KR102008502B1 - Pressure reducing valve assembly with lifting adjustable of pressure reduction - Google Patents

Abstract

The present invention relates to a pressure reducing valve assembly capable of adjusting the pressure reducing unit, and the present invention provides a plunger, a check valve assembly, an adjustment spring, and an adjustment bolt, so that the elastic force of the adjustment spring can be easily adjusted through the rotation of the adjustment bolt for pressure reduction. While it is possible to easily change the reference set value for the decompression based on the elastic force of the pressure-reducing part of the elevating operation, a separate blocking means is applied to the flow path connected to the fluid inlet side through the configuration of the check valve assembly. Without the integrated check valve assembly, the flow path on the inflow side of the fluid can be selectively blocked, and the plunger is selectively applied by the elasticity of the sole valve spring in the raised state through the electromagnet to force the flow through the lowering of the plunger. Selective blocking of Is prepared by a simplified configuration simplifies the optional upper diaphragm as a pressure regulating means for lifting as in the chamber will be formed with ease.

Description

Pressure reducing valve assembly with lifting adjustable of pressure reduction}

The present invention relates to a pressure reducing valve assembly capable of adjusting the pressure reducing unit, and more particularly, by applying a plunger, a check valve assembly, an adjustment spring, and an adjustment bolt, a pressure reducing operation for lifting and lowering through the configuration of the adjustment spring and the adjustment bolt. While it is possible to easily change the reference set value for pressure reduction based on the negative elastic force, the check valve assembly can selectively block the flow path on the inflow side of the fluid, and the configuration of the plunger forcibly The selective blocking of the flow path can be made, and also relates to a pressure-reducing valve assembly capable of adjusting the pressure-reducing section to simplify the configuration to facilitate the manufacture.

In general, the pressure reducing valve assembly is used for the purpose of flowing out while maintaining a constant pressure by reducing the fluid, such as water, high pressure steam, air, gas.

Such a pressure reducing valve assembly is typically configured to perform a pressure reduction in response to a pressure frequently changed by dead weight, a spring, a diaphragm, etc., and when the outflow side of the fluid is smaller than the preset reference pressure, the inflow of the fluid is allowed to be reversed. In the case of having a structure to block or reduce the flow of fluid.

The pressure reducing valve assembly according to the prior art is a pressure reducing valve device (hereinafter, referred to as pressure reducing valve assembly) as shown in Patent Document 1 (Korean Patent No. 0473850 No. 2005.02.18.).

1 is an exemplary view showing a pressure reducing valve assembly according to the prior art.

Referring to FIG. 1, a pressure reducing valve assembly according to the related art has a valve body having a pressure reducing chamber 2 connected to an outlet side 1B of a fluid and a communication hole 1C connected to an inlet side 1A of a fluid. (1), the diaphragm (3) and the disk (4), which are provided in the decompression chamber (2) and are elevated in accordance with the pressure in the decompression chamber (2), and the upper spring (5) providing elastic force to the diaphragm (3). ), A control plate 7 which is installed in the decompression chamber 2 so as to be lifted and has at least one drilling hole 7C, and is coupled to the disk 4 in accordance with the lifting operation of the disk 4. It consists of a packing member (8) for adjusting the opening and closing degree of the communication hole (1C) and the lower spring (6) for supporting the packing member (8) from the lower side while lifting.

In the conventional pressure reducing valve assembly having the above configuration, the diaphragm 3 reacts according to the pressure of the pressure reducing chamber 2 so that the disk 4 coupled thereto is lifted.

Then, as the packing member 8 coupled to the disk 4 moves up and down, the flow path of the communication hole 1C expands or contracts and moves to the decompression chamber 2 through the communication hole 1C. Adjusted.

That is, when the pressure in the decompression chamber 2 is low, the diaphragm 3 and the disk 4 are lowered, and thus the packing member 8 is lowered so that the communication hole 1C is opened wide. Then, the flow rate moving through the communication hole 1C is increased.

