JPH04161296A - Air bubble generator - Google Patents

Abstract

PURPOSE:To obtain an air bubble generator capable of facilitating installation work and maintenance and obtaining large aeration effect by allowing the other end of a suction pipe protruding from the surface of the water at one end thereof to face to the suction port of a submerged pump. CONSTITUTION:An air bubble generator is constituted of a submerged pump 1 equipped with the impeller 5 rotationally driven by a motor 2 and feeding the water sucked from a water suction port 3 to an emitting orifice 4 and a suction pipe 6. The other end of the suction pipe 6 allowed to protrude from the surface of the water at one end thereof is allowed to face to the suction port 3 of the submerged pump 1. As a result, an air bubble generator capable of facilitating installation work and maintenance and obtaining large areation effect can be obtained.

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Field of Application] The present invention relates to a bubble generator that generates bubbles using a submersible pump.

[Prior Art] Conventionally, as a method of supplying oxygen to water in aquariums, ponds, etc., there are underwater aeration methods in which air bubbles are generated in water using a compressor or blower, and a method in which aeration is carried out using the injector effect of pump water pressure. There is. In these bubble generation methods, underwater piping and aeration pipes are placed underwater.

MHE that the invention aims to solve However, in the above-mentioned conventional example, there are problems in that the work of installing underwater piping and arranging aeration pipes is troublesome, and maintenance requires a lot of cost and time. Ta.

In addition, since air is ejected into the water from the nozzle hole, the particle size of the generated air bubbles becomes large, reducing the gas-liquid contact area and contact time, so a large aeration effect (oxygen dissolution efficiency) is expected. The problem was that I couldn't do it.

The present invention has been made in view of the above-mentioned points, and its purpose is to provide a bubble generator that can be easily installed and maintained, and that can provide a large aeration effect.

[Means for Solving the Problems] The bubble generator of the present invention includes a submersible pump that is rotatably driven by a motor and equipped with an impeller that pumps water sucked in from a water inlet toward a water outlet, and an intake pipe. One end of the intake pipe projects above the water surface, and the other end faces the water intake of the submersible pump.

[Function] The present invention is configured as described above, and includes a submersible pump that is rotatably driven by a motor and equipped with an impeller that pumps water drawn from the water intake port toward the water outlet, and an intake pipe. , One end of the intake pipe protrudes above the water surface, and the other end of the intake pipe is connected to the water intake port of the submersible pump 8. It is small,
There is no need to install submersible piping or air diffuser pipes, making installation work and maintenance easy. Furthermore, since water and air are mixed and stirred by the impeller, the particle size of air bubbles is reduced and the air-liquid contact area is reduced. As the value increases, the contact time becomes longer and a greater aeration effect can be obtained.

Furthermore, if the impeller is provided with a large number of pores, the ultrasonic waves generated by cavitation will promote mixing and agitation of water and air, resulting in a greater aeration effect.

[Embodiment] FIG. 1 shows an embodiment of the present invention, in which a submersible pump 1 is provided with an impeller 5 that is rotationally driven by a motor 2 and pumps water sucked in from a water intake port 3 toward a water outlet 4.
and an intake vibro, with one end protruding above the water surface and the other end facing the water intake port 3 of the submersible pump 1. In the embodiment, an air adjustment valve is installed at one end of the intake vibro. There are 8. Further, the impeller 5 attached to the rotating shaft 2a of the motor 2 is provided with a large number of pores 5a. Note that the size of the water inlet 3 is set smaller than the size of the water outlet 4, so that the foreign matter sucked in can be smoothly discharged.

In the figure, reference numeral 7 denotes a case with a waterproof structure, which is provided with pipe portions 7a on the side and bottom surfaces, and is suspended by rows 19. Further, 10 is a power supply line to the motor 2.

The operation of the embodiment will be described below. Now, in the submersible pump 1, an impeller 5 is rotationally driven by a motor 2, so that water is sucked in from a water intake port 3 and discharged from a water discharge port 4.

Here, since one end of the suction vibro has one end protruding above the water surface and the other end faces the water intake port 3 of the submersible pump 1 (via the pipe section 7a of the main body case 7), water is sucked in at the same time. Air is also sucked in and mixed and stirred by the rotation of the impeller 5, causing turbulence and cavitation to reduce the particle size of the bubbles. Therefore, as the gas-liquid contact area becomes larger and the contact time becomes longer, a large aeration effect can be obtained, and the water outlet 4 of the submersible pump l
Cloudy water containing microscopic air bubbles will be spewed out. Furthermore, if a large number of pores 5a are provided in the impeller 5, larger ultrasonic waves are generated due to the cavitation phenomenon, promoting mixing and agitation of water and air (making them more fine particles), and further improving the aeration effect (conventional example). This results in an oxygen dissolution rate several times higher than that of the oxygen dissolution rate.

Furthermore, if too much air is introduced into the submersible pump 1, the pump function will be reduced (the lift amount will be reduced), so it is necessary to adjust the amount of air sucked in by the air adjustment valve 8 to an appropriate amount.

On the other hand, when installing this bubble generator, it is only necessary to suspend it underwater in an aquarium, pond, etc., and there is no need to arrange special underwater piping or air diffuser pipes as in conventional examples, and there is no need for installation work (or This means that maintenance and removal work can be done easily.

[Effects of the Invention] The present invention is constructed as described above, and is composed of a submersible pump that is rotatably driven by a motor and equipped with an impeller that pumps water sucked in from the water intake port toward the water outlet, and an intake pipe. One end of the intake pipe protrudes above the water surface, and the other end faces the water intake of the submersible pump.There is no need to install submersible piping or air diffuser pipes, and installation work and maintenance are easy. Moreover, since the water and air are mixed and stirred by the impeller, there are advantages in that the particle size of the bubbles becomes smaller, the gas-liquid contact area becomes larger, and the contact time becomes longer, resulting in a greater aeration effect.

Furthermore, if the impeller is provided with a large number of pores, the ultrasonic waves generated by cavitation will promote mixing and agitation of water and air, resulting in a greater aeration effect.

[Brief explanation of the drawing]

FIG. 1 is a sectional view of one embodiment of the present invention. 1 is a submersible pump, 2 is a motor, 3 is a water inlet, 4 is a water outlet, 5 is an impeller, 5a is a pore, 6 is an intake pipe, and 8 is an air adjustment valve.

Claims (2)

[Claims] (1) Consists of a submersible pump that is rotatably driven by a motor and equipped with an impeller that pumps water sucked in from the water inlet toward the water outlet, and an intake pipe, with one end protruding above the water surface. A bubble generator characterized by having its end facing the water inlet of a submersible pump. (2) The bubble generator according to claim 1, wherein the impeller is provided with a large number of pores.