KR100577471B1 - A Reducing and flux controling valve - Google Patents

Abstract

The present invention relates to a decompression and flow control valve for appropriately reducing or regulating the pressure and flow rate of the raw water flowing into the high pressure, the central portion of the diaphragm and the flow shaft is integrally interlocked, the direction of the flow path by a separate flow path switching member In order to reduce the high pressure of the raw water to be introduced by adjusting the constant flow rate, so that the inlet and outlet are formed on the side of the lower body, and the flow path conversion member is inserted into the lower portion of the lower body, The flow path switching arc plate formed around the upper end of the flow path switching member is positioned between the inlet and the outlet, and connects the diaphragm, the spring and the upper body to the upper portion of the lower body in turn, and is inserted into the center of the diaphragm. To protrude to the top of the diaphragm. By this configuration, the flow direction of the high pressure or low pressure raw water flowing into the inlet by the opening and closing of the outlet according to the rotation of the flow path switching member is switched to the direct and indirect connection of the inlet and the outlet respectively, so as to reduce the flow rate or reduce the It relates to a pressure reducing and flow control valve to lower the pressure or to appropriately control the flow rate discharged to the outlet by the outlet amount adjusting member inserted through the outlet amount adjustment opening formed in the lower end of the outlet.

Pressure Reducing, Raw Water, Flow Switching Member, Flow Switching Arc Plate, Flow Shaft, Diaphragm, Flow Control

Description

A reducing and flux controling valve             

1 is an exploded perspective view of a pressure reducing and flow control valve according to the present invention;

Figure 2 is a detailed perspective view of the flow path switching member of the components of the pressure reducing and flow control valve according to the present invention,

3 is a cutaway perspective view showing a state of use of the pressure reducing and flow control valve according to the present invention,

Figure 4 is a longitudinal sectional view showing a state of use of the conventional pressure reducing valve.

(Explanation of reference numerals)

10 lower body, 11 inlet,

12 water outlet, 13 water outlet,

14 ... water output adjusting member, 15 ... water extraction,

20 ... euro switching member, 21 ...

22 ... Euro conversion arc plate, 23 ... rubber ring,

24 ... opening and closing, 30 ... diaphragm,

31 lower sealing plate, 32 upper sealing plate,

40 upper body, 41 cylinder,

42 ... pressure reducing member, 50 ... spring,

51 ... shaft fixing nut, 52 ...

60 ... valve mounting plate, 61 ...

62 O-Ring installation, 63a, 63b O-Ring,

64 ... channel.

The present invention relates to a decompression and flow control valve for properly reducing or regulating the pressure and amount of raw water flowing into the high pressure, in detail, the flow path switching arc plate formed on the upper end of the flow path switching member is inserted into the upper flow shaft Alternatively, when raw water of low pressure is introduced by selective rotation of the flow path switching member when raw water of low pressure flows in, the flow path is directly connected by opening between the inlet and outlet of the lower body, or high pressure raw water inflows. If the flow path is closed between the inlet and the outlet, the flow path is indirectly connected to the upper part of the flow shaft, and the fixed central portion of the diaphragm swells up and rises with the flow shaft to reduce the flow path area to reduce the pressure of the raw water flowing into the high pressure. The amount of raw water discharged by the pressure reducing member or water output adjusting member as appropriate It relates to a pressure reducing and flow control valve to adjust the to a constant range.

In all products into which high pressure raw water flows in, in order to protect the components inside the product from the high pressure raw water flowing therein, a pressure reducing valve is installed inside the product, and the high pressure raw water passes through the pressure reducing valve. The pressure delivered to the product by the high pressure raw water is appropriately lowered.

4 is a longitudinal sectional view showing a specific operating relationship of the above-described conventional pressure reducing valve, as shown,

One side of the lower body 100 having the inlet 111 and the outlet 112 formed on the other side has a flow shaft 210 mounted with a lower spring 210a at the lower end thereof. Located between the inlet and the outlet of the upper body 400 which is coupled to the upper portion of the lower body is equipped with a first upper spring 300a and a second upper spring 300b on the inside and outside of the upper end respectively; The diaphragm 300 is inserted so that a space between the upper portion of the flow shaft 210 and the lower portion of the diaphragm 300 is formed as a flow path area change portion in the lower body 100.

