KR20120054698A - Minute-atmospheric-pressure-control valve for linear controling of leak-air - Google Patents

Abstract

PURPOSE: A minute pressure control valve for linearly controlling leakage rate is provided to improve operation efficiency regardless of the number of personnel staying in a shelter by supplying required air amount and maintaining static pressure according to linear control of leakage rate. CONSTITUTION: A minute pressure control valve(1) for linearly controlling leakage rate comprises a cover part(2), a base part, and a driving disc part. The cover part heads toward where the atmospheric pressure is relatively high and comprises a step pulley. The base part is coupled with the cover part at the circumference to form an internal space. Ventilation holes of the base part are formed toward where the atmospheric pressure is relatively low. The driving disc part is comprised of a rubber plate and a blocking cup. The rubber plate is inserted between the cover part and the base part to block ventilation between the cover part and the base part.

Description

MINUTE-ATMOSPHERIC-PRESSURE-CONTROL VALVE FOR LINEAR CONTROLING OF LEAK-AIR}

The present invention relates to a fine pressure regulating valve designed to allow a linear control of the amount of leakage in order to supply an appropriate amount of air and maintain a constant pressure in a military shelter, such as a CBR.

An overpressure valve is provided between the space of the NBC collective protection facility or the military shelter, and the space between the outer and outer spaces. It is a safety device that partially eliminates the difference so that the personnel in the shelter do not cause health problems when the air pressure changes out of the shelter.

The overpressure valve has a structure in which the air pressure is adjusted by opening the air out of the shelter when the circular movable disk is blocked by the spring tension and the air pressure in the shelter becomes higher than the disc minimum operating pressure.

In other words, when the pressure is simply higher than the set pressure, a simple on / off operation is performed in which the disc is opened and closed.

In addition, the disk-shaped moving disk itself, which is moved by differential pressure, is a metal material and has a relatively small working area of air pressure. Therefore, the disk was not operated smoothly. To solve this problem, the working area of the air pressure was increased by increasing its diameter. When it is widened, the moving disk itself is heavy, which makes it difficult to operate smoothly.

As a result, the air pressure does not respond to the initial operation of the blower, but if a pressure difference of more than a certain level is formed, the pressure suddenly opens and the valve suddenly opens at several times or several times the reference pressure in the shelter.

In this case, the crew in the shelter may be deafened by sudden air pressure changes or pain due to altitude sickness.

The present invention was devised to solve the problems of the conventional overpressure valve, the movable disk moves smoothly even at the initial low differential pressure, so that a predetermined amount of air flows out at a certain pressure, and the pressure can be linearly increased or decreased according to pressure fluctuations. To provide a valve.

In order to achieve the above object, the present invention is a valve which is installed in the partition wall separating two spaces with air pressure difference to control the air pressure difference, the air pressure toward the relatively high side, the concave vent formed The cover is formed as a concave to form a space in the interior coupled to the cover and the stepped portion protruding from the concave inner surface as a shape and toward the relatively low air pressure A perforated hole is formed in the bottom surface of the base portion having a vent formed therein, a rubber plate fitted therebetween to block aeration between the cover portion and the base portion, and a cup-shaped member integrally coupled to protrude from the rubber plate. And a cut-off cup portion whose air flow is cut off when the circumference thereof is detachably engaged with the stepped portion. The rubber plate is elastically extended toward the base part as the positive pressure rises in the space on the cover part side, and the step part and the cutoff cup part are separated, and an air flow occurs from the cover part space to the base part space. As the positive pressure is lowered, the stepped portion and the blocking cup part are engaged again by the elasticity of the rubber plate so that the air flow is blocked.

In addition, the cover part is integrally provided with a guide column having an elongated shape extending in parallel with the operation path of the blocking cup portion, the blocking cup portion is provided with a slider integrally to slide along the guide column, the operation of the blocking cup portion guide column Is supported by.

