Porous graphite sleeve combination device of batch sintering and painting die

A combined device and porous graphite technology, applied in the field of painting molds, can solve problems such as unguaranteed strength of the sintered body, unbalanced density of the sintered body, and hidden dangers in the quality of the painting mold, achieving strength assurance, eliminating quality problems, and temperature uniform effect

Inactive Publication Date: 2018-06-15
安徽聚芯智造科技股份有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Due to the lack of contact between the graphite mold sets of this sintered structure, a single graphite mold set will have a large temperature difference during the sintering process, resulting in some of the sintered bodies in the 8 graphite mold sets having lower than normal hardness, and some If the hardness is higher than normal, the density of the sintered body is unbalanced, and the strength of the sintered body cannot be guaranteed, thus leaving a quality hazard for the painted mold.

Method used

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  • Porous graphite sleeve combination device of batch sintering and painting die
  • Porous graphite sleeve combination device of batch sintering and painting die
  • Porous graphite sleeve combination device of batch sintering and painting die

Examples

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Embodiment 1

[0051] Porous graphite sleeve combination device

[0052] A porous graphite sleeve assembly device for batch sintering paint moulds, the assembly device includes the following components:

[0053] Graphite sleeve 10, described graphite sleeve 10 is integral shape, and graphite sleeve 10 is provided with a plurality of graphite holes 11 that run through its body from top to bottom, and the central axis of this plurality of graphite holes 11 is parallel to each other, as figure 1 , figure 2 shown;

[0054]Clamps, the number of the clamps is adapted to the number of graphite holes 11 , and the clamps are used to clamp and fix the body 40 to be sintered in the graphite holes 11 .

[0055] Such as image 3 As shown, the fixture includes graphite pad rods 20 and graphite pressure rods 30 that are arranged on both sides of the body to be sintered 40, and graphite pad rods 20 and graphite pressure rods 30 cooperate with each other in pairs; the graphite pad rods 20 are arranged on...

Embodiment 2

[0064] Preparation Technology of Synthetic Diamond Sintered Body

[0065] In this preparation process, the porous graphite sleeve combination device of the batch sintered paint mold as described in Example 1 is used, that is, the graphite sleeve 10 is in a monolithic shape, and the graphite sleeve 10 is provided with a plurality of holes through it from top to bottom. The graphite holes 11 of the body, the central axes of the plurality of graphite holes 11 are parallel to each other;

[0066] This preparation process comprises the steps:

[0067] S1. If Image 6 As shown, the graphite backing rods 20 are respectively packed into a plurality of graphite holes 11 of the graphite sleeve 10, the quantity of the graphite backing rods 20 matches the quantity of the graphite holes 11, and the graphite backing rods 20 are fixed on the graphite in hole 11;

[0068] S2. If Figure 7 As shown, the bottom sintering powder 41 is loaded into the graphite hole 11 where the graphite backi...

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Abstract

The invention relates to a porous graphite sleeve combination device of a batch sintering and painting die. The combined device comprises a graphite sleeve and clamps, wherein the graphite sleeve is in an integral shape, and a plurality of graphite holes penetrating through the body are formed in the graphite sleeve from top to bottom, and the central axes of the plurality of graphite holes are parallel to each other; and the number of the clamps is matched with that of the graphite holes, and the clamps are used for clamping and fixing to-be-sintered bodies in the graphite holes. Due to the fact that the graphite sleeve is in the shape of a whole, in the sintering process, the temperature of each part of the graphite sleeve is uniform and consistent, the sintering temperature of each sintering body is consistent, the hardness and the strength of the sintered body in the same batch are guaranteed, and the quality problem caused by sintering of a single graphite die sleeve in the priorart is solved.

Description

technical field [0001] The invention belongs to the technical field of paint moulds, in particular to a porous graphite sleeve assembly device for batch sintering paint moulds. Background technique [0002] In the prior art, when processing and preparing polycrystalline paint moulds, several individual graphite mold sets (usually 8 graphite mold sets as a batch) equipped with the body to be sintered are placed together on the sintering positioning chassis for sintering, each There is no contact between individual graphite mold sets, and after sintering, the body to be sintered in the graphite mold set becomes a sintered body. Due to the lack of contact between the graphite molds of this sintered structure, a single graphite mold will have a large temperature difference during the sintering process, resulting in some of the sintered bodies in the 8 graphite molds having lower than normal hardness, and some If the hardness is higher than normal, the density of the sintered bo...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): F27B21/08
CPCF27B21/00
Inventor 陈彬杨小林钱立海丁先良曹磊刘洋
Owner 安徽聚芯智造科技股份有限公司
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