KR0186143B1 - Iron core moving type linear compressor - Google Patents

Abstract

The present invention relates to an iron core movable linear compressor in which a volume of the compressor can be reduced by forming a space inside the iron core of the linear motor and installing a cylinder in the space. The iron core movable linear compressor of the present invention comprises a stator composed of a ferromagnetic material and having a plurality of stator iron cores wound around therein and being cylindrically enclosed about an axis; A movable iron core of a ferromagnetic material having several salient poles arranged with a predetermined gap between the stator and the stator; A cylinder located inside the mover iron core and having both ends coupled to the stator iron core; It is composed of a piston coupled to the mover iron core and reciprocally installed in the cylinder.

Description

Iron core linear compressor structure

1 is a cross-sectional view showing a conventional iron core movable linear compressor structure.

Figure 2 is a cross-sectional view showing the structure of the iron core movable linear compressor of the present invention.

3 is a cross-sectional view showing the iron core movable linear compressor structure of the present invention when the position of the reciprocating piston reaches a top dead center.

4 is a cross-sectional view showing the iron core movable linear compressor structure of the present invention when the position of the reciprocating piston reaches a top dead center.

* Explanation of symbols for main parts of the drawings

la: first stator core 1b: second stator core

2: spring 3: movable iron core

4 stator winding 5 piston

6: discharge valve 7: cylinder

8: suction valve

The present invention relates to an iron core movable linear compressor structure, and more particularly, to an iron core movable linear compressor structure having a compact structure of a compressor.

In the conventional iron core movable linear compressor structure, as shown in FIG. 1, a first stator iron core 21a and a second stator iron core 21b formed of a ferromagnetic material are arranged in a cylindrical shape about an axis 30.

A slot having a predetermined width is formed inside the first stator iron core 21a and the second stator iron core 21b, and the stator winding 24 is wound in a cylindrical shape.

On the other hand, the mover iron core 23 is composed of a ferromagnetic material corresponding to the first stator iron core 21a and the second stator iron core 21b, and when a current flows in the stator winding 24, the first stator iron core Vibration is caused by the change in reluctance between 21a and the second stator core 21b.

On the other hand, the sealer 27 is provided outside the first stator iron core 21a, the second stator iron core 21b, and the mover iron core 23.

In addition, one end of the piston 25 installed in the cylinder 27 is connected to one end of the shaft 30.

Accordingly, the piston 25 is slid and vibrated inside the cylinder 27 as the mover iron core 23 vibrates.

Meanwhile, the first stator iron core 21a and the second stator iron core 21b are fixed inside the compressor, and the shaft 30 on which the movable iron core 23 and the piston 25 are mounted is connected to the spring 22. It is fixedly coupled.

The operation of the conventional iron core movable linear compressor structure will be described below.

When the compressor is driven, as the piston 25 is moved, the fluid contained in the cylinder 27 is compressed and discharged to the outside through the discharge valve 28, and then, the cylinder is moved in accordance with the movement of the piston 25. When the internal volume of the 27 becomes large, the pressure inside the cylinder 27 is lowered so that the fluid is sucked from the outside of the cylinder 27 to the inside of the cylinder 27 through the suction valve 26.

However, in the conventional iron core movable linear compressor as described above, since the stator and the movable iron core and the cylinder are located in different spaces, the volume of the compressor is inefficiently increased, and when the compressor is mounted on a product such as a refrigerator, There was a problem such as not being able to effectively utilize.

SUMMARY OF THE INVENTION An object of the present invention devised in view of the above-described problems is to provide an iron core movable linear compressor structure in which a cylinder is compacted by installing a cylinder in a space formed inside a movable iron core.

Iron core movable linear compressor structure for achieving the object of the present invention is composed of a ferromagnetic material and the stator is a plurality of stator iron coil wound around the inside is surrounded by a cylindrical cylinder around the axis; A movable iron core of a ferromagnetic material having several salient poles arranged with a predetermined gap between the stator and the stator; A cylinder located inside the mover iron core and having both ends coupled to the stator iron core; It is composed of a piston coupled to the mover iron core is installed reciprocally in the cylinder.

