KR100951619B1 - Pressure maintenance valve - Google Patents

Abstract

The present invention relates to an unpressurized holding valve mounted on various equipments and used for maintaining a positive pressure of a gas. In the unpressurized holding valve used for various equipments, a stepped portion is formed on the outer circumferential surface of a hollow type and a fixing ring is mounted on the stepped portion. The lower assembly is mounted on the bottom, and the upper portion of the lower assembly is formed in the center of the plate having a predetermined thickness through the insertion hole is formed in the center and the valve seat is formed on the upper portion of the plate is formed while the stepped portion is formed A lower portion protrudes a coupling portion fixedly coupled to the lower assembly, and a plurality of inlet holes are formed inside the valve seat and a plurality of outlet holes are fixedly mounted on the outer side of the valve seat. While the weight is fixedly mounted to the upper portion, the close contact portion is in contact with the valve seat And an upper assembly formed of a vertical portion formed at a center of the bottom surface of the horizontal portion and fitted into an insertion hole formed in the coupling portion, and the intermediate assembly including a configuration in which a case is coupled to wrap the assembly. It is characterized by.

According to the present invention, it is possible to prevent the occurrence of failures and malfunctions in a compact configuration while operating stably at low pressure, as well as to replace the total weight of the non-pressure holding valve according to the place or location, instead of replacing the weight. There is an effect to reduce the.

Pressure holding valve, lower coupling, intermediate coupling, plate, upper coupling, horizontal part, vertical part, o-ring, fixing ring, weight, tight part.

Description

Pressure maintenance valve

The present invention relates to an unpressurized holding valve mounted in various equipments and used for maintaining a positive pressure of a gas, and more particularly, to operate at a low pressure (10 mm WC to 100 mm WC) stably while operating in a compact configuration, causing a failure and a malfunction to occur. It relates to an unpressurized holding valve which can be prevented.

In general, the pressure holding valves used in various equipments are installed in various places according to the equipments. These pressure holding valves are operated when the pressure of the equipment is higher than the set pressure of the pressure holding valves to prevent excessive pressure on the equipment. And to prevent damage to the parts.

And look at the existing unpressurized maintenance valve that performed the above role,

In the unpressurized maintenance valve of FIG. 1, a valve body 110 having a passage part 120 formed therein is connected to one end of a housing 100 having a space formed therein so as to contact a fluid inside the product. Is connected, the other end is provided with a control bolt 150 is screwed.

And, one end of the adjustment bolt 150 is connected to the support block 160, one end of the spring 130 is fixed to one side of the support block 160.

In addition, a valve device 140 is coupled to the other end of the spring 130 such that the spring 130 is elastically supporting the valve device 140.

The passage part 120 is closed while one side of the valve device 140 being elastically supported by the spring 130 contacts one side surface of the valve body 110.

Here, when the fluid pressure inside the product increases, when the fluid pressure is greater than the elastic force of the valve device 140, the spring device 130 contracts and the valve device 140 is separated from the valve body 110. do. Accordingly, the fluid inside the product is moved through the passage part 120, and the fluid is moved outward through the discharge port 170 formed at the side of the housing 100.

2 is a valve body for forming a space portion therein and communicating with the space portion in the longitudinal direction to form an inlet at one end and in communication with the space portion in the radial direction to form a discharge port on the circumferential surface 100a, a packing installed in the space portion of the valve body 100a to open and close the inlet, and an edge portion of the packing between the valve body coupled to the opposite end of the inlet of the valve body and coupled to the valve body. The valve head 300a for fixing and supporting the spring, and the spring seat 700a in contact with the packing 200a is installed at the lower end of the valve head 300a and movable in the longitudinal direction of the space. It is installed in the guide shaft (800a) and the valve head (300a) to apply a force to the spring seat 700a of the guide shaft (800a) in the direction in which the packing (200a) to close the inlet The spring 600a is coupled between the spring 600a and the spring seat 700a so as to be adjustable in engagement with an end of the valve head 300a on the opposite side of the valve body 100a. ) Is rotatably coupled to the hinge shaft at the opposite end of the spring seat 700a of the guide shaft 800a and rotates at a predetermined angle so that the spring 600a moves the guide shaft 800a. It is shown to consist of a lever (900a) for moving in the direction of compression or expansion.

