KR102138568B1 - Compressor - Google Patents

Abstract

The present invention relates to a compressor, the casing having a discharge space; A compression mechanism for compressing refrigerant and discharging it to the discharge space; A pressure relief valve for discharging the gas in the discharge space to the outside of the casing when the pressure in the discharge space becomes higher than a predetermined pressure; And discharge direction adjusting means formed on the downstream side of the pressure relief valve to control the discharge direction of the gas discharged from the pressure relief valve, wherein the discharge direction adjusting means is formed to be directly coupled to the pressure relief valve. Can. Accordingly, when the pressure in the discharge space is higher than a predetermined pressure, the gas in the discharge space can be discharged, the gas discharge direction can be adjusted, and the manufacturing cost and manufacturing time required for it can be reduced, and productivity can be reduced. Can be improved. In addition, even after adjusting the discharge direction of the gas, the discharge direction of the gas can be easily adjusted again.

Description

Compressor {COMPRESSOR}

The present invention relates to a compressor, and more particularly, to a compressor that allows the gas in the discharge space to be discharged when the pressure in the discharge space becomes higher than a predetermined pressure.

Generally, an air conditioner (A/C) for indoor air conditioning is installed in a vehicle. Such an air conditioning system includes a compressor that compresses a low-temperature, low-pressure gaseous refrigerant drawn from an evaporator into a high-temperature and high-pressure gaseous refrigerant and sends it to a condenser as a cooling system.

Compressors include a reciprocating type for compressing refrigerant according to the reciprocating motion of a piston and a rotating type for performing compression while rotating.

In the reciprocating type, there are a crank type that uses a crank to transfer a plurality of pistons according to a transmission method of a drive source, and a swash plate type that transmits to a rotating shaft provided with a swash plate. In the rotary type, a rotary rotary shaft and a vane rotary type using vanes, There is a scrolling type using orbiting scroll and fixed scroll.

Such a compressor usually includes a casing and a compression mechanism provided inside the casing.

The compressor mechanism is formed to suck and compress the refrigerant and then discharge it to the discharge space provided inside the casing.

On the other hand, the compressor may further include a pressure relief valve for discharging the gas in the discharge space to the outside of the casing when the pressure in the discharge space becomes higher than a predetermined pressure for securing the safety of the compressor.

Korean Patent Publication No. 10-2012-0090640 discloses a compressor including a pressure relief valve.

Referring to FIGS. 1 to 3 of Korean Patent Publication No. 10-2012-0090640, a compressor according to an exemplary embodiment includes a pressure relief valve 90 for discharging gas in a discharge space.

The compressor according to the conventional embodiment according to this configuration can prevent the pressure of the discharge space from being higher than a predetermined pressure through the pressure relief valve 90.

However, in the compressor according to this conventional embodiment, the discharge direction of the gas discharged from the pressure relief valve 90 is fixed, and when the discharge direction is toward the high temperature side, for example, the exhaust manifold of the engine There was a problem in that fire occurred due to ignition of oil contained in the gas, and when changing the discharge direction, there was a problem in that the casing equipped with the pressure relief valve had to be changed.

Meanwhile, referring to FIGS. 4 to 8 of Korean Patent Publication No. 10-2012-0090640, a compressor according to another conventional embodiment may include a pressure relief valve 190 and gas discharged from the pressure relief valve 190. It includes a change plate 150 for adjusting the discharge direction and a snap ring 157 for fixing the change plate 150 to the pressure relief valve 190.

Compressor according to another conventional embodiment according to this configuration, while preventing the pressure of the discharge space is higher than a predetermined pressure through the pressure relief valve 190, the pressure relief through the change plate 150 By changing the discharge direction of the gas discharged from the valve 190, it is possible to solve the problem of the compressor according to the above-described conventional embodiment.

However, in the compressor according to another exemplary embodiment of the related art, there is a problem in that manufacturing cost and manufacturing time required to control the discharge direction of the gas discharged from the pressure relief valve are increased and productivity is deteriorated. That is, the number of parts is increased as the snap ring should be provided, and the snap ring must be opposed to the change plate and then forcedly inserted into the coupling groove of the pressure relief valve while the change plate is seated in the mounting groove of the pressure relief valve. , The manufacturing process becomes complicated, and the assemblability deteriorates, and the cost and time required for manufacturing deteriorate.

