KR100292514B1 - Apparatus for supplying oil of linear compressor - Google Patents

Abstract

The present invention relates to an oil supply device for a linear compressor, and the present invention is coupled to a compression unit mounted inside the sealed container to suck and discharge the fluid, and is connected to the inlet of the oil flow path provided in the compression unit. An oil supply apparatus of a linear compressor configured to pump oil of a sealed container through a oil passage to a compression unit; An oil cylinder which is fixed to the compression unit so as to be immersed in the oil filled in the airtight container and an annular stopper is formed on the inner circumferential surface thereof and vibrates together when the compression unit is started, and is interposed to slide in the oil cylinder. The inner part of the oil suction space and the oil discharge space, and the oil piston member serving as an oil suction valve by being attached to and removed from the above-mentioned stop protrusion, and mounted on the discharge side of the oil cylinder, and the oil of the oil cylinder and the compression unit. An oil discharge cover for communicating the flow path and an oil discharge valve mounted inside the oil discharge cover to open and close the discharge side of the oil cylinder, thereby regulating the flow of oil between the oil cylinder and the compression unit; Easy assembly to improve productivity and single elastic member and oil intake valve By eliminating the back, it is possible to reduce the production cost of reducing the number of parts.

Description

Oil supply unit of linear compressor {APPARATUS FOR SUPPLYING OIL OF LINEAR COMPRESSOR}

The present invention relates to an oil supply device of a linear compressor, and more particularly, to an oil supply device of a linear compressor suitable for simplifying a structure for supplying oil to a compression unit and improving productivity.

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

The compression unit (C) includes a frame (1) installed inside the sealed container (V), a cylinder (2) inserted into a through hole formed in the center of the frame (1), and the inside of the cylinder (2). A piston 3 inserted and linearly reciprocated by driving of a linear motor (unsigned), and a discharge valve 4 for opening and closing the cylinder 2 in accordance with the reciprocating motion of the piston 3 are inserted. It comprises a discharge cover 5 is coupled to one side of the cylinder (3).

A first oil pocket 1b is formed on the inner circumferential surface of the through hole of the frame 1 and communicated with the discharge side of the oil feeder O by an oil inflow passage 1a, and a second oil is formed on the outer circumferential surface of the piston 3. The pocket 3a is formed, and the cylinder 2 has an oil through-hole 2a through which the first oil pocket 1b and the second oil pocket 3a communicate with each other. Through-holes of the outer circumferential surface and the frame 1 and the discharge cover 5 form an annular oil circulation path 1d communicating with the oil communication path 1c at the top of the first oil pocket 1b. At the lowest point of the oil circulation path 1d, an oil discharge hole 1e is formed so that the oil circulated in the oil circulation path 1d is returned to the sealed container V.

Meanwhile, the oil feeder O is inserted into the oil cylinder 21 attached to the bottom side of the compression unit C, and the oil cylinder 21 is inserted into the oil suction space S1 and the oil discharge space S2. ) And the 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 first and second oils. An oil suction cover 24 and an oil discharge cover 25 for supporting the other ends of the springs 23A and 23B and fixing both ends of the oil cylinder 21 to the compression unit C, and the oil piston ( The oil intake valve 26 supported by the second oil spring 23B on the outlet side of the 22) and the oil discharge valve 27 installed on the outlet side of the oil cylinder 21 are included.

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 intake valve 26 is formed in a spiral type and is inserted into the oil cylinder 21 and tightly supported by the second oil spring 23B at the outlet end of the oil piston 22, while the oil discharge valve Reference numeral 27 is formed in a rectangular shape and closely adhered to the discharge side outer surface of the oil cylinder 21, and is supported by the oil discharge cover 25.

In the drawings, reference numeral 6 denotes a valve spring, and 7 denotes a suction valve.

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 lateral direction together with the magnet assembly (unsigned) during linear reciprocation of the magnet assembly (unsigned), which is the mover of the linear motor, and the vibration is the compression unit C. It is delivered to the oil feeder (O) fixed to the reciprocating movement, in which the oil piston (22) is inserted into the inside of the oil cylinder (21) by the inertial force against the reciprocating motion of the oil cylinder (21) The oil is absorbed and discharged.

In this way, the oil pumped by the oil feeder (O) is introduced into the first oil pocket (1b) through the oil inlet flow path (1a) to cool the heat generated in the outer peripheral surface and the linear motor of the cylinder (2) (2a) flows into the second oil pocket (3a), flows into the second oil pocket (3a) to lubricate the sliding portion between the cylinder (2) and the piston (3), and then again the first oil pocket ( 1b) and the oil communication passage 1c flow into the oil circulation passage 1d, and the oil introduced into the oil circulation passage 1d circulates while cooling the above-described cylinder 2 and the discharge cover 4, Through the oil discharge hole (1e) is returned to the sealed container (V).

Here, the operation of pumping oil by the oil feeder will be described in more detail as shown in FIGS. 2A and 2B.

