CN209536974U - A kind of ozone generating unit and ozone generator - Google Patents
A kind of ozone generating unit and ozone generator Download PDFInfo
- Publication number
- CN209536974U CN209536974U CN201920182499.0U CN201920182499U CN209536974U CN 209536974 U CN209536974 U CN 209536974U CN 201920182499 U CN201920182499 U CN 201920182499U CN 209536974 U CN209536974 U CN 209536974U
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- Prior art keywords
- ground electrode
- board
- generating unit
- ozone generating
- depressed area
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- CBENFWSGALASAD-UHFFFAOYSA-N Ozone Chemical compound [O-][O+]=O CBENFWSGALASAD-UHFFFAOYSA-N 0.000 title claims abstract description 141
- 230000000994 depressogenic effect Effects 0.000 claims description 49
- 239000012530 fluid Substances 0.000 claims description 41
- 239000012809 cooling fluid Substances 0.000 claims description 30
- 241001669679 Eleotris Species 0.000 claims description 21
- 238000007789 sealing Methods 0.000 claims description 17
- 239000002245 particle Substances 0.000 claims description 8
- 208000002925 dental caries Diseases 0.000 claims 1
- 239000007789 gas Substances 0.000 description 50
- 238000000034 method Methods 0.000 description 14
- 238000009434 installation Methods 0.000 description 11
- 239000011148 porous material Substances 0.000 description 10
- 239000012212 insulator Substances 0.000 description 8
- 238000011144 upstream manufacturing Methods 0.000 description 8
- QVGXLLKOCUKJST-UHFFFAOYSA-N atomic oxygen Chemical compound [O] QVGXLLKOCUKJST-UHFFFAOYSA-N 0.000 description 6
- 230000005611 electricity Effects 0.000 description 6
- 239000001301 oxygen Substances 0.000 description 6
- 229910052760 oxygen Inorganic materials 0.000 description 6
- 230000000903 blocking effect Effects 0.000 description 4
- 238000010276 construction Methods 0.000 description 4
- 238000001816 cooling Methods 0.000 description 4
- 230000000694 effects Effects 0.000 description 4
- 230000008901 benefit Effects 0.000 description 3
- 230000015572 biosynthetic process Effects 0.000 description 3
- 238000006243 chemical reaction Methods 0.000 description 3
- VYPSYNLAJGMNEJ-UHFFFAOYSA-N silicon dioxide Inorganic materials O=[Si]=O VYPSYNLAJGMNEJ-UHFFFAOYSA-N 0.000 description 3
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 description 3
- 239000006004 Quartz sand Substances 0.000 description 2
- 239000000919 ceramic Substances 0.000 description 2
- 238000005516 engineering process Methods 0.000 description 2
- 239000004744 fabric Substances 0.000 description 2
- 238000009413 insulation Methods 0.000 description 2
- 238000003032 molecular docking Methods 0.000 description 2
- 125000004430 oxygen atom Chemical group O* 0.000 description 2
- 230000008569 process Effects 0.000 description 2
- 239000012495 reaction gas Substances 0.000 description 2
- 229910000838 Al alloy Inorganic materials 0.000 description 1
- 206010044565 Tremor Diseases 0.000 description 1
- 239000003708 ampul Substances 0.000 description 1
- 230000000712 assembly Effects 0.000 description 1
- 238000000429 assembly Methods 0.000 description 1
- 229910010293 ceramic material Inorganic materials 0.000 description 1
- 239000011248 coating agent Substances 0.000 description 1
- 238000000576 coating method Methods 0.000 description 1
- 230000006835 compression Effects 0.000 description 1
- 238000007906 compression Methods 0.000 description 1
- 230000008094 contradictory effect Effects 0.000 description 1
- 238000004332 deodorization Methods 0.000 description 1
- 230000007613 environmental effect Effects 0.000 description 1
- 230000002349 favourable effect Effects 0.000 description 1
- 238000011065 in-situ storage Methods 0.000 description 1
- 230000010354 integration Effects 0.000 description 1
- 238000002955 isolation Methods 0.000 description 1
- 239000000463 material Substances 0.000 description 1
- 230000007246 mechanism Effects 0.000 description 1
- 229910052751 metal Inorganic materials 0.000 description 1
- 239000002184 metal Substances 0.000 description 1
- 238000012544 monitoring process Methods 0.000 description 1
- 239000005416 organic matter Substances 0.000 description 1
- 239000007800 oxidant agent Substances 0.000 description 1
- 230000003647 oxidation Effects 0.000 description 1
- 238000007254 oxidation reaction Methods 0.000 description 1
- 230000001590 oxidative effect Effects 0.000 description 1
- 238000012856 packing Methods 0.000 description 1
- 229910052573 porcelain Inorganic materials 0.000 description 1
- 238000002360 preparation method Methods 0.000 description 1
- 230000001681 protective effect Effects 0.000 description 1
- 239000010453 quartz Substances 0.000 description 1
- 239000003381 stabilizer Substances 0.000 description 1
- 230000001954 sterilising effect Effects 0.000 description 1
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Abstract
The utility model provides a kind of ozone generating unit, including multiple stacked board-like ground electrodes, multiple electrion units and the multiple high-voltage insurance devices for being respectively connected to the multiple high-field electrode plate unit, wherein electrion unit includes electrode plate with high voltage component and the dielectric-slab positioned at electrode plate with high voltage component two sides.The utility model also provides a kind of ozone generator with the ozone generating unit.
