CN207016482U - A kind of double oil pocket cooling ozone generating pipes and its manufactured ozone generator - Google Patents
A kind of double oil pocket cooling ozone generating pipes and its manufactured ozone generator Download PDFInfo
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- CN207016482U CN207016482U CN201720695625.3U CN201720695625U CN207016482U CN 207016482 U CN207016482 U CN 207016482U CN 201720695625 U CN201720695625 U CN 201720695625U CN 207016482 U CN207016482 U CN 207016482U
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Abstract
The utility model discloses a kind of double oil pocket cooling ozone generating pipes and its manufactured ozone generator, including parallel and coaxial stainless steel inner tube (5) and stainless steel outer tube (8), the stainless steel inner tube (5) is provided with air-source inflow mouth (6) close to upper end, and ozone outlet nozzle (10) is provided with close to lower end;Quartz ampoule (13) is provided with stainless steel inner tube (5), discharging gap is provided between quartz ampoule (13) and stainless steel inner tube (5), quartz ampoule (13) inwall is provided with high-field electrode (12);Described stainless steel outer tube (8) one end is provided with external electrode cooling oil inlet nozzle (9), and the other end is provided with external electrode cooling oil oil outlet (7).The utility model is simple in construction, relative volume is small, pipeline is easy to connect, it is easy to carry out multitube connection in series-parallel use, ozone concentration and yield can be improved and reduce that unit ozone output energy consumption, cost performance are very high, is particularly suitable for use in and requires the project that high concentration high yield ozone is provided.
Description
Technical field
The utility model belongs to ozone generating-device technical field, more particularly to a kind of double oil pocket cooling ozone generating pipes and
Its manufactured ozone generator.
Background technology
Ozone is the allotrope of oxygen, is one of most strong oxidant of nature.Its oxidizing potential is 2.07V, with
The oxidizing potential 2.87V of simple substance fluoride is compared, and oxidation susceptibility is only second to fluorine and occupies second.
Ozone has broad-spectrum bactericidal capacity, is a kind of efficient, wide spectrum, quick insecticide, its sterilizing ability is chlorine
300~600 times, there is the advantages of disinfection efficiency height, cleaning, deodorization, fast decolouring.Additionally can be with oxidation removal water or air
In micro polluting substance, seldom produce accessory substance, non-secondary pollution, resultant effect is very good.
Purification of air, industrial exhaust gas purification, semiconductor manufacturing, chemical industry, food storage be fresh-keeping indoors, drinking water kills
Bacterium, water factory or swimming-pool water processing and Industrial Waste Water Treatments, the oil processing of crude system, sump oil processing, it is middle oil recovery and sterilization,
The fields such as aquaculture, health care are widely used.
, can only be in the produced on-site of application but ozone can not be stored and transported, therefore ozone generating-device is into above-mentioned row
The visual plant of industry.
Dielectric barrier discharge method (DBD) is the method for optimizing (voltolising method) of current large-scale production ozone.Conventional
Dielectric barrier discharge ozone generation unit generally has two kinds of structure types:
One kind is designed to oval tubulose, has two parallel and coaxial electrode tubes inside and outside it, it (is typically outer that one, which is ground electrode,
Electrode), another is high-field electrode (electrode in being typically), and their interval is kept certain and put with one layer of dielectric substance pipe
Electric gap, it can carry out serial or parallel connection combination on demand, so as to meet the extensive needs for preparing ozone of industrialization.
Another kind is designed to plate profile structure, is characterized in having many blocks to be spaced and parallel battery lead plate, connects power supply
Ground terminal is ground electrode, and connect power supply high-voltage output end is high-field electrode.Ground electrode is staggered with high-field electrode.Ground electrode
Dielectric substance plate is mounted between high-field electrode and leaves discharging gap.
Dielectric barrier discharge method (DBD) ozone generator generally used in reality, its manufacture 1Kg concentration be 21% it is smelly
Energy consumption needed for oxygen, calculated value are 0.82 degree of electricity.But the energy consumption in actual motion is far longer than calculated value, experiment
Data confirm that, energy consumption needed for the ozone that manufacture 1Kg concentration is 21% are:
When by the use of oxygen as source of the gas, actual total energy consumption is 7 degree of electricity left and right.The energy for showing wherein there was only 11.71% is used
In producing ozone, remaining 88.29% energy is then lost in the form of heat etc..
