KR100529935B1 - Bobbin and out stator fixing structure of linear motor - Google Patents

Abstract

The present invention relates to a bobbin and an outer stator assembly structure of a linear motor capable of quickly assembling a bobbin and an outer stator, wherein a first protrusion is formed at one side of the bobbin and the outer stator and the first protrusion is inserted at the other side. A first groove is formed to fit the first protrusion to the first groove, and a second groove is formed at one side of the outer stator and the stator cover and a second groove is formed at the other side to insert the second protrusion; It is characterized by fitting a 2 protrusion to a 2nd groove.

Description

Bobbin and out stator fixing structure of linear motor

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a linear motor, and more particularly, to a bobbin and an outer stator assembly structure of a linear mirror for fitting and assembling a bobbin and an outer stator.

In general, a motor is a device that converts electrical energy into mechanical energy, and is used in almost all mechanical devices such as a compressor, a blower, and a pump, and a motor that rotates or moves linearly by an electromagnetic force formed between the stator and the stator. It consists of a ruler.

The motor may be classified into a rotary motor in which the mover rotates, a linear motor in which the mover linearly reciprocates, and a vibration motor in which the mover vibrates according to the movement method of the mover.

1 is a schematic cross-sectional view showing a linear compressor equipped with a linear motor according to the prior art.

In the conventional linear compressor, as shown in FIG. 1, the airtight container 1, a compression unit 4 composed of a piston 2 and a cylinder 3 for compressing a gas refrigerant, and the piston 2 are cylinders. (3) It consists of the linear motor 10 comprised from the stator 5 and the mover 6 which linearly reciprocate inside.

The stator 5 includes a coil 11, a bobbin 12 wound with the coil 11, an outer stator 14 receiving a portion of the bobbin 12 and disposed radially to the bobbin, The outer stator 14 and the inner stator 20 having a predetermined gap.

The outer stator 14 is divided into a plurality of parts and comprises a first and second outer stators 15 and 16 in which a part of the bobbin 12 is enclosed and a plurality of steel sheets are stacked.

On the outer circumference of the bobbin 12 and the first and second outer stators 15 and 16, a stator cover 19 of plastic resin is covered by overmolding.

The mover may include a magnet 22 positioned between the outer stator 14 and the inner stator 20, and the magnet 22 may transmit the linear movement of the magnet 22 to the piston 2. And a magnet frame 24 mounted and fixed to the piston 2.

Reference numeral 30 denotes a refrigerant passage formed in the piston 2, reference numeral 31 denotes a suction valve operated by a gas refrigerant to open and close the refrigerant passage 30, and reference numeral 32 denotes a gas refrigerant. By the discharge valve for opening and closing the cylinder 3 by the reference numeral 33 is a suction connection pipe connected to the sealed container (1).

In the linear compressor as described above, when a voltage is applied to the coil 11, the linear motor 10 operates to linearly reciprocate the magnet 22, and the linear reciprocating motion of the magnet 22 is performed by the magnet frame ( It is transmitted to the piston 2 via 24 so that the piston 2 reciprocates linearly in the cylinder 3.

The discharge valve 32 and the suction valve 31 are opened and closed together with the linear reciprocating motion of the piston 2, and the gas refrigerant is sucked into the sealed container 1 through the suction connecting pipe 33. It is sucked into the cylinder (3) through the refrigerant passage (30) of the piston (2), is compressed to a high pressure by the piston (2) is discharged to the outside of the sealed container (1) through a discharge tube (not shown).

Figure 2 is a schematic diagram showing the assembly structure of the outer stator and the bobbin of the linear motor according to the prior art, Figure 3 is an enlarged perspective view showing the state in which the outer stator of the linear motor according to the prior art is assembled to the bobbin.

2 and 3, the linear motor is assembled by stacking a plurality of steel sheets to assemble each of the first and second outer stators 15 and 16, and the coil 11 to the bobbin 12. In the state in which a part of the bobbin 12 is surrounded by the first and second outer stators 15 and 16, the bobbin 12 and the first and second outer stators 15 and 16 are finally wrapped. ) Is put in an over-mold mold (not shown) so that the outer circumferences of the bobbin 12 and the first and second outer stators 14 are covered by the stator cover 19 of the plastic resin.

