JPH0726609A - Waterlevel responding switching valve and switching valve main body therefor - Google Patents

Abstract

PURPOSE:To switch a flow path in response to a waterlevel in a tank by simple structure. CONSTITUTION:A switching valve main body 12 has a valve casing 22 with an inlet 16 and with outlets 18, 20, and a valve disc 24 for switching a flow way. A valve disc actuating device 14 is composed of a cylinder 30, a first float 32 vertically movably provided in the cylinder 30, an arm 36 and a rod 38 through which the first float 32 is connected with the valve disc 24, and a second float 40 which can take up the posture for closing an opening 28 at the bottom part of the cylinder 30 by closely being in contact with the bottom part of the cylinder 30 and can take up the posture for opening the opening 28 at the bottom part of the cylinder 30 by selparating downward from the bottom of the cylinder 30.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a three-way type switching valve in which inflow water from one water supply port is switched to two water discharge ports to flow. More specifically, the present invention relates to a water level responsive switching valve that switches the water outlet according to the water level in a water storage tank. More specifically, when the water level in the tank drops to the operating reference water level that is a required level lower than the full water level, the water outflow destination is switched from the second water outlet to the first water outlet and the water level in the tank rises. In this case, the present invention relates to a water level responsive switching valve that operates so as to keep the water outlet as the first water outlet until the water level becomes almost full.

[0002]

2. Description of the Related Art As is well known, a three-way valve has one inlet port and two inlet ports.
It is provided with a valve case having individual water discharge ports, and a valve body which is arranged in the valve case and switches a flow path so that the inflow port communicates with one of the water discharge ports.
The conventional three-way valve is configured such that the valve element is operated manually or by a motor, a solenoid, or the like.

[0003]

In the conventional manual three-way valve, the flow passage cannot be switched unless the valve body is manually moved. If a motor or solenoid is used, the flow path can be switched freely, but the configuration is complicated.

It is an object of the present invention to provide a water level responsive switching valve which has a simple structure and which switches the flow path in response to the water level in the tank.

[0005]

A water level responsive switching valve according to the present invention includes a valve case having one inflow port and two water discharge ports, and is disposed in the valve case. In a switching valve equipped with a valve body that switches the flow path so as to communicate with either one of the outlets, the axial center direction is installed in the up-down direction, and openings for water circulation are provided at the top and bottom, respectively. A cylinder having: a first float inserted vertically into the cylinder; the first float and the valve body are connected to each other, and the valve body responds to the vertical movement of the first float. A connecting member for switching the flow path; and a posture in which the bottom opening of the cylinder is closed and a bottom opening of the cylinder is closed, and a bottom opening of the cylinder is opened by separating from the bottom of the cylinder. A second flap that is vertically movable It is characterized in that with more composed valve body actuating device; over and.

[0006]

When the water level in the tank drops from the full water level to the reference water level, the second float closes the bottom opening of the cylinder, and the cylinder remains filled with water. Therefore, the first float remains floating in the cylinder, and the water from the inflow port is spouted from the second spout.

When the water level in the tank drops below the reference water level, the second float moves away from the bottom opening of the cylinder,
Water in the cylinder flows out. Then, the first float descends in the cylinder, the valve element is switched and the water from the inflow port is spouted from the first spout port.

When the water level in the tank rises, the water from the inflow port is discharged from the first water discharge port until the reference water level is reached. When the water level in the tank reaches the reference water level, the second float comes into close contact with the bottom opening of the cylinder to prevent the water from flowing into the cylinder. Therefore, even if the water level in the tank exceeds the reference water level, the first float does not rise and water is discharged from the first water discharge port as before.

When the water level in the tank reaches the upper opening of the cylinder, water flows into the cylinder through the opening, and the first float gradually rises. The valve body is operated in association with the rise of the first float, and the flow path is switched so that the inflow port communicates with the second water discharge port.

[0010]

EXAMPLE FIG. 1 is a sectional view showing a water stop state of a water level responsive switching valve according to an embodiment, and FIG. 2 is a sectional view showing a water spouting state from a second water outlet of the water level responsive switching valve. is there. Further, FIG. 3 is a perspective view of the valve body.

The water level responsive switching valve 10 comprises a switching valve body 12 and a valve body operating device 14. Switching valve body 12
Is disposed in the valve case 22 having one inflow port 16, the first spout 18 and the second spout 20, and the inflow port 16 is provided in either one of the spouts. 18
Alternatively, the valve body 24 that switches the flow path so as to communicate with the valve 20
It has and.

The valve body actuating device 14 is installed with its axial center line up and down, and has a cylinder 30 having water circulation openings 26 and 28 at the top and bottom thereof; and is vertically movable in the cylinder 30. First float 3 inserted in
2; The first float 32 and the valve body 24 are connected to each other, and the valve body 24 is moved according to the vertical movement of the first float 32.
An arm 36 and a rod 38 as a connecting member for switching the flow path, and a bottom portion of the cylinder 30,
A second vertically movable unit that can take a posture in which the bottom opening 28 of the cylinder is closed and a posture in which the bottom opening 28 is opened by separating from the bottom of the cylinder 30 downward.
The float 40 of FIG.

In this embodiment, the valve body 24 has an arc-shaped portion 2
4a, a flat plate portion 24b, shafts 24c and 24d projecting from the flat plate portion 24b, and a through hole 24e provided in the flat plate portion 24b.

The valve body 24 is arranged in the cylindrical valve body installation chamber 22a of the valve case 22, and the shafts 24c, 24 are provided.
It is rotatable about d. The arcuate portion 24a of the valve body 24 is of a size capable of closing the first or second water outlet 18, 20 when it overlaps with the first or second water outlet 18, 20.

The arm 36 is a shaft 24 of the valve body 24.
It is fixed to c. A long hole 36a is provided at the tip of the arm 36.
Is provided, and the pin 36 is inserted into the long hole 36a.
The arm 36 and the rod 38 are connected by b. The lower end of the rod 38 is fixed to the first float 32.

The outer peripheral surface of the first float 32 and the cylinder 3
There is a gap between the inner peripheral surface of No. 0 and water so that water can freely flow.

From the upper surface of the second float 40, the hook 4
0a is erected upward, and this hook 40a is inserted into the bottom opening 28 of the cylinder 30. A claw is provided on the upper end of the hook 40a so as to project laterally, and the claw engages with the upper edge of the opening 28 so that the second float 40 is not separated from the cylinder 30.

The operation of the water level responsive switching valve 10 will be described below.

The water level in the tank is changed from the full water level W ₁ (a level almost matching the opening 26) to the reference water level W ₂ (cylinder 30).
The second float 40, as in the first, when the
Bottom opening 28 is closed and the first float 32 remains floating. Therefore, the valve body 24 is maintained in the posture shown in FIG.
Water is discharged from 0.

When the water level in the tank becomes lower than the reference water level W ₂ , the second float 40 separates from the bottom opening 28 of the cylinder 30, and the water in the cylinder 30 flows out from the opening 28. Then, the first float 32 moves into the cylinder 3
0, the valve body 24 is rotated clockwise through the rod 38 and the arm 36 in FIG. As a result, the water from the inflow port 16 is discharged from the first spout 18 as shown in FIG.
Spouted from.

When the water level in the tank rises, the water from the inlet 16 is discharged from the first water outlet 18 until the reference water level W ₂ is reached. The water level in the tank is the standard water level W
_When it reaches ₂ , the second float 40 comes into close contact with the bottom opening 28 of the cylinder 30, and the inflow of water into the cylinder 30 is blocked. Therefore, even if the water level in the tank exceeds the reference water level W ₂ , the first float 32 does not rise and water is discharged from the first water discharge port 18 as before.

When the water level in the tank reaches the opening 26, water flows into the cylinder 30 through the opening 26 and the first float 32 gradually rises. As the first float 32 rises, the valve body 24 is rotated counterclockwise in FIG. 2, and the flow passage is formed so that the inflow port 16 communicates with the second spout 20 as shown in FIG. Can be switched.

FIG. 4 shows a water supply system diagram when the water level responsive switching valve 10 of this embodiment is incorporated in a one-piece toilet bowl. In addition, the one-piece toilet has a water storage tank integrally provided at the rear of the Western-style toilet. In this one-piece toilet bowl, a part of the wash water from the water supply pipe is directly supplied to the toilet bowl rim portion (that is, without passing through the tank). FIG. 4 shows the switching valve 10 in the mechanism for supplying the cleaning water by switching between the rim portion and the tank.
Is adopted.

In FIG. 4, a toilet bowl cleaning lever 44 is pivotally mounted on the side wall of the tank 46.

When the cleaning lever 44 is rotated, the water from the water supply pipe 48 is supplied to the tank 46 or the toilet bowl rim portion via the ball tap 50 and the switching valve body 12. In addition, 50a is a ball tap floating ball, and 52 is a water conduit to the rim portion. The cleaning lever 44 is connected to the valve 54 via a connecting member 56 so that the water discharge control valve (float valve) 54 at the bottom of the tank 46 can be moved.

When the tank 46 is full of water, the water discharge control valve (float valve) 54 and the ball tap 50 are closed. Further, the switching valve body 12 is in the state shown in FIG. 1, and the inflow port 16 is in communication with the second water discharge port 20.

When the cleaning lever 44 is turned, the water discharge control valve 54
Is opened and the water in the tank 46 begins to be supplied to the toilet bowl,
The water level in the tank 46 begins to drop, which opens the ball tap 50 and causes water to flow from the water supply pipe 48 toward the switching valve body 12. This water is supplied to the rim portion from the second water discharge port 20 of the switching valve body 12 via the water conduit 52, and flows down from the upper edge of the toilet bowl into the toilet bowl.

When the water level in the tank 46 becomes lower than the reference water level W ₂ , the switching valve body 12 enters the state shown in FIG. 2, the water supply to the rim portion is stopped, and the tank 4 from the first water discharge port 18 is stopped.
Water is poured into 6. When the water in the tank 52 is sufficiently lowered, the water discharge control valve 54 is closed and the water level in the tank 46 starts rising. When the water level in the tank 46 reaches the upper opening 26 of the cylinder 30, water flows into the cylinder 30, the first float 32 rises, and the switching valve body 12 returns to the state shown in FIG. Further, the ball tap 50 closes as the water level reaches the full water level W ₁ .

As described above, when the water level responsive switching valve of the present invention is applied to the one-piece type toilet bowl, the water supply from the water supply pipe is supplied to the rim portion in the initial stage of cleaning, and then the water supply is introduced into the tank. Become.

In FIGS. 4 and 5, the water level responsive switching valve of the present invention is incorporated in a one-piece western style toilet, but in the present invention, the low level tank of the siphon-jet type western lavatory is provided with the water level responsive switching valve. 2 The water from the spout may be introduced into the z-hole. Incidentally, the z-hole is for ejecting water toward the trap at the bottom of the toilet bowl, and for causing the siphon water flow in the trap early.

In the above embodiment, the opening 26 is provided in the cylinder 30.
Although it is provided on the side surface of the
0a (FIG. 2) may be used as this opening.

[0032]

As described above, the water level responsive switching valve of the present invention can switch the water discharge from the first and second water discharge ports according to the water level in the tank. The water level responsive switching valve of the present invention is configured such that the valve body switching timing is different when the water level in the tank is lowered and when it is raised, and is suitable for a one-piece toilet bowl or a siphon jet toilet bowl. The water level responsive switching valve of the present invention has a simple structure and is low in cost.

[Brief description of drawings]

FIG. 1 is a sectional view of a water level responsive switching valve according to an embodiment.

FIG. 2 is a cross-sectional view of the water level responsive switching valve according to the embodiment when water is passed from a second water outlet.

FIG. 3 is a perspective view of a valve body of a water level responsive switching valve according to an embodiment.

FIG. 4 is a water supply system diagram of a one-piece toilet bowl incorporating a water level responsive switching valve according to an embodiment.

[Explanation of symbols]

 10 Water Level Reacting Type Switching Valve 12 Switching Valve Main Body 14 Valve Body Actuating Device 18 First Water Discharge Port 20 Second Water Discharge Port 24 Valve Body 30 Cylinder 32 First Float 40 Second Float

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[Procedure amendment]

[Submission date] April 18, 1994

[Procedure Amendment 1]

[Document name to be amended] Statement

[Correction target item name] Full text

[Correction method] Change

[Correction content]

[Document name] Statement

Title: Water level responsive switching valve and switching valve body for the same

[Claims]

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a three-way switching valve for switching inflow water from one water supply port to two discharge ports and a switching valve body therefor. More specifically, the present invention relates to a water level responsive switching valve in which a water outlet is switched according to the water level in a water storage tank, and a switching valve main body therefor. More specifically, when the water level in the tank drops to the operating reference water level that is a required level lower than the full water level, the water outflow destination is switched from the second water outlet to the first water outlet and the water level in the tank rises. In this case, the present invention relates to a water level responsive switching valve that operates so as to keep the water outlet as the first water outlet until the water level is almost full, and a switching valve body therefor.

[0002]

2. Description of the Related Art As is well known, a three-way valve has one inlet port and two inlet ports.
It is provided with a valve case having individual water discharge ports, and a valve body which is arranged in the valve case and switches a flow path so that the inflow port communicates with one of the water discharge ports.
The conventional three-way valve is configured such that the valve element is operated manually or by a motor, a solenoid, or the like.

[0003]

In the conventional manual three-way valve, the flow passage cannot be switched unless the valve body is manually moved. If a motor or solenoid is used, the flow path can be switched freely, but the configuration is complicated.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a water level responsive switching valve and a switching valve body for the same, which has a simple structure and performs flow path switching in response to the water level in a tank.

[0005]

According to a first aspect of the present invention, there is provided a water level responsive switching valve including a valve case having one inflow port and two water discharge ports, the valve case being disposed in the valve case. In a switching valve having a valve body that switches a flow path so that the inlet communicates with any one of the water outlets, the switching valve is installed with the axial direction being the vertical direction, and the top and bottom have openings for water flow respectively. A first float that is vertically movably inserted in the cylinder; connects the first float and the valve body, and a valve according to the vertical movement of the first float. A connecting member for switching the flow path of the body; and a posture in which the bottom portion of the cylinder is in close contact with the bottom portion of the cylinder, and a posture in which the bottom opening of the cylinder is opened by opening the bottom opening of the cylinder. The second, which is vertically movable so that it can be taken Roth; is characterized in that with more composed valve body actuator.

According to a second aspect of the present invention, there is provided the water level responsive switching valve according to the first aspect.
In the above, the switching valve body comprises a valve case and a valve body arranged in the valve case, and the valve case has a cylindrical shape with both ends closed, and is provided on a side peripheral surface of the valve case. Of the inlet, the side peripheral surface of the valve case, the first water outlet provided on the side opposite to the inlet with the axis of the valve case main body sandwiched, and the side peripheral surface of the valve case A second water outlet provided between the inlet and the first water outlet, and the valve body can close the first water outlet or the second water outlet when the valve body is covered with the second water outlet. An arcuate portion having a possible size, curved along the inner peripheral surface of the valve case, and movable in the circumferential direction of the inner peripheral surface along the inner peripheral surface of the valve case; A flat plate-shaped portion which is connected to the arc-shaped portion and extends in a substantially diametrical direction of the valve case, a through hole provided in the flat plate-shaped portion, and an axial center of the valve case. Provided on the shaft, it is to a shaft that is pivotally supported valve body the valve casing, characterized in that it comprises a.

The switching valve body according to claim 3 is the switching valve body according to claim 2.

[0008]

In the water level responsive switching valve according to the first aspect, the second float closes the bottom opening of the cylinder while the water level in the tank decreases from the full water level to the reference water level. Remains satisfied. Therefore, the first float remains floating in the cylinder, and the water from the inflow port is spouted from the second spout.

When the water level in the tank falls below the reference water level, the second float moves away from the bottom opening of the cylinder,
Water in the cylinder flows out. Then, the first float descends in the cylinder, the valve element is switched and the water from the inflow port is spouted from the first spout port.

When the water level in the tank rises, water from the inflow port is discharged from the first water discharge port until it reaches the reference water level. When the water level in the tank reaches the reference water level, the second float comes into close contact with the bottom opening of the cylinder to prevent the water from flowing into the cylinder. Therefore, even if the water level in the tank exceeds the reference water level, the first float does not rise and water is discharged from the first water discharge port as before.

When the water level in the tank reaches the upper opening of the cylinder, water flows into the cylinder through the opening, and the first float gradually rises. The valve body is operated in association with the rise of the first float, and the flow path is switched so that the inflow port communicates with the second water discharge port.

In the water level responsive switching valve of claim 2,
While the water level in the tank drops from the full water level to the reference water level, the arcuate portion of the valve body closes the first spout. At this time, the inflow water from the inflow port flows out from the second water discharge port through the through hole of the flat plate portion.

When the water level in the tank falls below the reference water level and the first float descends in the cylinder, the arcuate portion of the valve element closes the second water outlet. In this state, the inflow water from the inflow port flows out from the first water discharge port through the transparent port of the flat plate portion.

When the water level in the tank rises, this state continues until the water level reaches the upper opening of the cylinder.

When the water level reaches the upper opening and the first float rises, the arcuate portion closes the first spout.

The switching valve body according to claim 3 is adopted as the switching valve body of the water level responsive switching valve according to claim 2 and operates as described above.

[0017]

EXAMPLE FIG. 1 is a sectional view showing a water stop state of a water level responsive switching valve according to an embodiment, and FIG. 2 is a sectional view showing a water spouting state from a second water outlet of the water level responsive switching valve. is there. FIG. 3 is a perspective view of the valve body of the switching valve body of the water level responsive switching valve.

The water level responsive switching valve 10 comprises a switching valve body 12 and a valve body operating device 14. Switching valve body 12
Is disposed in the valve case 22 having one inflow port 16, the first spout 18 and the second spout 20, and the inflow port 16 is provided in either one of the spouts. 18
Alternatively, the valve body 24 that switches the flow path so as to communicate with the valve 20
It has and.

The valve case 22 has a cylindrical shape with both ends closed. The inlet 16 and the first water outlet 18 are the valve case 2
They are provided facing each other with the axis line of 2 interposed therebetween. The second water outlet 20 is arranged between the inlet 16 and the first water outlet 18 on the side peripheral surface of the valve case 22. In this embodiment, the inflow port 16 and the first spout 18 are oriented horizontally, and the second spout 20 is oriented vertically downward.

The valve body actuating device 14 is installed with its axial direction up and down, and has a cylinder 30 having openings 26 and 28 for water circulation at the top and bottom thereof respectively; First float 3 inserted in
2; The first float 32 and the valve body 24 are connected to each other, and the valve body 24 is moved according to the vertical movement of the first float 32.
An arm 36 and a rod 38 as a connecting member for switching the flow path, and a bottom portion of the cylinder 30,
A second vertically movable unit that can take a posture in which the bottom opening 28 of the cylinder is closed and a posture in which the bottom opening 28 is opened by separating from the bottom of the cylinder 30 downward.
The float 40 of FIG.

In this embodiment, the valve body 24 has the arc-shaped portion 2
4a, a flat plate portion 24b, shafts 24c and 24d projecting from the flat plate portion 24b, and a through hole 24e provided in the flat plate portion 24b.

The arcuate portion 24a is curved along the inner peripheral surface of the valve case 22 as shown. Flat plate portion 24b
Extend substantially in the diametrical direction of the valve case 22.

The valve body 24 is disposed in the cylindrical valve body installation chamber 22a of the valve case 22 and has the shafts 24c, 24.
It is rotatable about d. The arcuate portion 24a of the valve body 24 is of a size capable of closing the first or second water outlet 18, 20 when it overlaps with the first or second water outlet 18, 20.

The arm 36 is the shaft 24 of the valve body 24.
It is fixed to c. A long hole 36a is provided at the tip of the arm 36.
Is provided, and the pin 36 is inserted into the long hole 36a.
The arm 36 and the rod 38 are connected by b. The lower end of the rod 38 is fixed to the first float 32.

The outer peripheral surface of the first float 32 and the cylinder 3
There is a gap between the inner peripheral surface of No. 0 and water so that water can freely flow.

From the upper surface of the second float 40, the hook 4
0a is erected upward, and this hook 40a is inserted into the bottom opening 28 of the cylinder 30. A claw is provided on the upper end of the hook 40a so as to project laterally, and the claw engages with the upper edge of the opening 28 so that the second float 40 is not separated from the cylinder 30.

The operation of the water level responsive switching valve 10 will be described below.

The water level in the tank is changed from the full water level W ₁ (a level almost matching the opening 26) to the reference water level W ₂ (cylinder 30).
2), the second float 40 moves to the cylinder 3 as shown in FIG.
0 bottom opening 28 is closed and the first float 32
Is still emerging. Therefore, the valve body 24 is the first
The posture shown in the figure is maintained, and the water from the inflow port 16 is spouted from the second spout 20.

When the water level in the tank becomes lower than the reference water level W ₂ , the second float 40 separates from the bottom opening 28 of the cylinder 30, and the water in the cylinder 30 flows out from the opening 28. Then, the first float 32 moves into the cylinder 3
0, the valve body 24 is rotated clockwise through the rod 38 and the arm 36 in FIG. As a result, the water from the inflow port 16 is discharged from the first spout 18 as shown in FIG.
Spouted from.

When the water level in the tank rises, the water from the inflow port 16 is discharged from the first water discharge port 18 until the reference water level W ₂ is reached. The water level in the tank is the standard water level W
_When it reaches ₂ , the second float 40 comes into close contact with the bottom opening 28 of the cylinder 30, and the inflow of water into the cylinder 30 is blocked. Therefore, even if the water level in the tank exceeds the reference water level W ₂ , the first float 32 does not rise and water is discharged from the first water discharge port 18 as before.

When the water level in the tank reaches the opening 26, water flows into the cylinder 30 through the opening 26, and the first float 32 gradually rises. As the first float 32 rises, the valve body 24 is rotated counterclockwise in FIG. 2, and the flow passage is formed so that the inflow port 16 communicates with the second spout 20 as shown in FIG. Can be switched.

FIG. 4 shows a water supply system diagram when the water level responsive switching valve 10 of this embodiment is incorporated in a one-piece toilet. In addition, the one-piece toilet has a water storage tank integrally provided at the rear of the Western-style toilet. In this one-piece toilet bowl, a part of the wash water from the water supply pipe is directly supplied to the toilet bowl rim portion (that is, without passing through the tank). FIG. 4 shows the switching valve 10 in the mechanism for supplying the cleaning water by switching between the rim portion and the tank.
Is adopted.

In FIG. 4, a lever 44 for cleaning the toilet bowl is pivotally attached to the side wall of the tank 46.

When the cleaning lever 44 is rotated, the water from the water supply pipe 48 is supplied to the tank 46 or the toilet bowl rim portion via the ball tap 50 and the switching valve body 12. In addition, 50a is a ball tap floating ball, and 52 is a water conduit to the rim portion. The cleaning lever 44 is connected to the valve 54 via a connecting member 56 so that the water discharge control valve (float valve) 54 at the bottom of the tank 46 can be moved.

When the tank 46 is full, the water discharge control valve (float valve) 54 and the ball tap 50 are closed. Further, the switching valve body 12 is in the state shown in FIG. 1, and the inflow port 16 is in communication with the second water discharge port 20.

When the cleaning lever 44 is turned, the water discharge control valve 54
Is opened and the water in the tank 46 begins to be supplied to the toilet bowl,
The water level in the tank 46 begins to drop, which opens the ball tap 50 and causes water to flow from the water supply pipe 48 toward the switching valve body 12. This water is supplied to the rim portion from the second water discharge port 20 of the switching valve body 12 via the water conduit 52, and flows down from the upper edge of the toilet bowl into the toilet bowl.

When the water level in the tank 46 becomes lower than the reference water level W ₂ , the switching valve body 12 enters the state shown in FIG. 2, the water supply to the rim portion is stopped, and the tank 4 is discharged from the first spout 18 to the tank 4.
Water is poured into 6. When the water in the tank 52 is sufficiently lowered, the water discharge control valve 54 is closed and the water level in the tank 46 starts rising. When the water level in the tank 46 reaches the upper opening 26 of the cylinder 30, water flows into the cylinder 30, the first float 32 rises, and the switching valve body 12 returns to the state shown in FIG. Further, the ball tap 50 closes as the water level reaches the full water level W ₁ .

As described above, when the water level responsive switching valve of the present invention is applied to the one-piece type toilet bowl, the water supply from the water supply pipe is supplied to the rim portion in the initial stage of cleaning, and then the water supply is introduced into the tank. Become.

In FIGS. 4 and 5, the water level responsive switching valve of the present invention is incorporated in a one-piece western style toilet, but in the present invention, the low level tank of the siphon-jet type western lavatory is provided with this water level responsive switching valve. 2 The water from the spout may be introduced into the z-hole. Incidentally, the z-hole is for ejecting water toward the trap at the bottom of the toilet bowl, and for causing the siphon water flow in the trap early.

In the above embodiment, the opening 26 is provided in the cylinder 30.
Although it is provided on the side surface of the
0a (FIG. 2) may be used as this opening.

[0041]

The water level responsive switching valve according to the first and second aspects can switch the water discharge from the first and second water discharge ports according to the water level in the tank. The water level responsive switching valve of the present invention,
The switching timing of the valve element is made different when the water level in the tank is lowered and when it is raised, which is suitable for a one-piece toilet or a siphon-set toilet. The water level responsive switching valve according to claim 2 and the switching valve main body according to claim 3 can reliably switch the water discharge between the first water discharge port and the second water discharge port.

The water level responsive switching valve according to claims 1 and 2 and the switching valve body according to claim 3 have a simple structure and are low in cost.

[Brief description of drawings]

FIG. 1 is a sectional view of a water level responsive switching valve according to an embodiment.

FIG. 2 is a cross-sectional view of the water level responsive switching valve according to the embodiment when water is passed from a second water outlet.

FIG. 3 is a perspective view of a valve body of the switching valve body according to the embodiment.

FIG. 4 is a water supply system diagram of a one-piece toilet bowl incorporating a water level responsive switching valve according to an embodiment.

[Explanation of reference numerals] 10 water level responsive switching valve 12 switching valve body 14 valve body actuating device 18 first water discharge port 20 second water discharge port 22 valve case 24 valve body 24a arcuate portion 24b flat plate portion 24c, 24d shaft 24e transparent Mouth 30 Cylinder 32 First float 40 Second float

Claims (1)

[Claims] 1. A valve case having one inflow port and two water discharge ports, and a flow passage arranged in the valve case so that the inflow port communicates with one of the water discharge ports. A switching valve equipped with a valve body for switching between a cylinder and a cylinder, which is installed with the axial direction being the vertical direction and has openings for water circulation at the top and bottom respectively; and is vertically movable in the cylinder. First float; a connecting member that connects the first float and the valve body, and that operates to switch the flow path of the valve body according to the vertical movement of the first float; and the bottom of the cylinder. A second float that is vertically movable so that it can be in a posture in which the bottom opening of the cylinder is closed and a posture in which the bottom opening of the cylinder is opened and the bottom opening of the cylinder is opened. A valve actuating device comprising Water-corresponding switching valve to symptoms.