KR100292503B1 - Oil supply unit of linear compressor - Google Patents

Abstract

In the oil supply device of the linear compressor according to the present invention, the oil in the sealed container is entangled with the oil intake valve or the oil discharge valve as the impurities generated during welding are introduced into the oil cylinder together with the oil, and the impurities are entangled. When the opening and closing operation becomes unstable, the oil is reversed, and as the oil is insufficient in the compression unit due to the reverse flow of the oil, there is a concern that overheating and wear of the compressor may occur. Sealing the oil cylinder vibrating with the compression unit, the oil piston that is slidably inserted into the oil cylinder and the outlet side of the oil cylinder, and the outlet side of the oil cylinder to communicate with the oil flow path of the compression unit The oil discharge cover and the inlet side of the oil cylinder are completely covered and fixed to the compression unit. And an oil suction cover having a plurality of filtration capillaries formed at the center thereof, so that impurities contained in the oil of the airtight container are filtered by the capillaries of the oil suction cover and flow into the oil cylinder together with the oil. It is effective to prevent oil from being attached to the oil supply smoothly to the compression unit.

Description

Oil supply of linear compressor

BACKGROUND OF THE INVENTION 1. Field of the Invention 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 to prevent impurities contained in oil of a sealed container from flowing into an oil feeder.

As is known, a linear compressor compresses a refrigerant by directly reciprocating a piston with a magnet and a coil in place of the crankshaft, an example of which is shown in FIG.

As shown in the drawing, a conventional linear compressor has a compression unit 10 installed in a transverse direction inside an airtight container C filled with oil on a bottom thereof, for sucking and compressing and discharging refrigerant, and the compression unit 10. It is fixed to the outside of the oil feeder 20 is configured to supply the oil.

The oil feeder 20 includes an oil cylinder 21 attached to the bottom side of the compression unit 10, an oil piston 22 inserted into the oil cylinder 21 and partitioned into a suction space and a discharge space. First and second oil springs 23A and 23B which elastically support both ends of the oil piston 22 from the oil cylinder 21, and the other ends of the first and second oil springs 23A and 23B, respectively. An oil suction cover 24 and an oil discharge cover 25 for supporting and fixing both ends of the oil cylinder 21 to the compression unit C, and a first oil spring on the outlet side of the oil piston 22. An oil intake valve 26 supported by 23A and an oil discharge valve 27 provided on the outlet side of the oil cylinder 21 are provided.

The oil piston 22 is inserted such that its outer circumferential surface is in sliding contact with the inner circumferential surface of the oil cylinder 21, and an oil passage 22a through which the inlet and outlet of the oil cylinder 21 communicates is formed therein. .

As shown in FIG. 2, the oil suction cover 24 has a length longer than the outer diameter of the oil cylinder 21, but the width of the oil suction cover 24 is smaller than the inner diameter of the oil cylinder 21. It is fixed to the bolt), the oil is made to flow through the gap between the oil cylinder 21 and the oil suction cover (24).

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 6 is a The piston, 6b is the second oil pocket, 7 is the suction valve, 9 is the suction pipe, 11 is the discharge cover, 12 is the discharge valve, 13 is the valve spring.

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

That is, the compression unit (C) vibrates in the transverse direction with the magnet assembly (5) and the like during linear reciprocation of the magnet assembly (5), which is the mover of the linear motor, and the vibration is transmitted to the compression unit (C). It is delivered to the fixed oil cylinder 21 to reciprocate the oil cylinder 21. At this time, the oil piston 22 is inserted in the oil cylinder 21 to be slidably to absorb and discharge oil by the inertial force opposite to the reciprocating motion of the oil cylinder 21.

First, when the oil cylinder 21 moves in the "P" direction of the drawing, the oil piston 22 is filled in the discharge space S2 by the effect of moving in the opposite direction with respect to the oil cylinder 21. While pushing out the oil, the oil is introduced into the gap between the oil cylinder 21 and the oil suction cover 24 and filled in the suction space S1. At this time, the first oil spring 23A is tensioned while the second oil spring 23B is compressed, and the oil inlet valve 26 is closed while closing the oil passage 22a of the oil piston 22, The oil discharge valve 27 is flipped to open the discharge side of the oil cylinder 21.