However, such a pressure holding valve is difficult to contact the end of the spring uniformly on one side of the valve device due to the coil shape, and in order to make the contact evenly, the end of the spring may be flattened, in which case the wire diameter Due to the change of the uniform elastic force was difficult to transfer the problem.

In addition, due to the shaking and twisting of the valve device, the operation of the valve device is not smooth, there was a problem that a lot of deviation occurs in controlling the flow rate of the fluid.

And to maintain the positive pressure (10-50Wg ---- 0.001-0.005 kg / cm2) of the pressure and the pressure maintaining valve separately from the pressure maintaining valve, using a pressure regulating valve composed of a diaphragm and a spring, which is not suitable for the pressure Extremely large diameter diaphragm can not be used to increase the price and there was a problem that can not get a very good effect on this.

In addition, even when attempting to maintain the pressure of the electric, the control chamber using the pressure control valve when the valve malfunctions when the momentary pressure is excessively excessive, there is a problem that the vulnerable portion swells or breaks in severe cases.

The present invention has been made to solve the above problems, to provide a non-pressure holding valve to stably operate at a low pressure (10mm WC ~ 100mm WC) to prevent failure and malfunction in a compact configuration. There is a purpose.

In order to achieve the above object, in the unpressurized maintenance valve used in various facilities, a stepped portion is formed on the outer circumferential surface of the hollow type and the stepped portion is mounted on the bottom of the lower assembly, on which the fixing ring is mounted. A coupling part is formed at the center of the plate having a predetermined thickness and a through hole is formed at the center thereof. A valve seat protrudes from the upper part of the plate on which the stepped part is formed, and protrudes from the lower part of the plate. In the valve seat, a plurality of inlet holes are formed on the inner side and a plurality of outlet holes are formed on the outer side of the intermediate assembly. A close contact portion is formed, and in the center of the bottom of the horizontal portion, Seating the upper combination is composed of a perpendicular which is fixed to the fitting insertion holes that are generated and further characterized in that the intermediate formed by the conjugate includes a configuration in which the case is coupled to gain a sense of the conjugate.

According to the present invention, it is possible to prevent the occurrence of failures and malfunctions in a compact configuration while operating stably at low pressure, as well as to replace the total weight of the non-pressure holding valve according to the place or location, instead of replacing the weight. There is an effect to reduce the.

Hereinafter, the configuration of the present invention with reference to the accompanying drawings, Figure 3 is a perspective view showing a pressure retention valve according to the present invention, Figure 4 is a cross-sectional view showing a pressure retention valve according to the present invention, Figure 5 A cross-sectional view showing another embodiment of the unpressurized maintenance valve according to the present invention.

The unpressurized maintenance valve 10 has a lower assembly 20 which is mounted in a lower portion in a hollow form, an intermediate assembly 30 which is coupled to an upper portion of the lower assembly 20 and has a plurality of inlet and outlet holes, and the middle The upper assembly 40 mounted on the upper portion of the assembly 30 and the weight is mounted on the upper portion, and the case 50 for wrapping the assembly (20, 30, 40).

Here, the combination 20, 30, 40 may be formed in a variety of shapes, such as cylindrical, square, polygonal, and in the present invention will be described with an example in which the combination 20, 30, 40 is formed in a cylindrical shape Let's do it.

And the material of the combination 20, 30, 40 is formed by alternatively stainless steel, brass, aluminum.

The lower assembly 20 is hollow and has a stepped portion 22 formed on an outer circumferential surface thereof, and a screw is formed on the vertical surface 24 connected to the stepped portion 22 to fix the intermediate assembly 30.

And the stepped portion 22, the disk-shaped fixing ring 60 is mounted to support this when the upper plate 70 and the o-ring 50 in close contact, the height of the fixing ring 60 varies depending on the location and location Can be.

The intermediate assembly 30 fixedly coupled to the upper portion of the lower assembly 20 has a coupling part 32, a valve seat 33, a coupling part 34, an inlet hole 35 in a plate 31 having a predetermined thickness. ), The discharge hole 36 is formed.

At this time, the outer periphery of the outer surface of the plate 31 is formed with a screw portion 31a for fixing with the case 40.

