零轉角輪式機器人底座機電傳動結構設計【4張cad圖紙+文檔全套資料】
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零轉角輪式機器人底座機電傳動結構設計
摘要:隨著機器人技術在外星探索、野外考察、軍事、安全等全新的領域得到日益廣泛的采用,機器人技術由室內走向室外,由固定、人工的環(huán)境走向移動、非人工的環(huán)境。本課題是機器人設計的基本環(huán)節(jié),能夠為后續(xù)關于機器人的研究提供有價值的平臺參考和有用的思路。
對實現(xiàn)工業(yè)生產(chǎn)自動化,推動工業(yè)生產(chǎn)的進一步發(fā)展起著重要作用。因而具有強大的生命力受到人們的廣泛重視和歡迎。實踐證明,工業(yè)機器人可以代替人手的繁重勞動,顯著減輕工人的勞動強度,改善勞動條件,提高勞動生產(chǎn)率和自動化水平。工業(yè)生產(chǎn)中經(jīng)常出現(xiàn)的笨重工件的搬運和長期頻繁、單調的操作,采用機器人是有效的。此外,它能在高溫、低溫、深水、宇宙、放射性和其他有毒、污染環(huán)境條件下進行操作,更顯示其優(yōu)越性,有著廣闊的發(fā)展前途。
關鍵字:機器人 底座 自動化 生產(chǎn)自動化
The zero corner wheeled robot base electromechanical transmission structure design
Abstract: with the robot technology in an alien exploration, field survey, military and security new areas to be increasingly widely adopted, robot technology by indoor, outdoor by fixed, to move towards artificial environment, the artificial environment. This topic is the basic link, robot design for the follow-up about robots can provide valuable reference and useful ideas platform.
Plays an important role to promote the further development of the industrial production of industrial production automation. Thus has strong vitality is attracting widespread attention and welcome. Practice has proved that industrial robots can replace the heavy labor of manpower, significantly reduce labor intensity, improve working conditions, improve labor productivity and the level of automation. Industrial production often appear bulky workpiece handling and long-term frequent monotonic operation using a robot is effective. In addition, it can operate in the heat, cold, deep water, the universe, radioactive and other toxic pollution of the environment under the conditions, but also to show its superiority, has a broad development prospects.
Keywords: Robot base automated production automation
The robot 1.The role of robots ”The role of robots Is a high-level integration of control theory, robotics, machinery and electronics, computers, materials and bionic product. In industry, medicine, agriculture, construction and even the military have important applications in such areas. Now, the international concept of robots has been gradually approaching the same. In general, people can accept the claim that the robot is controlled by its own power and ability to achieve the various functions of a machine. The United Nations Organization for Standardization adopted by the American Federation of Robotics to the robot under the definition: a programmable and versatile, used to move materials, parts, tools, operating machines; or to perform different tasks have to change and Programmable action specialized systems. 2.Evaluation criteria Capacity of evaluation criteria Robot capability evaluation criteria include: intelligence, refers to feelings and perceptions, including memory, calculation, comparison, identification, judging, decision-making, learning and logical reasoning, etc.; function, refers to flexibility, versatility or space occupied, etc.; physics can be means the power, speed, continuous operation capability, reliability, combined with nature, life and so on. Therefore, it can be said robot is a biological function of three-dimensional coordinates of the machine. 3.Composition of the robot The composition of the robot Robots in general by the executing agency, drives, detection devices and control system, etc. Implementing agency, the robot body, the buttocks generally use the space for open-chain linkages, the movement of which the Deputy (rotate or move the Deputy Vice-) often referred to as joints, and joints shall be the number of robots are usually a few degrees of freedom. According to joint configuration types and the different forms of movement coordinates, the robot implementing agencies can be divided into rectangular type, cylindrical coordinate type, polar coordinate type and other types of joint coordinate type. For anthropomorphic considerations, often the relevant parts of the robot body are known as the base, waist, arm, wrist, hand (gripper or end effector) and the Ministry of walking (for mobile robot), etc. . Drive device is driven by movement of the body implementing agencies, in accordance with the directives issued by the signal control system, by means of dynamic components, the robot action is needed. It is the input signal, the output is the line, the amount of angular displacement. Drive robot is mainly used in electric drives, such as stepper motors, servo motors, etc. In addition, there is also hydraulic, pneumatic, etc. drives. Detecting device is the role of real-time detection robots movement and work of the required feedback to the control system, compared with the configuration information, the right to adjust the implementing agencies to ensure the robots movements to meet the intended requirements. As a sensor detecting device can be divided into two categories: one is internal information sensors for detecting the internal situation in various parts of robots, such as the joint position, velocity, acceleration, etc., and the measured information as a feedback the signal sent to the controller, to form a closed-loop control. The other is external information sensors, used to obtain information about the operation of robots and other objects and external environment of information, so that the robot moves to adapt to changing circumstances, so that to achieve a higher level of automation, even the machine person has