Below. The present invention as described above will be described in more detail based on one embodiment shown in the accompanying drawings.

According to one embodiment of the iron core movable linear compressor structure of the present invention, as shown in FIG. 2, a first stator core la and a second stator core 1b made of ferromagnetic material are arranged in a cylindrical shape about an axis. .

A slot having a predetermined width is formed inside the first stator iron core la and the second stator iron core 1b, and the stator winding 4 is wound in a cylindrical shape.

On the other hand, the movable iron core (3) is composed of a ferromagnetic material having a salient pole corresponding to the first stator iron (la) and the second stator iron core (1b), when the current flows in the stator winding (4), The oscillation is caused by a change in reluctance between the first stator core la and the second stator core 1b.

On the other hand, the movable iron core 3 has a tubular shape, and a cylinder 7 made of a nonmagnetic material is provided therein.

In addition, the piston 5 provided inside the cylinder 7 is a nonmagnetic material, and one outer peripheral portion thereof is fastened to the movable iron core 3.

Therefore, the piston 5 is slid and vibrated inside the cylinder 7 as the mover iron core 3 vibrates.

On the other hand, one end of the piston 5 is fixedly coupled to the outer spring (2), the first stator iron core (la) and the second stator iron core (1b) and the outer portion of the cylinder 7, and the spring ( 2) is fixedly coupled to the outer surface of the compressor.

Hereinafter, the operation of the iron core movable linear compressor structure according to the embodiment of the present invention will be described.

When current flows through the first stator iron core la, the mover iron core 3 moves to the position of the second iron core 3 in a direction to coincide with the magnetic pole of the stator iron core 1. To the 3rd position.

Therefore, the piston 5 which is fastened to the mover iron core 3 is moved in the same direction as the moving direction of the mover iron core 3.

In this way, as the piston 5 is moved, the fluid contained in the cylinder 7 is compressed and discharged to the outside through the discharge valve 6.

3 shows when the reciprocating piston reaches the top dead center.

At this time, when the first stator iron core la turns off the current and flows the current through the second stator iron core Ib, the piston 5 according to the restoring force of the spring K and the change in the reluctance of the excited second stator 1b. From this position of FIG. 3 it starts to move to the position of FIG.

Accordingly, the internal volume of the cylinder 7 is increased by moving the piston 5 to the right, so that the pressure inside the cylinder 7 is lowered and fluid is sucked into the cylinder 7 from the outside of the cylinder 7. Is sucked through the belt (8).

4 shows when the piston reaches the bottom dead center.

At this time, when the current of the second stator iron core 1b is again cut off and the first stator iron core la is excited, the piston 5 is again moved to the position of FIG. 4 due to the restoring force of the spring 5 and the power generated by the motor. It will move to the position of FIG.

In the same principle as described above, the piston 5 reciprocates according to the power of an external current.

As described above, since the piston 5, which is concentrically fastened with the movable iron core 3, is slid and vibrated inside the cylinder 7, the piston 5 and the cylinder 7 have the first movable core 3 as the first one. The mechanical role of maintaining a predetermined gap with the stator core (1a) and the second stator core (1b).

As described above, the iron core movable linear compressor of the present invention forms a space inside the iron core of the linear motor and installs a cylinder in the space, thereby reducing the volume of the compressor. When attached to the, there is an effect that can utilize the space efficiently.

Claims (1)

A stator composed of a ferromagnetic material and having a plurality of fixed iron cores having a winding wound therein, the stator being cylindrically surrounded about an axis; A movable iron core of a ferromagnetic material having several salient poles arranged with a predetermined gap between the stator and the stator; A cylinder located inside the mover iron core and having both ends coupled to the stator iron core; And a piston coupled to the mover iron core, the piston being reciprocally installed in the cylinder.