In addition, the change plate fixed by the snap ring was difficult to adjust the position of the change plate after being fastened once by the strong fastening force of the snap ring. Accordingly, it is possible to control the gas discharge direction only once, and further, there is a problem in that it is difficult to control the gas discharge direction.

Republic of Korea Patent Publication No. 10-2012-0090640

Therefore, the present invention, when the pressure of the discharge space is higher than a predetermined pressure, the gas in the discharge space can be discharged, the discharge direction of the gas can be adjusted, and the manufacturing cost and manufacturing time required for it can be reduced. It is an object of the present invention to provide a compressor capable of improving productivity.

In addition, another object of the present invention is to provide a compressor capable of easily adjusting the discharge direction of the gas again after adjusting the discharge direction of the gas.

The present invention, in order to achieve the above object, a casing having a discharge space; A compression mechanism for compressing refrigerant and discharging it to the discharge space; A pressure relief valve for discharging the gas in the discharge space to the outside of the casing when the pressure in the discharge space becomes higher than a predetermined pressure; And a discharge direction adjusting means formed on a downstream side of the pressure relief valve to control a discharge direction of gas discharged from the pressure relief valve, wherein the discharge direction adjusting means is directly coupled to the pressure relief valve. It provides a compressor.

The pressure relief valve includes a valve outlet through which gas is discharged, and the discharge direction adjusting means is formed in a plate shape that can be inserted into the valve outlet, and a fastening groove into which an outer circumferential portion of the discharge direction adjusting means is inserted into an inner circumferential surface of the valve outlet. This is formed, it can be formed to be engaged with the fastening groove when the discharge direction adjusting means is inserted into the fastening groove.

When the direction in which the discharge direction adjusting means is inserted into the valve outlet is referred to as a first direction, and the direction opposite to the first direction is referred to as a second direction, the outer peripheral portion of the discharge direction adjusting means is a radial direction of the discharge direction adjusting means. It may be inclined toward the second direction toward the outside.

The fastening groove may include a first fastening surface positioned on a first direction side based on the discharge direction adjusting means; And a second fastening surface positioned on a second direction side based on the discharge direction adjusting means, wherein the first fastening surface is formed to be inclined toward the second direction toward the radially outer side of the discharge direction adjusting means, The second fastening surface may be formed in a direction perpendicular to the first direction and the second direction.

The discharge direction adjusting means and the fastening groove may be formed such that the discharge direction adjusting means is rotated inside the fastening groove and controls the flow direction of gas.

The discharge direction adjusting means may be formed in a disc shape, and the fastening groove may be formed in an annular extension along the inner circumferential surface of the valve outlet.

When the direction in which the discharge direction adjusting means is inserted into the valve outlet is referred to as a first direction, and the direction opposite to the first direction is referred to as a second direction, the center of the discharge direction adjusting means is concave or second in the first direction. It may be formed concave in the direction.

The discharge direction adjusting means includes a discharge direction adjusting mechanism for guiding the gas discharged from the valve outlet to the outside of the casing, and the discharge direction adjusting means may be formed at the center of the discharge direction adjusting means.

The discharge direction adjusting mechanism may be formed at a position spaced apart from the center of the discharge direction adjusting means in the radial direction outside of the discharge direction adjusting means.

The discharge direction adjusting device may be formed through the discharge direction adjusting means in a direction inclined to the first direction and the second direction.

The discharge direction control means may be formed of a material having a predetermined elastic modulus range.

The compressor according to the present invention, the casing having a discharge space; A compression mechanism for compressing refrigerant and discharging it to the discharge space; A pressure relief valve for discharging the gas in the discharge space to the outside of the casing when the pressure in the discharge space becomes higher than a predetermined pressure; And discharge direction adjusting means formed on the downstream side of the pressure relief valve to control the discharge direction of the gas discharged from the pressure relief valve, wherein the discharge direction adjusting means is formed to be directly coupled to the pressure relief valve. Can. Accordingly, when the pressure in the discharge space is higher than a predetermined pressure, the gas in the discharge space can be discharged, the gas discharge direction can be adjusted, and the manufacturing cost and manufacturing time required for it can be reduced, and productivity can be reduced. Can be improved.

In addition, even after adjusting the discharge direction of the gas, the discharge direction of the gas can be easily adjusted again.

