KR100780379B1 - Piston for swash plate type compressor - Google Patents

Abstract

A piston for a swash plate type compressor is provided to engage a shoe socket having an engaging protrusion into a hollow body part of the piston, thereby stably joining shoe socket to the body part without any additional welding. A piston for a swash plate type compressor includes a body part(110) having a groove(111) opened at a side and a fixing groove(112) formed in an inner peripheral surface of the opened groove. A shoe socket(120) has an insertion part(121) to be inserted into the opened groove of the body part, and a fitting protrusion(122) formed outside the insertion part to be fastened in the engaging groove. A welding part is formed along an outer peripheral surface of contact portions between the body part and the shoe socket, wherein the welding part is formed along a clearance of the outer peripheral surface.

Description

Piston for compressor {PISTON FOR SWASH PLATE TYPE COMPRESSOR}

1 is a cross-sectional view showing the structure of a compressor.

2 is a cross-sectional view showing a conventional piston for a compressor.

Figure 3 is a cross-sectional view showing another conventional piston for the compressor.

Figure 4 is an exploded perspective view showing a first embodiment of a piston for a compressor according to the present invention.

5 is a cross-sectional view of FIG. 4.

Figure 6 is a cross-sectional view showing that the welding portion and the O-ring is installed in the piston for the compressor of the present invention.

Figure 7 is an exploded perspective view showing a second embodiment of a piston for a compressor according to the present invention.

8 is a cross-sectional view of FIG.

Figure 9 is a cross-sectional view showing the welding portion and the O-ring is installed in the piston for the compressor according to the present invention.

<Explanation of symbols for the main parts of the drawings>

100: hollow piston 110: body

111, 111 ': Open groove 112, 112': Fixed groove

113, 113 ': first slope 114, 136: insertion groove

120: shoe socket member 121, 131: insertion portion

122, 132: locking jaw 123, 133: second slope

124, 134: third inclined plane 125, 135: concave

130: finishing cap 140: weld

150: O-ring

The present invention relates to a piston for a compressor, and more particularly, by inserting a shoe socket formed with a locking jaw in a piston having a reciprocating hollow in a cylinder bore, the shoe socket can be more easily coupled to the piston, and a firm fixing force. It relates to a piston for the compressor to have a.

In general, a compressor is a mechanical device that increases pressure by receiving power from a power generator such as an electric motor or a turbine and compressing air, a refrigerant, or other special gases, and is currently widely used throughout the industry.

Among them, compressors, which are widely used in air conditioners for automobiles, have a disk-shaped swash plate having a fixed inclination angle fixedly installed on a drive shaft receiving engine power, rotate by a drive shaft, and rotate the swash plate by the rotation of the swash plate. Accordingly, a plurality of pistons installed through a shoe are configured to suck, compress and discharge the refrigerant gas by linearly reciprocating the inside of the plurality of cylinder bores formed in the cylinder block.

In particular, in recent years, the inclination angle of the swash plate is changed according to the change of the heat load to achieve precise temperature control by controlling the feed amount of the piston, and the inclination angle is continuously changed to reduce the sudden torque fluctuation of the engine by the compressor, thereby making the vehicle comfortable A variable-capacity swash plate type compressor capable of improving the efficiency has been proposed.

An example of such a compressor (Japanese Patent Laid-Open Publication No. 1999-336657) is shown in FIG. 1, which will be described in detail with reference to FIG. 1.

As shown in FIG. 1, the compressor includes a cylinder block 10 having a plurality of cylinder bores 11 formed in parallel in a longitudinal direction on an inner circumferential surface thereof, and a front housing hermetically coupled to the front of the cylinder block 10. 20 and a rear housing 30 which is hermetically coupled via a valve plate 35 at the rear of the cylinder block 10.

The swash plate chamber 21 is provided inside the front housing 20, and the drive shaft 40 is disposed through the swash plate chamber 21. One end of the drive shaft 40 is rotatably supported via a bearing in the center of the front housing 20, while the other end of the drive shaft 40 is supported via a bearing in the center shaft hole of the cylinder block 10. do.

