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Drum-type parking brake lining for automobile and manufacturing method thereof

A parking brake, drum-type technology, applied in the direction of chemical instruments and methods, friction linings, mechanical equipment, etc., to achieve the effect of improving the braking force

Active Publication Date: 2014-04-02
河北星月制动元件有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, during the preparation of the drum brake lining with a semi-arc shape, there will be machining errors in the semi-arc structure, and the accumulation of installation errors will make the drum brake lining and its frictional couple in the braking process. It is difficult for the friction pair to achieve comprehensive friction, and only after a long enough running-in can effective friction be generated

Method used

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  • Drum-type parking brake lining for automobile and manufacturing method thereof

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0031] The first step: Take 10 parts by weight of silicon carbide micropowder of 2500 mesh, 10 parts by weight of silicon carbide micropowder of 400 mesh, 10 parts by weight of alumina of 450 mesh, 15 parts by weight of modified high-alumina vanadium clay of 300 mesh and high-temperature-resistant immersion powder for automobile brake pads. 40 parts by weight of glue;

[0032] Step 2: Put the 2500-mesh silicon carbide micropowder, 400-mesh silicon carbide micropowder, alumina, modified high-alumina vanadium clay, and high-temperature-resistant dipping glue for automobile brake pads obtained above into a container and mix for 15 minutes. Friction enhancer for automobile drum parking brake lining;

[0033] Step 3: Use the spray gun to evenly spray the mixed friction enhancer on the surface of the friction material of the drum friction plate;

[0034] Step 4: Put the drum friction plate sprayed with friction enhancer into the tunnel-type heating furnace, and dry it for 20 mi...

Embodiment 2

[0036] The first step: Take 20 parts by weight of silicon carbide micropowder of 2000 mesh, 5 parts by weight of silicon carbide micropowder of 450 mesh, 15 parts by weight of alumina of 300 mesh, 20 parts by weight of modified high-alumina vanadium clay of 450 mesh and high-temperature-resistant immersion powder for automobile brake pads. 60 parts by weight of glue;

[0037] Step 2: Put the 2000-mesh silicon carbide micropowder, 450-mesh silicon carbide micropowder, alumina, modified high-alumina vanadium clay, and high-temperature-resistant dipping glue for automobile brake pads obtained above into a container and mix for 10 minutes. Friction enhancer for automobile drum parking brake lining;

[0038] Step 3: Use the spray gun to evenly spray the mixed friction enhancer on the surface of the friction material of the drum friction plate;

[0039] Step 4: Put the drum friction plate sprayed with friction enhancer into the tunnel heating furnace, and dry it for 25 minutes ...

Embodiment 3

[0041] Step 1: Take 15 parts by weight of silicon carbide micropowder of 3000 mesh, 15 parts by weight of silicon carbide micropowder of 300 mesh, 15 parts by weight of alumina of 450 mesh, 25 parts by weight of modified high-alumina vanadium clay of 400 mesh and high-temperature-resistant immersion powder for automobile brake pads. 55 parts by weight of glue;

[0042] Step 2: Put the 3000-mesh silicon carbide micropowder, 300-mesh silicon carbide micropowder, alumina, modified high-alumina vanadium clay and high-temperature-resistant dipping glue for automobile brake pads obtained above into a container and mix for 20 minutes. Friction enhancer for automobile drum parking brake lining;

[0043] Step 3: Use the spray gun to evenly spray the mixed friction enhancer on the surface of the friction material of the drum friction plate;

[0044] Step 4: Put the drum friction plate sprayed with friction enhancer into the tunnel heating furnace, and dry it for 15 minutes in an en...

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Abstract

The invention belongs to the technical field of drum-type parking brake linings for automobiles, and discloses a drum-type parking brake lining for an automobile. In the technical scheme, the drum-type parking brake lining consists of a brake lining body and a friction increasing layer stuck to the arc-shaped surface of the brake lining body, wherein the friction increasing layer is made by performing the procedures of burdening, mixing, spraying, baking and the like on silicon carbide micro powder of 2,000-3,000 meshes, silicon carbide micro powder of 300-450 meshes, aluminum oxide micro powder, modified high bauxite micro powder and high-temperature-resistant gum for an automobile brake. By adopting the brake lining having the structure, the friction surfaces of mating plates are prevented from being damaged during friction braking between the mating plates, thereby effectively enhancing the initial braking force of the brake lining, and achieving friction force which can meet a certain standard more effectively at the initial use stage of a friction material of the brake lining.

Description

technical field [0001] The invention belongs to the technical field of automobile drum type parking brake linings, in particular to an automobile drum type parking brake lining and a preparation method thereof. Background technique [0002] Brake linings are divided into disc brake linings and drum brake linings, also known as brake pads, as key components and wearing parts for safe driving of motor vehicles, mainly made of friction materials composed of reinforcing materials, fillers and adhesives made. The drum brake lining has a semi-circular arc structure, which effectively fits with the circular brake pair (brake drum) when the brake is applied, and generates sufficient braking force through a certain braking pressure. Make the vehicle stop safely. However, during the preparation of the drum brake lining with a semi-arc shape, there will be machining errors in the semi-arc structure, and the accumulation of installation errors will make the drum brake lining and its ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): F16D69/02C09K3/14
Inventor 孙金朋申坤瑞赵荣
Owner 河北星月制动元件有限公司