KR101413976B1 - Minimum pressure valve for compresuer - Google Patents

Abstract

The present invention relates to a compressor which is installed between a separator tank of a compressor and a receiver tank and which is connected to the receiver tank and blocks the pressure of the receiver tank from flowing backward when the pressure of the separator tank rises above a predetermined range, A minimum pressure valve (MPV) is proposed.

Description

MINIMUM PRESSURE VALVE FOR COMPRESUER ", "

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a pressure regulating minimum pressure regulator valve for a large-sized compressor, and more particularly, And a minimum pressure valve (hereinafter referred to as 'MPV') for controlling the separator tank pressure of the compressor to prevent the pressure of the tank from flowing backward.

Pneumatic machines and pneumatic equipment used throughout the industry are powered by pneumatic pressures produced by compressors. Pneumatic or pneumatic equipment requiring strong output use relatively strong air pressure.

Generally, a pneumatic compressor has a cooling system for cooling the compressor in order to produce a pneumatic pressure stably because a lot of heat is generated in the compressor during the process of producing the pneumatic pressure.

Air-cooled type and water-cooled type are mainly used for the cooling system of the compressor. Air-cooled type is mainly used for compressors having low capacity, and water-cooled type is mainly used for large compressors.

1 is a block diagram of a compressor cooling system of a compressor, which comprises a compressor 100 that produces pneumatic pressure, a cooler 300 that cools the fluid to cool the compressor 100, And a separator tank 200 for receiving a fluid from the outside when the fluid is low.

Reference numeral A in Fig. 1 is a fluid replenishing device for supplying fluid from the outside to the separator tank 200. The fluid replenishing device includes a manual valve M1 and a valve M2 attached to the piping and an electromagnetic valve W3. The solenoid valve W3 electrically connects the pipeline according to the operation of the water level detection sensor L1 And controls the flow of the fluid from the outside into the separator tank 200 and the compressor 100.

In FIG. 1, a pipe C1 divided by a hatched line is a pipe through which fluid (either oil or water) circulates, a pipe C2 without a hatched line is a pipe through which air circulates, (C3) is a pipe for guiding the fluid having passed through the compressor (100) and the air to the separator tank in a mixed state.

Since the compressor 100 generates high temperature in the compressor 100 when air is produced, the compressor 100 is cooled by the cooler 300 via the cooler 300 and then supplied into the compressor 100 At the same time, the air filtered by the air filter 400 is supplied into the compressor 100 to cool the compressor.

The fluid and air passing through the compressor 100 return to the separator tank 200 in a mixed state and the fluid and the air are separated from each other in the separator tank 200.

The fluid stored in the separator tank 200 is cooled by the cooler 300 via the fluid circulation pipe C3 and then supplied again to the compressor 100 through the air to cool the compressor 100 and then supplied to the separator tank 200 When the pressure of the air flowing into the separator tank 200 reaches a predetermined pressure, the safety valve 201 is opened and discharged to the outside of the separator tank 200. Reference numeral 201 denotes a safety valve for relieving pressure when excess pressure is applied to the separator tank 200.

A water filter 301 and a fluid pressure sensing sensor S1 are attached to the fluid circulation pipe C1 for cooling the compressor 100. The air circulation pipe C2 is connected to a pneumatic pressure sensor S3 and a solenoid valve A check valve V1 and a temperature sensor S2 are attached to the pipe C3 connected between the compressor 100 and the separator tank 200. The separator tank 200 is provided with a check valve A water level sensor L1 is attached. In the fluid circulation pipe C1, reference numerals W1 and W2 denote solenoid valves for selectively switching fluid flow lines, and reference numerals S4 and S5 denote pressure sensors.

When the water level of the separator tank 200 is sensed by the water level sensor L1 and is lowered to a predetermined value or less, the compressor 100 and the fluid supply pipe (not shown in the figure) connected to the separator tank 200 And opens the attached solenoid valve W3 to control the flow of the fluid into the separator tank 200 and the compressor 100. [

The air filter 400 is provided with an air pump (not shown) in addition to an air filter for replenishing outside air into the compressor 100 when the air pressure sensed by the air pressure sensing sensor S3 is equal to or lower than a predetermined value.

The air filtered by the air filter 400 flows into the compressor 100 to cool the compressor 100 and the air mixed with the air flows into the separator tank 200 and is stored.

Meanwhile, the pneumatic pressure produced by the compressor 100 is stored in the large capacity receiver tank 600 through the pipe C4, and the pneumatic pressure is supplied to the pneumatic equipment or the pneumatic equipment.

However, since the air introduced into the separator tank 200 as described above is automatically discharged out of the separator tank 200 when the pressure rises to a certain level or higher, the air pressure is wasted and a remedy is required.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide a high-capacity compressor in which the overpressure is discharged to the receiver tank to regulate the pressure in the separator tank when the pressure in the separator tank rises excessively And a check valve function for raising the air pressure of the receiver tank and blocking the pipeline so that the pneumatic pressure of the receiver tank does not flow back toward the separator tank.

According to an aspect of the present invention, there is provided a spherical means for a minimum pressure regulator for regulating a separator tank pressure,

The separator tank 200 is provided between the separator tank 200 and the receiver tank 600 of the compressor so that the pressure of the separator tank 200 is transferred to the receiver tank 600 when the pressure of the separator tank 200 rises over a certain range, A valve housing 701 having a connection hole 720 connected to the receiver 200 and a connection hole 710 connected to the receiver tank 600;

A pressure regulating shaft 740 coupled to an engaging hole provided in the valve housing 701 and installed in the axial direction of the separator connecting hole 720;

A resin material valve plate 730 slidably coupled to the circumferential surface of the pressure regulating shaft 740 and connected to the periphery of the separator tank side pipe connecting passage 720;

And a compression spring 750 which is coupled between the valve plate 730 and the pressure control shaft 740 and applies elastic force to the valve plate 730 so as to close the separator tank side pipe connection passage 720 Can be implemented.

