KR101367695B1 - Micro-bubble generator using multistage pump - Google Patents

Abstract

The present invention provides a housing having a plurality of rotary impellers arranged on a rotating shaft of a motor, a plurality of fixed chambers stacked between the rotary impellers, a suction port for receiving them and a discharge port for discharging the fluid. An air supply flow path into which the outside air is sucked is introduced into the multistage pump, and the outside air is self-suppressed by the rotational force of the rotary impeller. The present invention provides a microbubble generating device using a multi-stage pump in which a microbubble is discharged through a discharge hole by finer mixing of water and air due to a change in pressure caused by holes and blow plates.
To this end, the present invention, a plurality of rotary impeller 13 arranged on the rotary shaft 12 of the motor 11, a plurality of fixed chamber 14 is laminated between the rotary impeller 13, A multistage pump comprising a housing 10 having a suction port 15 through which fluid is sucked in and a discharge port 16 through which fluid is discharged, from an outer side of the housing 10 to an inner side of the housing 10. An air supply passage 20 on which one side is drawn in so that external air is self-suctioned by the rotational force of the rotary impeller 13; On the inner circumferential surface of the rotary impeller 13 is further formed a pressure plate 30 extending from the inner circumferential surface of the rotary impeller 13 and having a rotary shaft 12 and an extrusion hole 31 in which the rotary impeller 13 is formed. Characterized in that it is made.
The other side of the air supply passage 20 may be further configured to supply air supply means 40 forcibly supplying air.
In addition, the pressure plate 30 extending on the inner circumferential surface of the rotary impeller 13 may be further provided with a hole 32 through which water is strongly discharged.
In addition, the fixed chamber 14 is laminated between the multi-stage rotary impeller 13 is made of a striking plate 50 to be hit by the water discharged through the rotary impeller 13, the blow plate 50 may protrude from one surface of the fixed chamber 14 to extend integrally, or one surface 51 may be welded to one surface of the fixed chamber 14 by welding.

Description

Micro bubble generator using multi-stage pump {MICRO-BUBBLE GENERATOR USING MULTISTAGE PUMP}

The present invention relates to a microbubble generating device, and more particularly to a microbubble generating device for generating microbubbles using a multistage pump having a plurality of chambers and a rotary impeller.

In general, a multi-stage pump frame includes a rotary impeller installed in a chamber and a motor shaft fixed inside the housing and rotated by a rotational force of the motor to stack and multiply water to suck and discharge water. A drive motor is formed in the shaft, and a horizontal axis using a coupling is formed.

In addition, a plurality of rotating bodies formed with a body, a fan, and a cover are formed in the axial direction on the horizontal axis, and the body is cylindrical and has one side open, and a hole is formed in the center of the opposite surface to be opened. A plurality of guides and holes are formed to guide the flow of the fluid to one side to both sides of the surface, that is, to the inner side in the circumferential direction.

The fan is to add pressure to the flow of water by the centrifugal force to form a hole in the center and the guide, the cover to form a hole in the center by allowing a constant flow of fluid into the fan.

In addition, in order to fix a plurality of rotors, that is, the body and the fan on both sides, the groove is formed on one side of the shaft to insert a fixing ring, a screw formed on the opposite end is inserted into the fastening member by fastening the fastening member, The compression member has a cylindrical shape, one side of which is open, and is formed of a hole for inserting a screw formed at the end of the shaft on an opposite surface of the opening surface.

The multistage pump configured as described above is configured to suck the fluid into the housing while the impeller installed on the shaft and the axis is rotated by the rotation of the motor, and the sucked fluid is compressed in the process of passing through the chamber and the impeller stacked in multiple stages. Is gradually increased to discharge the fluid to the discharge port at high power.

Meanwhile, in order to enhance the bactericidal, bactericidal and washing ability of water used in daily life, a purifier containing water and ozone and washing devices such as vegetables and fruits are widely used. These ozones mix ozone with water. It is mainly used as ozone water, and the technology of mixing ozone and water is very important for the production of the ozone water. Recently, the gaseous method, the pressurized injector method, the venturi injector method, etc. Is being applied.

