KR100712914B1 - Linear compressor - Google Patents

Abstract

In the linear compressor according to the present invention, the terminal unit for supplying current to the linear motor is mounted on the motor cover, so that the installation space of the terminal unit can be easily secured, and the size or number of the terminal unit can be increased according to the operation mode or the capacity of the linear motor. There is an advantage.

Linear compressor, linear motor, motor cover, terminal part, plug, coil draw-out part

Description

Linear compressor {Linear compressor}

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

Figure 2 is a plan view showing the assembly structure of the outer core and the bobbin according to the prior art,

3 is a plan view of the bobbin according to the prior art,

4 is a sectional view showing a linear compressor according to the present invention;

5 is a perspective view showing a linear motor having a terminal unit according to the present invention;

Figure 6 is a perspective view of the bobbin according to the present invention.

<Explanation of symbols on main parts of the drawings>

50: shell 51: linear compression unit

52: damper 53: frame

54: cylinder 55: piston

56: fluid suction pipe 57: back cover

58: fluid inlet 60: linear motor

61: outer core 62: inner core

63: bobbin 64: coil

65: magnet 66: magnet frame

67: motor cover 68: inner discharge cover

69: discharge valve 70: outer discharge cover

71: discharge pipe 72: silencer

73: silencer body 74: introduction tube

75: spring supporter 76: the first main spring

77: second main spring 80: terminal portion

81: plug 82: connecting member

83: molding part 84: coil draw-out part

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a linear compressor, and more particularly, to a linear compressor in which the terminal portion of the linear motor is mounted on the motor cover, thereby making it easy to secure an installation space for the terminal portion.

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 cross-sectional view showing a linear compressor according to the prior art, Figure 2 is a plan view showing the assembly structure of the outer core and the bobbin according to the prior art, Figure 3 is a plan view showing the bobbin according to the prior art.

The linear compressor according to the prior art, as shown in FIG. 1, comprises a shell 2 and a linear compression part 4 positioned inside the shell 2 to compress the fluid.

One side of the shell (2) is mounted so that the suction port 6 through which the fluid is sucked, the linear compression portion (4) is supported by the damper (8) installed in the shell (2) to be buffered.

The linear compression unit 4 includes a cylinder block 12 provided with a cylinder 10, a back cover 14 provided with a fluid suction pipe 15, and a piston removably disposed inside the cylinder 10. 16, a linear motor 20 for generating a driving force to linearly reciprocate the piston 16 to the cylinder 10, and compression between the piston 16 in front of the cylinder 10; And a discharge valve assembly 18 for forming the chamber C and discharging the compressed fluid from the compression chamber C.

The linear motor 20 is largely composed of a stator and a mover. The stator includes an outer core 21, an inner core 22, and a coil block 23 provided on the outer core 21. The magnet 26 is linearly moved by the magnetic force formed around the coil block 23, and the magnet frame 27 is fixed to the magnet 26.

The cylinder block 12 is positioned in front of the outer core 21, and the core cover 28 is mounted at the rear thereof.

As shown in FIG. 2, the outer core 21 includes a core block in which a plurality of core sheets are stacked, and the plurality of core blocks are disposed to be spaced apart at predetermined intervals in the circumferential direction.

The coil block 23 includes a bobbin 25 installed in the outer core 21 and a coil 24 wound around the bobbin 25 to form a magnetic field.

On the other hand, between the core block is provided with a terminal portion for supplying current to the linear motor 20, the terminal portion is formed in the bobbin 25, as shown in Figure 2 and 3, the coil 24 ) Is made up of a coil lead-out unit 30, which is drawn in and out, and a plug 31 directly connected to the coil lead-out unit 30.

The plug 31 is electrically connected to the coil 24 drawn in and out of the coil outlet 30.

The outer circumferential surfaces of the bobbin 25 and the outer core 21 are fixed by the overmolding cover 32 to fix the outer core 21 and to reinforce the rigidity.

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

First, when a voltage is applied to the coil 24 through the plug 31, the magnet 26 is a linear reciprocating motion by the magnetic force formed around the coil 24, the linear reciprocating motion It is transmitted to the piston 16 through the magnet 26, the piston 16 is a linear reciprocating motion inside the cylinder (10).

When the piston 16 is linearly reciprocated, the fluid inside the shell 2 is sucked through the fluid suction pipe 15 of the back cover 14, and the piston (10) inside the cylinder (10). After being compressed by 16, it is discharged to the outside of the shell 2 through the discharge valve assembly 18.

