KR101291201B1 - Hermetic type compressor - Google Patents

Abstract

The present invention relates to a hermetic compressor, and an object of the present invention is to provide a hermetic compressor provided to smoothly perform the lubrication action toward the compression unit through oil.

To this end, the hermetic compressor according to the present invention includes a rotating shaft, a cylinder forming a compression chamber, a piston provided to linearly reciprocate in the compression chamber, and eccentrically provided at an upper end of the rotating shaft to be connected through the piston and a connecting rod. And an eccentric shaft portion provided to scatter oil sucked up by the centrifugal force according to the rotation operation of the rotary shaft to the upper portion, and a cylindrical shape interposed between the eccentric shaft portion and the large diameter portion of the connecting rod and scattered through the eccentric shaft portion. An oil guide groove for guiding the oil to the cylinder is configured to include a bush provided in the inner diameter.

Description

Hermetic Compressor {HERMETIC TYPE COMPRESSOR}

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

2 is a perspective view illustrating a state before the bush is fastened between the large diameter portion of the connecting rod and the eccentric shaft portion of the rotating shaft in the hermetic compressor according to the preferred embodiment of the present invention.

3 is a cross-sectional view showing the structure of the eccentric shaft side of the hermetic compressor according to an embodiment of the present invention, showing an operating state in which oil is supplied to the cylinder.

Description of the Related Art [0002]

21: cylinder 22: piston

40: rotating shaft 41: eccentric shaft portion

43: oil euro 60: bush

61: oil guide groove

The present invention relates to a hermetic compressor, and more particularly, to a hermetic compressor provided to more effectively perform the lubrication action toward the compression unit by oil.

In general, the hermetic compressor includes a driving unit providing a compression power of the refrigerant, and a compression unit receiving the driving power of the driving unit to perform the compression operation of the refrigerant. The driving unit and the compression unit are connected to the inside of the hermetic container through a frame. Is installed.

The compression unit includes a cylinder provided at an upper side of the frame to form a compression chamber and a piston provided to linearly reciprocate the inside of the compression chamber. The driving unit includes a stator and a stator fixed to an outer side of the lower part of the frame. And a rotor provided inside the stator to rotate by electrical interaction.

The driving force of the driving unit is transmitted to the compression unit through the rotation shaft, and the rotation shaft is installed to penetrate the center of the frame and the rotor up and down. The frame side rotation shaft is rotatably supported by the frame, and the rotor side rotation shaft is It is pressed into the rotor so that the axis of rotation rotates with the rotor. In addition, the upper end of the rotating shaft forms an eccentric shaft portion for eccentric rotation, and a connecting rod is installed between the eccentric shaft portion and the piston, and the eccentric shaft portion and the connecting rod are connected via a bush.

Through this structure, when the rotating shaft rotates together with the rotor by the electrical interaction between the stator and the rotor, the piston connected through the eccentric shaft and the connecting rod linearly reciprocates in the compression chamber and performs the compression of the refrigerant. .

In addition, an oil storage space in which a predetermined amount of oil is stored is formed at the bottom of the sealed container, and an oil flow path in which the oil in the oil storage space is scattered to the upper portion of the eccentric shaft via the rotation shaft and the frame by the centrifugal force of the rotation shaft is provided on the rotation shaft. Is formed.

Therefore, between the frame and the rotating shaft is lubricated through the oil drawn up through the oil flow path, the connecting rod and the sliding part of the piston and the cylinder-side compression unit is lubricated through the oil sprayed to the upper end of the rotating shaft.

However, such a hermetic compressor has a limitation in effectively lubricating the compression unit, such as a piston and a cylinder, through oil because the oil sprayed onto the eccentric shaft part has a scattering structure without a specific direction.

The present invention is to solve such a problem, it is an object of the present invention to provide a hermetic compressor is provided so that the lubrication action toward the compression unit through the oil is performed more smoothly.