When by the use of air as source of the gas, actual total energy consumption is 15.5 degree of electricity left and right.Show wherein there was only 5.29% energy
For producing ozone, remaining 94.71% energy is lost in the form of heat etc..
These energy losses are mainly produced by two parts, first, making in discharge air-gap gas temperature to gas ionization drastically
Rise, second, dielectric substance medium has energy dissipation.
Further, since the reaction of generation ozone is reversible reaction, the ozone generated can decomposition-reduction at high temperature, such as
Temperature in fruit working gas gap cannot get timely and effective control, can cause the decomposition-reduction of ozone so that ozone output, concentration and
Utilization rate of electrical significantly declines.
High temperature is also possible to damage electrode or causes dielectric substance thermal breakdown.Therefore, discharge cell is cooled down, is that raising is smelly
Oxygen yield and efficiency and the vital measure for protecting ozone generator efficient stable to work.
Therefore in large-scale industry ozone generator, generally adopt and electrode is cooled down in various manners, with cooling agent band
Heat is walked, yield of ozone, concentration decline and the increase of specific yield energy consumption for preventing its reversible reaction from bringing, and ensure equipment safety
Operation.In the type of cooling, single electrode cooling and bipolar electrode cooling, circulating cooling and acyclic cooling can be divided into.In refrigerant
In selection, existing frequently-used is water and air.
Single electrode cooling is generally all that only the ground electrode (external electrode) of working gas gap side is cooled down, cooling system letter
It is single.But the high-field electrode (interior electrode) of working gas gap opposite side still can temperature rise, cause the working air current in working gas gap
Temperature rises.So single electrode cooling is limited to reducing working air current temperature effect.
Theory and practice all shows that bipolar electrode cooling is best to reducing the working air current temperature effect in working gas gap.Though
Right bipolar electrode cooling system is more complicated than single electrode cooling system, in the case where only using a kind of refrigerant (water), to two electrodes
Between high voltage to have special treatment measures.But as long as ingenious in design, rationally cost increase is little, bipolar electrode cooling and single electrode
Cooling is high all the better compared to cost performance.
Acyclic cooling can only be water cooling and air-cooled so conventional since it is desired that substantial amounts of refrigerant supplement.Thermal conductivity factor
It is the proper property parameter of material in itself, for describing the capacity of heat transmission of material.The thermal conductivity factor of air is 0.024, and water is led
Hot coefficient 0.54, the thermal conductivity factor of water are 22.5 times of air, i.e. the capacity of heat transmission of water is significantly larger than air.
Identical heat is taken away, air cooling system can only be by increasing area of dissipation and improving wind speed.This is by guiding discharge list
Elementary volume increase is a lot.In addition, in the higher area of temperature or temperature higher season, air-cooled effect can be worse.It is relative and
Speech, the change of water temperature is little, so, the acyclic usual prioritizing selection water-cooling pattern of cooling system.
Statistics shows, uses cooling water inflow of the running water needed for acyclic type of cooling production 10Kg/h ozone
For:When the source of the gas that works is source of oxygen, 480 cubic metres of cooling water is needed daily.When the source of the gas that works is air-source, need daily
Want 960 cubic metres of cooling water.Consumption to resource is huge, and operating cost is high.
If the system of deep well submerged pump, water filter, water tank etc. one to be increased, it is necessary to beat deep-well using underground water cooling
Row equipment, along with underground water typically all has the features such as hardness is high, and content of mineral substances is high, and impurity is more, easy fouling.Easily cause
The heat of discharge cell can not be discharged quickly, and the equipment fault such as line clogging.If underground water is carried out at demineralization
Reason, investment and operating cost can all increase.
In the scheme that prior art is cooled down to bipolar electrode simultaneously, to avoid two interelectrode high pressures of discharge cell short
Road, it is some that two electrodes are cooled down respectively with two kinds of refrigerants, because two sets of cooling systems in equipment be present, add equipment
Complexity and cost.
