KR100218481B1 - Motor laminating fixing and spring supporter of a linear compressor - Google Patents

Abstract

The present invention relates to the motor stacking and spring support structure of the linear compressor, conventionally the inner coil spring as the inner coil spring rotates in the process of the inner coil spring is tensioned and compressed during the reciprocating movement of the piston by the drive of the linear motor. There is a problem that the annular support for supporting the rotation is rotated and wear occurs between the annular support and the inner stator, and the inner stator constituting the motor is laminated with iron pieces to fix the right angle and assembly precision during assembly. Since the ring and the annular support are separately coupled to the inner stator, the assembling process is cumbersome. The present invention provides a reciprocation between the fixed ring and the piston to match the orthogonality and the assembly precision of the laminated iron pieces of the inner stator composed of a plurality of iron pieces stacked. Support one side of the coil spring to elastically support the movement The coupling structure is firmly formed and combined to prevent the wear of parts by preventing the movement of the support for supporting the coil spring by the movement of the coil spring during the reciprocating movement of the piston. It is to make it simple.

Description

Motor Lamination and Spring Support Structure of Linear Compressor

The present invention relates to a motor lamination fixing and spring support structure of a linear compressor, and more particularly, to a motor lamination fixing and spring support structure of a linear compressor, which makes it possible to secure the coupling of parts to suppress wear and simplify the assembly process. will be.

Recently, instead of eliminating the use of the crankshaft to solve various disadvantages of the compressor using the crankshaft, a linear compressor that can reduce noise and increase efficiency by compressing refrigerant by directly reciprocating the piston using a magnet and a coil has been used. It is widely used.

1 illustrates an example of the linear compressor, and as shown in the drawing, a conventional linear compressor is installed in a sealed container 1 formed to have a predetermined inner space and an inner middle of the sealed container 1. An inner case 2 formed to have a predetermined inner space, a linear motor M coupled to the inner side of the inner case 2, and a cylinder 4 coupled to the inner stator 3 of the linear motor M; ), A cover plate 5 coupled to one side of the inner case 2 and penetrated and coupled to one side of the cylinder 4, and a piston coupled to reciprocate in the cylinder 4. 6 and the magnet paddle (1) is coupled to the magnet (7) constituting the linear motor and the other side is coupled to one side of the piston (6) to transfer the movement of the linear motor (M) to the piston (6). 8), the inner side and the back of the magnet paddle (8) An inner coil spring 9 supported between the side surfaces of the inner stator 3 of the air motor M and elastically supporting the movement of the piston 6, and a cover which is opened and coupled to the other side of the inner case 2. (10), an outer coil spring (11) supported between the outer surface of the magnet paddle (8) and the inner surface of the cover (10) to support the movement of the piston (6), and the piston (6) It is configured to include a valve system (V) coupled to the other side of the discharge to discharge the gas compressed in the cylinder (4) at a constant pressure.

Reference numeral C denotes a winding coil constituting the linear motor.

In the linear compressor as described above, when a current is applied to the linear motor M, the piston 7 reciprocates in the cylinder 4 by the linear reciprocation of the magnet 7, and the piston 6 moves in the cylinder ( 4) As the reciprocating motion moves inside, the refrigerant gas introduced into the sealed container 1 is sucked into the cylinder 4 through the refrigerant flow path F formed at the center of the piston 6, compressed and discharged through the valve system V. The process is repeated.

Meanwhile, in the linear compressor, as shown in FIG. 2, the inner stator 3 coupled to the cylinder 4 is formed by radially stacking a plurality of iron pieces on the outer circumferential surface of the cylinder 4, and stacking the iron pieces. The fixing ring 12 is fitted to one side of the inner stator (3) made in order to match the squareness and the assembly precision of the laminated iron pieces. In addition, the side of the inner stator (3) is located in the annular support 13 is formed with a groove in the inner side to support the inner coil spring (9) and the annular support 13 is fixed by the inner coil spring (9) It is.

However, the inner coil as the inner coil spring 9 rotates while the inner coil spring 9 is tensioned and compressed when the piston 6 is reciprocated by the driving of the linear motor M in the linear compressor as described above. The annular support 13 supporting the spring 9 is rotated so that wear occurs between the annular support 13 and the inner stator 3. In addition, the assembly process is cumbersome because the fixing ring 12 and the annular support 13 are fitted to the inner stator 3 separately so that the inner stator 3 is laminated with iron pieces so as to match the squareness and the assembly precision. There was this.

Accordingly, it is an object of the present invention to provide a motor stacking and spring support structure for a linear compressor, which makes it possible to firmly join components to suppress wear and simplify the assembly process.

1 is a cross-sectional view showing an example of a general linear compressor;

2 is a half sectional view showing a motor stacking and spring support structure of a conventional linear compressor;

Figure 3 is a half sectional view showing a linear compressor motor lamination and spring support structure of the present invention.

