KR20070051064A - Hermetic type compressor - Google Patents

Abstract

The present invention relates to a hermetic compressor, an object of the present invention is to provide a hermetic compressor provided to improve the structure of the discharge hole formed in the valve plate to increase the discharge amount of the refrigerant through the discharge hole.

To this end, the hermetic compressor according to the present invention has a discharge plate for guiding the refrigerant compressed in the compression chamber of the cylinder to the refrigerant discharge chamber of the cylinder head, and a valve plate provided between the cylinder and the cylinder head, and opening and closing the discharge hole. And a discharge valve provided to cover the outlet of the discharge hole on the refrigerant discharge chamber side, and a valve seat part protruding from the outlet edge side valve plate to contact the discharge valve. The expansion part is provided to gradually expand the diameter of the discharge hole toward the outlet side.

Description

Hermetic Compressor {HERMETIC TYPE COMPRESSOR}

1 is a cross-sectional view schematically showing the overall structure of a hermetic compressor according to an embodiment of the present invention.

FIG. 2 is a perspective view showing the structure of the valve device of FIG. 1 in detail.

3 is an enlarged cross-sectional view illustrating a structure of a discharge hole of the valve plate in FIG. 2.

4 is a cross-sectional view showing the discharge hole structure of the valve plate according to another embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

15: valve device 40: valve plate

42: discharge hole 42a: outlet

42b, 42b ', 42b ": Expansion part 44: Valve seat part

61: discharge valve

The present invention relates to a hermetic compressor, and more particularly to a structure of a discharge hole formed in the valve plate of the valve device to guide the refrigerant compressed in the compression chamber toward the refrigerant discharge chamber.

In general, a hermetic compressor, which is employed in a refrigeration cycle such as an air conditioner or a refrigerator, is configured to compress a refrigerant, and includes a compression unit that performs a compression operation of the refrigerant inside the sealed container, and a driving unit that provides a driving force according to the compression of the refrigerant. On one side and the other side of the sealed container, a suction pipe for guiding the refrigerant from the outside into the sealed container and a discharge tube for guiding the refrigerant compressed by the compression unit inside the sealed container to the outside are respectively installed.

The double compression unit is a cylinder forming a compression chamber in which the piston is installed, a cylinder head coupled to the cylinder to seal the compression chamber, and the refrigerant suction chamber and the refrigerant discharge chamber are partitioned from each other, and interposed between the cylinder and the cylinder head to suck the refrigerant. And a valve device for interrupting the flow of the refrigerant sucked from the chamber into the compression chamber or compressed in the compression chamber and discharged into the refrigerant discharge chamber.

The valve device has a suction plate for communicating the refrigerant suction chamber and the compression chamber and a discharge hole for communicating the compression chamber and the refrigerant discharge chamber, and includes a valve plate provided between the cylinder and the cylinder head, and a suction valve for opening and closing the suction hole. And a suction valve plate provided on the outer side of the cylinder side valve plate, a discharge valve installed on the outer side of the cylinder head side valve plate to open and close the discharge hole, and a stopper covered on the outer side of the discharge valve to limit the opening angle of the discharge valve. In addition, the valve device interrupts the flow of the refrigerant sucked into or discharged from the compression chamber by opening and closing the suction hole and the discharge hole oppositely through the suction valve and the discharge valve.

In this configuration, when the piston inside the compression chamber is linearly reciprocated by the drive of the driving unit, and a pressure difference occurs between the compression chamber and the outside, the refrigerant introduced into the sealed container from the suction pipe by the pressure difference causes the refrigerant suction chamber. After being sucked into the compression chamber through the suction hole and compressed in the compression chamber, the refrigerant compressed in the compression chamber is discharged into the refrigerant discharge chamber through the discharge hole and then guided out of the sealed container along the discharge tube.

On the other hand, since the efficiency of such a compressor is determined by how much refrigerant can be discharged within a predetermined time, efforts to increase the discharge amount of the refrigerant discharged through the discharge hole of the valve plate have been continued until now.

Korean Unexamined Utility Model Publication No. 2001-0001106 discloses an example of a hermetic compressor provided to increase the discharge amount of the refrigerant.

Such a compressor is designed to increase the discharge amount of the refrigerant discharged through the discharge hole by increasing the free end side rotation width of the stopper to increase the opening angle of the discharge valve for opening and closing the discharge hole.

However, these conventional hermetic compressors improve the discharge valve side structure to open and close the discharge holes, so that the discharge amount of the refrigerant is increased, whereas the discharge holes for guiding the discharge refrigerant are substantially straight pipes having the same diameter from the inlet to the outlet. Since it is, there is a limit to increasing the discharge amount of the refrigerant.

The present invention is to solve such a problem, it is an object of the present invention to improve the structure of the discharge hole formed in the valve plate to provide a hermetic compressor provided to increase the discharge amount of the refrigerant through the discharge hole.

