KR102043540B1 - Aluminum disc and friction pad coupling structure - Google Patents

Abstract

The present invention relates to an aluminum disk and friction pad coupling structure, the material of the disk 10 is made of aluminum,
According to the present invention, an alumina insert is combined between an aluminum disk and a friction pad to withstand high heat or high speed, and the bonding is firm.

Description

Aluminum disc and friction pad coupling structure

The present invention relates to an aluminum disk and a friction pad coupling structure, more specifically, the insert 30 is formed between the disk 10 and the friction pad 20 to prevent damage to the disk of the aluminum material at high speed, high temperature The present invention relates to an aluminum disk and a friction pad coupling structure for firmly coupling with a friction pad.

In friction disc brakes, friction pads are coupled to the disc to prevent damage to the disc. As a prior art, Korean Patent Laid-Open Publication No. 20-2008-0002748 discloses a friction material for a brake pad of an automobile including a reinforcement material, a binder material, a filler material, and a friction adjusting material, wherein the reinforcement material is 3 to 10% by weight of a plate-shaped copper chip. A brake of an automobile further comprising a copper chip, wherein the base copper chip has a particle size of 0.08 to 0.36 mm and a length of 1 to 6 mm. have.

In addition, Korean Laid-Open Model Publication No. 1998-017356 discloses a support member attached to a piston end of a brake cylinder, and a friction material fixed to the support member and coupled to a wheel hub and contacted / frictiond with a disk plate that is rotated with a wheel. In the friction pad of the disk-type brake device comprising a, wherein the support member is composed of a case in which the friction material is inserted and accommodated, the disk-type brake, characterized in that it comprises a projection coupled to each other and grooves formed on the bottom surface of the friction material Friction pads of the device are disclosed.

However, in the prior art, the coupling between the disk and the friction material is weak, so that the coupling is separated or there is a risk of safety accident. In addition, the aluminum disk had a disadvantage that is difficult to withstand high temperature and high speed.

Therefore, the present invention has been made to solve the above problems, the present invention is combined with an alumina insert between the aluminum disk and the friction pad, and endures well at high temperature or high speed, the combination of the aluminum disk and the friction pad is solid It is to provide a coupling structure.

The present invention relates to an aluminum disk and friction pad coupling structure, characterized in that the material of the disk 10 of the aluminum material.

Therefore, the present invention is alumina insert between the aluminum disk and the friction pad is combined to withstand well at high heat or high speed, there is a significant effect that the bond is firm.

1 and 2 is an exploded perspective view of the present invention aluminum disk and friction pad
Figure 3 is a detailed cross-sectional view showing a coupling state of the present invention insert and the friction pad

The present invention relates to an aluminum disk and friction pad coupling structure, characterized in that the material of the disk 10 is made of aluminum.

In addition, the friction pad 20 is characterized in that the installation on one surface of the disk (10).

In addition, the rear surface of the disk 10 is characterized in that the groove 11 is formed.

In addition, the front surface of the friction pad 20 is formed with a projection 21 is characterized in that the projection 21 is inserted into the groove 11 of the disk 10.

In addition, an insert 30 is formed between the disk 10 and the friction pad 20.

In addition, the insert 30 has a disk shape and a cylindrical coupling hole 31 is formed in the front, which is formed smaller than the diameter of the disk groove 11 and larger than the diameter of the protrusion 21 of the friction pad 20. And the coupler 31 is coupled to the groove 11 of the disk 10, and the projection 21 of the friction pad is inserted into and coupled to the cylindrical coupler 31.

In addition, the disk 10 is characterized in that it is produced by cutting or casting.

In addition, the inner diameter of the insert 30 coupling hole 31 is formed with an annular projection 32 and the projection 21 of the friction pad 20 is formed with an annular groove 23 is formed in the annular projection and the annular groove It is characterized in that the elastic coupling.

In addition, a plurality of protrusions of the coupling hole and the friction pad of the groove and the insert of the disk is characterized in that arranged in a triangular shape.

The present invention will be described in detail with reference to the accompanying drawings.

1 and 2 are exploded perspective views of the aluminum disk and the friction pad of the present invention, Figure 3 is a detailed cross-sectional view showing a coupling state of the insert and the friction pad of the present invention.

In the present invention, the disc 10 of the disc friction brake is made of aluminum. When the disc and the disc come in contact with each other, a braking force is generated by friction.

A friction pad 20 is installed on one surface of the disk 10 to increase friction and protect the disk from high heat.

In the present invention, the groove 11 is formed on the rear surface of the disk 10 by firmly coupling the disk and the friction pad.

A protrusion 21 is formed on the front surface of the friction pad 20 so that the protrusion 21 is inserted into the groove 11 of the disk 10.

And the present invention is characterized in that the insert 30 is formed between the disk 10 and the friction pad 20.

The insert 30 is formed by pressing and sintering alumina particles in a mold. The insert 30 is formed in the shape of a disk, and has a cylindrical coupling hole 31 formed therein, which is smaller than the diameter of the disk groove 11 and a friction pad. It is formed larger than the diameter of the protrusion 21 of the (20) so that the coupler 31 is coupled to the groove 11 of the disk 10, the projection 21 of the friction pad inside the cylindrical coupler 31 ) Is inserted and combined.

