JP3080596U - Solenoid water valve - Google Patents

Abstract

(57) Abstract: An electromagnetic valve that stabilizes the opening and closing operation of a valve by using an electromagnetic valve, a pressure switch, and a three-way pipe to prevent friction between members and extend a service life. Provide a water valve. SOLUTION: The diaphragm 21 in the pressure switch 20 is configured by controlling a water pressure inside and outside the pressure switch 20 with the electromagnetic valve 30, comprising a three-way pipe 10, a pressure switch 20, an electromagnetic valve 30, and the like. When water is cut off (anhydrous pressure), the diaphragm 21 of the pressure switch 20 is not linked to the operation of the electromagnetic valve 30, and at the time of water supply, a change in water pressure is sensed by the electromagnetic valve 30 and the pressure switch 20. Control the amount of water.

Description

[Detailed description of the invention]

[0001]

[Technical field to which the invention belongs]

 The present invention uses an electromagnetic valve, a pressure switch, and a three-way pipe to stabilize the opening and closing operation of the valve, thereby preventing friction between members and extending the service life. It is about a valve.

[0002]

[Prior art]

 In recent years, with the improvement of living standards, various electric appliances are used, for example, an electromagnetic water valve is one example. Most conventional solenoid-operated water valves control the opening and closing of valves using solenoid valves.However, when the water is insufficient or the water pressure is unstable, the amount of water is not provided stably. Is being done every day.

[0003]

[Problems to be solved by the invention]

 The conventional electromagnetic water valve controls the amount of water by using an infrared switch. However, such a configuration causes the following problems. <B> The conventional electromagnetic water valve directly controls the opening and closing of the valve by the electromagnetic valve. However, such an electromagnetic valve cannot automatically control the amount of water by water pressure. <B> Even if water shortage occurs, such an electromagnetic valve operates as usual, causing friction between parts and causing damage.

[0004] The present invention solves the above-described problem. When the water pressure inside and outside the pressure switch changes by using an electromagnetic valve and a pressure switch, the diaphragm in the pressure switch operates to open and close the valve. The diaphragm of the pressure switch is not linked to the operation of the electromagnetic valve even when the water is turned off (anhydrous pressure), so that friction between members can be prevented and the service life can be extended.

[0005]

Means for Solving the Problems The present invention is an electromagnetic water valve comprising a three-way pipe (10), a pressure switch (20), an electromagnetic valve (30), and the like. 10) has a water inlet (11), a water outlet (12), a working port (13), etc., and a convex ring (14) corresponding to the water outlet (12) is provided in the working port (13). The pressure switch (20) is composed of a combination of a diaphragm (21), a drain screw (23) and a positioning seat (22), and is installed at an operating port (13) of the three-way pipe (10). The positioning seat (22) has a plate shape, receiving portions (221, 222) are formed on both sides thereof, and a screwing hole (223) is formed in the receiving portion (221). 222), a through hole (227) is formed around the screw hole (223). A plurality of through holes (224) are formed, the diaphragm (21) is made of an elastic gel, and the diaphragm (21) is screwed into a screw hole (223) at the center of the housing (21) by a drain screw (23). A fitting groove (211) and a central hole (215) are formed at positions corresponding to the convex ring portion (14) of the working port (13) in the housing portion (21). ), An operating ring (212) having a tube (214) is installed, and a through-hole (215) is formed at a position corresponding to the tube (214) in the housing (21). A probe (216) is installed above the housing (21), and at this time, one end of the probe (216) is inserted into the tube (214) of the operating ring (212), and the entire housing (21) is Positioning seat (2 ), The drain screw (23) having a through hole (231) at the center thereof passes through the central hole (213) of the housing portion (21), and then moves to the center of the positioning seat (22). And the through hole (231) in the drain screw (23) corresponds to the through hole (227) in the screw hole (223), and the electromagnetic valve (30) is operated. It has a tank (31), a sensing rod (32) and a spring (33) are installed in the working tank (31), a water blocking block (34) is provided at the lower end of the sensing rod (32), and a spring ( 33), a water-stop washer (37) is provided at a lower end of the electromagnetic valve (30), and an end of the electromagnetic valve (30) on the water-stop washer (37) side. Is the upper surface of the positioning seat (22) Electromagnetic water valve, characterized in that fixed to the definitive housing portion (222) within and provides.

