KR20070028168A - Working fluid suction structure for hermetic comprossor - Google Patents

Abstract

A suction structure of working fluid for a hermetic compressor is provided to minimize the leakage of the working fluid by adhering a contact skirt to the inner face of a hermetic vessel. A suction structure of working fluid for a hermetic compressor comprises a suction pipe(16), a suction silencer, and a communicating hole. The suction pipe penetrates a hermetic vessel to transmit the working fluid. The suction silencer is delivered the working fluid through the communicated pipe(33) in order to send the optimized working fluid to the compressing room, and to remove noises. The communicating hole is installed at the communicated pipe to transfer the working fluid between the suction pipe and the suction silencer by sticking the front end to the inside of the hermetic vessel. The communicating hole is composed of a connecting pipe(35), an expansion part(36), and a contact skirt(37).

Description

Working fluid suction structure for hermetic comprossor

1 is a perspective view showing the appearance of a suction silencer of a hermetic compressor according to the prior art.

Figure 2 is a cross-sectional view showing a working fluid suction structure of the hermetic compressor according to the prior art.

Figure 3 is an exploded perspective view showing the configuration of a hermetic compressor employing a preferred embodiment of the working fluid suction structure according to the present invention.

Figure 4 is a partial cross-sectional view showing the configuration of an embodiment of the present invention.

Figure 5 is a perspective view showing a suction silencer and a connector constituting an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

10: lower container 12: upper container

14: Mounting Plate 16: Suction Pipe

18: discharge pipe 20: frame

22: motor portion 23: stator

24: rotor 25: compression mechanism

30: suction silencer 31: lower body

32: upper body 33: communication pipe

34: connector 35: connector

36: expansion part 37: contact cut

The present invention relates to a hermetic compressor, and more particularly, to a working compressor of a hermetic compressor in which a working fluid is sucked into a suction silencer for optimizing a working fluid flowing into the compressor into the compression chamber and removing noise generated from the compression chamber. It relates to a suction structure.

1 shows an appearance of a suction silencer according to the prior art, and FIG. 2 shows a working fluid suction structure according to the prior art. According to this, the suction silencer 1 is largely composed of the lower body 3 and the upper body 4 is coupled, the working fluid flows inside the lower body 3 and the upper body 4 and noise is removed. Space is formed.

One side of the lower body (3) or the upper body (4) is provided with a connector (6) in the communication pipe (5) for communicating the inside and outside. The connector 6 serves to guide the working fluid delivered into the compressor to the space inside the suction silencer 1. In particular, the connector (6) is made of a bellows type and can be modified to some extent, as shown in FIG. 2, in close contact with the inner surface of the sealed container (8). The connector 6 has a relatively wide inlet side and a portion communicating with the communication pipe 5 is relatively narrow, so that the working fluid flows through the communication pipe 5 even if the suction silencer 1 flows to some extent. To ensure smooth delivery.

An upper end of the suction silencer 1 is provided with a discharge part 7 which is selectively communicated with the compression chamber side through a valve assembly. The discharge part 7 is a part for discharging the working fluid flowing inside the suction silencer 1 from the suction silencer 1 to the compression chamber.

The conventional suction silencer having the above configuration is mounted to the cylinder together with the valve assembly and the head cover assembly, and the connector 6 is a portion through which the suction pipe 9 penetrates the inner surface of the sealed container 8. The tip edge is installed in close contact with the.

However, there is a problem in the working fluid suction structure of the hermetic compressor according to the prior art as described above.

First, although the connector 6 is formed in a bellows shape, the connector 6 is in close contact with the inner surface of the sealed container 8, but a large amount of unevenness is formed on the flow path through which the working fluid flows, so that the flow characteristics of the working fluid worsen. have.

In the related art, the connector 6 is installed to protrude toward the inner surface of the sealed container 8 facing the front surface of the cylinder on which the discharge silencer 1 is mounted. That is, the connector 6 is provided in the front of the discharge silencer 1, there is a problem that the length of the sealed container 8 in the direction is long.

Therefore, an object of the present invention is to solve the problems of the prior art as described above, the working fluid transmitted from the outside to the inside of the compressor to smoothly flow without leakage to the suction silencer.

Another object of the present invention is to use the inner space of the hermetically sealed container so that the connector for guiding the working fluid from the suction pipe to the suction silencer is located on the side of the suction silencer.

According to a feature of the present invention for achieving the above object, the present invention is formed on one side of the suction pipe for passing the working fluid through the sealed container and the working fluid entered through the sealed container, the working fluid entered through the suction pipe Inhalation silencer that is delivered through the communication pipe to optimize the delivery to the compression chamber and remove the noise, installed in the communication pipe of the suction silencer, the tip is in close contact with the inner surface of the sealed container and the working fluid between the suction pipe and the suction silencer It is configured to include a connector for transmitting, the connector is connected to the connecting pipe, the expansion portion of the shape extending toward the suction pipe in the connection pipe, and the elastic container formed by the elasticity formed at the tip of the expansion portion It is configured to include a contact cut in close contact with the inner surface of the.

