KR20010055302A - Discharge valve assembly - Google Patents

Abstract

PURPOSE: A discharge valve assembly is provided to prevent the counterflow of discharged gas to a discharge port when closing the discharge valve. CONSTITUTION: A piston(P) moves to a top dead center for compressing the gas filled in a cylinder(C). The gas pushes a discharge valve(120) upward for opening a discharge port. The gas is discharged through the discharge port for filling a discharge space(S). The piston is moved to a bottom dead center for lowering the discharge valve. Thus, the discharge port is closed. Herein, the discharge valve contains a volume part(121) for being inserted into the discharge port. Therefore, the dead volume of the discharge port is reduced. Moreover, a flange part(122) is formed on the upper side of the volume part to be attached on the outer surface of the discharge port. By the flange part receiving the restoring force of a valve spring(130) when closing the discharge port, the closed speed of the discharge valve is increased. In case of the generation of the counterflow of compressed gas to the cylinder, the gas pushes the flange part of the discharge valve for increasing the closed speed of the discharge valve.

Description

Discharge Valve Assembly {DISCHARGE VALVE ASSEMBLY}

The present invention relates to a discharge valve assembly, and more particularly to a discharge valve assembly suitable for preventing the discharge gas from flowing back through the discharge port.

In general, the discharge valve assembly is mounted on the discharge side of the cylinder to open and close the discharge point of the compressed gas, and is organically operated by a piston reciprocating between the top dead center and the bottom dead center of the cylinder.

That is, the discharge valve assembly is switched to the closed state when the piston moves to the bottom dead center for the suction stroke, while repeatedly performing a series of operations that are switched to the open state when the piston moves back to the top dead center for the discharge stroke. do.

In the discharge valve assembly, the discharge valve is normally opened and closed by a pressure difference and a valve spring between the compression chamber and the discharge chamber. At this time, the opening and closing speed of the discharge valve is an important measure of the performance of the discharge valve assembly.

1 is a longitudinal cross-sectional view showing an example of a conventional flipper discharge valve assembly.

That is, the conventional discharge valve assembly is provided with a discharge port 11 for communicating the compression chamber and the discharge chamber to the valve plate 10 mounted on the front end surface of the cylinder C, and to the outer surface of the valve plate 10. A discharge valve 20 mounted to open and close the discharge port 11, a valve spring 30 mounted on the rear surface of the discharge valve 20 to support elastically, and an outer side of the valve spring 30. The retainer 40 is configured to limit the opening degree of the discharge valve 20 and the valve spring 30.

The discharge valve 20 has a rectangular support portion 21, one end of which is fixed to the valve plate 10, and the other end of the support portion 21 is a wide disc-shaped opening / closing portion 22 to open and close the discharge port 11. Consists of

The valve spring 30 also has a rectangular leaf spring, one end of which is fixed to the valve plate 10 together with the support 21 of the discharge valve 20, while the other end thereof is a discharge valve ( It is formed so as to form the free end 32 opposite the opening-and-closing part 22 of 20).

The retainer 40 accommodates both the discharge valve 20 and the valve spring 30 so that both ends thereof are fixed to the outer surface of the valve plate 10.

In the drawings, reference numeral 12 denotes a suction port, 50 denotes a discharge cover, P denotes a piston, and S denotes a discharge space.

The conventional discharge valve assembly configured as described above is operated as follows.

That is, when the piston P moves to the top dead center to compress the gas filled in the cylinder C, the compressed gas reaches a certain point and pushes the discharge valve 20 to open the discharge port 11. As the compressed gas is discharged through the opened discharge port 11, the discharge space S is filled.

Then, when the piston (P) is moved to the bottom dead center again, the internal pressure of the cylinder (C) is relatively low compared to the internal pressure of the discharge space (S), the discharge valve 20 is discharge space (S) The discharge port 11 is closed while being pushed by the pressure of) and the restoring force of the valve spring 30.