a certain feel to the intelligent development, such as visual, sound and other external sensors sense given object of work, information about the working environment, the use of such information constitutes a major feedback loop, which will greatly enhance the work of the robot accuracy. Control system in two ways. One is the centralized control, that is, the robots control by a microcomputer to complete. The other is decentralized (level)-type control, which uses multiple computers to share the control of robots, such as when using the upper and lower two computers together to complete the robot control, the host often used for system management, communication, kinematics and dynamics calculations, to send commands to the lower-level computer information; as a junior from the machine, the joints corresponding to a CPU, for interpolation and servo control processing operations to achieve a given movement, to the host feedback. According to the different operational mission requirements, the robot control mode can be divided into point to point control, continuous path control and force (torque) control. 4.History of Robots Robot History 1920 Czechoslovakia writer Karel Capek in his sci-fi novel Rossums Universal Robots company, according to Robota (Czech, intended to labor, slave labor) and Robotnik (Polish, the original intent as workers), to create a robot is the word. World Expo 1939 in New York on display at the Westinghouse Electric Company manufactured home robot Elektro. It is controlled by a cable, you can walk, say 77 words, or even smoke, but still far from the real chores. But it give people a vision of domestic robots to become more specific. Asimov sci-fi masters 1942, the United States put forward the Three Laws of Robotics. Although this is only the creation of science fiction, but later became the principle of academic research and development by default. In 1948 Norbert Weiner published in control theory to explain the machine in the communication and control function and the nervous, sensory function of the common law, first proposed as the core of computer-automated factory. 1954, American George Dwyer created the worlds first programmable robot and registered patents. This mechanical hand in accordance with different programs in different jobs, so has the versatility and flexibility. 1956 Dartmouth meeting Marvin Minsky has made his views on intelligent machines: Smart Machine to create an abstract model of the surrounding environment, if you encounter problems, from abstract model to find a solution . This definition affects the subsequent 30 years of intelligent robot research direction. Dwyer and the United States in 1959, inventor Joseph Ingeborg joined hands to create the first industrial robot. Subsequently, the establishment of the worlds first a robot manufacturing plant - Unimation company. As Ingeborg R & D for industrial robots and publicity, he was known as the father of industrial robots. AMF Inc. in 1962, the United States produced VERSTRAN (meaning universal handling), and Unimation produced Unimate as a truly commercial industrial robots, and exported to countries around the world, setting off a worldwide study of robots and robot the globe. 1962 -1,963 years the application of sensors to improve the operability of the robot. People try all kinds of sensors installed on the robot, including the 1961 Ernst used in tactile sensors, Tomovic and Boni 1962, the worlds first smart hand on the use of pressure sensors, while the McCarthy in 1963, has begun to add visual sensor in robot system, and in 1965, helped MIT launched the worlds first with a vision sensor that can identify and locate building blocks of the robotic system. 1965 Johns Hopkins University Applied Physics Laboratory developed Beast robot. Beast has been through sonar systems, photoelectric tubes and other devices, the environmental correction own position. 60 mid-20th century, the U.S. Massachusetts Institute of Technology, Stanford University, University of Edinburgh, been set up in the robot lab. The United States with the rise of the second-generation sensors research, there feel of the robot, artificial intelligence and to work towards it. The worlds first intelligent robot Shakey Stanford Research Institute in 1968, the United States announced that they successfully developed a robot Shakey. It is with a vision sensor, according to the instructions of people to discover and crawl the building blocks of a computer to control it, but there is a room so much. Shakey can be regarded as the worlds first intelligent robot, beginning the prelude to the third generation of robot research and development. 1969, Ichiro Kato, Waseda University Laboratory developed the first robot to walk, walk. Ichiro Kato, the long-term commitment to research humanoid robot, known as the father of humanoid robot. Japanese experts has been to develop humanoid robots and robot technology, known for entertainment, then go one step further hastened the development of Hondas ASIMO and Sonys QRIO. In 1973 the worlds first robot and small computers to work together, they gave birth to the U.S. company Cincinnati Milacron robot T3. Unimation introduced in 1978, the U.S. general industrial robot PUMA, which marks the industrial robot technology has reached full maturity. PUMA is still work in the factory in the forefront. 