Novel embedded wire winding mechanism based on 3D printing technology

Abstract

The invention discloses a novel embedded wire winding mechanism based on a 3D printing technology. The novel embedded wire winding mechanism comprises a supporting framework, a first motor, a wire spool, a first mounting plate, a mounting framework, a fixing block, a worm, supporting legs, a base, a first bearing seat, a fixing plate, a worm gear, a first fixing seat, a first belt, a second bearing seat, a second belt, a second mounting plate, a second sliding block, springs, a second motor and a second fixing seat. According to the novel embedded wire winding mechanism based on the 3D printing technology, clamping arms are driven to move along second fixing rods through elastic force of springs, the distance between the clamping arms can be adjusted according to the thickness of a wire rod, the worm and gear are rotated to drive a second lead screw to move in the vertical direction of the fixing block, and therefore, the distance between a first conical head and a second conical headis adjusted, and rapid mounting and fixation of the wire spool is realized; and most parts of the wire spool are produced with the 3D printing technology, the weight and the production cost of the device are greatly reduced, and meanwhile, the maintenance and replacement efficiency is improved.

Description

technical field [0001] The invention relates to the technical field of wire winding, in particular to a novel embedded wire winding mechanism based on 3D printing technology. Background technique [0002] The wire coiler is an important link in the wire rod production process. It coils the rolled wire rod into a disk shape to facilitate transportation and storage. Its coiling speed must be well matched with the rolling speed of the rolling mill to work normally. Coil the line to make the production run smoothly. [0003] The wire winding mechanism has a wide range of applications, including communication, electric power and other aspects. Due to different application fields, the thickness of the wire to be wound and the size of the winding are different, so it needs to be adjusted in time according to the type of wire. device, however, the winding reel of the general winding mechanism is fixed by bolts or cone head compression, and a large number of bolts need to be install...

AI Technical Summary

Problems solved by technology

[0003] The wire winding mechanism has a wide range of applications, including communication, electric power and other aspects. Due to different application fields, the thickness of the wire to be wound and the size of the winding are different, so it needs to be adjusted in time according to the type of wire. device, however, the winding reel of the general winding mechanism is fixed by bolts or cone head compression, and a large number of bolts need to be installed and disassembled through the bolts, which is time-consuming and laborious. However, it is fixed by the cone head compression method. It will fall off, and most of the parts of the wire winding mechanism on the market today are made of metal casting, which is of high quality and high cost, and some special parts need to be customized, and it is difficult to find the same parts when they need to be replaced. To replace, not conducive to the daily use of the winding mechanism

Images