Description
Technical field
The utility model relates to ozone preparation fields, more particularly to a kind of ozone generating unit and ozone generator.
Background technique
Ozone (O3) be oxygen allotrope.Constituting ozone at normal temperatures and pressures by three oxygen atoms is a kind of shakiness
The fixed, faint blue gas with specific stimulation smell.Molecular structure is variable under room temperature, normal pressure, is voluntarily decomposed into oxygen quickly
(O2) and single oxygen atom (O).It since ozone has extremely strong oxidation susceptibility, and can voluntarily decompose, not have in the short time in water
There is secondary pollution, be ideal Green Oxidant, deodorization, decoloration, sterilization and removal organic matter is played quick, environmentally friendly, safe
Effect.Therefore, ozone is widely used in various industries, including but not limited to environmental protection, water process, pharmacy, food, chemical industry,
The industries such as agricultural, papermaking.
Due to the unstability of ozone, often it is prepared in situ in industrial application.Industrial application ozone source is typical
Ground uses the ozone generator of gas ionization discharge type.
Typical ozone generator generally comprises pot type ozone generator and cabinet type ozone generator.Pot type ozone occurs
Device generally comprises an installation tank, and ozone generation part is mounted in installation tank, and driving power setting passes through outside installation tank
The through-hole being arranged on installation tank is connected with the ozone generation part in installation tank.Here, ozone generation part is often
In coaxial cylinders mode.Cabinet type ozone generator generally comprises an Installation cabinet, and driving power and ozone generation part are pacified
In Installation cabinet.Such ozone generator is to assemble at manufacturer according to the requirement of the specification of regulation or client,
Especially ozone generation part is fixed in advance and exclusive for the ozone generator.
In this regard, the CN103130191A that the present inventor is invented proposes that a kind of ozone generator, including multiple ozone occur
Device minor structure, each ozone generator minor structure include detachable support frame, ozone generation part and driving electricity
Source.
In addition, proposing a kind of panel type ozone producer in the CN100377992C of the present inventor's invention, have main
Including stacked ground electrode and electrode plate with high voltage and dielectric-slab between ground electrode, to generate corona discharge.
In addition, 103130192 A of CN that the present inventor is invented proposes a kind of High-voltage electrode body comprising ceramic layer,
Alloy-layer and elastic insert, it is Nian Jie with elastic insert that one of embodiment describes alloy-layer, also describes for high pressure
The high-voltage connection hole of lead.In addition, 103130193 A of CN of the present inventor's invention is also described and for example be can be used for high-field electrode
The seal assembly of body.
In addition, in 103130190 A, CN 103130194 of CN that the present inventor is invented in B, CN106032269A point
A kind of ozone generator electric discharge device, Water-cooling type ozone generator ground electrode, water-cooled grounding electrode are not proposed, wherein disclosing
Board-like ground electrode structure.In addition, these documents refer to electrode plate with high voltage, but without specific structure explanation.
But the present inventor still desires to propose to improve to the board-like ozone generating unit of the ozone generator, such as its is whole
Body structure and its each subassembly, such as ground electrode, high-field electrode or safety device.
More than, in addition to the content that existing technical literature is expressly recited, above-mentioned background technique is only for the purposes of understanding this field
The relevant technologies, be not regarded as admission of prior art.
Utility model content
Therefore, the task of the utility model is to provide one kind and is changed compared to ozone generator described in background technology
Into ozone generating unit and ozone generator technical solution.
In a scheme of the utility model, a kind of ozone generating unit is provided, including multiple stacked board-like ground electricity
Pole, multiple electrion units and the multiple high-voltage insurance devices for being respectively connected to the multiple electrion unit, wherein
Electrion unit includes electrode plate with high voltage component and the dielectric-slab positioned at electrode plate with high voltage component two sides.