When with a kind of refrigerant (such as:Water) when being cooled down to two electrodes simultaneously, only a set of cooling system in equipment.But
Due to will be conductive by water between high-field electrode and ground electrode, while ground electrode (typically discharge chamber enclosure) also will be with high electricity
Pressure, this will threaten to miscellaneous equipment and personal safety, it is necessary to take special treatment measures to be just avoided that this defect.
The Chinese patent of Application No. 01238245.0 discloses one kind and does refrigerant with water, and in the cooling of ozone generating pipe
Install water retardation coil at water entrance additional.It is avoided that two interelectrode high voltage short circuits of discharge cell.The shortcomings that this technology, is:
After water retardation coil extends water route, equipment volume can be significantly increased, and add the possibility of line clogging, therefore set large-scale
It is impracticable in standby.
The Chinese patent application of Application No. 201510894151.0 discloses one kind and does refrigerant with water, and occurs in ozone
Install spiral coil at the cooling water outlet and inlet of pipe additional, its length of run is 3-8 rice.It is avoided that two interelectrode height of discharge cell
Pressure short circuit.The shortcomings that this technology, is:After installation spiral coil extends water route, equipment volume can be significantly increased, and increase
The possibility of line clogging, thus it is impracticable in large scale equipment.
The Chinese patent of Application No. 201220676919.9 discloses one kind and uses circulating cooling mode deionized water
Refrigerant is done, improves the insulaion resistance of water, avoids two interelectrode high voltage short circuits of discharge cell.Equipment be not significantly increased
On the premise of volume, two electrodes are cooled down simultaneously, it is technically more advanced than above two scheme.The shortcomings that this technology, exists
In:Although using circulating cooling mode, high-purity deionized water is always lossy, it is necessary to which timing supplements.And commercialization
High-purity deionized water can not obtain in many areas, if oneself manufacture is not calculated pole again.According to common pure water, due to
Its insulation resistivity can only achieve (1M Ω/centimetre) rank, potential safety hazard be present in the other application of voltage level.
Utility model content
In view of the shortcomings of the prior art, the utility model provides a kind of double oil pockets cooling ozone generating pipes and its manufactured smelly
Oxygen Generator, the ozone generating pipe are simple in construction, cost-effective, can be significantly using single refrigerant circulation cooling bipolar electrode
Ozone concentration and yield are improved, and significantly reduces the product of specific energy consumption, it is smelly that the requirement that is particularly suitable for use in provides high concentration high yield
The project of oxygen.
The utility model first aspect, there is provided a kind of double oil pocket cooling ozone generating pipes, including parallel and coaxially stainless
Steel inner tube 5 and stainless steel outer tube 8, the stainless steel inner tube 5 are provided with air-source inflow mouth 6 close to upper end, and ozone is provided with close to lower end
Outlet nozzle 10;Quartz ampoule 13 is provided with stainless steel inner tube 5, discharging gap, stone are provided between quartz ampoule 13 and stainless steel inner tube 5
The inwall of English pipe 13 is provided with high-field electrode 12;The both ends of quartz ampoule 13 are equipped with insulation pipe close 17, wherein being set on an insulation pipe close 17
There is interior cooling of electrode oil inlet nozzle 11, another insulation pipe close 17 is provided with interior cooling of electrode oil oil outlet 1;Two insulation pipe closes 17 with
Oil seal circle 18 is equipped between quartz ampoule 13;Described one end of stainless steel outer tube 8 is provided with external electrode cooling oil inlet nozzle 9, another
End is provided with external electrode cooling oil oil outlet 7.
Further, the stainless steel inner tube 5, stainless steel outer tube 8, external electrode cooling oil inlet nozzle 9 and external electrode cooling
Oily oil outlet 7 forms external electrode cooling oil chamber 15, and insulating oil is filled in external electrode cooling oil chamber 15.The external electrode cooling oil chamber
15 are used as ground electrode.
Further, the quartz ampoule 13, insulation pipe close 17, oil seal circle 18, interior cooling of electrode oil inlet nozzle 11 and interior
Cooling of electrode oil oil outlet 1 forms interior cooling of electrode oil pocket 16, and insulating oil is filled in interior cooling of electrode oil pocket 16.
