CN204051562U - A kind of device utilizing low pressure ozone gas source to manufacture high-pressure ozone water - Google Patents

A kind of device utilizing low pressure ozone gas source to manufacture high-pressure ozone water Download PDF

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Publication number
CN204051562U
CN204051562U CN201420436697.2U CN201420436697U CN204051562U CN 204051562 U CN204051562 U CN 204051562U CN 201420436697 U CN201420436697 U CN 201420436697U CN 204051562 U CN204051562 U CN 204051562U
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water
ozone
tempering tank
air
pipeline
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CN201420436697.2U
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徐名勇
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Abstract

The utility model discloses a kind of device utilizing low pressure ozone gas source to manufacture high-pressure ozone water, it is characterized in that it comprises ozone air-water tempering tank (8), the water inlet of ozone air-water tempering tank (8) is connected with water inlet (10) by pipeline and entering water electromagnetic valve (9); The delivery port of ozone air-water tempering tank (8) is by pipeline and go out water one-way valve (13) and be connected with delivery port (15); The air inlet of ozone air-water tempering tank (8) is connected with ozone gas import (1) by pipeline and breather check valve (6); Ozone air-water tempering tank (8) is provided with aeration opening (8-1), and aeration opening (8-1) connects exhaust outlet mouth (5) by pipeline; Entering water electromagnetic valve (9) connects electric control unit (3), the utility model is simple and practical, cost is low, bactericidal effect is good, be conducive to the healthy of people, safe and reliable, Ozone Water discharge pressure close to intake pressure, and makes any change without the need to the similar devices of ice machine and other field.