* Explanation of symbols for main parts of the drawings

1: sealed container 2: inner case

3: inner stator 3a: fixing groove

4: cylinder 6: piston

7: magnet 8: magnet paddle

9: inner coil spring 14: fixing member

14a: annular ring portion 14b: support portion

M: Linear Motor V: Valve System

In order to achieve the object of the present invention as described above, the lead motor comprises a sealed container, an inner case coupled to the inside of the sealed container, a linear motor coupled to the inner case, and a plurality of iron pieces are stacked. A cylinder coupled to the inner stator, a piston coupled to the cylinder, a valve system coupled to one side of the cylinder to discharge the compressed refrigerant gas, and a magnet of the linear motor to connect the piston to move the magnet. A linear compressor comprising a magnet paddle for transmitting a piston to the piston, and an inner coil spring coupled between the magnet paddle and the inner stator to elastically support the movement of the piston; A fixing groove having a predetermined shape is formed on one side of the inner stator, and an annular ring portion is formed to protrude in an annular shape so as to be inserted into the fixing groove, and the support portion supporting one side of the inner coil spring is bent inwardly to the annular ring portion. The annular ring portion of the fixed member formed is coupled to the fixing groove, and the motor laminated fixing and spring supporting structure of the linear compressor is provided, wherein one side of the inner coil spring is supported on the support portion.

Hereinafter, the linear compressor motor lamination and the spring support structure of the present invention will be described according to the embodiment shown in the accompanying drawings.

The linear compressor motor lamination and spring support structure of the present invention, as shown in Figure 3, the inner container 2, the inner case 2 coupled to the interior of the sealed container 1, and the inner case A linear motor (M) coupled to (2), a cylinder (4) coupled to the inner stator (3) consisting of a plurality of iron pieces are stacked to form the linear motor (M), and coupled in the cylinder (4) The piston 6 is coupled to one side of the cylinder 4, the valve system V for discharging the compressed refrigerant gas, and the magnet 7 of the linear motor M and the piston 6 are connected. Is coupled between the magnet paddle 8 for transmitting the movement of the magnet 7 to the piston 6, and the magnet paddle 8 and the inner stator 3 to elastically move the piston 6. In the conventional linear compressor including the inner and outer coil springs (9, 11) to support , To form a retaining ring (12) coupled to the inner stator (3) of a conventional annular support 13 and the linear motor (M) for supporting said inner coil spring 9 as one body. That is, an annular fixing groove is formed at one side of the inner stator 3, and an annular ring portion 14a is formed to protrude in an annular shape so as to be inserted into the fixing groove 3a at one side thereof, and the inner side is formed at the annular ring portion 14a. The annular ring portion 14a of the fixing member 14, which is bent to be extended to support one side of the inner coil spring 9, is coupled to the fixing groove 3a, and the support portion 14b. ) Is supported on one side of the inner coil spring (9).

The fixing groove 3a formed in the inner stator 3 is preferably formed in a quadrangle having a predetermined width and depth. Meanwhile, the inner stator 3 is formed by stacking a plurality of linear iron pieces radially, so that the fixing grooves 3a are formed in each of the iron pieces, and when they are stacked, an annular fixing groove 3a is formed.

In addition, the annular ring portion 14a of the fixing member 14 is formed in a rectangular cross section so as to be fitted into the fixing groove 3a, and is in contact with the side of the inner stator 3 of the support 14b.

Hereinafter, the operational effects of the linear compressor motor lamination and the spring support structure of the present invention will be described.

According to the present invention, the annular ring portion 14a of the fixing member 914 meets the orthogonality and the assembly precision of the laminated iron pieces of the inner stator 3 formed by stacking a plurality of iron pieces, and at the same time, the support portion 14b has an inner coil spring 9 Will support one side).

Since the inner coil spring 9 is supported by the support portion 14b while the annular ring portion 14a of the fixing member 14 is fitted into the fixing groove 3a of the inner stator 3, the piston 6 is supported. The fixed member 14 is prevented from moving by the movement generated in the inner coil spring 9 during this reciprocating motion.

As described above, the motor lamination fixing and spring support structure of the linear compressor according to the present invention is a reciprocating motion of the piston and the conventional fixed ring to match the squareness and assembly precision of the laminated iron piece of the inner stator made of a plurality of iron pieces are laminated The annular support for supporting one side of the coil spring to elastically support is formed integrally so that the coupling structure is firm and the annular support for supporting the inner coil spring is moved by the movement of the inner coil spring during the reciprocating movement of the piston. It is suppressed to prevent the parts from being worn, and also has the effect of simplifying the assembly work during assembly.

Claims (1)

A cylinder coupled to an inner stator constituting the sealed container, an inner case coupled to the inside of the sealed container, a linear motor coupled to the inner case, a plurality of iron pieces, and constituting the linear motor, and the cylinder A valve coupled to the piston, a valve system coupled to one side of the cylinder to discharge the compressed refrigerant gas, a magnet paddle connecting the magnet and the piston of the linear motor to transfer the movement of the magnet to the piston, and the magnet paddle A linear compressor comprising an inner coil spring coupled between the inner stator and elastically supporting the movement of the piston; An annular fixing groove is formed at one side of the inner stator, and an annular ring portion is formed to protrude in an annular shape so as to be inserted into the fixing groove at one side, and is bent inwardly to the annular ring to support one side of the inner coil spring. The annular ring portion of the fixing member formed in addition is coupled to the fixing groove and the motor laminated fixing and spring support structure of the linear compressor, characterized in that one side of the inner coil spring is supported on the support portion.

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