KR200388330Y1 - Ozone mixed type pump - Google Patents

Abstract

The present invention relates to an ozone water production apparatus that generates ozone water by mixing liquid water and ozone gas, and installs an inlet pipe through which ozone gas is supplied to a casing of a vortex turbine type pump that sucks and pumps water through a water supply pipe. The present invention relates to an ozone mixed pump for pumping by disperse-mixing ozone gas into water in a pumping operation by high speed rotation.

The main feature of the present invention is the pumping chamber formed inside the casing is installed with an impeller that rotates at high speed by the drive of the motor and the inlet and outlet are formed on the upper side of the pumping chamber, respectively, while the inlet and outlet are respectively formed flange In the vortex turbine type pump which is installed in the ozone water production apparatus, an inlet pipe in which ozone gas is introduced into an inlet formed in an upper portion of a pumping chamber in which an impeller is installed and rotates at high speed by driving of a motor is disposed. The inlet pipe is installed in the outside of the suction port to supply ozone gas.

Description

Ozone mixed type pump

The present invention relates to an ozone water production apparatus for generating ozone water by mixing liquid water and ozone gas, and more specifically, an inlet pipe through which ozone gas is supplied to a casing of a vortex turbine type pump pumping water suction through a water supply pipe. The present invention relates to an ozone mixed pump that pumps by dispersing and mixing ozone gas into fine particles in water by a pumping operation by a high speed rotation of an impeller.

In general, ozone has a strong sterilization, purification, and cleaning power, and thus is widely used in water and air purification facilities and vegetables and fruits. In addition, ozone is mainly used as ozone water in which ozone gas is mixed with liquid water. In the production of ozone water, the technology of mixing ozone gas and water is very important, and the recent technology includes a gas-based ozone method, a pressurized injector method, a venturi injector method, etc. have.

In the ozone water production method, the acid method is a method of mixing ozone in water through a porous acid pipe, and the pressure injector method is a method of simultaneously mixing water and ozone, and the venturi injector method uses a pump. To inhale ozone and mix it into the water passing through the venturi tube.

As a type of venturi injector in the conventional production method of ozone water, the production technology of ozone water shown in FIG. 1 is connected to the venturi inlet pipe 2 to which ozone gas is supplied onto the water supply pipe 1 to which water is supplied. The water supply pipe 1 is mounted to the vortex turbine type pump 3 so that water and ozone gas are sucked and mixed by a strong suction force, where the ozone gas and water are converted into fine particles by the impeller of the vortex turbine type pump 3. It is dispersed and mixed, and is pumped from the vortex turbine type pump 3 to the pressurized melting tank 5 through the discharge pipe 4 to use ozone water through the discharge pipe 6 in the state of being produced with complete ozone water.

However, in the conventional ozone water production apparatus, as the venturi inlet pipe for supplying the ozone gas is installed on the water supply pipe, the water and the ozone gas come together through the water supply pipe and the venturi inlet pipe by the suction power of the vortex turbine type pump. As a result, the amount of ozone supplied through the venturi inlet pipe is not constant, and thus, the dissolved concentration of ozone water is not constant.

That is, since the venturi inlet pipe to which the ozone gas is supplied is installed on the water supply pipe to which water is supplied by the suction power of the pump, the suction power of the pump acting on the venturi inlet pipe is relatively lower than that of the water supply pipe. As a result, the dissolved concentration of ozone water is not kept constant.

Meanwhile, the vortex turbine type pump installed in the conventional ozone water production apparatus has an impeller 14 installed inside the casing 10 as shown in FIG. 2 and includes a vortex type pumping chamber 11 that rotates at a high speed by driving a motor. The inlet 12 and the outlet 13 are respectively formed in the upper portion of the pumping chamber 11, and the flanges 12a and 13a in the horizontal and vertical directions to pass through the inlet 12 and the outlet 13, respectively. While the impeller 14 is rotated at high speed by the driving force of the motor in the vortex-type pumping chamber 11, a plurality of vanes are formed on the outer circumference.

The conventional vortex turbine type pump performs a function of pumping by injecting a liquid through a suction port and pumping it into a discharge port by generating a strong suction force by rotating the impeller at a high speed in the pumping chamber by driving a motor.

