KR101748295B1 - Cylinder block for swash plate type compressor - Google Patents

Abstract

SUMMARY OF THE INVENTION It is an object of the present invention to provide a cylinder block for a swash plate type compressor capable of blocking noise of a swash plate type compressor caused by a refrigerant in a liquid state. To this end, a cylinder block for a swash plate type compressor according to the present invention is a cylinder block for a swash plate type compressor, which is coupled with a housing having a suction chamber and a discharge chamber, comprising: a block body constituting a swash plate chamber, A plurality of main suction passages penetrating the block body in the longitudinal direction thereof and for guiding the refrigerant in the swash plate chamber to the suction chamber; A plurality of cylinder bores penetrating the block body in a longitudinal direction thereof and adapted to be inserted into the piston; And a shaft hole formed in the block body and into which a drive shaft is inserted, the plurality of main intake passages being located on the upper half of the block body or over the middle portion of the block body.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cylinder block for a swash plate compressor,

The present invention relates to a swash plate compressor used for automotive air conditioning and the like.

2. Description of the Related Art Generally, a swash plate type compressor is widely used as a compressor of an air conditioner for an automobile. A swash plate is installed on a shaft to rotate a shaft to convert a swash plate rotational motion into a reciprocating motion of a piston, And compression.

1 is a cross-sectional view schematically showing a general swash plate type compressor.

As shown in Fig. 1, a swash plate type refrigerant compressor 10 for an automobile as disclosed in Japanese Laid-Open Patent Publication No. 10-2014-0061168 is provided with a plurality of pistons 3 on the outer circumferential surface of a swash plate 2, And the plurality of pistons 3 reciprocally move in conjunction with the rotation of the swash plate 2 in the cylinder blocks 1a and 1b.

The cylinder blocks 1a and 1b are constituted by a front cylinder block 1a and a rear cylinder block 1b and each of the front cylinder block 1a and the rear cylinder block 1b is provided with a plurality of pistons 3 And has a plurality of cylinder bores 4a and 4b individually accommodated.

A swash plate chamber 5 is formed in the inner space of the front and rear cylinder blocks 1a, 1b so that the swash plate 2 can be rotated. A front housing 6 is provided in front of the front cylinder block 1a. At this time, a rear housing 7 is provided at the rear of the rear cylinder block 1b, and suction chambers 6a and 7a for sucking the refrigerant gas are disposed in the front housing 6 and the rear housing 7, respectively. a suction chamber and a discharge chamber 6b and 7b are partitioned by partition walls. Further, the rear housing 7 is provided with a suction port 8 and a discharge port 9, respectively.

The refrigerant introduced into the swash plate through the suction port 8 is guided to the rear housing 7 via the suction passage (see below 7a) of the rear housing 7 and the suction passage (see below 6a) of the front housing 6. [ And the suction chamber 6a of the front housing 6 and forcedly sucked into the respective cylinder bores 4a and 4b of the front and rear cylinder blocks 1a and 1b. The refrigerant sucked into each of the cylinder bores 4a and 4b is compressed in the corresponding cylinder bore by reciprocation of the piston 3 and is forcibly discharged to the discharge chambers 6b and 7b by the subsequent piston compression. ), The refrigerant flows out of the compressor and flows into the condenser (heat exchanger) of the next cycle.

2 is a view showing a conventional cylinder block for swash plate type compressor from a swash plate chamber (see 5 in Fig. 1).

2, the conventional cylinder block 10 for a swash plate type compressor includes a suction muffler cavity 12 for guiding the refrigerant sucked from a suction port (see FIG. 1) to the swash plate chamber 12, A swash plate chamber 12 for guiding the refrigerant from the suction muffler cavity 11 and rotating a swash plate (not shown) (see FIG. 1)); A plurality of suction passages 13 for guiding the gas to a chamber (not shown) (see 6a or 7a in FIG. 1), a plurality of cylinder bores 14 for reciprocating a piston (not shown) (Not shown). When the refrigerant compressed by the piston in the cylinder bore 14 is sent to a discharge chamber (not shown) (see 6b or 7b in FIG. 1), the discharge chamber And a discharge muffler cavity 16 for guiding the refrigerant to a discharge port (not shown) (see 9 in Fig. 1). Particularly, a discharge passage 16a is formed at one side of the discharge muffler cavity 16, and each suction passage 13 is located between the respective cylinder bores 14 except for the portion where the discharge passage 16a is located. do.