In addition, the base portion is integrally provided with an elongated cylinder extending in the extension line of the guide column, and further includes a support spring that is fitted to the cylinder is sandwiched between the blocking cup portion and the inner bottom of the cylinder.

In addition, the adjustment member is mounted on the inner bottom of the cylinder, one side of which is in contact with the end of the support spring, and the other side is made of a male screw that is screwed through a screw hole formed in the inner bottom of the cylinder.

Further, an inclined surface is formed around the upper portion of the cutoff cup portion in contact with the stepped portion, and a ring groove is continuously formed around the lower side surface of the stepped portion facing the inclined surface, and an O-ring is attached to the ring groove. The ring is in contact with the inclined surface.

The micro-pressure control valve of the present invention can operate even at a micro pressure that cannot be realized with a conventional overpressure valve, and can also maintain a proper air amount and a reference pressure in the shelter by adjusting the leakage amount linearly, and cause hearing impairment for the personnel in the shelter. It has an excellent effect without any concern.

In addition, the present invention is to allow the pressure in the shelter to naturally reach the reference pressure and to supply the static pressure and the required air amount according to the linear adjustment of the leakage amount has an excellent effect to increase the operating efficiency regardless of the number of people staying in the shelter.

1 is a perspective view showing a pressure control valve for linear leakage control according to an embodiment to which the present invention is preferably applied.
FIG. 2 is a perspective view illustrating a cover part of the micro pressure control valve of FIG. 1. FIG.
3 is a perspective view illustrating a movable disk of the micro-pressure control valve of FIG. 1.
4 is a perspective view illustrating a base of the micro-pressure control valve of FIG. 1.
5 is a partial cross-sectional perspective view showing a state in which the pressure control valve of FIG. 1 is closed.
6 is a partial cross-sectional perspective view showing an open state of the pressure control valve of FIG.

Best Mode for Carrying Out the Invention An embodiment to which the present invention is preferably applied will be described with reference to the drawings.

1 is a perspective view showing a pressure control valve for linear leakage control according to an embodiment to which the present invention is preferably applied.

The pressure control valve 1 of the present embodiment is installed in a chemical protection group protection facility such as a shelter (not shown), and is installed on a wall surface of a shelter facing an external space, and a positive pressure device such as a pump for pumping purified air (not shown). If positive pressure is formed in the shelter and the difference between the outside air and the air pressure is large, the valve is temporarily opened to release the positive pressure in the shelter below a certain level and then close again. Its features are to be made.

FIG. 2 is a perspective view illustrating a cover part of the micro pressure control valve of FIG. 1, FIG. 3 is a perspective view illustrating a movable disk part of the micro pressure control valve of FIG. 1, and FIG. 4 is a perspective view illustrating a base part of the micro pressure control valve of FIG. 1.

The micro-pressure control valve 1 of this embodiment which enables such an operation is largely comprised of the cover part 2, the base part 3, and the movable disk part 4. As shown in FIG.

Each of the base portion 3 and the cover portion 2 forming the outline of the micro-pressure control valve 1 of the present embodiment has a convex shape of one side and a generally rounded plate shape, but is not limited thereto. It can be made in the shape of a square or other various forms having a, which is also included in the present invention.

Around each of the cover portion 2 and the base portion 3, flange portions 21 and 31 having a rounded rim shape similar to each other are formed, so that the flange portions 21 and 31 face each other. The inner space is formed between the cover part 2 and the base part 3 by coupling the fastening screw 20 to the plurality of screw holes 22 and 32 spaced apart at equal intervals along the circumference of each flange. .

A plurality of openings 23 and 33 are formed radially in the outward surfaces of the cover part 2 and the base part 3, and the outside air is only coupled to the base part 3 and the cover part 2. The movable disk portion 4 is located between the base portion 3 and the cover portion 2 so that mutual ventilation is blocked.

Hereinafter, the base portion 3 will be described in more detail with reference to FIG. 4.

