JPH0434106A - Sprinkler valve - Google Patents

Abstract

PURPOSE:To stabilize the sprinkling amount by controlling a valve opening by the balance between a spring for pressing a valve body attached and separated by sliding in a cylinder mounted on a valve body allowing the communication between a pressure water outlet port and inlet port through a valve seat and the pressure of pressure water. CONSTITUTION:A water valve 11 is formed of a valve box 13 consisting of an outer cylinder 17 having a water outlet port 21 and an inner cylinder 19 having a water inlet port 25 and a valve seat 25, a cylinder 14 having an air feed port 30, and a valve body 16 provided with a spring 29 and sliding in the cylinder 14. A solenoid valve is switched to close side to discharge the pressure air in the cylinder 14 from the air feed port 30. The valve body 16 is separated from a valve seat 15 by the balance between the pressing force to the valve body 16 of the spring 29 set to a value slightly smaller than general water pressure and the pressure of the pressure water from the water inlet port 25 to automatically control the opening of the water outlet port 21. The sprinkling thus can be uniformly performed.

Description

[Detailed description of the invention] [Industrial application field] TECHNICAL FIELD The present invention relates to a water sprinkler valve used in a water truck or the like.

[Conventional technology]

Figure 12 shows a conventional watering valve used in watering trucks.This watering valve operates an air cylinder (2) by opening and closing an air solenoid valve (1). 2) opens and closes the ball valve (3) to spray water from the nozzle (4).

[Problem to be solved by the invention]

In the above-mentioned conventional watering valve, the opening degree of the ball valve (3) is set regardless of the pressure fluctuation of the pressure water being sprayed, so water cannot be sprayed evenly, the watering distance cannot be increased, and the number of parts is large. There is a problem that there are many problems and it takes time and effort to install. Additionally, the ball valve (3) has the problem of being easily damaged by freezing and having poor reliability.

The present invention has been made in view of the current situation, and an object of the present invention is to provide a watering valve that can spray water evenly, can provide a long watering distance, has a simple structure and is easy to install, and is less likely to malfunction due to freezing or the like. With the goal.

(Means for Solving the Problems) As a means for achieving the above object, the present invention provides a valve box in which a pressure water inlet and a pressure water outlet communicate with each other via a valve seat, and a cylinder provided in the valve box. a valve body that is slidably arranged to sit on and leave the valve seat; and a spring that is incorporated in the cylinder and presses and urges the valve body to control the valve opening degree by pressure balance with the pressure of the pressure water. , comprising a pressure air supply mechanism for supplying and discharging pressurized air into the cylinder,
The valve body is configured to be seated on the valve seat against the water pressure of the pressurized water by the combined force of the pressure of the pressurized air and the biasing force of the spring only when pressurized air is supplied into the cylinder. It is characterized by

(Function) In the water sprinkler valve according to the present invention, the valve opening degree is controlled by the pressure balance between the urging force of the spring that presses and urges the valve body and the water pressure of the pressure water. Therefore, the amount of water sprayed is stable and a wide area can be uniformly watered, and the pressure is always maintained, so a long watering distance can be obtained.

〔Example〕

Hereinafter, one embodiment of the present invention will be described with reference to the drawings.

FIG. 1 shows an example of a water sprinkler valve according to the present invention.
This watering valve consists of a water valve (11) that controls the pressure water (W) to be sprinkled, and a water valve (11) that controls the supply and discharge of pressure air (A) to the water valve (11) to open and close the water valve (11). It consists of a solenoid valve (12) that allows

As shown in FIGS. 2 and 3, the water valve (11) includes a valve box (13), a cylinder (14) attached to this valve 1 (13), and a cylinder (14) inside the cylinder (14). A valve seat (13) is slidably arranged and formed in the valve body (13).
As shown in FIGS. 2 to 7, the valve box (13) is equipped with a valve body (work 6) that is seated away from the valve body (15), and has an outer cylinder (17a) at the upper end thereof. 17) and an inner cylinder (19) that is inserted into the outer cylinder (17) in a watertight manner through an O-ring (18). As shown, pressurized water (W) piping (20
) is connected to the flange (20a) of the flange (19a).
) is provided.