However, the conventional cylinder block 10 for swash plate type compressor has the following problems.

When the compressor is not driven for a long time in a low temperature environment, the refrigerant in the gaseous state is liquefied, and as shown in Fig. 2, the refrigerant in the liquid state collects in the swash plate chamber 12 The air is introduced into the suction passage 13 located at the lower portion of the chamber. Ultimately, when the refrigerant in a liquid state, which is not gaseous, is compressed in the cylinder bore 14 through the lower suction passage 13 and the suction chamber (not shown) (see 6a or 7a in FIG. 1) There is also a problem that noise is generated.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a cylinder block for a swash plate type compressor capable of blocking noise of a swash plate type compressor caused by a refrigerant in a liquid state.

In order to achieve the above object, a cylinder block for a swash plate type compressor according to an embodiment of the present invention is a cylinder block for a swash plate type compressor, which is coupled with a housing having a suction chamber and a discharge chamber, A block body forming a swash chamber; A plurality of main suction passages penetrating the block body in the longitudinal direction thereof and for guiding the refrigerant in the swash plate chamber to the suction chamber; A plurality of cylinder bores penetrating the block body in a longitudinal direction thereof and adapted to be inserted into the piston; A shaft hole formed in the block body for insertion of a drive shaft; And a suction muffler cavity provided in the block body for guiding the refrigerant to the swash plate chamber, wherein each of the main suction passages is elongated in the longitudinal direction of the block body from one end to the other end thereof, The suction passage and the suction muffler cavity are located on the upper half of the block body or over the middle portion of the block body.

The plurality of cylinder bores may be arranged concentrically with the shaft hole and spaced apart from each other, and each of the main intake passages may be biased toward the outside of the block body with respect to the plurality of cylinder bores have.

The cylinder block for a swash plate type compressor according to the present invention may further include at least one bolt through hole provided in the block body so as to penetrate the block body in a longitudinal direction thereof so that a bolt for coupling the block body to the housing may pass therethrough And each of the bolt passage holes may be located at a lower portion of the block body and may be biased to the outside of the block body with respect to the plurality of cylinder bores.

The cylinder block for a swash plate type compressor according to an embodiment of the present invention may further include a plurality of auxiliary intake passages penetrating the block body in the longitudinal direction thereof and guiding the refrigerant in the swash plate chamber to the suction chamber have.

Each of the auxiliary intake passages may be arranged in a circular shape concentric with the shaft hole with a space therebetween, and may be biased toward the inside of the block body with respect to the plurality of cylinder bores.

The diameters of the plurality of auxiliary suction passages may be smaller than the respective diameters of the plurality of main suction passages.

A valve may be provided in each of the auxiliary suction passages located in the lower half of the block body among the plurality of auxiliary suction passages.

The cylinder block for a swash plate type compressor according to an embodiment of the present invention includes: a discharge muffler cavity provided in the block body; And a discharge passage penetrating the block body in the longitudinal direction thereof and for guiding the refrigerant of the discharge chamber to the discharge muffler cavity.

The discharge muffler cavity and the discharge passage may be located on the upper half of the block body or over the middle portion of the block body.

As described above, the cylinder block for the swash plate type compressor according to the embodiment of the present invention can have the following effects.

According to an embodiment of the present invention, there is provided an air purifying apparatus including a block body, a plurality of main suction passages, a plurality of cylinder bores, and a shaft hole, wherein a plurality of main suction passages are disposed on the upper half of the block body, Since the plurality of main suction passages are not located in the lower portion of the block body, the liquid refrigerant accumulated in the lower portion of the swash plate chamber can be prevented from flowing into the suction chamber and the cylinder bore, Even when the swash plate type compressor is driven, the noise due to the liquid refrigerant can be prevented.

1 is a cross-sectional view schematically showing a general swash plate type compressor.
2 is a view showing a cylinder block for a conventional swash plate compressor viewed from a swash plate chamber.
3 is a schematic view of a cylinder block of a swash plate type compression apparatus according to an embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings, which will be readily apparent to those skilled in the art to which the present invention pertains. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

3 is a schematic view of a cylinder block of a swash plate type compression apparatus according to an embodiment of the present invention.

The cylinder block 100 for a swash plate compressor according to an embodiment of the present invention includes a suction chamber (see 6a or 7a in Fig. 1) and a discharge chamber (see 6b or 7b in Fig. 1) A plurality of main suction passages 120, a plurality of cylinder bores 130, and a plurality of cylinder bores 130. The block body 110 includes a block body 110, a plurality of main suction passages 120, and a plurality of cylinder bores 130, And a shaft hole (140). Hereinafter, each component will be described in detail with continued reference to Fig.

