KR100202584B1 - Muffler for hermetic compressor - Google Patents

Abstract

The present invention relates to a suction muffler structure of a hermetic compressor. In the related art, the refrigerant flowing in the main body when the backflow of the refrigerant occurs due to the behavior of the suction valve is discharged to the outside through the outlet pipe and the refrigerant outside the suction muffler. When the refrigerant temperature is increased and then the refrigerant flows back into the cylinder when the refrigerant flows normally, the specific volume of the refrigerant expands to decrease the volumetric efficiency of the compressor. In the present invention, the refrigerant flows into the suction muffler body and flows out of the refrigerant. By installing a refrigerant backflow prevention means for preventing the backflow of the refrigerant in the flow path to prevent the backflow of the refrigerant to suppress the temperature rise of the refrigerant sucked by the mixing with the external refrigerant due to the backflow of the refrigerant to prevent the refrigerant sucked into the cylinder The amount is increased so that the efficiency of the compressor can be improved. .

Description

Suction Muffler Structure of Hermetic Compressor

1 is a cross-sectional view showing a general hermetic compressor.

Figure 2 schematically shows a suction muffler structure of a conventional hermetic compressor,

(a) is sectional drawing which shows the normal flow state of a refrigerant | coolant.

(b) is sectional drawing which shows the reverse flow state of a refrigerant | coolant.

3 is a schematic view showing a hermetic compressor suction muffler structure of the present invention.

4 is a view illustrating a refrigerant backflow preventing means of the hermetic compressor suction muffler structure of the present invention.

(a) is a cross-sectional view showing one embodiment.

(b) is sectional drawing which shows another Example.

5 is a schematic view showing another embodiment of the hermetic compressor suction muffler of the present invention.

6 is a schematic view showing a refrigerant backflow prevention state of the hermetic compressor suction muffler structure of the present invention.

* Explanation of symbols for main parts of the drawings

10: inlet pipe 10a: guide groove

11: outlet tube 13: elastic barrier membrane

13 ': blocking film T: refrigerant backflow prevention means

The present invention relates to a suction muffler structure of a hermetic compressor, and more particularly, to a suction muffler structure of a hermetic compressor which can prevent backflow of refrigerant.

A general hermetic electric compressor is, as shown in FIG. 1, a hermetically sealed container 1 that forms a case of a compressor, a frame 2 provided inside the hermetic container 1, and The stator 3 and the rotor 4 which are installed on the lower side, the crank shaft 5 is coupled to the inner diameter of the rotor 4, the eccentric portion 5a is formed at one end, and the frame 2 It consists of a cylinder 6 coupled to the upper side and a piston 7 coupled to the eccentric portion 5a of the crankshaft 5 and reciprocating inside the cylinder 6.

A cylinder head 8 is provided at the end of the cylinder 6 to allow refrigerant gas to flow into and out of the cylinder 6.

When the rotor 4 is rotated by the power applied to the stator 3 as described above, the crank shaft 5 fitted together with the rotor 4 rotates, and the crank shaft ( The piston 7 connected to the eccentric portion 5a of the crankshaft 5 by the rotation of 5) reciprocates in the cylinder 6 by the eccentricity. By the reciprocating motion of the piston (7), the refrigerant gas of low temperature voltage flows into the cylinder (6) through the cylinder head (8), and the introduced refrigerant gas becomes a refrigerant gas of high temperature and high pressure in the cylinder (6) It is discharged through the head portion 8.

As the suction and compression of the piston 7 are repeated in the above process, discontinuity of the refrigerant flow occurs, and the discontinuous refrigerant flow and the direction of movement of the piston 7 generate pulsation for the refrigerant flow, thereby generating noise.

In this structure, in addition to reducing the pulsation of the refrigerant generated inside the cylinder (6) as well as providing a suction muffler in the cylinder head portion (8) to smoothly guide the refrigerant flow into the cylinder (6), the above two functions Various types of suction mufflers have been proposed to satisfy.

FIG. 1 schematically shows an example of the suction muffler. As shown in the drawing, the conventional suction muffler structure has a partition 9a formed therein so that upper and lower expansion volumes (V, V 'are upper and lower portions). ) Is formed and the inlet pipe 10 is coupled to communicate with the lower expansion volume (V ') to the lower expansion volume (V') of the main body 9 and the upper expansion volume of the main body (9) Outflow pipe 11 is coupled to the lower side (V) in communication with the lower expansion volume (V ') and the partition (9a) is connected to the upper and lower expansion volume (V, V') connecting pipe 12 It is formed and formed.

The inlet pipe 10 is connected to the refrigerant passage through which the refrigerant gas flows into the sealed container, and the outlet pipe 11 is connected to the refrigerant passage through which the refrigerant gas flows into the cylinder 6.

The suction muffler is usually made of synthetic resin.

The structure as described above is the cold gas is introduced through the inlet pipe 10 by the reciprocating motion of the piston (7) through the lower expansion volume (V ') through the connecting pipe 12 to the upper expansion volume (V). The refrigerant gas introduced into the upper expansion volume V flows out through the outlet pipe 11 and flows into the cylinder 6 through a suction valve coupled to one side of the cylinder 6 through the refrigerant passage.