When the high pressure raw water flows in through the inlet 111 and pushes the diaphragm 300 upward by the conventional pressure reducing valve configured as described above, the first upper spring 300a and the second upper spring mounted on the upper end of the diaphragm ( 300b) is compressed, and the lower spring 210a mounted at the lower end of the flow shaft 210 is tensioned to change the area of the flow path by moving the flow shaft.

For example, when the high pressure raw water is introduced into the pressure reducing valve through the inlet 111, the high pressure raw water lifts the diaphragm 300 a lot, and as a result, the flow shaft 210 also moves a lot upward, and thus the flow path is quite narrow. When the raw water of relatively low pressure is introduced into the pressure reducing valve through the inlet 111, the raw water of the low pressure lifts the diaphragm 300 less, and as a result, the flow shaft 210 also moves less upward. The raw water is narrower than when the raw water is introduced, so that the raw water is decompressed to a certain pressure range at high or low pressure.

However, since the conventional pressure reducing valve basically reduces the pressure by using the resistance of the flow path, the flow rate of water discharged is reduced compared to the flow rate of the inflow, and since the conventional pressure reducing valve has one flow path, the low pressure region does not require pressure reduction. Also, because the flow resistance passes through the severe flow path, there were many problems with flow loss.

In addition, since the flow shaft is separated from the diaphragm, the upper spring of the diaphragm and the lower spring of the flow shaft may move in opposite directions, so that a vibration may occur depending on the installation conditions of the pressure reducing valve. There was also a problem that high noise occurs. In addition, if a constant flow rate is required, the pressure can be reduced, but there was also the inconvenience of adjusting the required flow rate range by installing a separate valve.

The present invention has been made to improve the problems of the conventional pressure-reducing valve as described above, while the central portion of the diaphragm and the flow shaft is integrally interlocked, and the high-pressure raw water introduced by switching the direction of the flow path by a separate flow path switching member To reduce the pressure and to regulate the flow rate, the inlet and the outlet are formed on the side of the lower body, and the flow path switching member inserting the flow shaft in the upper portion is inserted into the lower portion of the lower body, and is formed around the upper end of the flow path switching member. The flow path switching arc plate is positioned between the inlet and the outlet, and connects the diaphragm, the spring and the upper body to the upper portion of the lower body in order, and allows the upper end of the flow shaft inserted into the center of the diaphragm to protrude to the upper portion of the diaphragm. . By this configuration, the flow direction of the high pressure or low pressure raw water flowing into the inlet by the opening and closing of the outlet according to the rotation of the flow path switching member is switched to the direct and indirect connection of the inlet and the outlet respectively, so as to reduce the flow rate or reduce the It is an object of the present invention to provide a pressure reducing and flow regulating valve to lower the pressure.

In addition, it is another object to provide a pressure reducing and flow rate control valve to allow the flow rate of the appropriate level is adjusted by the withdrawal amount adjusting member inserted through the withdrawal amount adjustment member formed in the lower end of the outlet.

The present invention to achieve the object as described above,

In the valve in which the inlet and the outlet of the raw water is introduced into one side of the lower body, the flow path switching arc plate protruding upward in a portion around the upper surface of the flow path switching member inserting the flow shaft in the center; The flow path switching member is inserted into the lower part of the lower body so that the flow path switching arc plate is positioned between the inlet and the outlet of the lower body, and the upper and lower sealing plates are respectively mounted on the upper and lower parts. The diaphragm is inserted into the upper portion of the lower body by connecting the spring and the upper body to the center, and the center of the diaphragm, the flow shaft and the spring are integrally interlocked by fixing the upper end of the protruding flow shaft inserted into the center of the diaphragm. When the raw water of low pressure flows in accordance with the rotation of the flow path switching member, the inflow of the lower body When the flow path is formed by direct connection with the outlet and the high-pressure raw water is introduced, the inflow and outflow ports are indirectly controlled by the passage of the channel in the lower body by the simultaneous rise of the center of the diaphragm and the flow shaft by the pressure of the raw water. The flow path is formed so as to be connected.

In addition, it is characterized in that it further comprises a water discharge amount adjusting member inserted through the water discharge amount control opening formed in the lower end of the outlet outlet of the lower body.

In addition, it is characterized in that it further comprises a pressure-sensitive adjustment member of the wrench bolt shape is fastened by the inner circumference of the cylinder forming the upper portion of the upper body.