At this time, the discharge valve 20 and the valve spring 30 for elastically supporting it is formed in a rectangular shape as shown in the drawing so that one end is fixed to the valve plate 10 and the discharge port 11 at the opposite end thereof. Due to the opening and closing portion 22 for opening and closing the valve, when the discharge valve 20 is closed, the restoring force of the valve spring 30 is transmitted from the fixed end 31 to the free end 32 opposite to the discharge valve. 20 also started to close from the support 21, the opening and closing part 22 was to be closed last.

However, the discharge valve assembly may reduce the suction loss of the gas and the reverse flow of the discharge gas as the opening / closing operation of the discharge valve 20 is faster. In the conventional discharge valve assembly, the discharge valve 20 may be configured as described above. The valve spring 30 is formed in a rectangular shape in which one end is fixed, and when the closing is performed, the closing speed is slow because the angular movement is performed around the fixed point. Thus, a part of the compressed gas discharged through the discharge port is stored in the cylinder ( Due to the pressure difference between C) and the discharge space (S) to flow back to the cylinder (C) there was a problem in that the suction loss while increasing the specific volume of the suction gas.

The present invention has been made in view of the problems of the conventional discharge valve assembly as described above, to provide a discharge valve assembly that can prevent the discharged gas back flow back to the discharge port when the discharge valve is closed. There is this.

Figure 1 is a longitudinal sectional view showing an example of a conventional discharge valve assembly.

Figure 2 is an exploded perspective view of a conventional discharge valve assembly.

Figure 3 is a longitudinal sectional view showing a reverse flow process of the discharge gas in the conventional discharge valve assembly.

Figure 4 is a longitudinal sectional view showing an example of the discharge valve assembly of the present invention.

Figure 5 is an exploded perspective view of the present invention discharge valve assembly.

6a and 6b is a longitudinal sectional view showing the opening and closing operation of the discharge valve assembly of the present invention.

7 and 8 are vertical cross-sectional view showing a modified example of the discharge valve assembly of the present invention, respectively.

** Description of symbols for the main parts of the drawing **

110: valve plate 111: discharge port

120: discharge valve 121: volume portion

122: flange portion 130, 230: valve spring

140: retainer 150, 350: discharge cover

351: Retainer Part

In order to achieve the object of the present invention, the discharge port is formed and mounted on the front end surface of the cylinder, and the opening and closing the discharge port while linearly reciprocating in the outer side of the valve plate to the outer surface of the discharge port A discharge valve including a flange portion in surface contact, an elastic member disposed on the rear side of the discharge valve so as to elastically support the reciprocating motion of the discharge valve, and fixed to an outer side of the valve plate to adjust the opening degree of the discharge valve. A discharge valve assembly is provided that includes a restricting retainer.

Hereinafter, the discharge valve assembly according to the present invention will be described in detail based on the embodiment shown in the accompanying drawings.

Figure 4 is a longitudinal sectional view showing an example of the discharge valve assembly of the present invention, Figure 5 is a perspective view showing an exploded view of the discharge valve assembly of the present invention.

As shown therein, the discharge valve assembly according to the present invention includes a valve plate 110 having a discharge port 111 communicating with the compression chamber and the discharge chamber and mounted on the front end surface of the cylinder C, and the valve plate 110. Discharge valve 120 for opening and closing the discharge port 111 while linearly reciprocating at the outer side of the valve), a valve spring 130 for elastically supporting the reciprocating motion of the discharge valve 120, and the valve plate. It is fixed to the outer side of the 110 is configured to include a retainer 140 for limiting the opening degree of the discharge valve (120).

The discharge port 111 is formed in a trapezoidal longitudinal cross-sectional shape of the outer light inner narrow that becomes wider toward the outside, but is formed through the circular cross-sectional shape in consideration of the coupling to the volume of the discharge valve 120 to be described later. desirable.

The discharge valve 120 is formed in the upper end of the volume portion 121 and the volume portion 121 which is slipped into the discharge port 111 and the flange portion which is in surface contact with the outer surface of the discharge port 111 The discharge valve 120 may be formed integrally with the volume portion 121 and the flange portion 122, or the volume portion 121 and the flange portion 122 may be separately provided. Thus, the volume portion 121 may be inserted into the flange portion 122.