In one embodiment, each board-like ground electrode includes the ontology of single-piece, and the board-like ground electrode further includes in institute
It states formation depressed area at least one of first and second surfaces of one-piece body and distinguishes position in the depressed area
In the first long hole/elongate recesses of two sides and the second long hole/elongate recesses, the board-like ground electrode further includes positioned at described recessed
Fall into multiple plane boss extended transverse to first and second long holes/elongate recesses in area and between plane boss
Groove, the board-like ground electrode further include the fluid channel formed in the one-piece body.
In one embodiment, first long hole and the first elongate recesses shape of the multiple stacked board-like ground electrode
At the perforative first elongated air cavity, second long hole and the second elongate recesses form the perforative second elongated air cavity.
In one embodiment, each electrion unit is arranged in the depressed area between adjacent ground electrode.
This modular board-like ozone generating unit provides high installation convenience.
In one embodiment, the multiple stacked board-like ground electrode includes first end ground electrode, the second end
Electrode and at least one intermediate ground electrode.
In one embodiment, the first end ground electrode includes being formed in the first surface of the one-piece body
The first depressed area and first elongate recesses and the second elongate recesses in first depressed area, described first
End ground electrode includes air inlet/gas outlet that first elongate recesses are extended to from the second surface of the one-piece body.
In one embodiment, the second end ground electrode includes being formed in the second surface of the one-piece body
The second depressed area and first elongate recesses and the second elongate recesses in second depressed area, described second
End ground electrode includes outlet/air inlet that second elongate recesses are extended to from the first surface of the one-piece body.
In one embodiment, the intermediate ground electrode includes formed in the first surface of the one-piece body
One depressed area and the second depressed area formed in second surface and in first and second depressed area described
One long hole and the second long hole.
In one embodiment, the first end ground electrode and intermediate ground electrode have positioned at first surface for holding
Receive high-field electrode component connector portions top holding tank.
In one embodiment, the electrode plate with high voltage component includes one be located in the middle on resilient sleeper-bearing and two sides
To electrode plate with high voltage.
In one embodiment, also there are multiple groups transverse support ribs, the multiple groups are lateral in the plate body of the resilient sleeper-bearing
The corresponding position of the multiple plane boss is arranged in ribs in the mounted state.Corresponding construct in such position is special
It is advantageous, astoundingly improve gas producing efficiency and uniform heat distribution.
In one embodiment, the resilient sleeper-bearing include integrally formed connector portions and by the connector portions keep and from
The terminals extended at the top of the connector portions.
In one embodiment, one end of the multiple high-voltage insurance device is connected to the wiring by means of tubular connector
End, the other end are connected to the first busbar connector.
In one embodiment, ozone generating unit further includes be connected to the multiple stacked board-like ground electrode second
Busbar connector.
In one embodiment, which includes integrally formed plate body, top sealing and sealed bottom portion, institute
It states top sealing, plate body and sealed bottom portion and forms the appearance with the cooperation of high-field electrode plate shape in the two sides of the resilient sleeper-bearing
Receive portion, the dielectric-slab is configured to be compressed against in the top sealing and sealed bottom portion.Such construction is that especially have
Benefit, allow dielectric-slab against or close to without excessive compression electrode plate with high voltage.
In one embodiment, the dielectric-slab is configured to extend into the elongated air cavity and forms protruding portion.
In one embodiment, the high-voltage insurance device includes first lead end, the second lead end, cylinder, is located at institute
State cylinder it is intracorporal at least partly by closing inner chamber that film surrounds, extend in the closing inner chamber and connection described first draw
The fuse of line end and the second lead end and it is contained in the intracorporal extinguishing particle of the cylinder or fluid.
In one embodiment, ozone generating unit further include step up the multiple stacked board-like ground electrode step up spiral shell
Bolt, to clamp each electrion unit in the depressed area being arranged between adjacent ground electrode.
In one embodiment, ozone generating unit further includes the fastening for the multiple stacked board-like ground electrodes of lock ring
Frame, the upper unit shell for accommodating the multiple high-voltage insurance device, the lower unit shell for accommodating fluid circuit.
In a scheme of the utility model, a kind of ozone generator is provided, including according to the utility model embodiment
One or more ozone generating units, gas distributed system and the cooling fluid compartment system, wherein the gas is distributed
First and second elongated air cavity described in system connectivity, the cooling fluid compartment system are connected to the fluid channel.
