JP2946011B2 - Water level control device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a water level control device for controlling a water level of a sewage tank for storing sewage discharged from a household or the like.

[0002]

2. Description of the Related Art Sewage discharged from each household is stored in a sewage tank and sent to a sewage treatment plant or the like by a submersible pump installed in the sewage tank. FIG.
FIG. 1 is a schematic view showing an example of a conventional water level control device for a sewage tank. A submersible pump 10 is disposed in the sewage tank 40, and the submersible pump 10 is controlled based on a bubble type water level gauge 20. Bubble type water level gauge 20
The compressed air supplied from the air pump 22 is supplied to the air discharge pipe 61 attached to the submersible pump 10 through the air pipe 24, and the air discharge pipe 61
Air is being discharged from.

The air discharge pipe 61 is attached to the submersible pump 10 in a vertical state, and air is discharged from a lower end surface thereof. The air pipe 24 is provided with a pressure switch 27 for detecting a pressure change of the air in the air pipe 24. When the air discharge pipe 61 is immersed in the sewage stored in the sewage tank 40, the air discharged from the air discharge pipe 61 into the sewage becomes bubbles in the sewage.

When the sewage is at a high water level, a high air pressure is required to discharge air from the air discharge pipe 61. Conversely, when the sewage is at a low water level,
In order to discharge air from the air discharge pipe 61, only a low air pressure is required. The pressure switch 27 detects such a pressure fluctuation of air in the air pipe 24, and the pressure switch 27 detects that the sewage has reached a predetermined high water level and the inside of the air pipe 24 has reached a predetermined high pressure. Upon detection, the submersible pump 10 is driven. Thereby, the sewage in the sewage tank 40 is discharged, and the water level of the sewage drops. Then, the pressure switch 27 detects that the sewage has reached a predetermined low water level slightly above the lower end surface of the air discharge pipe 61 and the inside of the air pipe 24 has reached a predetermined low pressure.
Is detected, the driving of the submersible pump 10 is stopped.

[0005]

In such a water level control device, since the air discharge pipe 61 of the bubble type water level gauge 20 is directly attached to the submersible pump 10, the water level at which the submersible pump 10 is stopped is determined. When the level is changed or adjusted, the mounting position of the air discharge pipe 61 with respect to the submersible pump 10 must be changed. Since the submersible pump 10 is installed in the sewage tank 40, when changing and adjusting the attachment position of the air discharge pipe 61 with respect to the submersible pump 10, the submersible pump 10 is pulled up from the sewage tank 40, Must enter the sewage tank 40, and there is a problem in workability. Further, since the air discharge pipe 61 is held by an appropriate connecting member attached to the submersible pump 10,
The mounting position of the air discharge pipe 61 cannot be largely changed, and the water level for controlling the submersible pump cannot be significantly changed.

In some cases, a plurality of submersible pumps 10 are installed in the sewage tank 40. In this case, only one submersible pump is provided with an air discharge pipe.
For this reason, if the submersible pump to which the air discharge pipe is attached is pulled up from the sewage tank for maintenance or the like, it becomes impossible to control other submersible pumps.

The present invention has been made to solve such a problem, and an object of the present invention is to easily change and adjust the control water level of a submersible pump, and to significantly change the control water level. Another object of the present invention is to provide a water level control device capable of controlling a plurality of submersible pumps without any trouble.

[0008]

The water level control device of the present invention discharges air supplied from an air pump through an air pipe from an air discharge pipe disposed in a water storage tank, and the air is discharged. Is provided with a water level gauge that detects the water level in the water tank based on pressure fluctuations in the air pipe while the water pipe is installed in the water tank, for example, based on the pressure fluctuation in the air pipe in the water level gauge. An automatic operation water level control device in which a pump is controlled, wherein the air discharge pipe is separated from the submersible pump, and is independently suspended and disposed in a water storage tank. Thereby, the above object is achieved.

[0009]

According to the water level control device of the present invention, when the pressure in the air pipe reaches a predetermined high pressure while the air is discharged from the air discharge pipe suspended from the submersible pump in the water storage tank, the water is controlled. The pump is driven, and the water level in the water storage tank decreases. Then, when the pressure in the air pipe becomes a predetermined low pressure while the air is being discharged from the air discharge pipe, the driving of the submersible pump is stopped. The air discharge pipe is
By changing the suspension length in the water storage tank, the air discharge position is changed.

[0010]

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a schematic diagram showing an example of a water level control device of the present invention, and FIG. 2 is an enlarged view of a main part thereof. The water level control device of the present invention includes a submersible pump 10 installed on the bottom of a sewage tank 40 for temporarily storing sewage discharged from homes and the like, and a bubble type water level meter 20 for detecting a water level in the sewage tank 40. And The submersible pump 10 pumps up the sewage in the sewage tank 40 and sends it to a sewage treatment plant or the like.

The bubble type water level gauge 20 includes an air discharge pipe 21 arranged separately from the submersible pump 10 and a pipe joint 26.
And an air pump 22 for supplying air to the air discharge pipe 21 through air pipes 23 and 24 connected by the pump. The air discharge pipe 21 is provided in the sewage tank 40.
Hooked on a hook 41 attached to the inner surface of the sewage tank 40 so that it is immersed in
Hanged by. This air discharge pipe 21
Is separated from and independent of the submersible pump 10, and when immersed in sewage, becomes vertical due to its own weight. Has become.

