KR100579581B1 - Linear compressor - Google Patents

Abstract

The linear compressor according to the present invention is provided with an initial value adjusting nut for adjusting the initial position of the piston between the main spring and the back cover, the rear of the back cover is provided with a fixing nut for fixing the bolt and the back cover of the stator cover, Since the initial value adjusting nut and the fixed nut are coupled to the bolt in a double nut manner, loosening of the initial value adjusting nut can be prevented and failure of the linear compressor can be prevented, thereby improving durability and reliability.

Linear compressor, stator cover, spring support, piston, initial value, nut, bolt, double nut

Description

Linear compressor {Linear compressor}             

1 is a cross-sectional view showing a linear compressor according to the prior art,

2 is a cross-sectional view showing a linear compressor according to a first embodiment of the present invention;

3 is a side view schematically showing the mounting structure of the main spring according to the first embodiment of the present invention;

Figure 4 is a side view schematically showing the mounting structure of the main spring according to the second embodiment of the present invention.

<Explanation of symbols on main parts of the drawings>

50: airtight container 51: inlet

52: first damper 53: second damper

54: cylinder 55: cylinder block

56: fluid suction pipe 57: back cover

58: piston 58a: suction flow path

58b: flange 59: suction valve

60: linear motor 60a: outer stator

60b: inner stator 60c: coil

60d: magnet 60e: magnet frame

61: inner discharge cover 62: discharge valve

63: outer discharge cover 64: discharge pipe

65: Stator cover 66: silencer

68: spring support 70: first main spring

72: second main spring 74: bolt

76: initial adjustment nut 78: fixing nut

The present invention relates to a linear compressor, and in particular, the initial value adjusting nut for adjusting the initial position of the piston and the fixing nut for fixing the back cover are configured to be coupled to the bolt of the stator cover in a double nut manner, thereby releasing the initial value adjusting nut. This prevents a linear compressor having improved durability and reliability.

In general, a linear compressor is a device that sucks, compresses and discharges a fluid while linearly reciprocating a piston inside a cylinder by using a linear driving force of a linear motor.

1 is a longitudinal sectional view of a linear compressor according to the prior art.

As shown in FIG. 1, the linear compressor according to the related art includes a sealed container 2 and a linear compression part positioned inside the sealed container 2 to compress the fluid.

One side of the sealed container (2) is mounted so that the suction port (4) through which the fluid is sucked in, and the linear compression unit to the first damper (6) and the second damper (8) installed in the sealed container (2) Is bufferably supported.

In addition, the linear compression unit includes a cylinder block 12 having a cylinder 10, a back cover 14 having a fluid suction pipe 14a, and a piston 16 removably disposed inside the cylinder 10. ), A linear motor 18 for driving the piston 16, and a discharge part 20 provided in front of the cylinder 10 to discharge the fluid compressed in the cylinder 10.

The discharge part 20 is connected to a discharge pipe 22 for guiding the fluid discharged from the cylinder 6 to the outside of the sealed container 2.

The linear motor 18 is largely composed of a stator and a mover. The stator includes an outer stator 18a, an inner stator 18b, and a coil 18c forming a magnetic field, and the mover includes the coil 18c. It consists of a magnet 18d linearly moved by a magnetic force formed in the periphery, and a magnet frame 18e to which the magnet 18d is fixed.

The cylinder block 12 is located in front of the outer stator 18a, and the stator cover 24 is mounted at the rear.

The piston 16 is arranged to retreat to the inside of the cylinder 10 by receiving the linear movement force of the magnet (18d), the rear is formed in an open cylindrical shape and there is formed a suction flow path through which fluid is sucked, At the rear, a flange portion 16a is formed to be fixed to the magnet frame.

In addition, a spring support 26 is coupled to the rear surface of the magnet frame 18e so as to be interlocked with the magnet frame 18e, and the spring support 26 elastically supports the linear reciprocating motion of the piston 16. The main spring is mounted.

The spring support 26 is fixed to the magnet frame 18e, and is located between the stator cover 24 and the back cover 14, and the main spring is the spring support 26 and the back cover 14 And a first main spring 28 mounted therebetween, and a second main spring 30 mounted between the spring support 26 and the stator cover 24.

Meanwhile, the stator cover 24 is provided with a bolt 32 to penetrate the spring support 26 and the back cover 14.

Through holes are formed in the spring support 26 and the back cover 14 so that the bolt 32 can pass therethrough, and the bolt 32 has an initial value adjusting nut 34 at the rear of the back cover 14. Combined by).

Referring to the operation of the linear compressor according to the prior art configured as described above are as follows.

When the linear motor 18 is operated, the magnet 18d makes a linear reciprocating motion, and the linear motion is transmitted to the piston 16 through the magnet frame 18e, so that the piston 16 A linear reciprocating motion is performed inside the cylinder 10.