Further, the high-field electrode 12 is pipe made of copper foil, is close on the inwall of quartz ampoule 13, is immersed in and fills out
In the insulating oil filled, quartz ampoule turns into dielectric barrier.
Further, the outside of insulation pipe close 17 is provided with insulator foot 3, and insulator foot 3 is arranged on stainless steel inner tube 5
On, airtight seal 19 is provided between insulator foot 3 and stainless steel inner tube 5;The upper end of insulator foot 3 is additionally provided with insulation gland 2, lower end
If ring flange 4;Ring flange 4 is fixed in stainless steel inner tube 5, and insulator foot 3 and insulation pipe close 17 are fixed on method by insulation gland 2
In blue disk and stainless steel inner tube.
Further, the height of stainless steel outer tube 8 is less than stainless steel inner tube 5, and the upper/lower terminal of stainless steel outer tube 8
Sealed between stainless steel inner tube 5.
Further, the stainless steel inner tube 5, quartz ampoule 13, insulator foot 3, airtight seal 19, the and of air-source inflow mouth 6
Ozone outlet nozzle 10 forms discharging gap air cavity 14.
Further, the interior cooling of electrode oil oil outlet 1, interior cooling of electrode oil inlet nozzle 11, external electrode cooling oil are entered
Oil nozzle 9 and external electrode cooling oil oil outlet 7 are connected with public pipeline road, public pipeline road and cooling back installation phase
Even.
The utility model second aspect, there is provided one kind is occurred using ozone made of double oil pocket cooling ozone generating pipes
Device.
Utility model works principle is as follows:Stainless steel inner tube 5, stainless steel outer tube 8, external electrode cooling in the utility model
Oily inlet nozzle 9 and external electrode cooling oil oil outlet 7, constitute external electrode cooling oil chamber 15, drive of the transformer insulation oil in oil pump
Under dynamic, enter external electrode cooling oil chamber 15 from external electrode cooling oil inlet nozzle 9, absorb the heat assembled in stainless steel inner tube 5
Afterwards, sent out via external electrode cooling oil oil outlet 7, cooling back installation is returned to along public pipeline road.Transformer insulation oil
It is to ozone generating pipe bipolar electrode while the refrigerant that is cooled down.
Quartz ampoule 13, insulation pipe close 17, oil seal circle 18, interior cooling of electrode oil inlet nozzle 11, interior cooling of electrode oil are fuel-displaced
Mouth 1, interior cooling of electrode oil pocket 16 is constituted, electrode 12 is close on the inwall of quartz ampoule 13 in high pressure.Transformer insulation oil exists
Under the driving of oil pump, enter interior cooling of electrode oil pocket 16 from interior cooling of electrode oil inlet nozzle 11, absorb the He of electrode 12 in high pressure
After the heat assembled on quartz ampoule 13, sent out via interior cooling of electrode oil oil outlet 1, it is cold to return to circulation along public pipeline road
But device.
Stainless steel inner tube 5, quartz ampoule 13, insulator foot 3, airtight seal 19, air-source inflow mouth 6 and the structure of ozone outlet nozzle 10
Into air cavity.Working air current is sent into air cavity from air-source inflow mouth 6, and the ozone of generation is discharged from ozone outlet nozzle 10.Work gas
Source can be compressed air or oxygen.
The air cavity is the working clearance left between quartz ampoule and stainless steel inner tube 5 (external electrode), work gas
Stream passes through herein.After applying ac high voltage between two electrodes, medium resistance is produced to flowing through the working air current in the working clearance
Gear discharges and generates ozone.
Compared with prior art, the utility model has the advantages that:
1st, insulated between high-field electrode and ground electrode of the present utility model using transformer insulation oil, and ground electrode
Reliable ground, it ensure that the shell of arc chamber is not charged, ensured the personal safety of operating personnel.
2nd, the utility model employs double oil cooling types of cooling, maximum limit to the high-field electrode and ground electrode of ozone discharge tube
The heat of discharge tube is taken away degree, reduces the temperature of discharge tube, ozone concentration and yield greatly improved, significantly reduce unit
Ozone output energy consumption, and reduce the possibility of discharge tube thermal breakdown at high temperature.
