KR100314074B1 - Structure for fixing magnet cover of linear motor in compressor - Google Patents

Abstract

The present invention relates to a magnet cover fixing structure of a linear motor for a compressor, and a welded portion that receives a magnet and is welded to the magnet frame, and a bending portion that is bent and pressed to the magnet frame by accommodating the magnet and cuts alternately at the edge of the magnet cover. By forming and welding and bending the magnet cover to the magnet frame, the magnet cover is supported at multiple points on the magnet frame in a different supporting manner, so that the binding force of the magnet cover is strengthened and the magnet assembly continues to resonate even if the magnet assembly is continuously resonant. It is possible to prevent the magnet cover from being removed from the magnet frame.

Description

Magnet cover fixing structure of linear motor for compressor {STRUCTURE FOR FIXING MAGNET COVER OF LINEAR MOTOR IN COMPRESSOR}

The present invention relates to a magnet cover fixing structure of a linear motor, and more particularly, to a magnet cover fixing structure of a linear motor for a compressor for fixing a magnet cover protecting a magnet in a magnet assembly of a linear motor applied to a linear compressor.

In general, the linear motor transforms a magnetic field of a three-dimensional motor into a flat plate shape, and the flat-shaped mover is also placed on the upper side of the flat stator to move linearly according to the magnetic field change of the stator. It is.

Recently, the stator is formed into a cylindrical shape having an inner stator and an outer stator, and a winding coil for generating an induction magnet is mounted on either one of the inner stator and the outer stator, and a magnet is interposed between the inner stator and the outer stator. However, a linear motor for a compressor has been introduced in which a magnet is arranged such that the polarity of the magnet is arranged in the axial direction of the stator.

1 is a longitudinal sectional view schematically showing an example of a conventional linear motor for a compressor.

As shown in the drawings, a conventional linear motor for a compressor (hereinafter, referred to as a linear motor) includes an outer stator 1 in which a plurality of stator cores are stacked and a stator coil 1a is mounted therein to generate an induction magnet. And an inner stator 2 disposed inside the outer stator 1 to form a path of the induction magnet, and interposed between the outer stator 1 and the inner stator 2 to form a straight line. It comprises a magnet assembly (10) moving to, and a resonant spring (3) for inducing a resonant movement by elastically supporting one side of the magnet assembly (10).

The magnet assembly 10 is formed in a disc shape and is fastened to a predetermined component such as a piston 4, and a magnet holder 11 fastened to one side of the magnet holder 11, thus allowing the outer stator 1 to be described. A magnet frame 12 interposed between the inner stator 2 and having a cylindrical shape such that a plurality of magnets M are attached to the outer circumferential surface at equal intervals, and a magnet M attached to the outer circumferential surface of the magnet frame 12. It is made of a magnet cover 13 of a cylindrical shape so as to surround the support.

Since the width of the magnet cover 13 is longer than the length of the magnet M and is in contact with the magnet frame 12, the magnet cover 13 is welded to the magnet frame 12 by welding a portion that is in contact with the magnet frame 12. It is fused to (12).

In the drawings, reference numeral 5 denotes a suction valve, 6 a cylinder, 7 a discharge valve, 12a a magnet mounting groove, c a cover, f a frame, and p a welding point.

The operation of the conventional linear motor for a compressor as described above is as follows.

That is, when a current is applied to the stator coil 1a mounted on the outer stator 1, an induction magnet is generated in the outer stator 1 by the applied current, and the induction magnetism with the inner stator 2 is applied. The magnet assembly 10 compresses the resonant spring 3 by pulling the magnet M while forming a magnetic field therebetween, and the current applied to the stator coil 1a is cut off at the same time as the resonant spring 3. By the restoring force of), a series of resonant motions in which the magnet assembly 10 elastically returns quickly is repeated, and the piston 4 fastened to the magnet assembly 10 during the resonant motion of the magnet assembly 10 has a cylinder. The inside of (6) was to function as a normal compressor which sucks and compresses and discharges refrigerant while performing a linear reciprocating motion.

However, in the conventional linear motor for a compressor as described above, although one end of the magnet cover 13 supporting the magnet M is fixed to the magnet frame 12 by spot welding, the magnet cover 13 is thin. The welding work itself is made of a plate material, and even if the welding, even if the welding strength is weak, the magnet cover 13 is supported on the magnet frame 12 by one point, so that the magnet cover during continuous linear movement of the magnet assembly 10 As the 13 was removed from the magnet frame 12, there was a fear that the magnet M was broken.

The present invention has been made in view of the problems of the conventional linear motor for the compressor, and the binding force of the magnet cover to prevent the magnet cover of the thin plate is removed from the magnet frame even if the magnet assembly is continuously resonant movement. It is an object of the present invention to provide a magnet cover fixing structure of the linear motor for this reinforced compressor.

1 is a longitudinal sectional view showing an example of a conventional linear motor for a compressor.

Figure 2 is a half sectional view showing a magnet assembly of a conventional linear motor for a compressor.

Figure 3 is a longitudinal sectional view showing an example of the linear motor for a compressor of the present invention.

Figure 4 is a half sectional view showing a magnet assembly of the linear motor for a compressor of the present invention.

Figure 5 is a perspective view showing a magnet assembly of the linear motor for a compressor of the present invention.

Figure 6a and Figure 6b is a plan view showing a magnet cover of the linear motor for a compressor of the present invention.

