KR19980015004A - Suction muffler structure of hermetic compressor - Google Patents

Abstract

The present invention relates to a suction muffler structure of a hermetic compressor. In the related art, when a refrigerant flows backward due to the behavior of a suction valve due to a normally flowing refrigerant, refrigerant introduced into the main body flows out to the outside through an outlet pipe, And the refrigerant flows back into the cylinder when the refrigerant normally flows after the refrigerant temperature is increased. Therefore, there is a problem that the volumetric efficiency of the compressor is lowered due to the expansion of the refrigerant. Thus, A refrigerant backflow preventing means for preventing backflow of the refrigerant to the flow path is provided to prevent reverse flow of the refrigerant so that the temperature rise of the refrigerant sucked by mixing with the external refrigerant due to the reverse flow of the refrigerant is suppressed, Thereby increasing the efficiency of the compressor .

Description

Suction muffler structure of hermetic compressor

1 is a sectional view showing a general hermetic compressor;

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

(a) is a sectional view showing a normal flow state of the refrigerant.

(b) is a cross-sectional view showing a state in which the refrigerant flows backward;

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

4 shows a refrigerant backflow preventing means of the suction muffler structure of the hermetic compressor of the present invention,

(a) is a sectional view showing an embodiment.

(b) is a sectional view showing another embodiment.

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

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

Description of the Related Art [0002]

10: inlet pipe 10a: guide groove

11: outflow pipe 13: elastic barrier

13 ': barrier film T: means for preventing refrigerant backflow

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 capable of preventing reverse flow of refrigerant.

As shown in Fig. 1, a general sealed type electric compressor includes a closed container 1 constituting a casing of a compressor, a frame 2 provided inside the closed container 1, A crankshaft 5 coupled to an inner diameter of the rotor 4 and having an eccentric portion 5a formed at one end thereof, a stator 3 and a rotor 4 mounted on the lower portion of the frame 2, A piston 7 coupled to the eccentric portion 5a of the crankshaft 5 and reciprocating in the cylinder 6, and the like.

At the end of the cylinder (6), a cylinder head (8) is provided in which refrigerant gas flows into and out of the cylinder (6).

In the closed type electric compressor as described above, when the rotor 4 is rotated by a power source applied to the stator 3, the crankshaft 5 fitted together with the rotor 4 is rotated, and the crankshaft The piston 7 connected to the eccentric portion 5a of the crankshaft 5 reciprocates in the cylinder 6 due to the eccentricity. The reciprocating motion of the piston 7 causes the low temperature and low pressure refrigerant gas to flow into the cylinder 6 through the cylinder head 8 and the refrigerant gas flowing therein becomes a high temperature and high pressure refrigerant gas in the cylinder 6 And is discharged through the cylinder head portion 8.

In this process, the suction and compression of the piston 7 are repeated to cause the discontinuity of the refrigerant flow, and the discontinuous flow of the refrigerant and the direction of its motion generate pulsation to the refrigerant flow to generate noise.

The suction muffler is installed in the cylinder head portion 8 to smoothly guide the flow of the refrigerant into the cylinder 6 as well as to reduce the pulsation of the refrigerant generated in the cylinder 6 in the structure described above. Various types of suction mufflers are proposed.

FIG. 1 schematically shows an example of the suction muffler. As shown in FIG. 1, the suction muffler structure of the related art has a partition wall 9a formed therein so that the upper and lower expansion volumes V and V ' And the inlet pipe 10 is connected to the lower expansion volume V 'side of the main body 9 so as to communicate with the lower expansion volume V' The outlet pipe 11 is connected to the lower expansion volume V 'at the side V and the connection pipe 12 for communicating the upper and lower expansion volumes V and V' As shown in FIG.

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

The suction muffler structure is usually made of synthetic resin.

The refrigerant gas is introduced into the upper expansion volume V through the connection pipe 12 through the lower expansion volume V 'by the reciprocating motion of the piston 7, The refrigerant gas flowing into the upper expansion volume V flows out through the outflow pipe 11 and flows into the cylinder 6 through the suction valve coupled to one side of the cylinder 6 through the refrigerant passage.

However, in the conventional structure as described above, when the refrigerant flowed normally due to the behavior of the suction valve, the refrigerant introduced into the main body 9 flows into the outlet pipe 11 The refrigerant flows into the cylinder 6 when the refrigerant flows normally. Therefore, there is a problem that the volume efficiency of the compressor is lowered due to expansion of the refrigerant.

Accordingly, it is an object of the present invention to provide a suction muffler structure of a hermetic compressor that can prevent reverse flow of refrigerant.