A long cylindrical portion 34 is integrally formed at the center of the bottom surface of the base portion 3 so as to protrude downward, and the support spring 35 is fitted into the cylinder portion 34. In the present embodiment, the coil spring is used as the support spring 35, but the present invention is not limited thereto. For example, a leaf spring is attached to the bottom surface of the base part 3 to apply an elastic force upward to the movable disk part. It is apparent to those skilled in the art that the present invention is possible and is not detailed herein but is included in the scope of the present invention.

The support spring 35 provides an elastic return force that pushes the blocking cup 44 upwardly from the bottom of the blocking cup 44 with the lower end of the blocking cup 44 and the cylinder 34 as an operating range.

And, there is provided a means for adjusting the strength of the elastic return force from the cylinder portion 34 side with respect to the support spring 35, so that the elastic action range in the longitudinal direction of the support spring 35 can be increased or decreased. The cylinder portion 34 is provided with a disk member which abuts against an end of the cylinder portion 34 of the support spring, and an adjustment member 36 formed integrally with a male screw portion that is screwed through a female screw hole formed in the center of the extended end portion of the cylinder portion. do.

The male screw portion of the adjusting member 36 protrudes out of the cylinder portion 34, and a screw groove is formed at an outer end portion of the male screw portion to adjust the gap between the adjusting member 36 and the blocking cup portion 44 by screwing. Through the adjustment of the strength of the elastic return force of the support spring (35).

Hereinafter, the cover part 2 is demonstrated with reference to FIG.

The surface of the cover portion 2 is formed with a convex portion 24 protruding outward from the center thereof, and the stepped portion 25 of the shape protruding inward from the center also inside the cover portion 2. Is formed.

In addition, the cover part 2 is provided with a guide column 26 fitted through the convex part 24 and the step part 25 and extending toward the cylinder part 34.

In the guide column 26, clamping grooves are formed at points where they meet the upper surface of the convex portion 24 and where they meet the lower surface of the stepped portion, and the clamp rings are inserted into the clamp ring grooves. The guide column 26 is constrained to the cover part 2 by being compressed.

In addition, a cap groove is formed at an outer circumference of the convex portion 24, and the cap 27 is fitted therein to prevent the clamp ring from being separated, as well as the guide column 26 and the convex portion 24. And unintended leakage of air pressure through the gap between the steps 25.

Hereinafter, with reference to FIG. 3, the movable disk part 4 is demonstrated.

In the present embodiment, the movable disk portion 4 drills a disk-shaped rubber plate 45 and the center of the rubber plate 45, and has a cup shape, and the stepped portion 25 of the cover portion 2 is formed. The interlocking blocking cup portion 44 is formed integrally.

The circumference portion 41 corresponding to the flange portions 21 and 31 and the screw hole 42 corresponding to the screw holes 22 and 32 are formed around the rubber plate 45 to form the cover portion ( It is located between 2) and the base part 3, and is integrally assembled.

In this embodiment, a flange having a slight width is formed on the outer side of the bottom of the blocking cup part 44, and the rubber plate 45 and the blocking cup part 44 are connected by riveting through the flange.

A perforation hole 43 is formed in the bottom of the blocking cup portion 44, and an inclined surface portion 46 is formed around the upper portion thereof.

The inclined surface portion 46 is engaged with the circumference of the step portion 25 to block the air flow from the outside to the center around the blocking cup 44.

In the stepped portion 25 that meets the inclined surface portion 46, a sealing groove is formed in the circumferential portion, and the O-ring 29 is fitted thereto so that the O-ring 29 and the inclined surface portion 46 closely contact each other. As a result, the sealing effect is enhanced.

It is preferable that the inclination angle of the inclined surface portion 46 is in the range of 40 to 50 degrees with respect to the vertical direction. If the inclination angle is less than 40 degrees, the contact area with the O-ring 29 is widened and the frictional resistance is increased accordingly, thereby preventing the cup portion. Initial operation of 44 is not performed smoothly.

