CN209651897U - Ozone generating-device and ozonization bag - Google Patents
Ozone generating-device and ozonization bag Download PDFInfo
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- CN209651897U CN209651897U CN201920245943.9U CN201920245943U CN209651897U CN 209651897 U CN209651897 U CN 209651897U CN 201920245943 U CN201920245943 U CN 201920245943U CN 209651897 U CN209651897 U CN 209651897U
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Abstract
The utility model belongs to sterilizing applied technical field, is related to a kind of ozone generating-device and ozonization bag.The ozone generating-device includes the air pump and ozone generator being connected, and the air pump is connect with the bag body with the ozone generator, and the air pump is for outside air and the intracorporal air pressurized of the bag to be delivered in the ozone generator;The ozone generator is for being made ozone for the received outside air and the intracorporal air of the bag and being delivered in the bag body.Compared with prior art, outside air is not only made ozone and is delivered in bag body by the ozone generating-device of the utility model embodiment, also ozone can be made in the intracorporal air of bag simultaneously and be delivered in bag body, the intracorporal air concentration of bag can in this way reduced rapidly, the intracorporal ozone concentration of bag is quickly raised to required value, so as to improve the working efficiency of sterilizing.
Description
Technical field
The utility model relates to sterilizing applied technical field more particularly to a kind of ozone generating-devices and ozonization
Bag.
Background technique
For ozone as a kind of extremely strong oxidant, it can realize the effect of sterilizing using the oxidability of itself.
Also, it will not cause adverse effect during sterilizing to environment, therefore ozone disinfecting technology has been widely used.
Existing ozonization bag generally comprises bag body and ozone generating-device.Ozone generating-device generally will by air pump
Outside air is delivered in ozone generator, and then outside air is made ozone and is delivered in bag body by ozone generator.But
It is that, in order to make the intracorporal ozone concentration of bag reach the required value of sterilizing, ozone is made in outside air by ozone generating-device
And it is longer to be delivered to this intracorporal process time of bag, to influence the working efficiency of its delivery of ozone into bag body.
Utility model content
The technical problem to be solved by the utility model is to can not quickly make in bag body for existing ozone generating-device
Concentration reach the required value of sterilizing, the technical issues of the working efficiency of delivery of ozone, mentioned to influence it into bag body
For a kind of ozone generating-device and ozonization bag.
In order to solve the above technical problems, on the one hand, the utility model embodiment provides a kind of ozone generating-device, for
It is placed with delivery of ozone in the bag body of article to be sterilized, the ozone generating-device includes that the air pump being connected and ozone occur
Device, and the air pump is connect with the bag body with the ozone generator, the air pump is used for outside air and the bag
Intracorporal air pressurized is delivered in the ozone generator;The ozone generator be used for the received outside air and
The intracorporal air of bag is made ozone and is delivered in the bag body.
Optionally, the ozone generating-device further includes shell, and the housing parts stretch in the bag body, the gas
Pump and the ozone generator be set in the shell, the shell be located at the intracorporal side of the bag be provided with first lead to
Hole, the ozone can be flowed into the bag body by the first through hole.
Optionally, the shell is located at the intracorporal side of the bag and is additionally provided with the second through-hole, the intracorporal air of bag
It can be flowed into the air pump by second through-hole.
Optionally, the side that the shell is located at outside the bag body is provided with third through-hole, and the outside air can lead to
The third through-hole is crossed to flow into the air pump.
Optionally, the first gas-guide tube is provided in the shell, one end of first gas-guide tube is set to described second
The other end of through hole, first gas-guide tube is connect with the air pump, and the intracorporal air of bag is from the second through-hole stream
Through being flowed into the air pump by first gas-guide tube after entering.
Optionally, air inlet pipe is additionally provided in the shell, the air inlet pipe is connect with the air pump, the outside air
Through being flowed into the air pump by the air inlet pipe after third through-hole inflow.
Optionally, the air inlet pipe includes the first pipeline section and the second pipeline section, first pipeline section and first gas-guide tube
It is connect by second pipeline section with the air pump, the air of the first pipeline section output is via described in second pipeline section entrance
In air pump, the air of the first gas-guide tube output enters in the air pump via described via second pipeline section.
