KR980008609U - Valve device of hermetic electric compressor - Google Patents

Abstract

The present invention relates to a valve device of a hermetic compressor. In the related art, the space compressed by the movement of the piston constitutes the volume of the cylinder and the discharge port of the head, whereas the amount of refrigerant gas actually introduced and compressed becomes the volume of the cylinder. When the refrigerant gas is sucked in, the amount of refrigerant gas sucked is reduced, thereby reducing the compression efficiency due to the decrease in the amount of compression per unit volume. The present invention reduces the compression loss by reducing the volume of the discharge port constituting the compression space. It is to improve the efficiency.

Description

Valve device of hermetic electric compressor

1 is a longitudinal sectional view showing a hermetic electric compressor.

FIG. 2 is an exploded perspective view showing the valve device of the conventional hermetic electric compressor, and the cylinder and the head cover coupled thereto.

3 is a cross-sectional view showing a valve device of a conventional hermetic electric compressor.

4 is a cross-sectional view showing a valve device of the hermetic electric compressor of the present invention.

Figure 5 shows the valve plate in the hermetic electric compressor of the present invention, (a) is a plan view, (b) is a front view.

* Explanation of symbols for the main parts of the drawings

9 ': Head 9'a: Inlet 9'b: Outlet

9'c: valve moving space 13: valve plate 13a: suction valve

13b: discharge hole 13c: discharge valve 13d: junction

The present invention relates to a valve device of the hermetic electric compressor, and more particularly to a valve device of the hermetic electric compressor to increase the compression amount per unit volume of the cylinder due to the reciprocating motion of the piston to improve the compression efficiency. A general hermetic electric compressor, as shown in FIG. 1, has a hermetic container 1 that forms a case of a compressor, and a frame 2 provided inside the hermetic container 1 and a lower side of the frame 2. It is coupled to the stator 3 and the rotor 4 and the inner diameter of the rotor 4 and the crank shaft 5 and the upper side of the frame 2 having an eccentric portion 5a formed at one end thereof. The piston 6 is coupled to the eccentric portion 5a of the cylinder 6 and the crankshaft 5 and reciprocates in the cylinder 6. In addition, a head cover 8 is installed at the end of the cylinder 6 to guide the refrigerant gas to the cylinder 6 and to flow it out. When the rotor 4 is rotated by the power applied to the stator 3 as described above, the crank shaft 5 fitted together with the rotor 4 rotates, and the crank shaft ( The piston 7 connected to the eccentric portion 5a of the crankshaft 5 by the rotation of 5) reciprocates in the cylinder 6 by the eccentricity. Refrigerant gas of low temperature and low pressure flows into the cylinder 6 through the head cover 8 by the reciprocating motion of the piston 7, and the introduced refrigerant gas becomes a refrigerant gas of high temperature and high pressure in the cylinder 6 Discharged through the cover 8. In addition, a valve device for sucking and discharging refrigerant gas is coupled between the head cover 8 and the cylinder 6. The conventional structure thereof is as follows. As shown in FIGS. 2 and 3, the valve device of the conventional hermetic electric compressor has an inlet 9a through which refrigerant gas is introduced and a discharge port through which the refrigerant gas compressed from the cylinder 6 is discharged. A head 9 having a predetermined thickness 9b formed therein, a suction hole 10a communicating with the suction port 9a, and a discharge valve 10b for opening and closing the discharge port 9b are formed to A discharge valve plate 10 coupled to one side, a discharge hole 11a communicating with the discharge port 9b and a suction valve 11b for opening and closing the suction port 9b are formed at the other side of the head 9. Composed of the suction valve plate 11 is coupled. The valve device as described above is coupled to the side with the intake valve plate 11 in contact with the cylinder (6) and the side with the discharge valve plate 10 is coupled to the head cover (8). Reference numeral G denotes a gasket. In the valve device, when the piston 7 moves from the top dead center of the cylinder 6 to the bottom dead center, the discharge valve 10b is closed and the intake valve 11b is opened to suck the refrigerant gas, and the piston 7 bottom dead center. In addition, the refrigerant gas sucked in the process of moving to the top dead center is compressed and the discharge valve 10b is opened to discharge the compressed refrigerant gas. However, in the conventional structure as described above, the space compressed by the movement of the piston 7 constitutes the volume of the cylinder 6 and the discharge port of the head 9, whereas the amount of refrigerant gas actually introduced and compressed is reduced by the cylinder ( As the volume of 6) is increased, the