KR20000004970U - Ozone water mixing device - Google Patents

Abstract

The ozone water mixing device according to the present invention is a pressurized pump unit for increasing the flow rate, a mixing unit formed with a venturi tube for primary mixing of water and ozone gas, extending from the mixing unit, and a plurality of acceleration units are formed at regular intervals so that water and ozone It consists of accelerated discharge tube which increases the contact frequency and contact area of gas. It blocks the increase in size of ozone gas droplets caused by the coagulation phenomenon in ozone gas discharge tube, and crushes the size of ozone gas into fine droplets. It is possible to increase the dissolution concentration of ozone gas in the water by increasing the contact frequency and the contact area of water and ozone gas in the pipeline.

Description

Ozone water mixing device

The present invention relates to an ozone water mixing device for dissolving ozone gas in water by mixing ozone gas in water, and more specifically, an acceleration part for increasing the instantaneous flow rate by reducing the diameter of the water flow pipe at a predetermined interval. To prevent the increase in the size of ozone gas droplets due to the phenomenon of ozone agglomeration in the water and to crush the size of the ozone gas into fine droplets to increase the contact area of water and ozone gas in the pipeline The present invention relates to an ozone water mixing device capable of increasing the dissolution concentration of the solution and miniaturizing the device.

In general, as shown in FIG. 4, a conventional ozone water generator includes an ozone foam pipe 51 into which ozone gas is injected and injected to inject ozone gas into water contained in the water storage tank 52 to discharge ozone. As a structure for dissolving in this structure, there is a problem that the dissolved concentration of ozone gas in water is extremely low and inefficient. As another structure, the structure of the mixer 53 into which water is introduced is improved. The ozone gas inlet 55 is installed adjacent to the venturi tube 54 to mix the ozone gas in the mixer and send it to the delivery pipe 56. However, this structure is shown in FIG. 5 due to the cohesive force of the ozone gas. As shown, the ozone gas droplets 57 agglomerate with each other as they pass through the discharge pipe and gradually increase in size, so that the water and the ozone gas membranes have a constant size and interval in the discharge pipe. Formed in turn, it does not dissolve in water, and when exposed outside, ozone gas which is not dissolved in water is easily dissipated into the air, so it is not easy to generate ozone water in high concentration. There was a problem.

An object of the present invention is to solve this problem, and to block the increase in the size of ozone gas droplets due to the flocculation phenomenon in the discharge pipe in which the ozone gas is mixed and discharged, and crush the size of the ozone gas into fine droplets It is to provide an ozone water mixing device that can increase the contact frequency and the contact area of water and ozone gas in the discharge pipe line to increase the dissolved concentration of ozone gas in the water.

Another object of the present invention is to provide an ozone water mixing device having a very short production time of high concentration ozone water, which shortens the production time of ozone water and enables the device to be miniaturized and has low manufacturing cost.

This object of the present invention is to increase the flow rate of the pressurized pump unit, the mixing unit is formed with a venturi tube for primary mixing of water and ozone gas, extending from the mixing unit is formed a plurality of acceleration parts at regular intervals of the water and ozone gas It is achieved by the ozone water mixing device according to the present invention, which is composed of an accelerated discharge pipe that increases the contact frequency and the contact area.

With reference to the accompanying drawings, the ozone water mixing device according to the present invention will be clearly understood its features and advantages by the embodiments described in detail below.

1 is a conceptual diagram showing the basic concept of the ozone water mixing device according to the present invention

2 is a schematic longitudinal sectional view of the ozone water mixing device according to the first embodiment of the present invention;

3 is a partially enlarged longitudinal sectional view of the accelerated discharge pipe;

Figure 4 is a longitudinal cross-sectional view showing an embodiment of a conventional ozone water mixing device

Figure 5 is a longitudinal sectional view showing another embodiment of the conventional ozone water mixing device

* Description of the symbols for the main parts of the drawings *

1.Pressure pump section 2.Mixing section

3.Acceleration sending pipe

1 is a conceptual diagram showing the basic concept of the ozone water mixing device according to the present invention, Figure 2 is a schematic longitudinal cross-sectional view of the ozone water mixing device according to a first embodiment of the present invention, as shown in the drawings, the present invention The ozone water mixing device (A) according to the first embodiment of the present invention is a pressurized pump part (1) for increasing the flow rate, a mixing part (2) having a venturi tube in which water (W) and ozone gas (O) are primarily mixed; It includes an accelerated delivery pipe (3) extending from the mixing section (2), the flow path is narrowed in the middle, and a plurality of accelerators 31 are formed at regular intervals to increase the contact frequency and the contact area of water and ozone gas.