The hermetic compressor according to the present invention for achieving the above object is provided with a rotating shaft, a cylinder forming a compression chamber, a piston provided to linearly reciprocate in the compression chamber, and eccentrically provided at an upper end of the rotating shaft to connect the piston. An eccentric shaft portion connected through a rod and provided to disperse oil drawn up by centrifugal force according to a rotational motion of the rotary shaft, and a cylindrical shape interposed between the eccentric shaft portion and the large diameter portion of the connecting rod, and the eccentric shaft portion An oil guide groove for guiding oil scattered through the upper side toward the cylinder is configured to include a bush provided at an inner diameter.

The upper end of the bush is located above the upper end of the eccentric shaft, and the oil guide groove is provided in the inner diameter of the bush above the eccentric shaft.

In addition, the oil guide groove is characterized in that it is formed over a predetermined section in the vertical direction of the bush from the top of the bush.

In addition, the oil guide groove is characterized in that the upper side width is provided larger than the lower side.

In addition, the outer diameter of the eccentric shaft portion and the inner diameter of the bush is provided to be relatively rotatable, the outer diameter of the bush is pressed into the large diameter portion of the connecting rod, the oil guide groove is characterized in that formed in the shortest distance from the shaft center of the rotating shaft do.

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

As shown in FIG. 1, the hermetic compressor according to the present embodiment forms an appearance through the hermetic container 1 formed by combining the upper container 1a and the lower container 1b with each other, and the hermetic container 1. On one side and the other side of the suction tube (1c) for guiding the refrigerant flow into the sealed container (1), and the discharge tube (1d) for guiding the refrigerant compressed in the sealed container (1) outside the sealed container (1) Each is installed.

Inside the hermetic container 1, a driving unit 10 for providing the compression power of the refrigerant and a compression unit 20 for receiving the driving force of the driving unit 10 to perform the compression action of the refrigerant are installed. The driving unit 10 and the compression unit 20 are installed through the frame 30.

First, the driving unit 10 includes a stator 11 fixed to the lower outer side of the frame 30 and a rotor 12 provided inside the stator 11 to rotate by electrical interaction with the stator 11. And, the driving force of the drive unit 10 is installed so that the rotation shaft 40 penetrates the center of the frame 30 and the rotor 12 so that the driving force is transmitted to the compression unit 20.

The inner rotating shaft 40 of the rotor 12 is press-fitted and fixed to the center of the rotor 12 so that the rotating shaft 40 can rotate together when the rotor 12 rotates, and a rotating shaft ( The hollow part 31 is formed so that 40 may be rotatably supported. Here, the upper end of the upper rotation shaft 40 of the frame 30 forms an eccentric shaft portion 41 for eccentric rotation.

In addition, the compression unit 20 is formed integrally with the frame 30 on the eccentric shaft 41, the outer frame 30, the cylinder 21, the inner space forming the compression chamber 21a, and the compression chamber ( 21a) is provided with a piston 22 provided to linearly reciprocate.

The piston 22 is the eccentric shaft portion 41 in the reverse direction side end is connected through the eccentric shaft portion 41 and the connecting rod 23 during the eccentric rotation of the eccentric shaft portion 41 according to the rotation of the rotary shaft 40 The linear reciprocating motion is performed in the compression chamber 21a. The connecting rod 23 has a piston through one end of the large diameter portion 23a provided to fit outside the eccentric shaft portion 41 and the piston pin 22a fastened to the piston 22 in a state of being inserted into the piston 22. A small diameter portion 23b of the other end coupled to the 22 is provided, and a bush 60 is interposed between the large diameter portion 23a and the eccentric shaft portion 41.

In addition, the cylinder head 24 provided with the refrigerant suction chamber 24a and the refrigerant discharge chamber 24b at each end of the cylinder 21 in the forward direction of the piston 22 to seal the compression chamber 21a is provided. Combined.

