KR100583198B1 - Linear compressor - Google Patents

Abstract

The present invention relates to a linear compressor capable of reducing refrigerant leakage between the cylinder and the valve plate.

The linear compressor according to the present invention includes a cylinder forming a compression chamber, a cylinder block provided with a through hole so that the front end of the cylinder can be installed therethrough, and a cylinder block installed in the cylinder block to allow refrigerant to flow in and out according to the pressure of the compression chamber. A valve plate and a cylinder head for closing the rear end of the cylinder, and a locking jaw projecting radially outward from the outer peripheral surface of the rear end side of the cylinder to be caught by a portion adjacent to the through-hole of the cylinder block, between the through-hole and the adjacent portion of the cylinder block. Since the elastic member for elastically supporting the cylinder to the valve plate side is disposed, the rear end of the cylinder is in close contact with the valve plate side installed in the cylinder block by the elastic member to prevent the refrigerant from leaking between the cylinder and the valve plate. There is a working effect.

Description

Linear Compressor {LINEAR COMPRESSOR}

1 is a front sectional view of a linear compressor according to the present invention.

2 is an exploded perspective view of the compression device of the linear compressor according to the present invention.

FIG. 3 is an enlarged view of part III of FIG. 1.

Explanation of symbols on the main parts of the drawings

10: sealed container 20: drive device

21: inner stator 22: outer stator

23: mover 30: compression device

31: cylinder 31a: compression chamber

31b: engaging jaw 32: cylinder block

32a: through hole 32b: head mounting portion

32c: locking groove 33: piston

34: valve plate 35: cylinder head

40: elastic member

The present invention relates to a linear compressor, and more particularly to a linear compressor that can reduce the leakage of refrigerant through the cylinder and the valve plate.

In general, a linear compressor is a device for compressing and discharging a refrigerant flowing into a cylinder by a piston moving forward and backward by a linear motor, and is provided with a compression device for compressing a refrigerant and a driving device for driving the refrigerant.

The compression device includes a cylinder provided with a compression chamber, a cylinder block through which the tip of the cylinder penetrates, and a piston for moving the refrigerant in and out of the compression chamber and compressing the refrigerant, and installed in the cylinder block to control the refrigerant flow. And a valve plate and a cylinder head for closing the rear end of the valve.

In addition, a through hole is provided in the cylinder block so that the front end of the cylinder can be penetrated through the cylinder block, and a locking step is provided at the rear end of the cylinder to protrude radially outward and to be adjacent to the through hole of the cylinder block. Therefore, the valve plate and the cylinder head are fixed to the cylinder block through bolts and the like so that the rear end of the cylinder can be closed by the valve plate while the front end of the cylinder passes through the through hole and the locking jaw is caught in the portion adjacent to the through hole. Will be.

However, in such a linear compressor, the valve plate installed in the cylinder block must close the rear of the open cylinder so that the refrigerant can be guided to the compression chamber and the cylinder head through the valve plate without leakage of the refrigerant.

However, if the rear end of the cylinder does not coincide with the surface of the cylinder block on which the valve plate is installed due to machining tolerances or the like, the rear end of the cylinder is not closed by the valve plate and the refrigerant leaks between the cylinder and the valve plate. There is a problem that may occur.

The present invention is to solve such a problem, it is an object of the present invention to provide a linear compressor that can prevent the leakage of the refrigerant through the cylinder and the valve plate.

The linear compressor according to the present invention for achieving the above object, the cylinder forming the compression chamber, the cylinder block provided with a through hole so that the front end of the cylinder can be installed, and the refrigerant flows in and out according to the pressure of the compression chamber A valve plate and a cylinder head installed on the cylinder block to close the rear end of the cylinder, and protruding radially outward from an outer circumferential surface of the rear end side of the cylinder to catch a portion adjacent to the through hole of the cylinder block; And an elastic member disposed between a portion adjacent to the through hole of the cylinder block and the locking jaw to elastically support the cylinder block and the locking jaw.

In addition, a portion of the cylinder block adjacent to the through hole is provided with a locking groove for seating the locking jaw and the elastic member is seated in the locking groove characterized in that the elastic support of the locking jaw of the cylinder.

The cylinder block may include a head mounting portion in which the valve plate and the cylinder head are sequentially installed to protrude from a portion adjacent to the through hole of the cylinder block, and the locking groove is provided on an inner circumferential surface of the head mounting portion.

In addition, the elastic member is characterized in that it comprises a leaf spring formed in an annular shape corresponding to the portion adjacent to the through hole of the cylinder block.

In addition, the elastic member is characterized in that the concave and convex bent in the circumferential direction to exert an elastic force.

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

In the linear compressor according to the present invention, as shown in FIG. 1, the upper container 11 and the lower container 12 are coupled to each other to form a sealed space therein to receive power. It includes a drive device 20 for generating a, and a compression device 30 for receiving the power to compress the refrigerant.

The drive device 20 employs a linear motor, and the inner stator 21 in which a plurality of steel sheets are stacked in a circumferential direction and formed in an annular shape, and the inner stator 21 and a predetermined interval outside the inner stator 21. It is provided in the circumferential direction to be spaced apart and the outer stator 22 including the coil (22a) to generate a magnetic field when the power is applied, and formed in a cylindrical shape disposed between the inner stator 21 and the outer stator 22 and the circumferential direction This includes the mover 23 in which a plurality of magnets 23a are arranged. Therefore, when power is applied to the coil 22a of the outer stator 22, the magnetic field is generated at the outer stator 22, and the mover 23 moves forward and backward by interacting with the magnetic field generated at the magnet 23a.