Optionally, the first solenoid valve is additionally provided in the shell, first solenoid valve is for controlling first pipe
The air of outflow and cut-off and first gas-guide tube output of relatively described second pipeline section of air of section output is relatively described
The outflow and cut-off of second pipeline section.
Optionally, the second gas-guide tube is additionally provided in the shell, second gas-guide tube is connect with the air pump, described
Second it is for air guide tube be delivered in the air pump in by fragrant atmosphere gas, the air pump is used to for the fragrant atmosphere gas pressurized being delivered to
In the ozone generator, the ozone generator is used to for the received fragrant atmosphere gas being delivered in the bag body.
On the other hand, the utility model embodiment also provides a kind of ozonization bag, including bag body and above-mentioned ozone hair
Generating apparatus, the ozone generating-device convey the ozone into the bag body for being placed with article to be sterilized.
Implement the utility model embodiment, will have the following beneficial effects:
The ozone generating-device of the utility model embodiment, air pump are connect with ozone generator, air pump and ozone generator
It is connect with bag body, outside air and the intracorporal air of bag are able to enter in ozone generator under the pressure effect of air pump.It is smelly
Oxygen Generator is used to received outside air and the intracorporal air of bag ozone is made, and ozone is delivered in bag body.With it is existing
There is technology to compare, outside air is not only made ozone and is delivered to bag body by the ozone generating-device of the utility model embodiment
It is interior, while also ozone can be made in the intracorporal air of bag and be delivered in bag body, the intracorporal air concentration of bag can be made rapid in this way
Reduce, the intracorporal ozone concentration of bag is quickly raised to required value, convey so as to improving ozone generating-device into bag body smelly
The working efficiency of oxygen.
Detailed description of the invention
In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment
Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is only
It is some embodiments of the utility model, for those of ordinary skill in the art, in the premise not made the creative labor
Under, it is also possible to obtain other drawings based on these drawings.
Wherein:
Fig. 1 is the schematic diagram of ozonization bag in one embodiment;
Fig. 2 is another schematic diagram of ozonization bag in one embodiment;
Fig. 3 is the main view of ozone generating-device in one embodiment;
Fig. 4 is the top view of ozone generating-device in one embodiment;
Fig. 5 is the schematic internal view of ozone generating-device in one embodiment;
Fig. 6 is the explosive view of ozone generating-device in one embodiment;
Fig. 7 is another explosive view of ozone generating-device in one embodiment.
Appended drawing reference in specification is as follows:
10, ozone generating-device;101, air pump;102, ozone generator;1021, ozone storehouse;1022, ontology;103, shell
Body;1031, first through hole;1032, the second through-hole;1033, third through-hole;1034, fourth hole;1035, fragrance chamber;1036,
Mounting hole;1037, first shell;1038, second shell;104, the first gas-guide tube;1041, the first connecting tube;1042, second connects
Adapter tube;105, air inlet pipe;1051, the first pipeline section;1052, the second pipeline section;106, the first solenoid valve;107, the second gas-guide tube;
108, second solenoid valve;109, escape pipe;110, controller;111, battery;112, it switchs;113, charging port;114, power supply
Indicator light;115, working station indicator;
20, bag body.
Specific embodiment
The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model
Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole
Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without creative efforts
Every other embodiment obtained, fall within the protection scope of the utility model.
As shown in Figure 1, Figure 2 and shown in Fig. 5, the utility model embodiment provides a kind of ozonization bag.Ozonization bag includes
Ozone generating-device 10 and bag body 20.The delivery of ozone into the bag body 20 for be placed with article to be sterilized of ozone generating-device 10.It is smelly
Oxygengenerating plant 10 includes the air pump 101 and ozone generator 102 being connected.Air pump 101 and ozone generator 102 are and bag body
20 connections.Air pump 101 is for the air pressurized in outside air and bag body 20 to be delivered in ozone generator 102.Ozone hair
Raw device 102 is for being made ozone for the air in received outside air and bag body 20 and being delivered in bag body 20.