1 is an exploded perspective view showing a compressor according to an embodiment of the present invention,
Figure 2 is a cross-sectional view showing a pressure relief valve and the discharge direction adjusting means in the compressor of Figure 1,
3 is a cross-sectional view showing a pressure relief valve and a discharge direction adjusting means in a compressor according to another embodiment of the present invention,
Figure 4 is a perspective view showing the discharge direction control means of Figure 3;

Hereinafter, a compressor according to the present invention will be described in detail with reference to the accompanying drawings.

1 is an exploded perspective view showing a compressor according to an embodiment of the present invention, and FIG. 2 is a cross-sectional view showing a pressure relief valve and a discharge direction adjusting means in the compressor of FIG. 1.

1 and 2, the compressor according to an embodiment of the present invention may include a casing 1 and a compressor mechanism provided inside the casing 1 to compress refrigerant.

A compression chamber in which refrigerant compression is generated is provided inside the compression mechanism, and an inside of the casing (1) is a suction space in which refrigerant to be introduced into the compression chamber is temporarily stored, and a discharge in which refrigerant discharged from the compression chamber is temporarily stored. Space may be provided.

In the compressor according to this configuration, when the compressor mechanism is driven, refrigerant is introduced into the suction space through a refrigerant suction pipe communicating with the casing (1), and refrigerant in the suction space is introduced and compressed into the compression chamber and compressed. The refrigerant is discharged from the compression chamber to the discharge space, and the refrigerant in the discharge space can be discharged to a vapor compression type refrigeration cycle including the compressor through a refrigerant discharge pipe communicating with the casing (1).

On the other hand, the oil for lubrication of the compressor is contained in the refrigerant and is moved to the suction space, the compression chamber and the discharge space together with the refrigerant, lubricates various sliding parts, and is separated from the refrigerant in the discharge space to the suction space Can be restored.

Here, when the pressure of the discharge space is higher than the predetermined pressure, the safety and reliability of the compressor are deteriorated. In consideration of this, the compressor according to the present embodiment considers the discharge space when the pressure of the discharge space is higher than the predetermined pressure. A pressure relief valve (3) for discharging the refrigerant (more precisely, as a refrigerant containing oil, hereinafter referred to as gas) into the outer space (hereinafter, the outer space) of the casing 1 is further provided. It can contain.

The pressure relief valve 3 may include a valve housing 32 forming the exterior of the pressure relief valve 3 and a valve body 34 provided inside the valve housing 32.

The valve housing 32 may be fastened to one side of the casing 1 by, for example, a screw coupling method.

In addition, the valve housing 32 includes a valve seal 314 formed in a hollow shape inside the valve housing 32, a valve inlet 312 communicating the discharge space with the valve seal 314, and the A valve outlet 316 communicating the valve chamber 314 with the external space may be included.

The valve body 34 is reciprocated within the valve chamber 314 and can be formed to open and close the valve inlet 312.

Meanwhile, an elastic body 36 that presses the valve body 34 toward the valve inlet 312 may be formed in the valve chamber 314.

In the pressure relief valve 3 according to this configuration, when the pressure of the discharge space is equal to or less than a predetermined pressure, the elastic body 36 is the valve rather than the force that the gas in the discharge space exerts on the valve body 34. The force applied to the body 34 becomes large, and the valve body 34 is moved toward the valve inlet 312, so that the valve inlet 312 can be closed by the valve body 34. Accordingly, the gas in the discharge space cannot be discharged to the external space.

On the other hand, when the pressure of the discharge space becomes higher than a predetermined pressure, the force exerted by the gas in the discharge space on the valve body 34 is greater than the force exerted by the elastic body 36 on the valve body 34. And, the valve body 34 is moved to the valve outlet 316 side, the valve inlet 312 may be opened. Accordingly, the gas in the discharge space is discharged to the external space through the valve inlet 312, the valve seal 314 and the valve outlet 316, and the pressure in the discharge space can be reduced. Then, when the pressure of the discharge space is equal to or less than a predetermined pressure, the valve inlet 312 is closed again by the valve body 34, and the gas of the discharge space is stopped from being discharged to the external space. Can.

Here, when the gas discharged from the pressure relief valve 3 is discharged to a high temperature side, for example, an exhaust manifold of an engine, the oil contained in the gas may ignite and cause a fire, so this is to be prevented. The compressor according to the embodiment may further include a discharge direction adjusting means 4 formed on the downstream side of the pressure relief valve 3 to control the discharge direction of the gas discharged from the pressure relief valve 3.

