KR100633067B1 - Reciprocating compressor - Google Patents

Abstract

The present invention relates to a reciprocating compressor having an improved linear motor structure, comprising: a cylinder (20) having a piston (22) therein; A linear motor 30 disposed outside the cylinder 20 and having an inner core 32, an outer core 34, and a magnet 36; It includes a movable member 40 for reciprocating the piston 22 in the cylinder 20 by the drive of the linear motor 30, the inner core 32 is formed with a magnet insertion groove 31, the magnet ( 36 is characterized in that is inserted into the magnet insertion groove (31). Accordingly, the output efficiency of the linear motor can be maximized, and the magnet can be firmly maintained even during long-term use.

Cylinder, Inner Core, Outer Core, Magnet, Movable Member, Magnet Insertion Groove

Description

Reciprocating Compressor {RECIPROCATING COMPRESSOR}

1 is a cross-sectional view showing a reciprocating compressor according to the present invention,

Figure 2 is a cross-sectional view showing a magnet coupling state of the linear motor in the reciprocating compressor according to the present invention,

Figure 3 is a longitudinal sectional view showing a magnet coupling state of the linear motor in the reciprocating compressor according to the present invention,

Figure 4 is a longitudinal sectional view showing another embodiment of the magnet coupled state of the linear motor in the reciprocating compressor according to the present invention.

            <Description of Symbols for Main Parts of Drawings>

           20: piston 22: cylinder

           30: linear motor 31: magnet insertion groove

           32: inner core 33: flux leakage prevention groove

           34: outer core 36: magnet

           40: movable member

The present invention relates to a reciprocating compressor, and more particularly, to a reciprocating compressor having an improved linear motor structure.

In general, a compressor is a device that sucks and compresses a refrigerant in a product using a refrigeration cycle such as a refrigerator or an air conditioner. It is divided into rotary compressor to compress.

In particular, the reciprocating compressor has an advantage of high efficiency due to relatively low energy loss compared to other types of compressors. The reciprocating compressor is provided in the sealed container, the drive unit for generating power by receiving an external power; It comprises a compression unit for sucking and compressing the refrigerant gas using the power of the drive unit. As a driving unit, a linear motor is usually used.

Conventional reciprocating compressors include a cylinder with a built-in piston; A linear motor disposed outside the cylinder; It comprises a movable member for reciprocating the piston in the cylinder by the drive of the linear motor. The linear motor includes an outer core; An inner core spaced apart from the inner core; And a magnet provided between the outer core and the inner core.

However, in the reciprocating compressor having the above structure, air gaps exist in the inside and the outside of the magnet, so that the air gap is increased, so that a leakage flux occurs, thereby maximizing the thrust of the linear motor. On the other hand, there is a case in which the magnet is attached to the inner core in order to reduce the voids, which is not only easy to attach the magnet, but also has a disadvantage in that the adhesion force is lowered when used for a long time.

The present invention has been made to solve the above problems, and an object of the present invention is to provide a reciprocating compressor capable of minimizing the gap between the magnet and the inner core, and also maintaining the mated state of the magnet.

In order to achieve the above object, the present invention, the piston is built-in; A linear motor disposed on an outer side of the cylinder and having an inner core, an outer core, and a magnet; In the reciprocating compressor including a movable member for reciprocating the piston in the cylinder by the drive of the linear motor, the inner core is formed with a magnet insertion groove, the magnet minimizes the gap with the inner core And it is characterized in that it is inserted into the magnet insertion groove to prevent external departure.

The magnet is preferably fully inserted or partially inserted into the magnet insertion groove.

Preferably, the inner core is longer than the length of the outer core.

At least one magnetic flux leakage preventing groove is formed in the inner core so as to be adjacent to the magnet.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

As shown in Figures 1 to 4, the reciprocating compressor according to the present invention comprises a cylinder (20) with a built-in piston 22; A linear motor 30 disposed outside the cylinder 20; It comprises a movable member 40 for reciprocating the piston 22 in the cylinder 20 by the drive of the linear motor (30).