However, since the terminal unit of the linear motor 20 is provided between the core blocks of the outer core 21, the linear compressor according to the prior art, when the size of the terminal portion is increased or the number is increased, the outer core ( Since it is difficult to secure space between the core blocks of 21, there is a problem in that the capacity increase of the linear motor 20 is limited.

The present invention has been made to solve the above problems of the prior art, it is an object of the present invention to provide a linear compressor that can increase the capacity of the linear motor to facilitate the installation space of the terminal portion.

The linear compressor according to the present invention for solving the above problems is mounted to the shell, a linear motor fixed in the shell to generate a linear motion force, a motor cover for fixing the linear motor, and the motor cover, It characterized in that it comprises a terminal portion formed to supply current to the linear motor.

The linear motor includes an outer core fixed to the motor cover, an inner core disposed to have a predetermined gap with the outer core, a bobbin provided on the outer core, and a coil wound on the bobbin. The terminal unit may include a plurality of plugs connected to an external power source, and a connection member electrically connecting the plugs and the coils.

The terminal part may further include an injection molded molding part surrounding the connection member.

The bobbin is characterized in that the coil draw-out portion is formed so that the coil is drawn out and connected to the connecting member.

The coil lead-out part may be formed to protrude from the bobbin toward the motor cover.

The coil lead-out portion is characterized in that a plurality formed in a position spaced apart.

The outer core may include a plurality of core blocks disposed radially, and the plurality of coil outlets may be disposed between the plurality of core blocks, respectively.

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

4 is a sectional view showing a linear compressor according to the present invention, Figure 5 is a perspective view showing a linear motor with a terminal portion according to the present invention, Figure 6 is a perspective view showing a bobbin according to the present invention.

As shown in FIG. 4, the linear compressor according to the present invention includes a shell 50, a linear compression unit 51 positioned inside the shell 50 to compress the fluid, and installed in the shell 50. And a damper 52 for bufferably supporting the linear compression unit 51.

The linear compression unit 51 includes a frame 53 provided inside the shell 50, a linear motor 60 fixed to the frame 53 to generate a driving force, and the frame 53. Compressed in the cylinder 54 provided on the inside, the piston 55 disposed to be retractable into the cylinder 54, the back cover 57 provided with the fluid suction pipe 56, and the cylinder 54 And a discharge part assembly installed in front of the cylinder 54 to discharge the fluid.

One side of the shell 50 is formed with a suction port 58 for sucking the fluid.

The linear motor 60 is largely composed of a stator and a mover. The stator includes an outer core 61, an inner core 62 disposed to have a predetermined gap with the outer core 61, and the outer core 61. ) And a coil (64) wound around the bobbin (63) to form a magnetic field, wherein the mover is a magnet (65) linearly moved by a magnetic force formed around the coil (64). ) And a magnet frame 66 to which the magnet 65 is fixed.

One side of the outer core 61 is fixed to the frame 53, and the other side of the outer core 61 is fixed to the motor cover 67 formed to surround the outer core 61.

The piston 55 is coupled to the magnet frame 66 so that one side is inserted into the cylinder 54 and the other side is advanced and retracted by the linear motor 60, and is fixed to the front of the magnet frame 66. The radially protruding flange portion 55a is formed.

A suction port 55b for sucking fluid into the compression chamber of the cylinder 54 is formed on the front surface of the piston 55, and a suction valve 55c for opening and closing the suction port 55b is mounted.

The discharge valve assembly is fixed to the frame 53 and has an inner discharge cover 68 formed with a discharge hole on one side, and is supported by a spring on the inner discharge cover 68 to open and close the compression chamber of the cylinder 54. A discharge valve 69 and an outer discharge cover 70 arranged to form a predetermined space on the outer side of the inner discharge cover 68.

A discharge pipe 71 for guiding the fluid discharged from the cylinder 54 to the outside of the shell 50 is connected to the outer discharge cover 70.

A silencer 72 is provided between the rear of the piston 55 and the fluid suction pipe 56 of the back cover 57 to reduce suction noise.

The silencer 72 is composed of a silencer body 73 disposed behind the piston 55 and an introduction pipe 74 extending long from the silencer body 73 and inserted into the piston 55. do.

On the other hand, the rear of the piston 55 is provided with a spring supporter 75 is provided with a main spring to elastically support the movement of the piston (55).

The spring supporter 75 is coupled to the rear surface of the magnet frame 66 to be interlocked with the piston 55.

The main spring may include a first main spring 76 mounted between the spring supporter 75 and the back cover 57, and a second main spring mounted between the spring supporter 75 and the motor cover 67. 77, the first main spring 76 is disposed in the upper and lower sides of the shell 50, and the second main spring 77 is disposed in the left and right.