[0006]

[Embodiment of the invention]

 Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is an exploded perspective view of the electromagnetic water valve according to the present invention, FIG. 2 is a perspective view of the electromagnetic water valve according to the present invention after assembling, and FIG. 3 is related to the present invention. FIG. 4 is a side sectional view showing an operation state of the electromagnetic water valve, FIG. 4 is a side sectional view showing another operation state of the electromagnetic water valve according to the present invention, and FIG. 5 is an electromagnetic water valve according to the present invention. This is an embodiment of the present invention.

As shown in FIGS. 1 and 2, the electromagnetic water valve of the present invention includes a three-way pipe (10), a pressure switch (20), an electromagnetic valve (30), and the like. The pipe (10) has a water inlet (11), a water outlet (12), a working port (13) and the like, and a convex ring (14) corresponding to the water outlet (12) is provided in the working port (13). Provided.

The pressure switch (20) is composed of a combination of a diaphragm (21), a drain screw (23) and a positioning seat (22), and is installed at an operating port (13) of the three-way pipe (10). The positioning seat (22) therein has a plate shape, and on one side, a housing part (221) corresponding to the working port (13) in the three-way pipe (10), and on the other side, corresponds to the electromagnetic valve (30). An accommodating portion (222) is formed, a screw hole (223) is formed in the accommodating portion (221), and a through hole (227) is formed in the screw hole (222). Further, an inner thread (226) is formed on the periphery of the screw hole (222), a plurality of through holes (224) are formed around the screw hole (223), and the positioning seat (22) is formed. Through holes (225) into which screws (24) can be inserted are formed near the four corners.

The diaphragm (21) is screwed into a screw hole (223) at the center of the housing (21) by a drain screw (23), and the convex ring of the working port (13) in the housing (21). A fitting groove (211) and a central hole (215) are formed at a position corresponding to (14), and an operating ring (212) having a tube portion (214) is installed in the fitting groove (211). A through-hole (215) is formed at a position corresponding to the pipe (214) in the housing (21), and a probe (216) is installed above the housing (21). Is inserted into the tube (214) of the operating ring (212), and the entire housing (21) is housed in the housing (221) of the positioning seat (22).

The drain screw (23) having a through hole (231) in the center passes through the center hole (213) in the housing part (21), and then is screwed into the screw hole (223) in the center of the positioning seat (22). ), And the through hole (231) in the drain screw (23) corresponds to the through hole (227) in the screw hole (223).

The electromagnetic valve (30) has a working tank (31), in which a sensing rod (32) and a spring (33) are installed in the working tank (31), and a stopper is provided at a lower end of the sensing rod (32). The water block (34) is provided with a housing groove (36) corresponding to the spring (33) at the upper end and an external thread (35) at one end of the electromagnetic valve (30). A water stop washer (37) is attached to the outer peripheral edge of the external thread (35). Therefore, the electromagnetic valve (30) is screwed to the inner thread (226) of the receiving portion (222) in the positioning seat (22) by the outer thread (35).

