KR100273440B1 - Linear compressor - Google Patents

Abstract

The present invention relates to a linear compressor, and in the related art, since the linear reciprocating motion of the magnet is made between the inner core and the outer core constituting the motor with the air gap minimized, the parts must be manufactured precisely, and the assembly precision is required. Since the assembly of the air gap is difficult to control as well as the assembly productivity is deteriorated, the present invention not only constitutes the inner core, the magnet and the cylinder integrally, but also the inner core, the magnet and the cylinder reciprocate. By compressing the refrigerant gas, the structure is simplified, the number of parts is reduced, and the air gap can be easily controlled, thereby reducing the number of assembly processes, mass production, and minimizing the air gap. To increase compression performance. It is a lock.

Description

Linear compressor

The present invention relates to a linear compressor, and more particularly, to a linear compressor that not only minimizes the air gap of the motor but also simplifies the structure.

In general, the compressor is composed of an electric mechanism unit for generating a driving force, and a compressor mechanism for sucking and compressing the gas in a low pressure state by receiving the driving force of the electric mechanism, and is divided into various types according to the compressor mechanism for compressing the gas.

As an example of the compressor, as shown in FIG. 1, the linear compressor includes a sealed container 1 formed to have a predetermined internal space, a frame 2 installed inside the sealed container 1, and the frame ( 2, the outer core 4 constituting a motor coupled to the other side of the frame 2, the other side of the frame 2 to generate a driving force, and a predetermined gap with the outer core 4 An inner core 5 inserted into the outer core 4 and coupled to the cylinder 3, a winding coil 6 wound around the outer core 4, the outer core 4 and the inner core 5. A magnet (7) inserted between the magnet (7) and a linear movement during the driving of the motor, the piston (8) inserted into the compression space inside the cylinder (3), the magnet (7) and the piston (8) by connecting the magnet The connecting member 9 which transmits the linear motion of (7) to the piston 8, and the predetermined | prescribed moving space inside It is formed to have a body cover 10 coupled to one side of the frame 2 and covering the connecting member 9, between the connecting member 9 and the cylinder 3 and the connecting member 9 and the body cover ( 10 is inserted between each of the inner and outer springs (11, 12) which serves to store the kinetic energy while supporting the movement of the piston (8) elastically.

One side of the cylinder 3 is coupled to the head cover 13 to cover the compression space of the cylinder 3, the valve assembly 14 to discharge the compressed gas inside the head cover 13 is Combined.

Reference numeral 15 is an oil feeder.

In the linear compressor, when a current is applied to the motor, the magnet 7 linearly reciprocates, and the linear movement is transmitted to the piston 8 through the connecting member 9 so that the piston 8 moves inside the cylinder 3. The compression space is linearly reciprocated. The refrigerant gas introduced into the sealed container 1 by the linear movement of the piston 8 is sucked into the cylinder 3 through the refrigerant suction flow path F formed in the piston 8 and compressed, and the valve assembly 14 And the discharged through the head cover 13 is repeated.

The efficiency of the motor generating the driving force in the linear compressor is dependent on the air gap between the magnet 7 inserted between the inner core 5 and the outer core 4, and the magnet 7 and to reduce the air gap. Components such as the connecting member 9, the piston 8, the inner core 5, the cylinder 3, and the like, which are to be coupled, must all be manufactured independently and assembled so that the assembly tolerances of the manufactured components can be made precisely.

However, the conventional linear compressor as described above is inserted in a state in which the air gap between the inner core 5 and the outer core 4 constituting the motor is minimized, so that the linear reciprocating motion of the magnet 7 is to be made, so the parts are precisely precise. Not only to manufacture, but also to assemble high assembly accuracy is not only difficult to manufacture the parts but also difficult to control the air gap there is a problem that the assembly productivity is lowered.

SUMMARY OF THE INVENTION An object of the present invention devised in view of the above problems is to provide a linear compressor that not only facilitates the air gap adjustment of the motor, but also minimizes the air gap and makes the structure simple.

1 is a cross-sectional view showing a conventional linear compressor,

2 is a cross-sectional view showing the linear compressor of the present invention.