The ozone generating-device 10 of the utility model embodiment, air pump 101 are connect with ozone generator 102, air pump 101 with
Ozone generator 102 is connect with bag body 20, the energy under the pressure effect of air pump 101 of the air in outside air and bag body 20
Enough enter in ozone generator 102.Ozone generator 102 is smelly for the air in received outside air and bag body 20 to be made
Oxygen, and ozone is delivered in bag body 20.Compared with prior art, the ozone generating-device 10 of the utility model embodiment is not only
Ozone is made in outside air and is delivered in bag body 20, while also ozone can be made in the air in bag body 20 and be delivered to bag
In body 20, it can make that the air concentration in bag body 20 reduces rapidly, the ozone concentration in bag body 20 is quickly raised to required value in this way,
So as to improve the working efficiency of the delivery of ozone into bag body 20 of ozone generating-device 10.
In one embodiment, as shown in Fig. 1, Fig. 4 and Fig. 6, ozone generating-device 10 further includes shell 103, and shell 103
Divide and stretch in bag body 20, air pump 101 and ozone generator 102 are set in shell 103, and shell 103 is located in bag body 20
Side is provided with first through hole 1031, and ozone can be flowed into bag body 20 by first through hole 1031.
In one embodiment, as shown in Fig. 1, Fig. 4 and Fig. 6, shell 103 includes the first shell 1037 that is interlocked and the
Two shells 1038.First shell 1037 stretches in bag body 20, and second shell 1038 is exposed to outside bag body 20.First through hole 1031
It is set in first shell 1037.
In one embodiment, the quantity of first through hole 1031 is multiple.Multiple first through hole 1031 are arranged at intervals at first
On shell 1037, to improve the flow velocity that ozone flows into bag body 20.In the present embodiment, the quantity of first through hole 1031 is two
It is a.Certainly, in other embodiments, the quantity of first through hole 1031 can also be arranged to three or four according to actual needs.
In one embodiment, as shown in Fig. 1, Fig. 4 and Fig. 6, the side that shell 103 is located in bag body 20 is additionally provided with second
Through-hole 1032.Air in bag body 20 can be flowed into air pump 101 by the second through-hole 1032.Specifically, the second through-hole 1032
It is set in first shell 1037.
In one embodiment, as shown in Fig. 1, Fig. 4 and Fig. 6, the quantity of the second through-hole 1032 is multiple.Multiple second through-holes
1032 are arranged at intervals in first shell 1037, to improve the flow velocity that the air in bag body 20 flows into air pump 101.In this implementation
In example, the quantity of the second through-hole 1032 is one.Certainly, in other embodiments, the quantity of the second through-hole 1032 can also basis
Actual needs is arranged to two or three.
In one embodiment, as shown in Fig. 1, Fig. 3 and Fig. 5, it is logical that the side that shell 103 is located at outside bag body 20 is provided with third
Hole 1033.Outside air can be flowed into air pump 101 by third through-hole 1033.In the present embodiment, third through-hole 1033 is set
It is placed in second shell 1038.
In one embodiment, as shown in Fig. 1, Fig. 5 and Fig. 6, the first gas-guide tube 104 is provided in shell 103.First air guide
One end of pipe 104 is set at the second through-hole 1032, and the other end of the first gas-guide tube 104 is connect with air pump 101.In bag body 20
Air is passed through after flowing out from the second through-hole 1032 and is flowed into air pump 101 by the first gas-guide tube 104.
In one embodiment, as shown in Fig. 1, Fig. 3 and Fig. 5, air inlet pipe 105 is additionally provided in shell 103.Air inlet pipe 105
It is connect with air pump 101.Outside air is after the inflow of third through-hole 1033 through being flowed into air pump 101 by air inlet pipe 105.
