Sleeve workpiece continuous feeding mechanism

Abstract

The invention discloses a sleeve workpiece continuous feeding mechanism, and belongs to the field of workpiece machining and conveying mechanical equipment. A pushing mechanism and a transfer mechanism of the invention are successively and horizontally fixed to the upper side of a loading base in the horizontal direction. A reciprocating guide plate is slidably disposed on the translation guide ofa translation bracket in the horizontal direction. A translational push plate in circular structure and matching a bearing cylinder material path is vertically fixed to the output end of a pushing cylinder. The two sides of the reciprocating guide plate and the tube material end of a translation support are provided with reset tension springs. The middle of the lower side of a transfer circular plate is fixed to the end of the upper side of a loading shaft. A plurality of bearing cylinder mechanisms are evenly arranged in order on the transfer circular plate along the radial direction of thetransfer circular plate. The sleeve workpiece continuous feeding mechanism is reasonable in structural design, can translate, push, and accurately place the sleeve workpieces one by one, transfers, loads and machines the sleeve workpieces smoothly and efficiently, achieves the degree of automation of the workpiece loading, and satisfies the needs of production and use.

Description

technical field [0001] The invention belongs to the field of workpiece processing and conveying machinery, and in particular relates to a continuous feeding mechanism for sleeve workpieces, which is mainly used for continuous transfer processing of sleeve workpieces one by one. Background technique [0002] The sleeve workpiece refers to the workpiece with a cylindrical structure. There are many types of sleeve workpieces. Different sleeve workpieces use different materials. The quality of the material directly determines the quality of the sleeve workpiece. The sleeve workpiece is a construction and mechanical The necessary materials for the equipment, the sleeve workpiece is a general term for the parts that play the role of connection, control, direction change, shunt, seal, support, etc. in the mechanical system. During the production and processing of sleeve workpieces, the sleeve workpieces that have been processed by the previous process need to be loaded one by one t...

AI Technical Summary

Problems solved by technology

During the production and processing of sleeve workpieces, the sleeve workpieces that have been processed by the previous process need to be loaded one by one to enable the processing of the subsequent process. The existing sleeve workpieces are processed after the previous process. , in order to continue the production and processing of the sleeve workpieces, the existing method is to manually feed the sleeve workpieces one by one, the labor intensity of the workers is relatively high, and the feeding efficiency of the sleeve workpieces is low, making it difficult to meet large-scale According to the needs of the production and processing of sleeve workpieces, the transfer of the existing sleeve workpieces is mainly to place the sleeve workpieces on the turntable and rely on the horizontal rotation of the turntable to realize the smooth transfer of the sleeve workpieces. The process of pushing the cylinder workpiece to the turntable is usually carried out when the turntable is at a standstill, that is, the turntable generally rotates intermittently. The existing mechanism of intermittently driving the turntable is complicated and cumbersome to operate, and it is difficult to accurately stop the turntable at the required position. , which makes it difficult for the sleeve workpiece to be accurately translated and pushed, which affects the continuous feeding of the sleeve workpiece. It is difficult for the existing sleeve workpiece transfer mechanism to transfer the sleeve workpiece during the transfer process. The convenient clamping and fixing during the transfer process makes the sleeve workpiece easy to fall off during the transfer process, and the existing transfer mechanism needs to install an additional manipulator to remove the sleeve workpiece after transferring the sleeve workpiece to the desired position. In the process of grabbing and translating the sleeve workpiece, some manipulators often cause the sleeve workpiece to fall off due to poor grasping during the process of grabbing the sleeve workpiece, resulting in the sleeve workpiece not being able to be normally carried out in subsequent processes processing, so that the efficiency and quality of sleeve workpiece processing cannot be guaranteed, and in the process of using the manipulator to grab the sleeve workpiece, the manipulator needs multiple driving mechanisms to drive continuously and independently, the driving energy consumption is high, and The multi-drive mechanism is also prone to failure, and it is difficult to run stably for a long period of time, which reduces the efficiency and quality of continuous transfer processing of sleeve workpieces, and cannot meet the needs of processing and use.

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