CN210214899U - Ozone disinfection system for swimming pool - Google Patents

Abstract

The utility model discloses an ozone disinfection system for swimming pool belongs to swimming pool ozone disinfection equipment technical field. The technical scheme is as follows: the device comprises an ozone machine, an ozone reaction tank, a water seal tank and an activated carbon adsorption tank, wherein a gas outlet of the ozone machine is connected with a first pipeline; the outlet of the first pipeline is respectively connected with the air inlet of the ozone reaction tank and the water seal tank through a second pipeline and a third pipeline; the first pipe is higher than the second pipe and the third pipe; a one-way valve is arranged on the second pipeline; the third pipeline extends below the liquid level of the water seal tank; an ejector is arranged at the air inlet of the ozone reaction tank, and an automatic exhaust valve is arranged at the air outlet. The utility model discloses connecting tube redesign between each equipment for the water seal tank not only can prevent that the water among the ozone retort from flowing backwards into the ozone machine and damaging the ozone machine, can also prevent that it from flowing into the active carbon adsorption jar, keeps the active carbon dry, exerts its adsorption effect to the biggest effect.

Description

Ozone disinfection system for swimming pool

Technical Field

The utility model relates to a swimming pool ozone disinfection equipment technical field, concretely relates to ozone disinfection system for swimming pool.

Background

The existing swimming pool disinfection usually adopts ozone disinfection, and is provided with an independent ozone disinfection system which mainly comprises an ozone machine, an ozone reaction tank, a water seal tank and an activated carbon adsorption tank. However, the existing ozone system has the following problems: 1. the whole system is complex in design, the water seal tank can only prevent water in the ozone reaction tank from flowing back into the ozone machine but not into the activated carbon adsorption tank, so that activated carbon adhesion is caused, ozone gas can not be continuously adsorbed and treated, only the activated carbon can be replaced, and the cost is increased. 2. The active carbon adsorption jar of current ozone disinfection system adopts three parallelly connected iron pipe that is equipped with the active carbon to remove the flavor absorption to ozone usually, and iron pipe from the top down is equipped with a plurality of apertures of giving vent to anger, will adsorb in the ozone gas release air of handling through, but this kind of setting can make ozone gas not fully adsorb the aperture that just follows iron pipe upper portion and release in the air through the active carbon, lead to ozone treatment thoroughly inadequately, contaminated air, and the active carbon adsorption jar is bulky, overhaul and dismantle inconveniently.

SUMMERY OF THE UTILITY MODEL

The above-mentioned not enough to prior art, the utility model provides an ozone disinfection system for swimming pool, to the connecting tube redesign between each equipment for the water seal jar not only can prevent that the water among the ozone retort from flowing backwards into the ozone machine and damaging the ozone machine, can also prevent that it from flowing into in the active carbon adsorption jar, keeps the active carbon drying, exerts its adsorption effect to the greatest effect, has also practiced thrift the cost of changing the active carbon indirectly simultaneously.

The technical scheme of the utility model is that:

an ozone disinfection system for a swimming pool comprises an ozone machine, an ozone reaction tank, a water seal tank and an activated carbon adsorption tank, wherein an air outlet of the ozone machine is connected with a first pipeline; the outlet of the first pipeline is respectively connected with the air inlet of the ozone reaction tank and the water seal tank through a second pipeline and a third pipeline; the first pipe is higher than the second pipe and the third pipe; a one-way valve is arranged on the second pipeline; the third pipeline extends below the liquid level of the water seal tank; an ejector is arranged at the air inlet of the ozone reaction tank, and an automatic exhaust valve is arranged at the air outlet; the air outlet of the ozone reaction tank is connected with a fourth pipeline; an outlet of the fourth pipeline is respectively connected with an air inlet of the activated carbon adsorption tank and the water seal tank through a fifth pipeline and a sixth pipeline; the fifth pipeline is an inverted L-shaped pipeline and comprises a horizontal pipeline and a vertical pipeline, the horizontal pipeline is connected with an outlet of the fourth pipeline, and the vertical pipeline is connected with an air inlet of the activated carbon adsorption tank; the horizontal pipeline is provided with an inverted U-shaped bending section; the fourth pipeline is higher than the sixth pipeline; the sixth pipeline extends below the liquid level of the water seal tank; an overflow pipe is arranged in the water-sealed tank; one end of the overflow pipe is level with the liquid level of the water-sealed tank, and the other end of the overflow pipe extends out of the water-sealed tank through an overflow port at the lower part of the water-sealed tank.

Further, the top of the activated carbon adsorption tank is provided with an air inlet and an activated carbon feeding port; a sealing cover is arranged on the active carbon feeding port; the activated carbon adsorption tank is filled with activated carbon, and the bottom of the activated carbon adsorption tank is provided with a filter screen as an air outlet.