1984 Ingeborg pushed robot Helpmate, the robot can deliver meals to patients in the hospital and get drugs, to send e-mail. In the same year, he predicted: I want robots to clean the floor, cooking, washing out to help me to check security. In 1998 Denmark introduced Lego Robot (Mind-storms) package, so get with the building-block robot manufacturing the same, relatively simple and can arbitrarily assembled, the robot started to enter the private world. In 1999 Sony introduced Aibo robot dog (AIBO), immediately sold out, and from entertainment robots become the robot forward one of the ways ordinary family. In 2002 the U.S. introduced the iRobot robotic vacuum cleaner Roomba, it can avoid obstacles, automatic design of the road route, but also in the power is insufficient, automatically towards charging seat. Roomba is the worlds largest-selling and most commercial household robots. an authorized agent iRobot Corporation Beijing: Beijing Science and Technology Co., Ltd. Micro-Mesh, Tomohiro http / / www micronet net cn. In June 2006, Microsoft launched the Microsoft Robotics Studio, robotics modular, unified platform, it became increasingly evident, Bill Gates predicted that household robots will soon be sweeping the world 5.Robot category articles Being born in science fiction, like, people are full of fantasy robot. Perhaps it is because the definition of fuzzy robots, which gave the people full of imagination and creative space. Domestic robots: to help people take care of life, to do simple household chores. Manipulator-type robot: Can automatic, repeatable programming, multi-functional, there are several degrees of freedom can be fixed or movement, for associated automation systems. Programmable Robot: According to the order and conditions of a pre-requirement in turn control the robots mechanical movements. Teaching-playback robot: Adoption of the guidance or other means, the first robot moves the church, enter the work process, the robot will automatically repeat operations. NC robots: do not have to move the robot through the values, language, etc. for teaching the robot, the robot according to the information after teaching job. Feel-controlled robot: the use of sensors to obtain information on control of robot action. Adaptive control robot: able to adapt to changes in the environment, control their own actions. Learning control for robots: can understand the work experience, with a certain degree of learning function, and the learning experience for the work. Intelligent Robots: The artificial intelligence robot to determine its actions. Chinas environment, starting from the application of robotics experts, robots are divided into two categories, namely industrial robots and special robot. The so-called industrial robots for industrial areas of multi-joint or multi-DOF robot manipulators. In addition to the special robot is outside of industrial robots used for non-manufacturing and the service of mankind advanced robots, including: service robots, underwater robots, entertainment robots, military robots, agricultural robots, robot-based machinery. In the special robots, some branches have developed rapidly, there is a separate system for trends, such as service robots, underwater robots, military robots, micro-operation of robots. At present, the international robot scholars, starting from the application environment, the robot is also divided into two categories: manufacturing environment of industrial robots and the non-manufacturing environment, the service and humanoid robots, This classification is consistent with our The. Also known as unmanned aerial robot machines, in recent years, the family in the military robotics, unmanned aerial vehicles are the most active research activities, technological progress, the largest research and procurement of funds into the largest and most experienced in the field of combat. 80 years, the world is basically the development of unmanned aerial vehicles based on the main line of the United States to move forward, regardless of the technical level, the types and number of UAVs, the U.S. ranking first in the world. 6.Robot varieties articles 6.1 Unmanned aircraft drones Detachment Unmanned Aerial Vehicle Throughout the history of UAV development can be said that modern warfare is to promote the UAV development. The impact of modern warfare UAV is also growing. The first and during World War II, despite the emergence and use of unmanned aerial vehicles, but because of low levels of technology, unmanned aerial vehicles does not play a significant role. The Korean War in the United States use of unmanned reconnaissance and attack aircraft, but in limited quantities. In the ensuing war in Vietnam, the Middle East war, UAVs have become an essential weapon systems. In the Gulf War, the war in Bosnia and Kosovo war, has become the main reconnaissance UAV types. French Red Hawk unmanned aerial vehicle U.S. Air Force suffered heavy losses during the Vietnam War, was shot down aircraft, 2500, killed more than 5,000 pilots, the U.S. domestic public outcry. To this end the Air Force increased use of the UAV. Such as buffalo hunters UAV mission over North Vietnam 2500 times, low altitude photographs, injury rate of only 4%. AQM-34Q-type 147 firebee UAV Flight 500 several times, to conduct electronic eavesdropping, radio interference, dispersal of metal chaff and for some people to open up access, and so the aircraft. High-altitude unmanned reconnaissance aircraft In the 1982 war in the Bekaa Valley, Israeli forces