In order to accomplish the object of the present invention as described above, there is provided an air conditioner comprising an inlet pipe through which a refrigerant flows, an internal channel through which refrigerant flows, and a refrigerant channel formed through an outlet pipe through which the refrigerant flows, A suction muffler structure of a compressor is provided with a refrigerant backflow preventing means for preventing backflow of refrigerant to the refrigerant flow path.

The suction muffler structure of the hermetic compressor is provided in that the refrigerant backflow prevention means is installed in the inflow pipe.

The refrigerant backflow prevention means is formed with a guide groove formed in a longitudinal direction of the inflow pipe and a ring which is movably inserted into the guide groove is formed on one side of a blocking membrane that blocks the inflow pipe. A muffler structure is provided.

The suction muffler structure of the hermetic compressor is characterized in that the refrigerant backflow prevention means comprises an elastic shielding membrane which is connected to one side of the inflow pipe so that the inflow pipe can be opened and closed.

Hereinafter, a suction muffler structure of a hermetic compressor of the present invention will be described with reference to embodiments shown in the accompanying drawings.

As shown in FIG. 3, the suction muffler structure of the hermetic compressor of the present invention has a structure similar to that of the conventional structure, in which an inlet pipe 10 into which refrigerant flows is formed at one side of the body 9, And an outlet pipe (11) formed with an internal flow passage for flowing the refrigerant and connected to the other side of the main body (9) so that the refrigerant flowing inside flows out to the outside. And a refrigerant backflow prevention means (T) for preventing the backflow of the refrigerant to the refrigerant flow path through which the refrigerant gas flows and flows out.

The refrigerant backflow prevention means T may be installed in the inflow pipe 10. As shown in Fig. 4 (a), the refrigerant backflow prevention means T is provided with an elastic shielding film 13 having an elastic force which is openably and closably joined to one side of the inflow pipe 10, Lt; / RTI > The elastic shielding film 13 is bonded to one end of the inflow pipe 10 flowing into the main body 9 side.

When the coolant flows into the main body 9 through the inlet pipe 10, the elastic shielding membrane 13 opens and the coolant gas flows in. When the coolant flows backward, the elastic shield 13 contacts the inlet pipe 10 So that the refrigerant is prevented from flowing out to the outside.

As another example of the refrigerant backflow prevention means T, as shown in Fig. 4 (b), a guide groove 10a is formed in the inflow pipe 10 in the longitudinal direction, and the inflow pipe 10 And a ring 14 movably inserted in the guide groove 10a is formed on one side of the blocking film 13 '. Preferably, the guide grooves 10a are elongated grooves formed at intervals of 180 degrees from each other, and the ring 14 is also formed in two. The ring 14 is formed in a direction perpendicular to one side of the blocking film 13 '.

In the above structure, when the refrigerant flows into the main body 9 through the inflow pipe 10, the shielding film 13 'is pressed by the inflow of the refrigerant gas and the loop 14 is moved along the guide groove 10a The blocking film 13 'is opened while the refrigerant flows in the reverse direction, and the blocking film 13' is moved in the opposite direction by the refrigerant flowing backward when the refrigerant flows backward to block the inflow pipe 10 to prevent the refrigerant from flowing out to the outside .

5, the refrigerant backflow prevention means T may be provided in an internal flow path formed inside the main body 9, and the connection pipe 12 may be provided in the internal flow path, As shown in Fig.

Hereinafter, the operation and effect of the hermetic compressor suction muffler structure of the present invention will be described.

The suction muffler structure of the hermetic compressor of the present invention is characterized in that a refrigerant backflow preventing means (T) for preventing the back flow of the refrigerant is installed in the refrigerant flow path where the refrigerant flows into and out of the main body (9) The temperature of the mixed refrigerant is suppressed by mixing with the hot external refrigerant due to the increase of the amount of the refrigerant sucked into the cylinder 6, thereby improving the efficiency of the compressor.

Claims (4)

The suction muffler structure of a hermetic compressor, comprising: an inlet pipe through which a refrigerant flows; an internal flow passage through which the introduced refrigerant flows; and a refrigerant passage formed through an outlet pipe through which the refrigerant flows, And a refrigerant backflow preventing means for preventing backflow of the refrigerant in the flow path is provided. The suction muffler structure of a hermetic compressor according to claim 1, wherein the refrigerant backflow prevention means is installed in the inflow pipe. The refrigerant backflow prevention device according to claim 1 or 2, wherein the refrigerant backflow prevention means is formed with a guide groove in the longitudinal direction of the inflow pipe and a ring that is movably inserted into the guide groove is formed on one side of the barrier wall that blocks the inflow pipe And the suction muffler structure of the hermetic compressor. The suction muffler structure of the hermetic compressor according to claim 1 or 2, wherein the refrigerant backflow prevention means comprises an elastic shielding membrane which is openably and closably joined to one side of the inflow pipe.