JP2013002330A - Residual water treating pump - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a residual water treating pump capable of automatically stopping operation of a pump in a shortage of water.SOLUTION: This residual water treating pump includes a body part, a hose drawn from the body part, and a suction part arranged on the tip of the hose, and is characterized by arranging a water level sensor for controlling the operation of the pump, by detecting a water level of the pump periphery.

Description

  The present invention relates to a residual water treatment pump for discharging surplus water generated at a construction site or the like.

One type of submersible pump is a residual water treatment pump.
The residual water treatment pump is a pump that takes the form of a so-called vacuum cleaner, extends a hose from a main body provided with a motor or the like, and provides a substantially funnel-shaped water inlet at the tip of the hose. It is a pump that pumps the remaining water from.
The remaining water treatment pump is generally used by transporting the pump to a place where pumping work processing is necessary at a relatively small site.

  The product of the following nonpatent literature 1 is known for the general residual water treatment pump.

http://www.shinmaywa.co.jp/pump/products/pdf/bvr.pdf

However, the conventional residual water treatment pump may have at least one of the following problems.
(1) If a drought phenomenon occurs at the water absorption location, the motor inside the main body may burn out.
(2) Motor noise inside the pump during operation causes noise.
(3) The waste of power consumption is large.
(4) In order to avoid the problems (1) to (3) above, it is necessary for the worker to always check by the side.

  Therefore, an object of the present invention is to provide a residual water treatment pump that can automatically stop the operation of the pump when drought occurs.

  The first invention of the present application is a residual water treatment pump comprising a main body portion, a hose extending from the main body portion, and a suction portion provided at the tip of the hose, detecting a water level around the pump, The present invention provides a residual water treatment pump provided with a water level sensor for controlling the operation of the pump.

  According to a second invention of the present application, in the above invention, the water level sensor detects the energization between the set of electrodes arranged around the suction portion and the set of electrodes, and controls the operation of the main body portion. And a control device, wherein the tip position of one of the pair of electrodes is configured to be adjustable.

  A third invention of the present application is characterized in that, in the above invention, the tip of the other electrode of the set of electrodes is constituted by a nut, and the nut is screwed and positioned to a bolt exposed from the suction portion. It is what.

According to the present invention, any one of the following effects can be obtained.
(1) The drought phenomenon at the water absorption point is avoided as much as possible, which contributes to longer pump life.
(2) Since excessive operation of the pump is suppressed, unnecessary noise can be prevented.
(3) Power consumption can be saved.
(4) A worker who monitors the drought condition is unnecessary and can be unmanned.
(5) It is easy to adjust the water level detection level.

Schematic which shows the structure of the residual water treatment pump of this invention. The elements on larger scale around the suction part of the residual water treatment pump of this invention. The partial schematic which shows the other Example of the residual water treatment pump of this invention.

  Hereinafter, an embodiment of the residual water treatment pump of the present invention will be described with reference to FIG.

<1> Overall Configuration FIG. 1 is a schematic diagram showing a configuration of a residual water treatment pump according to the present invention.
The residual water treatment pump A of the present invention controls the operation of the main body 1, the hose 2 extending from the main body 1, the suction part 3 provided at the tip of the hose 2, and the pump (main body 1). And a water level sensor 4 for at least.
Since the main body 1 and the hose 2 may use each component of a known residual water treatment pump, detailed description and illustration are omitted.

<2> Suction Part FIG. 2 is a partially enlarged view around the suction part of the residual water treatment pump of the present invention.
The suction part 3 is a member for collecting and pumping up surrounding water.
The suction part 3 in the present embodiment includes at least a substantially funnel-shaped lid body 31, a water inlet 32 provided at the bottom of the lid body 31, and a bolt 33 for fixing the lid body and the hose. .

The lid 31 is provided with a water absorption groove 311 for guiding residual water from the vicinity of the suction portion to the hose 2.
The shape of the lid 31 is not limited to the present embodiment, and various shapes can be employed in consideration of on-site handling.