First, when the oil cylinder 21 moves in the "P" direction of the drawing, the oil piston is moved in the opposite direction with respect to the oil cylinder to push out the oil filled in the oil discharge space while the oil Oil is introduced into the gap between the cylinder 21 and the oil suction cover 24 to fill the oil suction space. At this time, the oil intake valve 26 is closed while closing the oil passage 22a of the oil piston 22, while 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 with respect to the oil cylinder 21, the pressure of the oil discharge space is transferred ( In the preceding process, the oil is discharged to the compression unit C to be relatively low pressure compared to the oil suction space, and the oil in the oil suction space S1 moves to the oil discharge space S2. 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 device of the conventional linear compressor as described above, the oil intake valve 26 for restricting the inflow and outflow of oil is mounted inside the oil cylinder 21 having a small diameter. Is too small to be difficult to manufacture and assemble, as well as using a plurality of parts there was a problem that the production cost increases.

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, and can improve the productivity by facilitating the manufacturability and assemblability of the valve to regulate the oil inlet and outlet, and the number of parts It is an object of the present invention to provide an oil supply device of a linear compressor that can reduce the production cost by reducing.

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

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

Figure 3 is a longitudinal sectional view showing an example of the linear compressor provided with the oil supply device of the present invention.

Figures 4a and 4b is a longitudinal sectional view showing the operation of the oil supply device provided in the linear compressor of the present invention.

Figure 5 is a longitudinal sectional view showing a modification to the oil supply device of the linear compressor of the present invention.

Explanation of symbols on the main parts of the drawings

1: Frame 1a: Oil Inflow Channel

110: oil cylinder 111,111 ': piston stopper

120,220: oil piston member 130: oil spring

140: oil discharge valve 150: oil suction cover

160: oil discharge cover S1: oil suction space

S2: oil discharge space

In order to achieve the object of the present invention, it is coupled to the compression unit which is mounted inside the sealed container and sucks and discharges the fluid, and is connected to the inlet of the oil flow path provided in the compression unit to the oil of the sealed container. An oil supply apparatus of a linear compressor configured to pump a compression unit through an oil passage; An oil cylinder which is fixed to the compression unit so as to be immersed in the oil filled in the airtight container and an annular stopper is formed on the inner circumferential surface thereof and vibrates together when the compression unit is started, and is interposed to slide in the oil cylinder. The inner part of the oil suction space and the oil discharge space, and the oil piston member serving as an oil suction valve by being attached to and removed from the above-mentioned stop protrusion, and mounted on the discharge side of the oil cylinder, and the oil of the oil cylinder and the compression unit. An oil supply device for a linear compressor, comprising an oil discharge cover for communicating a flow path, and an oil discharge valve mounted inside the oil discharge cover to open and close the discharge side of the oil cylinder.

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 3 is a longitudinal sectional view showing an example of a linear compressor provided with the oil supply device of the present invention, Figures 4a and 4b is a longitudinal sectional view showing the operation of the oil supply device provided in the linear compressor of the present invention.

As shown therein, the linear compressor having an oil supply device according to the present invention has a compression unit (C) installed in a transverse direction inside an airtight container (V) filled with oil on a bottom thereof to suck and cool a refrigerant. And an oil feeder (O) which is fixed to the outside of the compression unit (V) and supplies oil.

The compression unit (C) includes a frame (1) installed inside the sealed container (V), a cylinder (2) inserted into a through hole formed in the center of the frame (1), and the inside of the cylinder (2). A piston 3 inserted and linearly reciprocated by driving of a linear motor (unsigned), and a discharge valve 4 for opening and closing the cylinder 2 in accordance with the reciprocating motion of the piston 3 are inserted. It comprises a discharge cover 5 is coupled to one side of the cylinder (3).

The oil feeder (O) is an oil cylinder (110) fixed to the lower portion of the frame (1) of the compression unit (C) so as to be immersed in the oil filled in the sealed container (V), and the interior of the oil cylinder (110) is in communication with each other A ball piston 120 which is an oil piston member slidably partitioned into the oil suction space S1 and the oil discharge space S2, and an oil spring 131 that elastically supports the discharge side of the ball piston 120; In addition, the oil discharge valve 140 installed on the discharge side of the oil cylinder 110, the oil suction cover 150 fixed to the frame (1) by covering the suction side of the oil cylinder 110, and the oil The oil discharge cover 160 coupled to the frame 1 by covering the discharge side of the cylinder 110 is made.

The oil cylinder 110 is formed in a cylindrical shape, an annular piston stop protrusion 111 that restricts the ball piston 120 from sliding to the suction side is formed in the middle portion of the inner peripheral surface thereof, the piston stop protrusion 111 In consideration of the smooth suction and discharge of the oil is formed to be biased on the discharge side of the oil cylinder 110, it is preferable that the surface in contact with the piston stop protrusion 111 is formed in a hemispherical shape.

The ball piston 120 is inserted so as to slide the outer peripheral surface with a predetermined oil clearance on the inner peripheral surface of the oil cylinder 110, it is formed to have a diameter larger than the inner diameter of the piston stopper 111.