The discharge direction adjusting means 4 may be formed in a plate shape that can be inserted into the valve outlet 316.

In addition, the discharge direction adjusting means 4 may be preferably formed in a disk shape so as to be rotatable inside the valve outlet 316 for controlling the discharge direction of the gas.

And, the discharge direction adjusting means 4, the discharge direction of the gas is easily turned, and the center 42 of the discharge direction adjusting means 4 is concavely formed to prevent deformation by the pressure of the gas Can be. That is, if the direction in which the discharge direction adjusting means 4 is inserted into the valve outlet 316 is referred to as a first direction D1, and a direction opposite to the first direction D1 is referred to as a second direction D2, , The central portion 42 of the discharge direction adjusting means 4 may be concave in the second direction D2.

And, the discharge direction means comprises a discharge direction adjusting mechanism 46 for guiding the gas discharged from the valve outlet 316 to the outside of the casing 1 and turning the discharge direction of the gas, the discharge direction The adjusting device 46 may be formed at the central portion 42 of the discharge direction adjusting means 4.

Here, the discharge direction adjustment mechanism 46, for the direction of the discharge direction of the gas, in the direction inclined to the first direction (D1) and the second direction (D2) from the center of the discharge direction control means (4) It may be formed through the discharge direction adjusting means (4). However, the discharging direction adjusting means 46 turns the gas discharging direction but can easily grasp the direction, as in this embodiment, the discharging direction adjusting means from the center of the discharging direction adjusting means 4 The discharge direction adjusting means (4) in a direction inclined to the first direction (D1) and the second direction (D2) in a direction spaced apart from the radial direction of (4) (preferably, a direction inclined toward the separation direction) It may be desirable to be formed through.

Meanwhile, a fastening groove 318 into which the outer circumferential portion 44 of the discharge direction adjusting means 4 is inserted may be formed on the inner circumferential surface of the valve outlet 316.

The fastening groove 318 may be formed to extend in an annular shape along the inner circumferential surface of the valve outlet 316 so that the discharge direction adjusting means 4 is rotatable inside the fastening groove 318.

Here, the discharge direction control means (4) and the pressure relief valve (3), it is possible to control the discharge direction of the gas, the manufacturing cost and manufacturing time required for it is reduced, and the pressure relief valve (3) to improve productivity It can be formed to be fastened directly. That is, for example, without a separate fastening member such as a snap ring, when the discharge direction adjusting means 4 is inserted into the fastening groove 318, it can be formed to be fastened to the fastening groove 318.

Further, the discharge direction adjusting means 4 is deformable to be inserted into the valve outlet 316 and the fastening groove 318, but is deformed by the pressure of gas or deviated from the valve outlet 316. To be prevented, it may be formed of a material having a predetermined elastic modulus range.

Then, the discharge direction adjusting means (4), the fastening groove 318 and the valve outlet 316 is effectively prevented from being separated from the outer circumferential portion (44) of the discharge direction adjusting means (4) to control the discharge direction It may be formed to be inclined toward the second direction (D2) toward the radially outer side of the means (4).

And, the discharge direction adjusting means (4) can be easily inserted into the fastening groove (318), the discharge direction adjusting means (4) is separated from the fastening groove (318) and the valve outlet (316) To be more effectively prevented, the fastening groove 318 has a first fastening surface 318a and a discharging direction adjusting means 4 located on a first direction D1 side based on the discharging direction adjusting means 4 It includes a second fastening surface 318b located on the second direction (D2) side with respect to, the first fastening surface 318a is the second direction toward the radially outer side of the discharge direction adjusting means (4) It is formed to be inclined toward the (D2) side, and the second fastening surface 318b may be formed in a direction perpendicular to the first direction D1 and the second direction D2.

According to this configuration, the compressor according to the present embodiment can prevent the fire by preventing the gas discharged from the pressure relief valve 3 toward the high temperature side by including the discharge direction adjusting means 4, It is not necessary to change the casing 1 to change the gas discharge direction.

And, as the discharge direction adjusting means 4 is directly fastened to the pressure relief valve 3 without a separate fastening member, it is possible to reduce manufacturing cost and manufacturing time required to control the gas discharge direction, and to increase productivity. Improve it.

