KR20160081580A - Manufacturing method for adhesive force reinforcement of a piston seal - Google Patents

Abstract

The present invention relates to a manufacturing method for reinforcing adhesion of a piston seal, capable of enhancing adhesion between sealing rubber and a reinforcement rim, comprising: a reinforcement rim inserting step of inserting a reinforcement rim (10) into a molding space (110) of a mold (100) (S10); a press surface treating step of treating one surface of a press (200) so as to be rough to form a rough surface (210) (S20); a reinforcement rim pressing step of pressing the reinforcement rim (10) with the rough surface (210) of the press (200) to form a rough adhesion surface (11) on the reinforcement rim (10) (S30); and a reinforcement rim attaching step of detaching the reinforcement rim (10) from the molding space (110) of the mold (100) and attaching the adhesion surface (11) of the reinforcement rim (10) to a sealing rubber (20) (S40).

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a piston seal,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a manufacturing method for reinforcing the adhesive force of a piston seal installed for automotive automotive mission oil leakage prevention.

The automotive automobile is equipped with components such as piston seal, balancer, snap ring, and coil spring. The piston seal seals the gap between the housing, clutch retainer, and piston to prevent loss of mission oil.

1 is a schematic view of a prior art piston seal;

As shown in Fig. 1, a piston seal 21 mounted on a clutch piston coupled to an automatic transmission of Japanese Patent Laid-Open No. 2009-085274, which is formed by press-formed metal ring 22 and metal ring 22, Wherein the metal ring 22 includes a tubular portion 23 which is fitted to the cylindrical peripheral surface of the piston 11 and a sealing rubber portion 31 which is opposed to the axial end surface of the piston 11 A piston seal for an automatic transmission having a flat surface portion (24), wherein a packing mounting hole (25) is provided in an inner end surface of a plane portion of the metal ring (22) facing an axial end surface of the piston The piston 11 and the metal ring 22 are sealed by attaching the packing 41 to the groove so that the outer surface of the flat surface portion 24 is exposed on the metal exposed surface (26) is provided as a pressed portion (27) at the time of assembling. The piston seal for an automatic transmission I had never been. Here, the metal ring can be said to be reinforced in other words.

The conventional technique has an advantage that the adhesion between the piston seal 21 and the piston 11 can be strengthened but the adhesive force between the sealing rubber 31 and the metal ring 22 is weak, There is a problem in that it is peeled off.

Therefore, there is a need to develop a manufacturing method for reinforcing the adhesion of various piston seals in order to solve the above-mentioned problems.

Japanese Patent Laid-Open No. 2009-085274 (Apr. 23, 2009)

SUMMARY OF THE INVENTION It is an object of the present invention to provide a manufacturing method for reinforcing the adhesive force of a piston seal which can improve the adhesion between a sealing rubber and a reinforcing frame.

The manufacturing method for reinforcing the adhesive force of the piston seal according to the present invention includes a reinforcing step (S10) for inserting the reinforcing frame (10) into the molding space (110) of the mold (100); A press surface treatment step S20 of roughening one side of the press 200 to form a rough surface 210; A reinforcing tape press step S30 of pressing the reinforcing frame 10 onto the rough surface 210 of the press 200 to form a rough surface 11 on the reinforcing frame 10, ; And a reinforcing tape adhering step S40 for adhering the reinforcing frame 10 to the sealing rubber 20 after the reinforcing frame 10 is detached from the molding space 110 of the mold 100 and then the bonding surface 11 of the reinforcing frame 10 is adhered to the sealing rubber 20 ); ≪ / RTI >

Also, the press surface treatment step S20 is characterized in that one surface of the press 200 is subjected to electric discharge machining or blast processing to form a rough surface 210.

The press surface treatment step S20 is characterized in that the surface roughness of the rough surface 210 is formed to be 20 占 퐉 to 100 占 퐉.

Further, the reinforcing frame 10 is made of a steel material.

The reinforcement tape adhering step S40 is characterized in that after the adhesive L is applied to the adhesive surface 11 of the reinforcing bar 10, the reinforcing tape adhering step S40 is bonded to the sealing rubber 20.

Accordingly, the manufacturing method for reinforcing the adhesive force of the piston seal according to the present invention has an effect of improving the adhesion between the sealing rubber and the reinforcing steel by bonding the reinforcing steel to the sealing rubber by forming a bonding surface to be roughened on the reinforcing steel .

1 is a schematic view of a prior art piston seal;
2 is a flowchart showing a manufacturing method for reinforcing the adhesive force of the piston seal according to the present invention
FIGS. 3 to 6 are schematic views showing steps of inserting the reinforcement tape into the reinforcing tape bonding step of the manufacturing method for reinforcing the adhesive force of the piston seal according to the present invention

Hereinafter, the technical idea of the present invention will be described more specifically with reference to the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are included to provide a further understanding of the technical concept of the present invention, are incorporated in and constitute a part of the specification, and are not intended to limit the scope of the present invention.

2 is a flowchart showing a manufacturing method for reinforcing the adhesive force of the piston seal according to the present invention.

