KR19980010107U - Fixing device for magnet shell for linear compressor - Google Patents

Abstract

The present invention relates to a fixing device for a magnet shell for a linear compressor, and in the related art, one side of the magnet shell is placed so as to overlap the piston, and the productivity and work due to the troublesome work of fastening and fixing the overlapped portions with a plurality of bolts. Of course, the piston and the magnet shell drive center is inconsistent when assembling the piston and the magnet shell, and when the piston moves left and right, twisting occurs at the coupling portion of the magnet shell, which causes the magnet 6a to fall off. In addition, in the present invention, the magnet shell is pressed together at the edge of the piston to facilitate the fixing operation of the magnet shell, thereby improving the fixing operation of the magnet shell. Of course, the driving center of the magnet shell is driven by the piston during the reciprocating motion of the piston. In keeping with the core and has a distortion effect naejineun scratching of the magnet it is eliminated hence preventing of the magnet shells.

Description

Fixing device for magnet shell for linear compressor

The present invention relates to a linear compressor, and in particular, the magnet shell and the piston are integrally compressed by using a separate pressing member, thereby improving productivity and workability, and preventing distortion of the magnet shell and consequent scratches or dropping of the magnet. It relates to a fixing device of a magnet shell for a linear compressor.

As shown in FIG. 1, a conventional linear compressor has a sealed container 1 having a predetermined shape, a flange 2 provided at a predetermined height from a bottom surface inside the sealed container 1, and the flange thereof. A leaf spring (3) fixed to the rear end of the cylinder, a cylinder (4) formed inside the flange (2), a piston (5) mounted inside the cylinder (4) and reciprocating left and right; And a linear motor (M) wound around the coil (C) for applying power to the piston (5) and a cylinder fixed to one side of the piston (5) and installed inside the linear motor (M). A magnet shell 6 on the upper side, a valve assembly 7 provided at an intermediate portion of one side of the flange 2, and a suction muffler 8 and a discharge muffler 8 provided at both sides of the valve assembly 7, respectively. ') And a mounting spring 9 for supporting the leaf spring 3 on one side.

Here, as shown in FIG. 2, the magnet shell 6 has a magnet 6a attached to the outer circumference so as to face the coil C, and one side portion having a plurality of through holes 6b is bent to form a piston. (5) It is mounted so as to overlap with a plurality of fastening holes (5a) formed in the extension portion, tightening the through hole (6b) and the fastening hole (5a) of the overlapped portion with a plurality of bolts 10 to engage with the piston (5) The piston 5 is fixed to the outer surface of the leaf spring 3 by using a nut 11.

In the conventional linear compressor configured as described above, when an AC voltage is applied to the coil C of the linear motor, the magnet shell 6 is caused by a magnetic force between the magnet 6a and the magnetic flux induced by the coil C. ) Is linearly moved in the direction of arrow A shown in FIG. 1, whereby the piston 5 is linearly moved in the same direction inside the cylinder 4, and the refrigerant gas is sucked through the suction muffler 8. Passed through the valve assembly (7) into the compression space between the cylinder (4) and the piston (5).

On the other hand, when the direction of the current is reversed by the applied AC power, the magnet shell 6 moves in the opposite direction according to the same principle as above, and the piston 5 shows the arrow B inside the cylinder 4. The refrigerant in the compression space is compressed as it moves in the direction, and the compressed refrigerant gas is discharged through the valve assembly 7 to the discharge muffler 8 '.

However, in the above-described fixing device of the magnet shell for linear compressor, one side of the magnet shell 6 is mounted so as to overlap the piston 5, and the overlapped portion is fastened and fixed with a plurality of bolts 10. Productivity and workability are reduced due to the hassle, and the driving centers of the piston 5 and the magnet shell 6 are inconsistent when the piston 5 and the magnet shell 6 are assembled, thereby causing When the left and right moves, a twist occurs in the coupling portion of the magnet shell 6, which causes the magnet 6a to drop off or the fixing force is lowered.