First, the coupling portion 32 formed in the center of the plate 31 is formed through the insertion hole (32a) for coupling with the upper assembly 40 to be rearranged to the center.

And the coupling portion 32 is formed to protrude up and down for the support of the vertical portion formed in the upper assembly 40, it turns out that the coupling portion 32 can be protruded only on one side if necessary.

Next, the valve seat 33 formed on the upper part of the plate 31 on which the stepped part 22 is positioned and the coupling part 34 formed on the lower part thereof will be described. Protruding toward the end and the end is in contact with the contact member to be rearranged, the end 33a is formed to be inclined to the end portion to enable a line contact rather than a surface contact.

And the coupling portion 34 is formed to protrude toward the bottom for coupling with the vertical surface 24 and the size of the width is formed to be the same as the width of the step portion 22, to prevent gas leakage in the center of the bottom surface In order to accommodate the o-ring 50 is mounted to the mounting groove 34a is formed.

Next, the plurality of inlet holes 35 formed on the inner side and the plurality of discharge holes 36 formed on the outside of the valve seat 33 serve as a moving passage when discharging the internal gas according to the increase in pressure. That is, if the internal gas pressure increases with increasing pressure, the gas is discharged to the outside through the discharge hole 36 through the inlet hole 35 and the boundary line of the valve seat 33. .

In this case, the inlet 35 and the outlet 36 formed in plural may be formed as long holes.

The upper assembly 40 mounted on the upper portion of the intermediate assembly 30 has a horizontal portion 42 and a vertical portion 44 integrally formed, and the vertical portion 44 is formed at the center of the bottom surface of the horizontal portion 42. A predetermined section is protruded toward the lower portion to be fitted into the insertion hole 32a of the coupling portion 32.

Here, the weight weight 80 is fixedly mounted on the upper portion of the horizontal portion 42, the weight weight 80 reveals that it can vary depending on the pressure, location, location to be used.

That is, the upper assembly 40 is seated on the upper portion of the intermediate assembly 30, when the pressure is greater than the weight of the weight 80 is generated in the inside and moved to the upper and lower than the weight 80 When the pressure is set, the lowering valve closes downward to leak extra gas to keep the internal pressure constant.

In addition, the close contact portion 48 formed at the circumferential end portion of the horizontal portion 42 blocks the pressure from being discharged in contact with the valve seat 33, but the close contact portion 48 and the valve seat 33 are Metal noise may be generated by the operation of the intermediate assembly 30, and the noise generated in the contact portion may be solved by mounting the disk 92 or the circular ring 94.

That is, the side of the close contact portion 48 (part in contact with the valve seat) by fitting the disk 92 of the synthetic resin material can be coupled to prevent the noise generated when contacting the valve seat 33. In addition, the circular ring 94 is mounted on the bottom of the contact portion 48 in contact with the valve seat 33 to prevent noise from being generated when the valve seat 33 contacts the valve seat 33. 5 and 6)

The case 50, which is coupled to the intermediate assembly 30 and protects the assembly 20, 30, 40, has a lower portion open and engages with a screw portion 31a formed in the intermediate assembly 30 on an inner lower inner circumferential surface thereof. The threaded portion 52 is formed.

In addition, the o-ring 50 mounted in the mounting groove 34a formed at the center of the bottom of the valve seat 33 is formed of a fluororubber material to block the leakage of gas to the contact surface.

Referring to the embodiment of the non-pressure holding valve 10 configured as described above, Figure 7 is a configuration diagram showing the mounting state of the non-pressure holding valve according to the present invention.

First, the stepped portion 22 is formed on the outer circumferential surface in a hollow shape, and the lower coupling 20 having a screw is formed on the vertical surface 24, and then the fixing ring 60 is mounted on the stepped portion 22.

In addition, the upper portion of the lower assembly 20, the coupling portion 32 through which the insertion hole 32a is formed through the center of the plate 31 having a predetermined thickness and the stepped portion 22 is formed A valve seat 33 protruding from the upper portion of the 31, a coupling portion 34 formed at a lower portion thereof, and a plurality of inflow holes 35 on the inner side of the valve seat 33 are provided on the outside of the valve seat 33. Intermediate assembly 30 in which two discharge holes 36 are formed is fixedly mounted.