In the production method of the ozonated water, the acid method is a method of mixing ozone with water through a porous diffuser, and the pressurized injector method is a method of pressing and mixing water and ozone at the same time, the venturi injector method is a pump It is used to inhale ozone and mix it with water passing through the venturi tube.

However, these conventional devices have a problem in that they are not widely used because they lead to an increase in installation cost due to a complicated configuration, causing a great burden on the purchase cost of the consumer, and the consumer is reluctant to purchase.

That is, in the manufacturing technology of ozone water, the ozone inflow pipe into which the ozone gas is introduced is installed on the liquid inflow pipe to which water is supplied, and the liquid inflow pipe is mounted to the vortex turbine pump, so that water and ozone gas are sucked and mixed by the strong suction force. Here, the ozone gas and water are dispersed and mixed into fine particles by the impeller of the vortex turbine pump, and the ozone water is pumped from the vortex turbine pump to the pressurized melting tank through the inlet pipe to use the ozone water through the discharge pipe in the state of being produced as complete ozone water. In addition, since many other components are additionally provided in addition to the vortex turbine pump, there is a problem that the purchase cost of the consumer is greatly increased as well as the installation cost is increased.

Looking at the prior art, an air diffuser installed with a centrifugal multistage pump, which is registered utility model No. 20-0309221, has been devised, which draws and mixes the liquid and ozone gas through the liquid inlet pipe and the ozone inlet pipe with a vortex turbine pump. In the existing air dispersing apparatus, a plurality of impellers that rotate the discharge tube of the vortex turbine pump by driving of a motor are stacked in multiple stages to be coupled to a suction port of a centrifugal multistage pump repeatedly performing a suction pumping process. The inlet pipe connected to the pressurized melting tank is attached to the discharge port of the pump.

However, this technique also requires additional components in addition to the multi-stage pump by using ozone gas, which increases the installation cost and additional costs associated with the use of the supplementary cost by continuously filling the ozone gas. There is a problem.

As described above, the present invention has been developed to solve the problems of the devices generating the ionized water, the washing water, the washing water, or the beauty water, and is provided between the plurality of rotary impellers and the rotary impellers multi-stacked on the rotary shaft of the motor. The air supply path is connected to a multistage pump composed of a plurality of fixed chambers stacked and fixed so that external air is self-sufficient, and the sucked external air is mixed with water more finely as it passes through the respective parts inside the housing, and micro bubbles are discharged. It is an object of the present invention to provide a micro bubble generating apparatus using a multistage pump.

The present invention as a means for achieving the above object, a plurality of rotary impellers are arranged in multiple stages at regular intervals along the length end of the rotary shaft driven by a motor; A plurality of chambers stacked and fixed between the rotary impellers; A housing accommodating the rotary impellers and the chambers, the housing having a suction port through which the fluid is sucked in and a discharge port through which the fluid is discharged; An air supply passage for inducing and supplying outside air to the inside of the housing by the rotational force of the rotary impeller; It is formed extending from the inner circumferential surface of the rotary impeller, and provides a micro-bubble generating device using a multi-stage pump including a pressure plate formed between the rotary shaft and the suction hole through which suction fluid passes at a predetermined pressure.

The pressure plate extending on the inner circumferential surface of the rotary impeller may further be a hole through which water is strongly discharged.

In addition, the fixed chamber that is laminated between the multi-stage rotary impeller is made of a blow plate which is hit by the water discharged through the rotary impeller is further formed, the blow plate is formed protruding from one surface of the fixed chamber integrally extending One surface may be welded to one surface of the fixed chamber by welding.