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

110: magnet holder 120: magnet frame

130,230: Magnet cover 131,231: Front side bend

132,232: rear bent portion 133,233: welded portion

In order to achieve the object of the present invention, in the magnet assembly of the compressor linear motor, a plurality of magnets are attached to the outer circumferential surface of the magnet frame, and a magnet cover surrounding the outer circumferential surface of the magnet is fixed to the magnet frame;

A welding part welded to the magnet frame by accommodating the magnet and a bending part bent and compressed by the magnet frame by accommodating the magnet to form an incision at an edge of the magnet cover to bend and fix the magnet cover to the magnet frame. A magnet cover fixing structure of a linear motor for a compressor is provided.

EMBODIMENT OF THE INVENTION Hereinafter, the magnet cover fixing structure of the linear motor for compressors which concerns on this invention is demonstrated in detail based on one Example shown in an accompanying drawing.

Figure 3 is a longitudinal sectional view showing an example of the linear motor for a compressor of the present invention, Figure 4 is a half sectional view showing a magnet assembly of the linear motor for a compressor of the present invention, Figure 5 is a perspective view showing a magnet assembly of the linear motor for a compressor of the present invention. 6A and 6B are plan views showing a magnet cover of the linear motor for a compressor of the present invention.

As shown therein, a linear motor for a compressor having a magnet cover fixing structure according to the present invention includes an outer stator 1 in which a plurality of stator cores are stacked and a stator coil 1a is mounted therein, and the outer stator. Inner stator 2 disposed inside (1), the magnet assembly 100 interposed between the outer stator 1 and the inner stator (2), and one side of the magnet assembly 100 elastically It comprises a resonant spring (3) for supporting.

The magnet assembly 100 is formed in a disc shape and fastened to a predetermined part such as a piston 4, and a magnet holder 110 fastened to one side of the magnet holder 110 so as to the outer stator 1 described above. A magnet frame 120 interposed between the inner stator 2 and having a cylindrical shape such that a plurality of magnets M are attached to the outer circumferential surface at equal intervals, and a magnet M attached to the outer circumferential surface of the magnet frame 120. ) Is formed in a cylindrical shape so as to surround and support the magnet cover 130 which is fixed at both ends thereof by welding and pressing the magnet frame 120.

The magnet cover has a width that is longer than the length of the magnet (M) is bent (131, 132) is bent to wrap around the end of the movement direction of the magnet (M) is formed on the front and rear, respectively, the magnet ( A welding portion 133 is formed between the rear bend portions 132 to surround M) and be welded to the magnet frame 120 by spot welding.

The bent portions 131 and 132 may be formed at both ends of the magnet cover 130, and among the bent portions 131 of the front side (that is, the side not supported by the resonance spring), the magnet M may be a magnet frame ( In consideration of being disposed at the near end of the 120, it is collectively bent to accommodate up to the front end of the magnet frame 120, while the rear bent portion 132 of the magnet cover 130 is cut off the edge well It is made by bending a moderate dog. The welding part 133 is used as the bent part 132 at the rear end of the magnet cover 130 and is made by welding the remaining cut pieces to the outer circumferential surface of the magnet frame 120.

In the drawings, the same reference numerals are given to the same parts as in the prior art.

In the drawings, reference numeral 5 denotes a suction valve, 6 a cylinder, 7 a discharge valve, 121 a magnet mounting groove, 230 a magnet cover, 231 a front bend, 232 a rear bend, 233 a weld, and c Is a cover, f is a frame, and p is a welding point.

The magnet of the linear motor for a compressor having the fixing structure of the magnet cover according to the present invention as described above is assembled as follows.

First, the magnet M is inserted into and attached to the magnet mounting groove 121 of the magnet frame 120, and then the magnet cover 130 is covered to cover all of the magnet M, and then the magnet cover. The front side bent portion 131 of the 130 is bent to be in close contact with the front end surface of the magnet frame 120, while the bent portion 132 provided at the rear end of the magnet cover 130 is bent and The weld 133 is fixed to the magnet frame 120 by spot welding to complete the assembly of the magnet cover 130.

As such, when the magnet cover 130 is welded to the plane of the magnet frame 120 and both ends of the magnet cover 130 are bent and compressed to the side of the magnet frame 120, the magnet cover 130 is fixed. In addition to having a primary fixing force due to welding to the magnet frame 120, the magnet cover 130 has a secondary fixing force due to bending to the magnet frame 120, the magnet cover 130 is a magnet frame ( 120) is firmly fixed. In addition, since the magnet cover 130 is welded to the magnet frame 120, the welding can be easily performed because the welding is performed by a simple spot welding.

The magnet cover fixing structure of the linear motor for a compressor according to the present invention is alternately welded to the magnet frame to receive the magnet and a bending part to receive the magnet and bent and compressed to the magnet frame to the edge of the magnet cover. By cutting and forming the magnet cover to the magnet frame by welding and bending, the magnet cover is supported on the magnet frame in multiple ways by different support methods, so that the binding force of the magnet cover is strengthened and the magnet assembly continuously performs resonance motion. Even if the magnet cover of the thin plate can be prevented from being removed from the magnet frame.

Claims (1)

A magnet assembly of a compressor linear motor, wherein a plurality of magnets are attached to an outer circumferential surface of a magnet frame, and a magnet cover surrounding the outer circumferential surface of the magnet is fixed to the magnet frame; A welding part which receives the magnet and is welded to the magnet frame; The magnet cover fixing structure of the compressor linear motor, characterized in that the bent portion that is bent and compressed to the magnet frame by accommodating the magnet is formed at the edge of the magnet cover to bend and fix the magnet cover to the magnet frame.