Description

A kind of device utilizing low pressure ozone gas source to manufacture high-pressure ozone water
Technical field:
The utility model relates to a kind of device utilizing low pressure ozone gas source to manufacture high-pressure ozone water, belongs to ozone gas generating means application field.
Background technology:
Ice cube due to ice machine is easily subject to the pollution of the microorganisms such as bacterium, saccharomycete, fungi and mould, through its bacterial reproduction of water filtering chlorine residue even more serious, the ice cube bacterium that some famous fast food restaurants provide exceeds standard and is often exposed by the media, this had both had a strong impact on the health of people, also brought serious puzzlement to the business activities of catering trade.Also there is same problem in similar application such as beverage machine, the field such as kidney machine, dentist's machine of washing.Ozone Water is as efficient, wide spectrum, can be applicable to this field without residual storage sterilization technology, had at present the similar devices using ozone water sterilizing of part ice machine and other field, the similar devices water inlet due to ice machine and other field is inner be equipped with there is throttle structure magnetic valve so need 1.5Kg/cm 2above high hydraulic pressure, thus make equipment become complicated.Also have some for the ozone water apparatus of the similar devices of ice machine and other field, it needs frame for movement or the circuit control system of the similar devices changing ice machine and other field.
Utility model content:
The purpose of this utility model is to overcome the deficiency of above-mentioned prior art and provides a kind of simple and practical, cost is low, bactericidal effect is good, be conducive to the healthy of people, safe and reliable, Ozone Water discharge pressure close to intake pressure, and manufactures the device of high-pressure ozone water without the need to the low pressure ozone gas source that utilizes that the similar devices of ice machine and other field makes any change.
The purpose of this utility model can be reached by following measure: a kind of device utilizing low pressure ozone gas source to manufacture high-pressure ozone water, it is characterized in that it comprises ozone air-water tempering tank, the water inlet of ozone air-water tempering tank is connected with water inlet by pipeline and entering water electromagnetic valve; The delivery port of ozone air-water tempering tank is by pipeline and go out water one-way valve and be connected with delivery port; The air inlet of ozone air-water tempering tank is connected with ozone gas import by pipeline and breather check valve; Ozone air-water tempering tank is provided with aeration opening, and aeration opening connects exhaust outlet mouth by pipeline; Entering water electromagnetic valve connects electric control unit.
In order to realize the purpose of this utility model further, it also comprises at least one ozone air-water tempering tank, and the water inlet of each ozone air-water tempering tank is connected with water inlet by pipeline and entering water electromagnetic valve respectively; The delivery port of each ozone air-water tempering tank is respectively by pipeline and go out water one-way valve and be connected with delivery port; The air inlet of each ozone air-water tempering tank is all connected with ozone gas import by pipeline and breather check valve; Each ozone air-water tempering tank is equipped with aeration opening, and each aeration opening all connects exhaust outlet mouth by pipeline; Each entering water electromagnetic valve all connects electric control unit.
In order to realize the purpose of this utility model further, the water inlet of described each ozone air-water tempering tank connects entering water electromagnetic valve by water feeding one-way valve respectively.
In order to realize the purpose of this utility model further, described breather check valve connects the gas outlet of buffer barrel, and the air inlet of buffer barrel connects ozone gas import.
In order to realize the purpose of this utility model further, the import that described aeration opening connects reduction bucket is connected; The outlet of reduction bucket connects exhaust outlet mouth.
In order to realize the purpose of this utility model further, described water inlet is connected with the import of flow switch, the outlet of flow switch connects the import of bypass magnetic valve, the outlet of bypass magnetic valve is connected with delivery port by check valve, and flow switch, bypass magnetic valve are connected with electric control unit respectively.
In order to realize the purpose of this utility model further, described bypass magnetic valve is normally open type magnetic valve.