When the piston 16 is linearly reciprocated in the cylinder 10, the fluid inside the sealed container 2 is sucked into the fluid suction pipe 14a of the back cover 14 to allow the cylinder 10 to move. After being compressed by the piston 16 therein, it is discharged to the outside of the sealed container 2 through the discharge part 20 and the discharge pipe 22.

In this case, when the piston 16 moves forward and backward, the piston 16 is bufferably supported by the first main spring 28 and the second main spring 30.

On the other hand, when assembling the piston 16 to be retractably disposed inside the cylinder 10, the initial position of the piston 16 should be properly aligned, the spring support 26 to the bolt 32 And the first main spring 28 and the back cover 14 are sequentially inserted, and then the initial value adjusting nut 34 is fastened to the bolt 32 at the rear of the back cover 14. You can adjust the initial position.

That is, the back cover 14 presses the first main spring 28 according to the extent to which the initial value adjusting nut 34 is wound, so that the spring supporter is supported by the elastic force of the first main spring 28. As the 26 is moved, the position of the piston 16 to which the spring support 26 is coupled is adjusted.

However, in the linear compressor according to the related art, the initial value adjusting nut 34 can be easily released by vibration or shock, and when the initial value adjusting nut 34 is released, the initial position of the piston 16 is changed. Not only can the compression ratio be lowered, but there is a problem that a failure of the linear compressor occurs due to the departure of the initial value adjusting nut 34.

On the other hand, in order to prevent the loosening of the initial value adjusting nut 34, when the initial value adjusting nut 34 is fixed in a manner such as welding after coupling the initial value adjusting nut 34 to the bolt 32, There is a problem that a failure or fatigue fracture of the welded portion 35 occurs, there is a limit to prevent the loosening of the initial value adjusting nut 34.

The present invention has been made to solve the above problems of the prior art, by preventing the release of the initial value adjusting nut for adjusting the initial position of the piston, thereby preventing the variation of the initial position of the piston to improve the compression efficiency, durability And to provide a linear compressor that can be improved in reliability.

According to an aspect of the present invention, a linear compressor includes: a stator cover fixed to a linear motor, a back cover disposed at a predetermined interval from the stator cover, a piston linearly reciprocating by the linear motor, and A spring support interposed between the stator cover and the back cover to interlock with the piston, a main spring mounted between the spring support and the back cover to elastically support the movement of the piston, and provided on the stator cover to the spring support And connecting means penetrating the back cover, an initial value adjusting means coupled to the connecting means between the main spring and the back cover and adjusting the initial position of the piston while supporting the main spring, and at the rear of the back cover. Fixing means for fixing the connecting means and the back cover And it characterized in that configured included.

In addition, the linear compressor according to the present invention includes a stator cover fixed to a linear motor, a back cover disposed at a predetermined interval apart from the stator cover, a piston linearly reciprocating by the linear motor, and the stator cover and the back cover. A spring support installed to interlock with the piston, a main spring mounted between the spring support and the back cover to elastically support the movement of the piston, and provided in the stator cover to penetrate the spring support and the back cover. And a first nut positioned in the main spring and coupled to the bolt, and a second nut coupled to the bolt at the rear of the back cover.

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

2 is a cross-sectional view showing a linear compressor according to a first embodiment of the present invention, Figure 3 is a side view schematically showing the mounting structure of the main spring according to the first embodiment of the present invention.

2 and 3, the linear compressor according to the first embodiment of the present invention includes a sealed container 50 and a linear compression part positioned inside the sealed container 50 to compress the fluid. do.

One side of the sealed container 50 is mounted so that the suction port 51 through which the fluid is sucked, and the linear compression unit is provided in the first damper 52 and the second damper 53 installed in the sealed container 50. Is bufferably supported.

In addition, the linear compression unit includes a cylinder block 55 having a cylinder 54, a back cover 57 having a fluid suction pipe 56 positioned to face the suction port 51, and the cylinder 54. A piston 58 removably disposed therein, a linear motor 60 for generating a driving force to linearly reciprocate the piston 58, and the cylinder to discharge the compressed fluid from the cylinder 54 It comprises a discharge part provided in front of the 54.

The linear motor 60 is largely composed of a stator and a mover. The stator includes an outer stator 60a, an inner stator 60b, and a coil 60c forming a magnetic field, and the mover includes the coil 60c. It consists of a magnet 60d linearly moved by a magnetic force formed in the periphery, and a magnet frame 60e to which the magnet 60d is fixed.

The piston is fixed to the magnet frame 60e so that the linear motion force of the magnet 60d can be transmitted to the piston. The piston 58 is inserted into one side of the cylinder 54 and the other side of the piston. It is fixed to the magnet frame 60e.