In addition, the drive shaft 40, the lug plate 50 is fixedly installed, the lug plate 50 is provided with a swash plate 60 is changed in the inclination angle while rotating, the shaft hole of the cylinder block 10 and A spring 61 for elastically supporting the swash plate 60 is interposed between the swash plates 60.

Accordingly, when the drive shaft 40 rotates, the swash plate 60 is rotated in the inclined state by the lug plate 50, and the pistons 70 inserted through the shoe 80 on the outer circumferential surface thereof are inserted into the cylinder block ( In each cylinder bore 11 of 10) is reciprocated.

In addition, a suction chamber 31 and a discharge chamber 32 are respectively formed in the rear housing 30, and each cylinder bore is provided in the valve plate 35 interposed between the rear housing 30 and the cylinder block 10. Intake and discharge ports are respectively formed at positions corresponding to (11).

Each inlet and outlet of the valve plate 35 is provided with a suction lead and an outlet lead for opening and closing the inlet and the outlet by a pressure change according to the reciprocating motion of the piston 70.

However, there is a problem of lowering the rotational force of the drive shaft 40 by the weight of the piston 70 of the compressor, and also has a problem of lowering the compression efficiency of the compressor.

In order to solve the above problems, the piston of the compressor is made of a lightweight material, and in recent years to produce a more lightweight piston by having a hollow inside.

The piston having a hollow has been disclosed in Japanese Patent Application No. 2001-382433 (hereinafter referred to as Prior Art 1).

In the prior art 1, as shown in FIG. 2, a shoe socket part 3 made of an Si-based forging aluminum alloy and a cylindrical part 2 made of a duralumin based aluminum alloy or an ultra duralumin based aluminum alloy are welded. It is fixed.

That is, the shoe socket 3 is coupled to the outer circumferential surface of the cylindrical portion 2 having the hollow by welding to seal the hollow of the cylindrical portion 2.

However, the prior art 1 has a problem that the welding operation must be performed essentially, there is a problem that must be provided with a separate equipment required for the welding operation.

In addition, there was a problem in that a lot of work time and expenses are spent because the stress removal and post-treatment process must be performed separately after the welding operation, and in addition, the cylindrical part 2 and the shoe socket part 3 are welded by the worker. There was a hassle to get the job done.

In order to solve the above problems, Japanese Patent Application No. 2000-041659 (Prior Art 2) has been disclosed.

The prior art 2, as shown in Figure 3, to form a small diameter portion 198 protruding outward on one side of the cap 164 to be fitted to the inner peripheral surface 178 of the cylindrical portion 170, the small By coupling the neck 198 to the inner circumferential surface 178 and then fixing it by welding, the coupling 198 has ease of coupling.

However, the prior art 2 also has a problem that the welding operation is essentially the same as the prior art 1, there is a problem that the welding equipment and the work time, a lot of expenses are spent accordingly.

The present invention has been made in order to solve the above problems, an object of the present invention, by engaging the shoe socket formed with a locking jaw in the interior of the body having a hollow forming a piston for the compressor body and shoes without additional welding work It is to be able to fix the socket firmly.

Still another object is to form an inclined vertical surface in which the body and the shoe socket are in close contact with each other so as to improve the sealing force through the inclined surface in close contact with each other.

Still another object is to weld the close contact portion where the body and the shoe socket are in close contact to further improve the bonding force and the sealing force.

Another object is to install an O-ring on the outer peripheral surface of the body to seal the gap between the body and the cylinder bore.