The resonator spring 24 is provided above the mover 23 so as to double the forward and backward movement of the mover 23. The resonant spring 24 is made of a leaf spring so that the moving forward and backward of the mover 23 can be made more smoothly, and the mover 23 is connected to the center thereof to elastically support the mover 23. It is.

The compression device 30 is formed in a cylindrical shape and forms a cylinder 31 which forms a compression chamber 31a in which a refrigerant is compressed therein, and is installed to protrude upward through the front end of the cylinder 31 in the center thereof. A cylinder block 32 in which an inner stator 21 and an outer stator 22 formed in an annular shape on the outer side of the 31 is installed, one end of which is installed in the compression chamber 31a, and the other end of the cylinder 23 It is connected to the moving forward and backward movement of the mover 23 is provided with a piston 33 for allowing the refrigerant to be sucked in, compressed and discharged in the compression chamber (31a).

In addition, the lower side of the cylinder block 32 is provided with a valve plate 34 and a cylinder head 35 for controlling the inflow and outflow of the refrigerant in accordance with the pressure of the compression chamber 31a. The cylinder head 35 is divided into a suction chamber 35a for guiding the refrigerant sucked into the compression chamber 31a and a discharge chamber 35b for guiding the discharge of the refrigerant compressed in the compression chamber. 34, suction holes 34a and discharge holes 34b are formed so as to allow the suction chamber 35a and discharge chamber 35b to communicate with the compression chamber 31a, respectively. At this time, the suction hole 34a and the discharge hole 34b respectively open and close the suction hole 34a and the discharge hole 34b in accordance with the pressure of the compression chamber 31a. Is placed.

2 and 3, the cylinder block 32 is provided with a through hole 32a so that the front end of the cylinder 31 can be installed therethrough, and the through hole 32a of the cylinder block 32 and the through hole 32a. In the adjacent portion, the head mounting portion 32b, in which the valve plate 34 and the cylinder head 35 are fixed through fastening means such as bolts, protrudes downward.

In addition, in order to allow the cylinder 31 to be installed in the cylinder block 32, the locking jaw 31b protrudes outward from the radial direction at the rear end of the cylinder 31, and the through hole 32a in the cylinder block 32. ) And a locking groove 32c in which the locking jaw 31b is caught and seated in a portion adjacent thereto. In this embodiment, since the head mounting portion 32b is provided at a portion adjacent to the through hole 32a of the cylinder block 32, the locking groove 32c is provided on the inner circumferential surface of the head mounting portion 32b. At this time, the axial length of the locking step 31b is formed relatively less than the axial length of the locking groove 32c. Therefore, the front end of the cylinder 31 penetrates the through hole 32a to protrude upward of the cylinder block 32, and the rear end of the cylinder 31 is caught by the locking groove 32c through the locking jaw 31b. .

In addition, the linear compressor according to the present invention is disposed between the cylinder 31 and the cylinder block 32 so that the cylinder 31 and the cylinder block 32 are elastically supported with each other, so that the rear end of the cylinder 31 has a valve plate 34. The elastic member 40 is installed to be in close contact with). In the present embodiment, the elastic member 40 is composed of a leaf spring formed in an annular shape to correspond to the surfaces corresponding to each other of the locking jaw 31b and the locking groove 32c and the locking jaw 31b of the cylinder 31 and the cylinder block. (32) is disposed between the engaging groove (32c), and proceeds in the circumferential direction, bent convexly and convex alternately to exert an elastic force in the axial direction.

Therefore, after the elastic member 40 is seated in the locking groove 32c, the cylinder 31 is installed in the through hole 32a so that the locking jaw 31b is in contact with the elastic member 40, and then the valve plate is continued. When the 34 and the cylinder head 35 are fixed to the cylinder block 32 through a fastening means such as a screw, the elastic member 40 seated in the locking groove 32c is connected to the cylinder through the locking step 31b. 31 is elastically supported so that the cylinder 31 comes into close contact with the valve plate 34 side.

As described above in detail, the linear compressor according to the present invention is provided with an elastic member for elastically supporting the cylinder and the cylinder block, and the rear end of the cylinder is in close contact with the valve plate side installed in the cylinder block by the elastic member. There is an effect of being able to prevent the refrigerant from leaking through the valve plate.

Claims (5)

A cylinder forming a compression chamber, a cylinder block provided with a through hole so that the tip of the cylinder can be penetrated therethrough, and a cylinder block installed at the cylinder block to allow refrigerant to flow in and out according to the pressure of the compression chamber. A closing valve plate and cylinder head, a locking jaw projecting radially outward from a rear end side outer circumferential surface of the cylinder, and engaging a portion adjacent to the through hole of the cylinder block; and a portion adjacent to the through hole of the cylinder block and the locking jaw. And a resilient member disposed between the resilient support between the cylinder block and the locking step. The method of claim 1, And a locking groove in which the locking jaw is seated in a portion adjacent to the through hole of the cylinder block, and the elastic member is seated in the locking groove to elastically support the locking jaw of the cylinder. The method of claim 2, The cylinder block is provided with a head mounting portion in which the valve plate and the cylinder head are sequentially installed protrudes from a portion adjacent to the through hole of the cylinder block, and the locking groove is provided on the inner peripheral surface of the head mounting portion. . The method of claim 1, And the elastic member includes a leaf spring formed in an annular shape so as to correspond to a portion adjacent to the through hole of the cylinder block. The method of claim 4, wherein The elastic member is a linear compressor, characterized in that the concave and convex banding proceeds in the circumferential direction to exert an elastic force.

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