The present invention was devised to solve the problems caused by the existing ozone water production apparatus as described above, by installing an inlet pipe to which ozone gas is supplied to the casing of a vortex turbine type pump pumping water suction through a water supply pipe to the high speed rotation of the impeller. It is a main object of the present invention to provide an ozone mixed pump that disperses and mixes ozone gas into water by means of a pumping operation.

The main feature of the present invention for achieving the above object is that the pumping chamber formed inside the casing is installed with an impeller to rotate at high speed by the driving of the motor and the suction port and the discharge port is formed on the upper side of the pumping chamber, respectively In the vortex turbine type pump installed in the ozone water production apparatus, each of which has a flange formed to penetrate the discharge port, an inlet pipe into which an ozone gas is introduced into an inlet formed at an upper portion of a pumping chamber in which an impeller is installed and rotates at high speed by driving of a motor. Is disposed, the inlet pipe is supplied to the ozone gas is supplied to the outside of the suction port to be connected to the inlet pipe.

The present invention installs an inlet pipe through which ozone gas is supplied to a casing of a vortex turbine type pump that pumps water intake. As to provide, the configuration of the embodiment according to the present invention in detail shown in Figures 3 to 6 shown in the drawings.

The main feature according to the embodiment of the present invention is the pumping chamber 11 formed in the casing 10 is built in the impeller 14 which rotates at high speed by the driving of the motor is built in the upper inlet of the pumping chamber 11, respectively ( In the vortex turbine type pump in which the 12 and the discharge port 13 are formed, and the inlet 12 and the discharge port 13 are penetrated, flanges 12a and 13a are formed in the horizontal and vertical direction, respectively, and are installed in the ozone water production apparatus.

An inlet tube 2a into which the impeller 14 is built-in and the ozone gas is introduced into the inlet 12 formed at the upper portion of the pumping chamber 11 that rotates at high speed by driving of the motor is disposed, and the inlet tube 2a is disposed. It is characterized in that the inlet pipe (2) which is supplied to the outside of the suction port 12 to be connected to the) is supplied.

The main point of the present invention is to install an inlet pipe (2a) in which ozone gas is introduced into the inlet port 12 so that ozone gas is sucked into the inlet port 12 of the vortex turbine-type pump (3) that pumps the water and ozone gas into the suction port (12). As the suction force of the pump by the high speed rotation of the impeller 14 directly acts on the inlet pipe 2a into which the ozone gas is introduced, the ozone gas is kept constant in accordance with the pumping amount of water, By dispersing, mixing, and pumping, ozone water is generated by keeping the dissolved concentration of ozone constant.

In the vortex turbine type pump 3 according to the present invention, as shown in FIGS. 3 and 4, an impeller in which a plurality of vanes are formed by a circular pumping chamber 11 is formed in a space of a predetermined size inside the casing 10. An inlet 12 and an outlet 13 through which water is sucked or discharged are formed in an upper portion of the pumping chamber 11, and an inlet 12 and an outlet are formed on the casing 10. Flange 12a, 13a is formed in the horizontal and vertical direction so that the 13 is penetrated, and the impeller 14 rotates at high speed by the driving force of the motor in the vortex-type pumping chamber 11 to generate a strong suction force to suck in water. It has a conventional structure of pumping.

The present invention is formed in the upper portion of the pumping chamber 11 is disposed in the inlet 12 in which the ozone gas is introduced into the inlet 12 in which water is sucked vertically, fastening outside the inlet 12 It is fixed to the casing 10 by the sphere 2b, it is to install the inlet pipe 2 is supplied with ozone gas to the outside of the suction port 12 to be connected to the input pipe (2a).

Therefore, the present invention is disposed in the inlet pipe (2a) through which the ozone gas is introduced into the inlet (12) in which the strong suction force is applied by the high speed rotation of the impeller 14 in the pumping chamber (11) of the casing (10) As the strong suction force of the pump acts directly on 2a), the ozone gas is smoothly supplied while the amount of ozone gas is kept constant according to the pumping amount of water.

In the above, the inlet pipe 2a into which the ozone gas is introduced into the pumping chamber 11 is formed to have a diameter smaller than the diameter of the inlet 12 so as to be disposed in the inlet 12, so that the end portion thereof is not drawn into the pumping chamber 11. It is arranged in the inlet 12 so that the high speed rotation of the impeller 14 is installed so that it does not interfere.