In a scheme of the utility model, a kind of board-like ground electrode for ozone generator, including single-piece are provided
The ontology of formula, the board-like ground electrode further include the shape at least one of first and second surfaces of the one-piece body
The the first long hole/elongate recesses and the second long hole/elongated recessed of two sides are located at depressed area and in the depressed area
Slot, the board-like ground electrode further include prolonging in the depressed area transverse to first and second long holes/elongate recesses
The multiple plane boss stretched and the groove between plane boss, the board-like ground electrode further include in the one-piece body
The fluid channel of formation.
Board-like ground electrode according to the utility model embodiment is height integration, especially by gas distribution structure one
Body formation is capable of providing extremely excellent installation and steps up effect, and integrally formed plane boss and groove therein can be advantageous
Ground forms the structure that gas is evenly distributed, gas producing efficiency is high.
In one embodiment, the depressed area has excessive radius in its corner.The preferred embodiment is wondrous
Ground improves heat distribution and gas producing efficiency.
In one embodiment, the ratio of width to height of the plane boss be 2:1 to 50:1, preferably 5:1 to 50:1, more preferably
For 10:1 to 30:1.
In one embodiment, the wide high proportion of the groove for example 10:1 to 200:1, more preferably 20:1 to 200:1,
More preferably 50:1 to 150:1.
By means of the embodiments of the present invention with the ratio of width to height, can advantageously overcome adjacent gas runner every
From with effectively improve gas contact so that improve reaction efficiency double-barreled question.
In one embodiment, the board-like ground electrode further includes for logical with the long hole/elongate recesses and/or fluid
The processing hole and selectively close off the closure element for processing hole that road communicates.
In one embodiment, the board-like ground electrode further includes being formed in the one-piece body for being connected to phase
The intercommunicating pore of the fluid channel of adjacent board-like ground electrode.
In one embodiment, the fluid channel of the board-like ground electrode includes multiple parallel vertical fluid channels and position
In the connection elongate recesses of the connection vertical fluid channel of top and bottom.
In one embodiment, the board-like ground electrode includes formed in the first surface of the one-piece body
One depressed area and the second depressed area formed in second surface, the board-like ground electrode have recessed positioned at described first and second
Fall into first long hole and the second long hole in area.
In one embodiment, first depressed area is than the second depressed area depth.
In one embodiment, the board-like ground electrode has positioned at first surface for accommodating high-field electrode component
The top holding tank of connector portions.
In one embodiment, the board-like ground electrode includes formed in the first surface of the one-piece body
One depressed area, the board-like ground electrode are elongated recessed with first elongate recesses being located in first depressed area and second
Slot.
In one embodiment, the board-like ground electrode include extended to from the second surface of the one-piece body it is described
Air inlet/gas outlet of first elongate recesses.
In one embodiment, the board-like ground electrode has positioned at first surface for accommodating high-field electrode component
The top holding tank of connector portions.
In one embodiment, the board-like ground electrode includes formed in the second surface of the one-piece body
Two depressed areas, the board-like ground electrode are elongated recessed with first elongate recesses being located in second depressed area and second
Slot.
In one embodiment, the board-like ground electrode include extended to from the first surface of the one-piece body it is described
Outlet/air inlet of second elongate recesses.
In an arrangement, a kind of board-like ground electrode component is provided, including stacked first end ground electrode, the second end
Ground electrode and at least one intermediate ground electrode.Wherein the first end ground electrode is according to the utility model embodiment
Board-like ground electrode, the second end ground electrode are the board-like ground electrode according to the utility model embodiment, the centre
Ground electrode is the board-like ground electrode according to the utility model embodiment.The first end ground electrode, the second end it is electric
First long hole and the first elongate recesses of pole and at least one intermediate ground electrode form the perforative first elongated air cavity, described
Second long hole and the second elongate recesses of first end ground electrode, the second end ground electrode and at least one intermediate ground electrode
Form the perforative second elongated air cavity.
In the embodiments of the present invention, this elongated air cavity can advantageously provide the voltage regulation result of gas.
In an arrangement, a kind of electrode plate with high voltage component for ozone generator is provided, including is located in the middle bullet
Property backing plate and two sides a pair of of electrode plate with high voltage, wherein the resilient sleeper-bearing include plate body and with the plate body be integrally formed connector
Portion, wherein the resilient sleeper-bearing further include by the connector portions are kept and are extended at the top of the connector portions terminals and with
Terminals electrical connection or integral a pair of of end, are additionally provided with and a pair of of elastic contact chip to end mechanical connection,
This respectively has notch to electrode plate with high voltage, this extends through the notch to electrode plate with high voltage to elastic contact chip with right with this
Electrode plate with high voltage is electrically connected and is clamped on the resilient sleeper-bearing.