However, the assembly structure of the linear motor according to the prior art is the outer stator 14 is covered with the over-molded stator cover 19 and fixed with the bobbin 12, so that its fixing is not firm, and the stator cover 19 There is a problem in that the cost is increased due to the overmolding operation

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems of the prior art, and an object thereof is to provide a bobbin and outer stator assembly structure of a linear motor capable of quickly assembling the bobbin and the outer stator at low cost.

The bobbin and the outer stator assembly structure of the linear motor according to the present invention for solving the above problems is that the first projection is formed on one side of the bobbin and the outer stator and the first groove is inserted into the other side is formed The first protrusion is fitted into the first groove, and a second groove is formed at one side of the outer stator and the stator cover and a second groove is formed at the other side to insert the second protrusion. It is characterized by fitting.

In addition, in the bobbin and the outer stator assembly structure of the linear motor according to the present invention, a first fastening hole is formed in the stator cover, and a second fastening hole is formed in the bobbin to coincide with the first fastening hole, so that the outer stator surrounds a part of the bobbin. It is cheap and the stator cover is characterized in that for fastening the fastening bolt to the first fastening hole and the second fastening hole while pressing the outer stator to the bobbin side.

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

4 is a schematic cross-sectional view showing a linear compressor equipped with a linear motor according to the present invention.

As shown in FIG. 4, the linear compressor equipped with the linear motor according to the present invention is a linear compressor according to the present embodiment. As shown in FIG. 4, the lower container 102 of which the upper surface of the airtight container 100 is opened is opened. ) And an upper cover 104 covering an upper surface of the lower container 102.

The cylinder block 110 having the cylinder 109 is mounted on the first damper 106 mounted on one side of the lower container 102 to be buffered and supported by the inside of the hermetic container 100. The back cover 120 having the furnace 120a is mounted on the second damper 108 mounted on the other side of the lower container 102 to be bufferably supported, and the cylinder block 110 and the back cover 120 are supported. The linear motor 130 for generating a driving force for compressing the refrigerant is disposed between the linear motor 130, and linearly reciprocating the inside of the cylinder 109 while compressing the refrigerant in the cylinder 109 The piston 150 is connected.

The linear motor 130 is composed of a stator and a mover to linearly reciprocate the mover by a magnetic force formed in the stator.

The stator includes a coil 131, a bobbin 132 wound around the coil 131, an outer stator 134 in which a part of the bobbin 132 is accommodated and disposed radially on the bobbin 132; It consists of an inner stator 138 having a predetermined gap with the outer stator 134.

The bobbin 132 is composed of a hollow cylindrical inner peripheral portion and both sides protruding outward in the radial direction from both ends of the inner peripheral portion.

The outer stator 134 surrounds a part of the bobbin 132 and is divided into first and second outer stators 135 and 136 in which a plurality of steel sheets are stacked.

The outer stator 134 is disposed to surround the bobbin 132, is fitted and coupled to the bobbin 132 by a protrusion and a groove to be described later, and part of the outer stator is surrounded by the stator cover 140 and the stator The cover 140 is more firmly coupled to the bobbin 132 as the bobbin 132 is coupled to the fastening bolt 142.

Here, the stator cover 140 is to press the outer stator 134 to the bobbin 132 side, made of a plastic resin, it is possible to surround the entire outer stator 134, in consideration of the material cost It is preferable to surround only part of the outer stator 134.

The inner stator 138 is fixedly coupled to the cylinder block 110 by a fastening means such as a fastening member.

The mover may include a magnet 146 positioned between the outer stator 140 and the inner stator 142, and the magnet 146 may transmit the linear motion of the magnet 146 to the piston 150. And a magnet frame 148 mounted and fixed to the piston 150.

The piston 150 has a refrigerant passage 152a formed to allow the refrigerant sucked through the refrigerant suction passage 120a of the back cover 120 to pass therethrough, and is fixed to the magnet frame 148. The government 152 protrudes in the circumferential direction, the first spring 152b disposed between one surface of the frame fixing portion 152 and the cylinder block 110, and the other surface and the back of the frame fixing portion 152. The second spring 152c disposed between the cover 120 can be bufferably supported by the cylinder block 110 and the back cover 120.

On the other hand, the linear compressor is mounted to the piston 150 to open and close the refrigerant passage (152a) and the suction valve 160, and is mounted to the cylinder block 110 to open and close the cylinder 109 It further comprises a discharge valve 170 for forming a compression chamber (C) between the piston 150.