On the other hand, if it is larger than 50 degrees, the contact area with the O-ring 29 is narrowed, and if the blocking cup 44 and the stepped portion 25 are not correctly engaged, the airtightness is reduced, and the O-ring 29 As the wear progresses, the airtightness is further deteriorated and it is impossible to function as a pressure control valve.

On the other hand, a hollow cylindrical slider 47 is formed at the bottom center of the blocking cup 44 so that the lifting and lowering motion of the movable disk 4 can be accurately guided by the guide column 26. The ball bearing body 48 is embedded in the slider 47 to smoothly slide on the guide column 26 to minimize friction.

In addition, the elements for guiding the accurate lifting and lowering of the blocking cup 44 are guide protrusions 28 which are attached in a plurality, and downwardly extending, at equal intervals along the bottom circumference of the stepped portion 25. The guide protrusion 28 prevents the blocking cup portion 44 and the stepped portion 25 from being staggered or disengaged.

As described above, the blocking cup part 44 slides on the guide column 26 almost unmovably through the slider 47, and the inclined surface part 46 of the blocking cup part 44 and the stepped part ( 25) The action of being engaged and spaced with almost no deviation is repeated.

The operation will be described below with reference to FIGS. 5 and 6.

5 is a partial cross-sectional perspective view showing a closed state of the pressure control valve of Figure 1, Figure 6 is a partial cross-sectional perspective view showing an open state of the pressure control valve of Figure 1;

The micro-pneumatic control valve of the present invention is mounted such that the cover portion 2 is toward the inside of the shelter and the base portion 3 is toward the outside of the shelter when mounted on the shelter wall.

In the conventional pressure reducing valve, when the difference in air pressure between the two spaces is resolved, a large noise and a sudden change in air pressure occur due to a sudden opening and closing of the valve, causing a temporary hearing impairment to the internal personnel. Operate from the initial stage when the air pressure difference starts to occur between the sub-space and the base-side space, so that no sudden air pressure fluctuations occur. Through this action, it is possible to solve the pressure difference gradually.

When the micro pressure control valve 1 is closed as shown in FIG. 5, and the micro pressure control valve 1 is opened as shown in FIG. 6, air pressure acts on the rubber plate 45 as shown by the thick arrow of FIG. 6. While the pressure above the elastic restoring force of the spring 35 acts on the rubber plate 45, the blocking cup portion 44 slides downward to be separated from the step portion 25, and at the same time, the air flows like a thin arrow. It escapes between these guide protrusions 28, and it exits to the opening 33 of the base part 3 through the perforation hole 43, and the air pressure between the space of the cover part 2 side and the space of the base part 3 side The difference is eliminated, and the positive pressure in the shelter is lowered.

When the difference in air pressure between the two spaces is resolved, the blocking cup part 44 and the step part 25 are engaged again by the elastic force of the rubber plate 45 and the elastic return force of the support spring 35. Closing of the pressure control valve 1 prevents contaminated external air from entering the shelter.

The micro-pressure control valve 1 of the present invention is characterized by a so-called linear operation, which operates slowly from the beginning without sudden operation, and describes some structural features that make it possible.

The first structural feature is that the diameter of the cut-off cup portion 44 is made relatively smaller than that of the rubber plate 45 and the area of the rubber plate 45 is made relatively wide, whereby the air pressure acting on the rubber plate 45 The distribution is distributed, so that the micro pressure control valve 1 starts to operate even at a relatively small difference in air pressure, thereby enabling linear operation of the micro pressure control valve 1.

The second structural feature, the inclined surface portion 46 of the blocking cup portion 44 has a structure inclined downward toward the center of the blocking cup portion 44, whereby the blocking cup portion 44 is a guide column 26 And the air flows through the apertures 43 of the blocking cup portion 44 through the plurality of openings 23 of the cover portion 2, thereby opening the base portion 3. When it is directed to 33, the air flow is introduced into the blocking cup portion 44 through the U-ring 29 between the inclined surface portion 46 and the U-ring 29 which is gradually opened by U-turn at the end of the blocking cup portion 2 once. As a result, it is possible to structurally suppress sudden air movement due to the difference in air pressure.