As shown in FIG. 3, when the user does not use the tap water, the electromagnetic valve (30) does not operate, so that the sensing rod (32) in the operating tank (31) includes the spring (33). Is pushed downward by the urging force, and the water stop block (34) at the lower end of the sensing rod (32) comes into contact with the outside of the through hole (227) in the positioning seat (22), and the through hole (227) is closed. At the same time, the diaphragm (21) is screwed into a screw hole (223) at the center of the housing portion (221) by a drain screw (23). Therefore, the receiving portions (221, 222) on both surfaces of the positioning seat (22) are sealed by the diaphragm (21), and the diaphragm (21) is a convex ring in the working port (13) in the three-way pipe (10). The water pressure in the storage portions (221, 222) and the water pressure in the water inlet (11) is fitted into the fitting groove (211) of the diaphragm (21) while being in contact with the portion (14). This is done only by the tube (214) in the ring (212). Further, since the water pressure in the housings (221, 222) and the water inlet (11) is higher than the pressure at the water outlet (12), the diaphragm (21) is connected to the working port in the three-way pipe (10) as described above. (13) It is firmly contacted with the convex ring part (14) in. Therefore, water at the water inlet (11) does not enter the water outlet (12) from between the diaphragm (21) and the convex ring (14).

As shown in FIG. 4, when the user uses the tap water, the electromagnetic valve (30) is operated, and the sensing rod (32) in the operation tank (31) is sucked by the electromagnetic valve (30). The spring (33) retracts. Thereby, the water blocking block (34) is separated from the through hole (227), and the space of the accommodation portion (222) in the positioning seat (22) is widened. Then, air is sucked in from the through hole (227), and the water pressure in the housing part (222) drops rapidly, and the water pressure in the housing part (221) also drops through the plurality of through holes (224). At this time, since the water pressure at the water outlet (12) instantaneously becomes higher than the water pressure at the storage portions (2 21, 222), the diaphragm (21) separates from the convex ring portion (14), and the water inlet (11). From the water enters the water outlet (12) from between the diaphragm (21) and the convex ring (14), and flows out smoothly to the outside. As described above, since the opening and closing of the diaphragm (21) is performed by hydraulic pressure, the diaphragm (21) is not linked to the operation of the electromagnetic valve (30) when water is insufficient or when water is cut off (anhydrous pressure). Therefore, the service life can be extended by preventing friction between the members.

Further, when the electromagnetic valve (30) is in the OFF state, the sensing rod (32) in the working tank (31) is pushed downward by the spring (33), and at the same time, the inside of the housing portion (221, 222). Water and air are quickly discharged from the through hole (227) and the through hole (231) in the drain screw (23), and then the water blocking block (34) at the lower end of the sensing rod (32) is inserted into the through hole (227). It is abutted on the outside of and sealed. As a result, the water pressure in the housing portions (221, 222) on both surfaces of the positioning seat (22) and the water pressure in the water inlet (12) on the outer side of the pipe portion (214) and the pipe portion (214) in the operating ring (212). Is balanced. Incidentally, the bottom of the probe (216) in the diaphragm (21) may be formed in a spring shape, and the restoring force of the diaphragm (21) may be increased by the urging force.

As shown in FIG. 5, the electromagnetic water valve of the present invention may be combined in an infrared sensor device (40). In this case, the sensing means of the sensor member (41) allows the user to use the water valve. When the hand or the article is brought closer to the sensor member (41), the electromagnetic valve (30) is automatically operated, and when the hand or the article is moved away, the electromagnetic valve (30) is automatically stopped. Alternatively, a water temperature sensor (42) may be installed on the three-way pipe (10), and the result may be output and displayed on the display panel (43).

[0017]

[Effect of the invention]

 Since the present invention has the above configuration, when the water pressure inside and outside the pressure switch changes due to the electromagnetic valve and the pressure switch, the diaphragm inside the pressure switch operates to stabilize the opening and closing of the valve, and when the water is cut off (water pressure ), The diaphragm of the pressure switch is not linked to the operation of the solenoid valve, and when water is supplied, the change in water pressure is sensed by the solenoid valve and the pressure switch, and the water volume is controlled by the diaphragm in the pressure switch. . Accordingly, friction between members can be prevented, and the flow of water to the outside can be stabilized. As a result, the service life can be greatly extended.