However, in the conventional structure as described above, the refrigerant flowing into the main body 9 flows into the main body 9 as shown in FIG. 2B when the refrigerant flows normally due to the action of the suction valve. When the refrigerant flows out and mixes with the external hot refrigerant, the refrigerant temperature rises and then flows back into the cylinder 6 when the refrigerant flows normally.

Accordingly, an object of the present invention is to provide a suction muffler structure of a hermetic compressor which can prevent the backflow of the refrigerant.

In order to achieve the above object of the present invention, there is provided a refrigerant passage including an inlet tube into which a refrigerant is introduced and an inner passage through which the introduced refrigerant flows into and an outlet tube through which the refrigerant flowing into the outside flows out; In the suction muffler structure of the hermetic compressor, the refrigerant flow path preventing means for preventing the backflow of the refrigerant is provided in the refrigerant flow path to provide a suction muffler structure of the hermetic compressor.

In addition, the refrigerant backflow preventing means is provided with a suction muffler structure of the hermetic compressor, characterized in that installed in the inlet pipe.

In addition, the refrigerant backflow preventing means is formed in the guide pipe in the longitudinal direction in the inlet pipe and the suction of the hermetic compressor, characterized in that the ring is formed to be inserted into the guide groove on one side of the blocking film blocking the inlet pipe. A muffler structure is provided.

In addition, the refrigerant backflow preventing means is provided with a suction muffler structure of the hermetic compressor, characterized in that made of an elastic barrier membrane which is joined to one side of the inlet pipe so as to open and close.

Hereinafter, the suction muffler structure of the hermetic compressor of the present invention will be described according to the embodiment shown in the attached drawing.

In the compressor suction muffler structure of the present invention, as shown in FIG. 3, the inlet pipe 10 through which the refrigerant flows is formed on one side of the main body 9 in the same structure as the conventional structure, and the refrigerant introduced into the An internal flow path is formed to flow, and is coupled to the other side of the main body 9 and includes an outlet pipe 11 through which the refrigerant flowing inside flows out. And it is made by installing a refrigerant backflow prevention means (T) for preventing the backflow of the refrigerant in the refrigerant flow path flowing in and out of the refrigerant gas.

The refrigerant backflow prevention means (T) is preferably installed in the inlet pipe (10). And the refrigerant backflow prevention means (T), as shown in (a) of FIG. 4, the elastic barrier membrane 13 having an elastic force that is joined to one side of the inlet pipe 10 to open and close ) One side of the elastic barrier membrane 13 is joined to an end portion of the inflow pipe 10 introduced into the main body 9 side.

The structure as described above is when the refrigerant is introduced into the main body 9 through the inlet pipe 10, the elastic barrier film 13 is opened, the refrigerant gas is introduced, and when the refrigerant flows back, the elastic barrier film 13 is the inlet pipe 10 ) To prevent the refrigerant from flowing out.

In addition, as another example of the refrigerant backflow prevention means (T), as shown in (b) of FIG. The membrane is formed with a ring 14 inserted into the guide groove 10a so as to be movable on one side of the blocking film 13 '. The guide grooves 10a are 180 to each other as long grooves. It is formed at intervals of two and the ring 14 is also preferably formed. The ring 14 is formed in a direction perpendicular to one side of the blocking film 13 ′.

In the structure as described above, when the refrigerant flows into the main body 9 through the inlet pipe 10, the blocking film 13 ′ is applied by the inflow of the refrigerant gas so that the ring 14 is guided along the guide groove 10a. As the blocking film 13 'is opened while moving, the refrigerant flows in, and when the refrigerant flows backward, the blocking film 13' moves in the opposite direction to block the inlet pipe 10 to prevent the refrigerant from flowing out. Done.

In addition, as another embodiment of the present invention, as shown in Figure 5, the refrigerant backflow prevention means (T) can be installed in the inner flow path formed inside the main body 9, the connection pipe 12 in the inner flow path It is preferable to install at.

Hereinafter, the operational effects of the suction muffler structure of the hermetic compressor of the present invention will be described.

In the suction muffler structure of the hermetic compressor of the present invention, a refrigerant backflow preventing means (T) is installed in the refrigerant flow path through which the refrigerant flows into and out of the main body (9) to prevent the backflow of the refrigerant. By suppressing the temperature rise of the suction refrigerant by mixing with the hot external refrigerant due to the increase in the amount of the refrigerant sucked into the cylinder (6) has the effect of improving the efficiency of the compressor.

Claims (4)

In the suction muffler structure of the hermetic compressor, comprising a refrigerant flow path including an inflow pipe through which a refrigerant flows in, an internal flow path through which the refrigerant flows into, and an outflow pipe through which the refrigerant flowing inside flows out. A suction muffler structure of a hermetic compressor, characterized in that a refrigerant backflow prevention means is installed in the flow path to prevent backflow of the refrigerant. 2. The suction muffler structure of claim 1, wherein the refrigerant backflow preventing means is installed in the inlet pipe. According to claim 1 or claim 2, The refrigerant flow backflow prevention means is formed with a guide groove in the longitudinal direction in the inlet pipe and a ring which is inserted into the guide groove so as to be movable in the guide groove blocking the inlet pipe is formed Suction muffler structure of the hermetic compressor, characterized in that made. The suction muffler structure of claim 1 or 2, wherein the refrigerant backflow preventing means is formed of an elastic barrier membrane which is joined to one side of the inlet pipe so as to be openable and closed.