volume of the discharge port 9b is present at a pressure equal to or less than the maximum discharge pressure. Due to the problem of lowering the compression efficiency. Accordingly, an object of the present invention is to provide a valve device of a hermetic electric compressor to improve the compression efficiency by increasing the amount of compression per unit volume of the cylinder due to the reciprocating motion of the piston. In order to achieve the object of the present invention as described above, a suction port for inlet of refrigerant gas and a discharge port for discharging are formed, and a valve moving space part is formed in communication with the discharge port, and a suction valve for opening and closing the suction port is formed at one side and the other side. A discharge hole communicating with the discharge hole is formed at the side of the discharge hole and is formed at the side of the discharge hole, and a discharge valve for opening and closing the discharge hole while moving between the valve moving spaces is formed when the valve is coupled to the head. A valve device for a hermetic electric compressor is provided. Hereinafter, the valve device of the hermetic electric compressor according to the present invention will be described according to the embodiment shown in the accompanying drawings. As shown in FIGS. 4 and 5, the valve device of the hermetic electric compressor according to the present invention has a suction port 9'a through which a refrigerant gas flows in, and a discharge port 9 'through which the compressed refrigerant gas is discharged. b) is formed and the head 9 'with the valve moving space 9'c formed in communication with the discharge port 9'b and a suction valve 13a for opening and closing the inlet 9'a on one side thereof. The discharge hole 13b is formed and communicates with the discharge hole 9'b on the other side, and is formed at the side of the discharge hole 13b and discharged between the valve moving spaces 9'c when combined. And a valve plate 13 having a discharge valve 13c for opening and closing 13b). The valve plate 13 is coupled to one side of the head 9 ', so that the suction valve 13a is in a position to open and close the suction port 9'a, and the discharge valve 13c is a valve moving space part. It is formed to be inserted into (9'c). The valve moving space portion 9'c is formed by digging the head 9 'with a predetermined space so that the discharge valve 13c can be opened while the discharge valve 13c is inserted, and the head 9' ') Is formed to have a predetermined thickness. One side of the discharge valve 13c is joined to form a junction portion 13d on the valve plate 13, and the other side is preferably formed of spring steel to elastically close the discharge hole 13b. The discharge hole 13b communicates with the discharge port 9'b when the discharge valve 13c is opened. The valve plate 13 is preferably formed of spring steel, and the intake valve 13a is formed by processing the inner portion of the valve plate 13 into a predetermined shape. Hereinafter, the operational effects of the hermetic electric compressor valve device of the present invention will be described. The valve device of the hermetic electric compressor of the present invention is coupled to the cylinder plate 6 to which the valve plate 13 is coupled, and the head 9 'side is coupled to the head cover to operate. First, when the piston 7 moves from the top dead center of the cylinder 6 to the bottom dead center, the discharge valve 9'c is closed and the suction valve 13a is opened to suck the refrigerant gas into the cylinder 6 and the piston 7 The refrigerant gas sucked in the process of moving from the bottom dead center to the top dead center is compressed, and the discharge valve 9'c is opened in the valve moving space 9'c, and the compressed refrigerant gas is discharged from the discharge hole 13b. It discharges through the discharge port 9'b. This process is repeated by the reciprocating motion of the piston (7). The valve device according to the present invention has a structure in which the volume of the discharge port 9b is reduced from the volume of the cylinder 6 constituting the conventional compressed volume and the volume of the discharge port 9b formed in the head 9. By reducing the compression loss in the suction and compression process there is an effect to improve the compression efficiency.

Claims (1)

A suction port into which the refrigerant gas is introduced and a discharge port discharged are formed, and a head having a valve moving space is formed in communication with the discharge port, and an intake valve for opening and closing the suction port is formed at one side, and a discharge hole communicating with the discharge port is formed at the other side. It is formed on the side of the ball is a valve device of the hermetic electric compressor, characterized in that the discharge valve is formed to open and close the discharge hole between the valve moving space portion when coupled to the valve plate coupled to the head. ※ Note: This is to be disclosed based on the first application.