Piston for compressor of the present invention for achieving the above object,
In the piston for the compressor reciprocating in the cylinder bore of the cylinder block as the swash plate rotates, the piston has a body having an open groove to open in one direction and a fixed groove is formed on the inner peripheral surface of the open groove; ; It has an insertion portion that is inserted into the opening of the body, the outer surface of the insert is composed of a shoe socket member formed with a locking jaw to be locked to the fixing groove, the contact portion where the body and the shoe socket member is in close contact with the outer peripheral surface The welding part is formed, wherein the welding part is formed along a gap formed on the outer circumferential surface of the close contact portion where the body and the shoe socket member are in close contact.

In addition, in the piston for the compressor reciprocating in the cylinder bore of the cylinder block as the swash plate rotates, the piston is provided with a shoe socket member on one side and an open groove on the other side and the inner peripheral surface of the open groove A body having a fixing groove formed therein; It has an insertion portion that is inserted into the opening of the body, the outer end is composed of a closing cap formed with a locking jaw to be locked to the fixing groove, the welding portion along the outer peripheral surface in close contact with the body and the closing cap is in close contact Is formed, the welding portion is characterized in that it is formed along the gap formed on the outer peripheral surface of the close contact portion where the body and the closing cap is in close contact.

Here, the first inclined surface is formed on the upper end of the opening groove along the inner circumferential surface, and the second inclined surface is formed along the outer circumferential surface on the lower end of the insert so as to be in close contact with the first inclined surface of the open groove.

In addition, it may be possible to form a third inclined surface on the outer circumferential surface of the locking projection formed in the insertion portion to have a smaller cross-sectional diameter toward the end, and the insertion portion may be formed with a recess in the open groove direction.

Here, the insertion groove is formed on the outer circumferential surface of the body or the outer circumferential surface of the closing cap, it will be possible that the O-ring is installed in the insertion groove.

Hereinafter, a first embodiment of the present invention will be described in detail with reference to FIGS. 4 to 6.

As shown in FIG. 1, the compressor of the present invention includes a cylinder block 10 having a plurality of cylinder bores 11 and a front side disposed at one end of the cylinder block 10 to form a swash plate chamber 21. A rear housing having a housing 20 and a suction chamber 31 and a discharge chamber 32 disposed at the rear end of the cylinder block 10 and communicating with the cylinder bore 11 through an intake / discharge valve. 30, a drive shaft 40 rotatably coupled to the front housing 30, and a lug plate 50 fixed to the drive shaft 40 in the swash plate chamber 21 of the front housing 20. And, the swash plate 60 is rotated by the lug plate 50, the inclination angle is changed, and the swash plate 60 is slidably coupled with the swash plate 60 to be reciprocated in the cylinder bore 11 to be accommodated It is configured to include a piston (70).

On the other hand, in the present invention to form a hollow inside the piston 70, the hollow piston 100 is slidably inserted into the cylinder bore 11 of the cylinder block 10, as shown in FIG. And a shoe socket member 120 coupled to the end of the swash plate 60 and the body 110 having a hollow therein, and the shoe socket member 120 is not detached from the hollow of the body 110. To be combined.

The body 110 has a cylindrical shape so as to be in close contact with the inner circumferential surface of the cylinder bore 11, the opening groove 111 is formed to open in one direction, the fixing groove (on the upper inner circumferential surface of the opening groove 111) ( 112 is formed.

The shoe socket member 120 has an insertion portion 121 to be inserted into the opening groove 111 of the body 110, the locking jaw to be caught in the fixing groove 112 on the outside of the insertion portion 121. A 122 is formed, and the shoe socket member 120 is fixed to the body 110 through the locking jaw 122.

Here, as shown in FIG. 5, the first inclined surface 113 is formed to be opened outward along the inner circumferential surface between the outer surface of the open groove 111 and the upper end of the fixing groove 112 of the body 110. The second inclined surface 123 is formed along the outer circumferential surface of the insertion part 121 of the shoe socket member 120 to be in close contact with the first inclined surface 113 between the engaging jaw 122 and the stepped 126. .

In addition, a third inclined surface 124 is formed on the outer circumferential surface of the locking jaw 122 so that the cross-sectional diameter decreases toward the end, and the locking jaw 122 is opened through the third slope 124. When inserted into the) is guided along the first inclined surface 113 to prevent damage and noise caused by friction.