The oil spring 130 is a compression coil spring having a diameter smaller than the diameter of the ball piston 120, one end of which is supported by the ball piston 120 while the other end supports the discharge end of the oil cylinder 110 One end is mounted on the frame 1 so as to be supported.

The oil discharge valve 140 is formed in a rectangular shape and its upper end is fixed to the frame 1 while the lower end thereof is opposed to the discharge side of the oil cylinder 110 so as to be openable and closed.

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

1a is an oil inflow path, 1b is a first oil pocket, 1c is an oil communication path, 1d is an oil circulation path, 2a is an oil through hole, 3a is a second oil pocket, 6 is a valve spring, 7 is a suction Valve.

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

That is, during linear reciprocation of the magnet assembly (unsigned), which is the mover of the linear motor, the compression unit C vibrates in the lateral direction together with the magnet assembly and the like, and the vibration is fixed to the compression unit C. It is delivered to the oil cylinder 110 of the oil feeder (O) to reciprocate, wherein the closed container (V) by the inertial force of the ball piston (120) and the oil itself having an inertial force against the reciprocating motion of the oil cylinder (110) ) Oil is pumped, and the pumped oil is introduced into the compression unit (C) through the oil inflow passage (1a) as described above, and then returns to the sealed container (V).

Here, the oil feeder will be described in more detail with respect to the operation of pumping oil.

First, when the oil cylinder 110 moves in the "Q" direction of the drawing, the ball piston 120 exhibits the effect of winning the elastic force of the oil spring 130 to the discharge side in the oil discharge space (S2) The oil filled is pushed out, and the oil is introduced into the compression unit (C) through the oil inflow passage (1a) while the oil discharge valve 140 which is blocking the discharge side of the oil cylinder 110 is opened and flipped. At this time, the ball piston 120 is spaced apart from the piston stop protrusion 111, the oil filled in the oil suction space (S1) of the oil cylinder 110, the oil discharge space side of the oil cylinder 110 by its own inertia force To be precise, the ball is moved between the suction side of the piston piston 120 and the piston stop protrusion 111.

Next, when the oil cylinder 110 moves in the "P" direction of the drawing, the ball piston 120 is returned to the suction side of the oil cylinder 110 by the elastic force and the inertial force of the oil spring 130 The oil filled between the ball piston 120 and the piston stopper 111 is moved to the oil discharge space of the oil cylinder 110 through the oil gap between the oil cylinder 110 and the ball piston 120. You will repeat a series of steps.

If there is a modification of the oil piston member according to the present invention is as follows.

That is, in the above-described example, the oil piston member was a ball piston 120, but in this modification, the oil piston member 220 has a smaller diameter toward the suction side of the oil cylinder 110 as shown in FIG. If the oil piston member 220 is conical in this way, the piston stop protrusion 111 'is tapered so that the oil piston member 220 and the piston stop protrusion 111' can be detached more reliably. It is preferably formed.

The oil piston member is not limited to the ball-shaped or conical-shaped as in the above examples, but may be a shape that implies the technical spirit of the present invention.

As described above, the oil supply apparatus of the linear compressor according to the present invention includes an oil cylinder which vibrates together when the compression unit is started, and is interposed so as to slide inside the oil cylinder, so that the oil cylinder has an oil suction space. An oil piston member which divides into an oil discharge space and serves as an oil intake valve, an elastic member that elastically supports the oil piston member on one side, and an oil discharge valve that opens and closes the discharge side of the oil cylinder. In this configuration, it is easy to manufacture and assemble the valve regulating the inflow and outflow of oil between the oil cylinder and the compression unit, thereby improving productivity and removing one elastic member and an oil intake valve. The production cost can be reduced.

Claims (5)

A linear unit that is mounted inside the sealed container and is coupled to a compression unit that sucks and discharges the fluid, and is connected to an inlet of an oil channel provided in the compression unit to pump oil of the sealed container into the compression unit through the oil channel. In the oil supply device of the compressor; An oil cylinder which is fixed to the compression unit so as to be immersed in the oil filled in the airtight container and an annular stopper is formed on the inner circumferential surface thereof and vibrates together when the compression unit is started, and is interposed to slide in the oil cylinder. The inner part of the oil suction space and the oil discharge space, and the oil piston member serving as an oil suction valve by being attached to and removed from the above-mentioned stop protrusion, and mounted on the discharge side of the oil cylinder, and the oil of the oil cylinder and the compression unit. An oil supply device for a linear compressor, comprising an oil discharge cover for communicating a flow path and an oil discharge valve mounted inside the oil discharge cover to open and close the discharge side of the oil cylinder. The oil supply device of a linear compressor according to claim 1, wherein the oil piston member is elastically supported by one elastic member from the discharge side of the oil cylinder. The oil supply device of a linear compressor according to claim 1 or 2, wherein the oil piston member has a ball shape. The oil supply device of a linear compressor according to claim 1 or 2, wherein the oil piston member has a conical shape in which the diameter decreases toward the suction side. 5. The oil supply apparatus of the linear compressor according to claim 4, wherein the piston stop protrusion of the oil cylinder in which the oil piston member is detached is formed to be tapered to be engaged with the outer circumferential surface of the oil piston member.