Here, the refrigerant suction chamber 24a receives the refrigerant introduced into the sealed container 1 through the suction pipe 1c and supplies it to the compression chamber 21a, and the refrigerant discharge chamber 24b is provided in the compression chamber 21a. The compressed refrigerant is delivered to the discharge tube 1d and guided to the discharge tube 1d, and is sucked into the compression chamber 21a from the refrigerant suction chamber 24a or the refrigerant from the compression chamber 21a between the cylinder 21 and the cylinder head 24. The valve device 25 which interrupts the flow of the refrigerant discharged to the discharge chamber 24b is interposed.

Through this structure, when the rotating shaft 40 rotates together with the rotor 12 by the electrical interaction between the stator 11 and the rotor 12, the eccentric shaft portion 41 and the connecting rod 23 are connected. The piston 22 linearly reciprocates in the compression chamber 21a to perform a compression action of the refrigerant.

In addition, the bottom of the sealed container (1) is formed with an oil storage space (1e) in which a predetermined amount of oil is stored, the oil in the oil storage space (1e) of the oil storage space (1e) by the centrifugal force of the rotary shaft 40 in the rotary shaft 40 An oil passage 43 is formed to be sprayed to the upper portion of the eccentric shaft 41 via the hollow portion 31 between the 40 and the frame 30.

The oil channel 43 is provided in a spiral shape on the lower oil hole 43a formed inside the lower portion of the rotating shaft 40 and the outer surface of the rotating shaft 40 at a portion corresponding to the hollow portion 31 of the frame 30. And an oil groove 43b formed so that the lower portion communicates with the lower oil hole 43a, and an oil hole 43b extending from the upper end of the oil groove 43b to the upper end of the eccentric portion 41 through the inside of the rotation shaft 40 again. Comprising (43c), through the upper oil hole (43c) eccentric shaft portion 41 is to take a hollow shape.

In addition, an oil pick-up member 51 is press-fitted at the lower end of the rotary shaft 40 to pick up oil in the oil storage space 1e to the oil channel 43 by using centrifugal force according to the rotation of the rotary shaft 40. An oil pickup blade 52 is installed inside the pickup member 51.

Through this configuration, the oil in the oil storage space 1e when the rotary shaft 40 rotates according to the compression action of the refrigerant is transferred to the lower oil hole 43a via the oil pickup member 51 by the centrifugal force of the rotary shaft 40. After the oil is supplied to the oil groove 43b again and passes between the rotating shaft 40 and the hollow portion 31 of the frame 30, the oil is lubricated therebetween, and the oil passing through the oil groove 43b continues to the upper oil hole ( 43c) is lubricated between the connecting rod 23 and the sliding unit side sliding parts such as between the piston 22 and the piston 22 and the cylinder 21 while being sprayed and scattered to the upper portion of the eccentric shaft portion 41, The oils are dropped freely and recovered to the oil storage space 1e, and are again sucked up along the oil flow path 43 to be re-injected.

On the other hand, in the hermetic compressor according to the present embodiment, oil which is scattered above the eccentric shaft portion 41 in the bush 60 interposed between the large diameter portion 23a and the eccentric shaft portion 41 of the connecting rod 23. An oil guide groove 61 for guiding toward the cylinder 21 is provided.

The oil guide groove 61 is provided so that the oil injected into the eccentric shaft portion 41 can be intensively supplied toward the cylinder 21. The oil supply groove 61 supplies a sufficient amount of oil toward the cylinder 21 to connect the connecting rod. Lubrication between the small diameter portion 23b and the piston pin 22a of the 23 and between the piston 22 and the cylinder 21 can be performed more effectively through a sufficient amount of oil.

