KR200309221Y1 - the micro bubble device install a centrifugal multistage pump - Google Patents

Abstract

The present invention relates to an acid generator for generating ozone water by mixing liquid (water) and ozone gas. In detail, a centrifugal pump is installed in an existing acid generator to further disperse ozone gas inhaled into bubbles of fine particles. The present invention relates to an air dispersing device equipped with a centrifugal multistage pump that mixes with liquid to increase the air dispersing efficiency.

The present invention is a conventional air dispersing device that sucks and mixes liquid and ozone gas with a vortex turbine pump, and a plurality of impellers stacked in multiple stages by rotating a motor together with the vortex turbine pump are rotated to repeat the suction pumping process. By installing a centrifugal multistage pump, the ozone gas is further densified and dispersed into the bubbles of fine particles, so as to increase the mixing power and the acid efficiency of the liquid and ozone gas.

Description

The micro bubble device install a centrifugal multistage pump}

The present invention relates to an acid generator for generating ozone water by mixing liquid (water) and ozone gas. In detail, a centrifugal pump is installed in an existing acid generator to further disperse ozone gas inhaled into bubbles of fine particles. The present invention relates to an air dispersing device equipped with a centrifugal multistage pump that mixes with liquid to increase the air dispersing efficiency.

In general, ozone has a strong sterilizing power, purification power and washing power, and thus is widely used in water and air purification facilities and vegetables and fruits, and is widely used as ozone water in which ozone is mixed with water. In manufacturing, a technology of mixing ozone and water is very important, and recently, an acid method, a pressurized injector method, a venturi injector method and the like are applied as a method of mixing gaseous ozone with water.

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.

The conventional ozone water production technology shown in FIG. 1 is a type of venturi injector in the conventional production method of ozone water. The ozone inflow pipe 2 into which the ozone gas is introduced is introduced into the liquid inflow pipe 1 to which water is supplied. It is connected and installed, the liquid inlet pipe (1) is mounted to the vortex turbine pump (3) by suction and mixing the water and ozone gas by a strong suction force, where the ozone gas and water is by the impeller of the vortex turbine pump (3) Dispersed into fine particles and mixed, it is pumped from the vortex turbine pump 3 through the inlet pipe (4) to the pressure melting tank (5) to use the ozone water through the discharge pipe (6) in the state produced as a complete ozone water.

However, in the conventional ozone water production apparatus as described above, the ozone gas sucked with the water by the strong suction force of the vortex turbine pump is not dispersed and mixed in the bubble state of the fine particles, but dispersed into fine particles in the impeller of the high speed rotating vortex turbine pump. By failing to do so, there was a problem in that ozone water was not effectively used as the amount of dissolved ozone was lower than expected.

The present invention was devised to solve the problems of the conventional ozone water production apparatus. The ozone gas inhaled and mixed with the liquid is further densified and dispersed in a bubble state of fine particles to increase the mixing and acid efficiency of the liquid and ozone gas. It is an object of the present invention to provide an acid generator configured to generate ozone water containing a suitable dissolved ozone amount.

The present invention is a conventional air dispersing device that sucks and mixes liquid and ozone gas with a vortex turbine pump, and a plurality of impellers stacked in multiple stages by rotating a motor together with the vortex turbine pump are rotated to repeat the suction pumping process. By installing a centrifugal multistage pump, the ozone gas is further densified and dispersed into the bubbles of fine particles, so as to increase the mixing power and the acid efficiency of the liquid and ozone gas.

In the centrifugal multistage pump according to the present invention, the impeller installed in a plurality is repeatedly rotated at a high speed by driving a motor to repeatedly carry out the suction and feeding process of the liquid and ozone gas. It is to increase the acid efficiency.

1 is a configuration diagram of a conventional diffuser device installation state

2 is a configuration diagram installation state of the diffuser device according to the present invention

Figure 3 is a cross-sectional view of the installation state of the centrifugal multistage pump according to the present invention

Figure 4 is a cross-sectional view of the main part of the centrifugal multistage pump according to the present invention

[Explanation of symbols on the main parts of the drawings]

1: liquid inlet tube 2: ozone inlet tube

3: vortex turbine pump 4: inlet pipe

5: pressure melting tank 6: discharge pipe

10: centrifugal multistage pump 11: casing

11a: suction port 11b: discharge port

12: sleeve housing 13: motor

14: Bracket 15: Stage Casing

The present invention is to install a centrifugal multi-stage pump in an air dispersing device that sucks and mixes liquid and ozone gas with a vortex turbine pump to increase the mixing power and the acid efficiency of the liquid and ozone gas. 4 shows the configuration of the embodiment according to the present invention in detail.