In addition, the flow path switching arc plate is characterized in that the shape of a quarter cylinder that is divided into four quarters in the longitudinal direction.

Hereinafter, with reference to the accompanying drawings will be described in detail an embodiment of the pressure reducing and flow control valve of the present invention. First of all, it should be noted that the same components or parts are denoted by the same reference numerals as much as possible. In describing the present invention, detailed descriptions of related well-known functions or configurations are omitted in order not to obscure the subject matter of the present invention.

1 is an exploded perspective view of the pressure reduction and flow control valve according to the present invention, as shown,

A flow path switching member having a flow shaft 21 inserted into the upper portion of the lower body 10 having the inlet port 11 through which the raw water of high pressure or low pressure flows in and the outlet port 12 through which the raw water is discharged. 20) by pushing the flow path switching arc plate formed on the upper portion of the flow path switching member 22 between the inlet and the outlet in the lower body, the disk-shaped diaphragm 30 to the upper portion of the lower body Insert the flow shaft 21, which is equipped with the O-ring 63a around the upper end, to the center of the diaphragm to which the lower sealing plate 31 is attached to the lower part, and is inserted into the center of the diaphragm to protrude upward. The upper end of the flow shaft 21 is a fixed portion 52 having a thread formed on the outer periphery, the upper portion of the diaphragm 30, the upper sealing plate 32 for sealing with the shaft connecting portion of the diaphragm, such as a lower sealing plate ), And the shaft fixing nut (51) And a spring 50 is inserted into an outer circumference of the fixing portion 52 of the flow shaft 21 fixed to the center portion, and the center portion of the diaphragm 30, the upper sealing plate 32, the lower sealing plate 31, and the spring ( 50) interlock with each other.

In addition, the upper portion of the upper body 40 is formed with a cylinder 41 is formed integrally with threaded thread on the inner circumference, by adjusting the movement of the diaphragm 30 by the elastic force into the interior of the fixing portion 52 In order to adjust the movement of the spring 50 indirectly adjust the elastic force of the wrench bolt-shaped pressure-sensitive control member 42 is fastened, the outlet amount of the outlet body 12 of the lower body 10, the outlet amount adjustment port 13 ) Is connected to communicate with the outlet port is inserted into the outlet amount adjusting member 14 for adjusting the outlet amount, the valve mounting plate 60 for fixing the entire valve and the flow path switching member 20 is provided The lower end of the flow path switching member is fixed to the lower end of the flow path switching member into the mounting hole 61 formed in the center.

Figure 2 shows a detailed perspective view of the flow path switching member of the components of the pressure reducing and flow control valve according to the present invention, as shown,

The flow path switching member 20 formed in a cylindrical shape and inserting the flow shaft 21 at the center as described above is a sealing between the outlet port 12 and the arc plate 22 at a predetermined portion of the outer circumference, that is, pressure loss. In order to prevent this, the rubber ring 23 is mounted, and the flow path switching arc plate 22 formed of a quarter cylinder left by a quarter is formed integrally with the flow path switching member by dividing the cylinder into four parts on the circumference part of the upper end. Protruding upward, the disc-shaped opening and closing portion 24 is formed on the outer surface of the flow path switching arc plate in the direction of the flow path switching arc plate 22 and the opening and closing portion 24 in accordance with the rotation of the flow path switching member (20). By changing the opening and closing the water outlet 15 of the lower body 10, in this case by inserting the O-ring (O-ring) 63b in the O-ring installation portion 62 around the opening and closing portion 24 ( 15) is sealed to ensure a more secure closure (see FIG. 3).

Here, the flow path switching member 20 functions to minimize the reduction of the flow rate by switching the flow path in the valve in the region where the raw water of low pressure flows, the flow shaft is a central portion in accordance with the pressure of the raw water in the region of high pressure raw water flow While reducing the pressure of the raw water by interlocking with the diaphragm moving upwards to adjust the water flow area, more detailed functions thereof will be described later in the operating relationship of the valve, the pressure and flow rate of the present invention configured as described above As a control valve, it is used to maintain a constant pH or concentration of the electrolytic cell, or to use a pressure reducing function to protect the parts inside the product in a high pressure area. As follows.