In addition, reference numeral 182 is an inlet connection pipe connected to the sealed container 100 to suck refrigerant from the outside, and reference numeral 184 is a loop pipe guided through the discharge valve, and reference numeral 186 is One end is connected to the roof pipe 184 and penetrates the airtight container 100 and extends to the outside of the airtight container 100.

Looking at the operation of the present invention configured as described above are as follows.

First, when a voltage is applied to the coil 131, a magnetic field is formed around the coil 131, the magnet 146 is linearly reciprocated by the interaction with the magnetic field, the magnet frame 148 While linearly reciprocating with the magnet 146, the piston 150 is linearly reciprocated into the cylinder 109.

At this time, the suction valve 160 and the discharge valve 170 is opened and closed by the flow of the gas refrigerant according to the linear reciprocating motion of the piston 150, the gas refrigerant is introduced into the sealed container 100. After passing through the refrigerant suction passage 120a of the back cover 120 and the through passage 152a of the piston 150, the suction is sucked into the compression chamber C.

The refrigerant sucked into the compression chamber C is compressed by the piston 150, and then passes through the discharge valve 170, the roof pipe 184, and the discharge connection pipe 186, in order to close the sealed container 100. It is discharged to the outside.

5 is an exploded perspective view showing the assembly structure of the bobbin and the outer stator of the linear motor according to the present invention, FIG. 6 is a cross-sectional view taken along the line A-A of FIG. 5, and FIG. 7 is a cross-sectional view taken along the line B-B of FIG.

In the bobbin and the outer stator assembly structure of the linear motor according to the present invention, as shown in FIGS. 5 to 6, the first protrusion 132a is formed on one side of the bobbin 132 and the outer stator 134 and the other side is formed on the other side. A first groove 134a into which the first protrusion 132a is inserted is formed to fit the first protrusion 132a to the first groove 134a.

In addition, a second protrusion 140a is formed at one side of the outer stator 134 and the stator cover 140, and a second groove 134b is formed at the other side thereof to insert the second protrusion 140a. The two protrusions 140a are fitted into the second grooves 134b.

When the outer stator 134 is formed with the first protrusion 132a or the second protrusion 140a, the first protrusion 132a or the second protrusion 140a may be formed on at least two or more steel sheets in a continuous steel plate. Is formed, and when the first groove 134a or the second groove 134b is formed, the first groove 134a or the second groove 134b is formed in at least two or more steel sheets in a continuous steel sheet. .

5 and 7, a first fastening hole 140b is formed in the stator cover 140, and a second coincidence with the first fastening hole 140b is formed in the bobbin 132. A fastening hole 132b is formed so that the outer stator 134 surrounds a part of the bobbin 132 and the stator cover 140 pushes the outer stator 134 toward the bobbin 132 to fasten the first fastening. The fastening bolt 142 is fastened to the ball 140b and the second fastening hole 132b.

That is, in the bobbin and outer stator assembly structure of the linear motor according to the present invention, the bobbin 132 and the outer stator 134 are coupled to each other by fitting the first protrusion 132a to the first groove 134a, and the second The outer stator 134 and the stator cover 140 are coupled to each other by fitting the protrusion 140a into the second groove 134b. Finally, the stator cover 140 is fastened to the bobbin 132 by a fastening bolt 142. As combined, the outer stator 134 and the bobbin 132 are more firmly fixed.

Here, the stator cover 140 is composed of a plurality of covers surrounding a part of each of the outer stator 134 in consideration of the reduction of the material cost.

The stator cover 140 may include a cover part 141a surrounding a part of the outer stator 134 and a fixing part bent at the cover part 141a to be in close contact with the bobbin 132 and having the first fastening hole ( 141b).

The cover part 141a is formed in a 'c' shape and surrounds three surfaces of the outer stator 134.

The fixing part 141b protrudes perpendicularly to both sides of the cover part 141a.

Meanwhile, when the fastening bolt 142 is fastened, the bobbin 132 has the second fastening hole 132b in consideration of the damage around the second fastening hole 132b and the fastening force of the fastening bolt 142. The formed boss 132b protrudes.

On the other hand, the present invention is not limited to the above embodiment, the first fastening hole 140b formed in the stator cover 140, the second fastening hole 132b formed in the bobbin 132, and the first It is also possible to assemble the bobbin 132 and the outer stator 134 using only the fastening bolt 142 fastened to the fastening hole 140b and the second fastening hole 132b.