The present invention is a conventional air dispersing device for sucking and mixing the liquid and ozone gas through the liquid inlet pipe (1) and the ozone inlet pipe (2) to the vortex turbine pump (3), the vortex turbine pump (3) A plurality of impellers 15a, which rotate the discharge tube 3a by the driving of the motor 13, are stacked in multiple stages, and are coupled to the suction port 11a of the centrifugal multistage pump 10 repeatedly performing the suction feeding process. It is a structural feature of the present invention that the inlet pipe (4) connected to the pressure melting tank (5) is attached to the outlet (11b) of the centrifugal multistage pump (10).

In the above, the discharge pipe 3a of the vortex turbine pump 3 is coupled to the inlet 11a of the centrifugal multistage pump 10 and pressurized to the discharge port 11b of the centrifugal multistage pump 10. By mounting the inlet pipe (4) to be connected, the liquid and ozone gas sucked by the vortex turbine pump (3) flows into the centrifugal multistage pump (10) through the discharge pipe (3a), a plurality of impellers (15a) After repeated suction suction process by the injection into the pressurized melting tank (5) through the inlet pipe (4).

Centrifugal multistage pump 10 in the present invention is a known technique, the technical configuration of the cylindrical sleeve housing 12 and the upper portion of the casing 11, the inlet 11a and the outlet 11b is formed on both sides The bracket 14 to which the 13 is attached is coupled, and a plurality of stage casings 15 are stacked and assembled on the motor shaft in the sleeve housing 13.

In the centrifugal multi-stage pump 10, a stage casing 15 in which a plurality of stages are stacked and assembled on a motor shaft is provided with one impeller 15a mounted on an inner motor shaft and suction-pumped on an upper side of the impeller 15a. The guide van 15b is installed to guide the liquid and bubble ozone gas to form one stage casing 15.

The centrifugal multistage pump 10 having such a configuration includes a plurality of impellers 15a in which the liquid introduced into the suction port 11a through the discharge tube 3a of the vortex turbine pump 3 and the bubbled ozone gas are stacked and assembled in multiple stages. By repeated suction suction process by the air bubble ozone gas is further dispersed into the fine particles and mixed with the liquid, and passed through the last stage 16 mounted on the stage casing (15) of the uppermost sleeve housing (12) ) Is discharged through the gap between the stage casing 15 and the discharge port 11b.

In other words, the present invention is the liquid flowed into the inlet 11a of the casing 11 from the centrifugal multi-stage pump 10 and the ozone gas in the bubble state by the rotary motion of the impeller 15a installed in multiple stages and the vortex phenomena accordingly. The mixture is mixed with each other and densely dispersed into bubbles of fine particles while undergoing repeated suction and pressure feeding processes.

Therefore, the present invention is sucked by the vortex turbine pump (3) and the first mixing process of the liquid and the bubble ozone gas flows back into the centrifugal multistage pump (10) and further densely dispersed into bubbles of fine particles and secondary mixing The process is carried out to produce a suitable amount of dissolved ozone for use.

The preferred embodiments of the present invention have been described above with reference to the present invention, and are not limited to the above embodiments, and those skilled in the art to which the present invention pertains through the above embodiments do not depart from the gist of the present invention. Can be implemented in a variety of changes.

The present invention installs a centrifugal multistage pump in which a plurality of impellers stacked in multiple stages together with a vortex turbine pump are rotated at a high speed to repeatedly carry out a suction pumping process, thereby densifying and dispersing ozone gas sucked with the liquid in a state of finer bubbles. It is to provide the effect of generating ozone water containing dissolved ozone amount to suit the purpose of use by increasing the mixing and acid efficiency of liquid and ozone gas.

Claims (1)

In the existing air dispersing apparatus which sucks and mixes liquid and ozone gas through the liquid inlet pipe 1 and the ozone inlet pipe 2 with the vortex turbine pump 3, A plurality of impellers 15a for rotating the discharge tube 3a of the vortex turbine pump 3 by the driving of the motor 13 are stacked in multiple stages to repeatedly perform the suction pumping process of the centrifugal pump 10. And an inlet pipe (4) coupled to the suction port (11a) and connected to the discharge port (11b) of the centrifugal pump (10) by a pressurizing tank (5).