The disk 10 of the present invention is produced by cutting or casting. The friction pad is also described in the prior art Publication No. 20-2008-0002748, steel fiber: 20 to 40% by weight, copper chip: 3 to 10% by weight, heat resistant organic fiber (KEVLAR): 2 to 7 weight %, Inorganic type: 2-7% by weight, organic type: 1-5% by weight, lubricant: 8-20% by weight, metal type: 10-15% by weight, oxidation type: 1-5% by weight, thermosetting resin (phenol resin) : 7 to 12% by weight can be produced by mixing.

In addition, as described in Japanese Patent Laid-Open Publication No. 10-2013-0088313, the concentration of main particles is set to 20% to 40% (Vol), and 10% to 30% (Vol) of GC and graphite particles as auxiliary particles. The content of the auxiliary particles is 50% to 80% (Vol) of the main particle content, the total volume ratio of the main particles and the auxiliary particles is 30 to 60%, and the size of the auxiliary particles is 3/5 of the main particles. To 1, containing 10% to 30% (Vol) of SiO 2, Al 2 O 3, SiC, B 2 O 3, RO, and R 2 O as glassy particles; and the metal binder is selected from Cu, Fe, Ni, W, Co, Sn, Ag. 20% to 2 or more metal contents

When 50% (Vol) was used and the total amount of the metal binder was 100 wt%, the composition of each metal component was 10 to 40 wt% Cu, 10 to 40 wt% Sn, 10 to 20 wt% Ni, 10 to 30 wt% Fe, 10-10 wt% of W, 10-25 wt% of Co, and 3-15 wt% of Ag are contained, and the Sn component of the metal binder is made of a sintered metal friction material or the like blended with Cu-Sn alloy powder.

In another embodiment, the inner diameter of the insert 30 coupling hole 31 is formed with an annular projection 32 and the projection 21 of the friction pad 20 is formed with an annular groove 23 is formed inside the annular groove When the annular projection is inserted into the annular groove by joining an elastic material layer made of synthetic resin such as heat resistant Teflon coated with an elastic material, the annular groove is more firmly coupled by the elastic force of the elastic material layer and the elastic force is between the disc and the insert. Insane, discs, inserts, friction pads are firmly combined.

The grooves and inserts of the disk and the protrusions of the friction pad are formed in a plurality of triangles are arranged in a triangular shape, and the grooves and inserts of the disk and the protrusions of the friction pad are formed at the center of the triangular arrangement The bonding force can be further strengthened.

The disk, insert, and friction pad joints are joined with a conventional adhesive.

Therefore, the present invention is alumina insert between the aluminum disk and the friction pad is combined to withstand well at high heat or high speed, there is a significant effect that the bond is firm.

10: disc 20: friction pad
11: home 21: protrusion
23: annular groove
30: insert 31: coupling sphere
32: annular protrusion

Claims (3)

In the aluminum disk and the friction pad coupling structure in which the material of the disk 10 is made of aluminum and the friction pad 20 is installed on one surface of the disk 10,
Grooves 11 are formed on the rear surface of the disk 10, and projections 21 are formed on the front surface of the friction pad 20 so that the projections 21 are inserted into the grooves 11 of the disk 10. Will be
Insert 30 is formed between the disk 10 and the friction pad 20,
The insert 30 is formed by pressing and sintering alumina particles in a mold. The insert 30 is formed in the shape of a disk, and has a cylindrical coupling hole 31 formed therein, which is smaller than the diameter of the disk groove 11 and a friction pad. It is formed larger than the diameter of the protrusion 21 of the (20) so that the coupling hole 31 is coupled to the groove 11 of the disk 10, the projection 21 of the friction pad inside the cylindrical coupling hole 31 ) Is inserted and combined,
The disk 10 is to be produced by cutting or casting,
The inner diameter of the insert 30 coupling hole 31 is formed with an annular projection 32, the projection 21 of the friction pad 20 is formed with an annular groove 23, the inside of the annular groove 23 Is bonded to the elastic material layer of heat-resistant synthetic resin material coated with an elastic material, the annular groove 23 is more firmly by the elastic force of the elastic material layer when the annular projection 32 is inserted into the annular groove 23 The elastic force is also coupled between the disk 10 and the insert 30 so that the disk 10, the insert 30, the friction pad 20 is firmly coupled,
The groove 11 of the disk 10, the coupling hole 31 of the insert 30, and the projections 21 of the friction pad 20 are formed in a plurality and arranged in a triangular shape, the triangular shape The groove 11 of the disk 10, the coupling hole 31 of the insert 30, and the projection 21 of the friction pad 20 are formed inside the central portion to further strengthen the coupling force. ,
The disk 10, the insert 30, the friction pad 20, the joint portion of the aluminum disk and the friction pad coupling structure, characterized in that bonded to the adhesive


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