Electroplated diamond wear-resistant shoe-jump-out-preventing tooling of through-type magnetic shoe grinding machine
A technology for electroplating diamond and synthetic diamond, which is applied in grinding machines, grinding workpiece supports, metal processing equipment, etc., can solve the problems of reducing the grinding efficiency of the magnetic tile 1, and achieve the improvement of grinding efficiency, tool life and large friction coefficient. Effect
Inactive Publication Date: 2013-07-03
自贡市江阳磁材有限责任公司
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Problems solved by technology
[0008] In order to prevent tile shifting, the general operator uses reverse grinding. When using reverse grinding, the grinding wheel 4 rotates counterclockwise. At this time, the grinding force of the grinding wheel 4 on the magnetic tile 1 is opposite to the feeding direction of the magnetic tile 1. The grinding force Playing the role of resistance, the grinding efficiency of the same grinding machine on the magnetic tile 1 will be greatly reduced
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[0021] Below by embodiment, and in conjunction with accompanying drawing, the present invention will be further described:
[0022] Such as Figure 5 As shown, in the through-type magnetic tile grinding machine of the present invention, the electroplated diamond wear-resistant and anti-channeling tile tooling, the tooling 6 is quenched on general materials (such as Cr12 alloy steel materials, which are commonly used for producing through-type magnetic tile grinding machine tooling) and After cutting and forming into the shape of the frock (this step is the same as the prior art), on the working surface (upper surface in this embodiment) that cooperates with the magnetic tile of the frock 6, 170 order-200 order high-strength synthetic diamonds are used The electroplating method is fixed on the upper surface of the tooling 6 to form a high friction coefficient wear-resistant material layer 9 (each parameter of the electroplating method adopts the existing common technology). in...
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The invention provides an electroplated diamond wear-resistant shoe-jump-out-preventing tooling of a through-type magnetic shoe grinding machine. The tooling is characterized in that a high-friction-coefficient wear-resistant material layer is arranged on the workface of the tooling which is matched with a magnetic shoe; the high-friction-coefficient wear-resistant material layer is an electroplated layer which is made of artificial diamond and is arranged on the workface of the tooling; and the artificial diamond is 170-mesh to 200-mesh high-strength artificial diamond. The tooling provided by the invention has the positive effects that when the tooling is used for grinding the magnetic shoe, since the electroplated diamond particles are 170-mesh to 200-mesh fine particles and partial diamond particles protrude out of the electroplated layer after electroplating, an extremely high friction coefficient is formed, the friction coefficient of the electroplated diamond wear-resistant layer is large, the situation that the shoe jumps out during down grinding can be avoided and the grinding efficiency can be greatly improved; and the wear resistance of the electroplated diamond wear-resistant layer is improved by more than ten times relative to the Cr12 alloy steel integrally-quenched tooling and is improved by more than three times relative to the hard alloy mosaic tooling, and the life of the tooling is greatly improved.
Description
Technical field [0001] The invention relates to a processing tool for tile-shaped magnets, in particular to a tool suitable for finishing the grinding of tile-shaped magnets. Background technique [0002] Such as figure 1 As shown, it is a magnetic tile. When grinding the arc surface of the tile-shaped magnet of magnetic tile 1, it is generally ground with a through-type magnetic tile grinder. The through-type magnetic tile grinder needs to be equipped with a special tooling for a specific magnetic tile to ensure Normal grinding of arc surface of tile magnet. Such as image 3 , Figure 4 As shown, it is a special frock, and the upper surface of the frock 6 matches the shape of the lower surface of the magnetic tile 1. [0003] Such as figure 2 As shown, the process of grinding the magnetic tile 1 using a pass-through magnetic tile grinder is: [0004] The magnetic tile 1 is placed on the conveyor belt 8 by the operator, and is sent to the transition guide rail 5 under...
Claims
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IPC IPC(8): B24B19/26B24B41/06
Inventor 邓志刚曾宇赖明德龙云刚
Owner 自贡市江阳磁材有限责任公司