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Efficient grinding and chamfering device for shaft parts

A technology of shaft parts and chamfering devices, which is applied in the direction of grinding drive devices, machine tools suitable for grinding the edge of workpieces, and grinding feed movement, etc., can solve problems such as troublesome operation and low chamfering efficiency, and achieve production The effect of low cost, high processing precision and high efficiency

Active Publication Date: 2018-06-01
中国兵器装备集团自动化研究所有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] The purpose of the present invention is to provide a high-efficiency grinding and chamfering device for shaft parts to solve the problems of low efficiency and troublesome operation of the existing chamfering processing methods

Method used

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  • Efficient grinding and chamfering device for shaft parts
  • Efficient grinding and chamfering device for shaft parts
  • Efficient grinding and chamfering device for shaft parts

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0037] Such as Figure 1 to Figure 3As shown, a high-efficiency grinding and chamfering device for shaft parts includes a main shaft 12, a feeding mechanism, a cone feeding mechanism 7, a grinding wheel 11 and a discharge plate 6, and the main shaft 12 is installed on the headstock 1 Inside, the cone feeding mechanism 7 includes a cone 21 arranged on the main shaft 12, a plurality of slots are arranged on the outer circumference of the cone 21, and each slot is correspondingly placed with a shaft part. The shaft part is in contact with both sides of the slot, and the toothed wheel 21 is matched with the discharge port of the feeding mechanism. The mechanism includes a feed guide plate A3 and a feed guide plate B4 arranged on the headstock 1, the guide plate A3 and the feed guide plate B4 are arranged in parallel, and a Feed base plate 5, the distance between the feed guide plate A3 and the feed guide plate B4 is slightly greater than the length of the shaft parts, the feed ba...

Embodiment 2

[0040] Such as Figure 1 to Figure 3 As shown, this embodiment is based on Embodiment 1, the headstock 1 is provided with a mounting plate, the mounting plate is provided with a bar-shaped chute, and the feed guide plate A3 and the feed guide plate B4 are set by bolts In the bar-shaped chute, the bolt can be adjusted at the position of the bar-shaped chute; the adjustable half tile 17 is provided with a front positioning block 8, and the spindle box 1 is provided with a threaded sleeve 16. Rear positioning block 14 is installed on the threaded sleeve 16, and described threaded sleeve 16 is provided with the positioning block locking nut 15 that cooperates with rear positioning block 14, and described front positioning block 8 and rear positioning block 14 are to the shaft in the card groove. Parts are positioned, and the spacing between the front positioning block 8 and the rear positioning block 14 is slightly greater than the length of the shaft parts.

Embodiment 3

[0042] Such as Figure 1 to Figure 3 As shown, this embodiment is based on Embodiment 1, and the cone feed mechanism 7 includes a shaft sleeve 18, a pressing block 19, a support plate A20, a support plate B22, and a cone 21, and the shaft sleeve 18 is installed through a key 13 On the main shaft 12, the pressing block 19 is installed on the shaft sleeve 18, the support plate A20 and the support plate B22 are installed on the shaft sleeve 18, and the support plate A20 and the support plate B22 are arranged on the end surface of the shaft sleeve 18 and Between the compression blocks 19, the toothed wheel 21 is installed between the support plate A20 and the support plate B22, and the adjustable half tile 17 can be slightly adjusted in the Y direction, so that the busbar under the cylindrical surface of the shaft part and the adjustable half tile 17 The inner arc surface is attached, and the upper busbar is attached to the outer cylindrical surface of the support plate A20 or the...

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PUM

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Abstract

The invention discloses an efficient grinding and chamfering device for shaft parts. The device comprises a main shaft, a feeding mechanism, a cone feeding mechanism, a grinding wheel and a dischargeplate; the main shaft is mounted in a main shaft box; the cone feeding mechanism comprises a cone arranged on the main shaft; multiple clamping grooves are formed in the outer peripheral surface of the cone; the cone cooperates with a discharge port of the feeding mechanism; the grinding wheel is arranged on a grinding wheel grinding mechanism; the grinding wheel cooperates with the cone for grinding shaft parts clamped in the clamping grooves; the axial direction of the grinding wheel is perpendicular to the axial direction of the cone; an adjustable half tile is arranged in a grinding area cooperated by the grinding wheel and the cone; and the discharge plate is arranged at a grinding back end of the cone. Automatic separation and continuous feeding of the cone are realized after batch placement of the parts; the cone continuously passes through the grinding area to realize continuous and efficient production; the problems of low efficiency and troublesome operation in a traditionalchamfering mode are solved; and meanwhile, the machining precision is high.

Description

technical field [0001] The invention relates to the technical field of chamfering and grinding of shaft parts, in particular to an efficient grinding and chamfering device for shaft parts. Background technique [0002] After the shaft parts are processed, burrs, sharp corners and other shapes will appear on the cross-section. These shape features are not only not conducive to the later assembly, but also easily damage the surface quality of other parts, scratch the skin of the operator, and cause production accidents. Therefore, the end face chamfering treatment of shaft parts is generally performed in the later stage of processing. In some machining workshops, the chamfering of shaft parts is usually done by lathe turning, milling machine chamfer milling, manual scraping and other methods. Cutting on lathes and milling machines can only be done on a single piece, and clamping is required before machining. The ratio of clamping time to cutting time is about 1:1, which is co...

Claims

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Application Information

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IPC IPC(8): B24B9/04B24B41/00B24B47/20B24B47/12
CPCB24B9/007B24B9/04B24B41/005B24B47/12B24B47/20
Inventor 王新科范华献刘晨敏龚运环汪涵
Owner 中国兵器装备集团自动化研究所有限公司