In one embodiment, as shown in Fig. 1, Fig. 5 and Fig. 6, air inlet pipe 105 includes the first pipeline section 1051 and the second pipeline section
1052.First pipeline section 1051 and the first gas-guide tube 104 are connect by the second pipeline section 1052 with air pump 101.First pipeline section 1051 is defeated
Air out enters in air pump 101 via the second pipeline section 1052.The air of first gas-guide tube 104 output is via the second pipeline section 1052
Into in air pump 101.It should be understood that the first pipeline section 1051 and the first gas-guide tube 104 pass through the second pipeline section 1052 and air pump
101 connections, can be to avoid excessive piping connection, to be conducive to simplify ozone generating-device 10 using the design of this structure
Structure and save the cost.
In one embodiment, as shown in Fig. 1, Fig. 5 and Fig. 6, the first solenoid valve 106 is additionally provided in shell 103.First
Solenoid valve 106 is used to control outflow and cut-off and first of the air with respect to the second pipeline section 1052 of the first pipeline section 1051 output
Outflow and cut-off of the air that gas-guide tube 104 exports with respect to the second pipeline section 1052.
Specifically, when the first solenoid valve 106 is in the first gear, the conducting of the first pipeline section 1051,104 quilt of the first gas-guide tube
It blocks, outside air is successively flowed into via the first pipeline section 1051 and the second pipeline section 1052 after the inflow of third through-hole 1033 at this time
In air pump 101.Similarly, when the first solenoid valve 106 is in the second gear, the first pipeline section 1051 blocked, the first gas-guide tube 104
Conducting, the air in bag body 20 is after the inflow of the second through-hole 1032 successively via the first gas-guide tube 104 and the second pipeline section at this time
1052 flow into air pump 101.In this way, air pump 101 can be by the air delivery in outside air and bag body 20 to ozone generator
In 102, and ozone is made by ozone generator 102 and is delivered in bag body 20, so that the ozone concentration in bag body 20 is fast
Speed is increased to required value, is conducive to the working efficiency for improving the delivery of ozone into bag body 20 of ozone generating-device 10.
That is, can control ozone generating-device 10 by inciting somebody to action when the first solenoid valve 106 switches to the second gear by the first gear
Outside air is delivered in air pump 101 that be transformed into will be in the air delivery in bag body 20 to air pump 101.Above-mentioned structure design can
To realize the connection for two gas circuits for realizing ozone generating-device 10 respectively by a solenoid valve, to be conducive to simplify ozone
The structure and save the cost of generating device 10.
In one embodiment, as shown in Fig. 1, Fig. 5 and Fig. 6, it is additionally provided with the second gas-guide tube 107 in shell 103, second
Gas-guide tube 107 is connect with air pump 101, and for fragrant atmosphere gas to be delivered in air pump 101, air pump 101 is used for the second gas-guide tube 107
Fragrant atmosphere gas pressurized is delivered in ozone generator 102, ozone generator 102 is used to received fragrant atmosphere gas being delivered to bag
In body 20.It should be understood that air pump 101 is connect with ozone generator 102, ozone generator 102 is connect with bag body 20, therefore
Under the pressure effect of air pump 101, fragrant atmosphere gas can be delivered in bag body 20 by ozone generator 102, to terminate in disinfection
(disinfection terminates to refer to that 102 stopping of ozone generator prepares ozone, and ozone generator 102 only serves the effect of conducting at this time) disappears afterwards
Except the pungent niff retained on article.
It designs using the above structure, fragrant atmosphere gas can be flowed into bag body 20 by ozone generator 102, with flow of ozone
The path entered in bag body 20 is consistent, therefore can be conducive to the knot for simplifying ozone generating-device 10 to avoid excessive piping connection
Structure.
In one embodiment, as shown in Fig. 1, Fig. 5 and Fig. 6, the first gas-guide tube 104 includes the first connecting tube 1041 and the
Two connecting tubes 1042, the first connecting tube 1041 are set at the second through-hole 1032, the first connecting tube 1041 and the second gas-guide tube 107
It is connect by the second connecting tube 1042 with air pump 101, the air of the first connecting tube 1041 output is flowed via the second connecting tube 1042
Enter in air pump 101, the fragrant atmosphere gas of the second gas-guide tube 107 output flows into air pump 101 via the second connecting tube 1042.It can manage
Solution, the first connecting tube 1041 and the second gas-guide tube 107 are connect by the second connecting tube 1042 with air pump 101, and use is this
Structure design can be to avoid excessive piping connection, to be conducive to simplify the structure and save the cost of ozone generating-device 10.
