CN214192703U - Multifunctional purifier - Google Patents

Abstract

The utility model discloses a multifunctional purifier, which comprises a cabinet body, a first water tank and a second water tank, wherein the cabinet body is provided with double doors; the back plate is arranged in the cabinet body and divides the interior of the cabinet body into an inner layer and an outer layer; the open cabinet is arranged on one side of the cabinet body; the oxygen generation assembly is arranged in the cabinet body; the ozone preparation assembly is arranged in the cabinet body and is arranged side by side with the oxygen generation assembly; the oxygen outlet of the oxygen generation assembly is communicated with the oxygen inlet of the oxygen generation assembly; the mixing assembly is arranged in the open cabinet and is communicated with the ozone outlet, the sewage inlet and the sewage outlet of the ozone preparation assembly respectively. The utility model discloses can be the continuation carry out ozone disinfection and sterilization to eutrophic water, whole integrated degree is high, and is small, conveniently shifts the transportation.

Description

Multifunctional purifier

Technical Field

The utility model relates to a sewage treatment field, concretely relates to multifunctional purifier.

Background

As a common pollution source with a large amount of pollution, the water pollution has great influence on the environment, and the society also pays attention to the treatment of the water pollution at present. Polluted water bodies comprise two main types of living water bodies and industrial water bodies. The living water contains a large amount of organic matters, and is a eutrophic water body. The eutrophic water body can be treated in a physical or chemical or physical and chemical combination mode, and the eutrophic water body after ozone disinfection and sterilization can be used as a cultivation water body of aquatic plants, so that the water body can be purified, and certain economic value can be generated.

The current mixing mode of sewage and ozone is that an aeration disc communicated with high-pressure ozone is arranged at the bottom of a sealed tank, and the sewage is controlled to enter from the bottom of the tank body and flow out from the upper part of the tank body, so that the mixing of ozone and sewage is realized. However, the prior technical scheme has the defects of short contact time between the sewage and the ozone, poor mixing effect, and floating of ozone bubbles in the sewage to generate a pollution film.

SUMMERY OF THE UTILITY MODEL

In view of the above-mentioned defect of prior art, the utility model aims at providing a multi-functional clarifier, what can the continuation carries out ozone disinfection and sterilization to eutrophic water, and whole integrated degree is high, and is small, conveniently shifts the transportation.

The purpose of the utility model is realized through such technical scheme:

a multifunctional purifier comprises a water inlet pipe, a water outlet pipe,

the cabinet body is provided with double doors;

the back plate is arranged in the cabinet body and divides the interior of the cabinet body into an inner layer and an outer layer;

the open cabinet is arranged on one side of the cabinet body;

the oxygen generation assembly is arranged in the cabinet body;

the ozone preparation assembly is arranged in the cabinet body and is arranged side by side with the oxygen generation assembly; the oxygen outlet of the oxygen generation assembly is communicated with the oxygen inlet of the oxygen generation assembly;

the mixing assembly is arranged in the open cabinet and is communicated with the ozone outlet, the sewage inlet and the sewage outlet of the ozone preparation assembly respectively.

Further, the oxygen generation assembly includes,

the two oxygen producing towers are arranged on the back plate;

the two air compressors are arranged in the cabinet body and are respectively communicated with the two oxygen making towers;

a silencer disposed on the back plate;

the two-position four-way valve is respectively communicated with the two oxygen generating towers, the silencer and the oxygen inlet of the oxygen generating assembly;

the pipelines of the oxygen making assembly are all shielded by a back plate.

Further, the oxygen generation assembly further comprises a waste gas pipe, one end of the waste gas pipe is communicated with the gas outlet of the silencer, and the other end of the waste gas pipe penetrates through the cabinet body and is located in the open cabinet.

Further, the ozone preparation assembly includes,

the two ozone preparation towers are respectively arranged on the back plate, and the bottoms of the two ozone preparation towers are communicated;

the top of one ozone preparation tower is communicated with the oxygen outlet of the oxygen generation assembly, and the top of the other ozone preparation tower is communicated with the mixing assembly;

the pipelines of the ozone preparation assembly are all shielded by a back plate.

Further, the mixing assembly includes, in combination,

one end of the sewage inlet pipe penetrates through the open cabinet and is positioned in the open cabinet;

one end of the sewage discharge pipe penetrates through the open cabinet and is positioned in the open cabinet;

and the mixing part is respectively communicated with the sewage inlet pipe, the sewage discharge pipe and the ozone outlet of the ozone preparation assembly.