Whereby, good electrical contact can not only be provided according to the electrode plate with high voltage component of the utility model embodiment, also
It is capable of providing the good holding of additional electrode plate with high voltage, and there is good globality and property easy to install.
In one embodiment, the notch is ladder notch, and the elastic contact chip is pressed against the rank of the notch
In terraced portion.This is particularly advantageous structure, can further improve the overall compact structure of device, and provide and preferably protect
It holds.
In one embodiment, this to elastic contact chip by means respectively of screw and this to end be mechanically connected.
In one embodiment, this respectively has the hole for corresponding to screw position beside notch to electrode plate with high voltage
Mouthful.
In one embodiment, which is also configured to and corresponding screw thread connects
It connects.Embodiment that this is favourable can make the means as the electrical connection of an electrode plate also act as another electricity whereby
The mechanical connection of pole plate solves good double-barreled question electrode plate with high voltage electrical contact and be fixedly secured.
In one embodiment, the screw is non-conductive screw.This is particularly preferred embodiment, so that two electrodes
While plate is securely held, electrical connection can be separated from each other and be provided by good accessible elastic slice.
In one embodiment, for the plate body also with jagged, this extends in parallel into the notch end.This is provided tightly
The structure gathered.
In one embodiment, which includes the top sealing and sealed bottom being integrally formed with the plate body
Portion, the top sealing, plate body and sealed bottom portion are formed in the two sides of the resilient sleeper-bearing matches with high-field electrode plate shape
The receiving portion of conjunction.This provides highly integrated structure.
In one embodiment, the top sealing and sealed bottom portion respectively have stretched out to two sides it is multiple
Rib simultaneously limits the gap between the multiple rib.This provides very excellent support, shockproof structure.
In one embodiment, the rib that the bottom side of the top sealing stretches out has the top side with electrode plate with high voltage
The shape with rounded corners matched;And/or the top side rib of the top sealing has and the matched band circle in the bottom side of electrode plate with high voltage
The shape at angle.This provides very excellent support, shockproof structure.
In one embodiment, multiple ribs are also set up in the plate body of the resilient sleeper-bearing.
In one embodiment, the multiple groups ribs include multiple groups transverse support ribs and at least one vertical supporting rib.
In one embodiment, which provides the possibility of the plane boss setting corresponding to ground electrode, further
Improve gas producing efficiency.
In another scheme, a kind of electrion unit is provided, characterized in that including according to the utility model embodiment
The electrode plate with high voltage component and a pair of of dielectric-slab positioned at electrode plate with high voltage component two sides.
In one embodiment, the dielectric-slab has the width wider than the electrode plate with high voltage.This helps to provide more
Good gas distribution and gas producing efficiency.
In an arrangement, a kind of high-voltage insurance device for ozone generator, including first lead end are provided;Second
Lead end;Cylinder;Positioned at the intracorporal closing inner chamber at least partly surrounded by film of the cylinder;Extend in the closing inner chamber
And connection the first lead end and the second lead end fuse;And it is contained in the intracorporal extinguishing particle of the cylinder or stream
Body.
Compared to conventional general overload protection arrangement, according to the high-voltage insurance device of the utility model embodiment smelly
There can be especially excellent performance in the environment of the high voltage low current of Oxygen Generator, more particularly to effectively avoid low electricity for a long time
Flow through the serious problems brought.
In one embodiment, the high-voltage insurance device includes the insulating support in closing inner chamber, film coated
On the insulating support.
In one embodiment, the fuse configurations are in contact at the film.In one embodiment, the fuse
It is configured to the film in one or more position point contacts.It constructs whereby, can further improve overload protection arrangement and exist
Performance in high voltage low current or other use environments.
In one embodiment, the insulating support is rectangle frame insulating support, and two panels film is respectively in the insulation
The two sides of carrier openings cover the rectangular frame to surround out the closing inner chamber.
In one embodiment, the insulating support is equipped with electrical contacts at both ends, for dividing the both ends of the fuse
It is not electrically connected to the first lead end and the second lead end.
In one embodiment, the electrical contacts are wiring rivet.
In one embodiment, fuse point at the electrical contacts connects in the top side of the insulating support and bottom side
Touch the film.
In one embodiment, high-voltage insurance device further include be arranged in the cylinder both ends first end insulator cap and
The second end insulator cap.