In order to realize the purpose of this utility model further, described aeration opening is a small structure, and aeration opening port is higher than the delivery port of ozone air-water tempering tank.
The utility model can produce following good effect compared with the prior art: the utility model utilizes the manufacture of low pressure ozone gas source close to the device of the high-pressure ozone water of intake pressure; Similar devices without the need to ice machine and other field makes any change and directly can be injected in equipment pipeline by high-pressure ozone water and go, and sterilizes, sterilization uses, thus product is more easily accepted by market.That is interrupted for some equipment (as ice machine) permission provides Ozone Water, and then the water purification after filter is passed into after the position disinfection that the Ozone Water of the pipeline and valve that enter these equipment flows through, make pipeline and valve contact the Ozone Water time short, make the life of pipeline and valve.
Accompanying drawing illustrates:
Fig. 1 is the structural representation of the first embodiment of the present utility model;
Fig. 2 is the structural representation of the second embodiment of the present utility model;
Fig. 3 is the structural representation of the third embodiment of the present utility model;
Fig. 4 is the structural representation of the 4th kind of embodiment of the present utility model.
Detailed description of the invention:
Below in conjunction with accompanying drawing, detailed description of the invention of the present utility model is elaborated:
Embodiment 1: a kind of device (see Fig. 1) utilizing low pressure ozone gas source to manufacture high-pressure ozone water, it comprises ozone air-water tempering tank 8, and the water inlet of ozone air-water tempering tank 8 is connected with water inlet 10 by pipeline and water feeding one-way valve 7, entering water electromagnetic valve 9; The delivery port of ozone air-water tempering tank 8 is by pipeline and go out water one-way valve 13 and be connected with delivery port 15; The air inlet of ozone air-water tempering tank 8 is connected with the gas outlet of buffer barrel 2 by pipeline and breather check valve 6; Ozone air-water tempering tank 8 is provided with aeration opening 8-1, and aeration opening 8-1 is a small structure, and aeration opening 8-1 port is higher than the delivery port of ozone air-water tempering tank.Aeration opening 8-1 is connected by the import of pipeline with reduction bucket 4; The outlet of reduction bucket 4 connects exhaust outlet mouth 5; The air inlet of buffer barrel 2 connects ozone gas import 1; The import of flow switch 11 is connected with water inlet 10, and the outlet of flow switch 11 connects the import of bypass magnetic valve 12, and the outlet of bypass magnetic valve 12 is connected with delivery port 15 by check valve 14.Flow switch 11, entering water electromagnetic valve 9, bypass magnetic valve 12 are connected with electric control unit 3 respectively, and bypass magnetic valve 12 is normally open type magnetic valve.
Usual entering water electromagnetic valve 9 is in closed condition, bypass magnetic valve 12 is in opening, bypass magnetic valve 12 can adopt normally open type magnetic valve, the ozone gas that ozone gas source produces enters buffer barrel 2 by ozone gas import 1, then enter ozone air-water tempering tank 8 by the air inlet of the gas outlet of buffer barrel 2, breather check valve 6 and ozone air-water tempering tank 8, unnecessary gas enters reduction bucket 4 by the import of aeration opening 8-1 and reduction bucket 4.Be reduced into oxygen through reduction bucket 4 and discharge outflow through exhaust outlet mouth 5.When the similar devices of ice machine and other field needs to use water, flow switch 11 perceives signal, control bypass magnetic valve 12 by electric control unit 3 to close, entering water electromagnetic valve 9 is opened, running water or other water purification after filter are by water inlet 10, entering water electromagnetic valve 9, the water inlet of ozone air-water tempering tank 8 enters ozone air-water tempering tank 8, mix with ozone gas, aeration opening 8-1 is a small structure, Ozone Water sinks to a barrel underseal and lives in aeration opening 8-1, a small amount of Ozone Water is only had to be flowed out by aeration opening 8-1, ozone gas is stored in the upper part of ozone air-water tempering tank 8.After mixing, most of Ozone Water is passed through water one-way valve 13 and delivery port 15 flows in equipment pipeline, now in ozone air-water tempering tank 8, pressure is high, the ozone gas that ozone gas source produces does not enter in ozone air-water tempering tank 8, accumulate in buffer barrel 2, pressure durations in buffer barrel 2 is raised, because breather check valve 6 has slight seepage during use Ozone Water, a small amount of water can leak