KR100314076B1 - Oil feeder for linear compressor - Google Patents

Abstract

The present invention relates to an oil supply device for a linear compressor, wherein a compression unit for sucking and compressing gas is installed in an oil-filled casing, and an oil feeder for sucking and supplying oil in the casing to the compression unit is provided to the compression unit. It is fixedly installed, and the suction silencer is mounted on the suction side of the oil feeder, and the suction silencer is mounted to be positioned at a higher position than the oil feeder, whereby the suction noise of oil generated while the compressor is sucked is reduced, and the compressor When the oil is stopped, the oil supplied to the compression unit does not flow back to prevent dry friction due to oil shortage during restart.

Description

OIL FEEDER FOR LINEAR COMPRESSOR}

The present invention relates to an oil supply device for a linear compressor, and more particularly to an oil supply device for a linear compressor that can reduce the suction noise of the oil and prevent the back flow of oil when the compressor is stopped.

Generally, a compressor converts mechanical energy into compressive energy of a compressive fluid, which is divided into reciprocating, scrolling, and centrifugal (commonly referred to as turbo) and vane (commonly referred to as rotary). .

Among these, reciprocating compressors are usually coupled to a drive shaft of a rotary drive motor, and convert the rotational movement of the drive shaft into a linear movement of the piston to compress the gas, but the linear compressor operates a linear motor that performs linear movement. An example is shown in FIG. 1, in which a piston is coupled to a chair instead of a drive shaft, and the piston compresses the refrigerant while reciprocating in a straight line.

As shown in the drawing, a conventional linear compressor has a compression unit (C) installed in the transverse direction inside a casing (V) filled with oil on its bottom surface to suck, compress and discharge refrigerant, and the compression unit (C). It is composed of an oil feeder (O) which is fixed to the outside and supplies oil.

The oil feeder (O) is an oil cylinder (21) attached to the bottom surface side of the compression unit (C), and the oil piston is inserted into the interior of the oil cylinder 21 in a free state to partition the suction space and the discharge space ( 22), first and second oil springs 23A and 23B which elastically support both ends of the oil piston 22 from the oil cylinder 21, and second oil springs on the outlet side of the oil piston 22. An oil suction valve 24 supported by 23B, an oil discharge valve 25 installed at an outlet side of the oil cylinder 21, and an oil suction cover mounted at a suction side of the oil cylinder 21 ( 26 and an oil suction pipe 27 attached to the oil suction opening 26a of the oil suction cover 26.

The oil suction cover 26 is bent so that the oil suction opening 26a is opened vertically downward with respect to the inner space of the oil cylinder 21, and the oil suction pipe 27 is the inlet of the oil suction opening 26a. It is mounted in a straight line.

In the drawings, reference numeral 1 denotes a frame, 1a is an oil inflow path, 1b is a first oil pocket, 1c is an oil communication path, 1d is an oil circulation path, 1e is an oil outlet, 3 is a cylinder, 3a is an oil hole, and 4 is Inner and outer lamination assembly, 5 is a magnet assembly, 6 is a piston, 6b is a second oil pocket, 7 is a suction valve, 8 is a discharge cover assembly, 9 is a suction pipe, 28 is an oil discharge cover.

The oil supply device of the conventional linear compressor configured as described above is operated as follows.

That is, when induction magnetism is generated between the inner and outer lamination assembly 4 by the applied power, the magnet assembly 5 interposed in the gap between the inner and outer lamination assembly 4 linearly reciprocates. In the linear movement of the magnet assembly 5, the entire compression unit C vibrates laterally with the magnet assembly 5, and together with the oil cylinder 21, FIG. 2A and FIG. As shown in FIG. 2B, the linear piston vibrates in the horizontal direction together with the compression unit C, and the oil piston 22 moves in the opposite direction to the oil cylinder 21 by the inertial force and the casing V. As shown in FIG. The oil in the tank was sucked and discharged.

However, in the oil supply apparatus of the conventional linear compressor as described above, when the oil in the casing (V) is directly sucked into the oil cylinder 21 during operation of the compressor, the suction noise by the oil is generated, which lowers the reliability of the compressor. There was this.