Further, the mixing section includes,

one end of the water conduit is communicated with the sewage inlet pipe;

the smaller opening end of the horn pipe is communicated with the other end of the water conduit; the smaller opening end is respectively communicated with an ozone outlet, a sewage inlet and a sewage outlet of the ozone preparation assembly;

one end of the mixing pipe is communicated with the larger switch end of the horn pipe, and the other end of the mixing pipe is communicated with the sewage discharge pipe.

Further, the mixing part is at least 2.

Furthermore, the mixing assembly is respectively communicated with the ozone outlet, the sewage inlet and the sewage outlet of the ozone preparation assembly to form a pipeline, and an exhaust pipe is further arranged on the pipeline and is provided with an exhaust valve.

Further, the method also comprises the following steps of,

one end of the cooling water inlet pipe is positioned outside the open cabinet, and the other end of the cooling water inlet pipe penetrates through the open cabinet and the cabinet body and is respectively communicated with the oxygen generation assembly and the ozone preparation assembly;

and one end of the cooling drain pipe is positioned outside the open cabinet, the other end of the cooling drain pipe penetrates through the open cabinet and the cabinet body to be communicated with the oxygen generation assembly and the ozone preparation assembly respectively, and a drain valve is arranged on the cooling drain pipe.

Furthermore, a plurality of openings are formed in two opposite side surfaces of the cabinet body; and a flow guide fan is arranged in the opening.

In the above technical scheme of having adopted, the utility model discloses following advantage has:

electric equipment is placed through the cabinet body, protects the equipment, prevents also that personnel from electrocuting etc. has also realized highly integrated, conveniently shifts transportation etc.. Set up sewage and ozone mixing arrangement in opening the cabinet, can protect mixing assembly, make things convenient for the staff to open and close the pipeline again.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

The drawings of the utility model are as follows:

fig. 1 is a schematic structural diagram of a multifunctional purifier.

Fig. 2 is a schematic structural view of the opened multifunctional purifier cabinet.

Fig. 3 is a schematic structural view of the hidden back plate after the multifunctional purifier cabinet body is opened.

In the figure: 1. a cabinet body; 2. a back plate; 3. opening the cabinet; 41. an oxygen generating tower; 42. an air compressor; 43. a muffler; 44. a two-position four-way valve; 45. an exhaust gas pipe; 51. an ozone preparation tower; 61. sewage enters the pipe; 62. a sewage discharge pipe; 63. a mixing section; 631. a water conduit; 632. a flare tube; 633. a mixing tube; 7. cooling the water inlet pipe; 8. cooling the water discharge pipe; 81. a drain valve; 9. opening a hole; 10. a flow guiding fan; 11. an exhaust pipe; 12. an exhaust valve; 13. and a controller.

Detailed Description

The present invention will be further explained with reference to the drawings and examples.

Example (b):

as shown in fig. 1 to 3, a multi-functional cleaner includes,

the cabinet body 1 is provided with double doors;

the back plate 2 is arranged in the cabinet body 1 and divides the interior of the cabinet body 1 into an inner layer and an outer layer;

an open cabinet 3 arranged at one side of the cabinet body 1;

the oxygen generation assembly is arranged in the cabinet body 1;

the ozone preparation assembly is arranged in the cabinet body 1 and is arranged side by side with the oxygen generation assembly; the oxygen outlet of the oxygen generation assembly is communicated with the oxygen inlet of the oxygen generation assembly;

the mixing assembly is arranged in the open cabinet 3 and is communicated with the ozone outlet, the sewage inlet and the sewage outlet of the ozone preparation assembly respectively.

Electric equipment is placed through the cabinet body 1, protects the equipment, also places personnel and electrocutes etc. and has also realized highly integrated, conveniently shifts transportation etc.. Set up sewage and ozone mixing arrangement in opening cabinet 3, can protect mixing assembly, make things convenient for the staff to carry out the switching to the pipeline again.

In this embodiment, the oxygen generation assembly includes,

two oxygen towers 41 arranged on the back plate 2;

two air compressors 42 arranged in the cabinet 1 and respectively communicated with the two oxygen producing towers 41;

a muffler 43 provided on the back plate 2;

the two-position four-way valve 44 is respectively communicated with the two oxygen generating towers 41, the silencer 43 and the oxygen inlet of the oxygen generating assembly;

the pipelines of the oxygen generating assembly are all shielded by the back plate 2.

Through the combination of two oxygen towers 41 and two-position four-way valve 44, can realize the continuous incessant system oxygen, when one oxygen tower 41 was in system oxygen state, another oxygen tower 41 was in the exhaust gas stage, can guarantee all the time that there is high-pressure oxygen output in the whole.