(Explanation of symbols for the main parts of the drawing)

20; Hermetically sealed container 21; piston

22; Core mounting part 23; Outer core

24; Winding coil 25; Abdomen

25a; Covering member through-hole 30; cylinder

31; Inner core 32; Magnet

33; Head cover 33a; Head cover through hole

41; Intake valve 42; Valve spring

43; Discharge valve 100; Fixed frame

300; A movable cylinder assembly a; suction

F '; Gas channel P; Compressed space

An airtight container formed to have a predetermined internal space and provided with a suction pipe and a discharge pipe in order to achieve the object of the present invention as described above; A piston having a gas flow path formed therein and a fixing frame provided with a core mounting portion at which a core of the motor is mounted at a predetermined distance from the piston and fixedly installed in the sealed container; An outer core mounted on a core mounting part of the fixed frame and constituting a motor, and a winding coil wound thereon; A compression space in which the piston is inserted is formed therein, and is fixed and coupled to a cylinder coupled to the piston and an inner core constituting a motor and an outer core wound around the winding coil, with a predetermined gap therebetween. The magnet is fixedly coupled to the outer surface of the inner core, and the magnet, the inner core, and the cylinder move the piston by the interaction force between the flux flowing through the outer core and the inner core and the flux generated by the magnet by the current applied to the winding coil. A movable cylinder assembly which reciprocates along and sucks and compresses gas into the compression space of the cylinder; A head cover having one side open and a through hole formed at the other side thereof, the opening side of which is coupled to one side of the cylinder; The gas is inserted into the head cover and coupled to the end of the piston, and the gas is sucked into the compression space of the cylinder through the head cover by the reciprocating motion of the movable cylinder assembly, and the sucked gas is compressed to pass through the gas flow path inside the piston. Opening and closing means for opening and closing the compression space to be discharged; A cover member having one side open and a through hole formed at the other side thereof, the opening side being coupled to one side of the fixed frame to cover the fixed frame; A linear compressor is provided, comprising first and second elastic members coupled to support both sides of the movable cylinder assembly to elastically support the reciprocating motion of the movable cylinder assembly.

The opening and closing means is coupled to an end of the piston to control the discharge of the compressed gas discharged to the gas flow path of the piston, and inserted into the head cover is introduced into the compression space of the cylinder through the through hole of the head cover Provided is a linear compressor comprising a suction valve for controlling the intake of gas and a spring elastically supporting the suction valve.

Hereinafter, the linear compressor of the present invention will be described according to the embodiment shown in the accompanying drawings.

As shown in FIG. 2, the linear compressor of the present invention is formed to have a predetermined internal space and includes a sealed container 20 in which a suction pipe a and a discharge pipe (not shown) are installed, and a gas flow path F ′ therein. ) Is provided with a piston 21 and a core mounting portion 22 to which the core of the motor is mounted at predetermined intervals from the piston 21 and the fixed frame 100 fixedly installed in the airtight container 20. , An outer core 23 mounted on the core mounting part 22 of the fixed frame 100, and a winding coil 24 wound thereon, and a compression space P into which the piston 21 is inserted. ) Is formed and the outer core is wound around the inner core 31 and the winding coil 24 are fixed to the cylinder 30 coupled to the piston 21 and the outer circumferential surface of the cylinder 30 to form a motor The magnet 32 fixedly coupled to the outer surface of the inner core 31 with a predetermined gap with the 23 It is configured to include a movable cylinder assembly (300) is formed integrally.

The piston 21 constituting the fixed frame 100 is formed to have a predetermined diameter and length, and the inside thereof is penetrated to form a gas flow path F ′. The core mounting portion 22 is formed in a circular groove shape at predetermined intervals concentrically with the piston 21.

The outer core 23 is formed to have a cylindrical shape, a circular groove is formed therein, and a coil is wound around the circular groove.

The cylinder 30 forms a compression space P penetrated therein by an inner diameter corresponding to the outer diameter of the piston 21, and an inner core 31 formed in a cylindrical shape is coupled to the cylinder 30. The magnet 32 is coupled to the outer circumferential surface of the inner core 31. The magnet 32 is coupled to the inner core 31 at a predetermined distance from the outer core 23 in which the winding coil 24 is wound therein, and between the outer core 23 and the magnet 32 is air. A gap is formed.

The head cover 33 is formed in the shape of a hat with one side opened and a through hole 33a is formed on the blocked surface thereof, and the head cover 33 is coupled to one side of the cylinder 30, and the head is formed inside the head cover 33. A valve for elastically supporting the suction valve 41 and the suction valve 41 for adjusting the suction of the gas flowing into the compression space P of the cylinder 30 through the through hole 33a of the cover 33. The spring 42 is inserted and coupled, and the intake valve 41 is in a state of closing the end of the cylinder 30 by the elastic force of the valve spring 42 in the closed state. And a discharge valve 43 for controlling the discharge of the compressed gas discharged to the gas flow path (F ') of the piston 21 is coupled to the end of the piston 21 is coupled. The suction valve 41, the spring 42, and the discharge valve 43 form opening and closing means.