Figure 3 is a perspective view showing a cutaway showing the state of use of the pressure reducing and flow control valve according to the present invention, as shown,

First, in a region where raw water of low pressure flows, the flow path switching member 20 rotates so that the opening and closing part 24 is opened from the water outlet 15 so that the low pressure raw water flowing into the inlet 11 is minimized. In the state of being discharged directly to the outlet 12 through the outlet (15).

Second, the principle of basic pressure reduction in the region of high pressure raw water flow is similar to the conventional pressure reducing valve, but the flow shaft is not moved by the compression of the upper spring fitted to the diaphragm and the tension of the lower spring fitted to the flow shaft as in the conventional art. The high pressure raw water flows into the inlet 11 of the lower body 10 in a state where the water outlet 15 is closed by the opening and closing part 24 by being rotated by the switching member 20 and further sealed by the O-ring 63b. When the direction of the flow path of the raw water is changed, the spring 50 is compressed by the constant pressure of the raw water and the center of the diaphragm 30 swells and is pushed upwards, so that the center of the diaphragm 30 is pushed upward. The flow shaft 21 fixed with the nut 51 is interlocked with the diaphragm moving upwardly and the center thereof, so that the O-ring 63a mounted around the upper end of the flow shaft causes the pressure of the raw water to rise. In order to further reduce the water passage area of the water passage 64, the speed of the raw water is increased and the pressure is lowered and the water is discharged to the outlet 12 through the water passage between the lower portion of the diaphragm and the flow shaft.

That is, in the related art, when a constant flow rate is required, the pressure can be reduced, but in order to compensate for this, a separate valve was installed to adjust the flow rate range. Inserting a rotary mechanism (not shown) such as a driver into the screw groove (20a) formed in the lower end portion of the flow path switching member to rotate in one direction or the other direction in the range of a certain angle, the flow path switching member (20) The opening / closing part 24 of the outer side of the flow path switching arc plate 22 formed in the opening 14 blocks the water exit hole 15 formed at the entrance of the water outlet 12, or the opening portion 24 of the flow path switching arc plate 22 is The flow path is minimized by directly connecting the direction of the flow path while being separated from the water outlet 15 of the water outlet 12 so that the amount of raw water flowing through the inlet 11 can be used to the maximum. As shown in the figure, the opening and closing portion 24 of the flow path switching arc plate 22 formed on the flow path switching member 20 is blocking the water outlet hole 15 of the water outlet 12.

In the drawing, the arrow ━━━ > shows the flow of raw water under high pressure when the flow path switching arc plate 22 of the flow path switching member 20 blocks the water outlet hole 15 of the water outlet 12. 10, the inlet 11 and the outlet 12 are indirectly connected through the channel 64 so that the raw water passes through the channel between the upper part of the flow shaft 21 and the lower part of the diaphragm 30 at the inlet 11. It shows the flow of the flow path passing through the outlet port 12 through, the flow of this flow path is a flow when the pressure is required in the region where the high pressure raw water is supplied, which is the flow path switching member 20 in one direction as described above Rotation is made by selecting to block the outlet 15 of the outlet (12).

In addition, the arrow ---> in the drawing shows the flow of raw water of low pressure when the flow path switching arc plate 22 of the flow path switching member 20 keeps the water outlet 15 of the water outlet 12 open. Inlet 11 and outlet 12 of the lower body 10 is directly connected through the outlet 15 so that the raw water flows out through the outlet 15 directly through the outlet 15 toward the outlet 12 The flow of the flow path is a flow when the flow rate is also minimized by minimizing the resistance of the flow path in the region where the raw water of low pressure is supplied. Rotation in the direction is made by making the choice to open the water outlet 15.

On the other hand, even if the flow rate discharged to the outlet port 12 in a state in which the raw water flows at a high pressure using the decompression and flow control valve of the present invention exceeds the appropriate level, the water discharge amount control port formed in the lower end of the outlet port By using the discharge amount adjusting member 14 inserted through the (13) to reduce the area of the discharge port to properly adjust the flow rate discharged.

The following is a result of comparing the performance of the conventional pressure reducing valve and the pressure reduction and flow control valve according to the present invention under various conditions, and show that the effect of the flow rate reduction rate of the pressure reduction and flow control valve according to the present invention is excellent.