In one embodiment, as shown in Fig. 1, Fig. 5 and Fig. 6, it is additionally provided with second solenoid valve 108 in shell 103, second
Solenoid valve 108 is used to control outflow and cut-off of the air with respect to the second connecting tube 1042 of the first connecting tube 1041 output, and
Outflow and cut-off of the fragrant atmosphere gas phase of second gas-guide tube 107 output to the second connecting tube 1042.
Specifically, when second solenoid valve 108 is in the first gear, the conducting of the first connecting tube 1041, the second gas-guide tube 107
It is blocked, the air in bag body 20 is after the inflow of the second through-hole 1032 successively via the first connecting tube 1041 and the second connection at this time
Pipe 1042 flows into air pump 101.Similarly, when second solenoid valve 108 is in the second gear, the first connecting tube 1041 blocked,
The conducting of second gas-guide tube 107, fragrant atmosphere gas successively flows into air pump via the second gas-guide tube 107 and the second connecting tube 1042 at this time
In 101.
That is, can control ozone generating-device 10 by inciting somebody to action when second solenoid valve 108 switches to the second gear by the first gear
It is transformed into air delivery to air pump 101 in bag body 20 and fragrant atmosphere gas is delivered in air pump 101.Above-mentioned structure design can
To realize the connection for two gas circuits for realizing ozone generating-device 10 respectively by a solenoid valve, to be conducive to simplify ozone
The structure and save the cost of generating device 10.
In one embodiment, as shown in Fig. 1, Fig. 3, Fig. 5 and Fig. 6, the first pipeline section 1051 and the second connecting tube 1042 pass through
Second pipeline section 1052 is connect with air pump 101, and the first solenoid valve 106 is used to control air that the first pipeline section 1051 exports with respect to the
The air or fragrant atmosphere gas phase of the outflow and cut-off of two pipeline sections 1052 and the output of the second connecting tube 1042 are to the second pipeline section
1052 outflow and cut-off.
Specifically, when the first solenoid valve 106 is in the first gear, the conducting of the first pipeline section 1051, the second connecting tube 1042
It is blocked.At this point, outside air is successively flowed via the first pipeline section 1051 and the second pipeline section 1052 after the inflow of third through-hole 1033
Enter in air pump 101.
Similarly, when the first solenoid valve 106 is in the second gear, the first pipeline section 1051 blocked, the second connecting tube 1042
Conducting.Also, when second solenoid valve 108 is in the first gear, the conducting of the first connecting tube 1041, the second gas-guide tube 107 are sealed
It is stifled.At this point, the air in bag body 20 is after the inflow of the second through-hole 1032 successively via the first connecting tube 1041, the second connecting tube
1042 and second pipeline section 1052 flow into air pump 101 in.
Similarly, when the first solenoid valve 106 is in the second gear, the first pipeline section 1051 blocked, the second connecting tube 1042
Conducting.Also, when second solenoid valve 108 is in the second gear, the first connecting tube 1041 is blocked, the second gas-guide tube 107 is led
It is logical.At this point, fragrant atmosphere gas successively flows into air pump 101 via the second gas-guide tube 107, the second connecting tube 1042 and the second pipeline section 1052
It is interior.
That is, may be implemented to realize ozone generating-device 10 respectively by two solenoid valves using above-mentioned structure design
The connection of three gas circuits, to be conducive to simplify the structure and save the cost of ozone generating-device 10.
In one embodiment, as shown in Fig. 1, Fig. 5 and Fig. 7, the side that shell 103 is located at outside bag body 20 is additionally provided with the 4th
One end of through-hole 1034, the second gas-guide tube 107 is set at fourth hole 1034, the other end and air pump of the second gas-guide tube 107
101 connections, fragrant atmosphere gas is after the inflow of fourth hole 1034 through being flowed into air pump 101 by the second gas-guide tube 107.In the present embodiment
In, fourth hole 1034 is set in second shell 1038.