into buffer barrel 2, the another one effect of buffer barrel 2 is that anti-sealing backflows in ozone gas source and causes ozone gas source impaired, when continuing to provide Ozone Water a period of time, after meeting the needs of the similar devices of ice machine and other field, electric control unit 3 controls bypass magnetic valve 12 and opens, entering water electromagnetic valve 9 is closed, running water or other water purification after filter are by water inlet 10, flow switch 11, bypass magnetic valve 12 continues as equipment and supplies water, the Ozone Water of equipment pipeline and valve is washed away, electric control unit 3 ignores now flow switch signal, simultaneously, entering water electromagnetic valve 9 Ozone Water of closing in rear ozone air-water tempering tank 8 is slowly discharged by aeration opening 8-1 and is flowed into reduction bucket 4, pressure in ozone air-water tempering tank 8 reduces gradually, when reaching balance with the pressure in buffer barrel 2, the ozone gas stored in buffer barrel 2 start to flow to ozone air-water tempering tank 8 further the water of extruding in it make it to enter into reduction bucket 4 by aeration opening 8-1 Ozone Water reduction discharged outflow through exhaust outlet mouth 5, until be emptied completely, so far carry out next round and the preparation of Ozone Water is provided.
Embodiment 2: a kind of device (see Fig. 2) utilizing low pressure ozone gas source to manufacture high-pressure ozone water, it comprises ozone air-water tempering tank 8, and the water inlet of ozone air-water tempering tank 8 is connected with water inlet 10 by pipeline and water feeding one-way valve 7, entering water electromagnetic valve 9; The delivery port of ozone air-water tempering tank 8 is by pipeline and go out water one-way valve 13 and be connected with delivery port 15; The air inlet of ozone air-water tempering tank 8 is connected with the gas outlet of buffer barrel 2 by pipeline and breather check valve 6; Ozone air-water tempering tank 8 is provided with aeration opening 8-1, and aeration opening 8-1 is a small structure, and aeration opening 8-1 port is higher than the delivery port of ozone air-water tempering tank.Aeration opening 8-1 is connected by the import of pipeline with reduction bucket 4; The outlet of reduction bucket 4 connects exhaust outlet mouth 5; The air inlet of buffer barrel 2 connects ozone gas import 1, and entering water electromagnetic valve 9 connects electric control unit 3.
Usual entering water electromagnetic valve 9 is in closed condition, the ozone gas that ozone gas source produces enters buffer barrel 2 by ozone gas import 1, then enter ozone air-water tempering tank 8 by the air inlet of the gas outlet of buffer barrel 2, breather check valve 6 and ozone air-water tempering tank 8, unnecessary gas enters reduction bucket 4 by the import of aeration opening 8-1 and reduction bucket 4.Be reduced into oxygen through reduction bucket 4 and discharge outflow through exhaust outlet mouth 5.When equipment needs to use water, electric control unit 3 controls entering water electromagnetic valve 9 and opens, running water or other water purification after filter enter ozone air-water tempering tank 8 by the water inlet of water inlet 10, entering water electromagnetic valve 9, ozone air-water tempering tank 8, mix with ozone gas, aeration opening 8-1 is a small structure, Ozone Water sinks to a barrel underseal and lives in aeration opening 8-1, and only have a small amount of Ozone Water to flow into reduction bucket 4 by aeration opening 8-1 discharge, ozone gas is stored in the upper part of ozone air-water tempering tank 8.After mixing, most of Ozone Water is passed through water one-way valve 13 and delivery port 15 flows in equipment pipeline, now in ozone air-water tempering tank 8, pressure is high, the ozone gas that ozone gas source produces does not enter in ozone air-water tempering tank 8, accumulate in buffer barrel 2, pressure durations in buffer barrel 2 is raised, because breather check valve 6 has slight seepage during use Ozone Water, a small amount of water can leak into buffer barrel 2, the another one effect of buffer barrel 2 is that anti-sealing backflows in ozone gas source and causes ozone gas source impaired, when continuing to provide Ozone Water a period of time, after meeting the needs of equipment, electric control unit 3 controls entering water electromagnetic valve 9 and closes, entering water electromagnetic valve 9 Ozone Water of closing in rear ozone air-water tempering tank 8 is slowly discharged by aeration opening 8-1 and is flowed into reduction bucket 4, pressure in ozone air-water tempering tank 8 reduces gradually, when reaching balance with the pressure in buffer barrel 2, the ozone gas stored in buffer barrel 2 starts to flow to the further water extruded in it of ozone air-water tempering tank 8 to be made it to be entered into after Ozone Water is reduced by reduction bucket 4 by aeration opening 8-1 to discharge outflow through exhaust outlet mouth 5, until be emptied completely, so far carry out next round and the preparation of Ozone Water is provided.