On the other hand, as the pressure in the decompression chamber 2 increases, the diaphragm 3 and the disk 4 rise, and as a result, the opening of the communication hole 1C gradually narrows as the packing member 8 rises. . Then, the flow rate moving through the communication hole 1C is reduced, and the flow rate flowing out through the outlet side 1B is also reduced.

On the other hand, when a sudden reverse flow penetrates through the outlet side 1B of the valve body 1 to generate a back pressure, the fluid flowing back is decelerated while passing through the drilling hole 7C formed in the control plate 7. It is possible to avoid adverse effects such as a shaking phenomenon on the diaphragm 3.

However, in the conventional pressure reducing valve assembly as described above, it is difficult to change the reference setting value for reducing the pressure due to the aging of the packing member and the lower spring supporting the packing member with elasticity at the bottom. There was a problem of difficulty.

Moreover, the conventional pressure reducing valve assembly as described above has the function of adjusting the pressure of the fluid according to the pressure of the outlet side of the fluid, but there is no blocking function to forcibly shut off the flow path if necessary, and moreover suddenly at the inlet side of the fluid There was no function to selectively block the flow path on the inflow side when a large amount of fluid was introduced.

In order to add the above functions, two or more separate valve configurations must be added. Accordingly, the configuration and manufacturing are complicated, resulting in an increase in manufacturing cost.

Therefore, it is possible to easily change the reference set value for decompression on the basis of the elastic force of the decompression unit which moves up and down for decompression, while selectively blocking the flow path on the inflow side of the fluid and forcibly blocking the flow path. In addition, the situation is required to research and development of the pressure reducing valve assembly to simplify the configuration to facilitate the manufacture.

Registered Republic of Korea Patent No. 0473850 2005.02.18. Republic of Korea Patent Publication No. 2017-0086866 2017.07.27.

In order to solve the above problems, the present invention is for adjusting the pressure based on the elastic force of the pressure-reducing unit for lifting and lowering pressure by simply adjusting the elastic force of the adjustment spring through the adjustment of the adjustment bolt, the adjustment bolt is applied It is an object of the present invention to provide a pressure reducing valve assembly capable of easily adjusting the pressure reducing unit so as to easily change the reference set value.

Another object of the technology according to the present invention is that the check valve assembly is applied can selectively block the flow path of the fluid inlet side through the integrated check valve assembly without applying a separate blocking means, such as the flow path connected to the fluid inlet side It is in such a way.

Furthermore, another object of the technique according to the present invention is to allow the selective plunging of the flow path through the lowering of the plunger by applying the plunger which is selectively lowered through the elasticity of the sole valve spring in the raised state through the electromagnet. have.

In addition, another object of the technique according to the present invention is to simplify the manufacturing of the upper diaphragm as a pressure regulating means to selectively lift in the upper chamber to simplify the manufacture through a simplified configuration.

The present invention for achieving the above object is as follows. That is, in the pressure reducing valve assembly capable of adjusting the pressure reducing unit according to the present invention, the upper body and the lower body are assembled and fixed by the bracket, and a lower chamber is formed in the inner center of the lower body and the upper part is in communication with the upper part of the lower chamber. A valve body, the valve body having an inflow passage and an outlet passage communicating with both sides of the lower chamber; Inlet is formed in the upper chamber, the inlet hole communicating with the inflow passage and the outlet guide hole communicating with the lower chamber is formed, the central portion is moved a predetermined distance in the vertical direction in accordance with the pressure of the upper chamber through the outlet guide hole An upper diaphragm for controlling a flow rate guided to the lower chamber side; It is installed over the upper body and the lower body of the valve body, while being installed in the inner center of the guide is elastic through the sole valve spring provided on the upper side of the upper chamber side while maintaining a predetermined length of the state while the optional, A plunger that rises and descends by a predetermined length by an electromagnet provided to surround the outer circumference of the guide, and the plunger closes the top of the outlet guide hole of the upper diaphragm in the lower return state; An elevating shaft having an upper end constrained in an outlet guide hole of the upper diaphragm to selectively elevate a predetermined length, and selectively controlling an amount of fluid guided out of the upper chamber to the lower chamber; It is installed in the lower chamber is fixed to the lower end of the elevating shaft through the center of the upper surface, the upper surface is in close contact with the lower surface of the support and the lower center of the lower cover coupled to the lower portion of the lower chamber coupled to the elevating by rotating A lower diaphragm for interlocking and elevating the elevating shaft while the central portion is selectively elastic and elevates a predetermined length according to the fluid pressure flowing into the lower chamber through an adjustment spring interposed between the adjusting bolts coupled thereto; And a check valve assembly which is installed at an end of the inflow passage of the lower chamber and selectively allows the fluid to flow in and out of the inflow passage.