In addition, as shown in FIG. 5, when the compressor stops, the height of the oil suction port 26a is lower than that of the oil cylinder 21 and leaks through the oil suction port 26a filled in the oil cylinder 21. Since the oil supplied to (C) also comes out, there is also a problem that dry wear occurs due to lack of oil in the sliding portion of the compression unit (C) in the oil dry state when the compressor is restarted.

The present invention has been made in view of the problems of the oil supply device of the conventional linear compressor as described above, to provide an oil supply device of the linear compressor that can minimize the suction noise of the oil is inhaled while the oil is sucked during operation of the compressor. The purpose is.

Another object of the present invention is to provide an oil supply device of a linear compressor which prevents dry friction caused by oil shortage upon restarting by preventing the oil supplied to the compression unit from flowing back even when the compressor is stopped.

1 is a longitudinal sectional view showing an example of a conventional linear compressor broken.

Figure 2a and 2b is a longitudinal sectional view showing the operation of the oil feeder in the conventional linear compressor.

Figure 3 is a longitudinal cross-sectional view showing a state of oil leakage when stopped in a conventional linear compressor.

Figure 4 is a longitudinal sectional view showing an example of the linear compressor of the present invention.

Figures 5a and 5b is a longitudinal sectional view showing the operation of the oil feeder in the linear compressor of the present invention.

Figure 6 is a longitudinal cross-sectional view showing a state in which the outflow of oil is stopped when the linear compressor of the present invention.

Figure 7 is a longitudinal sectional view showing a modification to the oil feeder of the linear compressor of the present invention.

** Description of symbols for the main parts of the drawing **

21: oil cylinder 22: oil piston

24: oil suction valve 25: oil discharge valve

100,200: Suction silencer 110,210: Resonance tube

120,220: Oil pipe

In order to achieve the object of the present invention, a compression unit for sucking and compressing gas is installed in the oil-filled casing, the oil feeder for sucking and supplying the oil in the casing to the compression unit is fixed to the compression unit In a linear compressor;

A linear compressor mounted on the suction side of the oil feeder and having a constant volume to form a large diameter portion and a suction silencer made of an oil tube forming a small diameter portion by communicating with the resonance cylinder so that the other end is immersed in the oil of the casing; Oil supply.

Hereinafter, the oil supply apparatus of the linear compressor according to the present invention will be described in detail based on the embodiment shown in the accompanying drawings.

Figure 4 is a longitudinal sectional view showing an example of the linear compressor of the present invention, Figures 5a and 5b is a longitudinal sectional view showing the operation of the oil feeder in the linear compressor of the present invention.

As shown therein, the linear compressor provided with the oil supply device according to the present invention includes a compression unit C installed in the transverse direction inside the casing V filled with oil on the bottom thereof, and sucking and compressing the refrigerant. It is composed of an oil feeder (O) which is fixed to the outside of the compression unit (C) to supply oil.

The oil feeder (O) communicates with the oil inflow passage (1a) of the compression unit (C) and is inserted into the oil cylinder (21) which is fixed to the compression unit (C) and the oil cylinder (21) to slide. The first and second oil springs 23A and 23B which elastically support the oil piston 22, the ends of the oil piston 22 from the oil cylinder 21, and the outlet side of the oil piston 22. An oil intake valve 24 supported by the second oil spring 23B, an oil discharge valve 25 installed at an outlet side of the oil cylinder 21, and a suction side of the oil cylinder 21. It consists of a suction silencer (100).

The suction silencer 100 communicates with the suction end of the oil cylinder 21 and has a constant volume to form a large diameter portion, and communicates with one side of the resonance cylinder 110 (the other side of the oil cylinder) to casing (V). The other end is composed of an oil pipe 120 which is immersed in the oil filled in the casing (V) so that the oil is sucked from.

The oil pipe 120 has an outlet end communicating with the resonance cylinder 110 is formed higher than the suction end height of the oil cylinder 21, or the outlet end of the oil pipe 120 is the suction of the oil cylinder 21 Although not higher than the height, the intermediate portion is bent upward so as to be higher than the suction end height of the oil cylinder 21.

In the drawings, reference numeral 1 denotes a frame, 1a is an oil inflow path, 1b is a first oil pocket, 1c is an oil communication path, 1d is an oil circulation path, 1e is an oil outlet, 3 is a cylinder, 3a is an oil hole, and 4 is Inner and outer lamination assembly, 5 is the magnet assembly, 6 is the piston, 6b is the second oil pocket, 7 is the suction valve, 8 is the discharge cover assembly, 9 is the suction pipe, S1 is the suction space, S2 is the discharge space.

