Article catalogue:
- 1 、The significance of laser-guided handling robot
- 2 、What are the advantages of AGV carrying robot?
- 3 、The easiest to use a robot?
- 4 、Are there any domestic standards for automatic handling robots?
- 5 、What are the types of moving robots?
- 6 、What are the two types of moving robots?
The significance of laser-guided handling robot
Laser-guided handling robot is a kind of robot that can realize autonomous navigation and positioning through lidar, which has the following significance:
1. Improve production efficiency: laser-guided handling robot can independently plan paths and avoid obstacles, and realize automatic handling and transportation, so as to improve production efficiency and reduce labor costs.
two。 Reduce the risk of manual operation: laser-guided handling robot can replace manual dangerous, tedious and repetitive operation, avoid workers from injury and fatigue in the process of operation, and improve work safety.
3. Improve product quality: laser-guided handling robot can achieve high-precision positioning and handling, avoiding errors and deviations in manual operation, so as to improve product quality.
4. Reduce energy consumption: laser-guided handling robot can carry out path planning and control according to the actual needs, avoiding unnecessary energy waste and resource waste, thus realizing energy saving and environmental protection.
To sum up, the significance of laser-guided handling robot lies in improving production efficiency, reducing manual operation risk, improving product quality, reducing energy consumption and so on.
What are the advantages of AGV carrying robot?
The main function of AGV handling robot focuses on automatic logistics transportation. AGV handling robot automatically transports goods to designated places through special landmark navigation. So what are the advantages of AGV carrying robot?
1. Beauty: improve the viewing degree, so as to improve the image of the enterprise.
2. Safety: the driving path of artificially driven vehicles cannot be ascertained. However, the guidance path of AGV is very clear, so the security is greatly improved.
3. Cost control: the capital investment of the AGV system is short-term, while the wages of employees are long-term and will continue to increase with inflation.
4. Easy to maintain: infrared sensors and mechanical anti-collision can ensure that AGV can avoid collision and reduce the failure rate.
5. Reduce product damage: it can reduce the damage of goods caused by manual non-standard operation.
6. Improve logistics management: due to the inherent intelligent control of the AGV system, the goods can be placed more orderly and the workshop more tidy.
This is the end of the introduction to what are the advantages of the AGV handling robot.
The easiest to use a robot?
AGV belongs to industrial handling robot, which is equipped with automatic guidance device, controlled by computer, and has the functions of movement, automatic navigation, multi-sensor control, network interaction and so on. The demand field of AGV robot is relatively concentrated, which is mainly used in industrial manufacturing and intelligent warehousing to improve logistics efficiency.
It can be said that AGV handling robot is one of the most widely used industrial robots. AGV handling robot can be seen in industrial manufacturing, warehousing and logistics, tobacco, medicine, food, chemical and other industries. It is widely used in the production process to solve the problems of handling, out of storage, storage and other problems, so that the production process is more smooth.
The main characteristics of AGV handling robot are:
1. Efficient handling operations can be carried out
Through the integration of AGV handling robot and other equipment, the original tedious handling work can be realized by AGV robot, which greatly improves the efficiency of factory logistics transportation, saves a lot of labor for enterprises, and greatly improves the automation level of enterprises.
Second, cooperate closely with the production line
In the production operation, raw materials, semi-finished products and finished products are usually transported point-to-point frequently, which puts forward high requirements for the cooperation between the AGV handling robot and the production line. In the process of practical application, we should not only have a certain allocation in the time interval, but also have higher requirements in the time to complete the transportation.
Third, tailor-made for enterprises
The production scenarios of different enterprises are very different, which requires the AGV program to be tailored according to the production process of the enterprise, according to the relevant production site or setting environment, as well as the characteristics of product processing. Through rich project experience, Miklimei has optimized and modified the structure of AGV handling robot, and has formed the company’s standard AGV product library to meet the AGV handling robot with high precision, good stability and strong environmental adaptability that can be used by most customers.