That is, without forming and fitting the first protrusion 132a, the first groove 134a, the second protrusion 140a, and the second groove 134b, the outer stator 134 may partially remove the bobbin 132. When the stator cover 140 is fastened to the first fastening hole 140b and the second fastening hole 132b while the stator cover 140 pushes the outer stator 134 to the bobbin 132 side, The bobbin 132 and the outer stator 134 are quickly assembled in a simple structure.

The bobbin and the outer stator assembly structure of the linear motor according to the present invention configured as described above is fitted into the first groove formed on the other side of the bobbin and the outer stator, the one side of the outer stator and the stator cover The formed second protrusion is fitted into the second groove formed on the other side, so that the bobbin and the outer stator can be quickly assembled at low cost.

In addition, the bobbin and the outer stator assembly structure of the linear motor according to the present invention has a first fastening hole formed in the stator cover and a second fastening formed in the bobbin while the outer stator surrounds a part of the bobbin and the stator cover presses the outer stator to the bobbin side. As the fastening bolt is fastened to the ball, there is an advantage that the bobbin and the outer stator can be firmly fixed.

In addition, the bobbin and the outer stator assembly structure of the linear motor according to the present invention has the advantage that the stator cover is composed of a plurality of covers surrounding a part of the outer stator, thereby reducing the material cost.

In addition, the bobbin and the outer stator assembly structure of the linear motor according to the present invention has the advantage that the boss with the second fastening hole is formed in the bobbin to prevent damage around the second fastening hole, and to increase the fastening force of the fastening bolt. have.

1 is a schematic cross-sectional view showing a linear compressor equipped with a linear motor according to the prior art.

Figure 2 is a schematic diagram showing the assembly structure of the outer stator and bobbin of the linear motor according to the prior art,

3 is an enlarged perspective view illustrating a state in which an outer stator of a linear motor according to the prior art is assembled to a bobbin;

4 is a schematic cross-sectional view showing a linear compressor equipped with a linear motor according to the present invention;

5 is an exploded perspective view showing the assembly structure of the bobbin and the outer stator of the linear motor according to the present invention;

6 is a cross-sectional view taken along the line A-A of FIG.

7 is a cross-sectional view taken along the line B-B in FIG.

<Explanation of symbols on main parts of the drawings>

130: linear motor 131: coil

132: bobbin 132a: the first projection

132b: second fastener 134: outer stator

134a: first groove 134b: second groove

138: inner stator 140: stator cover

140a: 2nd protrusion 140b: 1st fastening hole

142: fastening bolt 146: magnet

148: magnet frame

Claims (8)

A first groove is formed at one side of the bobbin and the outer stator and a first groove is formed at the other side to insert the first protrusion to fit the first protrusion to the first groove. The bobbin of the linear motor, characterized in that the second projection is formed on one side of the outer stator and the stator cover and the second groove is inserted into the other side to fit the second projection into the second groove. Outer stator assembly structure. The method of claim 1, A first fastening hole is formed in the stator cover, and a second fastening hole is formed in the bobbin to coincide with the first fastening hole, and the outer stator surrounds a part of the bobbin and the stator cover presses the outer stator to the bobbin side. The assembly structure of the bobbin and the outer stator of the linear motor, characterized in that the fastening bolt is fastened to the first fastening hole and the second fastening hole. The method according to claim 1 or 2, The stator cover is a bobbin of the linear motor and the outer stator assembly structure, characterized in that composed of a plurality of covers surrounding a portion of the outer stator. The method according to claim 1 or 2, And the stator cover includes a cover part surrounding a portion of the outer stator, and a fixing part bent at the cover part to be in close contact with the bobbin and having the first fastening hole formed therein. The method of claim 2, The bobbin is a bobbin and the outer stator assembly structure of the linear motor, characterized in that the boss protruding the second fastening hole is formed. A first fastening hole is formed in the stator cover, and a second fastening hole is formed in the bobbin to coincide with the first fastening hole, and the outer stator surrounds a part of the bobbin and the stator cover presses the outer stator to the bobbin side. A bobbin and an outer stator assembly structure of a linear motor, characterized in that the fastening bolt is fastened to the fastening hole and the second fastening hole. The method of claim 6, The stator cover is a bobbin of the linear motor and the outer stator assembly structure, characterized in that composed of a plurality of covers surrounding a portion of the outer stator. The method according to claim 6 or 7, And the stator cover includes a cover part surrounding a portion of the outer stator, and a fixing part bent at the cover part to be in close contact with the bobbin and having the first fastening hole formed therein.