The connecting pipe and the expanding portion of the connector each connect a line passing through the center of the suction pipe passing through the inner surface of the sealed container and a communication pipe formed on the side of the suction silencer facing the inner surface of the sealed container at a predetermined angle. Meet.

The connector is made of a material having elasticity, and the contact cut has its inner edge close to the inner surface of the hermetic container.

According to the working fluid suction structure of the hermetic compressor according to the present invention having the above configuration, the working fluid flows smoothly without leakage into the suction silencer, and the working fluid suction structure does not occupy much space in the sealed container. have.

Hereinafter, a preferred embodiment of a working fluid suction structure of a hermetic compressor according to the present invention will be described in detail with reference to the accompanying drawings.

Figure 3 is an exploded perspective view showing the configuration of a hermetic compressor employing a preferred embodiment of the working fluid suction structure according to the present invention, Figure 4 is a partial cross-sectional view of the configuration of the embodiment of the present invention, Figure 5 The configuration of the suction silencer and the connector which constitute the embodiment of the invention is shown in perspective view.

As shown in these figures, the outer container 10 and the upper container 12 form the appearance of the compressor. The lower container 10 and the upper container 12 are combined with each other to form a sealed space therein. Inside the sealed space, components constituting the compressor are installed. Mounting plate 14 is installed on the lower surface of the lower container (10). The mounting plate 14 is for fixing at the position where the compressor is installed.

Next, the lower container 10 is provided with a pipe for flowing the working fluid into and out of the sealed space. That is, the suction pipe 16 for transmitting the working fluid into the sealed space is installed through the lower container 10. The discharge pipe 18 is installed through the lower container 10 on the opposite side where the suction pipe 16 is installed. Reference numeral 19 is a process pipe. The process pipe is a passage for injecting oil or working fluid into the sealed space when necessary.

In the sealed space, the frame 20 is supported by an elastic member (not shown) on the bottom surface of the lower container 10. The frame 20 is provided with various components constituting the compressor. First, the motor unit 22 is provided in the frame 20. The motor unit 22 is composed of a stator 23 and a rotor 24, the rotor 24 being rotated by electromagnetic interaction with the stator 23 inside the stator 23. .

 The compression mechanism 25 is installed on the upper portion of the frame 20. The compression mechanism 25 receives the power of the motor unit 22 through the crankshaft 26 to compress the working fluid.

The valve assembly 27 is provided to transfer the working fluid into and out of the compression chamber of the compression mechanism 25, and the head cover 28 forms a flow path of the working fluid which is drawn into the valve assembly 27. The suction silencer 30 is mounted to the cylinder block together with the valve assembly 27 and the head cover 28. The suction silencer 30 delivers the working fluid delivered from the outside of the compressor to the compression chamber and removes the noise of the valve assembly 27.

The suction silencer 30 is coupled to the lower body 31 and the upper body 32 to form an appearance. The suction silencer 30 is provided with a space in which a predetermined flow path is formed so that the working fluid enters the compression chamber in an optimal state, and the noise generated from the compression chamber side, that is, the valve assembly, is reversed and reduced.

The communication pipe 33 is provided on one side of the lower end of the suction silencer 30. The communication pipe 33 communicates the inside and the outside of the lower body 31. The communication pipe 33 is equipped with a connector (34). The connector 34 is made of a material having elasticity. Rubber may be used as a material for forming the connector 34.

The connector 34 has a connection pipe 35 connected to the communication pipe 33. The connecting pipe 35 is connected to the communication pipe 33 such that the outer diameter surface of the communication pipe 33 is in close contact with the inner diameter surface thereof.

The expansion part 36 is provided to be inclined with respect to the extending direction of the connecting pipe 35. The connecting pipe 35 and the extension part 36 meet each other such that a line passing through the center thereof has a predetermined angle to each other. The expansion portion 36 is formed to be inclined with respect to the connection pipe 35 in order to correspond to the inner surface shape of the lower container 10 so that the position of the connector 34 is on the side of the suction silencer 30. to be. In other words, to connect between the suction pipe 16 penetrating the inner surface of the lower container 10 and the communication pipe 33 formed on the side of the suction silencer 30 facing the inner surface of the lower container 10. to be.

The expansion portion 36 has a relatively small diameter in which the portion connected to the connecting pipe 35 is relatively small, and the larger the diameter is, as the distance from the connecting pipe 35 increases. In the present embodiment, the expansion portion 36 is configured to rapidly increase in diameter at a portion connected with the connecting pipe 35, and then to increase in diameter slightly.