And, as the discharge direction adjusting means 4 is rotatably formed even when fastened to the pressure relief valve 3, the discharge direction of the gas can be easily adjusted again even after adjusting the discharge direction of the gas. have.

Meanwhile, in the case of the present embodiment, the central portion 42 of the discharge direction adjusting means 4 is concavely formed in the second direction D2, but is not limited thereto. That is, as illustrated in FIGS. 3 and 4, the central portion 42 of the discharge direction adjusting means 4 may be concave in the first direction D1. In this case, the action and effect can be roughly the same as the above-described embodiment.

1: Casing 3: Pressure relief valve
4: Discharge direction control means 42: Central
44: outer periphery 46: discharge direction control
316: valve outlet 318a: first fastening surface
318b: Second fastening surface 318: Fastening groove
D1: First direction D2: Second direction

Claims (11)

A casing 1 having a discharge space;
A compression mechanism for compressing refrigerant and discharging it to the discharge space;
A pressure relief valve (3) for discharging the gas in the discharge space to the outside of the casing (1) when the pressure in the discharge space becomes higher than a predetermined pressure; And
It includes; discharge direction control means (4) formed on the downstream side of the pressure relief valve (3) to adjust the discharge direction of the gas discharged from the pressure relief valve (3),
The discharge direction adjusting means (4) is directly fastened to the pressure relief valve (3),
The pressure relief valve 3 includes a valve outlet 316 through which gas is discharged,
The discharge direction adjusting means (4) is formed in a plate shape that can be inserted into the valve outlet (316),
On the inner circumferential surface of the valve outlet 316, a fastening groove 318 into which the outer circumferential portion 44 of the discharge direction adjusting means 4 is inserted is formed,
Compressor characterized in that when the discharge direction adjusting means (4) is inserted into the fastening groove (318) and the fastening groove (318). delete According to claim 1,
If the direction in which the discharge direction adjusting means 4 is inserted into the valve outlet 316 is referred to as a first direction D1, and a direction opposite to the first direction D1 is referred to as a second direction D2,
The outer peripheral portion 44 of the discharge direction adjusting means (4) is a compressor that is formed to be inclined toward the second direction (D2) toward the radially outer side of the discharge direction adjusting means (4). According to claim 3,
The fastening groove 318,
A first fastening surface 318a positioned on the first direction D1 side based on the discharge direction adjusting means 4; And
It includes; a second fastening surface (318b) located on the second direction (D2) side relative to the discharge direction adjusting means (4);
The first fastening surface 318a is formed to be inclined toward the second direction D2 toward the radially outer side of the discharge direction adjusting means 4,
The second fastening surface 318b is a compressor formed in a direction perpendicular to the first direction D1 and the second direction D2. According to claim 1,
The discharge direction adjusting means (4) and the fastening groove (318) is a compressor that is formed so that the discharge direction adjusting means (4) is rotated inside the fastening groove (318) to control the flow direction of gas. The method of claim 5,
The discharge direction adjusting means (4) is formed in a disc shape,
The fastening groove 318 is formed in an annular extension along the inner circumferential surface of the valve outlet 316. The method of claim 6,
If the direction in which the discharge direction adjusting means 4 is inserted into the valve outlet 316 is referred to as a first direction D1, and a direction opposite to the first direction D1 is referred to as a second direction D2,
The central portion 42 of the discharge direction adjusting means 4 is formed in a concave in the first direction (D1) or concave in the second direction (D2). The method of claim 7,
The discharge direction adjusting means (4) includes a discharge direction adjusting mechanism (46) for guiding the gas discharged from the valve outlet (316) to the outside of the casing (1),
The discharge direction adjusting device 46 is a compressor formed in the central portion 42 of the discharge direction adjusting means (4). The method of claim 8,
The discharge direction adjusting mechanism (46) is formed at a position spaced apart from the center of the discharge direction adjusting means (4) radially outwardly of the discharge direction adjusting means (4). The method of claim 9,
The discharge direction adjusting device 46 is a compressor formed through the discharge direction adjusting means (4) in a direction inclined to the first direction (D1) and the second direction (D2). The method according to any one of claims 1, 3 to 10,
The discharge direction control means (4) is a compressor formed of a material having a predetermined elastic modulus range.

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