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Hard alloy leftover material recycling and powder-grinding equipment

A technology of cemented carbide and scraps, which is applied in the field of cemented carbide scraps recycling and grinding into powder equipment, which can solve problems such as inconvenient use and cumbersome equipment operation process, and achieve the effect of preventing the service life from being affected

Active Publication Date: 2021-06-22
自贡中兴耐磨新材料有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] To recycle cemented carbide scraps, it is generally necessary to grind them into powder first. However, due to the relatively high hardness of cemented carbide scraps, it is difficult to effectively grind them into powders with existing equipment, and the operation process of existing equipment is relatively cumbersome. Inconvenient to use

Method used

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  • Hard alloy leftover material recycling and powder-grinding equipment
  • Hard alloy leftover material recycling and powder-grinding equipment
  • Hard alloy leftover material recycling and powder-grinding equipment

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0027] A hard alloy angle recovery abrasive powder equipment, such as Figure 1-9 As shown, including the base 1, the supporting seat 2, the grinding frame 3, the cover frame 31, the casing 32, the spring dial 33, the lifting assembly 4, the rotating abrasive assembly 5 and the powder filter assembly 6, the top of the base 1 In touch with the support seat 2, the support seat 2 is used to support the cooling liquid storage cylinder 81 and the grinding frame 3, and the grinding frame 3 is fixed to the center portion side of the support seat 2, and the abrasive frame 3 is used to place a hard alloy angle, and the mill frame 3 is used. One side rotation is connected to the cover frame 31, and the top portion of the cover frame 31 is fixed to the casing 32, and the cover frame 31 is also used to place a hard alloy angle, and the top portion of the grinding frame 3 is fixed to the spring dial holder 33. The spring dial 33 is used to engage the casing 32, and the spring dial holder 33 is ...

Embodiment 2

[0034] On the basis of Example 1, such as Figure 8 The coolant continuous lifting assembly 7 is also included, and the coolant continuous lifting assembly 7 is provided on the lifting assembly 4, and the coolant continuous lifting assembly 7 includes a pendulum 71, a top rod 72, a lifting slot 73, a tension bar. 74 and compression spring 2 75, the pendulum 71 rotation is provided on one side of the lifting rod 45, and the pendulum 71 can move the lifting slot rod 73 upward, the top rod 72 is fixed to the lifting rod 45 side, the top rod 72 is used to reach The hopper rod 71 prevents it from being randomly rotated, the top rod 72 is in contact with the top of the pendulum 71, and the lifting slot 73 slides in the side of the support plate 41 near the support seat 2, and the lifting slot 73 is used to squeeze the two cards. The tight rod 74 moves in a direction away from each other and the squeezing rod 71 is swinging in the lifting rod 45, and the lifting slot 73 is in contact with...

Embodiment 3

[0037] On the basis of Example 2, such as Figure 9 As shown, there is also a coolant delivery assembly 8, and the coolant delivery assembly 8 is provided on the support seat 2, and the mutual cooperation of the coolant continuous lifting assembly 7 and the coolant delivery assembly 8 can be used. The heat-generating components are cooled to prevent it from affecting the service life due to heat generation, and the coolant delivery assembly 8 includes a cooling liquid storage cylinder 81, a lifting disk 82, and a conveying tube 83, and the cooling liquid storage tube 81 is mounted to the top of the support seat 2, cooling The liquid storage cylinder 81 is used to hold the coolant, and the lifting disk 82 is sliding in the cooling liquid storage cylinder 81, and the lifting disk 82 is used to extrude the coolant in the coolant storage tube 81 into the conveying tube 83, lift the disk 82. The upper side is fixed to the upper portion of the lifting slot 73, and the conveying tube 83 i...

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Abstract

The invention relates to the field of hard alloy leftover material recycling, in particular to hard alloy leftover material recycling and powder-grinding equipment. The hard alloy leftover material recycling and powder-grinding equipment comprises a base, a supporting seat, a grinding frame, a cover frame, a clamping seat and the like, wherein the supporting seat is fixedly connected to one side of the top of the base, the grinding frame is fixedly connected to one side of the middle of the supporting seat, the cover frame is rotatably connected to one side of the grinding frame, and the clamping seat is fixedly connected to one side of the top of the cover frame. Through mutual cooperation of the base, the devices on the base, a lifting assembly and a rotary grinding assembly, the hard alloy leftover materials can be ground into powder, a worker can recycle the hard alloy leftover materials, and the purpose of grinding the recycled hard alloy leftover materials into powder is achieved.

Description

Technical field [0001] The present invention relates to the field of hard alloy angle recovery, and more particularly to a hard alloy angle recovery abrasive powder apparatus. Background technique [0002] Hard alloy angles generally refer to productive waste metal for construction, water, railways, oil fields, communications, electricity, defense and other production, usually lose metal materials and metal products that have their original use value. [0003] Recycling of hard alloy angles, generally need to be ground into powder, and due to the high hardness of the hard alloy, the existing equipment is difficult to effectively ground into powder, and the existing equipment operation process is cumbersome. It is inconvenient to use. Inventive content [0004] Based on this, it is necessary for the above problems to provide a hard alloy angle to the powder, which can separate the qualified hard alloy powder from a larger hard alloy particle, which can heat it due to grinding har...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B02C2/00B02C23/24B02C23/16B02C19/00B02C21/00
CPCB02C2/00B02C23/24B02C23/16B02C19/00B02C21/00B02C2023/165
Inventor 李清龙
Owner 自贡中兴耐磨新材料有限公司