Further, the filter screen covers the whole bottom of the activated carbon adsorption tank.

Furthermore, the activated carbon adsorption tank is a rectangular tank, and the filter screen is in the shape of an upward convex pyramid.

Further, the active carbon adsorption jar is cylindrical jar, and the filter screen is the bellied toper upwards.

Furthermore, the activated carbon adsorption tank is a stainless steel tank, and is more corrosion-resistant compared with the existing iron pipe.

Further, the filter screen is a stainless steel filter screen.

Furthermore, the water-sealed tank is a PVC pipe, and can prevent ozone and residual chlorine from corroding the water-sealed tank.

Further, water-sealed tank and activated carbon adsorption jar are placed on the base, prevent equipment and subaerial water contact, and protection equipment prevents that activated carbon from meeting water adhesion.

Further, the base is a hollow base.

The beneficial effects of the utility model reside in that:

1. the utility model discloses a connecting tube redesign between each equipment for the water seal tank not only can prevent that the water among the ozone retort from flowing backwards into ozone machine and damaging ozone machine, can also prevent that it from flowing into the activated carbon adsorption jar, keeps the activated carbon dry, exerts its adsorption to the greatest effect, has also practiced thrift the cost of changing the activated carbon indirectly simultaneously.

2. The utility model discloses an active carbon adsorption jar has replaced current three parallelly connected iron pipe by a jar body, has reduced the volume of equipment greatly, also convenient to overhaul dismantlement. And simultaneously, the utility model discloses an air inlet and gas outlet (being the filter screen) of activated carbon adsorption jar are located the top and the bottom of the jar body respectively, have guaranteed that the ozone gas that gets into the jar body discharges the air again after the abundant absorption of activated carbon, and the adsorption treatment is more thorough, does benefit to the environmental protection.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic structural diagram of the present invention.

In the figure, 1-ozone machine, 2-ozone reaction tank, 3-water sealed tank, 4-activated carbon adsorption tank, 5-first pipeline, 6-second pipeline, 7-third pipeline, 8-one-way valve, 9-jet device, 10-automatic exhaust valve, 11-fourth pipeline, 12-fifth pipeline, 12.1-horizontal pipeline, 12.2-vertical pipeline, 13-sixth pipeline, 14-bending section, 15-overflow pipe, 16-sealing cover, 17-activated carbon, 18-filtering net, 19-base.

Detailed Description

In order to make the technical solutions in the present invention better understood, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, but not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts shall belong to the protection scope of the present invention.

Example 1

As shown in figure 1, the embodiment provides an ozone disinfection system for a swimming pool, which comprises an ozone machine 1, an ozone reaction tank 2, a water seal tank 3 and an activated carbon adsorption tank 4. The water-sealed tank 3 is a PVC pipe, the water-sealed tank 3 can be prevented from being corroded by ozone and residual chlorine, the active carbon adsorption tank 4 can be made of existing active carbon adsorption equipment, the water-sealed tank 3 and the active carbon adsorption tank 4 are placed on the base 19, the equipment is prevented from being contacted with water on the ground, the equipment is protected, and the active carbon 17 is prevented from being adhered when the water is encountered; the air outlet of the ozone machine 1 is connected with a first pipeline 5; the outlet of the first pipeline 5 is respectively connected with the air inlet of the ozone reaction tank 2 and the water seal tank 3 through a second pipeline 6 and a third pipeline 7; the first duct 5 is higher than the second duct 6 and the third duct 7; the second pipeline 6 is provided with a one-way valve 8; the third pipeline 7 extends below the liquid level of the water-sealed tank 3; an ejector 9 is arranged at the air inlet of the ozone reaction tank 2, and an automatic exhaust valve 10 (such as a commercially available ball float valve) is arranged at the air outlet; the air outlet of the ozone reaction tank 2 is connected with a fourth pipeline 11; an outlet of the fourth pipeline 11 is respectively connected with an air inlet of the activated carbon adsorption tank 4 and the water seal tank 3 through a fifth pipeline 12 and a sixth pipeline 13; the fifth pipeline 12 is an inverted L-shaped pipeline and comprises a horizontal pipeline 12.1 and a vertical pipeline 12.2, the horizontal pipeline 12.1 is connected with an outlet of the fourth pipeline 11, and the vertical pipeline 12.2 is connected with an air inlet of the activated carbon adsorption tank 4; the horizontal pipeline 12.1 is provided with an inverted U-shaped bent section 14; the fourth duct 11 is higher than the sixth duct 13; the sixth pipeline 13 extends below the liquid level of the water seal tank 3; an overflow pipe 15 is arranged in the water-sealed tank 3; one end of the overflow pipe 15 is level with the liquid level of the water-sealed tank 3, and the other end of the overflow pipe extends out of the water-sealed tank 3 through an overflow port at the lower part of the water-sealed tank 3.