The piston 58 is formed in a cylindrical shape with the rear open, a suction flow path 58a through which fluid is introduced therein, and a flange 58b fixed to the front surface of the magnet frame 60e at the rear. do.

In addition, a suction port 58c for sucking a fluid into the compression chamber C of the cylinder 54 is formed on the front surface of the piston 58, and a suction valve 59 for opening and closing the suction port 58c is provided. Is mounted.

The discharge part is fixed to the cylinder block 55 and discharged to open and close the compression chamber C of the cylinder by being supported by an inner discharge cover 61 having a discharge hole at one side and a spring supported by the inner discharge cover 61. A valve 62 and an outer discharge cover 63 arranged to form a predetermined space on the outer side of the inner discharge cover 61, and the fluid discharged from the cylinder 54 in the outer discharge cover 63; The discharge pipe 64 for guiding the outside of the sealed container 50 is connected.

In addition, a silencer 66 is provided between the rear of the piston 58 and the fluid suction pipe 56 of the back cover 57 to reduce noise. The silencer main body 66a arrange | positioned at the back, and the introduction pipe 66b extended in the silencer main body 66a and inserted in the piston 58 is provided.

On the other hand, the cylinder block 55 is located in front of the outer stator 60a, the stator cover 65 is mounted at the rear, and the back cover 57 is spaced apart from the stator cover 65 by a predetermined interval. Is placed.

In addition, a spring support 68 is installed between the stator cover 65 and the back cover 57 so as to be interlocked with the piston 58 and the magnet frame 68e, and the spring support 68 is the magnet frame. Is coupled to the rear of the 60e.

The spring support 68 is equipped with a main spring that elastically supports the linear reciprocating motion of the piston 58.

The main spring may include a first main spring 70 mounted between the spring support 68 and the back cover 57, and a second main spring mounted between the spring support 68 and the stator cover 65. 72, the first main spring 70 is disposed on the top / bottom of the sealed container 50, the second main spring 72 is disposed on the left / right.

 On the other hand, the stator cover 65 is provided with connecting means for connecting the spring support 68 and the back cover 57 to the stator cover 65 through the spring support 68 and the back cover 57 do.

One end of the connecting means is fixed to the stator cover 65, and the other end is a bolt 74 formed to protrude toward the back cover 57 and having a thread formed on a circumferential surface thereof.

Here, the spring support 68 is formed with a through hole through which the bolt 74 penetrates in the forward and backward directions on the bolt 74 in conjunction with the piston 58 when the piston 58 moves forward and backward. do.

Meanwhile, the first main spring 70 is inserted into the bolt 74 between the spring support 68 and the back cover 57, and the first main spring 70 and the back cover 57 are provided. Between the first main spring 70 is spaced apart from the back cover 57 by a predetermined initial adjustment means for adjusting the initial position of the piston 58 is mounted.

The initial value adjusting means is an initial value adjusting nut 76 which is screwed with the bolt 74 between the first main spring 70 and the front of the back cover 57.

The initial value adjusting nut 76 is a fastening portion 76a having a screw thread formed on an inner circumferential surface thereof to be fastened to the bolt 74, and protrudes radially from the fastening portion 76a to support the first main spring 70. It consists of a sheet portion 76b formed to be.

In addition, the bolt 74 penetrating the back cover 57 is fixed to the back cover 57 by a fixing means, the fixing means is the bolt 74 at the rear of the back cover 57 And a fixing nut 78 screwed with.

Looking at the operation of the linear compressor according to the first embodiment of the present invention configured as described above are as follows.

When the linear motor 60 is operated, the magnet 60d is linearly reciprocated, and the linear motion is transmitted to the piston 58 through the magnet frame 60e, so that the piston 58 The linear reciprocating motion is performed inside the cylinder 54.

When the piston 58 is linearly reciprocated in the cylinder 54, the fluid inside the sealed container 50 is sucked into the fluid suction pipe 56 of the back cover 57 and the cylinder 54. After being compressed by the piston 58 in the interior, it is discharged to the outside of the sealed container 50 through the inner / outer discharge cover 61, 63 and the discharge pipe (64).

At this time, when the piston 58 is retracted, when the spring support 68 is retracted together with the piston 58, the first main spring 70 is compressed, and the piston 58 is advanced, As the spring support 68 is advanced, the second main spring 72 is compressed, and the first main spring 70 is elastically restored to elastically support the movement of the piston 58.

On the other hand, look at the process of adjusting the initial position of the piston 58 as follows.

First, the spring support 68 and the first main spring 70 are sequentially inserted into the bolt 74 fixed to the stator cover 65, and then the initial value adjusting nut 76 is inserted into the bolt 74. Screw in.

