KR0176911B1 - Head cover wear prevention structure of a linear compressor - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a head cover abrasion preventing device of a linear compressor. In the related art, a first discharge valve 16, a second discharge valve 17, and a stopper 18 are disposed within the head cover 15. In addition, since the fluid flows in an innumerable number of times, the inner circumferential surface of the head cover 15 is sharpened due to such frequent flows, and impurities are generated in the compression space C or the receiving groove 15a of the head cover. Since there is a problem that the discharge is discharged together with the system of the compressor or the refrigerator, the head cover (15) from the friction of the discharge valves (16) and (17) and the stopper (18) on the outer peripheral surface of the front end of the cylinder (11). The elastic steel sheet 31 is provided to protect the inner circumferential surface of the head) and improve the assemblability of the valve and the stopper, thereby preventing friction with the discharge valve and the stopper that wears out the inner circumferential surface of the head cover when the compressor is driven. By preventing the generation of impurities due to the wear of the inner peripheral surface to prevent impurities from being mixed with the refrigerant into the interior of the equipment to improve the performance of the compressor.

Description

Head Cover Wear Prevention Device of Linear Compressor

1 is a cross-sectional view showing the configuration of a general linear compressor.

2 is a cross-sectional view showing an axial valve device of a pre- filed linear compressor.

Figure 3 is a cross-sectional view showing an example for explaining the problem of the conventional axial valve device.

4 is a cross-sectional view of the axial valve device to which the head cover abrasion prevention device of the linear compressor according to the present invention is applied.

* Explanation of symbols for main parts of the drawings

11: cylinder 15: head cover

15b: Seating groove 16, 17: First and second discharge valve

18: stopper 31: elastic steel sheet

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an axial flow valve system of a linear compressor, and in particular, a linear with an elastic steel plate on the outer circumferential surface of the front end of the cylinder to protect the inner circumferential surface of the head cover from friction of the discharge valve and the stopper. The present invention relates to a head cover abrasion preventing device of a compressor.

1 shows an example of a typical linear compressor according to the prior art, and includes a sealed container 1 having a predetermined shape and a cylinder 2 installed at a predetermined height from a bottom surface inside the sealed container 1. ), A coil assembly (3) (3 ') integrally assembled inside the cylinder (2), a piston spring (4) fixed to one end of the cylinder (2), and the piston spring (4) A piston 5 fixed to an inner middle portion of the piston 5 coupled to the cylinder 2 to enable linear reciprocating movement, a magnet 6 attached to and fixed to an outer circumferential surface of the piston 5, and the piston spring 4. Several mounting springs 7 connected to each other between the hermetic containers 1 to elastically support the piston springs 4, valve assemblies 8 fixedly installed at an intermediate portion of one side of the cylinder 2; Suction side silencer 9 and discharge side installed on both sides of the valve assembly 7 It consists of a muffler (10), and the like.

In the linear compressor as described above, the coil assembly 3 (3 ') fixed to the cylinder (2) and the magnet (6) fixed to the piston (5) perform a function of a linear motor. The piston 5 continues to reciprocate in the cylinder 2 by the energy and elastic energy, and sucks the refrigerant through the suction valve formed in the valve assembly 8 and compresses it in the compression space C, and then discharges it. The operation of discharging through the valve is repeatedly performed.

In the linear compressor as described above, it is essential to improve the efficiency of the opening and closing operation of the valve that controls the flow of the refrigerant. For this purpose, the shaft of the refrigerant is configured to have the same flow direction as that of the piston. Axial flow valve system is known.

2 is an axial valve device of the linear compressor of 1995 Patent Application No. 25664, which was filed by the present applicant, and, as shown, the piston pin 13 at the center of the front end face of the piston 12 accommodated in the cylinder 11; It is mounted in the intake valve 14 and the inner receiving groove (15a) of the head cover (15) fixed to one side of the cylinder (11) is fixed to the surface contact and pass through the suction refrigerant in close contact with A stopper 18 disposed behind the first discharge valve 16 and the second discharge valve 17 and the second discharge valve 17 to restrict the sliding of the second discharge valve 17; Compression springs, which are described between the accommodating groove 15a and the stopper 18 of the head cover 15, to elastically support the first discharge valve 16, the second discharge valve 17, and the stopper 18. Is composed of an elastic member (19).

In the figure, reference numeral 20 shows a refrigerant discharge pipe.

The action of the axial valve device configured in this way is that the refrigerant supplied from the rear side of the piston 12 travels in the direction of the arrow of the arrow shown, passing through the piston hole 12a of the piston 12 and the amount of the intake valve 4. When the piston 12 is moved in the direction of the first discharge valve 16 for the compression stroke while pushing the suction opening, the refrigerant is compressed in the compression space C, so the suction valve 14 is in close contact with the front surface of the piston 12 to close the piston hole 12a of the piston 12, so that the refrigerant is no longer sucked in, and the refrigerant compressed in the compression space C is removed. 1 The inner receiving groove 15a of the head cover 15 passes through the first refrigerant discharge hole of the discharge valve 16 and pushes the discharge opening / closing portion of the second discharge valve 17 through the second refrigerant discharge hole of the stopper 18. After discharged to the outside, it is discharged to the outside along the refrigerant discharge pipe (20).