Here, the valve body further comprises an adapter portion in communication with the predetermined length from the inlet passage end while the inner space is extended, the check valve assembly is preferably installed in the inner space of the adapter portion.

At this time, the adapter portion is preferably formed with a screw portion over a certain length of the outer surface so that the pipe can be connected through the coupling of the connector connected to one end of the pipe for guiding the fluid from the water source.

In addition, the adjustment bolt is preferably provided with a groove-type adjustment portion recessed in the '+' shape on the lower surface to enable the rotation operation for lifting by a-ruler or + ruler driver.

Further, in the pressure reducing valve assembly capable of adjusting the pressure reducing unit according to the present invention, after the plunger is initially raised, the fluid flowing through the opening operation of the check valve assembly is introduced into the inflow passage, and the introduced fluid is introduced into the upper diaphragm. After passing through the upper chamber through the inlet of the through, through the lower end of the outlet guide hole formed in the center of the upper diaphragm is guided to the lower chamber through the lower end, while being discharged to the outlet flow path,

When the pressure of the fluid guided to the lower chamber gradually reaches a predetermined pressure, the lower diaphragm, which is a pressure reducing member, is pressurized and lowered while the lifting shaft is interlocked to lower the upper diaphragm with the upper end of the lifting shaft constrained. It is preferable that the pressure is reduced while the lower diaphragm is operated so as to close the communication portion of the upper chamber and the lower chamber by the upper diaphragm.

Referring to the effect of the pressure reducing valve assembly capable of adjusting the pressure-reduction unit according to the present invention.

First, the adjustment spring and the adjustment bolt is applied to easily adjust the elastic force of the adjustment spring through the rotation of the adjustment bolt can be easily changed to the reference set value for the decompression based on the elastic force of the pressure-reducing unit to move up and down for decompression. have.

Second, the check valve assembly is applied to selectively block the inflow side of the fluid through the integrated check valve assembly without applying a separate blocking means to the flow passage connected to the fluid inlet side.

Third, by selectively applying the plunger which descends through the elasticity of the sole valve spring in the raised state through the electromagnet, the selective passage of the flow path may be forcibly made through the lowering of the plunger.

Fourth, manufacturing can be made easily through a simplified configuration by simplifying the upper diaphragm as a pressure regulating means for selectively raising and lowering in the upper chamber.

1 is an exemplary view showing a pressure reducing valve assembly according to the prior art.
Figure 2 is a bottom perspective view showing a pressure reducing valve assembly capable of adjusting the pressure reducing unit according to the present invention.
Figure 3 is an exploded perspective configuration diagram showing a pressure reducing valve assembly capable of adjusting the pressure reducing unit according to the present invention.
Figure 4 is a combined cross-sectional view showing a pressure reducing valve assembly adjustable pressure reducing unit according to the present invention.
Figures 5a to 5e is a cross-sectional view of the operating state showing a step-by-step operating state of the pressure reducing valve assembly capable of adjusting the pressure-reduction unit according to the invention.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the pressure reduction valve assembly capable of adjusting the pressure reduction unit according to the present invention.

2 is a bottom perspective view showing a pressure reducing valve assembly capable of adjusting the pressure reducing unit according to the present invention, and FIG. 3 is an exploded perspective view showing a pressure reducing valve assembly capable of adjusting the pressure reducing unit according to the present invention. Is a combined cross-sectional view showing a pressure reducing valve assembly capable of adjusting the pressure reducing unit according to the present invention.