Accordingly, an object of the present invention is to solve the degradation of productivity and workability caused by the coupling of the piston and the magnet shell with bolts, as well as to prevent the twisting of the magnet shell generated by the misalignment of the driving center of the piston and the magnet shell. An object of the present invention is to provide a fixing device of a magnet shell that does not fall out or the fixing force is reduced.

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

Figure 2 is a partial longitudinal cross-sectional view shown to explain the bonding state of a conventional micro-shell.

Figure 3 is a partial longitudinal cross-sectional view shown for explaining the bonding state of the microshell of the present invention.

* Description of the symbols for the main parts of the drawings *

21: magnet shell 21a: magnet

22: piston 22a, 24a: fitting groove

23: leaf spring 24: magnet shell fixing member

25: Fastening bolt

In order to achieve the object of the present invention as described above, a magnet shell having a plurality of magnets attached to the outer periphery, a piston reciprocating in the inside of the magnet shell, and a leaf spring integrally supplied to the piston to supply a restoring force And a magnet shell fixing member for compressing the magnet shell to the piston to integrate the piston plate spring into the piston leaf spring.

Hereinafter, a fixing device of a magnet shell for a linear compressor according to the present invention will be described in detail with reference to an embodiment shown in the accompanying drawings.

In the magnet shell fixing device of the present invention, as shown in FIG. 3, a plurality of magnets 21a are attached to the outer circumference of the coil to face the coil of the linear motor (not shown). A cylindrical magnet shell 21 having a right reciprocating motion, a piston 22 interposed in the magnet shell 21, and one side of which is squeezed integrally with the magnet shell 21 to receive a reciprocating motion, In order to provide a restoring force to the piston 22, the leaf spring 23 is installed on one side of the piston 22, and the magnet shell 21 is interposed between the magnet shell 21 and the piston 22. ) Is composed of a magnet shell fixing member 24 for crimping and fixing.

One end of the magnet shell 21 is bent, and fitting grooves 22a and 24a are respectively formed at the edges of the piston 22 and the edges of the magnet shell fixing part 24 at which the bent ends overlap. Is formed.

The bent end of the magnet shell 21 is placed on the fitting groove 22a formed at the edge of the piston 22, and the fixing member 24 is disposed between the piston 22 and the leaf spring 23. And the piston 22 through the magnet shell and the magnet shell fixing member 24 with the fastening bolt 25 on the outer surface of the leaf spring 23 (that is, the surface that is not in contact with the magnet shell). Tighten in turn, to join.

In the magnet shell fixing device of the present invention, which is configured as described above, when an AC voltage is applied to the coil of the linear motor, the magnet shell 21 performs left and right reciprocating motion using the fastening bolt 25 as a driving center. The piston 22 integrated with the magnet shell 21 will also reciprocate together. Here, one end of the magnet shell 21 is placed on the edge of the piston 22, and the magnet shell fixing member 24 is integrally compressed thereon, so that the driving center of the magnet shell 21 and the piston ( The driving centers of 220 are coincident.

In the magnet shell fixing device according to the present invention, the magnet shell is integrally formed when the magnet shell is crimped to the edge of the piston, thereby facilitating the fixing operation of the magnet shell, thereby improving productivity and workability as well as reciprocating motion of the piston. The driving center of the sea magnet shell coincides with the driving center of the piston, thereby preventing distortion of the magnet shell and consequently scratching or dropping of the magnet.

Claims (2)

A magnet shell having a plurality of magnets attached to its outer circumference, a piston reciprocating inward of the magnet shell, a leaf spring integrated with the piston for supplying restoring force, and a piston plate for compressing the magnet shell against the piston. A magnet shell fixing device for a linear compressor, characterized in that it comprises a magnet shell fixing member for integrating to a spring. The linear compression of claim 1, wherein the magnet shell fixing member is interposed between the piston and the leaf spring each having a fastening hole formed in a straight line, and a through hole is formed to correspond to the fastening hole and is fixed with a fastening bolt. Fixing device for magnetic magnet shell.