Here, the initial value adjusting nut 76 is fastened to the bolt 74, so that the initial value adjusting nut 76 presses the first main spring 70, and thus an elastic force of the first main spring 70 is obtained. By moving the spring support 68 coupled to interlock with the piston 58, the initial position of the piston 58 is determined.

That is, the spring support 68 is arranged to be spaced apart from the back cover 57 by the initial value adjusting nut 76, so that the initial position of the piston 58 coupled with the spring support 68 is Is determined.

Thereafter, the back cover 57 is mounted to the bolt 74, and the fixing nut 78 is screwed to the bolt 74 at the rear of the back cover 57.

Accordingly, since the initial value adjusting nut 76 and the fixing nut 78 are coupled to the bolt 74 in a double nut manner, the initial value adjusting nut 76 and the fixing nut 78 are pushed by the mutual pushing force. Loosening of the initial value adjusting nut 76 can be prevented.

Meanwhile, the present invention is not limited to the above embodiment, and the initial value adjusting means may use a spacer or the like so that the spring support 68 can be spaced apart from the back cover 57 by a predetermined interval.

Figure 4 is a side view schematically showing the mounting structure of the main spring according to the second embodiment of the present invention.

The linear compressor according to the second embodiment of the present invention includes a stator cover 80 fixed to a linear motor (not shown), a back cover 82 disposed to be spaced apart from the stator cover 80 by a predetermined interval, and the linear A piston (not shown) coupled to the magnet frame 84 of a motor (not shown) and the magnet to be interlocked with the piston (not shown) between the stator cover 80 and the back cover 82. A first main spring 88 mounted between the spring support 86 provided on the frame 84 and the spring support 86 and the back cover 82 to elastically support the movement of the piston (not shown); And a bolt 90 provided in the stator cover 80 and penetrating the spring support 86 and the back cover 82, and positioned inside the first main spring 88. A first nut 92 coupled to the bolt at the rear of the back cover 82; And a second nut 94 coupled to 90.

In addition, a second main spring 96 mounted between the spring support 86 and the stator cover 80 is further included.

When assembling the linear compressor configured as described above, first, the spring support 86 and the first main spring 88 are sequentially inserted into the bolt 90 fixed to the stator cover 80, and the bolt 90 Screw the first nut (92).

Thereafter, when the back cover 82 is inserted into the bolt 90 to which the first nut 92 is fastened, the first main spring 88 is supported by the back cover 82.

Then, when the second nut 94 is fastened to the bolt 90 passing through the back cover 82, the first nut 92 and the second nut in front and rear of the back cover 82. Loosening is prevented by mutual pushing force of 94, and the initial position of the back cover 82 can be firmly fixed.

Linear compressor according to the present invention configured as described above is provided with an initial value adjusting nut for adjusting the initial position of the piston between the main spring and the back cover, the fixing to fix the bolt and the back cover of the stator cover at the rear of the back cover Since the nut is provided separately, since the initial value adjusting nut and the fixed nut are coupled in a double nut manner, loosening of the initial value adjusting nut can be prevented and failure of the linear compressor can be prevented, thereby improving durability and reliability. .

In addition, since the initial position of the piston is adjusted by the initial value adjusting nut, the back cover is configured to be mounted on the bolt by using the nut, so that the mounting of the back cover is simplified.

Claims (5)

A stator cover fixed to the linear motor; A back cover spaced apart from the stator cover at a predetermined interval; A piston linearly reciprocating by the linear motor; A spring support installed to interlock with the piston between the stator cover and the back cover; A main spring mounted between the spring support and the back cover to elastically support the movement of the piston; Connecting means provided in the stator cover and penetrating the spring support and the back cover; Initial value adjusting means coupled to the connecting means between the main spring and the back cover and adjusting the initial position of the piston while supporting the main spring; And a fixing means for fixing the connecting means and the back cover to the rear of the back cover. The method of claim 1, The connecting means is a bolt that is fixed to the stator cover and protrudes toward the back cover and is threaded, And the fixing means is a fixing nut fastened to the bolt at the rear of the back cover. The method of claim 2, And the initial value adjusting means is an initial value adjusting nut screwed with the bolt between the main spring and the front of the back cover. The method of claim 3, wherein The initial value adjusting nut is a linear compressor, characterized in that consisting of a fastening portion fastened to the bolt and a seat portion protruding radially from the fastening portion to support the main spring. A stator cover fixed to the linear motor; A back cover spaced apart from the stator cover at a predetermined interval; A piston linearly reciprocating by the linear motor; A spring support installed to interlock with the piston between the stator cover and the back cover; A main spring mounted between the spring support and the back cover to elastically support the movement of the piston; A bolt provided in the stator cover and penetrating the spring support and the back cover; A first nut located inside the main spring and coupled to the bolt; And a second nut coupled to the bolt at the rear of the back cover.

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