JPH01105073A - Valve device - Google Patents

Abstract

PURPOSE:To prevent a valve unit from tilting by the action of fluid with the sureness of its stop by closely attaching the plate-shaped fixed valve unit to be adapted to a moving valve unit by an urging means. CONSTITUTION:A valve casing 15 has an inlet 16 of fluid and its outlet 17, and in the inside of the casing 15, a ceramic made plate-shaped fixed valve unit 18 and moving valve unit 19 are urged by an urging spring 20 in a direction of closely attaching the valve units to be adapted. This urging spring 20 is provided being able to be displaced in a direction reverse to the direction of closely attaching the fixed valve unit 18 to be adapted to the moving valve unit 19. While providing two backup seats 24 for the purpose of improving a slide, the moving valve unit 19 is urged in a direction opposed to the urging spring 20 by a rubber ring 25, performing buffer urging, through the backup seats 24.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of the Invention The present invention relates to a valve device for controlling water flow. ” Conventional Techniques Conventionally, there was a technique of this type as shown in FIG. A shaft 5 is provided through the ball 2 and sealed with a shaft sealing O-ring 6, and is sealed with resin gaskets 3 and 4. The lower end of the shaft 5 is supported by a plug 8 provided at the bottom, and the plug 8 is sealed and attached to the valve frame body 1 by a packing 9.A shaft sealing O-ring 6 is attached to the holding cylinder 1o. The holding cylinder 10 is sealed to the valve frame body 1 with a QIJ ring 11 and stopped with a plug 12.

Inside the drive section 7, an electric motor 13, a gear 14, and the like are provided. The structure in which the shaft 5 passes through the ball 2 is designed to prevent the ball from tilting due to the flow of fluid, increasing driving torque and causing malfunction.
□ Problems to be solved by the invention However, the above configuration had the following drawbacks.

(1) The contact between the gaskets 3 and 4 and the ball 2 is between curved surfaces, so a gap exists and it was not possible to completely stop the fluid.

(2) In order to prevent the ball 2 from tilting due to fluid, it was necessary to adopt a structure in which six shafts 5 were passed through, resulting in a complex structure and many machining surfaces.

(3) Since there is no means to absorb the volumetric expansion that occurs when the fluid freezes, damage may occur at low temperatures.

The present invention is intended to solve these conventional problems, and aims to provide a valve device with excellent water-stopping properties and reliability.

Means for Solving the Problems In order to solve the above-mentioned problems, the electric valve of the present invention includes a plate-shaped fixed valve body having an opening provided in the valve casing, and an abutment that closely fits the fixed valve body. The valve body brought into contact with the valve body, a biasing means that biases the fixed valve body and the valve body in a direction to bring them into close contact with each other, and has a degree of freedom for displacement in the opposite direction, and drives the valve body. and a driving means for doing so.

According to the above-described configuration, the present invention brings the plate-shaped fixed valve body and the valve operating body into close contact with each other by the urging means, thereby ensuring water stoppage and preventing the valve body from tilting due to the action of fluid. The volumetric expansion during freezing is absorbed by the displacement of the biasing means, thereby preventing damage to the valve body.゛Embodiments Hereinafter, embodiments of the present invention will be described based on the attached drawings.

FIG. 1 shows a first embodiment of the invention.

The valve body 15 has a fluid inlet 16 and an outlet 17, and a plate-shaped fixed valve body 18 and a valve operating body 19 made of ceramic are provided therein in close contact with each other. Fixed valve body 18
is biased by a biasing spring 20 in a direction in which it comes into close contact with the valve operating body 19 .

The biasing spring 20 is also provided so as to be displaceable in a direction opposite to the direction in which the fixed valve body 18 and the valve operating body 19 are brought into close contact.

That is, for the fixed valve bodies 1 and 8, the anti-rotation fitting 21
The anti-rotation fitting 21 is fitted into a groove 23 so that a pawl 22 fitted into the internal structure of the valve frame can move in the opposite direction to the urging direction. . In addition, the valve body 19 is moved in the direction opposite to the biasing spring 20 by a rubber ring 25 that provides a buffer bias through two backup sheets 24 provided for the purpose of improving sliding. The body 19 is energized. and rubber ring 25
is supported by the internal structure of the valve body 15.

The valve body 19 is driven by a drive section 27 provided outside via a drive shaft 26 . The drive unit 27 includes a motor 28, a microswitch 29 for position control, a one-way clutch aO, and the like. Further, an O-ring 31 is attached to the drive shaft 26 to prevent leakage.

Figure 2 shows details of the valve body. Fixed valve body 18 and valve operating body 1
9 are configured in exactly the same shape, and the openings 32 .
32', 33. 33'. Then, due to the rotation of the valve body 19, the openings 32.32' and 33.3.3' are communicated and cut off, and the flow starts.
It is being stopped.

Next, the operation of this embodiment will be explained. - When fluid supply is instructed by operating a changeover switch (not shown), the motor 28 rotates and the valve body 19 is rotated through the drive shaft 26.
move. and openings 32.32' and 33.33'
When the is rotated to the position where it is fully connected, the microswitch 29 is activated.