Material handling is a daily work that can be seen everywhere, which exists in various industries, but behind the seemingly inconspicuous simple work, there is a long-term and basic enterprise demand, and it is often limited by personnel, cost, efficiency and other factors. in this case, AGV handling robot brings better economic benefits for enterprises by improving transportation efficiency and transportation quality and saving labor costs.
Are there any domestic standards for automatic handling robots?
There are domestic standards for automatic handling robots. At present, the most common applications, such as AGV handling robot or AGV trolley, mainly focus on automatic logistics transportation. AGV handling robot automatically transports goods to designated places through special landmark navigation. The most common guiding methods are magnetic stripe guidance, laser guidance, magnetic nail navigation and inertial navigation.
What are the types of moving robots?
Handling robot is an industrial robot which can carry out automatic handling operation, which can be used to replace manual transportation by using robot trajectory. The handling robot can install different end-effectors to complete the work of handling workpieces of different shapes and states, which greatly reduces the heavy physical work of human beings.
The handling robot is a manipulator in the actual work, and the development of the manipulator is due to its positive role being increasingly recognized by people:
First, it can partially replace manual operation.
Second, it can complete the transmission, loading and unloading of the workpiece according to the requirements of the production process and following certain procedures, time and position.
Third, it can operate the necessary machines and tools for welding and assembly, thus greatly improving the working conditions of workers, significantly improving labor productivity, and speeding up the pace of mechanization and automation of industrial production.
The advantage of the handling robot is that it can complete a variety of expected tasks through programming, and has the respective advantages of human and machine in its own structure and performance, especially reflecting artificial intelligence and adaptability. At present, the classification of handling robots mainly includes the following categories:
1. Multi-joint robot
The multi-joint robot has the advantages of flexible action, small motion inertia, strong versatility, can grasp the workpiece close to the machine base, and can work around the obstacles between the body and the working machinery. with the need of production, the multi-joint arm has higher and higher requirements for flexibility, positioning accuracy and working space.
2. T-type booster robot
The left and right displacement of the T-type power-assisted robot is realized by the guide rail, which is more suitable for the situation where the operating space is narrow. Equipped with gas storage tank, you can continue to use a cycle when the gas is cut off, and start the self-locking function to prevent the workpiece from falling when the air pressure drops to a certain extent. It is also equipped with a safety system so that the operator cannot release the workpiece during handling or when the workpiece is not placed on the safe surface.
3. Hard arm booster robot
Hard arm booster robot can not use pneumatic balance crane or soft cable booster robot in the case of torque generation, but must choose hard arm booster robot. The workpiece with the maximum 500Kg can be raised, the maximum radius can reach 3000mm, and the maximum height 2500mm can be raised.
At present, there are more than 100000 handling robots used in the world, which are widely used in machine tool loading and unloading, stamping machine automatic production line, automatic assembly line, palletizing handling, container automatic handling and so on. Some developed countries have worked out the maximum limit of manual handling, and those exceeding the limit must be completed by moving robots.
What are the two types of moving robots?
It’s an honor to answer your question.
According to the driving mode, moving robots can be divided into two categories: RGV and AGV.
RGV: the full name is Rail Guided Vehicle, that is, “rail guided vehicle”, also known as “rail shuttle car”. RGV is often used in all kinds of high-density storage three-dimensional warehouse, the car channel can be designed as long as needed, and it does not need other equipment to enter the roadway when moving and moving goods, so it has high speed and high safety, and can effectively improve the operation efficiency of the warehouse system.
AGV: the full name is Automated Guided Vehicle, which means “automatic guided transport vehicle”. AGV is a transport trolley equipped with electromagnetic, optical or other automatic guidance devices, which can drive along the prescribed guidance path, with safety protection and various transfer functions.
According to the structure, it can be divided into many categories: multi-joint robot, T-type power-assisted robot, hard-arm power-assisted robot and so on.
This is the end of the introduction of the automatic handling robot. Thank you for taking the time to read the contents of this site. For more information about how much the automatic handling robot is and how much the automatic handling robot is, don’t forget to look it up on this site.