KR19980010344U - Linear compressor - Google Patents

Abstract

The present invention relates to a linear compressor. The linear compressor according to the present invention includes a cylinder (13) in which a piston (12) reciprocating inside is inserted and a stator (15) (16) coupled to the cylinder (13). And a plurality of magnets 18 linearly reciprocating by forming a magnetic field together with the stators 15 and 16 by a coil 17 disposed between the stators and a power source applied to the coils 17. . And housings 19 and 20 provided to support the magnets 18 from above and below to drive the piston 12, wherein the housings 19 and 20 have a uniform spacing therebetween. An array member is provided to be supported and arranged in the housings 19 and 20.

Such a linear compressor according to the present invention can prevent the separation of the magnet provided in the drive unit of the compressor, it can also minimize the magnetic flux loss caused by the resistance. Accordingly, it is possible to improve the motor efficiency of the driving unit, and more ultimately, there is an effect of improving the performance coefficient of the linear compressor.

Description

Linear compressor

The present invention relates to a linear compressor, and more particularly, to a linear compressor having an improved magnet fixing method that has the greatest influence on the operating efficiency of the linear compressor.

In general, a compressor is used to produce a conditioner air used in an air conditioner or a refrigerator, and is a device that repeatedly generates a conditioner air by repeatedly compressing, expanding, and evaporating a refrigerant.

Among these compressors, a linear compressor has a linear motor driven by an interaction caused by a change in the direction of a magnetic flux with a magnet to linearly reciprocate the piston. As shown in FIG. And (11) are divided into a compression unit for suction and compression of the refrigerant and a drive unit for generating a compressive force. The compression section includes a cylinder 13 in which the piston 12 and the piston 12 linearly reciprocates therein, and a cylinder head 14 provided with a suction port and a discharge port.

The drive unit is provided with an internal stator 15 and an external stator 16, and between each of the stators 15 and 160, a coil 17 and a magnet 18 for generating a magnetic field are provided. Cylindrical upper and lower housings 19 and 20 are provided for fixing the lower housing 20. The lower housing 20 has a coupling shaft 22 extending below the piston 12 penetrating the bottom surface of the lower housing 20. The screw 23 is coupled, and the leaf spring 21 is coupled to the end of the coupling shaft 22. Both ends of the magnet are bonded to the lower surface of the upper housing 19 and the upper surface of the lower housing 20. Are combined.

The operation of the linear compressor configured as described above is first applied when an external AC power is applied, and accordingly, the polarity of the coil 17 is changed according to the polarity of the supplied current. As a result, the linear compressor has a constant gap between the magnet 18 and the vertical rotation. The piston 12 is linearly reciprocated by the driving of the housings 19 and 20 so that the refrigerant is sucked into the compression chamber and discharged.

Meanwhile, the magnet 18 coupled to the upper and lower housings 19 and 20 is fixedly coupled to an engaging surface of the upper and lower housings 19 and 20 by an adhesive. ) Are not formed in the direction of the magnetic domain, or if the spacing between the respective magnets 18 is not kept constant, this causes a considerable resistance in driving the motor, and at the same time as the magnetic flux leakage of the magnet 18, assembly deviation Due to the magnetic force is dropped. In this state, when the compressor is driven for a long time, the magnets 18 are dropped by the resistance of each other, and the air gap of the motor is not maintained, thereby lowering the performance coefficient of the compressor due to the decrease in motor efficiency.

The present invention is to solve the above problems, the object of the present invention is to improve the fixing means of the magnet to contribute to the noise reduction and reliability of the compressor and to maintain a linear compressor to minimize the magnetic flux loss of the magnet To provide.

1 is a cross-sectional view showing a general linear compressor.

2 is an exploded perspective view showing a driving unit of a conventional linear compressor.

3 is an exploded perspective view showing a drive unit of the linear compressor according to the present invention;

* Description of Signs of Main Parts

10, 11 ... Airtight container 12 ... Piston

13 ... cylinder 17 ... coil

18.Magnet 30.Top housing

40.House housing 50 ... Bolt

In order to achieve the above object, the present invention forms a magnetic field together with a stator by a cylinder in which a linear reciprocating piston is inserted, a stator coupled to a cylinder, a coil disposed between the stators, and a power source applied to the coil. A linear compressor having a housing for driving the piston, the plurality of magnets linearly reciprocating and supporting the magnets in the upper and lower portions, wherein the housing includes an arrangement member for supporting and arranging the magnets supported by the housing with a uniform interval therebetween. Characterized in that provided.

