KR100565519B1 - Structure for mounting suction valve for linear compressor - Google Patents

Abstract

The suction valve mounting structure of the linear compressor according to the present invention includes a piston having a suction port and a fastening hole formed on a front surface thereof, a suction valve positioned at the front of the piston to open and close the suction port, and fastened to the fastening hole to connect the suction valve. A fastening member secured to said piston; The fastening member is formed such that the distance from the discharge valve facing the piston is equal to or greater than that of the piston, thereby reducing the dead volume in the compression chamber, thereby expanding the compression capacity, and minimizing the occurrence of interference with the discharge valve. It provides an effect to reduce the generation of noise and vibration.

Cylinder, piston, intake valve, discharge valve, fastening member, dead volume

Description

Structure for mounting suction valve for linear compressor             

1 is a longitudinal sectional view showing a general linear compressor;

Figure 2 is a longitudinal sectional view showing a suction valve mounting structure of a conventional linear compressor;

3 is a longitudinal sectional view and a detailed view showing a suction valve mounting structure of the linear compressor according to an embodiment of the present invention;

4 is a detailed view of the main part of the inlet valve mounting structure of the linear compressor according to another embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

50: piston 51: body

52: flange 54: front

54a: curved portion 55: suction port

56: fastening hole 56a: fixing hole

56b: screw hole 56c: connection

60: suction valve 61: plate portion

62: fixed insert 63: end

64: curved portion 65: fastening member

66: crimp portion 66a: groove

67: fastening portion 69: expansion portion

70: cylinder 80: discharge valve

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a linear compressor, and more particularly, to a suction valve mounting structure of a linear compressor that enables the suction valve to be mounted without a protruding portion of the piston.

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

1 is a longitudinal sectional view showing a general linear compressor, Figure 2 is a longitudinal sectional view showing a suction valve mounting structure of a conventional linear compressor.

As shown in FIG. 1, the linear compressor includes a cylinder block 12 provided with a cylinder 13 and a back cover 15 provided with a fluid inlet 16 in the sealed container 10. The cylinder block 12 and the back cover 15 are bufferably supported in the sealed container 10 via the first damper 17 and the second damper 18.

Between the cylinder block 12 and the back cover 15 is arranged a linear motor 20 for generating a driving force to compress the fluid. The linear motor 20 is connected to a piston 30 for compressing the fluid sucked into the cylinder 13 while linearly reciprocating in the cylinder 13.

Here, the linear motor 20 is composed of a stator and a mover. The stator includes an outer core 21, an inner core 22, and a coil 23 forming a magnetic field, and the mover includes the coil 23. The magnet 25 is linearly moved by the magnetic force formed around the periphery, and the magnet frame 27 for transmitting a linear movement force to the piston (30).

The piston 30 is provided with a flange portion 32 fixed to the magnet frame 27 at the rear portion, the first spring 28 disposed between the flange portion 32 and the cylinder block 12, It is elastically supported by a second spring 29 disposed between the flange portion 32 and the back cover 15.

Referring to FIG. 2, the piston 30 has a suction flow path 33 through which fluid is introduced into a cylindrical structure whose rear side is opened, and a front surface of the piston 30 has a blocked structure, and a plurality of suction ports 34 are formed in the blocked portion. do.

The front surface of the piston 30 is provided with a suction valve 35 for opening and closing the suction port 34, the suction valve 35 is a valve plate 36 fixed to the piston 30 with a bolt 37 ) Is configured to open and close the suction port 34 while elastically bending according to the pressure difference between both sides.

Referring to FIG. 1, the discharge part 40 is provided with an inner discharge cover 41 and an outer discharge cover 47 in the cylinder block 12 in front of the compression chamber C of the cylinder 13, In the inner discharge cover 41, a discharge valve 45 for opening and closing the compression chamber C of the cylinder 13 is configured to be supported by a spring 43.

Meanwhile, as shown in FIG. 2, the head of the bolt 37 fixing the intake valve 35 protrudes from the side of the inlet valve 35, as shown in FIG. 2. The evacuation groove 45a is machined to avoid interference with the head.

Looking at the operation of the linear compressor as follows.

As the linear motor 20 is operated, the piston 30 is continuously linearly reciprocated between the discharge valve 45 and the back cover 15 of the discharge part 40.

When the piston 30 is advanced toward the discharge portion 40, the suction valve 35 is closed by the pressure difference between the suction flow path 33 and the compression chamber (C), the compression chamber (C) The fluid inside is compressed and then discharged through the discharge part 40, and the fluid outside the back cover 15 is sucked through the inlet 16 of the back cover 15.