Meanwhile, the linear compressor further includes a terminal portion 80 formed to supply current to the coil 64 of the linear motor 60, and the terminal portion 80 is mounted to the motor cover 67. .

As shown in FIG. 5, the terminal unit 80 includes a plurality of plugs 81 connected to an external power source (not shown), and a connection member for electrically connecting the plugs 81 and the coils 64. 82).

In addition, the terminal portion 80 has an injection molded molding portion 83 to surround the connecting member 82.

The plurality of plugs 81 are provided on the outside of the molding part 83, and the plurality of plugs 81 are connected to an outlet (not shown).

The connecting member 82 is provided inside the molding part 83, and an electric wire or a copper plate is used. Here, the connection member 82 is limited to the one used.

The bobbin 63 is provided with a coil lead-out portion 84 for drawing the coil 64 in and out so that the coil 64 can be connected to the connecting member 82.

The coil lead-out portion 84 is formed on the side toward the motor cover 67 from the bobbin 63.

The coil lead-out portion 84 protrudes toward the motor cover 67, and a plurality of coil lead-out portions 84 are formed at positions spaced apart by a predetermined interval along the circumferential direction.

The outer core 61 is formed of a plurality of core blocks arranged radially, the coil lead-out portion 84 is disposed between each of the plurality of core blocks.

One end of the connection member 82 is connected to the plug 81, and the other end of the connection member 82 is connected to the coil outlet 84.

The connecting member 82 penetrates through the motor cover 67 and is connected to the coil lead-out part 84. The motor cover 67 has a through hole 67a through which the connecting member 82 penetrates. Is formed.

The coil lead-out portion 84 has a fitting hole 84a formed in a shape corresponding to the connection member 82 so that the connection member 82 may be fitted thereto.

The number of the plug 81 and the coil lead-out portion 84 can be adjusted according to the operation mode or the capacity of the linear motor, which will be described as limited to four provided here.

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

When an external power source is applied to the coil 64 through the plug 81 and the connecting member 82, the linear motor 60 is operated.

The magnet 65 is linearly reciprocated by a magnetic field formed around the coil 64, and the linear motion is transmitted to the piston 55 through the magnet frame 66, thereby providing the piston 55. The linear reciprocating motion is performed inside the cylinder 54.

When the piston 55 is linearly reciprocated in the cylinder 54, the fluid in the shell 50 is sucked into the fluid suction pipe 56 of the back cover 57 and the It is compressed by the piston 55 therein.

The compressed fluid is discharged to the outside of the shell 50 through the inner and outer discharge covers 68 and 70 and the discharge pipe 71.

In the linear compressor according to the present invention configured as described above, the terminal unit for supplying current to the linear motor is mounted on the motor cover, so that the installation space of the terminal unit can be easily secured, and according to the operation mode or the capacity of the linear motor, There is an advantage that can increase.

In addition, the terminal portion is composed of a plug and a connecting member for electrically connecting the plug and the coil, so that the plug can be disposed regardless of the position where the coil is drawn in and out, thereby ensuring a mounting space of the plug. There is an advantage that can be easily adjusted the number and size of the plug.

In addition, the terminal portion is provided with a molding portion surrounding the connection member, there is an advantage that can prevent the exposure of the connection member and protect the connection member.

In addition, the bobbin has a merit that the coil lead-out portion through which the coil is drawn in and out protrudes toward the motor cover, thereby easily connecting to the terminal portion.

Claims (7)

A shell; A linear motor fixed to the inside of the shell and generating a linear motion force; A motor cover for fixing the linear motor; A terminal unit mounted to the motor cover and configured to supply a current to the linear motor, The linear motor includes an outer core fixed to the motor cover, an inner core disposed to have a predetermined gap with the outer core, a bobbin provided on the outer core, and a coil wound around the bobbin, The terminal unit includes a plurality of plugs connected to an external power source, and a connection member for electrically connecting the plug and the coil, The bobbin is provided with a coil draw-out portion so that the coil is drawn out and connected to the connecting member, And the coil lead-out part protrudes from the bobbin toward the motor cover. delete The method according to claim 1, The terminal unit further comprises a molding molded injection molded to surround the connecting member. delete delete The method according to claim 1, And a plurality of coil lead-out portions are formed at positions spaced a predetermined distance apart. The method according to claim 6, The outer core is composed of a plurality of core blocks disposed radially, And the plurality of coil lead-outs are disposed between the plurality of core blocks, respectively.

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