Embodiment 3: a kind of device (see Fig. 3) utilizing low pressure ozone gas source to manufacture high-pressure ozone water, it comprises two ozone air-water tempering tanks, and the water inlet of ozone air-water tempering tank 8 is connected with water inlet 10 by pipeline and water feeding one-way valve 7, entering water electromagnetic valve 9; The delivery port of ozone air-water tempering tank 8 is by pipeline and go out water one-way valve 13 and be connected with delivery port 15; The air inlet of ozone air-water tempering tank 8 is connected with the gas outlet of buffer barrel 2 by pipeline and breather check valve 6; Ozone air-water tempering tank 8 is provided with aeration opening 8-1, and aeration opening 8-1 is a small structure, and aeration opening 8-1 port is higher than the delivery port of ozone air-water tempering tank.Aeration opening 8-1 is connected by the import of pipeline with reduction bucket 4; The water inlet of ozone air-water tempering tank 18 is connected with water inlet 10 by pipeline and water feeding one-way valve 17, entering water electromagnetic valve 16; The delivery port of ozone air-water tempering tank 18 is by pipeline and go out water one-way valve 19 and be connected with delivery port 15; The air inlet of ozone air-water tempering tank 18 is connected with the gas outlet of buffer barrel 2 by pipeline and breather check valve 6; Ozone air-water tempering tank 18 is equipped with aeration opening 18-1, and aeration opening 18-1 is a small structure, and aeration opening 18-1 port is higher than the delivery port of ozone air-water tempering tank.Aeration opening 18-1 is connected by the import of pipeline with reduction bucket 4; The outlet of reduction bucket 4 connects exhaust outlet mouth 5; The air inlet of buffer barrel 2 connects ozone gas import 1, and entering water electromagnetic valve 9, entering water electromagnetic valve 16 all connect electric control unit 3.
Usual entering water electromagnetic valve 9 is in closed condition, entering water electromagnetic valve 16 is in opening, the ozone gas that ozone gas source produces enters in buffer barrel 2 by ozone gas import 1, then enter ozone air-water tempering tank 8 by the air inlet on the gas outlet of buffer barrel 2, breather check valve 6 and ozone air-water tempering tank 8, unnecessary gas enters reduction bucket 4 by the import of aeration opening 8-1 and reduction bucket 4.Be reduced into oxygen through reduction bucket 4 and discharge outflow through exhaust outlet mouth 5.When equipment needs to use water, electric control unit 3 controls that entering water electromagnetic valve 16 is closed, entering water electromagnetic valve 9 is opened, running water or other water purification after filter enter ozone air-water tempering tank 8 by the water inlet of water inlet 10, entering water electromagnetic valve 9, ozone air-water tempering tank 8, mix with ozone gas, aeration opening 8-1 is a small structure, Ozone Water sinks to a barrel underseal and lives in aeration opening 8-1, only have a small amount of Ozone Water to flow into reduction bucket 4 by aeration opening 8-1 discharge, ozone gas is stored in the upper part of ozone air-water tempering tank 8.After mixing, most of Ozone Water is passed through water one-way valve 13 and delivery port 15 flows in equipment pipeline, now in ozone air-water tempering tank 8, pressure is high, the ozone gas that ozone gas source produces accumulates in buffer barrel, pressure durations in buffer barrel is raised, simultaneously, entering water electromagnetic valve 16 Ozone Water of closing in rear ozone air-water tempering tank 18 is slowly discharged by aeration opening 18-1 and is flowed into reduction bucket 4, pressure in ozone air-water tempering tank 18 reduces gradually, when reaching balance with the pressure in buffer barrel 2, the ozone gas stored in buffer barrel 2 starts to flow to the further water extruded in it of ozone air-water tempering tank 18 to be made it to be entered into after Ozone Water is reduced by reduction bucket 4 by aeration opening 18-1 to discharge outflow through exhaust outlet mouth 5, until be emptied completely, unnecessary gas enters reduction bucket 4 by the import of aeration opening 18-1 and reduction bucket 4.Be reduced into oxygen through reduction bucket 4 and discharge outflow through exhaust outlet mouth 5.Because breather check valve 6 has slight seepage during use Ozone Water, when two ozone air-water tempering tank pressure all can leak into buffer barrel 2 higher than having a small amount of water during pressure in buffer barrel 2, the another one effect of buffer barrel 2 is that