3rd, high-field electrode and ground electrode of the present utility model use transformer insulation oil circulating cooling system, simple in construction,
It is easy to multitube parallel to form extensive ozone generator.
4th, refrigerant is done compared to water, it is safer that transformer insulation oil does refrigerant.By standard GB/T 2536-90 skill
Art requirement, the breakdown voltage of common transformer insulating oil are not less than 35KV.Power supply far above conventional ozone generating pipe exports
Voltage 10KV~15KV voltage class.Than deionized water good insulation preformance.
5th, refrigerant is done compared to high-purity deionized water, it is more practical that transformer insulation oil does refrigerant, because every electricity consumption
Area all can't do without power transformer, power transformer will regularly replace insulating oil, so the acquisition of transformer insulation oil
In the absence of region shortage problem.
6th, refrigerant is done compared to water, transformer insulation oil does refrigerant radiating faster, because the specific heat capacity of oil is more than water
Small (oil:2000 Joules per Kg Kelvins;Water:4200 Joules per Kg Kelvins), it is identical in the space of same volume
Heat make oil temperature rise it is higher than water 2.1 times.Again according to Newton's law of cooling:" when body surface and surrounding have temperature difference
When, the unit interval is directly proportional to temperature difference from unit area dispersed heat ".Therefore, the very big water of the temperature difference and oil, which are sent into, cools down
After device, oil can be many soon than water-cooled.
The utility model due to it is simple in construction, relative volume is small, pipeline is easy to connect, it is easy to carries out multitube connection in series-parallel expansion
Big yield, ozone concentration and yield can be improved and reduce that unit ozone output energy consumption, cost performance are very high, and the requirement that is particularly suitable for use in carries
For the project of high concentration high yield ozone.
Brief description of the drawings
Fig. 1 is ozone generating pipe shaft side figure;
Fig. 2 is ozone generating pipe front view;
Fig. 3 is ozone generating pipe left view;
Fig. 4 is Fig. 3 E-E sectional views;
Fig. 5 is the partial enlarged drawing of location A in Fig. 4
Marked in figure:Cooling of electrode oil oil outlet in 1-;2- insulation glands;3- insulator foots;4- ring flanges;5- stainless steels
Inner tube;6- air-source inflow mouths;7- external electrode cooling oil oil outlets;8- stainless steel outer tubes;9- external electrode cooling oil inlet nozzles;10-
Ozone outlet nozzle;Cooling of electrode oil inlet nozzle in 11-;Electrode in 12- high pressures;13- quartz ampoules;14- discharging gap air cavitys;15-
Outer oil cavity;Oil pocket in 16-;17- insulation pipe closes;18- oil seal circles;The airtight seal of 19-.
Embodiment
The technical solution of the utility model is described in further details with reference to specific embodiment, but the utility model
It is not limited to following technical scheme.
Embodiment 1
As shown in Fig. 1~Fig. 5, double oil pocket cooling ozone generating pipe structures, it includes:Interior cooling of electrode oil oil outlet
1;Insulate gland 2;Insulator foot 3;Ring flange 4;Stainless steel inner tube 5;Air-source inflow mouth 6;External electrode cooling oil oil outlet 7;No
Become rusty steel outer tube 8;External electrode cooling oil inlet nozzle 9;Ozone outlet nozzle 10;Interior cooling of electrode oil inlet nozzle 11;Electrode 12 in high pressure;
Quartz ampoule 13;Discharging gap 14;Outer oil cavity 15;Interior oil pocket 16;Insulate pipe close 17;Oil seal circle 18;Airtight seal 19.Stainless steel
Inner tube 5 is parallel and coaxial with stainless steel outer tube 8, and the stainless steel inner tube 5 is provided with air-source inflow mouth 6 close to upper end, close to lower end
Provided with ozone outlet nozzle 10;Quartz ampoule 13 is provided with stainless steel inner tube 5, electric discharge is provided between quartz ampoule 13 and stainless steel inner tube 5
Gap, high-field electrode 12 is glued with the inwall of quartz ampoule 13;High-field electrode 12 is pipe made of copper foil.