The microbubble generating device using the multi-stage pump of the present invention includes a plurality of rotary impellers arranged on a rotary shaft of a motor, a plurality of fixed chambers stacked between the rotary impellers, a suction port for receiving them and inhaling fluid therefrom. An air supply flow path through which external air is sucked is introduced into a multistage pump including a housing having a discharge port through which fluid is discharged. The external air is self-sucked by the rotational force of the rotary impeller, and the sucked air is contained in the water. The pressure plate is further formed on the inner circumferential surface of the rotary impeller located on the outer surface of the rotating shaft while passing through the inside, so that the water is discharged to the narrow extrusion hole formed between the pressure plate and the rotating shaft in the process of flowing at high speed. This action makes it easier to mix the air and water absorbed through the air supply passage Loses.

In addition, the water and air are more finely mixed by the pressure generated in the process of discharging the water and air flowing at a high speed toward the narrow space side of the hole through the pressure plate.

In addition, since water and air mixed in the blow plate formed in the fixed chamber are blown at a high speed, fine microbubbles can be discharged to the discharge port configured in the housing. It is possible to reduce the installation cost by a simple configuration, and does not cause a great burden on the cost of the consumer.

1 is a block diagram showing the configuration of a micro bubble generator using the multi-stage pump of the present invention.
Figure 2 is a block diagram showing another embodiment of a micro bubble generator using a multi-stage pump using a multi-stage pump of the present invention.
Figure 3a is a block diagram showing the configuration of a pressure plate which is a component of the microbubble generating device using a multi-stage pump of the present invention.
3B is a plan view of the main components of FIG. 3A.
Figure 4a is a block diagram showing the configuration of the hole, which is a component of the microbubble generating device using the multi-stage pump of the present invention.
4B is a plan view of the main components of FIG. 4A.
Figure 5a is a block diagram showing the configuration of the blow plate, which is a component of the microbubble generating device using a multi-stage pump of the present invention.
Fig. 5B is a plan view of the main components of Fig. 5A.
Figure 6 is a block diagram showing another configuration of a micro bubble generator using the multi-stage pump of the present invention.

Hereinafter, the structure and operation of the present invention will be described in more detail with reference to the accompanying drawings. In describing the present invention, the term or word used in the present specification and claims is based on the principle that the inventor can appropriately define the concept of the term in order to best describe the invention of his or her own. It should be interpreted as meanings and concepts corresponding to the technical idea of

As shown in the present invention, the microbubble generating device using the multistage pump includes a plurality of rotary impellers 13 arranged on the rotary shaft 12 of the motor 11 and stacked between the rotary impellers 13. In the multi-stage pump composed of a plurality of stationary chambers 14, a housing 10 formed with a suction port 15 for accommodating the fluid and a discharge port 16 through which the fluid is discharged, an air supply channel 20 and a pressure plate ( 30) is made up of more.

One side of the air supply passage 20 is drawn from the outer side of the housing 10 to the inner side of the housing 10 so that external air is self-sucking by the rotational force of the rotary impeller 13.

Therefore, when the rotary shaft 12 receiving the rotational force of the motor 11 is rotated, the rotary impeller 13 built in the rotary shaft 12 rotates at a high speed by the rotational force of the motor 11, and the housing Water is sucked into the suction port 15 side of the 10.

In addition, the water sucked into the suction port 15 side of the housing 10 is rapidly rotated inside the housing 10 by the rotational force of the rotary impeller 13 flows through the rotary impeller 13 and the fixed chamber 14 as a flow path. Is discharged to the discharge port 16 side of the housing 10.

In this process, the air is mixed with the internal water of the housing 10 which is rotated at a high speed as the external air is sucked from the air supply passage 20 side.

At this time, the mixing of water and air is more easily mixed by the pressure plate 30, the pressure plate 30 is extended from the inner peripheral surface of the rotary impeller 13 and the rotary impeller 13 is built up An extrusion hole 31 is formed between the rotary shaft 12.

Accordingly, the water and air flowing at high speed by the rotation of the rotary impeller 13 hit the pressure plate 30 and the narrow extrusion hole 31 formed between the pressure plate 30 and the rotary shaft 12. Since the strong pressure is applied as the water exits to the side, the water rotated at high speed is discharged strongly according to the speed and the pressure change generated as the water exits the narrow extruded hole 31 so that air and water Bubbles are formed while mixing is fine and easy.

