A copper tube surface cleaning device for magnetron anode cylinder

Abstract

The invention provides a machining surface cleaning device for a copper tube for an anode magnetron. The machining surface cleaning device comprises a linear module, a first servo motor mounted at the end of the linear module, a movable mounting plate mounted on the top of the linear module, multiple fixing plates fixed to the lower portion of the movable mounting plate in parallel, first air cylinders mounted on the fixing plates, first sliding blocks fixed to the bottom ends of the first air cylinders, brushless motors mounted at the bottoms of the first sliding blocks, static brush rollers mounted at the front ends of the brushless motors and copper tube feeding mechanisms arranged below the fixing plates. Each copper tube feeding mechanism comprises a support seat, a second sliding block fixed to the top of the support seat, a second air cylinder mounted at the rear end of the second sliding block, a second servo motor mounted on the top of the second sliding block and a leather cup mounted at the front end of the second servo motor. According to the machining surface cleaning device for the copper tube for the anode magnetron, the surface of the straightened and cut copper tube can be cleaned automatically, and the cleaning effect and the cleaning efficiency of copper powder on the copper tube surface are improved greatly.

Description

technical field [0001] The invention relates to the technical field of copper tube processing, in particular to a copper tube processing surface cleaning device for a magnetron anode cylinder. Background technique [0002] In the prior art, there are two main processing methods for ordinary copper pipes. One is the traditional extrusion cold rolling method, that is, semi-continuous casting-sawing to length-heating-extrusion-Pigel two-roll cold rolling- Combined pulling-disc pulling or straight pulling-straightening cutting. The other is a short-process energy-saving processing method newly developed in recent years, referred to as the continuous casting and rolling method, that is, submerged horizontal continuous casting-blank surface milling-three-roll planetary rolling mill-large coil rewinding-combined drawing Dial-high-speed disc pull-straightening and cutting. The difference between the two processes is only in energy consumption and finished product rate. For copper ...

AI Technical Summary

Problems solved by technology

In the process of straightening and cutting, it is very easy to absorb copper powder on the surface of the copper tube. If the adsorbed copper powder on the surface of the copper tube cannot be removed in time, it is easy to cause uneven magnetic control due to the adsorption of copper powder on the surface of the copper tube, which will seriously affect the magnetic control. The use effect of anode cylinder

[0004] In the prior art, after the straightening and cutting of the copper tube for the magnetron anode cylinder, the copper powder adsorbed on the surface of the copper tube is generally removed by manual wiping, which is not only inefficient, but also reduces the quality of copper powder removal on the surface of the copper tube. There is no guarantee, and it is increasingly unable to meet the needs of copper tubes for modern finished magnetron anode cylinders

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