Figure 5a to 5e is a cross-sectional view showing the operating state step by step showing the operating state of the pressure reducing valve assembly capable of adjusting the pressure-reduction unit according to the present invention.

As shown in Figures 2 to 5e, the pressure reducing valve assembly capable of adjusting the pressure reducing unit according to the preferred embodiment of the present invention is applied to the bidet (Bidet) to wash water which is a fluid flowing from the water source (water source) for cleaning the local By reducing the pressure to be sprayed at a constant water pressure, the cleaning power is optimized and the user is used to feel refreshing, of course, it is a pressure reducing valve assembly that can also be used in water purification systems.

The pressure reducing valve assembly capable of adjusting the pressure reducing unit may be classified into a valve body 100, an upper diaphragm 200, a plunger 300, a lifting shaft 400, a lower diaphragm 500, and a check valve assembly 600. It is made, including.

Here, the valve body 100 is the upper body 110 and the lower body 130 is assembled and fixed by the bracket 120.

The valve body 100 as described above, in particular, the lower chamber 133 is formed in the inner center of the lower body 130 and the upper chamber 131 is formed to communicate with each other on top of the lower chamber 133.

In addition, the valve body 100 has an inflow passage 135 and an outlet passage 137 communicating with both sides of the lower chamber 133.

On the other hand, the upper diaphragm 200 is installed in the upper chamber 131, the inlet hole 210 is in communication with the inflow passage 135 and the outlet guide hole 220 in communication with the lower chamber 133 is Is formed.

The upper diaphragm 200 as described above, in particular, the flow rate is guided toward the lower chamber 133 through the outlet guide hole 220 while the central portion is moved a predetermined distance in the vertical direction in accordance with the pressure of the upper chamber 131. To control.

In addition, the plunger 300 is internally provided over the upper body 110 and the lower body 130 of the valve body 100.

In detail, the plunger 300 is installed in the inner center of the guide 310 to have elasticity through the sole valve spring 320 provided at the upper side, and to maintain a state in which the lower end protrudes a predetermined length toward the upper chamber 131. will be.

In particular, the plunger 300 is raised and lowered by a predetermined length by an electromagnet 330 provided to selectively surround the outer circumference of the guide 310, and the lower end of the plunger 300 is lowered from the upper diaphragm 200. Outflow guide hole 220 is to seal the top.

In addition, the elevating shaft 400 is constrained and installed in the outlet guide hole 220 of the upper diaphragm 200 so that the elevating shaft 400 can be elevated by a predetermined length, and optionally from the upper chamber 131 to the lower chamber 133. It is to control the amount of fluid being guided outflow.

The lower diaphragm 500 is installed in the lower chamber 133 so that the lower end of the elevating shaft 400 is fixed through an upper surface center.

The lower diaphragm 500 as described above, in particular, the upper and lower surfaces of the support 510 is in close contact with the lower end of the lower cover 520 coupled to the lower portion of the lower chamber 133 through the rotation to enable the lifting. According to the fluid pressure flowing into the lower chamber 133 through the adjustment spring 540 interposed between the adjustment bolt 530 is coupled to the elevating shaft 400 while the central portion is selectively elastic and elevating a predetermined length It is preferable to drive up and down interlockedly.

In addition, the check valve assembly 600 is installed at the end of the inflow passage 135 of the lower chamber 133 and selectively flows and blocks the fluid to the inflow passage 135.

In the pressure-reducing valve assembly capable of adjusting the pressure-reduction unit according to the present invention having the configuration as described above, in particular, the valve body 100 is in communication with a predetermined length from the end of the inflow passage 135 while the inner space is expanded adapter Further comprising a portion 136, the check valve assembly 600 is preferably installed in the interior space of the adapter portion 136.

At this time, the adapter unit 136 is a screw (not shown) over a certain length of the outer surface so that the pipe can be connected through the coupling of a connector (not shown) connected to one end of the pipe (not shown) for guiding fluid from the water source (water source) Is formed more preferably.