discovered through aerial reconnaissance. During the Kosovo war, the United States, Germany, France and Britain dispatched a total of 6 different types of unmanned aerial vehicles, more than 200 planes, which are: U.S. Air Forces Predator (Predator), the Armys Hunter (Hunter) , and the Navys Pioneer (Pioneer); German CL-289; Frances Red Falcon (Crecerelles), Hunter, and the United Kingdoms Phoenix (Phoenix) and other unmanned aerial vehicles. UAV in the Kosovo war, some of the major completed the following tasks: low-altitude reconnaissance and battlefield surveillance, electronic interference, victories assessment, targeting, weather data collection, distribution of leaflets, and rescue pilot, and so on. The Kosovo war has not only greatly increased the UAVs position in the war, but also aroused the attention of Governments on the UAV. U.S. Senate Armed Services Committee requested that the military should be prepared to 10 years, a sufficient number of unmanned systems to low-altitude attack aircraft in one-third of UAVs; 15 years, one-third of ground combat vehicles unmanned systems should be in . This is not to use unmanned aircraft to replace the pilot and it was, but some people use them to add the capacity of the aircraft in order to high-risk tasks to minimize use of the pilot. UAVs development will accelerate the theory of modern warfare and unmanned warfare systems development. 6.2 Special features robot special feature of the robot Machine Police The so-called military robots on the ground is used on the ground robot system, they are not only in times of peace can help police rule out bomb to complete the task should be to the security in wartime can be replaced by soldiers of mine, reconnaissance and attack a variety of tasks such as Today, the United States, Britain, Germany, France, Japan and other countries have developed various types of ground military robots. Britains trolley robot In Western countries, terrorism has always been one to make the headache problem. The United Kingdom due to ethnic conflicts, suffering from the threat of explosives, so as early as 60 years on the successful development of EOD robot. British developed crawler-style trolleys and super cart EOD robot, has more than 50 countries and police agencies has sold more than 800 units. Recently, Britain has in turn trolley robot to be optimized, prairie dogs and bison have developed two kinds of remote control electric EOD robot, the British Royal Engineers in Bosnia-Herzegovina and Kosovo are using them to detect and deal with explosives. Prairie dogs weigh 35 kilograms, the mast is equipped with two cameras. Bison weighed about 210 kilograms and can carry 100 kg of load. Both use radio control system, remote control distance of about 1 km. Prairie Dog and Maverick and EOD robot In addition to a bomb planted by terrorists outside the war-torn countries in many of the world, and everywhere a variety of scattered unexploded munitions. For example, in Kuwait after the Gulf War as an ammunition depot could explode at any time. In the Iraq-Kuwait border over 10,000 square kilometer area, there are 16 countries manufacture of 25 million mines, 85 million rounds of ammunition, and the multinational forces dropped bombs and cluster bombs mines of 25 million bullets, of which at least 20% No explosion. And now, even in many countries there is residual in the First World War and World War II unexploded bombs and landmines. Therefore, explosive ordnance disposal robot is a great demand. Wheeled robot with the Removal of Explosive Devices and tracked, and they are generally small size, steering a flexible, easy to work in a small space, the operator can be a few hundred meters to several kilometers away through radio or optical control of their activities. Robot cars general color CCD camera is equipped with multiple pairs of explosives used for observation; more than one degree of freedom manipulator, with its gripper or clamp may be explosives, fuses or detonators screwed down, and to transport explosives walking; car was also equipped with shotguns, using a laser pointer aimed at, it can be to the timing device and detonating explosive devices to destroy; some robot is equipped with high-pressure water gun, you can cut explosives. Germanys EOD robot In France, the Air Force, Army and Police Department have purchased Cybernetics developed TRS200 medium-sized companies EOD robot. DMs robots have been developed RM35 Paris Airport Authority selected. German peacekeepers in Bosnia and Herzegovina equipped Telerob team returned the companys MV4 series of robots. Developed by the Shenyang Institute of Automation of Chinas PXJ-2 robot has joined the ranks of security forces. U.S. Remotecs Andros series of robots were welcomed by national uniformed services, the White House and congressional buildings, police stations have to buy this robot. Before the presidential election in South Africa, the police bought a four AndrosVIA robots, they are in the electoral process carried out in a total of 100 multiple tasks. Andros robot can be used for small-scale random explosive ordnance disposal, it is the U.S. Air Force aircraft and passenger cars for use only robots. After the Gulf War, the U.S. Navy has used such a robot in Saudi Arabia and Kuwait Air Force Base in clearing mines and unexploded ordnance. U.S. Air Force also sent five sets Andros robot to Ko
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