JPH11257532A - Water hammering prevention device for float valve - Google Patents

Abstract

PROBLEM TO BE SOLVED: To avoid an increase in cost, and relax restrictions over space setting by avoiding enlargement of a water tank while leaving the water tank as it is, and preventing the occurrence of water hammering. SOLUTION: Water flow out of a water tank 2 is cut off, the level of the water tank 2 is abruptly raised up to a level HWL1 close to the maximum level from a reference level WL, and concurrently, at the time when a valve element 5 is abruptly lowered from a fully opened position to a fully closed position, let the flange 11A of a grudually closing device 11 abut against the upper end of a spring 11B so as to restrain a float 6 from being abruptly raised up, and also restrain the valve element 5 from being abruptly lowered down. Even if the level of water is gradually raised up from the level HWL1 close to the maximum level up to the maximum level HWL, and the valve element 5 can thereby be gradually lowered down while being restrained by a time difference by the energization of the spring 11B, so that the valve is thereby gradually closed.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a float valve installed in a water tank, an industrial water tank, an agricultural water tank, or the like to control water hammer in a float valve applied to water, industrial, or agricultural water management. The present invention relates to a water hammer prevention device for a float valve.

[0002]

2. Description of the Related Art Conventionally, a float valve shown in FIG. 5 is known which is installed in a water tank, an industrial water tank, an agricultural water tank, or the like, and is applied to the management of clean water, industrial water, and agricultural water. ing. The float valve communicates with a water supply line 1 and is provided in a water tank 2, and a valve body 5 movably mounted inside the valve box 3 to open and close a valve box seat portion 4. A float 6 that rises to the surface of the water tank 2 and rises and falls with a change in water level, and a connecting member 7 that connects the float 6 and the valve element 5 to each other. As shown in FIG. The valve body 5 is brought into close contact with the valve box seat portion 4 via the connecting member 7 by the rise of the float 6 following the rise of the float to the maximum water level HWL.
To the water tank 2 and the water level in the water tank 2 is reduced to the reference water level WL by the discharge from the drain pipe 8 after the water supply is shut off.
The valve body 5 is separated from the valve box seat portion 4 via the connecting member 7 by the lowering of the float 6 following the lowering of the float 6 to lower the water supply amount (water input amount) from the water supply line 1 and the drainage line 8. The valve opening is maintained so that the amount of drainage (water output) from
The water level of the water tank 2 is configured to be maintained at the reference water level WL. In addition, 9 is a valve box cover, 10 is a diversion pipe extending in the up-down direction, and a radially opposing portion of the top is cut off,
A pair of water intakes 10A having overflow walls 10a are formed, and an inlet of the drainage pipe 8 faces near the bottom.

The connecting member 7 includes a pantograph-type link mechanism 70, a float-side connecting cylinder 71, and a valve rod 72. An upper end pivot point 70A of the pantograph-type link mechanism 70 is pivotally supported at a lower end of the float-side connecting cylinder 71. The lower end pivot point 70B of the pantograph link mechanism 70 is pivotally supported by the upper end of the valve stem 72, and the center pivot point 70C of the pantograph link mechanism 70 is slidably inserted into the float-side connecting cylinder 71. The stop bar 73 is pivotally supported, and the stop bar 73 and the center pivot point 70C are appropriately held so as not to move up and down. Therefore, as shown in FIG. 6, the valve body 5 is pushed down by the rise of the float 6 following the rise of the water level of the water tank 2 to the maximum water level HWL, and the valve is brought into a closed state in which the valve body 5 is in close contact with the valve box seat portion 4. As shown in FIG. 5, the valve body 5 is pulled up by the lowering of the float 6 following the water level of the water tank 2 lowering to the reference water level WL, and the valve box seat portion 4
From the valve.

[0004] By the way, for some reason, the drainage pipe 8
Is blocked and the drainage (water discharge) from the water tank 2 is shut off,
The water level in the water tank 2 rises rapidly from the reference water level WL in FIG. 4 to the maximum water level HWL in FIG. When the valve element 5 closes suddenly in this way, a rapid change occurs in the flow in the water supply line 1 and a water hammer occurs in the water supply line 1.
For this reason, conventionally, the water tank 2 is enlarged, and the water level in the water tank 2 when the drainage pipe 8 is closed is slowly increased, so that the valve body 5 is gently closed to reduce the water hammer. However, an increase in the size of the water tank 2 leads to an increase in cost, and there is a possibility that installation may be impossible due to restrictions on the installation space. On the other hand, the dash pot filled with oil is configured to interfere with the float 6, and the water tank 2
There is a float valve that prevents the valve body 5 from closing suddenly by suppressing the sudden rise of the float 6 even if the water level rises sharply. However, this type of float valve has a complicated structure and requires an expensive dashpot, which is costly.

[0005]

That is, in the conventional structure for preventing the water hammer of the float valve, the size of the water tank must be increased, which leads to an increase in cost and a possibility that the installation cannot be performed due to the restriction on the installation space. In addition to having a dash pot, the cost is also increased by a water hammer prevention structure using a dash pot. Therefore,
The present invention provides an apparatus for preventing water hammer of a float valve, which can avoid an increase in cost and reduce a restriction on an installation space by preventing an increase in size of a water tank and preventing a water hammer while maintaining the current state. It is intended for that purpose.

[0006]

In order to achieve the above object, a water hammer prevention device for a float valve according to the present invention comprises: a valve box installed in a water tank in communication with a water supply line; A valve body movably inserted into the inside to open and close a valve box seat, a float that floats on the surface of the water tank and rises and falls with a change in water level, and a connection that connects the float and the valve body to each other With the rise of the float following the rise of the water level of the water tank to the highest water level, the valve body is brought into close contact with the valve box seat portion via the connection member, and the valve is closed. While shutting off the water supply from the water supply pipe to the water tank, and lowering the float following the water level drop of the water tank due to the discharge after the water supply is cut off, the valve body is connected to the valve box sheet via the connecting member. Away from the part A valve open state, in the fabricated float valve to the water supply to the water tank from the water supply conduit,
A gradual closing device that interferes with the connecting member from near the fully closed position of the valve body to urge a force against the rise of the float and the movement of the valve body in the valve closing direction to loosely close the valve body is provided. It is characterized by being provided.

According to the present invention, the water from the water tank is shut off for some reason, the water level of the water tank rises rapidly from the reference water level to near the maximum water level, and the float suddenly moves from the reference position to the vicinity of the maximum position. When the valve body suddenly descends from the fully open position to the vicinity of the fully closed position, the gradual closing device interferes with the connecting member and suppresses the sudden rise of the float and the sudden fall of the valve body. For this reason, the amount of water supplied from the water supply pipe to the water tank is kept small, and the rise in water level from near the maximum water level to the maximum water level becomes slow. Even if the water level of the water tank rises slowly from near the maximum water level to the maximum water level, the rise of the float is suppressed by the interference of the slowly closing device, so the float has a time difference from the time when the water level of the water tank rises to the maximum water level. As a result, the valve body slowly rises to the highest position, and at the same time, the valve body can be slowly lowered from the vicinity of the fully closed position to the fully closed position to close the valve slowly.

[0008]

An embodiment of the present invention will be described below with reference to the drawings. FIG. 1 is a side view of a partially opened cross-sectional view of an embodiment of the present invention when a valve is opened. In this figure, a float valve communicates with a water supply line 1 and is installed in a water tank 2. 3, a valve body 5 movably inserted into the inside of the valve box 3 to open and close the valve box seat portion 4, a float 6 that floats on the water surface of the water tank 2 and moves up and down with a change in water level,
A connecting member 7 for connecting the float 6 and the valve body 5 to each other.
As shown in FIG. 2, the valve body 5 is brought into close contact with the valve box seat portion 4 via the connecting member 7 by the rise of the float 6 following the rise of the water level of the water tank 2 to the maximum water level HWL. With the valve closed, the water supply from the water supply line 1 to the water tank 2 is shut off, and the water level in the water tank 2 is reduced to the reference water level WL by the discharge from the drainage line 8 after the water supply is shut off. The lowering of the float 6 causes the connecting member 7
The valve body 5 is separated from the valve box seat portion 4 through the valve, and the valve opening degree at which the amount of water supplied from the water supply line 1 (water input amount) and the amount of water discharged from the drainage line 8 (water discharge amount) become equal. It is configured to hold the water level of the water tank 2 at the reference water level WL.
Numeral 9 denotes a valve box cover, and numeral 10 denotes a water pipe extending in the vertical direction.
A pair of water intake ports 10A having 0a is formed, and the inlet of the drainage pipe 8 faces near the bottom.

The connecting member 7 includes a pantograph-type link mechanism 70, a float-side connecting cylinder 71, and a valve rod 72. An upper end pivot point 70A of the pantograph-type link mechanism 70 is pivotally supported by a lower end of the float-side connecting cylinder 71. The lower end pivot point 70B of the pantograph link mechanism 70 is pivotally supported by the upper end of the valve stem 72, and the center pivot point 70C of the pantograph link mechanism 70 is slidably inserted into the float-side connecting cylinder 71. The stop bar 73 is pivotally supported, and the stop bar 73 and the center pivot point 70C are appropriately held so as not to move up and down. Therefore, as shown in FIG. 2, the valve body 5 is pushed down by the rise of the float 6 following the rise of the water level of the water tank 2 to the maximum water level HWL, and the valve is brought into a closed state in which the valve body 5 is in close contact with the valve box seat portion 4. As shown in FIG. 1, the valve body 5 is pulled up by the lowering of the float 6 following the water level of the water tank 2 falling to the reference water level WL, and the valve box seat portion 4
From the valve.

On the other hand, the valve body 5 is slowly closed by interfering with the connecting member 7 from the vicinity of the fully closed position of the valve body 5 and urging a force against the rise of the float 6 and the movement of the valve body 5 in the valve closing direction. A gradual closing device 11 is provided. The gradual closing device 11 includes the valve stem 7
11A and a compression coil spring 11B mounted on the valve box cover 9 through the valve rod 72
The flange 11A comes into contact with the upper end of the compression coil spring 11B near the fully closed position of the valve element 5.

In the above configuration, when the drainage pipe 8 is blocked for some reason and the drainage from the water tank 2 is shut off,
The water level of the water tank 2 is from the reference water level WL of FIG.
WL1 and the float 6 rapidly rises from the reference position shown by the solid line to the vicinity of the highest position shown by the imaginary line, and the valve element 5 moves from the fully open position shown by the imaginary line in FIG. At this position, the flange 11A of the gradual closing device 11 abuts on the upper end of the compression coil spring 11B to suppress the sudden rise of the float 6 and the sudden fall of the valve body 5. For this reason, the water supply line 1 of FIG.
Since the amount of water supplied to the water tank 2 from the water level is kept small, the water level rise from the vicinity HWL1 near the maximum water level to the maximum water level HWL in FIG. 2 becomes slow.

Even if the water level in the water tank 2 rises slowly from the vicinity of the highest water level HWL1 to the highest water level HWL, the rise of the float 6 is suppressed by the urging of the compression coil spring 11B, so that the float 6 has the highest water level in the water tank 2. The valve body 5 slowly rises to the highest position shown in FIG. 2 with a time lag from the time when the water level rises to the water level HWL. At the same time, the valve body 5 is moved from the vicinity of the fully closed position shown by the solid line in FIG. The valve can be slowly lowered to close the valve slowly. Therefore, it is possible to suppress a rapid change in the flow in the water supply pipe 1 and prevent water hammer. That is, it is possible to prevent the water hammer while maintaining the current size without increasing the size of the water tank 2, so that it is possible to avoid an increase in cost and ease the restrictions on the installation space.

In the above embodiment, the pantograph-type connecting member 7 is used. However, as shown in FIG. 4, even a float valve using the operating arm type connecting member 7 may be used.
A flange 11A fixed to an intermediate portion of the valve stem 72;
By providing the loosening / closing device 11 constituted by the compression coil spring 11BA mounted on the valve box cover 9 through the valve 2, the same operation and effect as in the above-described embodiment can be obtained.

[0014]

As described above, according to the present invention, the water from the water tank is shut off for some reason, the water level of the water tank rises rapidly from the reference water level to near the maximum water level, and the float is moved to the reference position. From the fully open position to the vicinity of the fully closed position, and the gradual closing device interferes with the connecting member to suppress the sudden rise of the float and the sudden drop of the valve body. The amount of water supplied from the water supply pipeline to the water tank is kept small, and the rise in water level from near the maximum water level to the maximum water level is slowed down. The rise of the float is suppressed by the interference of the slowly closing device, so that the float slowly rises to the highest position with a time lag from the time when the water level of the water tank rises to the highest water level, and at the same time the valve body is fully closed Since the gently valve it closed and slowly lowered to the fully closed position from the near-by suppressing a rapid change of the flow of the water supply conduit, it is possible to prevent the water hammer. That is, the water hammer can be prevented while maintaining the current size without increasing the size of the water tank, so that cost increase can be avoided and restrictions on the installation space can be reduced.

[Brief description of the drawings]

FIG. 1 is a side view when a valve is opened, showing a partial cross section of an embodiment of the present invention.

FIG. 2 is a side view of the embodiment of the present invention showing a partial cross section when the valve is closed.

FIG. 3 is an enlarged cross-sectional view showing a state when the valve element has been lowered to a position near a fully closed position.

FIG. 4 is a side view of another embodiment of the present invention with a partial cross section when a valve is opened.

FIG. 5 is a side view of a conventional example with a partial cross section when a valve is opened.

FIG. 6 is a side view showing a conventional example with a partial cross section when a valve is closed.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Water supply line 2 Water tank 3 Valve box 4 Valve box seat part 5 Valve body 6 Float 7 Connecting member 11 Loose closing device

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[Procedure amendment]

[Submission date] May 17, 1999

[Procedure amendment 1]

[Document name to be amended] Statement

[Correction target item name] Full text

[Correction method] Change

[Correction contents]

[Document Name] Statement

Patent application title: Water hammer prevention device for float valve

[Claims]

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a float valve installed in a water tank, an industrial water tank, an agricultural water tank, or the like to control water hammer in a float valve applied to water, industrial, or agricultural water management. The present invention relates to a water hammer prevention device for a float valve.

[0002]

2. Description of the Related Art Conventionally, a float valve shown in FIG. 4 has been known which is installed in a water tank, an industrial water tank, an agricultural water tank, or the like, and is applied to water, industrial, or agricultural water management. ing. The float valve communicates with a water supply line 1 and is provided in a water tank 2, and a valve body 5 movably mounted inside the valve box 3 to open and close a valve box seat portion 4. comprises a float 6 which is floated on the water surface of the water tub 2 to lift with the level change, and a connecting member 7 for connecting the the float 6 and the valve element 5 to each other, as shown in FIG. 5, the water level of the tub 2 The valve body 5 is brought into close contact with the valve box seat portion 4 via the connecting member 7 by the rise of the float 6 following the rise of the float to the maximum water level HWL.
To the water tank 2 and the water level in the water tank 2 is reduced to the reference water level WL by the discharge from the drain pipe 8 after the water supply is shut off.
The valve body 5 is separated from the valve box seat portion 4 via the connecting member 7 by the lowering of the float 6 following the lowering of the float 6 to lower the water supply amount (water input amount) from the water supply line 1 and the drainage line 8. The valve opening is maintained so that the amount of drainage (water output) from
The water level of the water tank 2 is configured to be maintained at the reference water level WL. In addition, 9 is a valve box cover, 10 is a diversion pipe extending in the up-down direction, and a radially opposing portion of the top is cut off,
A pair of water intakes 10A having overflow walls 10a are formed, and an inlet of the drainage pipe 8 faces near the bottom.

The connecting member 7 includes a pantograph-type link mechanism 70, a float-side connecting cylinder 71, and a valve rod 72. An upper end pivot point 70A of the pantograph-type link mechanism 70 is pivotally supported at a lower end of the float-side connecting cylinder 71. The lower end pivot point 70B of the pantograph link mechanism 70 is pivotally supported by the upper end of the valve stem 72, and the center pivot point 70C of the pantograph link mechanism 70 is slidably inserted into the float-side connecting cylinder 71. The stop bar 73 is pivotally supported, and the stop bar 73 and the center pivot point 70C are appropriately held so as not to move up and down. Therefore, as shown in FIG. 5 , the valve body 5 is pushed down by the rise of the float 6 following the rise of the water level of the water tank 2 to the maximum water level HWL, and the valve closes to the valve box seat portion 4 to be in a closed state. As shown in FIG. 4 , the valve body 5 is pulled up by the lowering of the float 6 following the water level of the water tank 2 falling to the reference water level WL, and the valve box seat portion 4
From the valve.

[0004] By the way, for some reason, the drainage pipe 8
Is blocked and the drainage (water discharge) from the water tank 2 is shut off,
Water level of the tub 2 rises sharply to a maximum water level HWL in FIG suddenly to closed the valve body 5 from the reference water level WL in FIG. When the valve element 5 closes suddenly in this way, a rapid change occurs in the flow in the water supply line 1 and a water hammer occurs in the water supply line 1.
For this reason, conventionally, the water tank 2 is enlarged, and the water level in the water tank 2 when the drainage pipe 8 is closed is slowly increased, so that the valve body 5 is gently closed to reduce the water hammer. However, an increase in the size of the water tank 2 leads to an increase in cost, and there is a possibility that installation may be impossible due to restrictions on the installation space. On the other hand, the dash pot filled with oil is configured to interfere with the float 6, and the water tank 2
There is a float valve that prevents the valve body 5 from closing suddenly by suppressing the sudden rise of the float 6 even if the water level rises sharply. However, this type of float valve has a complicated structure and requires an expensive dashpot, which is costly.

[0005]

That is, in the conventional structure for preventing the water hammer of the float valve, the size of the water tank must be increased, which leads to an increase in cost and a possibility that the installation cannot be performed due to the restriction on the installation space. In addition to having a dash pot, the cost is also increased by a water hammer prevention structure using a dash pot. Therefore,
The present invention avoids the increase in size of the water tank, to maintain the size of the current
While by preventing the water hammer in the, avoiding costs it is intended to provide a the water hammer prevention device of the float valve which can alleviate restriction on the installation space.

[0006]

In order to achieve the above object, a water hammer prevention device for a float valve according to the present invention comprises: a valve box installed in a water tank in communication with a water supply line; A valve body movably inserted into the inside to open and close a valve box seat, a float that floats on the surface of the water tank and rises and falls with a change in water level, and a connection that connects the float and the valve body to each other With the rise of the float following the rise of the water level of the water tank to the highest water level, the valve body is brought into close contact with the valve box seat portion via the connection member, and the valve is closed. While shutting off the water supply from the water supply pipe to the water tank, and lowering the float following the water level drop of the water tank due to the discharge after the water supply is cut off, the valve body is connected to the valve box sheet via the connecting member. Away from the part A valve open state, in the fabricated float valve to the water supply to the water tank from the water supply conduit,
The connecting member includes a pantograph link mechanism, a float
Pantograph link mechanism with side connecting cylinder and valve stem
Is pivotally supported at the lower end of the float-side connecting cylinder,
The pivot point of the lower end of the pantograph link mechanism is the upper end of the valve stem.
And the central pivot point of the pantograph linkage is
Pivotally supported by a stop rod slidably inserted into the float side connecting cylinder
And the stop bar and the center pivot point cannot move up and down.
Flange and valve that are held and fixed to the middle part of the valve stem
A compression coil spring inserted through the rod and placed on the valve box lid
The flange is compressed near the fully closed position of the valve element
A gradual closing device is provided for abutting against the upper end of the coil spring to urge a force against rising of the float and movement of the valve body in the valve closing direction to loosely close the valve body. And

According to the present invention, the water from the water tank is shut off for some reason, the water level of the water tank rises rapidly from the reference water level to near the maximum water level, and the float suddenly moves from the reference position to the vicinity of the maximum position. When the valve body drops rapidly from the fully open position to the vicinity of the fully closed position , the flange of the slowly closing device
Contact to suppress the nose dive of the surge and the valve body of the float. For this reason, the amount of water supplied from the water supply pipe to the water tank is kept small, and the rise in water level from near the maximum water level to the maximum water level becomes slow. Even if the water level in the water tank rises slowly from around the highest water level to the highest water level, the float rises
Since it is suppressed by the bias of the compression coil spring , the float will slowly rise to the highest position with a time difference from the time when the water level of the water tank rises to the highest water level,
At the same time, the valve body can be slowly lowered from the vicinity of the fully closed position to the fully closed position to slowly close the valve.

[0008]

An embodiment of the present invention will be described below with reference to the drawings. FIG. 1 is a side view of a partially opened cross-sectional view of an embodiment of the present invention when a valve is opened. In this figure, a float valve communicates with a water supply line 1 and is installed in a water tank 2. 3, a valve body 5 movably inserted into the inside of the valve box 3 to open and close the valve box seat portion 4, a float 6 that floats on the water surface of the water tank 2 and moves up and down with a change in water level,
A connecting member 7 for connecting the float 6 and the valve body 5 to each other.
As shown in FIG. 2, the valve body 5 is brought into close contact with the valve box seat portion 4 via the connecting member 7 by the rise of the float 6 following the rise of the water level of the water tank 2 to the maximum water level HWL. With the valve closed, the water supply from the water supply line 1 to the water tank 2 is shut off, and the water level in the water tank 2 is reduced to the reference water level WL by the discharge from the drainage line 8 after the water supply is shut off. The lowering of the float 6 causes the connecting member 7
The valve body 5 is separated from the valve box seat portion 4 through the valve, and the valve opening degree at which the amount of water supplied from the water supply line 1 (water input amount) and the amount of water discharged from the drainage line 8 (water discharge amount) become equal. It is configured to hold the water level of the water tank 2 at the reference water level WL.
Numeral 9 denotes a valve box cover, and numeral 10 denotes a water pipe extending in the vertical direction.
A pair of water intake ports 10A having 0a is formed, and the inlet of the drainage pipe 8 faces near the bottom.

The connecting member 7 includes a pantograph-type link mechanism 70, a float-side connecting cylinder 71, and a valve rod 72. An upper end pivot point 70A of the pantograph-type link mechanism 70 is pivotally supported by a lower end of the float-side connecting cylinder 71. The lower end pivot point 70B of the pantograph link mechanism 70 is pivotally supported by the upper end of the valve stem 72, and the center pivot point 70C of the pantograph link mechanism 70 is slidably inserted into the float-side connecting cylinder 71. The stop bar 73 is pivotally supported, and the stop bar 73 and the center pivot point 70C are appropriately held so as not to move up and down. Therefore, as shown in FIG. 2, the valve body 5 is pushed down by the rise of the float 6 following the rise of the water level of the water tank 2 to the maximum water level HWL, and the valve is brought into a closed state in which the valve body 5 is in close contact with the valve box seat portion 4. As shown in FIG. 1, the valve body 5 is pulled up by the lowering of the float 6 following the water level of the water tank 2 falling to the reference water level WL, and the valve box seat portion 4
From the valve.

On the other hand, the valve body 5 is slowly closed by interfering with the connecting member 7 from the vicinity of the fully closed position of the valve body 5 and urging a force against the rise of the float 6 and the movement of the valve body 5 in the valve closing direction. A gradual closing device 11 is provided. The gradual closing device 11 includes the valve stem 7
11A and a compression coil spring 11B mounted on the valve box cover 9 through the valve rod 72
The flange 11A comes into contact with the upper end of the compression coil spring 11B near the fully closed position of the valve element 5.

In the above configuration, when the drainage pipe 8 is blocked for some reason and the drainage from the water tank 2 is shut off,
The water level of the water tank 2 is from the reference water level WL of FIG.
WL1 and the float 6 rapidly rises from the reference position indicated by the solid line in FIG. 1 to the vicinity of the highest position indicated by the phantom line, and the valve element 5 moves from the fully open position indicated by the imaginary line in FIG. The flange 11A of the gradual closing device 11 abuts on the upper end of the compression coil spring 11B at this position to suppress the rapid rise of the float 6 and the rapid fall of the valve element 5 at this position. Therefore, the amount of water supplied from the water supply pipe 1 to the water tank 2 in FIG.
The rise in water level from near the highest water level HWL1 to the highest water level HWL in FIG. 2 is slow.

Even if the water level in the water tank 2 rises slowly from the vicinity of the highest water level HWL1 to the highest water level HWL, the rise of the float 6 is suppressed by the urging of the compression coil spring 11B, so that the float 6 has the highest water level in the water tank 2. The valve body 5 slowly rises to the highest position shown in FIG. 2 with a time lag from the time when the water level rises to the water level HWL. At the same time, the valve body 5 is moved from the vicinity of the fully closed position shown by the solid line in FIG. The valve can be slowly lowered to close the valve slowly. Therefore, it is possible to suppress a rapid change in the flow in the water supply pipe 1 and prevent water hammer. That is, it is possible to prevent the water hammer while maintaining the current size without increasing the size of the water tank 2, so that it is possible to avoid an increase in cost and ease the restrictions on the installation space.

[0013]

As described above, according to the present invention, is cut off the water from the water tank by some reason, the water level of the water tank rises rapidly from the reference level to the vicinity of the highest level, and the float reference position From the fully open position to the vicinity of the fully closed position , the flange of the slowly closing device
Suppressing the descent of the spikes and the valve body of the float to contact the upper end of the pulling, by suppressing small amount of water supply to the water tank from the water supply pipe, as well as to slow the water level rising from the vicinity of the high water up to the water level, the water tank Even if the water level rises slowly from near the maximum water level to the maximum water level, the rise in the float is further suppressed by the bias of the compression coil spring of the slowly closing device , so that the time difference from the time when the water level in the water tank rises to the maximum water level is reduced. Slowly raises the float to the highest position and at the same time slowly lowers the valve body from near the fully closed position to the fully closed position and slowly closes the valve, suppressing sudden changes in the flow in the water supply line. Thus, water hammer can be prevented. That is, the water hammer can be prevented while maintaining the current size without increasing the size of the water tank, so that cost increase can be avoided and restrictions on the installation space can be reduced.

[Brief description of the drawings]

FIG. 1 is a side view when a valve is opened, showing a partial cross section of an embodiment of the present invention.

FIG. 2 is a side view of the embodiment of the present invention showing a partial cross section when the valve is closed.

FIG. 3 is an enlarged cross-sectional view showing a state when the valve element has been lowered to a position near a fully closed position.

FIG. 4 is a side view of a conventional example with a partial cross section when a valve is opened.

FIG. 5 is a side view showing a conventional example with a partial cross section when a valve is closed.

[Description of Signs] 1 Water supply line 2 Water tank 3 Valve box 4 Valve box seat part 5 Valve body 6 Float 7 Connecting member 11 Loose closing device 11A Flange 11B Compression coil spring 70 Pantograph link mechanism 71 Float side connecting cylinder 72 Valve rod

[Procedure amendment 2]

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[Procedure amendment 3]

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[Correction method] Change

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[Procedure amendment 4]

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[Correction method] Change

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[Procedure amendment 5]

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Continued on the front page (72) Inventor Yoshihiro Sawada 1-1-1 Nakamiya Oike, Hirakata City, Osaka Prefecture Inside Kubota Hirakata Factory

Claims (1)

[Claims] 1. A valve box connected to a water supply pipe and installed in a water tank, a valve body movably inserted into the valve box to open and close a valve box seat portion, and a water tank of the water tank. A float that rises and rises and falls with a water level fluctuation, and a connecting member that connects the float and the valve body to each other, and is provided by the rise of the float that follows the rise of the water level of the water tank to the highest water level, The valve body is brought into close contact with the valve box seat portion via the connection member to close the valve, thereby blocking water supply from the water supply conduit to the water tank, and lowering the water level of the water tank due to discharge after the water supply is cut off. When the float is moved down, the valve body is separated from the valve box seat portion via the connecting member to open the valve, and water is supplied from the water supply pipe to the water tank. In the float valve, the valve body A gradual closing device that interferes with the connecting member from the vicinity of the fully closed position to urge a force against the rise of the float and the movement of the valve body in the valve closing direction to loosely close the valve body; A water hammer prevention device for a float valve.