In one embodiment, the high-voltage insurance device is cylindrical.
In one embodiment, the cylinder is quartz ampoule.
In one embodiment, the extinguishing particle or fluid include quartz sand
In one embodiment, the fusing point of film is 0 DEG C -100 DEG C higher than the fusing point of fuse.It is opposite by setting film meticulously
In the fusing point of fuse, it can further improve the extinguishing effect of overload protection arrangement.
In another embodiment of the utility model, a kind of overload for being not limited to use in ozone generator can also be provided
Protective device can have above-mentioned one or more features.
In another scheme, a kind of high-voltage insurance device assembly is provided, including multiple parallel arrangement of according to this reality
The high-voltage insurance device described in novel embodiment and the safety device bracket for being used to support the high-voltage insurance device.
In one embodiment, which includes that supporting leg is used to accommodate the multiple high pressure with what is be set side by side
Multiple elastic receiving holes of safety device.
In one embodiment, further include the first busbar connector, the multiple high-voltage insurance device be respectively connected to this first
Busbar connector.
In an arrangement, a kind of ozone generating unit is provided, including height described in embodiment according to the present utility model
Press Arming Device Assemblies, multiple stacked board-like ground electrodes and multiple electrode plate with high voltage between adjacent board-like ground electrode
Component and dielectric-slab, wherein the multiple high-voltage insurance device is respectively connected to the multiple electrode plate with high voltage component.
In an arrangement, a kind of ozone generator is provided, including one described in embodiment according to the present utility model
Or multiple ozone generating units, gas distributed system and cooling fluid compartment system.
Herein, in relation to " board-like ground electrode " and " electrion unit (electrode plate with high voltage (component), dielectric-slab) "
In description, " table (side) face " is related to plate-like surface side, and the part that electrode plate with high voltage terminals are closed under installation condition is " top "
Or " bottom ", opposite side are " bottom " or " top ", " side " is related to the narrow side of plate body.
Detailed description of the invention
Hereinafter, the embodiments of the present invention are described in detail in conjunction with attached drawing, in which:
Fig. 1 shows the perspective view of the ozone generator of one embodiment according to the present utility model.
Fig. 2 shows the perspective views of the ozone generator of one embodiment according to the present utility model, and wherein cabinet body is moved
Except to show internal structure.
Fig. 3 shows the vertical of the cooling fluid compartment system of the ozone generator of one embodiment according to the present utility model
Body figure.
Fig. 4 shows the gas distributed system and cooling stream of the ozone generator of one embodiment according to the present utility model
Body compartment system.
Fig. 5 shows the gas distributed system of the ozone generator of one embodiment according to the present utility model.
Fig. 6 shows the ozone generator of one embodiment according to the present utility model, part of feature be removed with
Just fluid distribution system is preferably presented.
Fig. 7 shows the modular unit group of the ozone generator of one embodiment according to the present utility model, is connected to
The cooling fluid compartment system of one embodiment according to the present utility model.
Fig. 8 A and Fig. 8 B show the mould of the ozone generator of one embodiment according to the present utility model from different perspectives
Module unit group is connected to the gas distributed system and cooling fluid compartment system of one embodiment according to the present utility model.
Fig. 9 shows the modular unit of an ozone generator of one embodiment according to the present utility model, connection
To the cooling fluid compartment system of one embodiment according to the present utility model.
Figure 10 shows the modular unit of an ozone generator of one embodiment according to the present utility model, connection
To the cooling fluid compartment system according to the utility model embodiment.
Figure 11 A occurs from the ozone that the angle different from Figure 10 shows one embodiment according to the present utility model
The perspective view of the cross-section of the modular unit of device is connected to the cooling fluid point of one embodiment according to the present utility model
Distribution system.
Figure 11 B shows the partial enlarged view of part A in Figure 11 A.
Figure 12 shows the part of the modular unit of an ozone generator of one embodiment according to the present utility model
The perspective view splitted is connected to the cooling fluid compartment system of one embodiment according to the present utility model.
Figure 13 shows the part of the modular unit of an ozone generator of one embodiment according to the present utility model
The perspective view splitted shows board-like ground electrode and electrion unit.
Figure 14 shows the cross-section of the modular unit of an ozone generator of the embodiment according to shown in Figure 13
Perspective view shows board-like ground electrode and electrion unit.
Figure 15 shows the board-like ground electrode of one embodiment according to the present utility model.
Figure 16 shows the board-like ground electrode of one embodiment according to the present utility model.
Figure 17 shows the board-like ground electrodes of one embodiment according to the present utility model.