On the other hand, when the oil cylinder 21 is moved in the "Q" direction of the drawing, the oil piston 22 is an effect of moving in the opposite direction relative to the oil cylinder 21, the pressure of the discharge space (S2) In the previous process, the oil is discharged to the compression unit C so that the oil in the suction space S1 moves to the discharge space S2 while being relatively low in pressure compared to the suction space S1. At this time, the first oil spring 23A is compressed while the second oil spring 23B is compressed, and the oil intake valve 26 is opened while the oil discharge valve 27 is returned. The discharge side was closed to prevent backflow of oil.

However, in the oil supply apparatus of the conventional linear compressor as described above, the oil filled in the sealed container (V) is introduced into the oil cylinder 21 through the gap between the oil cylinder 21 and the oil intake valve 26. However, the oil in the sealed container (V) contains impurities, etc. generated during welding, so that the impurities flow into the oil cylinder 21 together with the oil and thus differ from the oil intake valve 26 or the oil discharge valve 27. The valves 26 and 27 in which these impurities are entangled become entangled, and the opening and closing operation becomes unstable, causing oil to flow back, and overheating of the compressor due to the lack of oil in the compression unit C due to such back flow of oil. And wear was likely to occur.

Accordingly, the present invention has been made in view of the problems of the oil supply device of the conventional linear compressor as described above, the linear that can prevent the impurities contained in the oil of the sealed container to flow into the oil cylinder together with the oil. It is an object of the present invention to provide a compressor oil supply.

1 is a longitudinal sectional view showing an example of a linear compressor provided with a conventional oil supply device.

Figure 2 is a plan view of the oil suction cover showing the "A" portion of FIG.

3A and 3B are longitudinal sectional views showing the operation of a conventional oil supply device.

Figure 4 is a longitudinal sectional view showing an example of a linear compressor with oil supply device of the present invention broken.

Figure 5 is a plan view of the oil suction cover showing the "B" portion of FIG.

6a and 6b are longitudinal cross-sectional view showing the operation of the oil supply device of the present invention.

Explanation of symbols on the main parts of the drawings

21: oil cylinder 22: oil piston

23A, 23B: Oil spring 25: Oil discharge cover

26,27: oil suction, discharge valve 100: oil suction cover

110: capillary for filtration

In order to achieve the object of the present invention, an oil cylinder which is fixed to a compression unit installed inside the oil-filled hermetically sealed container and vibrates with the compression unit, and an oil passage communicating the inlet and outlet of the oil cylinder is formed. An oil piston that is slidably inserted therein and pumps oil filled in the airtight container when the oil cylinder vibrates, first oil springs and second oil springs that elastically support both ends of the oil piston, and the first oil. An oil discharge cover which seals the outlet side of the oil cylinder to support the spring and communicates the outlet side of the oil cylinder with the oil passage of the compression unit, and completely covers the inlet side of the oil cylinder to support the second oil spring. Fixed to the compression unit and a plurality of filtration capillaries are formed in the center A burr, an oil suction valve mounted at an outlet of the oil passage of the oil piston to limit oil suction, and an oil discharge valve mounted inside the oil discharge cover to close the outlet of the oil cylinder to restrict oil discharge. An oil supply device for a linear compressor is provided.

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.

4 is a longitudinal cross-sectional view showing an example of a linear compressor provided with the oil supply device of the present invention, Figure 5 is a plan view of the oil suction cover showing the "B" portion of Figure 4, Figure 6a and 6b is the oil of the present invention This is a longitudinal sectional view showing the operation of the feeder.

As shown therein, the oil supply apparatus of the linear compressor according to the present invention includes an oil cylinder 21 attached to the bottom surface side of the compression unit C, and an oil cylinder 21 inserted into the oil cylinder 21 so that the oil cylinder ( The first and second oil springs elastically supporting the oil piston 22 which divides 21 into the suction space S1 and the discharge space S2, and both ends of the oil piston 22 from the oil cylinder 21 ( Oil suction cover 100 for supporting 23A and 23B and the other ends of the first and second oil springs 23A and 23B and fixing both ends of the oil cylinder 21 to the compression unit C. And an oil discharge cover 25, an oil suction valve 26 installed at an outlet side of the oil piston 21, and an oil discharge valve 27 provided at an outlet side of the oil cylinder 21.