The both ends of quartz ampoule 13 are equipped with insulation pipe close 17, wherein an insulation pipe close 17 is provided with interior cooling of electrode oil inlet nozzle
11, another insulation pipe close 17 is provided with interior cooling of electrode oil oil outlet 1, insulate and is provided with oil seal between pipe close 17 and quartz ampoule 13
Circle 18;The one end of stainless steel outer tube 8 is provided with external electrode cooling oil inlet nozzle 9, and the other end is provided with external electrode cooling oil oil outlet 7.
Insulation pipe close 17 outside is provided with insulator foot 3, and insulator foot 3 is arranged in stainless steel inner tube 5, insulator foot 3 and
Airtight seal 19 is provided between stainless steel inner tube 5;The upper end of insulator foot 3 is additionally provided with insulation gland 2, and lower end sets ring flange 4.It is described
The height of stainless steel outer tube 8 is less than stainless steel inner tube 5, and the upper/lower terminal of stainless steel outer tube 8 is close between stainless steel inner tube 5
Envelope.
Stainless steel inner tube 5, stainless steel outer tube 8, external electrode cooling oil inlet nozzle 9 and external electrode cooling oil oil outlet 7, form
External electrode cooling oil chamber 15.Transformer insulation oil enters external electrode under the driving of oil pump, from external electrode cooling oil inlet nozzle 9
Cooling oil chamber 15, after absorbing the heat assembled in stainless steel inner tube 5, send back to circulation via external electrode cooling oil oil outlet 7
Cooling device.
Quartz ampoule 13, insulation pipe close 17, oil seal circle 18, interior cooling of electrode oil inlet nozzle 11, interior cooling of electrode oil are fuel-displaced
Mouth 1, interior cooling of electrode oil pocket 16 is constituted, electrode 12 is close on the inwall of quartz ampoule 13 in high pressure.Transformer insulation oil exists
Under the driving of oil pump, enter interior cooling of electrode oil pocket 16 from interior cooling of electrode oil inlet nozzle 11, absorb the He of electrode 12 in high pressure
After the heat assembled on quartz ampoule 13, cooling back installation is sent back to via interior cooling of electrode oil oil outlet 1.
Stainless steel inner tube 5, quartz ampoule 13, insulator foot 3, airtight seal 19, air-source inflow mouth 6 and the structure of ozone outlet nozzle 10
Into air cavity.Working air current is sent into air cavity from air-source inflow mouth 6, and the ozone of generation is discharged from ozone outlet nozzle 10.Work gas
Stream can be compressed air or oxygen.
Ozone generator can be made in double oil pocket cooling ozone generating pipes.
The use process of double oil pocket cooling ozone generating pipes is as follows:
First, oil pump is first started, the transformer insulation oil in cooling back installation is sent into along public pipeline road simultaneously under
State in two cooling oil paths:
1st, transformer insulation oil enters interior cooling of electrode oil pocket 16 from interior cooling of electrode oil inlet nozzle 11, absorbs in high pressure
After the heat assembled on electrode 12 and quartz ampoule 13, send out via interior cooling of electrode oil oil outlet 1, returned along public pipeline road
To cooling back installation.
2nd, transformer insulation oil enters external electrode cooling oil chamber 15 from external electrode cooling oil inlet nozzle 9, absorbs in stainless steel
After the heat assembled in inner tube 5, sent out via external electrode cooling oil oil outlet 7, circulating cooling is returned to along public pipeline road
Device.
2nd, the positive pole of high voltage power supply is connected in high pressure on electrode 12 by interior cooling of electrode oil oil outlet 1, high voltage power supply
Negative pole (ground connection) be connected in stainless steel inner tube 5 (external electrode), high voltage is formed after energization between internal and external electrode.
3rd, working air current (compressed air or oxygen) is sent between the electric discharge in air cavity by compressor by air-source inflow mouth 6
In gap 14, ozone is produced under action of high voltage, the ozone of generation is sent in the device using ozone from ozone outlet nozzle 10.
One embodiment of the present utility model is these are only, the utility model is not limited to above-described embodiment, as long as category
Technical scheme under the utility model design, all should belong to the scope of protection of the utility model.