In order to achieve the above object, the hermetic compressor according to the present invention includes a valve plate provided between the cylinder and the cylinder head having a discharge hole for guiding the refrigerant compressed in the compression chamber of the cylinder to the refrigerant discharge chamber of the cylinder head. A discharge valve provided to cover the outlet of the discharge hole on the coolant discharge chamber side to open and close the discharge hole, and a valve seat part protruding from the outlet edge side valve plate to contact the discharge valve; The inner discharge hole is characterized in that the expansion portion is provided to gradually expand the diameter of the discharge hole toward the outlet side.

And the expansion portion is characterized in that it is provided to take the shape of a funnel.

In addition, the expansion portion is characterized in that it is provided to take a hemispherical shape.

In addition, the expansion portion is characterized in that it is provided to take the shape of the fallopian tube.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIGS. 1 and 2, the hermetic compressor according to the present embodiment forms an appearance through the hermetically sealed container 1 in which the upper container 1a and the lower container 1b are coupled to each other, and the hermetically sealed container. On one side and the other side of (1), the suction pipe (2) for guiding the refrigerant flowing into the sealed container (1) from the outside and the discharge to guide the refrigerant compressed in the sealed container (1) to the outside of the sealed container (1) The pipes 3 are respectively installed.

Inside the hermetic container 1, a compression unit 10 for compressing a refrigerant and a driving unit 20 for providing a driving force according to the compression of the refrigerant are installed through the frame 30. The dual drive unit 20 ) Has a stator 21 provided to be fixed to the upper outer side of the frame 30, and a rotor 22 provided inside the stator 21 to rotate in electrical interaction with the stator 21. In the center of the electron 22, the rotation shaft 23 is press-fitted to rotate together with the rotor 22.

The lower end of the rotating shaft 23 passes through the center of the frame 30 so as to be rotatable and extends below the frame 30, and the lower end of the rotating shaft 23 has an eccentric portion 24 so as to eccentrically rotate during the rotation of the rotating shaft 23. ) Is formed.

In addition, the compression unit 10 is provided at one side of the lower portion of the frame 30 so that the piston 12 connected through the eccentric portion 24 and the connecting rod 11 forms a compression chamber 13a for linear reciprocating movement therein. A cylinder head 14 coupled to one end of the cylinder 13 to seal the cylinder 13 and the compression chamber 13a and provided with the refrigerant suction chamber 14a and the refrigerant discharge chamber 14b separated from each other; Interposed between the 13 and the cylinder head 14 to interrupt the flow of the refrigerant sucked into the compression chamber 13a from the refrigerant suction chamber 14a or compressed in the compression chamber 13a and discharged to the refrigerant discharge chamber 14b. A valve device 15 is provided.

Here, the refrigerant suction chamber 14a side of the cylinder head 14 guides the refrigerant transferred into the hermetic container 1 along the suction pipe 2 to the refrigerant suction chamber 14a and at the same time, suction noise of the suction refrigerant. A suction muffler (4) is provided to reduce the discharge refrigerant in the refrigerant discharge chamber (14b) at a lower portion of one frame (30) of the compression chamber (13a) through a connection flow path (not shown) formed inside the frame (30). The inlet is delivered to the outside of the sealed container 1 along the discharge pipe 3 connected to the discharge muffler 5 while being guided to the formed discharge muffler 5 and the pulsation is reduced.

2 and 3, the valve device 15 is a suction hole 41 and the compression chamber 13a and the refrigerant discharge chamber for communicating the refrigerant suction chamber 14a and the compression chamber 13a. A valve plate 40 provided between the cylinder 13 and the cylinder head 14 having a discharge hole 42 for communicating 14b, and a suction valve 51 for opening and closing the suction hole 41 are provided. The inlet valve plate 50, which is formed integrally with the center side and is formed on the outer surface of the valve plate 40 on the cylinder 13 side, and the valve plate 40 on the cylinder head 14 side to open and close the discharge hole 42. It is configured to include a discharge valve assembly 60 installed on the outer surface. For reference, reference numeral 52 is a communication hole formed in the suction valve plate 50 on one side of the suction valve 51 to communicate between the discharge hole 42 and the compression chamber 13a.

The discharge valve assembly 60 is a discharge valve 61 provided in the form of a reed valve to cover the outlet 42a of the discharge hole 42 on the refrigerant discharge chamber 14b side by substantially opening and closing the discharge hole 42; A stopper 62 covered outside the discharge valve 61 to limit the opening angle of the discharge valve 61, and a stopper 62 to fix the discharge valve 61 and the stopper 62 to the valve plate 40. It includes a retainer 63 is installed on the outside, and for the installation of the discharge valve assembly 60, the outer side of the valve plate 40 around the discharge hole 42 toward the refrigerant discharge chamber (14b) discharge valve assembly ( Receiving groove 43 for the accommodation of 60 is formed.

Here, the first and second gaskets 71 and 72 are sealed between the intake valve plate 50 and the cylinder 13 and between the valve plate 40 and the cylinder head 14 to prevent the leakage of the refrigerant. Each of these components is provided with a cylinder head (14) to fix the cylinder head (14) to the cylinder (13) in a state interposed sequentially between the cylinder (13) and the cylinder head (14). 14 is installed between the cylinder 13 and the cylinder head 14 through the fixing bolt 100 is fastened to each corner side.