A contact cut 37 is provided at the tip of the extension portion 36. The contact cut 37 is a part in close contact with the inner surface of the lower container (10). The contact cut 37 is formed so as to rapidly open at the tip of the extension portion 36, the inner surface is in close contact with the inner surface of the lower container (10). The contact cut 37 allows the working fluid introduced into the sealed container through the suction pipe 16 to enter the suction silencer 30 without leakage.

The discharge part 38 is provided at the middle of the upper end surface of the upper body 32. The discharge part 38 serves to deliver the working fluid passing through the suction silencer 30 to the compression chamber. Of course, the noise generated by the valve assembly or the like is transmitted to the suction silencer 30 through the discharge unit 38. The discharge portion 38 is a portion that allows the suction silencer 30 to be coupled to the valve assembly 27 side, and is mounted on the front of the cylinder together with the valve assembly 27 by the head cover 28.

Hereinafter, the operation of the working fluid suction structure of the hermetic compressor according to the present invention having the above configuration will be described in detail.

When the compressor is driven, power is supplied to the motor unit 22 so that the rotor 24 rotates to rotate the crankshaft 26. When the crankshaft 26 is rotated, the compression mechanism 25 is driven to compress the working fluid.

That is, when the piston moves to the bottom dead center in the compression chamber, the working fluid is sucked into the compression chamber by the suction silencer 30. This suction force is the driving force for sucking the working fluid from the outside to the inside of the compressor.

Therefore, the working fluid is sucked into the sealed container through the suction pipe 16. The working fluid sucked into the sealed container through the suction pipe 16 is in contact with the contact cut 37 of the connector 34 is in close contact with the inner surface of the sealed container does not leak from the connector 34, It is transmitted to the communication pipe 33 through the expansion part 36 and the connection pipe 35. The working fluid delivered to the communication pipe 33 passes through the suction silencer 30 and exits through the discharge part 38. That is, the working fluid flows into the compression chamber through the discharge part 38.

On the other hand, the connector 34 in the present invention does not have a protruding portion on the inner surface does not interfere with the flow of the working fluid, so that the smooth flow is made. Then, the contact cut 37 of the tip is in close contact with the inner surface of the sealed container can be delivered to the suction silencer 30 without leakage of the working fluid introduced through the suction pipe 16.

In addition, the suction silencer 30 may be flown by the vibration of the frame 20 during the operation of the compressor, the connector 34 itself is made of an elastic material, in particular the contact cut 37 of the tip The degree of close contact with the inner surface of the sealed container may be different, so that leakage is effectively prevented, so that the working fluid can be reliably transmitted to the suction silencer 30.

The rights of the present invention are not limited to the embodiments described above, but are defined by the claims, and various changes and modifications can be made by those skilled in the art within the scope of the claims. It is self-evident.

In the working fluid suction structure of the hermetic compressor according to the present invention as described in detail above, the following effects can be expected.

First, in the present invention, the connecting pipe communicating between the suction pipe and the suction silencer is made of a material having elasticity, and there is no protrusion therein so that the working fluid can be smoothly flowed, in particular, the contact cut of the tip is sealed. Close contact with the inner surface of the container can minimize the leakage of the working fluid. Therefore, there is no leakage of the working fluid introduced into the sealed container, and the working efficiency is not affected by the space inside the sealed container, thereby increasing the compression efficiency of the compressor.

In the present invention, the communication port communicates the communication pipe on the side of the suction silencer which is installed to face the inner surface and the front of the sealed container and the suction pipe which passes through the sealed container. Since the state is in communication with the suction pipe, the distance between the suction silencer and the sealed container can be minimized. Therefore, the space inside the sealed container can be used efficiently, so that the size of the compressor can be reduced in size and weight.

Claims (3)

A suction pipe for passing the working fluid through the sealed container and into the sealed container; A suction silencer that receives the working fluid introduced through the suction pipe through a communication pipe formed on one side and optimizes the fluid to be delivered to the compression chamber and removes noise; Is installed in the communication pipe of the suction silencer and the tip is in close contact with the inner surface of the sealed container and comprises a connector for transferring the working fluid between the suction pipe and the suction silencer, The connector includes a connection pipe connected to the communication pipe, an extension of a shape extending from the connection pipe toward the suction pipe, and a contact cut in close contact with the inner surface of the sealed container by elasticity formed at the tip of the extension pipe. Working fluid suction structure of the hermetic compressor characterized in that it comprises a. According to claim 1, wherein the connecting pipe and the expansion portion of the connector respectively passes through the center so as to connect between the suction pipe passing through the inner surface of the sealed container and the communication pipe formed on the side of the suction silencer facing the inner surface and the front face of the sealed container. A working fluid suction structure of a hermetic compressor, wherein the lines meet at a predetermined angle. 3. The working fluid suction structure of a hermetic compressor according to claim 1 or 2, wherein the connector is made of a material having elasticity, and the contact cut has an inner surface edge thereof in close contact with an inner surface of the hermetic container.

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