Accordingly, when the insertion portion 121 of the shoe socket member 120 is inserted into the opening groove 111 of the body 110, the third slope 124 is guided along the first slope 113. The locking jaw 122 is continuously caught in the fixing groove 112 so that the shoe socket member 120 is fixed to the body 110.

At this time, the first inclined surface 113 of the body 110 and the second inclined surface 123 of the shoe socket member 120 are in close contact with each other to improve the sealing force.

Here, the recess 125 is formed inside the insertion portion 121 of the shoe socket member 120, and the weight is reduced and the material cost is significantly reduced through the recess 125.

In addition, as shown in FIG. 6, the close contact portion where the body 110 and the shoe socket member 120 are closely contacted (as seen in FIG. 6, the body 110 and the shoe socket member 120 are vertically closely contacted. The welded portion 140 is formed along the outer circumferential surface thereof, and the bonding force and the sealing force of the body 110 and the shoe socket member 120 are improved through the welded portion 140.

More preferably, a gap is formed along the outer circumferential surface of the contact portion where the body 110 and the shoe socket member 120 are in close contact with each other, and the weld 140 is formed by forming the gap 140 along the gap. As it is filled in, the bonding force and the sealing force are further improved.

In addition, the outer peripheral surface of the body 110 is formed with an insertion groove 114, the O-ring 150 is installed in the insertion groove 114 is the body 110 and the cylinder bore 11 through the O-ring 150 To seal the gap between them.

7 to 9 show a second embodiment of the hollow piston for the compressor of the present invention.

Hereinafter, in describing the second embodiment of the present invention, the same parts as in the first embodiment will be denoted by the same reference numerals, and redundant description thereof will be omitted.

As shown in FIG. 7, the hollow piston 100 ′ according to the second embodiment is slidably inserted into the cylinder bore 11 of the cylinder block 10 and has a hollow 110 ′ therein; Shoe socket member 120 'coupled to the end of the swash plate 40 and the closing cap 130 is to close the hollow of the body (110').

The body 110 ′ is integrally formed with the shoe socket member 120 ′ on one side thereof, and an opening groove 111 ′ is formed on the other side to open outward, and the opening groove 111 ′ of the body 110 ′ is formed. A fixing groove 112 'is formed on an inner circumferential surface, and a first inclined surface 113' is formed between the fixing groove 112 'and an outer surface of the opening groove 111'.

The closing cap 130 has an insertion portion 131 which is inserted into the opening groove 111 'of the body 110', so as to be locked to the fixing groove 112 'on the outside of the insertion portion 131. A locking jaw 132 is formed so that the closing cap 130 is fixed to the body 110 'as the locking jaw 132 is locked to the fixing groove 112'.

In addition, a first inclined surface 113 'is formed to be opened outwardly along an inner circumferential surface between an outer surface of the opening groove 111' and an upper end of the fixing groove 112 '. A second inclined surface 133 is formed along the outer circumferential surface to be in close contact with the first inclined surface 113 ′.

In addition, a third inclined surface 134 is formed on the outer circumferential surface of the locking jaw 132 and the cross section diameter decreases toward the end, and the locking jaw 132 is opened through the third slope 134. When inserted into ') is guided along the inclined surface to prevent damage and noise caused by friction.

Here, the insertion portion 131, the locking step 132, the second slope 133 and the third slope 134 of the closing cap 130 is the insertion portion 121 of the shoe socket member 120 of the first embodiment ), The locking jaw 122, the second inclined surface 123 and the third inclined surface 124 has the same configuration and function, so detailed description thereof will be omitted.

Therefore, when the insertion portion 131 of the closing cap 130 is inserted into the opening groove 111 'of the body 110', the third slope 134 'is guided along the first slope 113'. The locking jaw 132 'is continuously caught by the fixing groove 112' so that the closing cap 130 is fixed to the body 110 '.