The pressurized pump 1 is for promoting the dissolution of ozone gas into the water by increasing the flow rate of the water, and the water pressurized by the pressurized pump frequently collides with the ozone gas present in the gas state in the water as the flow rate is increased. This will facilitate the dissolution in the water.

The mixing unit 2 is connected to the water inlet pipe 22 through which the water pressurized by the pressurized pump flows on one side thereof, and an outlet tube 23 through which water mixed with ozone gas is discharged to the other side thereof is connected to the vent tube. The mixing unit 21 having the rib part 24 is formed, and the ozone gas injection port 25 which is in communication with the venturi part 24 of the mixing body.

The accelerated delivery pipe (3) is connected to the outlet pipe (23) of the mixing section (2) is formed with a plurality of acceleration section (31). Four accelerators 31 are formed in this embodiment, but the number may be increased or decreased slightly. The accelerator 31 is composed of a flow rate increasing surface 311 and the inclined surface 312 which is a small diameter portion of the tube diameter is reduced.

The operation of the ozone water mixing device according to the present invention having such a structure will be described in detail below.

Water pressurized by the pressure pump part 1 is introduced into the mixing part 2 through the water inlet pipe 22, and ozone gas is introduced into the mixing part 2 through the ozone gas inlet 25, thereby providing water and ozone gas. Is mixed in the mixer and discharged to the accelerated delivery pipe (3) through the outlet pipe (23). Water containing ozone gas introduced into the accelerated discharge pipe 3 passes through the accelerator 31 while flowing in the accelerated discharge pipe, and as shown in FIG. 31) As the flow rate increases while the flow rate increases, the eddy phenomenon occurs as the water flows through the acceleration part, so the ozone gas droplets contained in the water are finely pulverized to prevent the coagulation of the ozone gas. As the contact frequency and contact area of OH increases, ozone gas is easily dissolved in the water, and the mixing and dissolving process of ozone gas into the water is repeated the same each time through the accelerator, so that it continues to circulate through several accelerators. Phenomenon occurs and the coagulation phenomenon of ozone gas is pulverized and ozone gas droplets are finely crushed, so ozone gas is easily dissolved in water. It will be.

As described above, the ozone water mixing device according to the present invention forms an acceleration part which increases the flow rate by decreasing the diameter on the discharge pipe through which the water mixed with ozone gas is discharged in the mixing part, so that the water is rapidly accelerated in diameter. As the flow rate increases while passing through the water, the eddy flow occurs as the water flows through the acceleration part, so the droplets of ozone gas contained in the water are finely crushed to prevent the coagulation of ozone gas and the contact between ozone gas and water. As the frequency and contact area are increased, ozone gas is easily dissolved in the water, making it possible to reduce the size of the ozone water mixing device, making the manufacturing cost cheaper, making it possible to produce a high concentration of ozonated water, and producing a high concentration of ozone water. The production cost of ozone water

It is inexpensive and has an excellent effect of increasing productivity.

The embodiments described above are not intended to limit the present invention and are illustrative.

Have been described, and various modifications and changes may be made without departing from the spirit and scope of this

Can be performed.

Claims (3)

A water inlet pipe to which water is introduced on one side is connected, and an outlet pipe to which water is discharged on the other side is connected, and a mixing unit having a venturi tube for first mixing water and ozone gas; Ozone water mixing device characterized in that it comprises an accelerated discharge pipe extending from the mixing portion and the acceleration portion is reduced in diameter to increase the contact frequency and contact area of water and ozone gas The ozone water mixing device according to claim 1, wherein two or more accelerators are formed on the accelerated discharge pipe at predetermined intervals. The ozone water mixing device of claim 1, wherein a pressurized pump part is further provided on the inlet pipe.