When the rotating shaft 23 rotates together with the rotor 22 by the electrical interaction between the stator 21 and the rotor 22 through such a configuration, the eccentric portion 24 of the rotating shaft 23 and the connecting rod ( The piston 12 connected through 11 is linearly reciprocated in the compression chamber 13a, and a pressure difference between the inside and the outside of the compression chamber 13a is formed, and the inlet valve 51 and the discharge valve 61 are formed by this pressure difference. ) Is opened and closed oppositely to each other and the compression of the refrigerant is performed.

That is, when the piston 12 is reversed to the opposite side of the cylinder head 14, the free end of the suction valve 51 is rotated to the compression chamber 13a side while opening the suction hole 41 to the suction pipe (2) and The refrigerant introduced into the refrigerant suction chamber 14a of the cylinder head 14 via the suction muffler 4 is sucked into the compression chamber 13a through the suction hole 41, and in this state, the discharge valve 61 The free end of) keeps the discharge hole 42 closed.

Afterwards, when the piston 12 moves forward to the cylinder head 14 side, this time the free end of the discharge valve 61 is rotated toward the refrigerant discharge chamber 14b side, the discharge hole 42 is opened to open in the compression chamber 13a. The compressed refrigerant is discharged to the refrigerant discharge chamber 14b of the cylinder head 14 along the discharge hole 42. In this state, the free end of the suction valve 51 is closed in the suction hole 41. Keep it.

Therefore, as this process is repeatedly performed, the refrigerant guided into the refrigerant suction chamber 14a is compressed in the compression chamber 13a and discharged into the refrigerant discharge chamber 14b, and the refrigerant discharged into the refrigerant discharge chamber 14b is discharged muffler. It is supplied to the outside of the sealed container 1 along the 5 and the discharge pipe 3.

On the other hand, in the valve plate 40 of the valve device 15, protruding to contact the free end of the discharge valve 61 on the edge side of the outlet 42a of the discharge hole 42 inside the receiving groove 43 A valve seat portion 44 is formed to maintain the adhesion of the discharge valve 61 in close contact with the outlet 42a of the discharge hole 42 in an appropriate state. As shown in FIG. 3, such a valve seat portion ( 44 The inner side of the discharge hole 42 is provided with an expansion portion 42b for gradually expanding the diameter of the discharge hole 42 toward the outlet 42a side of the discharge hole 42.

The configuration of the expansion part 42b is to increase the discharge flow rate of the refrigerant by substantially improving the structure of the discharge hole 42 for guiding the discharge refrigerant so as to reduce the refrigerant discharge load to improve the overall efficiency of the hermetic compressor. do.

In addition, when a step is formed in the expansion part 42b, even if the diameter of the discharge hole 42 of the outlet 42a side is enlarged, the turbulence is generated in accordance with the flow of the discharge refrigerant in the expansion part 42b, thereby discharging the refrigerant. Since the pulsation may be increased, the expansion portion 42b takes the shape of the inlet of the funnel so that the diameter of the discharge hole 42 increases linearly in the expansion portion 42b, so that a step occurs in the expansion portion 42b. It is preferable to be formed so as not to.

In addition, as shown in Figs. 4A and 4B showing the expansion portions 42b 'and 42b ″ according to another embodiment of the present invention, the expansion portions 42b' and 42b ″ have an outlet 42a of the discharge hole 42. As the diameter of the discharge hole 42 gradually expands toward the side, the discharge hole 42 may have an approximately hemispherical shape so that the degree of expansion of the diameter of the discharge hole 42 becomes smoother toward the outlet 42a within the range formed so that there is no step. The expansion degree of the diameter of 42 may be provided so as to take the exit shape of a fallopian tube so that it may become large rapidly toward the exit 42a.

As described above in detail, the hermetic compressor according to the present invention has a conventional straight pipe type discharge hole by reducing the discharge amount of the refrigerant by increasing the discharge flow rate of the discharge refrigerant through the structural improvement of the discharge hole itself formed in the valve plate. Compared with the hermetic compressor, the amount of refrigerant discharged is greatly increased.

Claims (4)

A valve plate provided between the cylinder and the cylinder head, the discharge plate having a discharge hole for guiding the refrigerant compressed in the compression chamber of the cylinder to the refrigerant discharge chamber of the cylinder head, and the discharge side of the refrigerant discharge chamber side to open and close the discharge hole. In a hermetic compressor having a discharge valve provided to cover an outlet of a ball, and a valve seat portion protruding from the outlet edge side valve plate so as to contact the discharge valve. The compressor is characterized in that the expansion hole is provided in the discharge hole inside the valve seat portion so that the diameter of the discharge hole is gradually expanded toward the outlet side. The method of claim 1, The expansion unit is a hermetic compressor characterized in that it is provided to take the shape of a funnel. The method of claim 1, The expansion unit is a hermetic compressor characterized in that it is provided to take a hemispherical shape. The method of claim 1, The expansion unit is a hermetic compressor characterized in that it is provided to take the shape of the fallopian tube.

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