As shown in FIGS. 2, 4, and 5, a water outlet (21) is provided on the outer peripheral surface of the upper end of the outer cylinder (17), and this water outlet (21) will be explained in detail later. As described above, the opening area of the inner cylinder (19) is adjusted, thereby making it possible to adjust the maximum opening amount of the water valve (11). In addition, the flange (17a) of the outer cylinder (17)
As shown in Fig. 5, long holes (22) are provided at three locations apart from the water outlet (21) at 90 degree intervals. Nuts (24) into which stud bolts (23), which will be described later, are inserted and screwed onto each of these stud bolts (23).
By adjusting , the amount of insertion of the inner cylinder (19) into the outer cylinder (17) is adjusted.

As shown in FIG. 6, the inner cylinder (19) has a flange (
19a) is the water inlet (25), and the upper end surface is the valve seat (15), and the flange (19a) has 90 mm in the circumferential direction as shown in
Four insertion holes (26) are provided at intervals of degrees. Stud bolts (23) are inserted into three insertion holes (26) corresponding to the elongated holes (22).

As shown in FIG. 2, each of these stud bolts (23) is attached to the outer cylinder (
The distance between the flange (17a) of 17) and the flange (19a) of the inner cylinder (19) is regulated, thereby controlling the amount of insertion of the inner M (19) into the outer cylinder (17). is adjusted, and the area of the water outlet (21) that is closed by the outer peripheral surface of the upper end of the inner cylinder (19) is adjusted. As a result, the substantial opening area of the water outlet (21) changes, and the maximum opening amount of the water valve (11) is adjusted.

On the other hand, as shown in FIGS. 8 and 9, the cylinder (14) has a cylindrical shape with its upper end closed, and its lower end opening has four through holes spaced apart at 90 degrees in the circumferential direction. (27)
A flange (14a) having a
Stud bolts (23) are inserted into the three insertion holes (27) corresponding to 2). Then, by threading the nuts (24) onto each of these stud bolts (23), the flange (14a) of the cylinder (14) is tightened.
) and the flange (17a) of the outer cylinder (17) are connected.

In addition, a valve body (16) disposed within this cylinder (14)
As shown in FIGS. 10 and 11, the valve seat (
15), and a cylindrical piston part (16b).As shown in FIG. Department (
16a) is positioned in the outer cylinder (17), the piston part (i6b) is slidably inserted into the cylinder (14), and the cylinder (14) and the piston part (16b)
The space between the two is airtightly sealed by an O-ring (28). Also, inside the piston part (16b), 't
As shown in Figure S2, the plane valve plate part (16a) is attached to the valve seat (1
A spring (2) is always pressed in the direction of seating on the seat (5).
9) is interposed, and this piston part (16b
) is supplied with pressurized air (A) from the solenoid valve (12) through an air supply port (30) provided at the center of the top of the cylinder (14). There is.

The biasing force of the spring (29) is set to a value slightly smaller than the normal water pressure of the pressure water (W), and therefore, when the pressure air (A) is not supplied into the cylinder (14), the pressure The valve body (1
6) slides to adjust the opening, but the valve body (16)
) does not sit on the valve seat (15). Then, the water valve (11) is closed by pressurized air (A
) is supplied into the cylinder (14). That is, the opening/closing control of the water valve (11) is performed by a solenoid valve (12).

Next, the operation of this embodiment will be explained.

As shown in FIG. 1, when the solenoid valve (12) is switched to the oven side, pressure air (A) is supplied into the cylinder (14) through the solenoid valve (12), and the valve body (16) The valve seat (15) is pressed by the resultant force of the pressure of the pressurized air (A) and the urging force of the spring (29).
). In this state, even if pressurized water (W) is supplied into the water valve (11) and the water pressure acts on the valve body (16), the resultant force is greater than the water pressure, so the valve body (16) is
6) will not leave the valve seat (15) and the water valve (11) will not open.