That is, the lower assembly 20 and the intermediate assembly 30 is to be fixed by fastening the screw of the coupling portion 34 to the screw formed on the vertical surface (24).

Next, while the weight 80 is fixed to the upper portion of the horizontal portion 42 to the upper portion of the intermediate assembly 30, the close contact portion 48 which the valve seat 33 is in contact with the disk 92 or circular ring ( 94 is mounted and the upper assembly 40 composed of the vertical portion 44 which is fitted to the insertion hole 32a formed in the coupling portion 32 in the center of the bottom of the horizontal portion 42 is seated above When the case 50 is coupled to the intermediate assembly 30, the assembly of the unpressurized maintenance valve 10 is completed.

At this time, the weight 80 is mounted according to the internal holding pressure to be used.

In the above state, the unpressurized maintenance valve 10 is formed in a tank 7 in which a storage space is formed therein and a supply part 3 and a pressure gauge 5 for supplying gas are installed at one side. Shows a temporary example and reveals that the unpressurized valve 10 may be used in a place and a facility requiring the unpressurized valve.

When the pressure is greater than the weight of the weight 80 of the non-maintaining valve 10 in the situation that the gas is supplied through the supply unit 3 in the above state is transmitted to the non-maintaining valve 10, the upper assembly 40 is moved to the upper portion, at this time, the gas stored in the tank 7 is discharged to the outside through the inlet hole 35 and the discharge hole 36 and the internal pressure of the tank 7 again weighs If the pressure is set lower than 80, the valve is lowered to the lower side, and the valve is operated to close the valve, and the opening degree of the valve is automatically adjusted according to the weight of the disk and the internal pressure condition to maintain the pressure (low pressure).

1 and 2 is a view showing a conventional pressure maintaining valve.

Figure 3 is a perspective view of the unpressurized maintenance valve according to the present invention.

Figure 4 is a cross-sectional view showing a pressure maintaining valve according to the present invention.

5 and 6 are cross-sectional views showing another embodiment of the unpressurized maintenance valve according to the present invention.

Figure 7 is a configuration diagram showing the mounting state of the unpressurized maintenance valve according to the present invention.

[Description of Drawings]

10: unpressurized holding valve, 20: lower assembly,

22: stepped portion, 24: vertical plane,

30: intermediate binder, 31: plate,

32: coupling portion, 33: valve seat,

34: coupling portion, 35: inlet hole,

36: discharge hole, 40: the upper assembly,

42: horizontal portion, 44: vertical portion,

50: o-ring, 60: retaining ring

80: weight.

Claims (4)

In the unpressurized valve used for various equipment, The stepped portion 22 is formed on the outer circumferential surface in a hollow shape, and the bottom coupled body 20 on which the fixing ring 60 is mounted is mounted on the bottom portion 22, The upper portion of the lower assembly 20 is formed with a coupling portion 32 through which the insertion hole 32a is formed at the center of the plate 31 having a predetermined thickness and the stepped portion 22 is formed. The valve seat 33 is protruded from the upper portion of the 31 and the coupling portion 34 fixedly coupled to the lower assembly 20 is protruded from the lower portion thereof, and a plurality of inflows are formed inside the valve seat 33. The ball 35 is formed and fixedly mounting the intermediate assembly 30 is formed on the outside a plurality of discharge holes 36, While the weight 80 is fixedly mounted to the upper portion of the horizontal portion 42 on the upper portion of the intermediate assembly 30, the close contact portion 48 is equipped with a circular ring 94 on the surface contacting the valve seat 33 is provided. The upper assembly 40 formed of a vertical portion 44 is formed and is fixed to the insertion hole 32a formed in the coupling portion 32 at the center of the bottom of the horizontal portion 42, The intermediate assembly 30, the pressure retention valve, characterized in that it comprises a configuration that the case 50 is coupled to stack the assembly (20, 30, 40). The method of claim 1, O-ring 50 is installed in the center of the bottom of the valve seat 33 for preventing the leakage of gas. The method of claim 1, The disk 92 is fitted to the side circumference of the close contact portion 48, the pressure retention valve, characterized in that to prevent the noise generated when the valve seat 33 contacts. delete

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