The working principle is as follows:

ozone generated by the ozone machine 1 flows into the first pipeline 5 from the air outlet and then flows to the air inlet of the ozone reaction tank 2 through the second pipeline 6, the ozone body and the swimming pool water are fully stirred and mixed by the ejector 9 arranged at the air inlet, and the swimming pool water is disinfected and sterilized by the ozone body in the process. Because the air inlet of the ozone reaction tank 2 is provided with the ejector 9, the ozone gas generated by the ozone machine 1 is basically sucked into the ozone reaction tank 2 by the ejector 9 and does not flow into the water seal tank 3 through the third pipeline 7.

The disinfected swimming pool water and ozone gas enter the ozone reaction tank 2, wherein the swimming pool water is discharged from a water outlet of the ozone reaction tank 2, and the ozone gas is discharged into a fourth pipeline 11 under the control of an automatic exhaust valve 10, flows into an activated carbon adsorption tank 4 through a fifth pipeline 12 for adsorption treatment, and is finally discharged into the air. Since the sixth pipe 13 extends below the liquid level of the water-sealed tank 3, the ozone gas is prevented from flowing into the fifth pipe 12 and not into the sixth pipe 13.

When the check valve 8 of the second pipe 6 is broken, the reverse flow of the pool water in the ozone reaction tank 2 through the air inlet may occur. In this embodiment, when the reverse flow of the swimming pool water is sent, the swimming pool water flows into the second pipe 6 first, and since the first pipe 5 is higher than the second pipe 6 and the third pipe 7, the swimming pool water flowing back into the second pipe 6 will not flow into the first pipe 5 and enter the ozone machine 1 to damage the ozone machine 1, but only flow into the water-sealed tank 3 through the third pipe 7, so as to protect the ozone machine 1 from the damage of the swimming pool water.

After the swimming pool water flows back into the water-sealed tank 3, the liquid level of the water-sealed tank 3 rises and is higher than the pipe orifice of the overflow pipe 15, and finally the water higher than the pipe orifice of the overflow pipe 15 is discharged out of the water-sealed tank 3 through the overflow pipe 15, so that the water-sealed tank 3 always keeps the original liquid level.

When the automatic exhaust valve 10 of the ozone reaction tank 2 is damaged, a phenomenon that the pool water in the ozone reaction tank 2 flows out through the air outlet may occur. In this embodiment, the water from the ozone reaction tank 2 enters the fourth pipe 11, because the horizontal pipe 12.1 of the fifth pipe 12 has the inverted U-shaped bent portion 14, and the fourth pipe 11 is higher than the sixth pipe 13, the water in the fourth pipe 11 will not flow into the activated carbon adsorption tank 4 through the fifth pipe 12, but only flow into the water-sealed tank 3 through the sixth pipe 13, and finally exit the water-sealed tank 3 through the overflow pipe 15.

The ozone disinfection system of this embodiment for water seal tank 3 not only can prevent that the water among the ozone retort 2 from flowing backwards and entering ozone machine 1 and damaging ozone machine 1, can also prevent that it from flowing into activated carbon adsorption tank 4, keeps activated carbon 17 dry, and its adsorption effect is exerted to the biggest effect, has also practiced thrift the cost of changing activated carbon 17 indirectly simultaneously.

Example 2

This embodiment is different from embodiment 1 in that: the activated carbon adsorption tank 4 is a stainless steel tank, and the top of the activated carbon adsorption tank is provided with an air inlet and an activated carbon feeding port; the active carbon feeding port is provided with a sealing cover 16, the sealing cover 16 is good when the active carbon adsorption tank 4 is used, and the sealing cover 16 is opened when the active carbon 17 needs to be replaced; activated carbon 17 is filled in the activated carbon adsorption tank 4, a stainless steel filter screen 18 is arranged at the bottom of the activated carbon adsorption tank as an air outlet, preferably, the filter screen 18 covers the whole bottom of the activated carbon adsorption tank 4, namely, the activated carbon adsorption tank 4 takes the filter screen 18 as the bottom, and ozone gas adsorbed by the activated carbon 17 is released into the air from meshes of the filter screen 18 at the bottom of the activated carbon adsorption tank 4.

When the activated carbon adsorption tank 4 is a rectangular tank, the filter screen 18 is in a pyramid shape protruding upwards; when the activated carbon adsorption tank 4 is a cylindrical tank, the filter screen 18 is in a conical shape protruding upwards. The filter screen 18 thus arranged can increase the area of the filter screen 18 and improve the release efficiency of the ozone gas after adsorption treatment.