anti-sealing backflows in ozone gas source and causes ozone gas source impaired, after continuing to provide Ozone Water a period of time, when ozone gas in ozone air-water tempering tank 8 runs out of, control entering water electromagnetic valve 16 by electric control unit 3 to open, entering water electromagnetic valve 9 is closed, running water or other water purification after filter are by water inlet 10, entering water electromagnetic valve 16, the water inlet of ozone air-water tempering tank 18 enters ozone air-water tempering tank 18, mix with ozone gas, aeration opening 18-1 is a small structure, Ozone Water sinks to a barrel underseal and lives in aeration opening 18-1, a small amount of Ozone Water is only had to flow into reduction bucket 4 by aeration opening 18-1 discharge, ozone gas is stored in the upper part of ozone air-water tempering tank 18.After mixing, most of Ozone Water is passed through water one-way valve 19 and delivery port 15 flows in equipment pipeline; Simultaneously, entering water electromagnetic valve 9 Ozone Water of closing in rear ozone air-water tempering tank 8 is slowly discharged by aeration opening 8-1 and is flowed into reduction bucket 4, pressure in ozone air-water tempering tank 8 reduces gradually, when reaching balance with the pressure in buffer barrel 2, the ozone gas stored in buffer barrel 2 start to flow to ozone air-water tempering tank 8 further the water of extruding in it make it to enter into reduction bucket 4 by aeration opening 8-1 and discharge outflow by after ozone through exhaust outlet mouth 5, until be emptied completely, so far carry out next round and the preparation of Ozone Water is provided.
Embodiment 4: a kind of device (see Fig. 4) utilizing low pressure ozone gas source to manufacture high-pressure ozone water, ozone air-water tempering tank 8, the water inlet of ozone air-water tempering tank 8 is connected with water inlet 10 by pipeline and entering water electromagnetic valve 9; The delivery port of ozone air-water tempering tank 8 is by pipeline and go out water one-way valve 13 and be connected with delivery port 15; The air inlet of ozone air-water tempering tank 8 is connected with ozone gas import 1 by pipeline and breather check valve 6; Ozone air-water tempering tank 8 is provided with aeration opening 8-1, and aeration opening 8-1 connects exhaust outlet mouth 5 by pipeline; Entering water electromagnetic valve 9 connects electric control unit 3.
Usual entering water electromagnetic valve 9 is in closed condition, the ozone gas that ozone gas source produces enters ozone air-water tempering tank 8 by the air inlet of ozone gas import 1, breather check valve 6 and ozone air-water tempering tank 8, and unnecessary gas to be discharged through exhaust outlet mouth 5 by aeration opening 8-1 and flows out.When equipment needs to use water, electric control unit 3 controls entering water electromagnetic valve 9 and opens, running water or other water purification after filter enter ozone air-water tempering tank 8 by the water inlet of water inlet 10, entering water electromagnetic valve 9, ozone air-water tempering tank 8, mix with ozone gas, aeration opening 8-1 is a small structure, Ozone Water sinks to a barrel underseal and lives in aeration opening 8-1, only have a small amount of Ozone Water by aeration opening 8-1 and discharge through exhaust outlet mouth 5 and flow out, ozone gas is stored in the upper part of ozone air-water tempering tank 8.After mixing, most of Ozone Water is passed through water one-way valve 13 and delivery port 15 flows in equipment pipeline, now in ozone air-water tempering tank 8, pressure is high, the ozone gas that ozone gas source produces does not enter in ozone air-water tempering tank 8, when continuing to provide Ozone Water a period of time, after meeting the needs of equipment, electric control unit 3 controls entering water electromagnetic valve 9 and closes; Entering water electromagnetic valve 9 Ozone Water of closing in rear ozone air-water tempering tank 8 is slowly discharged by aeration opening 8-1 and is flowed into reduction bucket 4, pressure in ozone air-water tempering tank 8 reduces gradually, ozone gas starts to flow to the further water extruded in it of ozone air-water tempering tank 8 to be made it by aeration opening 8-1, discharges outflow through exhaust outlet mouth 5, until be emptied completely, so far carry out next round and the preparation of Ozone Water is provided.
Above embodiment is only be described preferred embodiment of the present utility model; not scope of the present utility model is limited; under the prerequisite not departing from the utility model design spirit; the various distortion that the common engineers and technicians in this area make the technical solution of the utility model and improvement, all should fall in protection domain that claims of the present utility model determine.