Here, when the piston 30 is excessively moved in the direction of the discharge valve 45 to contact the discharge valve 45, the head of the bolt 37 protruding from the piston 30 avoids the discharge valve 45. Interference between the piston 30 and the discharge valve 45 can be avoided to some extent as it enters the groove 451.

On the contrary, when the piston 30 moves backward, the suction valve 35 is opened by the pressure difference between the suction passage 33 and the compression chamber C. At this time, the suction passage 33 of the piston 30 is opened. The fluid flows into the compression chamber C through the suction port 34. Then, when the piston 30 is advanced, the process in which the fluid in the compression chamber C is compressed and discharged is repeated as described above.

However, in the conventional linear compressor as described above, since the head of the bolt 37 for fixing the intake valve 35 to the piston 30 protrudes outward, the dead volume increases in the compression chamber C, so that the compression space is narrow. If the discharge valve 45 supported by the spring 43 is moved to the side by more than a predetermined level even when the evacuation groove 45a is formed on the discharge valve 45 side, the bolt 37 directly collides with the discharge valve. There is a problem that the interference may be caused to damage the parts, as well as the generation of noise and vibration.

The present invention has been made in order to solve the above problems, the fastening member is formed so that the distance from the discharge valve facing the piston compared to the piston is the same or farther, the intake valve in a flat structure on the front of the piston It is an object of the present invention to provide a linear compressor suction valve mounting structure that can reduce the dead volume in the compression chamber to increase the compression capacity and minimize the occurrence of interference with the discharge valve to reduce noise and vibration. .

The suction valve mounting structure of the linear compressor according to the present invention for realizing the above object is a piston having a suction port and a fastening hole in the front; A suction valve positioned at a front surface of the piston to open and close the suction port and a part of which is inserted into the fastening hole; The linear compressor includes a fastening member fastened to the fastening hole to press-fit the intake valve to the piston so that the distance from the discharge valve facing the piston is equal to or greater than that of the piston. The inlet portion of the fastening hole is curved from the front of the piston to the inside of the fastening hole, and the suction valve is characterized in that the portion inserted into the fastening hole is formed in a curved surface along the fastening hole.

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

3 is a longitudinal sectional view and a detailed view showing the intake valve mounting structure of the linear compressor according to an embodiment of the present invention.

As shown in FIG. 3, the linear compressor according to the present invention includes a piston 50 inserted into the rear of the cylinder 70 and compressing the fluid introduced through the suction port 55 while linearly reciprocating, and the piston ( Suction valve 60 is located in front of the 50 to open and close the inlet port 55, and is located in front of the cylinder 50 is opened when the pressure in the cylinder 70 is above a certain amount to discharge the compressed fluid The discharge valve 80 is included.

Here, the suction valve 60 is fixed to the front surface of the piston 50 by a fastening member 65 such as a bolt, and the suction valve 60 and the fastening member 65 are the piston 50. It is configured to form the same plane so as to make a plane contact with the discharge valve 80 facing the. That is, the fastening member 65 is formed in the same plane or lower than the outer surface of the intake valve 60 in contact with the discharge valve 80, that is, compared to the piston 50 The distance from the discharge valve 80 facing the piston 50 is formed to be the same or farther, and is configured to fix the intake valve 60 to the piston 50.

Hereinafter, each component will be described.

First, the piston 50 has a cylindrical body portion 51, a flange portion 52 formed at the rear of the body portion 51 and fixed to a magnet frame (not shown), and the body portion 51 The front portion 54 is formed with a suction port 55 communicating with the inside of the cylinder 70 as a portion blocked in front of the).

In particular, a fastening hole 56 to which the fastening member 65 is coupled is formed in the center of the front portion 54 of the piston 50 so that the suction valve 60 can be fixed.

The fastening hole 56 is formed at a position deeper than the fixing hole part 56a to which a part of the suction valve 60 is inserted and fixed to the fixing hole part 56a, and the fastening member 65 is screwed. It consists of a screw hole part 56b. The fixing hole portion 56a has a larger inner diameter than the screw hole portion 56b, and an inclined connection portion 56c is formed between the fixing hole portion 56a and the screw hole portion 56b.

Next, the suction valve 60 is located on the front of the piston 50 and the plate portion 61 for opening and closing the suction port 55 while being elastically bent by the pressure difference before and after, and the plate portion 61 Protruding into a cylindrical structure from the) and the inclined structure 62 is inserted into the fixing hole portion (56a) of the fastening hole 56, and the inclined structure is gradually provided in the end of the fixing insertion portion 62 The end portion 63 is formed as.

Next, the fastening member 65 is a crimping portion 66 for crimping and fixing the fixed insertion portion 62 of the suction valve 60 in the fastening hole portion 56a of the fastening hole 56 and the crimping. It is composed of a fastening portion 67 that extends long in the portion 66 and is formed with a male screw is fastened to the screw hole portion 56b of the fastening hole 56 of the piston 50.