At this time, the first inclined surface 113 ′ of the body 110 ′ and the second inclined surface 133 of the closing cap 130 are in close contact with each other in an indented state, thereby improving sealing force.

Here, the recess 135 is formed inside the insertion portion 131 of the closing cap 130, the weight is reduced and the material cost is significantly reduced through the recess 135.

In addition, as shown in FIG. 9, the body 110 ′ and the close cap 130 are in close contact with each other (as seen in FIG. 9, the body 110 ′ and the close cap 130 are vertically in close contact with each other. The welded portion 140 'is formed along the outer circumferential surface, and the bonding force and the sealing force of the body 110' and the closing cap 130 are improved through the welded portion 140 '.

More preferably, the welding portion 140 'is formed by forming a gap along an outer circumferential surface at a close contact portion where the body 110' and the closing cap 130 are in close contact, and forming a welding portion 140 'along the gap. As the gap is filled, the bonding force and the sealing force are further improved.

In addition, an insertion groove 136 is formed on an outer circumferential surface of the closing cap 130, and an O-ring 150 is installed in the insertion groove 136 to allow the body 110 ′ and the cylinder bore through the O-ring 150. The gap between 11 is sealed.

The present invention configured as described above has an effect that can be easily coupled to the body and the shoe socket member or the closing cap by inserting the locking jaw of the shoe socket member or the closing cap to the body having a hollow forming the piston for the compressor.

In addition, there is an effect that can improve the sealing force of the opening groove formed in the interior of the body by inclining the vertical surface in close contact with the body and the shoe socket member or the closing cap.

In addition, there is an effect that can improve the bonding force and the sealing force by welding the close contact between the body and the shoe socket member or the closing cap, and furthermore, by forming a gap in the close contact and welding through the gap to bond and seal There is an effect that can be improved more.

In addition, by installing the O-ring on the outer peripheral surface of the body or the closing cap has the effect of improving the sealing force when installed in the cylinder bore.

Claims (8)

In the piston for the compressor reciprocating in the cylinder bore of the cylinder block as the swash plate rotates, The piston has a body having an open groove to open in one direction and the fixing groove is formed on the inner circumferential surface of the open groove; It is composed of a shoe socket member having an insertion portion inserted into the opening groove of the body, the engaging jaw is formed to be caught in the fixing groove on the outside of the insertion portion, The contact portion where the body and the shoe socket member is in close contact with the surface is welded along the outer circumference, The welding unit is a piston for a compressor, characterized in that formed along the gap formed on the outer peripheral surface of the close contact with the body and the shoe socket member. In the piston for the compressor reciprocating in the cylinder bore of the cylinder block as the swash plate rotates, The piston, the body having a shoe socket member on one side and forming an open groove on the other side and the fixing groove is formed on the inner circumferential surface of the open groove; It has an insertion portion that is inserted into the opening groove of the body, consisting of a closing cap formed with a locking jaw to be caught in the fixing groove on the outside of the insertion portion, The close contact portion is in close contact with the body and the closing cap is formed along the outer peripheral surface, The welding unit is a piston for a compressor, characterized in that formed along the gap formed on the outer peripheral surface of the close contact portion where the body and the closing cap is in close contact. The method according to claim 1 or 2, A first inclined surface is formed at an upper end of the open groove along an inner circumferential surface, and a second inclined surface is formed along an outer circumferential surface at a lower end of the insertion part to be in close contact with the first inclined surface of the open groove. The method of claim 3, wherein Compressor piston, characterized in that the outer circumferential surface of the locking step formed in the insertion portion is formed with a third inclined surface is smaller in cross-sectional diameter toward the end. The method of claim 4, wherein Compressor piston characterized in that the insertion portion is formed with a recess in the direction of the opening groove. delete delete The method of claim 2, Insertion groove is formed in the outer peripheral surface of the closing cap, the piston for the compressor, characterized in that the O-ring is installed in the insertion groove.

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