The valve spring 130 is composed of a compression coil spring whose both ends are fixed to the rear surface of the discharge valve 120 and the retainer 140 opposite thereto, or both ends thereof are discharge ports 111 as shown in FIG. 7. While fixed to both sides of the valve plate 110, the central portion may be composed of a valve spring 230 made of a leaf spring for fixing the back of the discharge valve (120).

The retainer 140 may be provided as a rectangular plate-like member whose both ends are fixed to both sides of the valve plate 110 in a state in which the discharge valve 120 is embraced, as shown in FIG. 8. The retainer portion 351 may protrude from the inner side of the discharge cover 350 fixed with the predetermined discharge space S to the outer side of the discharge valve 350 toward the rear side of the discharge valve.

In the drawings, the same reference numerals are given to the same parts as in the prior art.

In the drawings, reference numeral 112 denotes a suction port, 121a and 141 denote spring fixing protrusions, 150 denotes a discharge cover, P denotes a piston, and S denotes a discharge space.

The discharge valve assembly according to the present invention as described above is operated as follows.

That is, when the piston P moves to the top dead center to compress the gas filled in the cylinder C, the compressed gas reaches a certain point and pushes the discharge valve 120 vertically upward to discharge the discharge port 111. ) Is opened, and the compressed gas is discharged through the opened discharge port 111 to be filled in the discharge space (S).

Then, when the piston (P) is moved to the bottom dead center again, the internal pressure of the cylinder (C) is relatively low compared to the internal pressure of the discharge space (S), the discharge valve 120 is discharge space (S) The discharge port 111 is closed while being pushed downward by the pressure of) and the restoring force of the valve spring 130 provided on the back side of the discharge valve 120.

At this time, the discharge valve 120 has a volume 121 protrudingly formed on the bottom surface thereof so as to slide into the discharge port 111 so that the volume of the discharge port is reduced to a minimum. The flange portion 122 wider than the diameter of the discharge port 111 is formed on the upper surface side of the) is in close contact with the outer surface of the discharge port 111.

In this way, the discharge valve 120 is formed in a disc shape and is formed to open and close the discharge port 111 while reciprocating in a straight line, in particular, the restoring force of the valve spring 130 when the discharge port 111 is closed The flange portion 122 of the discharge valve 120 is received by the pressing force to increase the closing speed of the discharge valve 120.

In addition, since the discharge valve 120 is formed in a wide disc shape, the gas discharged through the discharge port 111 is re-opened by a pressure change between the compression space (unsigned) and the discharge space S. Even if it tries to flow back into the compression space of C), the gas to be flowed back presses the flange portion 122 of the discharge valve 120, so that the closing speed of the discharge valve 120 is further increased.

The discharge valve assembly according to the present invention comprises a valve plate in which a discharge port is formed, a discharge valve having a flange portion which is opened and closed vertically to open and close the discharge port of the valve plate and is in surface contact with the outer surface of the discharge port, The resilient member elastically supporting the reciprocating motion and the retainer for limiting the opening degree of the discharge valve allow the discharge gas to flow backward even when the discharge gas discharged when the discharge valve is closed flows back into the discharge port. Pressing the flange portion to increase the closing speed of the discharge valve, thereby effectively preventing the reverse flow of the discharge gas it is possible to prevent the loss of the suction gas in advance.

Claims (2)

A valve plate having a discharge port formed thereon and mounted to the front end surface of the cylinder; A discharge valve which opens and closes the discharge port while linearly reciprocating at the outer side of the valve plate, and has a flange portion which is in surface contact with the outer surface of the discharge port; And a resilient member disposed on the rear side of the discharge valve to elastically support the reciprocating motion of the discharge valve, and a retainer fixed to an outer side of the valve plate to limit the opening degree of the discharge valve. The discharge valve assembly according to claim 1, wherein the discharge valve has a volume portion which is slid into the discharge port and protrudes from the center of the bottom side of the flange portion.