Automobile triangle window glass production line

Abstract

The invention discloses an automobile triangle window glass production line, and relates to the technical field of robot application. The automobile triangle window glass production line comprises a feeding frame, a positioning mechanism, a feeding robot, a rubber coating mechanism, an air-drying conveying line, a drying oven, a material receiving and positioning mechanism, a discharging robot, an injection molding machine and a safety fence, wherein the feeding robot and the positioning mechanism are arranged on the front side of the feeding frame; the rubber coating mechanism is arranged on the front sides of the feeding robot and the positioning mechanism; the air-drying conveying line is arranged on the right side of the feeding robot; the material receiving and positioning mechanism is arranged at one end of the air-drying conveying line; the drying oven is arranged on the material receiving and positioning mechanism; the discharging robot is arranged on the front side of the material receiving and positioning mechanism; the injection molding machine is arranged on the right side of the discharging robot. By adopting the automobile triangle window glass production line, the yield of workpieces is increased, the labor intensity of workers is lowered, high workpiece stability and high quality are achieved, the production cost of an enterprise is reduced, and the core competitiveness of a company is enhanced.

Description

technical field [0001] The invention relates to the technical field of robot application, in particular to a production line for automobile triangular window glass. Background technique [0002] With the development of modern industry, the level of automated production has been greatly improved due to the widespread application of robots, such as automobile manufacturing production lines, construction machinery and other industries, it is particularly convenient to use robots for production, but for the glass manufacturing industry, especially For the production of triangular window glass, traditional manual welding is still the main method, which results in the inability to meet the requirements of modern high-tech product manufacturing in terms of process quality, especially in terms of stability and cost, resulting in product stability. The performance is poor, and the production cost of the enterprise is high. [0003] The main disadvantage of the traditional manual se...

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Problems solved by technology

[0002] With the development of modern industry, the level of automated production has been greatly improved due to the widespread application of robots, such as automobile manufacturing production lines, construction machinery and other industries, it is particularly convenient to use robots for production, but for the glass manufacturing industry, especially For the production of triangular window glass, traditional manual welding is still the main method, which results in the inability to meet the requirements of modern high-tech product manufacturing in terms of process quality, especially in terms of stability and cost, resulting in product stability. Poor performance, high production cost of the enterprise

[0003] The main disadvantage of the traditional manual semi-automatic operation is that it requires manual work on the glass, which not only requires high skills of the workers, but also increases the labor intensity of the workers, poor stability, and poor product consistency. The output is also low. In order to improve the automation level of triangular window glass production to a greater extent, a lot of research has been carried out on this process at home and abroad. Based on this, it is still necessary to design a production line for automotive triangular window glass.

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