3, the block body 110 is a component constituting the body of the cylinder block 100 for a swash plate compressor of the present invention, and a swash plate (see 2 in FIG. 1) is rotated at one end thereof Thereby forming a swash plate chamber 110a.

The plurality of main suction passages 120 is a component for guiding the refrigerant in the swash plate chamber 110a to the suction chamber (see 6a or 7a in Fig. 1) of the housing (see 6 or 7 in Fig. 1) And is formed to pass through the block body 110 in its longitudinal direction as shown in the figure. 3, the plurality of main intake passages 120 are located on the upper half of the block body 110 (upper side at the intermediate portion CL), or the lower side of the block body 110 (See CL). That is, the plurality of main intake passages 120 are not located under the block body 110. Therefore, the liquid refrigerant accumulated in the lower portion of the swash plate chamber 110a can be prevented from flowing into the suction chamber (see 6a or 7a in Fig. 1) and the cylinder bore 130, It is possible to prevent the noise due to the refrigerant in the liquid state.

Further, each of the main intake passages 120 can be biased to the outside of the block body 110 with respect to the plurality of cylinder bores 130, as shown in FIG.

The plurality of cylinder bores 130 is a component into which a piston (see FIG. 1, 3) is inserted, and is formed to pass through the block body 110 in its longitudinal direction as shown in FIG. Specifically, as shown in FIG. 3, the plurality of cylinder bores 130 may be arranged in a circular shape concentric with the shaft hole 140 at a distance from each other.

The shaft hole 140 is a component into which a drive shaft (not shown) is inserted, and is formed to penetrate the block body 110 in its longitudinal direction, as shown in FIG.

In addition, the cylinder block 100 for a swash plate compressor according to an embodiment of the present invention may further include at least one bolt passage hole 150 as shown in FIG.

The at least one bolt passage hole 150 is a component through which a bolt (not shown) for coupling the block body 110 to the housing (see 6 or 7 in FIG. 1) Direction. 3, each bolt passage hole 150 is positioned at a lower portion of the block body 110 and is biased to the outside of the block body 110 with respect to the plurality of cylinder bores 130. In other words, . Particularly, since each of the bolt passage holes 150 is formed in the gasket sealing face 111, a relative member (for example, the cylinder block 100 for the swash plate compressor of the present invention) 1), the gasket sealing surface 111 is sealed so that the liquid-state refrigerant flows into the bolt passage hole 150 through the through- .

In addition, the cylinder block 100 for a swash plate compressor according to an embodiment of the present invention may further include a plurality of auxiliary intake passages 160, as shown in FIG.

The plurality of auxiliary suction passages 160 is a component for guiding the refrigerant of the swash plate chamber 110a to the suction chamber together with the plurality of main suction passages 120 described above and penetrates the block body 110 in the longitudinal direction thereof .

3, each of the auxiliary suction passages 160 is formed concentrically with the shaft hole 140 at a distance from each other, and is arranged in a circular shape, 110, respectively. Further, the diameters of the plurality of auxiliary suction passages 160 may be smaller than the respective diameters of the plurality of main suction passages 120 described above.

3, a valve 161 may be provided in each of the auxiliary suction passages 160 located in the lower half of the block body 110 among the plurality of auxiliary suction passages 160. [ Accordingly, when the liquid level of the liquid refrigerant in the lower part of the swash plate chamber 110a reaches the auxiliary suction passage 160 located at the lower half, the valve 161 is closed so that the liquid refrigerant flows into the housing (6 or 7 (See 6a or 7a in Fig. 1) of the suction chamber (see Fig. 1). For example, as the valve 161, a valve using a material characteristic of passing a gaseous refrigerant and shutting off a refrigerant in a liquid state may be used, or a mechanical valve or an electromagnetic valve opening and closing may be used.