The embodiment of the present invention having such a configuration is that when the impeller 14 installed in the pumping chamber 11 rotates at high speed by the driving force of the motor, a strong suction force acts on the pumping chamber 11 and the suction port 12 so that the water supply pipe 1 Water and ozone gas are sucked through the inlet pipe (2) and the inlet pipe (2), where the water is sucked into the inlet (12) and the pumping chamber (11) through the water supply pipe (1), and the ozone gas is supplied to the inlet pipe (2). And is sucked into the pumping chamber 11 through the input pipe 2a, and is pumped through the discharge port 13 and the discharge pipe 4 at a high speed rotation of the impeller 14.

On the other hand, the water and ozone gas sucked into the inlet 12 and the pumping chamber 11 inside the casing 10 are particulates by the high speed rotation of the impeller 14 in which a plurality of vanes are formed inside the vortex-type pumping chamber 11. The mixture is dispersed and then pumped through the discharge port 13 and the discharge pipe 4.

6 is another embodiment of the present invention, an inlet pipe 2a into which ozone gas is introduced to the outside of the casing 10 so as to be connected to and connected to the pumping chamber 11 configured inside the casing 10. ), But fixed to the inlet pipe (2a) to the outside of the casing (10) to be located close to the inlet (12).

According to another embodiment of the present invention, the inlet pipe 2a into which the ozone gas is introduced is installed to penetrate the pumping chamber 11 from the outside of the casing 10 so that the inlet 12 is located close to the strong suction force of the pump. The ozone gas is smoothly supplied by directly acting on the input pipe 2a while the supply amount of ozone gas is kept constant according to the pumping amount of water.

The preferred embodiments of the present invention have been described above with reference to the present invention, but 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 spirit of the present invention. Can be implemented in a variety of changes.

As described above, according to the present invention, in the pumping chamber of the casing, an inlet pipe through which ozone gas is introduced into the inlet port in which a strong suction force acts due to the high speed rotation of the impeller is disposed, and thus the strong suction force of the pump directly acts on the inlet tube. The ozone gas is supplied smoothly while the supply amount of ozone gas is kept constant according to the pumping amount of water, thereby dispersing and mixing ozone gas into fine particles in water to maintain the dissolved concentration of ozone to provide ozone water. .

1 is an installation state of the existing ozone water production apparatus

Figure 2 is a cross-sectional perspective view of the pump in the existing ozone water production apparatus

Figure 3 is a front view showing the ozone mixed pump of the embodiment according to the present invention

Figure 4 is a cross-sectional perspective view showing an embodiment according to the present invention

5 is a cross-sectional view showing an operating state of the embodiment according to the present invention

Figure 6 is a cross-sectional view of the operating state showing another embodiment of the present invention

[Description of Symbols for Main Parts of Drawing]

1: water supply pipe 2: inlet pipe

2a: input pipe 3: pump

4: discharge tube 5: pressurized melting tank

10: casing 11: pumping chamber

12: inlet 12a: flange

13: discharge port 13a: flange

14: impeller

Claims (2)

In the pumping chamber 11 formed inside the casing 10, an impeller 14 that rotates at a high speed by driving a motor is built-in, and an inlet 12 and an outlet 13 are respectively formed in the upper side of the pumping chamber 11. In the vortex turbine type pump in which the flanges 12a and 13a are formed in the horizontal and vertical directions so that the suction port 12 and the discharge port 13 penetrate, respectively, and are installed in the ozone water production apparatus. An inlet tube 2a into which an ozone gas is introduced is disposed in an inlet 12 formed at an upper portion of the pumping chamber 11 at which the impeller 14 is installed and rotates at a high speed by driving a motor, and the inlet tube 2a is disposed. Ozone-mixed pump, characterized in that the inlet pipe (2) is installed on the outside of the suction port 12 is connected to the inlet. The method of claim 1, An ozone mixing pump, characterized in that an inlet pipe (2a) through which ozone gas is introduced into the outside of the casing (10) is provided in close proximity to the suction port (12) so as to pass through the pumping chamber (11) inside the casing (10).