KR100186486B1 - Linear compressor - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a linear compressor, in which a cylinder (31), a piston (32) reciprocating in the cylinder (31), a mechanism portion (30) consisting of a muffler (33), and the like are provided in the sealed container (1). And an inner lining 41 for driving the piston 32, a stator core 43 provided with a coil 42, a spring support 44, a piston spring 45, and a magnet 46. The motor unit 40 made of the same may be formed outside the sealed container 1 to prevent the efficiency of the compressor from deteriorating due to the temperature rise due to the separation of the mechanism unit 30 and the motor unit 40. Since the mechanical part 30 is separated by the motor part 40 and the airtight container 1, it does not affect the magnet 46 of the motor part 40. By eliminating the need for use, expensive material costs can be reduced.

Description

Linear compressor

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a linear compressor, and more particularly, to a linear compressor characterized in that a mechanism part for compressing and expanding a refrigerant is provided inside the sealed container, and a motor part for driving the mechanism part is provided outside the sealed container. .

As an example of a general linear compressor, as shown in FIG. 1, a hermetically sealed container 1 having a predetermined shape, a compressor unit 2 provided in the transverse direction inside the hermetically sealed container 1, and the compressor An oil supply means (3) fixed to the outside of the unit (2), and a sliding part between the cylinder (5) and the piston (12) formed to communicate with the oil supply means (3) inside the compressor unit (2). It is composed of an oil pocket (4) filled with the oil (O) supplied to.

In addition, the compressor unit 2 includes a cylinder 5 having a plurality of oil inlet holes 5a communicating internally and externally, a flange 6 fixed to the cylinder 5, and the flange 6. A stator core (9) having an inner lamination (7) fixed to an inner wall of the head), and a stator coil (8) fixed at predetermined intervals with an inner lamination (7) at the periphery of the flange (6); A spring support 10 fixed to the opposite side of the flange 6, a piston spring 11 fixed to the spring support 10, coupled to the cylinder 5 so as to enable linear movement, and the rear end is a piston spring A piston (12) fixed to an intermediate portion of the (11), a magnet (13) integrally coupled to the piston (12) to move linearly between the inner lamination (7) and the stator core (9), and the cylinder ( A valve assembly 14 and a silencer 15 fixedly installed at one side of 5), It consists of a refrigerant suction pipe 16, which is installed in the silencer group 15 guides the refrigerant gas to the interior of the valve assembly 14.

In addition, the oil supply means 3 and the oil pocket 4 are connected to communicate with the oil suction passage 6a formed on one side of the flange 6, the other side of the flange (6) inside the oil pocket ( An oil discharge flow passage 6b connected to communicate with 4) is formed.

The oil supply means 3 is inserted into the cylindrical oil supply pipe 21 having an empty inside, and is capable of linear reciprocating movement by vibrating a set inside the oil supply pipe 21 and the oil flow path 22a therein. ) Is formed and the mass body 22, the first cover 23 is coupled to and fixed to one side end of the oil supply pipe 21, the oil suction hole 23a is formed in a predetermined portion, and the other end of the oil supply pipe 21 An oil suction valve selectively interposed between the second cover 25 fixed to the second cover 25 and the mass body 22 and the first cover 23 to selectively open and close the oil suction hole 23a of the first cover 23. (26) and an elastic member 27 such as a compression coil spring for elastically supporting the oil intake valve 26, and the second cover (25) interposed between the mass body 22 and the second cover 25, respectively. An oil discharge valve 28 for selectively opening and closing the internal oil discharge hole 25a of the 25, and the oil discharge valve 28 It is composed of an elastic member 29 such as a compression coil spring which elastically supported.

The oil pocket 4 is a space portion formed between the cylinder 5 and the flange 6, and the oil pocket 4 and the interior of the cylinder 5 are connected to each other by an oil inlet 5a. It is.

Reference numeral 30a denotes an oil suction pipe and 30b shows an oil discharge pipe.

The linear compressor according to the related art configured as described above has a mechanism part including a cylinder 5 and a piston 12, various valves 14 and a muffler 15 in one sealed container 1, and a motor for driving such a mechanism part. Since the part is provided, there is a problem that the efficiency decreases as the temperature of the mechanism part and the motor part rises. In particular, the defect that the material cost is significantly increased because the parts of the mechanism part are made of non-magnetic casting due to the use of the magnet of the motor part have.

The object of the present invention devised in view of such a problem is to improve the efficiency of the compressor by lowering the temperature of the suction gas so that the mechanism is not affected by the temperature increase of the motor.

Another object of the present invention is to reduce the manufacturing cost by avoiding the use of expensive non-magnetic casting material of the mechanism part parts.

In order to achieve the object of the present invention, the magnet portion is installed in the hermetic container consisting of a cylinder, a piston, a valve and a muffler for compressing and expanding the refrigerant, and a magnet connected to the piston to drive the mechanism, A linear compressor is provided in which a motor including a stator core, an inner lamination, etc., in which a coil for driving the magnet is wound, is configured outside of the sealed container.

1 is a longitudinal sectional view showing the configuration of a general linear compressor.

2 is a longitudinal sectional view showing a configuration of a linear compressor according to the present invention.

* Explanation of symbols for main parts of the drawings

1: sealed container 30: mechanism part

31 cylinder 32 piston

33: muffler 40: motor unit

41: inner lamination 42: coil

43: stator core 44: spring support

45: spring 50: bellows

An embodiment of the linear compressor according to the present invention will be described in more detail with reference to the accompanying drawings.

2 is a longitudinal sectional view showing the configuration of the linear compressor according to the present invention. As shown in the drawing, the linear compressor according to the present invention includes a cylinder 32 and a piston 32 reciprocating in the cylinder 31; And a stator core 43 including an inner lamination 41 for driving the piston 32 and a mechanism part 30 made of a muffler 33 and the like installed in the sealed container 1. The motor portion 40 including the spring support 44, the piston spring 45, the magnet 46, and the like is formed separately from the outside of the sealed container 1.

In addition, a buffer mechanism such as a bellows 50 is installed between the mechanism portion 30 installed inside the sealed container 1 and the motor portion 40 installed outside the sealed container. Such a buffer mechanism is not limited to the bellows, and other mechanisms capable of performing a buffer function are applicable.

Reference numeral 47 is a magnet support, 51 is a support for supporting the sealed container (1) and the motor portion (40).

The linear compressor according to the present invention has a remarkable effect that can prevent the efficiency of the compressor from being lowered due to the temperature rise due to the separation of the mechanism portion 30 and the motor portion 40, the mechanism portion 30 motor portion Since it is separated by the 40 and the hermetic container 1, the magnet 46 of the motor unit 40 is not affected, so that it is not necessary to use a non-magnetic casting material, thereby reducing the expensive material cost. have.

Claims (2)

A mechanism unit comprising a cylinder, a piston, a valve assembly, and a muffler for compressing and expanding a refrigerant is installed inside the sealed container, and a magnet connected to the piston to drive the mechanism, and a stator wound with a coil for driving the magnet. A linear compressor comprising a motor formed of a coil, an inner lamination, or the like outside the sealed container. The linear compressor according to claim 1, wherein a shock absorbing mechanism is provided between the mechanism part inside the sealed container and the motor part outside the sealed container.