In one embodiment, as shown in Fig. 1, Fig. 5 and Fig. 7, the side that shell 103 is located at outside bag body 20, which is additionally provided with, to be used for
The fragrance chamber 1035 of fragrance is stored, fragrance can generate fragrant atmosphere gas in fragrance chamber 1035.Fragrance chamber 1035 and fourth hole
1034 connections, fragrant atmosphere gas are flowed into the second gas-guide tube 107 by fourth hole 1034 from fragrance chamber 1035.In the present embodiment
In, fragrance chamber 1035 is set in second shell 1038.
In one embodiment, as shown in figure 5, also setting up escape pipe 109 in shell 103, escape pipe 109 is connected to air pump
Between 101 and ozone generator 102, in the air delivery to ozone generator 102 that escape pipe 109 is used to export air pump 101.
In one embodiment, as shown in Figures 1 and 5, ozone generator 102 includes ozone storehouse 1021 and ontology 1022, this
Body 1022 is arranged in ozone storehouse 1021, and air pump 101 is connect with ozone storehouse 1021, and ozone storehouse 1021 is connect with bag body 20, air pump
101 for the air pressurized in outside air and bag body 20 to be delivered in ozone storehouse 1021, and ontology 1022 is used for ozone storehouse
Air in 1021 is made ozone and is delivered in bag body 20.
In one embodiment, as shown in figure 5, being additionally provided with controller 110 in shell 103.Ozone generator 102, air pump
101, the first solenoid valve 106 and second solenoid valve 108 are electrically connected with controller 110.Controller 110 is for controlling ozone
The starting and closing of device 102, air pump 101, the first solenoid valve 106 and second solenoid valve 108.
In one embodiment, as shown in figure 5, being additionally provided with battery 111 in shell 103.Battery 111 is used for controller
110 power supplies.
In one embodiment, as shown in Fig. 1, Fig. 5 and Fig. 6, the side that shell 103 is located at outside bag body 20 is additionally provided with switch
112.Switch 112 is electrically connected with controller 110.Switch 112 by controller 110 control ozone generating-device 10 start to work or
It stops working.In the present embodiment, switch 112 is set in second shell 1038.
In one embodiment, as shown in Fig. 1, Fig. 3 and Fig. 5, the side that shell 103 is located at outside bag body 20 is additionally provided with charging
Port 113, charging port 113 are electrically connected with battery 111.Charging port 113 to battery 111 for charging.Extraneous power supply
It can be charged to battery 111 by charging port 113.In the present embodiment, charging port 113 is set to second shell 1038
On.
In one embodiment, as shown in Fig. 1, Fig. 3 and Fig. 5, the side that shell 103 is located at outside bag body 20, which is additionally provided with, to be used for
The mounting hole 1036 of switch 112 is installed.The cavity and charging port 113 that the hole wall and switch 112 of mounting hole 1036 surround are constituted
Third through-hole 1033.
In one embodiment, as shown in Fig. 1, Fig. 3 and Fig. 5, the side that shell 103 is located at outside bag body 20 is additionally provided with power supply
Indicator light 114, power supply indicator 114 are electrically connected with battery 111.Power supply indicator 114 is used to show the residue electricity of battery 111
Amount.In the present embodiment, power supply indicator 114 is set in second shell 1038.
In one embodiment, power supply indicator 114 is electrically connected with controller 110.Controller 110 is for controlling power supply instruction
Lamp 114 flickers.
In one embodiment, as shown in Fig. 1, Fig. 3 and Fig. 5, the side that shell 103 is located at outside bag body 20 is additionally provided with work
Status indicator lamp 115.Working station indicator 115 is for characterizing the current working condition of ozone generating-device 10.In this implementation
In example, working station indicator 115 is set in second shell 1038.
In one embodiment, working station indicator 115 is electrically connected with controller 110.Controller 110 is for controlling work
Status indicator lamp 115 flickers.
In one embodiment, as shown in Figure 1, bag body 20 is made of leather and TPU.
In one embodiment, as shown in Fig. 2, bag body 20 is made of stretch fabric and TPU.