The oil supply device of the linear compressor of the present invention configured as described above is operated as follows.

That is, when the magnet assembly 5 linearly moves together with the magnet assembly 5, the whole compression unit C vibrates in the lateral direction, and together with the oil cylinder 21, the oil cylinder 21 also comes into contact with the compression unit C. While vibrating in the lateral direction together with the linear movement, the oil piston 22 is suction and discharge the oil in the casing (V) while moving in the opposite direction to the oil cylinder 21 by the inertial force.

Looking at this in more detail as follows.

First, as shown in FIG. 5A, when the oil cylinder 21 moves in the 'P' direction of the drawing, the oil piston 22 may overcome the second oil spring 23B and the oil cylinder 21. While moving in the opposite direction with respect to to push the oil filled in the discharge space (S2), the oil in the casing (V) is renewed to the oil cylinder 21 via the oil pipe 120 and the resonance cylinder 110 Inflow is filled in the suction space (S1).

Meanwhile, as shown in FIG. 5B, when the oil cylinder 21 moves in the 'Q' direction of the drawing, the oil piston 22 beats the first oil spring 23A to the oil cylinder 21. The pressure in the discharge space (S2) discharges oil to the compression unit (C) in the previous process, so that the pressure is relatively low compared to the suction space (S1), and the suction space (S1) Oil is moved to the discharge space (S2).

At this time, the flow noise of the oil is generated in the process of the oil is sucked into the oil pipe 110, this noise to the resonance tube 120 forming a large diameter through the oil pipe 110 forming a small diameter as shown in Figure 5a. It flows in and resonates and attenuates

In addition, as shown in FIG. 6, when the compression unit C is stopped, the oil feeder O fixed to the compression unit C is also stopped so that new oil is not pumped from the casing V. The oil, which has already been supplied to the compression unit C, falls along the oil flow path to flow back to the oil feeder O, but the oil pipe 120 installed on the suction side of the oil feeder O is at least an oil feeder O. Installed at a position higher than the suction side height of the c) to prevent oil from flowing out of the oil feeder (O), and thus to prevent the oil from flowing out of the oil feeder (O). Oil remains, which prevents dry friction when the compressor is restarted.

In the practice of the present invention, as shown in Figure 7, the outlet end of the oil pipe 220 communicated with the resonance cylinder 210 is disposed at a position not higher than the suction end of the oil cylinder 21, the oil When the middle portion of the tube 220 is bent upward to be formed at a position higher than the suction end of the oil cylinder 21, the oil of the oil cylinder 21 is leaked by the pressure of the oil in the oil tube 220. Is prevented. At this time, of course, the suction noise of the oil in the resonance cylinder 210 is attenuated.

In the oil supply apparatus of the linear compressor according to the present invention, a compression unit for sucking and compressing gas into an oil-filled casing is installed, and an oil feeder for sucking and supplying oil in the casing to the compression unit is fixed to the compression unit. It is installed, the suction silencer is mounted on the suction side of the oil feeder, the suction silencer is mounted so as to be positioned at a higher position than the oil feeder, the suction noise of the oil produced while the oil is sucked during operation of the compressor is reduced, Even when stopped, the oil supplied to the compression unit does not flow back to prevent dry friction due to oil shortage at restart.

Claims (3)

A linear compressor in which a compression unit for sucking and compressing gas is provided in an oil-filled casing, and an oil feeder for sucking and supplying oil in the casing to the compression unit is fixed to the compression unit. A linear compressor mounted on the suction side of the oil feeder and having a constant volume to form a large diameter portion and a suction silencer made of an oil tube forming a small diameter portion by communicating with the resonance cylinder so that the other end is immersed in the oil of the casing; Oil supply. The oil supply device of the linear compressor according to claim 1, wherein the outlet end of the oil pipe communicating with the resonance cylinder is disposed at a position higher than the suction end of the oil feeder. The outlet end of the oil pipe communicating with the resonance cylinder is disposed at a position not higher than the suction end of the oil feeder, but the middle portion of the oil pipe is bent upward so as to be positioned at a position higher than the suction end of the oil feeder. Oil supply device of the linear compressor, characterized in that formed.