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Ceramic shunt

A shunt, ceramic technology, applied in branch pipelines, pipes, pipes/pipe joints/fittings, etc., can solve the problems of wear resistance, poor corrosion resistance, cost expenditure, and incompatibility, and save replacement costs and replacements. times, reduce the incidence of failure, excellent wear resistance

Inactive Publication Date: 2012-09-19
常熟市天和陶瓷厂
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

In the prior art, the commonly used shunts are made of metal or alloy. The main defect of this kind of shunt is that it is relatively bulky; it only works on a specific conveying part, and the range is narrow, so it cannot be used universally; wear resistance and corrosion resistance Poor; therefore, damage often occurs, reducing the efficiency of the system, resulting in a large expenditure of cost

Method used

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  • Ceramic shunt
  • Ceramic shunt
  • Ceramic shunt

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0022] please see Figure 1 to Figure 2 , a ceramic shunt, characterized in that it is composed of a connecting seat 4, a shunt body 2 located above the connecting seat and connected to the connecting seat, the lower part of the shunt body is in the shape of a cylinder, and the upper part 1 of the shunt body is a cone Cylindrical shape, the connection seat is cylindrical shape, there is a main channel 5 inside the diverter body and the connection seat, the cylindrical part of the diverter body has six through-holes 3, the diverter holes and the main channel are connected , the axes of the connecting seat and the diverter body are coincident, the connecting seat, the diverter body, the upper part of the diverter body, the main channel, and the diverter hole are integrally formed; the main channel runs through the diverter body along the axis of the diverter body The upper part and the connecting seat; the size of the six distribution holes is the same; the six distribution hole...

Embodiment 2

[0025] please see image 3 , and refer to figure 1 and figure 2 , a ceramic shunt, basically the same as the implementation example 1, the difference is that: the main channel runs through the cylindrical part of the shunt body and the connecting seat along the axis of the shunt body; the connecting seat, the shunt body, The upper part of the shunt body is made of 995 type ceramics.

[0026] In this embodiment, the conveyed body such as gas, liquid, and dust to be diverted is connected from the main channel at the connection seat. Since the main channel passes through the cylindrical part of the diverter body along the axis of the diverter body, that is, it does not penetrate The cone part, so the conveyed body can only be diverted and transported through the diversion hole to reach the desired place.

[0027] The ceramic flow divider described in any one of the above embodiments is characterized in that the main passage passes through the upper part of the flow divider bo...

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Abstract

The invention relates to a ceramic shunt. The ceramic shunt is characterized by comprising a connecting seat and a shunt body which is arranged above the connecting seat and is connected with the connecting seat, the lower part of the shunt body is in a cylinder shape, the upper part of the shunt body is in a cone-cylinder shape, the connecting seat is in a cylinder shape, the interior of the shunt body and the interior of the connecting seat are provided with a primary channel, the cylinder part of the shunt body is provided with multiple perforative shunt holes, the shunt holes are communicated with the primary channel, axis of the connecting seat and the axis of the shunt body are coincident, and the connecting seat, the shunt body, the upper part of the shunt body, the primary channel and the shunt holes are integrally molded. The ceramic shunt disclosed by the invention has the following main beneficial effects that: weight is light, generality is wide, multiple delivered objects can be delivered; excellent wear-resisting and corrosion-resisting properties can be obtained; and occurrence rate of a fault of a system is reduced, replacement expense of spare parts is saved, and replacement frequency is reduced.

Description

technical field [0001] The invention relates to a ceramic splitter for splitting gas, liquid and dust. Background technique [0002] Separators have a wide range of applications, and the more commonly used ones are: pipelines requiring high wear resistance: thermal power generation, thermal power plant ash transportation, coal slag transportation pipelines; another example: high-concentration acid and alkali solution transportation; boiling metal solution; and Such as: high temperature and high pressure gas; In the prior art, the commonly used shunts are made of metal or alloy. The main defect of this kind of shunt is that it is relatively bulky; it only works on a specific conveying part, and the range is narrow, so it cannot be used universally; wear resistance and corrosion resistance Poor; therefore, damage often occurs, reducing the efficiency of the system, resulting in a large cost of expenditure. Contents of the invention [0003] In order to solve the above prob...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): F16L41/02
Inventor 邵学文
Owner 常熟市天和陶瓷厂