JPH06280243A - Automatic water supply device - Google Patents

Abstract

PURPOSE:To wash away foreign matters in fluid by a back current and to make it possible to set upper and lower limited water levels by a simple water level sensor. CONSTITUTION:A valve body 12 connected to a diaphragm 13 is provided to a valve room 5 of a main body 1, and a primary pressure room 19 is formed on the opposite side of the valve body 12 of the diaphragm. An inlet channel 3 is connected to the primary pressure room 19 with a water conduit 36 through an air releasing valve 43, and the air releasing valve 43 is controlled by a water level sensor 37. A piston type reverse washing device 20 is provided to a position capable of draining water flowing backward from an inlet channel side opening section 46. When the water level sensor 37 detects the upper limited water level, the air releasing valve 43 is closed, fluid flows into the primary pressure room 19, the valve body 12 is closed with pressure thereof, and water supply is stopped. When the lower limited water level is detected, the air releasing valve 43 is opened, the valve body 12 is so opened that the fluid is not made to flow into the primary pressure room, and water supply is started. The piston type reverse washing device 20 is operated to iliminate foreign matters in a pipe line.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an automatic water supply device for irrigating fields and the like.

[0002]

2. Description of the Related Art Conventionally, automatic irrigation devices have been used for automatic water supply to fields. An example of them is Japanese Patent Publication No. 57-
No. 61377 and Japanese Utility Model Publication No. 58-47067.

[0003]

However, the above-mentioned conventional automatic irrigation system has the following drawbacks. 1) Dust and foreign matter in the fluid easily cause malfunctions. Since irrigation water is drawn from rivers, etc., various foreign substances are contained in the water. For example, sludge, leaves and weeds, carcasses of animals, and pebbles. If these foreign substances bite into the valve seat of the automatic water supply device, it becomes impossible to close the fluid and automatic irrigation is not performed. Also,
Sludge is a particular problem. The sludge accumulates and solidifies in the water conduit in the automatic water supply device and the filter element at the inlet of the water conduit, and prevents the transmission of fluid pressure to the actuator section. As a result, the automatic water supply system does not work and automatic irrigation is not performed. In fact, such malfunctions are the most common. 2) The structure of the water level sensor is complicated, and the size of the device is large, and at the same time, the cost is high. In the conventional water level sensor, the upper limit water level and the lower limit water level can be arbitrarily set by providing two floats.

The present invention has been made to solve the above-mentioned problems of the prior art, and its objectives are: Even if foreign matter in the fluid, especially sludge, adheres to the water conduit and the filter element in the automatic water supply device, it can be forcibly backwashed and the function can be recovered immediately. 2. The structure of the water level sensor is extremely simple and the device is compact, and the upper and lower water levels can be easily set. An object is to provide a low-cost automatic water supply device having the above-mentioned features 1 and 2.

[0005]

According to the present invention for solving the above problems, there is provided an automatic water supply device having the following configuration. An inlet passage, a valve body located opposite the opening of the inlet passage and held by a diaphragm or a piston, and a bonnet that holds the diaphragm or the piston and forms a primary pressure chamber in the upper portion of the diaphragm or the piston. A water guiding pipe having one end opened to an inlet flow passage located upstream of the opening and the other end opening to the primary pressure chamber; and the water guiding pipe interposed in the middle of the water guiding pipe to open the water guiding pipe to the atmosphere. To the atmosphere open valve that closes the valve when the valve is closed, and the atmospheric open valve that closes the atmospheric open valve at the upper limit water level of the controlled water in conjunction with the fluctuation of the water level of the controlled water and the atmospheric open valve at the lower limit water level. With a water level sensor to open,
Further, the automatic water supply device is characterized in that a piston-type backwashing device is provided at a position where backflow water can be discharged from the inlet passage side opening of the water guide pipe.

In a preferred embodiment of the present invention, the water level sensor has a float that moves up and down to operate a control valve, a float guide in which the float is loosely fitted, and positions of the float guide above and below the float. It is composed of a float stopper movably and fixedly attached to each other.

[0007]

The automatic water supply device of the present invention having the above-described structure operates as follows. The fluid reaching the inlet passage flows out through the valve body opening, the valve chamber and the outlet passage. At this time, a part of the fluid flows through the water pipe, and at this time, if the atmosphere release valve is closed, the fluid reaches the primary pressure chamber, and the valve body closes the opening by the action of the fluid pressure in the primary pressure chamber, thereby automatically supplying water. Stop.