In this embodiment, the oxygen generating assembly further includes a waste gas pipe 45, one end of which is communicated with the air outlet of the silencer 43, and the other end of which passes through the cabinet body 1 and is located in the open cabinet 3.

Exhaust gas is discharged from the cabinet body 1 through the exhaust gas pipe 45, so that the air compressor 42 is prevented from sucking the discharged exhaust gas, and the oxygen generation efficiency is reduced.

In this embodiment, the ozone generation assembly includes,

the two ozone preparation towers 51 are respectively arranged on the back plate 2, and the bottoms of the two ozone preparation towers 51 are communicated;

the top of one ozone preparation tower 51 is communicated with the oxygen outlet of the oxygen generating component, and the top of the other ozone preparation tower 51 is communicated with the mixing component;

the pipelines of the ozone preparation assembly are all shielded by the back plate 2.

Through establishing ties two ozone preparation towers 51 for the preparation that oxygen can maximize is ozone, improves the concentration of ozone, and then improves disinfection's effect.

In this embodiment, the mixing assembly includes,

a sewage inlet pipe 61, one end of which passes through the open cabinet 3 and is positioned in the open cabinet 3;

a sewage discharge pipe 62 having one end passing through the open cabinet 3 and positioned in the open cabinet 3;

and a mixing part 63 which is respectively communicated with the sewage inlet pipe 61, the sewage outlet pipe 62 and the ozone outlet of the ozone preparation component.

Ozone is mixed into flowing sewage through the mixing part 63, so that the ozone is uniformly mixed in the sewage, and thus virus and bacteria in the sewage can be killed to the maximum extent.

In this embodiment, the mixing portion 63 includes,

a water conduit 631 having one end communicating with the sewage inlet pipe 61;

a horn tube 632, the smaller opening end of which is communicated with the other end of the water conduit 631; the smaller opening end is respectively communicated with an ozone outlet, a sewage inlet and a sewage outlet of the ozone preparation assembly;

the mixing tube 633 has one end connected to the larger opening and closing end of the flare 632 and the other end connected to the waste water discharge pipe 62.

The flow rate and pressure of the sewage are changed through the flare 632, so that the ozone is more uniformly and fully mixed into the sewage under the condition that the flow rate and pressure of the sewage are suddenly changed.

In this embodiment, three mixing parts 63 are provided, so that ozone and sewage can be mixed more sufficiently.

In this embodiment, the mixing assembly is respectively communicated with the ozone outlet, the sewage inlet and the sewage outlet of the ozone preparation assembly to form a communicating pipe, and the communicating pipe is further provided with an exhaust pipe 11, and the exhaust pipe 11 is provided with an exhaust valve 12.

The exhaust valve 12 can discharge the low ozone content and the redundant ozone before and after the sewage is injected, thereby ensuring the killing effect and protecting the equipment.

In this embodiment, the method further comprises the steps of,

one end of the cooling water inlet pipe 7 is positioned outside the open cabinet 3, and the other end of the cooling water inlet pipe passes through the open cabinet 3 and the cabinet body 1 and is respectively communicated with the oxygen generation assembly and the ozone preparation assembly;

and one end of the cooling drain pipe 8 is positioned outside the open cabinet 3, the other end of the cooling drain pipe passes through the open cabinet 3 and the cabinet body 1 to be communicated with the oxygen generation assembly and the ozone preparation assembly respectively, and a drain valve 81 is arranged on the cooling drain pipe 8.

The equipment carries out the during operation and will produces a large amount of heats, cools down to equipment through cooling water this moment, prolongs the life of equipment, improve the stability of equipment operation.

In this embodiment, two opposite side surfaces of the cabinet body 1 are provided with a plurality of openings 9; a flow guiding fan 10 is arranged in the opening 9.

The diversion fan 10 can radiate heat to the cabinet 1, and can inject fresh air into the cabinet 1 to be sucked by the air compressor 42.

The multi-functional cleaner of this embodiment operates by communicating the sewage discharge pipe with the water outlet of the sewage pump and communicating the sewage discharge pipe 62 with an external pipe. And the cooling water inlet pipe 7 is communicated with a water outlet of a cooling water pump, and a cooling water discharge pipe is externally connected.

The present embodiment can control the electric appliance by combining the controller 13(PLC programming control) with JSS48A (DH48S) series digital display time relay.

Starting a cooling water pump, wherein cooling water flows in the equipment; the exhaust valve 12 on the exhaust pipe 11 is opened, the air compressor 42 and the two-position four-way valve 44 are started, oxygen is prepared and flows into the ozone preparation tower 51, the initial low-concentration ozone is discharged into the atmosphere through the exhaust valve 12, and after the ozone concentration is stabilized, the exhaust valve 12 is closed.