The oil piston 22 is inserted such that its outer circumferential surface is in sliding contact with the inner circumferential surface of the oil cylinder 21, and an oil passage 22a through which the inlet and outlet of the oil cylinder 21 communicates is formed therein.

The oil discharge cover 25 seals the outlet side of the oil cylinder so that the outlet side of the oil cylinder 21 communicates with the oil inflow passage 1a of the compression unit C and fixes it to the compression unit.

The oil suction cover 100 is formed in a longitudinal direction in which both the length and the width of the oil cylinder 21 are larger than the outer diameter of the oil cylinder 21 and are fixed to the compression unit C by bolts, and the oil filled in the airtight container V is filled. Before entering the oil cylinder 21, a plurality of filtration capillaries 110 are formed so that impurities contained in the oil are introduced into the oil cylinder 21 after being filtered.

In the drawings, the same reference numerals are given to the same parts as in the prior art.

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 6 is a The piston, 6b is the second oil pocket, 7 is the suction valve, 9 is the suction pipe, 11 is the discharge cover, 12 is the discharge valve, 13 is the valve spring.

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

That is, when the oil cylinder 21 vibrates in the lateral direction together with the compression unit C, the oil piston 22 inserted into the oil cylinder 21 reciprocates the oil cylinder 21. A series of processes of having inertial force against movement and sucking and discharging oil are the same as in the related art.

First, when the oil cylinder 21 is moved in the "P" direction of the drawing, the first oil spring 23A is tensioned and the second oil spring is compressed while the oil piston 22 is the oil cylinder 21. Will have the effect of moving in the opposite direction.

In this case, the oil intake valve 26 is closed and the oil discharge valve 27 is opened to push the oil filled in the discharge space of the oil cylinder 21 while the discharge side of the oil cylinder 21 is opened. The oil filled in the sealed container (V) is introduced through the capillary hole 110 for filtering the oil suction cover 100 and filled in the suction space S1. At this time, the oil filled in the sealed container (V) contains impurities, etc. generated during welding, the impurities are caught by the filtration capillary 110 of the oil suction cover 100, the oil cylinder 21 It will not be able to flow into.

On the other hand, when the oil cylinder 21 is moved in the "Q" direction of the drawing, the oil piston 22 is an effect of moving in the opposite direction relative to the oil cylinder 21, the pressure of the discharge space (S2) In the previous process, the oil is discharged to the compression unit C to inhale the oil in the suction space S1 while being relatively low pressure compared to the suction space S1.

As described above, the oil supply apparatus of the linear compressor according to the present invention includes an oil cylinder fixed to a compression unit and vibrating with the compression unit, an oil piston slidably inserted into the oil cylinder, and the oil cylinder. An oil discharge cover which seals the outlet side of the oil cylinder and communicates the outlet side of the oil cylinder with the oil flow path of the compression unit, and completely fixes the inlet side of the oil cylinder to the compression unit, By including an oil suction cover that is formed for the capillary pores, it is possible to prevent impurities contained in the oil of the airtight container from being caught by the capillary hole of the oil suction cover to flow into the oil cylinder with the oil to adhere to the valve There is an effect that the oil is smoothly supplied to the compression unit.

Claims (1)

An oil cylinder, which is fixed to a compression unit installed inside an oil-filled sealed container and vibrates with the compression unit, and an oil passage communicating with the inlet and outlet of the oil cylinder, is formed to slide therein and is inserted into the oil cylinder. Sealing the oil piston to pump the oil filled in the sealed container during vibration, the first oil spring and the second oil spring to elastically support both ends of the oil piston, and the outlet side of the oil cylinder to support the first oil spring In addition, the oil discharge cover which connects the outlet side of the oil cylinder to the oil flow path of the compression unit, and the inlet side of the oil cylinder so as to support the second oil spring completely fixed to the compression unit, An oil suction cover having a plurality of filtration capillaries formed therein, and an oil flow path outlet of the oil piston. And an oil inlet valve, which is affixed to limit the oil suction, an oil supply of the linear compressor according to claim, including an oil discharge valve that is attached to the inside of the cover so as to open and close the oil discharge outlet of the oil cylinder limits the oil discharge.