The atmosphere release valve is controlled by the water level sensor, and if the water level sensor detects the upper limit of the water level at the place where the water is supplied, the atmosphere release valve is closed, so that the fluid flows into the primary pressure chamber as described above and the fluid pressure Causes the valve to close the opening and stop the water supply. On the other hand, when the water level sensor detects the lower limit of the water level, the atmosphere opening valve is opened, the fluid flows out from the atmosphere opening valve, and does not flow into the primary pressure chamber. Therefore, the valve body opens the opening and water supply is started.

Further, by periodically operating the piston type backwash device up and down, it is possible to backflow the fluid and remove foreign matters such as sludge accumulated inside the water conduit, the atmosphere release valve and the like.

[0010]

EXAMPLES Examples of the present invention will be described below with reference to the drawings, but it goes without saying that the present invention is not limited to the examples.

FIG. 1 is a vertical sectional view showing an embodiment of the present invention. In the figure, reference numeral 1 is an angle valve type main body, which has an inlet flow passage 3 and an outlet flow passage 4 partitioned by a partition wall 2 provided inside, and is located between the both flow passages. It has a valve chamber 5 arranged so as to communicate with the passage 3. Further, the partition wall 2 is provided with an opening 6 that communicates the inlet channel 3 with the valve chamber 5, and the partition wall 2 around the opening 6 on the valve chamber 5 side has a truncated cone shape protruding upward. A valve seat 7 is provided. Further, an L-shaped joint 8 is attached to the outlet passage 4 via a stopper 9 by screwing a cap nut 11 onto a male screw portion 10 provided around the outlet passage 4,
It is rotatably attached. In the present embodiment, the structure of the main body 1 is formed as an angle valve type, but it may be configured as a type that radially supplies water around the valve seat 7 like the conventional automatic water supply device, and is not particularly limited. Not something.

Reference numeral 12 denotes a valve element, which is located opposite to the opening 6 and is fixed to the lower end of the valve shaft 14 whose upper portion is held by the diaphragm 13 by a nut or the like so that the valve chamber 5 can be moved up and down. Has been done.

Reference numeral 15 is a bonnet, and the diaphragm 13 is clamped and fixed to the flange portion 17 on the upper portion of the main body 1 through a support 16 which is located above the valve chamber 5 and holds the valve shaft 14, and at the center portion. A stroke limiter 18, which slidably holds the valve shaft 14, penetrates and is screwed, and a primary pressure chamber 19 is formed between the stroke limiter 18 and the diaphragm 13.

Reference numeral 20 denotes a piston type backwashing device, in which a piston 22 is slidably fitted and inserted into a cylinder 21 integrally formed on the upper surface of the bonnet 15.
The reference numeral 2 is connected to a piston shaft 24 having a handle 23 attached to one end thereof so that the piston shaft 24 can be moved up and down by power from the outside, and the piston shaft 24 is held by a cap 25 screwed onto the upper portion of the cylinder 21. It consists of a structure. Further, the internal space 26 of the cylinder 21 has a communication hole 2
7 and 28 are configured to communicate with the primary pressure chamber 19 provided inside the bonnet 15 and a water conduit 36 described later. In addition, an air vent valve 29 is provided above the cylinder 21 so that air is not accumulated in the cylinder inner space 26.

The piston type backwashing device 20 may be provided at any position as long as the backflowing water can flow out from the opening of the water guide pipe 36 on the inlet passage 3 side. It is not limited to.

Reference numeral 30 denotes a filter element provided in the inlet passage 3 on the upstream side of the opening 6, and has an adapter 32 having a communication hole 31 therein for communicating a water guide pipe 36 described later with the inlet passage 3. A spring 33 for filtering a fluid through a gap between coils fitted and fixed to the adapter 32 and a cap 34 for closing an upstream opening of the spring 33. A main body is formed by a cap nut 35 through the adapter 32. It is fixed at 1.

Reference numeral 36 is a water conduit, one end of which is connected to a communication hole 31 provided in the adapter 32 to open to the inlet passage 3 and the other end of which is connected to a communication hole 28 provided in the bonnet 15. Has been done. Further, an atmosphere opening valve 43 described later is connected in the middle of the water conduit 36.

