packaging printing

Packaging machinery is becoming increasingly automated, and robots, as the most competitive automation technology, are suitable for repetitive, rapid, accurate, and dangerous tasks. Packaging robots are used more and more widely in the food industry. Packaging machinery is becoming increasingly automated, and robots, as the most competitive automation technology, are suitable for repetitive, rapid, accurate, and dangerous tasks. In addition, manufacturers all hope to seek lower production costs. Robots naturally play this important role, because robots can not only lead to lower costs, but also bring greater flexibility. The packaging robot is known by more and more companies, and more people will choose to use it because of its flexibility and reliability. The robot will replace many traditional equipment and become an important assistant in the packaging field. 1. Parallel Manipulator Scope of Application: It is suitable for various conveying material applications in food, medicine,...

The picking operation is carried out by robots for product selection. If there are many varieties and different shapes, the sorting robot needs to be equipped with an image recognition system and a multi-function manipulator. Every time the robot reaches a kind of item pallet, the image recognition system can "see "The shape of the article is picked up by the corresponding manipulator, and then placed on the matching tray.    The picking operation is carried out by robots for product selection. If there are many varieties and different shapes, the sorting robot needs to be equipped with an image recognition system and a multi-function manipulator. Every time the robot reaches a kind of item pallet, the image recognition system can "see "The shape of the article is picked up by the corresponding manipulator, and then placed on the matching tray.   At present, the application of picking and sorting robots in the food and beverage industry is gradually increasing, ...

KENWEI parallel robots are small high-speed parallel industrial robots, which are widely used in processes such as picking and sorting, transporting palletizing, assembling and painting. The optimized parallel and parallel kinematics design makes the robot structure more reasonable, clean, fast and quiet. With the KENWEI intelligent vision system, intelligent applications can be easily realized.    KENWEI parallel robot is a small high-speed parallel industrial robot, which is widely used in the process of picking and sorting, transporting palletizing, assembling and painting. The optimized parallel parallel kinematics design makes the robot structure more reasonable, clean, fast and quiet. With the KENWEI intelligent vision system, intelligent applications can be easily realized.   KENWEI parallel robot has the following characteristics:   Suitable for quickly picking and placing robots for packaging items   1. The ISO fixture interface facilita...

Before the popularization of science, there are two types of robot arms: parallel and series. The tandem manipulator has the advantages of low cost, simple structure, simple control, and large movement space. Parallel manipulator has the advantages of strong load-bearing capacity, high precision, high rigidity, and small end piece inertia. It is suitable for light-weight and high-speed occasions and has obvious advantages compared with tandem robots. At present, parallel robots have been increasingly recognized by the market and are widely used in post-process packaging automated production lines in food, medicine, 3C, daily chemical, logistics and other industries. The speed you require is fast, so you must use a parallel robot. A European company has just done a medical sorting project. After comparing several domestic and foreign parallel robots, I finally found the kenwei parallel robot. The kenwei parallel manipulator is exported to the world, with guaranteed quality and complete...

According to different classification methods, parallel robot control methods can be divided into different categories. On the whole, the parallel robot control mode can be divided into action control mode and teaching control mode. In addition, parallel robot control methods have the following classification methods: according to the motion coordinate control method, it can be divided into joint space motion control and rectangular coordinate space motion control; according to the trajectory control method, it can be divided into point control and continuous trajectory control; According to the degree of applicability of the control system to changes in the working environment, it can be divided into program control, adaptive control, and artificial intelligence control; according to the way of motion control, it can be divided into position control, speed control, and force (torque) control (including position/force) Mixed control).

When designing and applying spider-hand robots, factors such as the versatility of the robot, environmental adaptability, durability, reliability, and economy should be considered comprehensively and balanced. The spider-hand robot can work stably for a long time in dangerous or harmful environments such as poisonous, wind-dust, noise, vibration, high temperature, flammability, and explosive. In the case of reasonable technology and economy, spider-hand robots can be used to gradually replace people from these jobs, so as to improve workers' working conditions and reduce their labor intensity. The division of labor in modern production is becoming more and more detailed, the operation is becoming more and more simple, and the labor intensity is increasing. The spider hand robot can be used to efficiently complete some simple and repetitive tasks to improve production efficiency and production quality.

Selecting the motion form according to the main motion parameters is the basis of the mechanical structure design. There are five types of motion of common parallel robots: Cartesian coordinate type, cylindrical coordinate type, spherical (polar) coordinate type, joint coordinate type, SCARA type. Selecting the motion form according to the main motion parameters is the basis of the mechanical structure design. There are five types of motion of common parallel robots: Cartesian coordinate type, cylindrical coordinate type, spherical (polar) coordinate type, joint coordinate type, SCARA type. In order to meet the needs of different production processes, the parallel robots of the same movement form can adopt different structures. Which form to choose depends on the process requirements, work site, location, and changes in the direction of the centerline of the workpiece before and after handling, analysis and comparison, and selection. In order to meet specific process requirements, dedi...