Semi-automatic material receiver

Abstract

The invention relates to a semi-automatic material receiver. The semi-automatic material receiver comprises an upper material plate and a lower material plate. Multiple vertical guide rails are fixedly connected to the lower material plate. Through holes matched with the guide rails are correspondingly formed in the upper material plate. Each guide rail is sleeved with a reset spring. The reset springs are located between the upper material plate and the lower material plate. The lower side face of the upper material plate is provided with a containing cavity used for containing metal clasps. The containing cavity is located on the front portion of the upper material plate. The lower side face of the upper material plate is further provided with a sliding groove arranged in the front-back direction. The sliding groove is communicated with the containing cavity. The upper side face of the lower material plate is provided with supporting blocks, wherein the supporting blocks correspond to the containing cavity and are used for fixing a material strap. The semi-automatic material receiver has the advantages that operation is simple, the working efficiency and the automation degree are high, and more materials of the metal clasps are saved.

Description

technical field [0001] The invention relates to a semi-automatic material receiver, which belongs to the technical field of SMT. Background technique [0002] The splicing pliers is a tool used for the strip connection of SMD electronic components. With the development of electronic technology, the installation process of electronic components is also constantly improving. In the prior art, the use of the splicing tongs is usually to cooperate with the metal buckle to connect the material strips. The specific steps are: manually take a metal buckle, put it on the splicing tongs, and then connect the root strips at the joint. Align and place on the metal buckle, press the handle of the material splicing pliers, so that the metal buckle is crimped at the joint of the two material strips. Since a single metal buckle needs to be manually taken out every time the material belt is connected, the metal buckle needs to be carefully placed on the pliers and aligned with the position...

AI Technical Summary

Problems solved by technology

Since a single metal buckle needs to be taken manually every time the material belt is connected, the metal buckle needs to be carefully placed on the pliers and aligned with the positioning structure of the metal buckle. Due to the small size of the metal buckle, the operation is inconvenient and the efficiency is very low. Seriously affect the efficiency of production

As a result, some automatic material receiving tongs have appeared in the market in order to improve production efficiency, but the cost of automatic material receiving tongs is high, the service life is short, and it is not suitable for some special production processes; The splicing tongs are limited in use and can improve the defects of the existing manual splicing tongs

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