The cylinder 20 and the piston 22 serve to suck and compress the refrigerant using the power generated from the linear motor 30, and the cylinder 20 has a compression chamber 23 in which the piston 22 reciprocates. Cylinder block 24 having a; And a cylinder block 27 having a suction chamber 25 and a discharge chamber 26. The cylinder block 24 sucks and discharges the refrigerant through the suction chamber 25 and the discharge chamber 26 as the piston 22 reciprocates.

The linear motor 30 is provided inside the sealed container 10 to generate power by receiving an external power source, and includes an inner core 32 provided outside the cylinder block 24; An outer core 34 surrounding the outer core 32 and wound around the inner core 32; And a magnet 36 which electromagnetically interacts with the inner core 32 and the outer core 34 to reciprocate along the vertical direction.

The inner core 32 and the outer core 34 have a ring shape and are arranged in a concentric circle structure. The inner core 32 has a magnet insertion groove 31 formed therein, and the magnet 36 is inserted into the magnet insertion groove 31. The magnet insertion groove 31 minimizes the gap between the magnet 36 and the inner core 32 to maximize the efficiency of the linear motor 30 by allowing the magnetic flux generated in the outer core 34 to be concentrated in the magnet 36. And also serves to prevent the departure of the magnet 36.

The magnet 36 is preferably fully inserted into the magnet insertion groove 31 as in FIG. 3, or partially inserted into the magnet insertion groove 31 as in FIG. 4. That is, the outer surface of the magnet 36 coincides with the outer circumferential surface of the inner core 32, or the outer surface of the magnet 36 has a structure that partially protrudes from the outer circumferential surface of the inner core 32. The insertion structure of the magnet 36 can be appropriately changed as necessary.

In addition, at least one magnetic flux leakage preventing groove 33 is formed in the inner core 32 at a position adjacent to the magnet 36 to maintain an artificial magnetic flux path, that is, to effectively prevent magnetic flux leakage.

The outer core 34 is formed by stacking a plurality of electrical steel sheets, and upper and lower ends thereof are firmly supported by the cylinder block 24 and the support frame 60 by the fastening force of the fastening member 50.

The inner core 32 preferably has a length longer than that of the outer core 34 so as to prevent distortion of the thrust force of the linear motor 30.

The movable member 40 is located in the upper region of the cylinder 30 and is integrally connected to the inner core 32 and the piston 22. The movable member 40 is interlocked by the reciprocating motion of the magnet 36 to enable the piston 22 connected thereto to reciprocate in the compression chamber 23 of the cylinder block 24.

The upper region of the movable member 40 and the support frame 60 is provided with a resonance spring 70 for doubling the up and down movement of the piston 22, between the support frame 60 and the resonance spring 70 The spacer 72 for holding the position of the piston 22 is provided.

As described above, according to the present invention, it is possible not only to maximize the output efficiency of the linear motor, but also to maintain a firmly coupled state of the magnet even in long-term use.

Claims (5)

A cylinder with a built-in piston; A linear motor disposed on an outer side of the cylinder and having an inner core, an outer core, and a magnet; In the reciprocating compressor including a movable member for reciprocating the piston in the cylinder by the drive of the linear motor, The inner core is provided with a magnet insertion groove into which the magnet is inserted, and at least one magnetic flux leakage preventing groove to be adjacent to the magnet to minimize gaps with the inner core and prevent external detachment. Reciprocating compressor. The method of claim 1, The magnet is a reciprocating compressor, characterized in that inserted entirely into the magnet insertion groove. The method of claim 1, And the magnet is partially inserted into the magnet insertion groove. The method according to any one of claims 1 to 3, Reciprocating compressor, characterized in that the inner core is longer than the length of the outer core. delete

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