As shown in FIG. 2, a stopper 29 is attached to the tip of the chain 29 for suspending the air discharge pipe 21. The stopper 28 is engaged with any part of the chain 29 to lock it. The ring-shaped portion is hooked on the hook 41 to form the ring-shaped sewage tank 4.
The chain 29 is suspended at zero. The hanging length of the chain 29 hooked on the hook 41 is changed by changing the locking position of the stopper 28 to the chain 29, and the air discharge pipe 21 in the sewage tank 40 is changed.
Height position is changed.

As shown in FIG. 1, the air discharge pipe 21 in a vertical state discharges compressed air supplied from an air pump 22 through air pipes 23 and 24 from its lower end face. When the lower end surface of the air discharge pipe 21 is immersed in the sewage, the air discharge pipe 2
The air discharged from the lower end surface of No. 1 becomes bubbles in the sewage.

An air pipe 25 is further connected to a pipe joint 26 connecting the air pipes 23 and 24, and a pressure switch 27 is connected to the air pipe 25. The pressure switch 27 includes an air pump 22
Is supplied to the air discharge pipe 21 in a branched manner, and the pressure switch 27 detects the pressure in the air pipe 25. Then, the submersible pump 10 is controlled based on the detection result of the pressure switch 27.

The air supplied from the air pump 22 and discharged from the lower end surface of the air discharge pipe 21 is in a state where pressure is applied by the sewage when the lower end surface of the air discharge pipe 21 is immersed in the sewage. In order to discharge air from the air discharge pipe 21, a high pressure is required. Therefore, in this case, the air pipes 23, 2
The air in 4 and 25 is at high pressure. Moreover, the higher the water level of the sewage, the more the air pipes 23, 24 and 25
High pressure is applied to the air inside. On the other hand, when the water level of the sewage decreases and the difference between the lower end surface of the air discharge pipe 21 and the sewage level decreases, a low pressure is sufficient to discharge air from the air discharge pipe 21. In this case, the air in the air pipes 23, 24, and 25 has a low pressure.

When the pressure switch 27 detects that the water level of the sewage has reached a predetermined height and the air pressure in the air pipes 23, 24 and 25 has exceeded a predetermined value, the pressure switch 27 drives the submersible pump 10 and When the water level of the sewage drops to a position slightly above the lower end surface of the air discharge pipe 21 and the air pressure in the air pipes 23, 24 and 25 drops below a predetermined value, the drive of the submersible pump 10 is stopped. It has become.

The water level control device having such a configuration operates as follows. In the sewage tank 40, sewage discharged from homes and the like flows in and is stored, and the stored sewage includes:
Air supplied from the air pump 22 is blown from the air discharge pipe 21. When the amount of sewage in the sewage tank 40 increases, the pressure applied to the air discharged from the air discharge pipe 21 increases, and the air pressure in the air pipes 23, 24, and 25 increases. When the sewage in the sewage tank 40 reaches a predetermined water level, the air pressure in the air pipes 23, 24, and 25 reaches a predetermined value, and the pressure switch 27 determines that the air pressure has reached a predetermined high pressure. To detect. Thereby, the submersible pump 10 is driven and the sewage in the sewage tank 40 is discharged.

When the sewage is discharged from the sewage tank 40 by driving the submersible pump 10, the water level of the sewage in the sewage tank 40 decreases. When the water level of the sewage reaches a position slightly above the lower end surface of the air discharge pipe 21, the air pipe 2
The air pressure in 3, 24, 25 decreases and the pressure switch 27 detects that the air pressure has reached a predetermined low pressure. Thereby, the driving of the submersible pump 10 is stopped.

When a plurality of submersible pumps 10 are arranged in the sewage tank 40, the submersible pumps 10 are alternately operated based on the detection result of the pressure switch 27. In this case, since the air discharge pipe 21 is in a state independent of each submersible pump 10, even if it is pulled up from the sewage tank 40 due to failure of each submersible pump 10, etc.
The other submersible pump 10 is driven without any trouble.

When changing and adjusting the water level of the sewage in which the submersible pump 10 is stopped, the length of the suspension of the chain 29 suspending the air discharge pipe 21 may be adjusted. Therefore, the control water level by the submersible pump 10 can be easily changed and adjusted, and the control water level can also be largely changed.

[0021]

As described above, the water level control device of the present invention
Since the air discharge pipe of the bubble type water level meter is suspended in the water tank independently of the submersible pump, by changing the suspension height of this air discharge pipe in the water tank, The control water level of the submersible pump can be easily and significantly changed. Moreover, even when a plurality of submersible pumps are installed, each submersible pump can be independently controlled without any trouble.

[Brief description of the drawings]

FIG. 1 is a schematic diagram showing an example of a water level control device of the present invention.

FIG. 2 is an enlarged view of a main part thereof.

FIG. 3 is a schematic diagram showing a conventional water level control device.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 10 Submersible pump 20 Bubble type water level gauge 21, 61 Air discharge pipe 22 Air pump 23 Air pipe 24 Air pipe 25 Air pipe 26 Fitting 27 Pressure switch 28 Stopper 29 Chain 40 Sewage tank 41 Hook

Claims (1)

(57) [Claims] An air supplied from an air pump through an air pipe is discharged from an air discharge pipe arranged in a water storage tank, and based on a pressure change in the air pipe while the air is being discharged. An automatic operation water level control device is provided with a water level meter for detecting a water level in a water storage tank, for example, a submersible pump installed in the water storage tank is controlled based on a pressure change in an air pipe in the water level meter. The water level control device, wherein the air discharge pipe is separately suspended from the submersible pump in a state of being separated from the submersible pump.