More specifically, the bush 60 is provided in a hollow cylindrical shape, and the outer diameter and the large diameter portion of the eccentric shaft portion 41 in a state where the large diameter portion 23a of the connecting rod 23 is fitted outside the eccentric shaft portion 41. (23a) is installed so as to be inserted between the inner diameter, the bush 60 is located between the eccentric shaft portion 41 and the large diameter portion (23a), the upper end is located on the upper end of the eccentric shaft portion 41, the oil The guide groove 61 is formed along the vertical length of the bush 60 from the upper end of the bush 60 to the inner diameter of the upper bush 60 of the upper side of the eccentric shaft 41 from the upper end of the eccentric shaft 41. .

The outer diameter of the eccentric shaft portion 41 and the inner diameter of the bush 60 may be rotated relative to each other so that the eccentric rotational movement of the eccentric shaft portion 41 may be converted into a linear reciprocating movement of the piston 22 through the connecting rod 23. The outer diameter of the bush 60 is provided to be press-fitted into and fixed to the inner diameter of the large diameter portion 23 ㅁ of the connecting rod 23, and the oil guide groove 61 is an axis C of the rotating shaft 40. It is preferable to be formed on the inner diameter side of the bush 60 located at the shortest distance from the bush 60 to be located at the point where the centrifugal force is maximized at the position as close as possible to the cylinder 21, such an oil guide groove ( 61 is oriented toward the cylinder 21 at all times during the eccentric rotation of the eccentric shaft portion 41, so that the oil is injected more toward the cylinder 21.

In addition, the oil guide groove 61 is formed so that the upper side width of the oil injection is larger than the lower side is formed so that the oil injected toward the cylinder 21 through the oil guide groove 61 is sprayed over a wider area. .

Therefore, in the hermetic compressor configured as described above, the oil drawn up to the upper portion of the oil passage 43 by the centrifugal force due to the rotation of the rotary shaft 40 is guided upward along the inner diameter of the eccentric shaft portion 41. The oil guided upwardly flows upward along the inner diameter of the bush 60 at the upper side of the eccentric shaft portion 41 and is injected toward the cylinder 21 while being guided by the oil guide groove 61. A sufficient amount of oil is to be injected toward the unit 20, so that the lubrication action toward the compression unit 20 by the oil can always be performed smoothly.

As described above in detail, in the hermetic compressor according to the present invention, the oil guided to the upper portion of the eccentric shaft portion along the oil flow path formed on the rotating shaft in the inner diameter of the bush interposed between the eccentric shaft portion and the large diameter portion of the connecting rod is concentrated toward the compression unit. An oil guide groove is provided. Therefore, the hermetic compressor according to the present invention is supplied with a sufficient amount of oil toward the compression unit so that the lubrication of the compression unit through the oil can be performed smoothly at all times.

Claims (5)

A rotating shaft, a cylinder forming a compression chamber, a piston provided in the compression chamber so as to be capable of linear reciprocating motion, and provided to be eccentric to an upper end of the rotating shaft, and connected through the piston and a connecting rod, and a centrifugal force according to a rotational motion of the rotating shaft. The eccentric shaft portion provided to scatter the oil sucked into the upper portion, and is provided in a cylindrical shape so as to be interposed between the eccentric shaft portion and the large diameter portion of the connecting rod and for guiding oil scattered through the upper portion of the eccentric shaft portion toward the cylinder. The oil guide groove includes a bush provided in the inner diameter, The upper end of the bush is located above the upper end of the eccentric shaft portion, the oil guide groove is provided in the inner diameter of the bush above the eccentric shaft portion hermetic compressor. delete The method of claim 1, The oil guide groove is a hermetic compressor, characterized in that formed over a predetermined section along the vertical direction of the bush from the top of the bush. The method of claim 3, The oil guide groove is a hermetic compressor characterized in that the upper side width is provided larger than the lower side. The method of claim 1, The outer diameter of the eccentric shaft portion and the inner diameter of the bush is provided to be relatively rotatable, the outer diameter of the bush is pressed into the large diameter portion of the connecting rod, the oil guide groove is characterized in that formed in the shortest distance from the shaft center of the rotating shaft Hermetic compressor.

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