Self-locking type intermittent feeding mechanism for high-rigidity part

Abstract

The invention discloses a self-locking type intermittent feeding mechanism for a high-rigidity part. The self-locking type intermittent feeding mechanism comprises a sliding groove used for conveyinga workpiece. An installation plate is arranged on one side of the sliding groove, and a blocking rod and a push rod are arranged on the installation plate in a sliding manner. The front end positions,opposite to the blocking rod and the push rod, of the side wall of the sliding groove are provided with a first opening groove and a second opening groove correspondingly. The front end of the blocking rod is inserted in the sliding groove in a sliding manner and blocked below the workpiece through the first opening groove, and the front end face of the push rod stretches in the sliding groove through the second opening groove in a sliding manner and abuts against the side face of the workpiece. A self-locking mechanism is connected between the blocking rod and the push rod so that the movement direction of the blocking rod and the push rod can be locked in the reverse direction. By means of the self-locking intermittent feeding mechanism for the high-rigidity part, continuous workpiecescan be independently and separately fed, in addition, a complex control system is not needed, the structure is simple, the cost is low, and reliability is high.

Description

technical field [0001] The invention relates to the technical field of mechanical conveying mechanisms, in particular to a self-locking intermittent feeding mechanism for high rigidity parts. Background technique [0002] In the mechanical industry, a large number of high-rigidity bolt-type connectors are usually required to ensure the stability of the connection. In the workshop production operation, when the final plug-in packaging is performed, some bolt-type connectors need to be separated and separated in a single way. Entering the stroke of the manipulator, waiting to grab and load the material, and when the bolt-type connector in the previous step is separated, it needs to design a complicated conveying mechanism, separating mechanism and corresponding detection, control and feedback devices, which have many components and high reliability. Low, high cost. [0003] The invention provides a feeding mechanism for the separation and delivery process of high-rigidity bol...

AI Technical Summary

Problems solved by technology

[0002] In the machinery industry, a large number of high-rigidity bolt-type connectors are usually required to ensure the stability of the connection. In the workshop production operation, when the final plug-in packaging is performed, some bolt-type connectors need to be separated and separated in a single way. Entering the stroke of the manipulator, waiting to grab and load the material, and when the bolt-type connector in the previous step is separated, it needs to design a complex conveying mechanism, separating mechanism and corresponding detection, control and feedback devices, which have many components and high reliability. low cost

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