The sewage pump is started, the sewage enters the water conduit 631, contacts with the ozone through the flared tube 632, then enters the mixing tube 633, fully contacts with the ozone, and finally enters the sewage discharge pipe 62 to be discharged. Therefore, the sewage is fully mixed with the ozone, and the bacteria and the viruses in the sewage are killed.

The cooling water can be discharged through the drain valve 81 if the cooling water needs to be replaced.

Finally, the above embodiments are only used for illustrating the technical solutions of the present invention and not for limiting, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions may be made to the technical solutions of the present invention without departing from the spirit and scope of the technical solutions, and all of them should be covered by the scope of the claims of the present invention.

Claims (10)

1. A multifunctional purifier is characterized by comprising,

the cabinet body is provided with double doors;

the back plate is arranged in the cabinet body and divides the interior of the cabinet body into an inner layer and an outer layer;

the open cabinet is arranged on one side of the cabinet body;

the oxygen generation assembly is arranged in the cabinet body;

the ozone preparation assembly is arranged in the cabinet body and is arranged side by side with the oxygen generation assembly; the oxygen outlet of the oxygen generation assembly is communicated with the oxygen inlet of the oxygen generation assembly;

the mixing assembly is arranged in the open cabinet and is communicated with the ozone outlet, the sewage inlet and the sewage outlet of the ozone preparation assembly respectively.

2. The multi-functional purifier of claim 1, wherein the oxygen generation assembly comprises,

the two oxygen producing towers are arranged on the back plate;

the two air compressors are arranged in the cabinet body and are respectively communicated with the two oxygen making towers;

a silencer disposed on the back plate;

the two-position four-way valve is respectively communicated with the two oxygen generating towers, the silencer and the oxygen inlet of the oxygen generating assembly;

the pipelines of the oxygen making assembly are all shielded by a back plate.

3. The multi-functional purifier of claim 2, wherein the oxygen generation assembly further comprises an exhaust gas pipe, one end of the exhaust gas pipe is communicated with the air outlet of the silencer, and the other end of the exhaust gas pipe penetrates through the cabinet body and is positioned in the open cabinet.

4. The multi-functional purifier of claim 1, wherein the ozone preparation assembly comprises,

the two ozone preparation towers are respectively arranged on the back plate, and the bottoms of the two ozone preparation towers are communicated;

the top of one ozone preparation tower is communicated with the oxygen outlet of the oxygen generation assembly, and the top of the other ozone preparation tower is communicated with the mixing assembly;

the pipelines of the ozone preparation assembly are all shielded by a back plate.

5. The multi-functional purifier of claim 1, wherein the mixing assembly comprises,

one end of the sewage inlet pipe penetrates through the open cabinet and is positioned in the open cabinet;

one end of the sewage discharge pipe penetrates through the open cabinet and is positioned in the open cabinet;

and the mixing part is respectively communicated with the sewage inlet pipe, the sewage discharge pipe and the ozone outlet of the ozone preparation assembly.

6. The multi-functional purifier of claim 5, wherein the mixing section comprises,

one end of the water conduit is communicated with the sewage inlet pipe;

the smaller opening end of the horn pipe is communicated with the other end of the water conduit; the smaller opening end is respectively communicated with an ozone outlet, a sewage inlet and a sewage outlet of the ozone preparation assembly;

one end of the mixing pipe is communicated with the larger switch end of the horn pipe, and the other end of the mixing pipe is communicated with the sewage discharge pipe.

7. The multi-functional purifier of claim 6, wherein the number of mixing sections is at least 2.

8. The multifunctional purifier of claim 1, wherein the mixing component is further provided with an exhaust pipe on a communication pipeline respectively communicating with the ozone outlet, the sewage inlet and the sewage outlet of the ozone preparation component, and the exhaust pipe is provided with an exhaust valve.

9. The multi-functional purifier of claim 1, further comprising,

one end of the cooling water inlet pipe is positioned outside the open cabinet, and the other end of the cooling water inlet pipe penetrates through the open cabinet and the cabinet body and is respectively communicated with the oxygen generation assembly and the ozone preparation assembly;

and one end of the cooling drain pipe is positioned outside the open cabinet, the other end of the cooling drain pipe penetrates through the open cabinet and the cabinet body to be communicated with the oxygen generation assembly and the ozone preparation assembly respectively, and a drain valve is arranged on the cooling drain pipe.

10. The multi-functional purifier of claim 1 wherein the cabinet has a plurality of openings on opposite sides; and a flow guide fan is arranged in the opening.

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