In addition, when the piston 12 moves in the opposite direction during the compression stroke for the suction stroke, the first refrigerant discharge of the first discharge valve 16 is discharged by the self-resilience of the discharge opening / closing portion formed in the second discharge valve 17. The ball is blocked to prevent the refrigerant from being discharged, and is sucked into the compression space C while pushing both suction openings and closing portions of the suction valve 14 through the piston hole 12a of the piston 12, thus repeating the piston. The suction, compression, and stowage of the refrigerant are performed by the linear reciprocating motion.

However, in the axial valve device of the linear compressor as described above, the first discharge valve 16 and the second discharge valve 17 and the stopper 18 together with the elastic member 19 in the head cover 15. Because of the numerous flows, the inner circumferential surface of the head cover 15 is sharpened due to such frequent flow, and impurities are generated in the compression space C or the receiving groove 15a of the head cover.

These impurities are discharged together when the refrigerant is discharged, which has a problem that greatly affects the system of the compressor or the refrigerator.

An object of the present invention devised to solve the above problems is to prevent abrasion of the head cover caused by frequent friction with the valve assembly.

Another object of the present invention is to improve the performance of the device by preventing wear of the head cover to suppress the generation of impurities.

In order to achieve the object of the present invention, the linear compressor characterized in that the outer peripheral surface of the front end of the cylinder is provided with an elastic steel plate to protect the inner peripheral surface of the head cover from friction of the discharge valve and the stopper and improve the assembly of the valve and the stopper A head cover wear protection device is provided.

The inner circumferential surface of the head cover is characterized in that the mounting groove is formed so that the elastic steel sheet can be inserted.

Hereinafter, the present invention as described above will be described in more detail based on one embodiment shown in the accompanying drawings.

4 is a cross-sectional view of the axial valve device to which the head cover abrasion prevention device of the linear compressor according to the present invention is applied. As shown in the drawing, the present invention provides a discharge valve 16 ( 17) and an elastic steel sheet 31 to protect the inner circumferential surface of the head cover 15 from friction of the stopper 18.

As the elastic steel sheet 31 is installed, a seating groove 15b is formed on the inner circumferential surface of the head cover 15 so that the elastic steel sheet 31 can be inserted therein.

The same parts as those in the prior art configuration have the same reference numerals.

According to the head cover abrasion prevention device of the linear compressor according to the present invention configured as described above, the compressor is driven and discharged as the piston 12 moves inside the cylinder 11 to perform suction, compression, and discharge stroke of the refrigerant. The valves 16 and 17 and the stopper 18 flow inside the head cover 15, whereby the discharge valves 16 and 17 are driven by an elastic steel sheet 31 mounted inside the head cover 15. And since the outer circumferential surface of the stopper 18 is not directly rubbed with the inner circumferential surface of the head cover 15, wear of the head cover 15 is prevented.

In addition, the structure of the conventional axial valve device, as shown in Fig. 3, to secure the discharge valve 16, 17 and the stopper 18 mounted on the sealing surface with the cylinder during assembly of the axial valve device In order to use a separate guide cover 21 for this purpose, the assembly process is cumbersome, the process is difficult, and the number of parts is increased. However, the head cover abrasion prevention device of the linear compressor according to the present invention includes a head cover 15. In addition to preventing wear of the inner circumferential surface, since the elastic steel sheet 31 protrudes toward the distal end of the cylinder 11, the first discharge valve 16 and the second discharge valve 17 are assembled before the head cover 15 is assembled. And it is comprised so that it may be easy to temporarily fix the stopper 18, there exists an effect that an assembly property is improved.

As described above, the head cover abrasion prevention device of the linear compressor according to the present invention prevents friction with the discharge valve and the stopper that wears out the inner circumferential surface of the head cover when the compressor is driven, thereby preventing impurities from abrasion of the inner circumferential surface of the head cover. By preventing the occurrence of impurities to mix with the refrigerant to prevent the inside of the equipment to improve the performance of the compressor.

In addition, there is an advantage that the assembly of the discharge valve and the stopper becomes easy.

Claims (2)

A head cover abrasion preventing device of a linear compressor, characterized by comprising an elastic steel plate on the outer circumferential surface of the front end of the cylinder to protect the inner circumferential surface of the head cover from friction of the discharge valve and the stopper and to improve the assemblability of the valve and the stopper. The apparatus of claim 1, wherein a seating groove is formed on an inner circumferential surface of the head cover to allow the elastic steel sheet to be inserted therein.