In other words, the check valve assembly 600 as described above further includes an adapter unit 136 which is built in the inner space, thereby guiding fluid from a water source (not shown), for example, when the present invention is applied to a bidet. A connector (not shown) provided at an end of a pipe (not shown) for guiding fluid from a water source for supplying water for cleaning to the bidet side can be easily connected with the adapter unit 136.

On the other hand, in the pressure reducing valve assembly capable of adjusting the pressure-reducing unit according to the present invention having the configuration as described above, it is important that the adjustment bolt 530 to enable the rotation operation for lifting through the-ruler or + ruler driver. .

To this end, the adjustment bolt 530 is preferably provided with a groove type adjustment portion 531 recessed in the '+' shape on the lower surface.

Furthermore, the pressure reducing valve assembly capable of adjusting the pressure reducing unit according to the present invention having the configuration as described above, after the plunger 300 first rises, the fluid introduced through the opening operation of the check valve assembly 600. After flowing into the inflow passage 135, the introduced fluid passes through the upper chamber 131 through the inlet hole 210 of the upper diaphragm 200, and is formed through the center of the upper diaphragm 200. While being guided to the lower chamber 133 through the lower end from the top of the outlet guide hole 220 to be discharged to the outlet passage 137, while the pressure of the fluid guided to the lower chamber 133 is gradually increased When the predetermined pressure is reached, the lower diaphragm 500, which is a pressure reducing member, is pressurized and lowered while the lifting shaft 400 interlocks and the upper end of the lifting shaft 400 is constrained. By lowering the installed upper diaphragm 200, it is preferable that pressure is achieved while the communication portion of the upper chamber 131 and the lower chamber 133 is sealed by the upper diaphragm 200.

In detail, with respect to the pressure reducing valve assembly capable of adjusting the pressure reducing unit according to the present invention having the configuration as described above, with reference to Figures 5a to 5e to describe the operating state for the decompression, as shown in Figure 5a before the operation In the state where the same plunger 300 maintains a state in which the lower end protrudes a predetermined length toward the upper chamber 131, the plunger 300 is first raised during operation of the electromagnet 330.

Thereafter, the fluid introduced through the opening operation of the check valve assembly 600 is introduced into the inflow passage 135.

Then, the fluid introduced through the opening operation of the check valve assembly 600 is passed through the upper chamber 131 via the inlet hole 210 of the upper diaphragm 200.

Thereafter, the fluid is guided to the lower chamber 133 through the lower end of the outlet guide hole 220 formed through the center of the upper diaphragm 200 to the outlet passage 137.

At this time, when the pressure of the fluid guided to the lower chamber 133 gradually increases and reaches a predetermined pressure, the lower diaphragm 500, which is a pressure reducing member, is pressed and lowered while the lifting shaft 400 interlocks to lower the pressure. The lower end of the elevating shaft 400 is lowered to the upper diaphragm 200 restrained by the upper diaphragm 200 is operated so that the communication between the upper chamber 131 and the lower chamber 133 is closed while the pressure is made. will be.

According to the pressure-reducing valve assembly capable of adjusting the lifting portion of the pressure reducing unit according to the present invention having the configuration as described above, the adjustment spring, the adjustment bolt is applied to easily adjust the elastic force of the adjustment spring through the rotation of the adjustment bolt for lifting operation for decompression Changing the reference set value for the decompression based on the elastic force of the decompression unit can be made easily.

In addition, the check valve assembly may be applied to selectively block the inflow side of the fluid through the integrated check valve assembly without applying a separate blocking means to the flow passage connected to the fluid inlet side.

Further, by applying a plunger which is selectively lowered through the elasticity of the sole valve spring in the raised state through the electromagnet, the selective blocking of the flow path may be forcibly made through the lowering of the plunger.

In addition, by simplifying the upper diaphragm as a pressure regulating means to selectively lift in the upper chamber can be made easily through a simplified configuration.

Although specific embodiments of the present invention have been described in detail above, the present invention is not limited thereto, and the present invention can be variously modified by those skilled in the art to which the present invention pertains. Is included in the scope of the present invention.