[Brief description of the drawings]

FIG. 1 is an exploded perspective view of an electromagnetic water valve according to the present invention.

FIG. 2 is a perspective view of the electromagnetic water valve according to the present invention after assembly.

FIG. 3 is a side sectional view showing an operation state of the electromagnetic water valve according to the present invention.

FIG. 4 is a side sectional view showing another operation state of the electromagnetic water valve according to the present invention.

FIG. 5 is an embodiment of the electromagnetic water valve according to the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 10 Three-way pipe 11 Water inlet 12 Outlet 13 Working port 14 Convex ring part 20 Pressure switch 21 Diaphragm 211 Fitting groove 212 Working ring 213 Central hole 214 Pipe part 215 Through hole 216 Probe 22 Positioning seat 221 Housing part 222 Housing part 223 Screw hole 224 Through hole 225 Through hole 226 Inner thread 227 Through hole 23 Drain screw 231 Through hole 24 Screw 30 Electromagnetic valve 31 Working tank 32 Sensing rod 33 Spring 34 Water blocking block 35 Outer thread 36 Housing groove 37 Water washer Reference Signs List 40 infrared sensor device 41 sensor member 42 water temperature sensor 43 display panel

Claims (3)

[Utility model registration claims] 1. A three-way pipe (10) and a pressure switch (20).
And an electromagnetic water valve comprising an electromagnetic valve (30) and the like, wherein the three-way pipe (10) has a water inlet (11), a water outlet (12), a working port (13), and the like, A convex ring (14) corresponding to the water outlet (12) is provided in the working port (13), and the pressure switch (20) includes a diaphragm (21), a drain screw (23), and a positioning seat (22). The positioning seat (22) in the working port (13) of the three-way pipe (10) has a plate-like shape, and receiving portions (221, 222) are formed on both sides thereof. A screw hole (223) is formed in the housing part (221), a through hole (227) is formed in the screw hole (222), and a plurality of through holes (223) are formed around the screw hole (223). 224)
The diaphragm (21) is made of an elastic gel, and the diaphragm (21) is screwed into a screw hole (223) in the center of the housing portion (21) by a drain screw (23). A fitting groove (211) and a central hole (215) are formed in the portion (21) at a position corresponding to the convex ring portion (14) of the working port (13), and a pipe portion (21) is formed in the fitting groove (211). An operating ring (212) having a housing (214) is installed, a through hole (215) is formed at a position corresponding to the tube (214) in the housing (21), and a probe is provided above the housing (21). (216) is installed, at which time one end of the probe (216) is inserted into the tube (214) of the operating ring (212), and the entire housing (21) is housed in the housing (22) of the positioning seat (22). 2 Housed in 1) the drainage screw having a center through-hole (231) (23)
After passing through the central hole (213) in the housing part (21), the screw hole (22) in the center of the positioning seat (22) is formed.
3), and the through hole (231) of the drain screw (23) is screwed into the through hole (22) in the screw hole (223).
Corresponding to 7), the electromagnetic valve (30) has a working tank (31), and a sensing rod (32) and a spring (3) are provided in the working tank (31).
3) is installed, a water blocking block (34) is provided at the lower end of the sensing rod (32), a housing groove (36) corresponding to the spring (33) is provided at the upper end, and the electromagnetic valve (3) is provided.
A water-stop washer (37) is provided at the lower end of (0), and the end of the electromagnetic valve (30) on the water-stop washer (37) side is fixed in the accommodation portion (222) on the upper surface of the positioning seat (22). Characterized by an electromagnetic water valve. 2. A water temperature measuring unit (4) is connected to a three-way pipe (10).
2) is installed, and the measurement data is displayed on the display panel (43).
The electromagnetic water valve according to claim 1, wherein the water valve is output and displayed. The bottom of the probe (216) in the diaphragm (21) is formed in a spring shape, and the diaphragm (2) is formed.
The electromagnetic water valve according to claim 1, wherein the urging force of (1) is increased.