In addition, the cylinder block 100 for a swash plate compressor according to one embodiment of the present invention described above includes a suction muffler cavity 170, an exhaust muffler cavity 180, and an exhaust passage (not shown) 190). The suction muffler cavity 170 is provided in the block body 110 and guides the refrigerant to the swash plate chamber 110a and the discharge muffler cavity 180 is provided in the block body 110, And penetrates the body 110 in its longitudinal direction and serves to guide the refrigerant from the discharge chamber (see 6b or 7b in FIG. 1) to the discharge muffler cavity 180

In particular, the suction muffler cavity 170, the exhaust muffler cavity 180, and the discharge passageway 190 are located on the upper half of the block body 110 or over the intermediate portion CL of the block body 110 . 3, the exhaust muffler cavity 180 and the exhaust passage 190 may be positioned at the upper half of the block body 110, and the suction muffler cavity 170 may be located at the upper end of the block body 110, (See CL) of FIG.

As described above, the cylinder block 100 for a swash plate compressor according to an embodiment of the present invention can have the following effects.

According to an embodiment of the present invention, a plurality of main intake passages (120), including a block body (110), a plurality of main intake passages (120), a plurality of cylinder bores 120 are positioned on the upper half of the block body 110 or over the intermediate portion CL of the block body 110. In other words, a plurality of main suction passages 120 are provided in the block body 110, The liquid refrigerant accumulated in the lower portion of the swash plate chamber 110a can be prevented from flowing into the suction chamber (see 6a or 7a in FIG. 1) and the cylinder bore 130, 10 in Fig. 1) is driven, it is possible to prevent the noise due to the refrigerant in the liquid state.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, Of the right.

100: Cylinder block for swash plate compressor
110: block body 111: gasket sealing face
120: main suction passage 130: cylinder bore
140: shaft hole 150: bolt through hole
160: auxiliary suction passage 170: suction muffler cavity
180: exhaust muffler cavity 190: exhaust passage

Claims (9)

A cylinder block for a swash plate compressor, which is coupled with a housing having a suction chamber and a discharge chamber,
A block body constituting a swash plate chamber which is a space in which the swash plate is rotated at one end;
A plurality of main suction passages penetrating the block body in the longitudinal direction thereof and for guiding the refrigerant in the swash plate chamber to the suction chamber;
A plurality of cylinder bores penetrating the block body in a longitudinal direction thereof and adapted to be inserted into the piston;
A shaft hole penetrating the block body in its longitudinal direction and inserted into a drive shaft; And
And a suction muffler cavity provided in the block body for guiding the refrigerant to the swash plate chamber,
Wherein each of the main intake passages includes:
And the other end is formed long in the longitudinal direction of the block body,
Wherein the plurality of main suction passages and the suction muffler cavity
And is located on the upper half of the block body or over the middle portion of the block body
Cylinder block for swash plate compressor. The method of claim 1,
Wherein the plurality of cylinder bores
And are arranged in a circular shape concentric with the shaft hole at intervals therebetween,
Wherein each of the main intake passages includes:
And is biased to the outside of the block body with respect to the plurality of cylinder bores
Cylinder block for swash plate compressor. 3. The method of claim 2,
In the cylinder block for a swash plate type compressor,
Further comprising at least one bolt passage hole penetrating the block body in a longitudinal direction thereof so that a bolt for coupling the block body to the housing is passed therethrough,
Each of the bolt through-
And a plurality of cylinder bores positioned at a lower portion of the block body and biased toward the outside of the block body with respect to the plurality of cylinder bores
Cylinder block for swash plate compressor. 3. The method of claim 2,
In the cylinder block for a swash plate type compressor,
A plurality of auxiliary suction passages penetrating the block body in the longitudinal direction thereof for guiding the refrigerant in the swash plate chamber to the suction chamber,
Further comprising
Cylinder block for swash plate compressor. 5. The method of claim 4,
Each of the auxiliary intake passages
A plurality of cylinder bores arranged concentrically with the shaft hole and spaced apart from each other,
Cylinder block for swash plate compressor. The method of claim 5,
Wherein each of the plurality of auxiliary suction passages has a smaller diameter than each of the plurality of main suction passages
Cylinder block for swash plate compressor. The method of claim 5,
A valve is provided in each of the auxiliary suction passages located in the lower half of the block body among the plurality of auxiliary suction passages
Cylinder block for swash plate compressor. The method of claim 1,
In the cylinder block for a swash plate type compressor,
A discharge muffler cavity provided in the block body; And
A discharge passage penetrating the block body in the longitudinal direction thereof for guiding the refrigerant of the discharge chamber to the discharge muffler cavity,
Further comprising
Cylinder block for swash plate compressor. 9. The method of claim 8,
The discharge muffler cavity and the discharge passage,
And is located on the upper half of the block body or over the middle portion of the block body
Cylinder block for swash plate compressor.

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