As shown in FIG. 2, the manufacturing method for reinforcing the adhesive force of the piston seal according to the present invention includes a reinforcing tape inserting step (S10), a press surface treating step (S20), a reinforcing tape press step (S30) (S40).

FIGS. 3 to 6 are schematic views showing steps of inserting a reinforcement tape and reinforcing tape in the manufacturing method for reinforcing the adhesive force of the piston seal according to the present invention. Here, FIG. 3 shows the reinforcing tape inserting step S10, FIG. 4 shows the press surface treating step S20, FIG. 5 shows the reinforcing tape press step S30, and FIG. 6 shows the reinforcing tape sticking step S40.

As shown in FIG. 3, the reinforcing frame inserting step S10 inserts the reinforcing frame 10 into the molding space 110 of the mold 100.

At this time, the lubricant may be injected into the molding space 110 of the mold 100 so that the reinforcing frame 10 can be inserted into the molding space 110 of the mold 100 more easily.

As shown in FIG. 4, the press surface treatment step S20 roughly treats one side of the press 200 to form a rough surface 210.

At this time, a plurality of protrusions or a plurality of depressed grooves may be formed on the rough surface 210 of the press 200.

5, the reinforced tressing step S30 presses the reinforcing frame 10 onto the rough surface 210 of the press 200, thereby pressing the reinforcing frame 10 to the adhesive surface 10, (11).

The adhesive surface 11 of the reinforcing frame 10 is pressed 200 onto the roughened rough surface 210 of the press 200 so that the adhesive surface 11 of the reinforcing frame 10 is press- Is also roughly formed.

6, after the reinforcing frame 10 is detached from the molding space 110 of the mold 100, the reinforcing frame bonding step S40 may be performed after the attaching surface 11 of the reinforcing frame 10 Is attached to the sealing rubber (20).

At this time, since the adhesion surface 11 of the reinforcing frame 10 has a rough surface, the adhesion strength with the sealing rubber 20 can be increased.

Accordingly, in the manufacturing method for reinforcing the adhesive force of the piston seal according to the present invention, the adhesive surface 11 to be roughened on the reinforcing frame 10 is formed and adhered to the sealing rubber 20, The adhesive strength can be improved.

Meanwhile, in the pressing surface treatment step S20, one surface of the press 200 is subjected to electric discharge machining or blasting to form a rough surface 210. [

At this time, in the electric discharge machining, a pulse type discharge is generated from the electrode material of the green compact obtained by compression-molding a metal powder or a metal compound powder on one surface of the press 200, And the surface 210 is formed as a single surface of the substrate 210.

The blasting means that the rough surface 210 is formed by spraying a pressurized fluid containing sand, steel shot, grit, sand, or abrasive grains on one surface of the press 200.

Conventionally, chemical acid treatment has been performed to roughen one side of the press 200, but this has a problem in that the one side roughness of the press 200 can not be precisely adjusted to a specific value.

However, in the press surface treatment step S20 according to the present invention, one surface of the press 200 is subjected to electric discharge or blast processing to form the rough surface 210, whereby the surface roughness of the press 200 can be precisely adjusted to a specific value There is an advantage.

At this time, in the press surface treatment step (S20), the surface roughness of the rough surface 210 can be formed to be 20 mu m to 100 mu m.

In addition, the reinforcing frame 10 is preferably made of a steel material so as to prevent corrosion.

The reinforcing tape adhering step S40 may be performed after the adhesive L is applied to the adhesive surface 11 of the reinforcing bar 10 and then adhered to the sealing rubber 20. [

10: Reinforcing mesh
11: Adhesive surface
20: Sealing rubber
100: Mold
110: molding space
200: Press
210: rough surface

Claims (5)

A reinforcing frame inserting step (S10) of inserting the reinforcing frame (10) into the molding space (110) of the mold (100);
A press surface treatment step S20 of roughening one side of the press 200 to form a rough surface 210;
A reinforcing tape press step S30 of pressing the reinforcing frame 10 onto the rough surface 210 of the press 200 to form a rough surface 11 on the reinforcing frame 10, ; And
A reinforcing tape bonding step (S40) for bonding the reinforcing frame (10) to the sealing rubber (20) after the reinforcing frame (10) is detached from the molding space (110) of the mold (100) Wherein the piston seal has a first end and a second end.
The method of claim 1, wherein the press surface treatment step (S20)
Wherein one surface of the press (200) is subjected to an electric discharge machining or a blast machining to form a rough surface (210).
3. The method of claim 2, wherein the press surface treatment step (S20)
Wherein the surface roughness of the rough surface (210) is 20 占 퐉 to 100 占 퐉.
2. The apparatus according to claim 1, wherein the reinforcing frame (10)
Wherein the piston seal is made of a steel material.
The method according to claim 1, wherein the reinforcing tape adhering step (S40)
Characterized in that an adhesive agent (L) is applied to the adhesive surface (11) of the reinforcement frame (10) and then the adhesive is adhered to the sealing rubber (20).

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