The cover member 25 is formed on one side of the fixing frame 100 in a predetermined shape, and the cover member 25 has one side opening and a through hole 25a formed at the other side, and has a predetermined internal space. Is formed. When the cover member 25 is coupled, the through hole 25a of the cover member and the through hole 33a of the head cover 33 are preferably positioned on the same center line.

And a first spring 26 for elastically supporting the movable cylinder assembly 300 is inserted between the inner surface of the cover member 25 and one side of the movable cylinder assembly 300, the fixed frame ( Between the inner side of the 100 and the other side of the movable cylinder assembly 300, a second spring 27 for elastically supporting the movable cylinder assembly 300 is inserted and coupled. The first spring 26 and the second spring 27 are located on both sides of the movable cylinder assembly 300, the first and second springs 26 and 27 form an elastic member and located on the same line Is preferably combined.

Hereinafter, the operational effects of the linear compressor of the present invention will be described.

In the linear compressor of the present invention, when a current is applied to the motor and the current flows through the winding coil 24, the flux flowing through the outer core 23 and the inner core 31 by the current flowing through the winding coil 24 and Due to the interaction force of the flux generated in the magnet 32, the movable cylinder assembly 300, which consists of the magnet 32, the inner core 31, and the cylinder 30, is formed along the piston 21. It is elastically supported by the 27 to reciprocate. As the movable cylinder assembly 300 reciprocates, the refrigerant gas introduced into the sealed container through the suction pipe passes through the through hole 25a of the cover member, the through hole 33a of the head cover and the suction valve 41. The compressed refrigerant gas is sucked into the compression space P of the pump 30, and the compressed refrigerant gas is discharged through the discharge valve 43, and the outside of the sealed container 20 through the gas flow path F 'of the piston 21 and the discharge pipe. Is discharged.

In the linear compressor of the present invention as described above, the cylinder (300) consisting of the cylinder 30, the inner core 31, and the magnet 32 is reciprocated while the piston 21 is fixed. 30) The refrigerant gas is sucked into the compression space P inside and compressed.

The present invention eliminates the use of parts, such as the connecting member 9 for connecting the magnet 7 and the piston 8, which are movable members, as in the conventional structure, so that the structure is simple and the number of parts can be reduced. In addition, the inner core 31 and the magnet 32 are integrally formed to facilitate adjustment of the air gap, which is a gap between the magnet core 32 and the outer core 23 on which the winding coil 24 is wound, and to minimize the air gap. It is possible to increase the efficiency of the motor.

As described above, the linear compressor according to the present invention has a simple structure, reduces the number of parts, and facilitates the adjustment of the air gap, thereby reducing the number of assembly processes and mass production, and also minimizing the air gap. Increase the efficiency of the has the effect of improving the compression performance.

Claims (2)

An airtight container formed to have a predetermined internal space and provided with a suction pipe and a discharge pipe; A piston having a gas flow path formed therein and a fixing frame provided with a core mounting portion at which a core of the motor is mounted at a predetermined distance from the piston and fixedly installed in the sealed container; An outer core mounted on a core mounting part of the fixed frame and constituting a motor, and a winding coil wound thereon; A compression space in which the piston is inserted is formed therein, and is fixed and coupled to a cylinder coupled to the piston and an inner core constituting a motor and an outer core wound around the winding coil, with a predetermined gap therebetween. The magnet is fixedly coupled to the outer surface of the inner core, and the magnet, the inner core, and the cylinder reciprocate along the piston by the interaction force between the magnetic flux generated by the current applied to the winding coil and the magnetic flux. A movable cylinder assembly for sucking and compressing gas into the space; A head cover having one side open and a through hole formed at the other side thereof, the opening side of which is coupled to one side of the cylinder; The gas is inserted into the head cover and coupled to the end of the piston, and the gas is sucked into the compression space of the cylinder through the head cover by the reciprocating motion of the movable cylinder assembly, and the sucked gas is compressed to pass through the gas flow path inside the piston. Opening and closing means for opening and closing the compression space to be discharged; And first and second elastic members coupled to support both sides of the movable cylinder assembly to elastically support the reciprocating motion of the movable cylinder assembly. According to claim 1, The opening and closing means is connected to the end of the piston for controlling the discharge of the compressed gas discharged to the gas flow path of the piston, and the cylinder is inserted into the head cover through the through hole of the head cover A linear compressor comprising a suction valve for adjusting the suction of the gas flowing into the compression space of the and a valve spring for elastically supporting the suction valve.