A manual tool -segmented electroplating method based on the shielding layer mechanical removal of automated production line

Abstract

The invention discloses a sectional manual tool electroplating method based on an automatic production line for mechanical removal of a shielding layer. The automatic production line comprises multi-station conveying equipment and shielding layer removing equipment, wherein the multi-station conveying equipment comprises a rotary conveying mechanism, a first rotary table mechanism and a second rotary table mechanism; the first rotary table mechanism, the second rotary table mechanism and the shielding layer removing equipment respectively form three stations; a manual tool can be transferred on the three stations under the drive of the rotary conveying mechanism, and all to-be- electroplated sections of the manual tool are sequentially exposed through the shielding layer removing equipment and then are electroplated according to different electroplating requirements for all the sections, so that sectional electroplating is realized. The sectional manual tool electroplating method disclosed by the invention has the advantages that the high-precision and high-efficiency removal of the shielding layer on the surface of the manual tool can be realized, the manual tool is not damaged, and the performance and the precision of the manual tool as well as the automation of the assembling, disassembling and collecting processes of the manual tool are not affected, so that the labor amount of workers is reduced, the production cost is reduced, and the electroplating precision is improved.

Description

technical field [0001] The invention belongs to the technical field of electroplating, and in particular relates to a manual tool segmental electroplating method based on an automatic production line for mechanically removing shielding layers. Background technique [0002] Hand tools are a classification of the hardware industry. They are generally used in special environments, such as flammable, explosive, and extremely harsh conditions. They are consumables. Hand tools can be divided into wrenches, pliers, screwdrivers, tape measures, hammers, sockets, cutting, scissors, sets, and auxiliary tools such as tool carts according to their uses. Each category has a different model. [0003] Due to the influence of the working environment and conditions, the working parts of hand tools are often severely worn, and the handles of hand tools are often slippery due to long-term holding time or wet hands, which will make people feel inconvenient and uncomfortable. Comfortable, and ...

AI Technical Summary

Problems solved by technology

However, this process requires manual processing, high labor costs, low packaging efficiency, and poor accuracy

② Dip coating method, before electroplating, paint a layer of anti-corrosion insulating paint on the surface. After the varnish is painted, it needs to be dried, and then the insulating paint that needs to be electroplated is manually scraped off. After electroplating, other paints need to be manually scraped off On the other hand, this method also has the problem of low efficiency

This method needs to be repeated many times, and there are many manual operations and low efficiency.

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