100: valve body
110: upper body 120: bracket
130: lower body 131: upper chamber
133: lower chamber 135: inflow passage
136: adapter portion 137: outflow passage
200: upper diaphragm
210: inflow hole 220: outflow guide
300: plunger 310: guide
320: solenoid valve spring 330: electromagnet
400: lifting shaft
500: lower diaphragm 510: support
520: lower cover 530: adjustment bolt
531: control unit 540: adjustment spring
600: check valve assembly

Claims (5)

The upper body 110 and the lower body 130 is assembled and fixed by the bracket 120, the lower chamber 133 is formed in the inner center of the lower body 130 and communicate with each other on top of the lower chamber 133 An upper chamber 131 is formed, the valve body 100 is formed in communication with the inlet flow path 135 and the outlet flow path 137 to both sides of the lower chamber 133; Inlet is formed in the upper chamber 131, the inlet 210 is in communication with the inlet flow path 135 and the outlet guide hole 220 in communication with the lower chamber 133 is formed, the upper chamber 131 The upper diaphragm 200 for controlling the flow rate is guided to the lower chamber 133 through the outlet guide hole 220 while moving the central portion a predetermined distance in accordance with the pressure of the; The upper body 110 and the lower body 130 of the valve body 100 is internally installed in the inner center of the guide 310 has an elasticity through the sole valve spring 320 provided in the upper portion While maintaining a state in which the lower end protrudes a predetermined length toward the chamber 131, the predetermined length is raised and lowered by an electromagnet 330 provided to selectively surround the outer circumference of the guide 310, and the return is lowered. A plunger 300 having a lower end sealing an upper end of the outlet guide hole 220 of the upper diaphragm 200; The upper end is restrained and installed in the outlet guide hole 220 of the upper diaphragm 200 so that the predetermined length can be elevated, and selectively adjusts the amount of fluid guided out of the upper chamber 131 to the lower chamber 133. Elevating shaft 400; It is installed in the lower chamber 133 is fixed to the lower end of the elevating shaft 400 through the center of the upper surface, the lower surface of the support 510 is in close contact with the lower surface and is installed in the lower portion of the lower chamber 133 The central portion is selectively selected according to the fluid pressure flowing into the lower chamber 133 through the adjusting spring 540 interposed between the adjusting bolt 530 coupled to the lower center of the lower cover 520 so as to be movable up and down. A lower diaphragm 500 which moves up and down the elevating shaft 400 while elevating a predetermined length with elasticity; And a check valve assembly 600 which is installed at an end of the inflow passage 135 of the lower chamber 133 and selectively allows the fluid to flow in and out of the inflow passage 135. In the pressure reducing valve assembly,
The valve body 100 is in communication with a predetermined length from the end of the inflow passage 135 while the internal space is expanded, the pipe can be connected through the coupling of the connector connected to one end of the pipe to guide the fluid from the water source The adapter further comprises an adapter portion 136, the threaded portion is formed over a certain length of the outer surface, the check valve assembly 600 is installed in the inner space of the adapter portion 136, the adjustment bolt 530 is- On the lower surface of the groove type adjusting part 531 recessed in a '+' shape so as to enable a rotary operation for lifting up and down by a ruler or a + screw driver,
Initially, after the plunger 300 is raised, the fluid flowing through the opening operation of the check valve assembly 600 is introduced into the inflow passage 135, and the flowed inflow hole of the upper diaphragm 200 After passing through the upper chamber 131 through the 210, and guided to the lower chamber 133 through the lower end from the upper end of the outlet guide hole 220 formed through the center of the upper diaphragm 200, the outflow When the pressure of the fluid guided to the lower chamber 133 is gradually increased while reaching the predetermined pressure, the lower diaphragm 500, which is a pressure reducing member, is pressurized to lower the flow path 137 and the lifting shaft ( 400 is interlocked to lower the upper diaphragm 200, the upper end of the elevating shaft 400 is restrained by the upper diaphragm 200 by the upper chamber 131 and the lower chamber 133 Pressure-reducing valve assembly, the pressure-sensitive part elevation adjustment, characterized in that a reduced pressure is made available to operate as the communicating portion sealing.
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