The fastening member 65 has a concave groove 66a formed on the upper surface thereof to be rotated by a tool such as a driver. In addition, the outer diameter of the crimping portion 66 is formed larger than the inner diameter of the fastening portion 67, the inclined portion 68 of the inclined structure is formed between the crimping portion 66 and the fastening portion 67.

Here, the inclined portion 68 of the fastening member 65 is in close contact with the end portion 63 of the suction valve 60 in the connection portion 56c of the fastening hole 56 so that the intake valve 60 is fastening hole 56. ) To prevent escaping.

Referring to the operation of the intake valve mounting structure of the linear compressor according to an embodiment of the present invention configured as described above are as follows.

As the linear motor is operated, the piston 50 is continuously linearly reciprocated in the cylinder 70.

Here, since the suction valve 60 constituting the front surface of the piston 50 and the fastening member 65 fixing the same form a flat structure without a protruding portion, the discharge valve 80 does not need to be processed with a separate avoidance groove. When overstroke of the piston 50 occurs, the intake valve 60 and the discharge valve 80 are in flat contact to prevent breakage due to interference of components.

As such, the piston 50 compresses and discharges the fluid in the cylinder while continuing to move forward and backward in the cylinder 70.

4 is a detailed view of the main part of the inlet valve mounting structure of the linear compressor according to another embodiment of the present invention.

In the above-described embodiment of the present invention, referring to FIG. 3, the plate portion 61 and the fixed insertion portion 62 of the intake valve 60 are illustrated as being bent at right angles. In another embodiment, as shown in FIG. 4, a portion where the plate portion 61 and the fixed insertion portion 62 of the suction valve 60 are connected to each other includes a rounded curved portion 64.

Accordingly, the inlet portion of the fastening hole 56 of the piston 50 also forms the curved portion 54a in the same shape as the curved portion 64 of the suction valve 60, and the fastening member 65 also has an upper circumferential surface thereof. An extended portion 69 extended to a curved surface is formed to closely contact the curved portion 64 of the suction valve 60 to the curved portion 54a of the piston 50.

In another exemplary embodiment of the present invention, the inlet valve 60 is formed on the front surface of the piston 50 because the curved portion 64 is formed between the plate portion 61 and the fixed insertion portion 62 of the intake valve 60. In the process of fixing and opening and closing the suction port, the bent portion between the plate portion 61 and the fixed insertion portion 62 is not easily damaged or broken.

The suction valve mounting structure of the linear compressor according to the present invention, which is constructed and operated as described above, is configured to secure the suction valve to the piston while the fastening member forms the same plane as the suction valve, thereby reducing the dead volume in the compression chamber. The capacity can be expanded, and noise and vibration can be reduced by minimizing the occurrence of interference with the discharge valve.

Claims (8)

A piston having a suction port and a fastening hole formed on a front surface thereof; A suction valve positioned at a front surface of the piston to open and close the suction port and a part of which is inserted into the fastening hole; A linear compressor comprising a fastening member fastened to the fastening hole to press-fit the intake valve to the piston such that a distance from the discharge valve facing the piston is equal to or greater than that of the piston. The piston is connected to the inlet portion of the fastening hole in a curved surface from the front of the piston into the fastening hole, The suction valve is a suction valve mounting structure of the linear compressor, characterized in that the portion inserted into the fastening hole is formed in a curved surface along the fastening hole. delete The method of claim 1, The fastening hole of the piston is a suction hole of the linear compressor comprising a fixed hole portion is inserted into a fixed portion of the suction valve and a screw hole portion formed in a position deeper than the fixed hole portion screwed to the fastening member Mounting structure. The method of claim 3, wherein The fixed hole portion has a larger inner diameter than the screw hole portion, the inlet valve mounting structure of the linear compressor, characterized in that the inclined connection portion is formed between the fixed hole portion and the screw hole portion. The method of claim 4, wherein The suction valve is composed of a plate portion which is located on the front of the piston to open and close the suction port, and a fixed insertion portion protruding in a cylindrical structure from the plate portion and inserted into the fastening hole, The end of the fixed insertion portion is a suction valve mounting structure of the linear compressor, characterized in that formed in an inclined structure gradually narrowing diameter. The method of claim 3, wherein The suction valve has a suction valve mounting structure of the linear compressor, characterized in that it is composed of a plate portion which is located in front of the piston to open and close the suction port, and a fixed insertion portion protruding into the cylindrical structure from the plate portion and inserted into the fastening hole. . delete The method of claim 1, The fastening member has a suction valve mounting structure of the linear compressor, characterized in that the upper circumferential surface thereof is formed to be in close contact with the curved surface of the suction valve.

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