The third structural feature is that the movement range of the blocking cup portion 44 is elastically restricted by the support spring 35, and the tension of the support spring 35 is adjusted by the adjustment member 36, for example. If the air pressure difference between the two spaces between the micro pressure control valve 1 is large, tighten the adjustment member 36 to increase the tension of the support spring 35, and if the air pressure difference is small, loosen the adjustment member 36 to release the support spring ( By weakening the tension of 35), it is possible to linearly control the opening and closing of the pressure control valve in a wide range.

In addition, it is desirable to reduce the weight of the movable disk portion 4 in order to move even at a very small pressure.

In addition, the remaining portion of the movable disk portion 4 except for the blocking cup portion 44, which requires shape maintenance, is formed of a high-stretch rubber sheet such as latex to reduce the weight and to receive an area around the blocking cup portion 44 from the pressure. It is preferable to increase to the portion 41 so as to respond well to the fine differential pressure.

In addition, an opening is provided between the core of the cup portion 44 and the circumference portion 41 so that the proper amount of air withdraws from the reference pressure so that the opening increases linearly with the differential pressure to maintain the reference pressure.

1: micro pressure control valve
2: cover part
21: flange
22: screw hole
23: opening
24: convex
25: stepped portion
26: guide column
27: cap
3: base part
31: flange
32: screw hole
33: opening
34: cylinder part
35: support spring
36: adjusting member
4: movable disk part
41: circumference
42: screw hole
43: hole
44: blocking cup
45: rubber sheet
46: inclined surface portion
47: slider
48: ball bearing body

Claims (5)

It is a valve that is installed on the partition wall that divides the two spaces with air pressure difference, and controls the air pressure difference,
A cover portion having a stepped portion protruding from a concave inner surface as a concave body having a relatively high air pressure and having a vent formed thereon;
A base portion which is formed in a concave shape to form a space therein coupled to and coupled to the cover portion and has an air pressure toward a relatively low air pressure;
A rubber plate fitted therebetween to block aeration between the cover portion and the base portion, and a cup-shaped member integrally coupled to protrude from the rubber plate, and formed with perforations in the bottom thereof, and the periphery of the step portion It consists of a movable disk portion consisting of a blocking cup portion which is blocked when the air flow between the inside and the outside when separably engaged to,
As the positive pressure rises in the space on the cover side, the rubber plate elastically extends toward the base portion, so that the stepped portion and the cutoff cup portion are separated, and an air flow occurs from the cover side space to the base side space, and the positive pressure decreases. The pressure regulator valve for linear leakage control, characterized in that the air flow is blocked by the stepped portion and the cut-off cup portion again by the elasticity of the rubber plate. The method of claim 1,
The cover part is integrally provided with an elongated guide column extending in parallel with the operation path of the blocking cup part, and the blocking cup part is integrally provided with a slider to slide along the guide column so that the operation of the blocking cup part is guided by the guide column. Pressure control valve for linear leakage control, characterized in that supported. The method of claim 2,
The base portion is provided with an integrally elongated cylinder extending in the extension line of the guide column, the leakage amount characterized in that it further includes a support spring which is fitted to the cylinder between the blocking cup portion and the inner bottom of the cylinder Low pressure regulating valve for linear control. The method of claim 3,
Leak amount linear, characterized in that mounted on the inner bottom of the cylinder, one side of which is in contact with the end of the support spring and the other side is made of a male screw threaded through the screw hole formed in the inner bottom of the cylinder is mounted Pressure control valve for control. 5. The method according to any one of claims 1 to 4,
An inclined surface is formed around the upper portion of the blocking cup portion in contact with the stepped portion, and a ring groove is continuously formed around the lower side surface of the stepped portion facing the inclined surface, and the O-ring is attached to the ring groove. Pressure control valve for linear leakage control, characterized in that the inclined surface in contact with.

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