According to the present invention, when the pressure in the separator tank rises excessively, the MPV is opened to transfer the pressure to the re-server tank, thereby increasing the pressure of the receiver tank. In addition, the pneumatic pressure filled in the receiver tank flows back into the separator tank It has the effect of blocking it.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a cooling fluid circulation system for cooling a compressor of a conventional large-
2 is a cooling fluid circulation system for cooling a compressor of a large compressor according to the present invention,
3 is a cross-sectional perspective view of the main part of the MPV according to the present invention,
4 is a cross-sectional perspective view showing the opening state of the MPV according to the present invention.

A preferred embodiment of a separator tank pressure regulating minimum pressure valve of a compressor of the present invention will be described in detail with reference to the accompanying drawings.

2 and 3, FIG. 2 is a system diagram of a compressor cooling system to which an MPV 700 according to the present invention is applied, FIG. 3 is a sectional view of a main part illustrating an MPV according to the present invention, (Not shown).

In FIG. 2, the same reference numerals are used for the same components shown in FIG. 1, and a detailed description thereof will be omitted.

The MPV 700 includes a metal valve housing 701 including a connection hole 710 to which a pipe connected to the receiver tank 600 is coupled and a connection hole 720 to which a pipe connected to the separator tank 200 is coupled, And an on-off valve 740a for opening and closing the pipe connecting passage on the side of the separator tank. The connection holes 710 and 720 are formed in an annular shape.

The connecting passage opening and closing valve 740a on the side of the separator tank 200 includes a pressure adjusting shaft 740 installed inside the valve housing 701 in the axial direction of the separator connecting hole 720, A valve plate 730 and a valve plate 730 slidably coupled to the circumferential surface of the separator tank side pipe connection channel 720 so as to be openable and closable and a pressure regulating shaft 740, And a compression spring 750 for applying an elastic force to the valve plate 730 so that the side pipe connecting passage 720 is closed.

The pressure adjusting shaft 740 is rotatably coupled to an engaging hole 702 provided in the valve housing 701 and is provided with an end portion 741 protruding outward from the valve housing 701.

A nut (not shown in the figure) is fastened to the end portion 741 of the pressure adjusting shaft 740 so that the pressure adjusting shaft 740 moves in the axial direction of the fitting hole 702 by the tightness of the nut, Can be adjusted.

3, reference numeral 743 denotes a sealing member, and the sealing member 743 is inserted into the annular groove 742 provided on the circumferential surface of the pressure regulating shaft 740 so that the space between the pressure regulating shaft 740 and the engaging hole 702 Seal it tightly.

4, the valve plate 730 prevents the elastic force of the compression spring 750 from being applied to the separator tank side pipe connection passage (not shown) when the pressure of the separator tank 200 is excessively increased, The valve plate 730 is brought into close contact with the separator tank side pipe connection passage 720 by the elastic force of the compression spring 750 to shut off the pipe line do.

The valve plate 730 is tightly connected to the peripheral portion 721 of the separator tank side pipe connection passage 720 to perform a check valve function in which no pressure is transmitted from the riser tank 600 side to the separator tank side.

Since the pneumatic pressure contained in the separator tank 200 includes moisture, it is preferably made of a resin material or made of a corrosion-resistant material so that the valve plate 730 is not corroded by moisture.

The MPV 700 is operated in a range smaller than the operating range of the safety valve 201 installed in the separator tank 200.

The piping connected between the MPV 700 and the receiver tank 600 includes a condenser 601 and a water filter (not shown) that can remove moisture contained in the air discharged from the separator tank 200 .

As described above, according to the present invention, it is possible to appropriately adjust the pressure in the separator tank so as not to excessively control the pressure in the separator tank, and to prevent the pressure of the receiver tank from flowing back toward the separator tank, There is an effect that the receiver tank pressure can be increased.

Further, since the MPV of the present invention is not corroded, the opening and closing operation of the piping connecting passage on the side of the separator tank is always correct and is not leaked, so that the reliability of the compressor can be improved.

200: Separator tank
600: Receiver tank
700: MPV
710: Pipe connection hole on the receiver tank side
720: pipe connection passage on the side of the separator tank
701: valve housing
740: Pressure regulating shaft
730: Valve plate
750: Compression spring
741: end of pressure adjusting shaft
742: annular groove
743: sealing member
702: Coupling hole

Claims (1)

The separator tank 200 is provided between the separator tank 200 and the receiver tank 600 of the compressor so that the pressure of the separator tank 200 is transferred to the receiver tank 600 when the pressure of the separator tank 200 rises over a certain range, A valve housing 701 having a connection hole 720 connected to the receiver 200 and a connection hole 710 connected to the receiver tank 600;
A pressure regulating shaft 740 which is coupled through an engaging hole formed in the valve housing 701 and installed in the axial direction of the separator connecting hole 720;
A resin material valve plate 730 slidably coupled to the circumferential surface of the pressure regulating shaft 740 and connected to the periphery of the separator tank side pipe connecting passage 720; And
The valve plate 730 is supported between the valve plate 730 and the pressure regulating shaft 740 so as to be supported along the pressure regulating shaft 740 so as to close the separator tank side pipe connecting passage 720, And a compression spring 750 applied to the compression spring 750,
A nut is fastened to an end portion 741 of the pressure adjusting shaft 740 so that the pressure adjusting shaft 740 moves in the axial direction of the fitting hole 702 by the tightness of the nut to adjust the elastic force of the compression spring 750 Wherein the separator tank pressure regulator is configured to regulate the pressure of the compressor.

Images