We Provide More Than You Expect
Following up Wheel Assembly Equipment（Spare tire assembly）
Following-up automatic wheel assembly equipment is the first fully automatic and highly intelligent follow-up wheel assembly product developed by GUCHI Robotics for automobile final assembly business in China. The product integrates the most advanced technologies in the field of robot application, real-time dynamic tracking, high-precision 3D visual servo, online simulation, virtual debugging, remote fault diagnosis and so on. It realizes a series of functions, such as wheel automatic positioning and recognition, automatic wheel grasping, dynamic automatic identification of brake disc, automatic alignment and installation, automatic tightening, etc. It has the characteristics of automation, intelligence, high flexibility and high precision.
The product has two types: fixed edition and following up edition. It can realize fixed assembly and non-stop assembly of automobile wheels.
Following up Automobile Seat Assembly Equipment
Following-up fully automatic automobile seat assembly equipment is a set of fully automatic and highly intelligent products developed by GUCHI Robotics for automobile final assembly business. This product integrates the most advanced technologies in the field of robot application, dynamic follow-up, 3D vision guidance, online simulation, virtual debugging, remote fault diagnosis, etc. It realizes a series of functions, such as seat positioning and recognition, automatic seat grasping, automatic car body dynamic identification, automatic seat installation, etc. It has the characteristics of automation, intelligence and high flexibility.
The product has two types: fixed version and accompanying version, which can realize static assembly and non-stop assembly of car seats.
Floating Automobile Chassis Assembly Equipment
Floating automobile chassis assembly and tightening equipment is a highly integrated chassis assembly product developed by GUCHI Robot for automobile assembly business. The product integrates advanced technologies such as visual guidance, automatic deviation correction, automatic tightening, multi-axis linkage, torque control and monitoring, and achieves a series of functions such as auto-positioning and multi-axis linkage tightening of automobile chassis and car body. It has the characteristics of dynamic, highly flexible, real-time monitoring, etc.
The equipment can be applied to the assembly of chassis and battery pack in automobile assembly.
Fully automatic automobile undercoat system
Fully automatic automobile undercoat system is a set of fully automatic and highly intelligent glue coating products developed by GUCHI Robotics for automobile final assembly business. This product integrates advanced technologies such as automatic glue supply, automatic cleaning, automatic glue coating, automatic detection, robot application, robot follow-up, 3D machine vision guidance, online simulation, remote debugging, remote fault diagnosis and so on. It realizes that the automobile body or sunroof following up gluing in the process of automobile assembly. It has the characteristics of automation, intelligence and high flexibility.
The product can be applied to cooperative robots or six-axis standard industrial robots to achieve related functions.
Automatic screw tightening system
Automatic screw tightening system is a set of fully automatic and reliable screw feeding and tightening products for automobile and other industry business, which integrates automatic screw shock sorting, automatic blowing, automatic alignment and automatic tightening technology. It can be applied to screw feeding, pre-tightening and tightening process in industrial assembly process. It has automation, strong adaptability and high flexible and low rate.
The product has wide practicability and can be widely used in various screw feeding and tightening occasions. It can be used with AGV, industrial robots or various special machines.
GUCHI Robotics Systems masters the production of car bodies in all conceivable variants. From the smallest flap to the complete body-in-white, from fully-automated to semi-automated production. And, what is more: we are good at flexibility.
GUCHI Robotics Systems production lines are used in the manufacture not only of high-volume models, but also vehicles with up to eight, often very different, variants.
Hemming is a sheet-metal working process in which the edge of the sheet is bent over in order to make the edge stiffer. Hemming can also be used as a combined process to join several workpieces together by means of forming. This process can be used to join workpieces of the same material or different materials, such as metal sheets and plastics, as is often required in the automotive industry. The hemming operation can be performed flexibly using robotic roller hemming systems or table-top hemming systems. Automation of the hemming operation can be implemented flexibly. For example, changeable roller hemming tools for different workpieces and manufacturing processes can be provided in an automated cell.
Bonding and Sealing
Many products are made up of multiple parts or different materials. Adhesives create stable joints between the individual parts. The automotive industry uses bonding to install window glass, for example. Sealing prevents substances from passing from one space to another. This technology is also classified as a joining process and is used for sealing frame constructions among many other tasks.Bonding and sealing according to your wishes: no matter whether you have individual process stations or a fully automated system – we will work with you to find the right process for your product.
Laser Welding / Brazing
Laser welding is primarily used for joining workpieces that have to be joined with a high welding speed, narrow weld seam form and minimal thermal distortion. Laser welding offers clear advantages in the production of medium and large batch sizes.
In the production of visible joints in vehicle parts, laser brazing is considered as an extension of laser applications. Laser brazing is now indispensable as a manufacturing process in body shop production.In laser brazing, the parts are joined by means of a filler wire, without melting the base material. The excellent surface quality achieved using laser brazing means that parts normally require no reworking and can be painted directly.
Cutting with the aid of a laser beam is a thermal cutting process that is used primarily with plate-shaped materials. It enables precise and fast processing, even in the case of complex outlines and low minimum batch sizes.In laser cutting, the focused laser beam is absorbed at the front of the kerf, applying the energy required for cutting. At the same time, gas protects the focusing optics against vapors and spatter, and removes debris from the kerf.
3D laser cutting enables very high process speeds and combines high-quality cut edges with optimal material utilization. Furthermore, non-contact cutting with a laser beam is possible with a small heat-affected zone. This means that deformation of the material when trimming panels or cutting openings in components that have already been joined is largely prevented.
Materials can be welded together using a plasma jet as the heat source. Plasma is an arc of super-heated, electrically conductive gas, mostly argon mixed with hydrogen or helium. This protects the weld pool against oxidation and stabilizes the arc.
Plasma welding processes exhibit high component positioning tolerances and thus offer advantages when it comes to bridging gaps. The high energy density of the plasma jet enables high welding speeds in conjunction with low-pore seams that are largely free from spatter. Furthermore, distortion and tension are comparatively low, which is particularly beneficial in the case of large workpieces.
Milling is a mechanical machining process using a blade with a defined geometry; by means of a rotational motion, the blade cuts material away from a workpiece to achieve the desired shape. Industrial robots can not only take over handling and machine-tending tasks, but can also serve as machine tools.
Compared with conventional machine tools, industrial robots are characterized by their greater flexibility and lower procurement costs as well as the ability to combine robot and machine tool functions. Various robot system solutions are available, covering small parts all the way up to large workpieces measuring 25 m or more in length. Current applications range from stationary operation to multiple machining. Mobile robot operation is already in the pipeline.
Friction welding, or rotational friction welding, is a pressure welding process. One of two parts to be welded must be rotationally symmetrical.
Friction welding makes use of the heat generated by friction. The parts are rotated and moved towards one another so that their contact surfaces touch. Once the material has been heated to the point where it becomes plastic, the parts are positioned and pressed against one another with high pressure.
The advantage of friction welding is that different materials (steel/brass, steel/copper, steel/aluminum, aluminum/ceramic, …) can be joined together. Application examples include valves for internal combustion engines, drill pipes, hydraulic components, printing rollers, cross members and much more.
Intelligent feeding and loading System
Intelligent Feeding and Loading System
Intelligent feeding and loading is a series of products developed by Guzhi Robotics for automobile industry and general industry. This product integrates advanced technologies such as 3D visual guidance, automatic sorting and feeding, robot grasping, etc. It has the characteristics of intelligence, automation, high flexibility, high reliability and high adaptability.