Specifically, by with a thickness of the TPU of 0.15mm (Thermoplastic polyurethanes, thermoplastic polyurethane bullet
Property body rubber) overlay on leather (or stretch fabric), bag body 20 then is made by the techniques such as punching, voltage and sewing, in this way system
At bag body 20 have excellent antioxygenic property and good flexibility.
Above disclosures are merely preferred embodiments of the utility model, the utility model cannot be limited with this certainly
Interest field, therefore equivalent variations made according to the claim of the utility model still fall within the scope of the utility model.
Claims (10)
1. a kind of ozone generating-device, for the delivery of ozone into the bag body for being placed with article to be sterilized, which is characterized in that described
Ozone generating-device includes the air pump and ozone generator being connected, and the air pump and the ozone generator with the bag
Body connection, the air pump is for outside air and the intracorporal air pressurized of the bag to be delivered in the ozone generator;Institute
Ozone generator is stated for ozone to be made in the received outside air and the intracorporal air of the bag and is delivered to the bag
In vivo.
2. ozone generating-device according to claim 1, which is characterized in that the ozone generating-device further includes shell,
The housing parts stretch in the bag body, and the air pump and the ozone generator are set in the shell, the shell
Body is located at the intracorporal side of the bag and is provided with first through hole, and the ozone can flow into the bag body by the first through hole
It is interior.
3. ozone generating-device according to claim 2, which is characterized in that the shell is located at the intracorporal side of the bag
It is additionally provided with the second through-hole, the intracorporal air of bag can be flowed into the air pump by second through-hole.
4. ozone generating-device according to claim 3, which is characterized in that the shell is located at the side outside the bag body
It is provided with third through-hole, the outside air can be flowed into the air pump by the third through-hole.
5. ozone generating-device according to claim 4, which is characterized in that the first gas-guide tube is provided in the shell,
One end of first gas-guide tube is set to second through hole, and the other end and the air pump of first gas-guide tube connect
It connects, the intracorporal air of bag is after second through-hole inflow through being flowed into the air pump by first gas-guide tube.
6. ozone generating-device according to claim 5, which is characterized in that be additionally provided with air inlet pipe, institute in the shell
It states air inlet pipe to connect with the air pump, the outside air is after third through-hole inflow through as described in air inlet pipe inflow
In air pump.
7. ozone generating-device according to claim 6, which is characterized in that the air inlet pipe includes the first pipeline section and second
Pipeline section, first pipeline section and first gas-guide tube are connect by second pipeline section with the air pump, first pipeline section
The air of output enters in the air pump via second pipeline section, the air of first gas-guide tube output via it is described via
Second pipeline section enters in the air pump.
8. ozone generating-device according to claim 7, which is characterized in that be additionally provided with the first electromagnetism in the shell
Valve, first solenoid valve are used to control the outflow and cut-off of relatively described second pipeline section of air of the first pipeline section output,
And the outflow and cut-off of relatively described second pipeline section of air of the first gas-guide tube output.
9. ozone generating-device according to claim 5, which is characterized in that be additionally provided with the second air guide in the shell
Pipe, second gas-guide tube connect with the air pump, described second it is for air guide tube be delivered in the air pump in by fragrant atmosphere gas,
The air pump is used to for the fragrant atmosphere gas pressurized being delivered in the ozone generator, and the ozone generator will be for that will receive
The fragrant atmosphere gas be delivered in the bag body.
10. a kind of ozonization bag, which is characterized in that sent out including bag body and ozone as described in any one of claims 1-9
Generating apparatus, the ozone generating-device convey the ozone into the bag body for being placed with article to be sterilized.
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CN109704288A (en) * | 2019-02-27 | 2019-05-03 | 深圳安士宝科技有限公司 | Ozone generating-device and ozonization bag |
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Publication number | Priority date | Publication date | Assignee | Title |
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CN109704288A (en) * | 2019-02-27 | 2019-05-03 | 深圳安士宝科技有限公司 | Ozone generating-device and ozonization bag |
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Granted publication date: 20191119 Termination date: 20210227 |