Hereinafter, one preferred embodiment according to the present invention will be described in detail with reference to the drawings. A general configuration will be described with reference to FIG. 1.

The linear compressor according to the present invention is roughly divided into a compression unit for suction-compressing and discharging refrigerant in the upper hermetic container 10 and the lower hermetic container 11 coupled to each other, and a driving unit for generating a compressive force. The compression section includes a piston 12 linearly reciprocating and a cylinder 13 in which the piston 12 is embedded. A refrigerant inlet and a discharge port are provided above the cylinder 13 to guide the intake and discharge of the refrigerant. It is provided with a cylinder head 14 provided to be.

The drive unit is provided with an internal stator 15 and an external stator 16, and a coil 17 and a magnet 18 for generating a magnetic field are provided between the respective stators 15 and 16. And the cylindrical upper housing 30 and the lower housing 40 for fixing the magnet 18 is provided, Figure 3 is an exploded perspective view showing the coupling of the housing and the magnet. As shown in the lower housing 40, the coupling shaft 22 extending below the piston 12 penetrates the bottom surface of the lower housing 40 to be screw 23 coupled thereto, and the coupling shaft 22 is coupled thereto. At the end of the leaf spring 21 is coupled. A plurality of coupling grooves (not shown) are formed at the bottom of the upper housing 19, and the lower housing 20 is provided with a coupling hole 41 penetrated to the lower surface and the upper surface thereof. The coupling hole 41 is provided at a position and a number corresponding to the coupling groove of the upper housing 19. And a bolt 50 is provided through the coupling hole 41 of the lower housing 20 to be coupled to the coupling groove of the upper housing 30, the bolt 50 is provided in each of the housing 19, 20 To serve as an arrangement member provided to keep the spacing of the magnets 18 supported at a constant, and also to maintain the coupling of the housing 19, 20 and the magnet 18 to perform at the same time It is prepared. To this end, the magnets 18 are supported by the upper and lower housings 30 and 40 with the bolts 50 interposed therebetween to be spaced apart from each other at uniform intervals.

The operation of the linear compressor configured as described above is first applied to the external AC power, and accordingly, the polarity of the coil 17 is changed according to the polarity of the supplied current, which causes a constant air gap between the magnets 18. It is rotated up and down with a gap), the piston 12 is linearly reciprocated up and down by the drive of the housing 19, 20, the refrigerant is sucked and compressed into the compression chamber is discharged. The vibration generated by the driving is alleviated by the leaf spring 21 supporting the piston 12. Meanwhile, the magnet 18 installed and supported between the upper housing 19 and the lower housing 20 is positioned between the respective bolts 50 so that the fixed position is fixed by tightening the bolts 50. Will be matched. As such, when the magnet 18 is fixed, the spacing between the magnets 19 is uniform, which can minimize the loss of resistance generated in the magnets 19, thereby reducing the magnetic loss of the stone. Can be.

Such a linear compressor according to the present invention can prevent the separation of the magnet provided in the drive unit of the compressor, it can also minimize the magnetic flux loss caused by the resistance. Accordingly, it is possible to improve the motor efficiency of the driving unit, and more ultimately, there is an effect of improving the performance coefficient of the linear compressor.

Claims (2)

A plurality of cylinders having linear reciprocating motions, a stator coupled to the cylinders, coils disposed between the stators, and a linear reciprocating motion by forming a magnetic field together with the stator by a power applied to the coils. A linear compressor having a magnet and a housing provided to support the magnets from above and below to drive the piston, The housing (19) (20) is a linear compressor, characterized in that the magnet (18) is provided with an arrangement member to be supported and arranged in the housing (19, 20) with a uniform interval therebetween. According to claim 1, The housing (19) 20 is a plurality of penetrating from one end to the other end to correspond to the upper housing 30 and the coupling groove is formed with a plurality of coupling grooves at regular intervals on one surface It is provided with a lower housing 40 having two coupling holes 41, The arrangement member is characterized in that the linear compressor is provided with a plurality of bolts (50) through which the coupling end is coupled to the coupling groove through the coupling hole (41).