Rotation of the remoter 28 is stopped. When instructed to stop the fluid, the valve body 28 is similarly rotated by the motor 281, and the openings 32, 32' and 33, 33' are each blocked by the other non-opening, thereby stopping the flow. is cut off. When the water stops flowing and the water is stopped, the fixed valve body 18 and the valve operating body 19 are brought into close contact with each other by the biasing force of the spring 20° rubber ring 25, and the contact surfaces are ground with a conical surface. Combined with this, water has been completely cut off. Even if foreign matter were to enter the opening during use, it would be cut off by the hard ceramic opening edges during operation.

Furthermore, even if scale components in the water are deposited on the contact surface, they are scraped off by the opening edges. At low temperatures, even if the water accumulated in the valve body 15 freezes and volumetric expansion occurs and the fixed valve body 18 or the valve operating body 19 receives a load, the biasing spring 20 will bend or the rubber ring 25 will bend. 3. The ceramic fixed valve body 18 and valve operating body 19 may crack due to the absorption of the deflection and expansion. . Yu1゜, Wow, 2, A4, Oya. This prevents damage to the valve body caused by displacement when an excessive load is applied due to a mechanical pressure increase.

When the load is removed, it returns to its original position under the action of the biasing means.

The effect of this embodiment is that the biasing spring 2 is used as the biasing means.
0 and rubber rings 25 are provided separately for the fixed valve body 18 and the valve operating body 19, so damage to the valve body can be prevented from freezing or heavy loads from either direction. It has an effect.

Furthermore, since the fixed valve body 18 and the valve operating body 19 are made of ceramic, they do not deteriorate and can form hard edges, making it easy to cut and remove foreign substances.

Further, since the drive shaft 26 is driven by a drive section 27 having a motor, which is an electric drive means, the drive shaft 26 has advantages such as easy operation and remote control.

FIG. 3 shows a second embodiment of the present invention, which shows a fixed valve body a7 inside a valve frame body 34, which is biased by a biasing spring 35 via a rotation prevention fitting 36, and A valve operating body 39 is provided which is in close contact with the valve body 39 and is biased by a biasing spring 38 . The biasing spring 38 is supported by a support fitting 41 that rotates together with the drive shaft 40, and has a structure that prevents it from rubbing against the inside of the valve casing body 34 due to rotation.

The effect of this embodiment is that since the repulsive force of the biasing spring 38, which is the biasing means, is supported by the drive shaft 40 by the support fitting 41, the biasing spring 38 is not rubbed inside the valve frame body 34. , the driving force can be reduced.

FIG. 4 shows a third embodiment of the invention.

This embodiment shows a mixing valve, in which a fixed valve body 43 and a moving valve body 44 are provided within a valve frame body 42. Valve body 4
4 is biased by a biasing spring 46 held down by a cap 45 screwed onto the valve frame body 42 and driven by a drive shaft 47 .

This mixing valve has a structure in which hot water and water flow meet, mix, return and flow away, so in the event of freezing or an increase in internal pressure, only one direction of relief is required, so it is not energized. A spring 46 is provided.

Effects of the Invention As described above, the valve device of the present invention provides the following effects. 5 (1) Since the plate-shaped fixed valve body with an opening and the valve operating body are in close contact, it is easy to finish the flat surface and eliminate gaps, making it possible to completely eliminate leaks. can.

(2) The valve has a structure in which flat plates are stacked on top of each other, and since the acting force of the fluid acts on the flat surface, the valve body does not tilt, causing leakage or increasing the driving force.

(3) The biasing means allows the fixed valve body and the valve operating body to come into closer contact, improving complete water-tightness, and also prevents the biasing means from bending in the opposite direction to the biasing direction in the event of freezing or abnormal pressure rise. This can prevent damage to the valve body.

[Brief explanation of the drawing]

Fig. 1 is a partially cutaway sectional view showing a valve device according to a first embodiment of the present invention, Fig. 2 is an exploded perspective view showing the valve body, and Fig. 3 is a main part cutaway of the second embodiment. 4 is a sectional view of a main part of the third embodiment, and FIG. 5 is a sectional view of a conventional valve device. 15... Valve body, 18... Fixed valve body,
19... Valve gear, 20... Biasing spring (
(biasing means), 25...Rubber ring (biasing means)
, 26... Drive shaft (drive means), 27...
... Drive unit (driving means), 32°32', 33.
33'...Opening. Name of agent: Patent attorney Toshio Nakao and 1 other person18
- Fixed valve body Fig. 1 Fig. 2 Fig. 3

Claims (5)

[Claims] (1) a valve body, a plate-shaped fixed valve body having an opening provided in the valve body, a plate-shaped valve operating body having an opening that comes into close contact with the fixed valve body; A valve device comprising a biasing means that biases a fixed valve element and a valve element in a direction that brings them into close contact and has a degree of freedom for displacement in the opposite direction, and a driving means that drives the valve element. . (2) The valve device according to claim 1, wherein the biasing means is provided separately for a fixed valve element and for a valve operating element. (3) The valve device according to claim 1, wherein the fixed valve body and the valve operating body are made of ceramic. (4) The valve device according to claim 1, wherein the drive means includes a drive shaft and an electric drive means for driving the drive shaft. (5) The valve device according to claim 1, wherein the biasing means has the drive shaft support the repulsive force of the bias.