In this embodiment, one end of the water conduit 36 is opened to the inlet passage 3 through the filter element 30, but when the controlled fluid does not contain dust, foreign matter, etc. It is not necessary to provide the filter element 30, and one end of the water conduit 36 is directly connected to the inlet passage 3
It may be provided so as to be opened.

A float 39 is loosely fitted in the float guide 38, and a float stopper 4 fixed to the float guide 38 positioned above and below the float 39.
0 and 41, and a control valve 43 connected to the float guide 38 via an arm 42 (hereinafter, referred to as an atmosphere release valve because an atmosphere release valve is used as the control valve in this embodiment) 43. It is a water level sensor.

The float 39 is formed in a columnar shape with a material having a specific gravity smaller than that of water, and moves up and down along the float guide 38 according to the vertical movement of the water level. Float guide 3
A float stopper 40 that defines the upper limit position of the float 39 and a float stopper 41 that defines the lower limit position of the float 39 are attached to the unit 8 by thumbscrews 44 and 45 so as to be movable and fixed. When the space between the float stoppers 40, 41 is narrowed, the dead zone width of the water level becomes small. That is, the water level sensor operates immediately following the vertical movement of the water level. On the other hand, if the interval is widened, the dead zone width becomes large, and it does not follow a minute water level fluctuation but only follows a large water level fluctuation.

Next, the atmosphere release valve 43 is connected to the inlet port 4
6, an outlet port 47 and an atmosphere opening port 48 are provided, and the inlet port 46 is connected to a water guiding pipe 36 connected to a communication hole 31 provided in the adapter 32. Further, the outlet port 47 is connected to a water conduit 36 which is connected to the communication hole 28 provided in the bonnet 15. The atmosphere opening port 48 is configured to be opened and closed by a valve 49, and when the valve 49 is open, the fluid passing through the water conduit 36 is opened to the atmosphere.

An arm 42, one end of which is connected to the upper end of the float guide 38 through a shaft 50, has a fulcrum shaft 5 attached to a case 51 holding and fixing the atmosphere release valve 43.
It is held rotatably in the circumferential direction by 2, and a weight 53 is attached to the other end. The valve shaft 54 of the valve 49 is supported between the fulcrum shaft 52 and the weight 53.

55 is a spring, one end of which is the shaft 5
0, and the other end is engaged with a shaft 56 provided on the outer side surface of the case 51 located closer to the weight 53 than the position where the valve shaft 54 is supported.

The case 51 is a water level sensor 37.
And its lower end is fixed to a sensor case (not shown) that is embedded and fixed in a field, for example.

In the above embodiment, the valve body 12 is connected to the diaphragm 13. However, the structure is not limited to this. The valve body 12 is connected to the piston, and the cylinder for accommodating the piston has a primary pressure chamber. May be formed.

The operation of the automatic water supply system of the present embodiment having the above structure is as follows. FIG. 1 shows a state in which the automatic water supply device is open (solid line portion in the figure).

In the figure, the fluid reaching the inlet channel 3 is
It passes through the opening 6, the valve chamber 5, and the outlet flow path 4, and flows out from the joint 8.

On the other hand, a part of the fluid that has reached the inlet flow path 3 flows through the minute gap of the spring 33 of the filter element 30 and flows through the water conduit 36 from the flow path 31 of the adapter 32, which is opened to the atmosphere. From the inlet port 46 of the valve 43 to the inside of the valve 43, from the inlet port 47 to the water guide pipe 36 and the communication hole 28 provided in the bonnet 15 to reach the internal space 26 of the cylinder 21, and further from the communication hole 27 to the primary pressure chamber 19 (However, the valve 49 in the atmosphere release valve 43
Is closed).

However, as apparent from the figure, since the valve 49 is in the open state, the fluid flowing in the atmosphere release valve 43 is discharged from the atmosphere release port 48 to the outside. Therefore, the pressure P ₁ ′ in the primary pressure chamber 19 is extremely reduced and becomes smaller than the pressure P ₁ on the upstream side of the opening 6, and the valve body 12 is pushed upward by the action of the pressure P ₁ to automatically feed water. The device is open.

On the contrary, when the valve 49 in the atmosphere opening valve 43 is closed and the atmosphere opening port 48 is closed, the pressure P ₁ directly acts on the primary pressure chamber 19, so that P ₁ ′ = P ₁ .
Since the effective pressure receiving area of the diaphragm 13 is much larger than the pressure receiving area of the valve body 12, the valve body 12 moves downward and is pressed by the valve seat 7, and the automatic water supply device is closed (dotted line in the figure). .

Next, the operation of the filter element 30 and the piston type backwash device 20 will be described.

As described above, the filter element 3
The spring 33 of 0 acts to remove dust, foreign matter, etc. in the fluid by allowing the fluid to pass through the minute gap between the coils.

However, fine sludge or the like passes through this gap, and the water conduit 36, the inside of the atmosphere release valve 43, and the communication hole 27.
And 28 and are accumulated. If the automatic water supply device is idled or closed for a long period of time, the accumulated sludge and the like solidify and prevent the smooth supply of the fluid in the water conduit or the like.

Further, since relatively large foreign matters and the like adhere to the outer peripheral surface of the spring 33, the filtration area is reduced due to the accumulation of the foreign matters and the like for a long period of time, and the supply of the fluid into the water conduit 36 and the like is blocked. It In this way, if the supply of the fluid is blocked, the automatic water faucet will be in a malfunction state, and as a result, the automatic water supply to the fields and the like will not be performed.

In order to prevent this, the handle 23 of the piston type backwashing device 20 is periodically moved up and down by human power or the like to force the fluid in the internal space 26 of the cylinder 21 to flow back to the inlet passage 3. By doing so, the sludge and the like in the water conduit 36 and the like can be reliably removed. Further, foreign matter and the like attached to the outer peripheral portion of the spring 33 of the filter element 30 can be simultaneously removed by the backflow water (mainly when the valve 49 is in the closed state).

Needless to say, in order to make this effect effective, it is preferable that the internal space 26 of the cylinder 21 does not have air traps or the like. Therefore, it is necessary to completely bleed the internal air by loosening the air bleeding valve 29 at the start of operation and periodically.

Next, the operation of the water level sensor 37 will be described. In the figure, the portion shown by the solid line (water level A) shows a state in which the water level is gradually rising. When the water level rises to reach B, the float 39 comes into contact with the upper stopper 40 and pushes the float guide 38 upward by the action of buoyancy, so that the arm 42 connected to the float guide 38 moves the fulcrum shaft 52 to the fulcrum shaft 52. It rotates counterclockwise around the center, and accordingly, the valve shaft 54 and the valve 49 are moved downward to close the atmosphere opening port 48.
Therefore, the automatic water supply device is in the closed state, the water supply is stopped, and the water level is stopped in the state of B. At this time, since the float 39 is loosely fitted in the float guide 38,
Float guide 38 until it reaches the upper stopper 40
Has no effect on. Therefore, in the process of rising the water level, the water level sensor itself does not detect even a momentary fluctuation of the water level due to the action of strong wind or the like, and it is possible to prevent the so-called hunting phenomenon from occurring.

On the contrary, when the water level begins to descend from the state of B and reaches the state of C, the float 39 moves to the lower stopper 41.
The float 39 and the float guide 38.
The arm 42 is rotated rightward because it is moved downward under the effect of the load. Arm 4 with it
The valve body 49 interlocked with 2 moves upward, and the atmosphere opening port 48 is opened. Therefore, as is clear from the above description, the automatic water supply device is in the open state, the water level C is stopped from lowering, and starts to rise again toward the upper limit water level B.

When the arm 42 is rotated, the arm 4
The radius of rotation of the shaft 50 about the second fulcrum shaft 52 is smaller than the radius of rotation of the shaft 50 about the shaft 56 with which the spring 55 engages, and the locus of rotation is that of the rotation about the shaft 56. Because it is configured to come outside the trajectory,
The spring 55 has the minimum extension at the uppermost position or the lowermost position of the float guide 38 and the longest in the middle thereof. Therefore, when the float guide 38 passes the middle of this, the arm 42 is forcibly rotated to the uppermost position by the action of the spring 55, and conversely, when the float guide 38 comes a little below the middle, It is forcibly rotated to the lowest position by the action of the spring 55. Therefore, the float guide 38 is always located at the upper limit position or the lower limit position and is not located in the middle thereof, so that the operation of the automatic water supply device becomes more reliable.

Further, the weight 53 adjusts the balance with the total weight of the float guide 38, the stoppers 40 and 41, and the float 39, so that the opening / closing operation of the valve 49 which is interlocked with the vertical movement of the float guide 38 is made more reliable. Acts like.

Next, when it is desired to raise or lower the upper limit water level B, the thumbscrew 44 of the upper stopper 40 is used.
Is loosened and the stopper 40 is moved upwards or downwards, and the thumbscrew 44 is tightened and fixed to set it arbitrarily.

When the setting of the lower limit water level C is changed, it can be arbitrarily set by loosening the thumbscrew 45 of the lower stopper 41 and moving the stopper 41 upward or downward to fix it.

Further, by increasing the distance between the stoppers 40 and 41, the distance between the upper limit water level B and the lower limit water level C can be increased. That is, the water supply interval can be extended in so-called automatic intermittent irrigation.

On the contrary, by making the interval between the stoppers 40 and 41 small, the interval between the upper limit water level and the lower limit water level can be made small, and the water supply interval of the automatic intermittent irrigation can be shortened.

In this way, the water level detection and automatic water supply according to the water level fluctuation are performed. When it is desired to increase or decrease the water supply amount, the stroke limiter 18 is pivotally fixed upward or downward to change the fully open position of the valve body 12 up and down.

Since the L-shaped joint attached to the outlet passage of the main body 1 is rotatable, water can be supplied in any direction according to the water supply conditions, and various adapters etc. can be attached to the tip. It is possible to divide water according to the application.

Further, by disposing a switching valve in the water conduit 36, etc., the automatic water supply apparatus can be operated in an automatic operation mode and manually opened.
A switching function such as a closed mode can be provided.

[0048]

The following effects can be obtained by using the automatic water supply device of the present invention having the structure as described above.

1. Automatic water supply to the fields will be stable for a long time. 2. The operation of the piston type backwashing device does not cause malfunctions due to the adhesion and solidification of sludge and foreign matter. 3. Automatic intermittent irrigation can be performed by simple operation, and water supply interval can be set arbitrarily. 4. Since the structure of the water level sensor is simple, it can be manufactured at an extremely low cost and can be compactly configured as an automatic water supply device. Therefore, it does not take up a space when it is attached to a paddy field, and there is no trouble such as damage due to collision with a cultivator or the like.

[Brief description of drawings]

FIG. 1 is a longitudinal sectional view of a main part showing an embodiment of an automatic water supply device of the present invention.

[Explanation of symbols]

 1 ... Angle valve type valve body 3 ... Inlet channel 4 ... Outlet channel 5 ... Valve chamber 12 ... Valve body 13 ... Diaphragm 15 ... Bonnet 19 ... Primary pressure chamber 20 ... Piston type backwash device 30 ... Filter element 33 ... Spring 36 ... Water pipe 37 ... Water level sensor 38 ... Float guide 39 ... Float 40 ... Float stopper 43 ... Atmosphere release valve (control valve) 49 ... Valve

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[Procedure amendment]

[Submission date] September 1, 1993

[Procedure Amendment 1]

[Document name to be amended] Statement

[Correction target item name] 0013

[Correction method] Change

[Correction content]

Reference numeral 15 is a bonnet, and the diaphragm 13 is clamped and fixed to the flange portion 17 on the upper portion of the main body 1 through a support 16 which is located above the valve chamber 5 and holds the valve shaft 14, and at the center portion. A stroke limiter 18, which slidably holds the valve shaft 14, penetrates and is screwed, and a primary pressure chamber 19 is formed between the stroke limiter 18 and the diaphragm 13. Reference numeral 57 is an air vent valve provided on the upper surface of the bonnet 15. The air vent valve 57 functions to automatically discharge the air remaining in the primary pressure chamber 19 or the air that has flowed in together with the fluid to the outside of the bonnet 15, that is, to the outside air.
The structure is such that the inflow of air from the outside of 5 is blocked. When air is accumulated in the primary pressure chamber 19, the response operation of the diaphragm or the piston corresponding to the change in water pressure becomes dull, so that it is provided to remove the air from the bonnet 15. Incidentally, instead of the air vent valve 57, a simple structure having a plug attached may be used to manually vent the air.

[Procedure Amendment 2]

[Document name to be amended] Statement

[Correction target item name] 0028

[Correction method] Change

[Correction content]

On the other hand, a part of the fluid that has reached the inlet flow path 3 flows through the minute gap of the spring 33 of the filter element 30 and flows through the water conduit 36 from the flow path 31 of the adapter 32, which is opened to the atmosphere. From the inlet port 46 of the valve 43 to the inside of the valve 43, from the inlet port 47 to the water guide pipe 36 and the communication hole 28 provided in the bonnet 15 to reach the internal space 26 of the cylinder 21, and further from the communication hole 27 to the primary pressure chamber 19 (However, the valve 49 in the atmosphere release valve 43
Is blocking the air release port 48). At this time,
The air remaining in the primary pressure chamber 19 is discharged to the outside of the bonnet 15 from the air vent valve 57 by the pressure of the fluid.

[Procedure 3]

[Document name to be amended] Statement

[Name of item to be corrected] 0029

[Correction method] Change

[Correction content]

However, as apparent from the figure, since the valve 49 opens the atmosphere opening port 48, the fluid flowing in the atmosphere opening valve 43 is discharged from the atmosphere opening port 48 to the outside. Therefore, the pressure P ₁ ′ in the primary pressure chamber 19 is extremely reduced and becomes smaller than the pressure P ₁ on the upstream side of the opening 6, and the valve body 12 is pushed upward by the action of the pressure P ₁ to automatically feed water. The device is open.

[Procedure amendment 4]

[Document name to be amended] Statement

[Name of item to be corrected] 0030

[Correction method] Change

[Correction content]

On the contrary, the valve 49 in the atmosphere release valve 43 opens to the atmosphere.
If the discharge port 48 is closed, the pressure P ₁Is the primary pressure chamber 1
Acts on 9, so P₁′ = P₁Becomes Diaphragm
The effective pressure receiving area of 13 is much larger than the pressure receiving area of the valve body 12.
Is large, the valve body 12 moves downward and is pressed against the valve seat 7.
The automatic water supply device is closed (dotted line in the figure).

[Procedure Amendment 5]

[Document name to be amended] Statement

[Correction target item name] 0035

[Correction method] Change

[Correction content]

In order to prevent this, the handle 23 of the piston type backwashing device 20 is periodically moved up and down by human power or the like to force the fluid in the internal space 26 of the cylinder 21 to flow back to the inlet passage 3. By doing so, the sludge and the like in the water conduit 36 and the like can be reliably removed. Further, foreign matters and the like attached to the outer peripheral portion of the spring 33 of the filter element 30 can be simultaneously removed by the backflow water (when the valve 49 closes the atmosphere opening port 48).

[Procedure correction 6]

[Document name to be corrected] Drawing

[Name of item to be corrected] Figure 1

[Correction method] Change

[Correction content]

[Figure 1]

Claims (4)

[Claims] 1. A valve body which is located at an inlet passage and an opening portion of the inlet passage and which is held by a diaphragm or a piston, and a primary pressure applied to the diaphragm or the piston and an upper portion of the diaphragm or the piston. A bonnet that forms a chamber, a water guide pipe that has one end open to the inlet flow passage located upstream of the opening and the other end opens to the primary pressure chamber, and is inserted in the middle of the water guide pipe to open the valve. An air release valve that opens the water conduit to the atmosphere and shuts off the valve when the valve is closed, and an air release valve that closes the air release valve at the upper limit water level of the controlled water in conjunction with fluctuations in the water level of the controlled water and at the lower limit water level. A water level sensor for opening the atmosphere release valve, and a piston-type backwashing device provided at a position where backflow water can flow out from the inlet passage side opening of the water conduit. Automatic water supply device. 2. The automatic water supply device according to claim 1, wherein the valve body is formed in an angle valve type, and a joint is rotatably attached to an end portion of the outlet flow passage. 3. A filter element comprising a spring for filtering a fluid through a gap between the coils and a cap for closing an upstream opening of the spring is attached to an opening on the inlet flow path side of the water conduit. The automatic water supply device according to claim 1 or 2. 4. A water level sensor is composed of a float, a float guide in which the float is loosely fitted, and a float stopper provided movably and fixedly above and below the float of the float guide, respectively. The automatic water supply device according to claim 1, wherein