The water inlet 32 is a flat plate member provided with a large number of water passage holes.
By screwing a bolt 33 into a screw hole provided in the water suction port 32, the hose 2 and the suction part 3 can be connected, and the remaining water can be pumped to the hose 2 through the water passage hole.

  At this time, a part of the bolts 33 may have a length longer than the necessary length. If it does in this way, the volt | bolt 33 can be shared not only with the connection of the hose 2 and the suction part 3, but the member for positioning of the electrode 41 mentioned later.

<3> Water Level Sensor The water level sensor 4 is a member for detecting the water level around the pump and controlling the operation of the pump.
The water level sensor 4 is composed of a pair of electrodes 41 and 42 arranged around the suction part 3 and a control device 43 that controls the operation of the main body 1 by detecting energization between the pair of electrodes. To do.

(1) One set of electrodes The one set of electrodes 41 and 42 is a member for detecting the presence or absence of water by the presence or absence of energization between both electrodes (41 and 41).
The pair of electrodes 41 and 42 are provided so as to be energized from the control device 43, and are arranged apart from each other.
When water is present in the separated space, the electrodes are energized through the water. On the other hand, when there is no water in the separated space, the two electrodes are not energized.

[Example]
In the present invention, the pair of electrodes 41 and 42 may be appropriately arranged according to the water level to be detected, and the arrangement form is not particularly limited.
In principle, the present invention is in a non-energized state when the water level drops below the height of the electrode at the higher position of the pair of electrodes 41, 42. If the height of the electrode can be adjusted, the water level to be detected can be controlled.
In the embodiment shown in FIG. 2, a nut 411 is provided at the tip of one electrode 41 of the set of electrodes, and is screwed into the bolt 33 exposed from the suction portion 3 to obtain a predetermined location. Is positioned.

[Configuration example]
As described above, when adjusting the water level to be detected, it is desirable that the height of the tip position of at least one of the electrodes is arbitrarily adjustable.
In the embodiment shown in FIG. 2, the height H in the vicinity of the tip of the other electrode 42 of the set of electrodes is an adjustable mechanism.
As the method, the vicinity of the tip 421 of the other electrode 42 may be a bent portion 422 formed with a known bendable mechanism including a wire.

(2) Control Device The control device 43 is a device that controls the operation (operation or stop) of the pump based on the energized / non-energized state between the pair of electrodes 41 and 42.
In the energized state, the pump operating state is started (maintained).
In the non-energized state, the operation state of the pump is changed to the stop direction.
The stop direction refers to a process in which the pump is not stopped immediately but is stopped when the non-energized state is maintained for a certain time.
Such a process is beneficial in that the pump can be prevented from being frequently switched on and off when the water level changes near the boundary between the energized and de-energized states, and pump failure can be prevented.
The attachment position of the control device 43 may be any location such as inside or outside of the main body 1 and is not particularly limited.

[Other Examples]
FIG. 3 is a partial schematic view showing another embodiment of the residual water treatment pump of the present invention.
The set of electrodes 41 and 42 of the present invention can be spirally wound around the hose 2 as shown in FIG. At this time, a method of providing a spiral groove on the outer periphery of the hose 2 and winding the hose 2 along the spiral groove may be employed.

DESCRIPTION OF SYMBOLS 1 Main-body part 2 Hose 3 Suction part 31 Cover body 311 Water absorption groove 32 Water inlet 33 Bolt 4 Water level sensor 41 Electrode 42 Electrode 421 Tip part 422 Bending part 43 Control device

Claims (3)

A residual water treatment pump comprising a main body part, a hose extending from the main body part, and a suction part provided at the tip of the hose,
A residual water treatment pump comprising a water level sensor for detecting the water level around the pump and controlling the operation of the pump. The water level sensor is composed of a set of electrodes arranged around the suction portion, and a control device that detects the energization between the set of electrodes and controls the operation of the main body portion,
The residual water treatment pump according to claim 1, wherein a tip position of one of the pair of electrodes is configured to be adjustable. The residual water according to claim 2, wherein a tip of the other electrode of the pair of electrodes is constituted by a nut, and the nut is screwed and positioned with a bolt exposed from the suction portion. Processing pump.

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