Claims (9)
1. a kind of double oil pocket cooling ozone generating pipes, including parallel and coaxial stainless steel inner tube (5) and stainless steel outer tube (8),
Characterized in that, the stainless steel inner tube (5) is provided with air-source inflow mouth (6) close to upper end, ozone outlet nozzle is provided with close to lower end
(10);Quartz ampoule (13) is provided with stainless steel inner tube (5), discharging gap is provided between quartz ampoule (13) and stainless steel inner tube (5),
Quartz ampoule (13) inwall is provided with high-field electrode (12);Quartz ampoule (13) both ends are equipped with insulation pipe close (17), wherein an insulation
Pipe close (17) is provided with interior cooling of electrode oil inlet nozzle (11), and another insulation pipe close (17) is provided with interior cooling of electrode oil oil outlet
(1), it is equipped with oil seal circle (18) between two insulation pipe closes (17) and quartz ampoule (13);Described stainless steel outer tube (8) one end is set
There is external electrode cooling oil inlet nozzle (9), the other end is provided with external electrode cooling oil oil outlet (7).
2. oil pockets cooling ozone generating pipes as claimed in claim 1 double, it is characterised in that the stainless steel inner tube (5), stainless
Steel outer tube (8), external electrode cooling oil inlet nozzle (9) and external electrode cooling oil oil outlet (7) composition external electrode cooling oil chamber (15),
Filling insulating oil in external electrode cooling oil chamber (15).
3. double oil pocket cooling ozone generating pipes as claimed in claim 1, it is characterised in that the quartz ampoule (13), insulation tube
Electrode is cold in plug (17), oil seal circle (18), interior cooling of electrode oil inlet nozzle (11) and interior cooling of electrode oil oil outlet (1) composition
But oil pocket (16), the middle filling insulating oil of interior cooling of electrode oil pocket (16).
4. double oil pocket cooling ozone generating pipes as claimed in claim 1, it is characterised in that the high-field electrode (12) is copper foil
Manufactured pipe, it is close on quartz ampoule (13) inwall.
5. double oil pockets cooling ozone generating pipe as described in Claims 1 to 4 is any, it is characterised in that the insulation pipe close
(17) outside to be provided with insulator foot (3), insulator foot (3) is arranged in stainless steel inner tube (5), insulator foot (3) and stainless steel
Airtight seal (19) is provided between inner tube (5);Insulator foot (3) upper end is additionally provided with insulation gland (2), and lower end is provided with ring flange
(4)。
6. double oil pocket cooling ozone generating pipes as claimed in claim 5, it is characterised in that stainless steel outer tube (8) height
Less than stainless steel inner tube (5), and the upper/lower terminal of stainless steel outer tube (8) seals between stainless steel inner tube (5).
7. double oil pocket cooling ozone generating pipes as claimed in claim 5, it is characterised in that the stainless steel inner tube (5), quartz
Manage (13), insulator foot (3), airtight seal (19), air-source inflow mouth (6) and ozone outlet nozzle (10) composition discharging gap air cavity
(14)。
8. double oil pocket cooling ozone generating pipes as claimed in claim 5, it is characterised in that the interior cooling of electrode oil oil outlet
(1), interior cooling of electrode oil inlet nozzle (11), external electrode cooling oil inlet nozzle (9) and external electrode cooling oil oil outlet (7) with public affairs
Pipeline road is connected altogether, and public pipeline road is connected with cooling back installation.
It is 9. a kind of using ozone generator made of any described double oil pockets cooling ozone generating pipe of claim 6~8.
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2019161614A1 (en) * | 2018-02-24 | 2019-08-29 | 曹祚 | Ozone generating apparatus |
CN113477199A (en) * | 2021-06-29 | 2021-10-08 | 浙江理工大学 | Ultra-low temperature discharge unit |
-
2017
- 2017-06-15 CN CN201720695625.3U patent/CN207016482U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2019161614A1 (en) * | 2018-02-24 | 2019-08-29 | 曹祚 | Ozone generating apparatus |
CN113477199A (en) * | 2021-06-29 | 2021-10-08 | 浙江理工大学 | Ultra-low temperature discharge unit |
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