On the other hand, when the solenoid valve (12) is switched to the closed side, the pressure air (A) in the cylinder (14) is discharged through the solenoid valve (12), and the valve body (16) is
Only the biasing force of the spring (29) will act. As mentioned above, the biasing force of this spring (29) is set to a value slightly smaller than the normal water pressure of the pressure water (W), so the pressure water (W) is sent to the water valve (11). When the valve body (16) is released from the valve seat (15), the water inlet (25) and the water outlet (21) communicate with each other via the valve seat (15), and the water valve (11) opens. Become.

By the way, the pressure water (W) supplied to the water valve (11)
Water pressure is not always maintained constant and may fluctuate. In the conventional water sprinkling valve shown in Fig. 12, the opening degree of the ball valve (3) is constant regardless of the pressure fluctuation, so water cannot be sprayed evenly or a sufficiently long distance cannot be obtained. There's a problem.

However, in this embodiment, since the valve body (16) is always pressed and biased by the spring (29), when the water pressure of the pressure water (W) changes, the water valve (11) changes accordingly. The opening degree is automatically controlled, eliminating the problems associated with conventional water sprinkler valves.

That is, since the valve body (16) is pressed in the direction of seating on the valve seat (15) by the biasing force of the spring (29), when the water pressure of the pressure water (W) decreases, the valve body (16)
approaches the valve seat (15) accordingly, and the valve opening becomes small. Conversely, when the water pressure of the pressure water (W) increases, the valve body (1
6) moves away from the valve seat (15) accordingly, and the valve opening becomes a dog. In other words, the water valve (
11) The valve opening degree is automatically controlled.

Therefore, the amount of water sprayed is stable and a wide area can be uniformly watered, and the pressure water (W) can be kept under pressure at all times, so a sufficiently long watering distance can be obtained.

Furthermore, since the structure is simple, it is easy to install, and there is no risk of damage due to freezing, so failures are rare.

(Effects of the Invention) As explained above, according to the present invention, the valve opening degree is controlled by the pressure balance between the urging force of the spring and the water pressure of the pressure water, so the amount of discharge is stable and can be spread over a wide range. This allows for even watering and a long watering distance.

Furthermore, since the structure is simple, it is easy to install, and there are fewer failures due to freezing or the like.

[Brief explanation of drawings]

Fig. 1 is a configuration diagram showing a water sprinkler valve according to an embodiment of the present invention, Fig. 2 is an enlarged view of the water valve, Fig. 3 is a plan view of Fig. 2, and Fig. 4 is a configuration of the valve box. A configuration diagram of the outer cylinder, FIG. 5 is a plan view of FIG. 4, FIG. 6 is a configuration diagram of the inner cylinder constituting the valve box, and FIG. 7 is a plan view of FIG. 6. Figure J8 is a configuration diagram of the cylinder attached to the valve box, Figure 9 is a plan view of Figure 8,
FIG. 10 is a configuration diagram of a valve body, FIG. 11 is a plan view of FIG. 1O, and FIG. 12 is a configuration diagram showing a conventional water sprinkler valve. (11)... Water valve, (12)... Solenoid valve, (13)... Valve box, (14)... Cylinder,
(15)...Valve seat, (16)...Valve body, (21)-
...Water outlet, (25)...Water inlet, (29)...Spring, (30)...Air supply port, (W)...Pressure water, (A)...Pressure air.

Claims (1)

[Claims] A valve box in which a pressure water inlet and a pressure water outlet communicate with each other via a valve seat; a valve body that is slidably disposed in a cylinder provided in the valve box and seats on and leaves the valve seat; a spring that is incorporated in the cylinder to press and bias the valve body and control the valve opening degree based on the pressure balance with the pressure of the pressure water, and a pressure air supply mechanism that supplies and discharges pressure air into the cylinder, Only when pressurized air is supplied into the cylinder, the valve element is seated on the valve seat against the pressure of pressurized water due to the combined force of the pressure of the pressurized air and the biasing force of the spring. A water sprinkler valve characterized by: