最大的运动范围和可以到达最远的距离,这时候就需要考虑它的运动范围是不是符合自己的需求。
5、速度
一般来说,详情表里都会给出一个最大速度,速度高的机器人效率会高一些,理论上完成工作的时间也会重复短一些。
6、重复定位精度
北京兄弟连工业机器人培训机构解释,这个参数直接反映了机器人的精确性,机器人重复完成一个动作,到达一个位置会有一个误差,精度越高的机器人误差越小,一般的机器人误差都在±0.5mm以内,如果你的应用对精度要求非常高,那么这个数据需要着重看一下;如果应用的精度要求不高,也没有必要选择重复定位精度非常高的产品。
7、惯性力矩
兄弟连IT教育 版权所有
机器人详情表里的惯性力矩和各轴的允许力矩对机器人的安全运行有着非常重要的影响,北京兄弟连机器人培训机构表示,如果应用对力矩有一定的要求,需要仔细核对各轴的力矩是不是满足,如果超载可能会让机器人产生故障。
8、防护等级
如果机器人使用的环境有尘或者有水会对机器人的运行产生影响,那么请务必研究一下机器人的防护等级。北京兄弟连机器人培训机构提示,不同机器人对各种环境的适应性是有区别的,看准这个条件,选择与工作环境搭配的机器人。
北京兄弟连机器人培训机构对于各类机器人都有较长时间的研究,精通各种型号种类的工业机器人,在工业机器人的选择上是非常有方法的。
兄弟连IT教育 版权所有
工业机器人技术技术
篇二:专业英语,工业机器人方向
机电一体化技术专业工业机器人技术方向介绍
作者: 来源: 发布时间:2013年05月05日 点击数:
2172
机电一体化技术专业
(工业机器人技术方向)
【特色与优势】
工业机器人是面向工业领域的多关节机械手或多自由度的机器人。工业机器
人是自动执行工作的机器装置,是靠自身动力和控制能力来实现各种功能的一种机器。
它可以接受人类指挥,也可以按照预先编排的程序运行,现代的工业机器人
还可以根据人工智能技术制定的原则纲领行动。
工业机器人是机械、电子、控制、计算机、传感器、人工智能等多学科高新
技术于一体的机电一体化数字化装备,具有长期工作可靠性高和稳定性好,并且能够承担和替代人的许多工作任务。对提高产品的质量与产量、保障人身安全,改善劳动环境,减轻劳动强度,提高劳动生产率,节约原材料消耗以及降低生产成本,可以在各行各业中应用,改变着人类的生产方式,提高生活质量。因此,本专业人才应用市场前景非常广阔,我校为了满足市场急需开设了机电一体化专业工业机器人方向,目前是全国首批、华中地区首家开设工业机器人技术专业人才培养的高职院校。
【就业前景】
1、在2000年,中国工业机器人保有量仅为3500台,到2013年时,这个数
据跃升为100000多台。专家预计未来年均增速有望保持25%,两年内中国将超过日本成为世界最大的机器人市场,2025年基本达到自动化水平。
2、主要应用领域: 汽车、现代制造、电子生产企业、塑料制品、食品、饮
料、医药、烟草、家政服务、电力设施、自动化办公等行业。尤其在毛坯制造、冲压、压铸、锻造、机械加工、焊接、热处理、表面涂覆、上下料、装配、运输、检测及仓库堆垛等作业中,工业机器人更是标准设备得到广泛应用。
3、“工业时代的机器人战略”势必导致一批生产人员转行(一个机器人也
可以替代2-4个熟练工人)。例如,富士康科技集团启动了“百万机器人”上岗
计划,已经在全国范围暂停招普工。但同时,大规模机器人的出现也会催生大量新岗位,包括机器人的研发、操控和维修等岗位。
4、机器人制造厂商及其集成商(制造和销售方)需求大量制造、设计集成、
安装调试、销售及技术服务工程师和技术员。使用工业机器人的客户(购买方)需求大量操作与维护、编程与调试、维修与保养等应用工程师。
本专业学生就业行业广泛、就业前景无忧、就业质量较高。
【就业岗位】 就业岗位主要有两个方面:一是从事技术岗位,如,机器专业英语,工业机器人方向。
人运行维护与管理,月薪2500-3500元;机器人维修调试,初期月薪3000-3500元,成熟期4000-6000元;机器人工作站设计与安装,月薪8000-20000元。二是开展销售客服服务,如,机器人销售工程师底薪3000左右,综合月薪达
6000-20000元。售后客服工程师底薪4000左右,综合月薪6000-10000元。专业英语,工业机器人方向。
【培养目标与证书】
培养目标:面向工业自动化行业,培养从事工业机器人设备的运行维护、编
程调试、安装维修、销售客服的等工作的高素质技能型人才。
证书:毕业时可获取机器人操作技师、电工操作证、可编程序控制系统(PLC)
四等证书。
【课程体系】
图2 工业机器人技术专业(方向)课程体系
【实践条件】
1、校内实训室
工业机器人专业实训室
2、校外实习基地
参观实习单位:武汉神龙汽车公司、武汉华工激光工程公司、武汉中人瑞众
汽车零部件产业公司;
用于工学实习单位:武汉中人瑞众汽车零部件产业公司。
顶岗实习单位:神龙汽车、通用汽车、奇瑞汽车、本田汽车、武汉金丰汽车
配件有限公司、襄樊美利信汽车零部件公司、瑞明工业、苏泊尔集团、富士康集团等。
【合作企业】
该专业依托机器人行业的第一品牌、客户量最多的500强企业-ABB机器人
公司校企合作,进行专业共建、实训室共建、师资共育,探索出行业最佳的人才培养方案。
主要就业方向:一是大中型企业,主要从事操作、编程、调试、维修;二是
在机器人厂商和机器人的集成商,主要从事销售、售后技术支持、工作站设计安装。
主要就业的企业有:ABB、 库卡KUKA、FANUC那发科、安川MOTOMAN、松下、OTC、通用汽车、大众汽车、东风汽车、奇瑞汽车、中联重工、三一重工、施耐德等。
人才培养方案(机器人专业)
篇三:专业英语,工业机器人方向
专业英语,工业机器人方向。
武汉市交通学校
“机器人运行与维护”专业人才培养
实施方案
(2014级)
机电教学部 2014年8
月
“机器人运行与维护”专业人才培养实施方案(2014级)
一、专业领域
1. 专业代码:(暂无,按中职机电技术应用初定051300) 2. 专业名称:
机器人运行与维护 3. 专业概述:
从事工业机器人工作站的日常使用、安装、调试、保养及外围设备的操作及维护工作。 二、入学要求与学习年限 1. 入学要求:
1)初中毕业生或同等学力者;
2)身体健康,四肢、五官功能健全,无精神缺陷; 3)智力正常,能承受一定工作压力。 2. 学习年限:
全日制,三年
三、培养目标与就业岗位方向 1. 人才培养目标
本专业培养适应现代制造业企业机器人运行岗位的技术人才,他们应具有与我国现代化建设用工要求相适应的文化水平和人文、科技素质;具有良好的职业道德和终身学习意识;掌握工业机器人运行与维护专业的基础理论和操作技能;能独立从事工业机器人应用系统的安装、调试、编程、维修、运行与管理等方面的工作任务;具有一定操作实践经验,能服从生产管理的技术技能型人才。 2. 就业岗位方向
1)主要就业岗位:机器人工作站的运行维护、安装、调试与管理 2)辅助就业岗位:生产线的日常维护管理、机电设备安装与维修
3)发展岗位:机器人工作站的开发、维修;机电设备销售技术支持等岗位。 四、人才培养规格
机器人运行与维护专业的毕业生应具有以下知识、技能和素质:
1. 知识要求
1) 掌握中等职业教育阶段和专业基本素质必需的文化基础知识; 2) 掌握必要的人文科学知识; 3) 掌握一定水平的计算机基础知识。 4) 掌握相应的文化基础、计算机基础等知识; 5) 掌握机械图样的基础理论知识;
6) 掌握机械基础、电工识图、装配钳工、维修电工的基本理论知识; 7) 掌握液压与气动控制的基本理论知识; 8) 掌握一般机电设备安装及修理的基本理论知识; 9) 掌握常规机械部件的检测知识; 10) 11) 12) 2. 技能要求
1) 具有一定的文化素养及职业沟通能力,能用行业术语、文化与同事和客户沟通交流;
2) 具有应用计算机和网络进行一般信息处理的能力,以及借助工具书阅读本专业英文资料的初步能力;
3) 具有普通钳工、电工、焊接、质量检测及一般机电设备安装等基本操作技能; 4) 能读懂机器人设备的结构安装和电气原理图; 5) 能构建较复杂的PLC控制系统; 6) 能编制工业机器人控制程序;
7) 具有机器人工作站的日常维护与运行的基本能力; 8) 具有机器人工作站常见故障诊断与排除技能; 9) 具有机器人工作站周边设备的维护与调试的能力; 10) 3. 素质要求
1) 热爱机器人运行岗位,有较强的安全意识与职业责任感; 2) 有较高的团队合作意识,能吃苦耐劳;
3) 能刻苦钻研专业技术,终身学习,不断进取提高; 4) 有较好的敬业意识,忠实于企业;
掌握机器人的结构与原理等基础知识; 掌握机器人控制、与编程等理论基础知识; 掌握机器人工作站安装与调试的基础理论知识;
具备机器人工作站正常运行维护的初步工作经验;
5) 严格遵守企业的规章制度,具有良好的岗位服务意识;
6) 严格执行相关规范、标准、工艺文件和工作程序及安全操作规程; 7) 爱护设备及作业器具;着装整洁,符合规定,能文明生产。 五、人文、身心素质分析及培养 1. 人文素质的构成与培养目标
以党的教育方针为指南,以国家有关职业教育教学的指导性文件精神为工作出发点,设置德育与职业指导、人文素养、科技素养、身心健康教育与美育等模块。人文、身心素质的构成与培养目标见下表。
2. 人文、身心素质培养实施的基本途径
基础人文、身心素质培养以课堂教学为载体的必修课、选修课和以二课活动为载体的拓展课组成,教育教学活动中做到理论与社会实践相结合、第一课堂与第二课堂相结合、职业素质教育与专业技能教育相结合。将职业素质课程纳入教学计划,第一课堂教学活动由教务部牵头,各教学部门组织实施。第二课堂拓展活动由学工部、团委牵头,各教学部门配合实施。
人文、身心素质日常养成性素质的培养,按照学校学工部制定的“学生教育教育路线图”由班主任、素质导师组织进行。学校以全员教育的方式对学生的行为规范、价值观等日常性的培养实施。
3. 人文、身心素质培养的构成要素
人文、身心素质培养主要由德育与职业指导、人文素养、科技素养、身心健康教育与美育等功能模块构成。每个功能模块内设必修课程、选修课程和拓展课程若干门,其结构见下表:
工业机器人英文翻译
篇四:专业英语,工业机器人方向
THE DEVELOPMENT OF INDUSTRIAL ROBOTS
Industrial robot is a robot, it consists of a CAOZUOJI. Controller. Servo drive
system and detection sensor device composition, it is a kind of humanoid operating
automatic control, can repeat programming, can finish all kinds of assignments in
three difficulties in authorship space the electromechanical integration automation
production equipment, especially suitable for many varieties, become batch flexible
production. It to stabilize and improve the product quality, raise efficiency in
production, improve working conditions of the rapid renewal plays an extremely
important role.
Widely used industrial robots can gradually improve working conditions,
stronger and controllable production capacity, speed up product updating and
upgrading. Improve production efficiency and guarantee the quality of its products,
eliminate dull work, save labor, provide a safe working environment, reduces the
labor intensity, and reduce labor risk, improve the productivity of machine tool ,
reduce the workload and reduce process production time and inventory, enhance the
competitiveness of enterprises.
Joint Types
The list below shows the types of joints that can be used for industrial robot
arms, the arm is constructed from either one particular group of joints or a
combination of these:
(1) Revolute: Revolute joints are simply those that allow revolute, or rotary motion
between two links;
(2) Prismatic: Prismatic joints allow linear motion between the two links;
(3) Ball and Socket: Ball and socket joints allow three revolute or rotary motions
between the two links. Ball and socket joints in robots are seldom used due to a
greater difficulty in activating them.
Classification of Robots
Robots can be classified by their joint types into one of the following five
groups. The three groups closest to the robot’s base will determine its classification;
the other joints are included to give the end effector greater flexibility of movement.
(1) Cartesian
(2) Cylindrical
(3) Spherical
(4) Horizontally articulated (SCARA)
(5) Vertically articulated.
Degrees of Freedom
A common term define the number of joints in a robot arm is the “Degree of
Freedom” an arm has. Each joint allows relative motion between the two links, giving
it one degree of freedom. When motion is possible along or around two joints then
there are two degrees of freedom and so on. Most robots have between four and six
degrees of freedom. As a comparison the human arm has seven degrees of freedom
from the shoulder to the wrist, but including the land which has twenty-two degrees of
freedom alone!
Basic Robot Components
The robot system has a series of basic components:
(1)Manipulator.
(2) Controller.
(3)Power Supply.
(4) End Effector (grippers, spot or MIG welders etc).
Drive Systems
The movement of the manipulator is controlled by actuators, or drive system.
The actuator or drive system allows the various axes to move within the work cell.
The drive system can use electrical, hydraulic or pneumatic power. The energy
developed by the drive system is converted to mechanical power by various
mechanical drive systems. The drive systems are coupled through mechanical
linkages. These linkages, in turn, drive the axes of the robot. The mechanical linkages
may be composed of chains, gears and ball screws.
As technology advances, the development of industrial robot, the process can
be divided into three generations.
The first generation, for demonstration reproduce, and it mainly consists of robot hand
controller and demonstration teaching machines composed, can press advance box to
record information guide action, the current industry repeated reappearance
application of execution most.
The second to feel robot, such as powerful sleep touch and vision, it has for some
outside information feedback adjustment ability, currently has entered the application
stage.
Third generation of intelligent robot it has sense and understanding ability, in the
external environment for the working environment changed circumstances, can also
successfully complete the task, it is still in the experimental research phase.
The United States is the birthplace of the robot, as early as in 1961, America's
Consolidated Control Corp and AMF companies developed the first practical
demonstration emersion robot. After 40 years of development, the United States in the
world of robotics has been in the lead position. Still Its technology comprehensive,
advanced, adaptability is strong.
Japan imported from America in 1967, the first robot in 1976 later, with the
rapid development of the microelectronics and the market demand has increased
dramatically, Japan was labor significant deficiencies in enterprise, industrial robots
by "savior" 's welcome, make its Japanese industrial robots get fast development, the
number of now whether robots or robot densities are top of the world, known as the
"robot kingdom," said. The robot introduced from Germany time than Britain and
Sweden about late 1956, but the Labor shortages caused by war, national technical
level is higher social environment, but for the development and application of
industrial robot provides favorable conditions. In addition, in Germany, for some
dangerous prescribed, poisonous or harmful jobs, robot instead of ordinary people to
the labor. This is the use of robots exploit a wide range of markets, and promote the
development of the industrial robot technology. At present, the German industrial
robots total of the world, which only behind to Japan.
The French government has been more important robot technology, and through
a series of research program, support established a complete science and technology
system, make the development of the French robot smoothly. In government
organization project, pay special attention to the robot research based technique, the
focus is on the application research on in robot. And by industry support the
development application and development of work, both supplement each other, make
robots in France enterprises develop rapidly and popularize and make France in the
international industrial machine with indispensable if position.
Britain since the late 1970s, promote and implement a department measures
listed support the development of policies and make robots British industrial robots
than today's robot powers started to early, and once in Japan has made the early
brilliance. However, at this time the government for industrial robots implemented the
constraining errors. This mistake in Britain dust, the robot industry in Western Europe
was almost in the bottom of it. In recent years, Italy, Sweden, Spain, Finland,
Denmark and other countries because of its own domestic robots market in great
demand, development at a very fast pace. At present, the international on industrial
robot company mainly divided into Japanese and European series. In ANCHUAN of
Japanese are mainly the ethical products, the OTC, PANASONIC, FANUC, not
TWOMORE, etc. The products of the company KAWASAKI The main Asiatic
KUKA, German CLOOS, Sweden's ABB, Italy’ COMAU and Austria IGM company. Industrial robot in China started in early 1970s, after 30 years development,
roughly experienced three stages: in the 1970s and 1980s budding transplanter and the
application of the 1990s initialization period. With the 20th century 70's world
technology rapid development, the application of industrial robots in world created a
climax, in this context, our country in 1972 start developing their industrial robots.
Enter after the 1980s, with the further reform and opening, in high technology waves
pound, our research and development of robot technology from the government's
attention and support, "during the seventh state funds, thanked the parts were set robot and research, completed demonstration emersion type industrial robot complete technology development, developed spray paint, welding, arc welding and handling robot. , the national high technology research and development program begin to carry out, after several years research and made a large number of scientific research. Successfully developed a batch of special robot.
since the early 1990s, China's national economy achieve two fundamental period of transformation into a a new round of economic restructuring and technological progress, China's industrial robots upsurge in practice and have made strides, and have developed spot welding, welding, assembling, paint, cutting, handling, palletizing etc various USES of industrial robot, and implement a batch of robot application engineering, formed a batch of industrial robots for our country industrialization base, the industrial robot soar laid a foundation. But compared with the developed countries, China also has the very big disparity of industrial robots. Along with the development of industrial robot depth and the breadth and raise the level of robot, industrial robots are has been applied in many fields. From the traditional automobile manufacturing sector to the manufacturing extensions. Such as mining robots, building robots and hydropower system used for maintenance robots, etc. In defense of military, medicine and health, food processing and life service areas such as the application of industrial robots will be more and more. The manufacturing of automobiles is a technology and capital intensive industry, is also the most widely used of industrial robots, accounting for almost to the industry for more than half of the industrial robots.
In China, the industrial robot first is also used in automobile and engineering machinery industries. In car production of industrial robot is a major in the equipment, the brake parts and whole production of arc welding, spot welding, painting, handling, glue, stamping process used in large amounts. Our country is forecast to rise period, entered the automobile ownership in the next few years, car will still growing at around 15 percent annually. So the next few years the industrial robot demand will