-Flow rate reduction rate (%) when 2 liters of raw water is introduced per minute        Raw water pressure (psi) valve type    14   34.5    59    88  Conventional Pressure Reducing Valves   23.95                                                14.29   8.83   3.45  Inventive pressure reducing / flow valve (when closed)   12.14   4.76   1.67   1.15  Inventive pressure reducing / flow valve (when opened)                                                8.58   2.78

When 2 liters of raw water is introduced per minute, the flow rate decrease rate increases, and as the pressure increases, the flow rate decrease rate decreases.

Comparing the performance of the conventional pressure reducing valve and the pressure reducing and flow regulating valve according to the present invention, it can be seen that the flow rate reduction of the pressure reducing and flow adjusting valve according to the present invention is smaller than that of the conventional pressure reducing valve, and the flow path switching in the low pressure region is performed. Functions also tend to work.

-% Decrease in flow rate of 4 liters of raw water per minute        Raw water pressure (psi) valve type     36    59    90  Conventional Pressure Reducing Valves   38.21                                                33.86  29.31  Inventive pressure reducing / flow valve (when closed)   14.27   10.02   9.94  Inventive pressure reducing / flow valve (when opened)                                                12.82   9.35

When 4 liters of raw water is introduced per minute, it shows the same tendency as 2 liters of raw water.

In addition, as a result of measuring the noise level of 1.9 liters per minute at a pressure of 90 psi, the conventional pressure reducing valve generates noise of about 21 to 22 dB, but the pressure reducing flow control valve according to the present invention does not use the flow path switching function. 16.2 to 16.8dB of noise is generated in the state, and about 15.6dB of noise is generated when the flow path switching function is used.

The present invention described above is not limited to the above-described embodiment and the accompanying drawings, and various substitutions, modifications, and changes are possible within the scope without departing from the technical spirit of the present invention. It will be evident to those who have knowledge of.

According to the pressure reducing and flow regulating valve of the present invention having the above object and configuration, the conventional pressure reducing valve has a single flow path, so that raw water of low pressure is supplied to pass a flow path having a high flow resistance even in a low pressure region where pressure is not required. Due to the large flow loss, the flow path switching member is used to switch the flow path to the left and right rotations of the flow path switching member. It can be reduced to a minimum to minimize the reduction in flow rate, and thus there is an advantage that can significantly reduce the noise when the raw water passes through the valve.

Claims (4)

In the valve in which the inlet 11 for entering the raw water into the one side of the lower body 10 and the outlet 12 is discharged is formed, A flow path switching arc plate 22 protruding upward is integrally formed on a part of the upper circumference of the flow path switching member 20 in which the flow shaft 21 is inserted into the center, and the flow path switching member is formed on the lower body 10. The flow path switching arc plate 22 is positioned between the inlet port 11 and the outlet port 12 in the lower body; The upper and lower sealing plates 32 and 31 are mounted on the upper and lower portions, respectively, and the spring 50 and the upper body 40 are sequentially connected to the center of the upper end of the diaphragm to the upper portion of the lower body 10. 30 is inserted into the center of the diaphragm to fix the upper end of the protruding flow shaft 21 so that the central portion of the diaphragm 30 and the flow shaft 21 and the spring 50 are integrally interlocked. ; When the raw water of the low pressure flows in accordance with the rotation of the flow path switching member 20, the inlet 11 and the outlet 12 of the lower body 10 is directly connected to the flow path is formed, or when the raw water of high pressure flows The inflow port 11 and the inlet port 12 are indirectly controlled while the water flow area through the channel 64 in the lower body 10 is controlled by the simultaneous rise of the central portion of the diaphragm 30 and the flow shaft 21 by the pressure of. Pressure reducing and flow control valve, characterized in that the flow path is connected to form. The method of claim 1, Pressure reduction and flow control valve, characterized in that it further comprises a water discharge amount control port 13 and the water discharge amount control member 14 formed through the water outlet (12) lower portion of the lower body (10). The method of claim 1, Decompression and flow control valve, characterized in that it further comprises a wrench bolt-shaped pressure-reducing control member 42 is fastened to the inner circumference of the cylinder (41) forming the upper portion of the upper body (40). The method according to any one of claims 1 to 3, The flow path switching arc plate (22) is a pressure reducing and flow regulating valve, characterized in that the shape of the quarter cylinder divided into four quarters in the longitudinal direction.

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