In this embodiment, the base 19 is a hollow base 19, so that the ozone gas released from the filter screen 18 at the bottom of the activated carbon adsorption tank 4 can flow into the air through the hollow base 19 on the premise of preventing the equipment from contacting with the water on the ground.

The active carbon adsorption jar 4 of this embodiment has replaced current three parallelly connected iron pipe by a jar body, has reduced the volume of equipment greatly, also convenient to overhaul dismantlement. Meanwhile, the air inlet and the air outlet (namely the filter screen 18) are respectively arranged at the top and the bottom of the tank body, so that the ozone gas entering the tank body is fully adsorbed by the activated carbon 17 and then discharged into the air, the adsorption treatment is more thorough, and the environment protection is facilitated.

Although the present invention has been described in detail by referring to the drawings in conjunction with the preferred embodiments, the present invention is not limited thereto. Various equivalent modifications or substitutions can be made on the embodiments of the present invention by those skilled in the art without departing from the spirit and substance of the present invention, and these modifications or substitutions are intended to be within the scope of the present invention/any person skilled in the art can easily conceive of changes or substitutions within the technical scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. The utility model provides an ozone disinfection system for swimming pool, includes ozone machine (1), ozone retort (2), water sealed tank (3) and activated carbon adsorption jar (4), its characterized in that:

the air outlet of the ozone machine (1) is connected with a first pipeline (5);

the outlet of the first pipeline (5) is respectively connected with the air inlet of the ozone reaction tank (2) and the water seal tank (3) through a second pipeline (6) and a third pipeline (7);

the first duct (5) is higher than the second duct (6) and the third duct (7);

a one-way valve (8) is arranged on the second pipeline (6);

the third pipeline (7) extends below the liquid level of the water seal tank (3);

an ejector (9) is arranged at the air inlet of the ozone reaction tank (2), and an automatic exhaust valve (10) is arranged at the air outlet;

the air outlet of the ozone reaction tank (2) is connected with a fourth pipeline (11);

an outlet of the fourth pipeline (11) is respectively connected with an air inlet of the activated carbon adsorption tank (4) and the water seal tank (3) through a fifth pipeline (12) and a sixth pipeline (13);

the fifth pipeline (12) is an inverted L-shaped pipeline and comprises a horizontal pipeline (12.1) and a vertical pipeline (12.2), the horizontal pipeline (12.1) is connected with an outlet of the fourth pipeline (11), and the vertical pipeline (12.2) is connected with an air inlet of the activated carbon adsorption tank (4);

the horizontal pipeline (12.1) is provided with an inverted U-shaped bending section (14);

the fourth duct (11) is higher than the sixth duct (13);

the sixth pipeline (13) extends below the liquid level of the water seal tank (3);

an overflow pipe (15) is arranged in the water-sealed tank (3);

one end of the overflow pipe (15) is level with the liquid level of the water-sealed tank (3), and the other end of the overflow pipe extends out of the water-sealed tank (3) through an overflow port at the lower part of the water-sealed tank (3).

2. The ozone disinfection system for a swimming pool as recited in claim 1, wherein:

the top of the activated carbon adsorption tank (4) is provided with an air inlet and an activated carbon feeding port;

a sealing cover (16) is arranged on the active carbon feeding port;

the activated carbon adsorption tank (4) is filled with activated carbon (17), and the bottom of the activated carbon adsorption tank is provided with a filter screen (18) as an air outlet.

3. The ozone disinfection system for a swimming pool as recited in claim 2, wherein: the filter screen (18) covers the whole bottom of the activated carbon adsorption tank (4).

4. The ozone disinfection system for a swimming pool as recited in claim 2, wherein: the activated carbon adsorption tank (4) is a rectangular tank, and the filter screen (18) is in a pyramid shape protruding upwards.

5. The ozone disinfection system for a swimming pool as recited in claim 2, wherein: the activated carbon adsorption tank (4) is a cylindrical tank, and the filter screen (18) is in a conical shape protruding upwards.

6. The ozone disinfection system for a swimming pool as recited in claim 2, wherein: the activated carbon adsorption tank (4) is a stainless steel tank.

7. The ozone disinfection system for a swimming pool as recited in claim 2, wherein: the filter screen (18) is a stainless steel filter screen (18).

8. The ozone disinfection system for a swimming pool as recited in claim 1, wherein: the water-sealed tank (3) is a PVC pipe.

9. The ozone disinfection system for a swimming pool as recited in claim 1, wherein: the water-sealed tank (3) and the activated carbon adsorption tank (4) are arranged on the base (19).

10. The ozone disinfection system for a swimming pool as recited in claim 9, wherein: the base (19) is a hollow base (19).

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