Figure 18 shows the stacked board-like ground electrode component of one embodiment according to the present utility model.
Figure 19 shows the modular unit of an ozone generator of one embodiment according to the present utility model, middle part
Scoreboard formula ground electrode is removed for showing internal electrion unit.
Figure 20 shows the electrion unit of one embodiment according to the present utility model.
Figure 21 shows the high-voltage insurance device assembly of one embodiment according to the present utility model.
Figure 22 shows multiple juxtaposed high-voltage insurance devices in embodiment shown in 1 according to fig. 2.
Figure 23 shows the safety device bracket in embodiment shown in 1 according to fig. 2.
Figure 24 shows the high-voltage insurance device of one embodiment according to the present utility model.
Figure 25 shows the exploded view of the high-voltage insurance device of embodiment shown in 4 according to fig. 2.
Figure 26 shows the further exploded view of the high-voltage insurance device of embodiment shown in 4 according to fig. 2.
Figure 27 shows the high-voltage insurance device of one embodiment according to the present utility model.
In the disclosure, same or similar appended drawing reference is for indicating the same or similar feature or component.
Reference signs list
1- ozone generator;2- ozone generator minor structure;10- rack;12- hoisting ring;20- modular unit;21- high pressure
Electrode plate assembly;212- resilient sleeper-bearing;2120- connector portions;2121- terminals;The end 2122-;2123- elastic contact chip;
2124- threaded connection hole;Sealing at the top of 2125-;2126- sealed bottom portion;2127- transverse support ribs;2128- vertical supporting
Rib;2129- rib;214- electrode plate with high voltage;2142- ladder notch;The aperture 2144-;216- dielectric-slab;22- module board is (board-likely
Electrode);2200- (first) depressed area;2200 '-(the second) depressed areas;2201- holding tank;2202- fluid channel;2203- connects
Through-hole;2204- plane boss;2205- groove;2206- elongate recesses;2207- clamp stud hole;2208- processes hole;2209-
Excessive radius;The first module board of 222-;2220- elongate recesses;2221- elongate recesses;2220 '-air inlets;The second mould of 224-
Block plate;2240- elongate recesses;2240 '-gas outlets;2242- fluid channel;226- third module board;2260- long hole;2261-
Long hole;2262- fluid channel;The 4th module board of 228-;2280- long hole;2281- long hole;2282- fluid channel;23- is prominent
Portion;24- fastening frame;26- unit housings;28- unit housings;29- clamp stud;30- high-voltage insurance device;In 300- closing
Chamber;301- first lead end;The second lead end of 302-;303- first end insulator cap;304- the second end insulator cap;305- pottery
Porcelain tube;306- insulating support;307- film;308- fuse;309- wiring rivet;31- safety device bracket;310- stabilizer blade;
312- elasticity receiving hole;32- interface;The first busbar connector of 33-;34- terminals;The second busbar connector of 35-;40- gas distributed system;
41- inlet manifold;410- air inlet;42- outlet general pipeline;The gas outlet 420-;The first air intake branch of 43-;44- the first outlet branch
Pipe;The second air intake branch of 45-;452- pipe fitting;The second going out gas branch pipe of 46-;462- pipe fitting;47- third air intake branch;48-
Third going out gas branch pipe;49- blocks element;50- cooling fluid compartment system;51- influent stream general pipeline;510- inflow entrance;52- goes out to flow total
Pipe;520- outflux;53- the first influent stream branch pipe;54- first goes out to flow branch pipe;55- the second influent stream branch pipe;552- pipe fitting;56-
Second goes out stream branch pipe;562- pipe fitting;57- third influent stream branch pipe;570- outflux;572- boss;574- platform part;The end 576-
End;577- platform part;The aperture 578-;58- third goes out to flow branch pipe;580- inflow entrance;582- boss;584- platform part;The end 586-
End;587- platform part;The aperture 588-;60- high pressure wire box (circuit module);70- cabinet door;72- handle.
Specific embodiment
For the purpose of this utility model, technical solution and advantage is more clearly understood, below with reference to embodiment and attached
Figure, is described in further details the utility model.Here, the exemplary embodiment and its explanation of the utility model are for solving
The utility model is released, but is not intended to limit the scope of the present invention.
(board-like) ozone generator
In multiple embodiments of the utility model, a kind of ozone generator is provided, such as the ozone of gas ionization discharge type
Generator, especially panel type ozone producer may include rack, one or more ozone generating units, gas distributed system
With cooling fluid compartment system and optional one or more circuit modules (such as high pressure wire box).Gas distributed system may include
Air inlet pipeline subsystem and gas exhaust piping subsystem.Cooling fluid compartment system may include influent stream pipeline subsystem and drainage pipeline
Subsystem.