The bubbles formed as described above are discharged to the discharge port 16 side of the housing 10 and can be directly used as washing water, washing water, beauty water, and the like, and are cleaned using washing water by micro bubbles formed by mixing water and air. The work and the washing work using the washing water, as well as the beauty workability and effect using the beauty water is greatly improved.

2, the air supply means 40 for forcibly supplying air may be further configured on the other side of the air supply passage 20, thereby adjusting the amount of air supplied to the inside of the housing 10 as necessary. It can be used to adjust the amount of microbubbles produced depending on the use and place of use. The air supply means 40 here may preferably be a conventional air pump.

4A and 4B, a plurality of holes 32 are formed in the pressure plate 30 extending on the inner circumferential surface of the rotary impeller 13 in the circumferential direction of the rotary shaft 12 to increase the discharge pressure of water. Can be. These holes 32 may be provided to replace the extruded hole 31.

Therefore, in the process of passing the mixed water and air through the hole 32 of the pressure plate 30 formed in the rotary impeller 13, water and air rotated at a high speed into the narrow hole of the hole 32 are discharged. The resulting pressure makes microbubble easier.

In addition, according to Figure 5a and 5b, in the fixed chamber 14, which is laminated between the multi-stage rotary impeller 13, the blow plate 50 to hit the water discharged through the rotary impeller 13 is further It is made up.

Accordingly, a strong vortex generated by the blow due to the strong impact of the mixed water and air flowing through the rotary impeller 13 and the fixed chamber 14 at high speed by the blow plate 50 to the blow plate 50 By development, finer microbubbles may be formed.

The impact plate 50 may protrude from one surface of the fixed chamber 14 to be integrally formed, or one surface 51 may be welded to one surface of the fixed chamber 14 by welding.
As described above, the present invention can be variously modified, and preferred examples have been described in the above description. In the claims and detailed description of the present invention it will be appreciated that the techniques that can be used by those skilled in the art to which the present invention pertains are included in the technical scope of the present invention.

10 housing 11 motor
12: rotary shaft 13: rotary impeller
14: fixed chamber 15: suction port
16 discharge port 20 air supply passage
30 pressure plate 31 extruded hole
32: hole 40: air supply means
50: blow plate 51: the blow plate

Claims (5)

A plurality of rotary impellers 13 which are arranged in multiple stages at regular intervals along the length end of the rotary shaft 12 driven by the motor 11;
A plurality of chambers 14 stacked and fixed between the rotary impellers 13;
A housing (10) for receiving the rotary impellers (13) and the chambers (14) and having a suction port (15) through which the fluid is sucked in and a discharge port (16) through which the fluid is discharged;
An air supply passage extending from the outside of the housing 10 to guide and supply external air to the inside of the housing 10 by the rotational force of the rotary impeller 13, 20); And
And a pressure plate 30 extending from an inner circumferential surface of the rotary impeller 13 and having an extrusion hole 31 through which suction fluid passes at a predetermined pressure between the rotary shaft 12 and the rotary shaft 12. Micro bubble generator using a multi-stage pump. The method according to claim 1,
Microbubble generating device using a multi-stage pump, characterized in that the air supply means 40 is further provided at the other end of the air supply passage 20 for forced supply of external air through the air supply passage (20). The method according to claim 1,
The extrusion hole (31) is a microbubble generating device using a multistage pump, characterized in that consisting of a plurality of spaced holes (32) arranged in the circumferential direction of the rotary shaft 12 to increase the discharge pressure of the fluid. The method according to claim 1,
Microbubble generating device using a multi-stage pump, characterized in that provided with one or more striking plate (50) on one side of the chamber (14) in order to strike the fluid passing through the multi-stage rotary impeller (13). The method of claim 4,
The blow plate (50) is protruded from the chamber (14) is formed integrally, or is welded to the surface of the chamber (14) microbubble generating device using a multistage pump, characterized in that provided integrally.

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