Claims (8)

1. utilize low pressure ozone gas source to manufacture a device for high-pressure ozone water, it is characterized in that it comprises ozone air-water tempering tank (8), the water inlet of ozone air-water tempering tank (8) is connected with water inlet (10) by pipeline and entering water electromagnetic valve (9); The delivery port of ozone air-water tempering tank (8) is by pipeline and go out water one-way valve (13) and be connected with delivery port (15); The air inlet of ozone air-water tempering tank (8) is connected with ozone gas import (1) by pipeline and breather check valve (6); Ozone air-water tempering tank (8) is provided with aeration opening (8-1), and aeration opening (8-1) connects exhaust outlet mouth (5) by pipeline; Entering water electromagnetic valve (9) connects electric control unit (3).
2. a kind of device utilizing low pressure ozone gas source to manufacture high-pressure ozone water according to claim 1, it is characterized in that it also comprises at least one ozone air-water tempering tank, the water inlet of each ozone air-water tempering tank is connected with water inlet (10) by pipeline and entering water electromagnetic valve respectively; The delivery port of each ozone air-water tempering tank is respectively by pipeline and go out water one-way valve and be connected with delivery port (15); The air inlet of each ozone air-water tempering tank is all connected with ozone gas import (1) by pipeline and breather check valve (6); Each ozone air-water tempering tank is equipped with aeration opening, and each aeration opening all connects exhaust outlet mouth (5) by pipeline; Each entering water electromagnetic valve all connects electric control unit (3).
3. a kind of device utilizing low pressure ozone gas source to manufacture high-pressure ozone water according to claim 1 and 2, is characterized in that the water inlet of described each ozone air-water tempering tank connects entering water electromagnetic valve by water feeding one-way valve respectively.
4. a kind of device utilizing low pressure ozone gas source to manufacture high-pressure ozone water according to claim 1 and 2, it is characterized in that described breather check valve (6) connects the gas outlet of buffer barrel (2), the air inlet of buffer barrel (2) connects ozone gas import (1).
5. a kind of device utilizing low pressure ozone gas source to manufacture high-pressure ozone water according to claim 1 and 2, is characterized in that the import of described aeration opening (8-1) connection reduction bucket (4) is connected; The outlet of reduction bucket (4) connects exhaust outlet mouth (5).
6. a kind of device utilizing low pressure ozone gas source to manufacture high-pressure ozone water according to claim 1 and 2, it is characterized in that described water inlet (10) is connected with the import of flow switch (11), the outlet of flow switch (11) connects the import of bypass magnetic valve (12), the outlet of bypass magnetic valve (12) is connected with delivery port (15) by check valve (14), and flow switch (11), bypass magnetic valve (12) are connected with electric control unit (3) respectively.
7. a kind of device utilizing low pressure ozone gas source to manufacture high-pressure ozone water according to claim 6, is characterized in that described bypass magnetic valve (12) is normally open type magnetic valve.
8. a kind of device utilizing low pressure ozone gas source to manufacture high-pressure ozone water according to claim 1, it is characterized in that described aeration opening is a small structure, and aeration opening port is higher than the delivery port of ozone air-water tempering tank.
CN201420436697.2U 2014-08-05 2014-08-05 A kind of device utilizing low pressure ozone gas source to manufacture high-pressure ozone water Expired - Fee Related CN204051562U (en)

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CN201420436697.2U CN204051562U (en) 2014-08-05 2014-08-05 A kind of device utilizing low pressure ozone gas source to manufacture high-pressure ozone water

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Application Number Priority Date Filing Date Title
CN201420436697.2U CN204051562U (en) 2014-08-05 2014-08-05 A kind of device utilizing low pressure ozone gas source to manufacture high-pressure ozone water

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104190307A (en) * 2014-08-05 2014-12-10 徐名勇 Device for manufacturing high-pressure ozone water from low-pressure ozone gas source
CN105065903A (en) * 2015-08-13 2015-11-18 徐名勇 Ozone gas storage device keeping fixed pressure

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104190307A (en) * 2014-08-05 2014-12-10 徐名勇 Device for manufacturing high-pressure ozone water from low-pressure ozone gas source
CN105065903A (en) * 2015-08-13 2015-11-18 徐名勇 Ozone gas storage device keeping fixed pressure

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Granted publication date: 20141231

Termination date: 20180805