In some embodiments of the utility model, ozone generator, especially panel type ozone producer can be that can open up
That opens up is modular, may include one or more ozone generator minor structures being set side by side, each ozone generator minor structure
It may include respective minor structure rack and one or more ozone generating units being stacked up and down.Each ozone generator minor structure is also
It may include respective air intake branch group, exhaust branch pipe group, influent stream branch pipe group and drainage branch pipe group.In these prolongable modularizations
Ozone generator, especially optionally included in panel type ozone producer can by multiple ozone generator sub-structure sharings its
His generator part.Such as in some embodiments, the air inlet of air inlet pipeline subsystem and gas exhaust piping subsystem and exhaust are total
Pipe is shared by the air intake branch group and exhaust branch pipe group of multiple ozone generator minor structures.Such as in some embodiments, circuit
Module (such as high pressure wire box) can be sent out by the ozone that multiple, such as two ozone generator minor structures one or more are stacked up and down
Raw unit is shared.
Continue to describe with reference to the accompanying drawing with reference to the accompanying drawings shown in embodiment.
With reference to Fig. 1-6, a kind of ozone generator 1 of one embodiment according to the present utility model is shown.Ozone hair
Raw device 1 includes rack 10, rack-mounted multiple ozone generating units 20, gas distributed system 40 (Fig. 4), cooling fluid
Compartment system 50 (Fig. 3) and optional multiple circuit modules (such as high pressure wire box 60).
In an illustrated embodiment, multiple ozone generating units 20 are arranged in an array manner, specially 8 (column) × 3
(row).Hereinafter, it will be described with each embodiment of ozone generating unit.
In the embodiment shown in fig. 1, which can be arranged with prolongable modular mode.This is smelly as a result,
Oxygen Generator 1 includes multiple ozone generator minor structures 2 being set side by side, such as limits a son with each column ozone generating unit
Structure.In an illustrated embodiment, 8 ozone generator minor structures 2 are equipped with, each ozone generator minor structure 2 can have up and down
3 stacked ozone generating units 20.It is understood that can be obtained more or less by being transformed or installing additional rack 10
Ozone generator minor structure.It is equally conceivable, in some embodiments of the utility model, covers not prolongable
Ozone generator.
Optionally, which can also have the multiple hoisting rings 12 being mounted in rack 10.In addition, this is smelly
Oxygen Generator 1 can also include the cabinet door with handle 72, with the component for covering inside, such as ozone generating unit 20 and pipe
Line structure.
Modular unit (board-like ozone generating unit)
In conjunction with reference Fig. 6-Figure 12, the ozone generating unit 20 of some embodiments according to the present utility model is shown.?
Shown in embodiment, ozone generating unit 20 enough can cause board-like ozone generating unit, and it can be modular, herein
In sometimes referred to as modular unit.In an illustrated embodiment, ozone generating unit 20 may include multiple stacked board-like ground electricity
Pole 22 (can also claim module board).
In addition, ozone generating unit 20 may also include the height being arranged between board-like ground electrode 22 as shown in Figure 11 A-11B
Electric unit is pressed, for example including electrode plate with high voltage component 21 and optional dielectric-slab 216.Such as Fig. 6-12, each ozone occurs single
Member can also be equipped with high-voltage insurance device.For example, the high pressure for being equipped with multiple terminals for being respectively connected to each electrode plate with high voltage is protected
Dangerous device 30 (Figure 10).It can also be equipped with and electrode plate with high voltage is connected to external circuit, such as circuit module (or high pressure wire box 60)
Interface 32 (Fig. 9 and Figure 10), and the terminals 34 (Fig. 9 and Figure 10) for board-like ground electrode 22 to be grounded.
Board-like ground electrode (component)
Multiple stacked board-like ground electrodes 22 of some embodiments according to the present utility model are described with continued reference to attached drawing.?
Shown in embodiment, which may include the ontology of single-piece integral type in other words.The plate
The ontology of formula ground electrode 22 can be made of the aluminium alloy of coating nano ceramic material.
In some embodiments, the multiple stacked board-like ground electrode 22 may include wherein having air inlet 2220 '
First end ground electrode 222 (the first module board), (second module of the second end ground electrode 224 wherein with exhaust outlet 2240 '
Plate) and at least one intermediate ground electrode.In an illustrated embodiment, intermediate ground electrode includes the first intermediate 226 (third of ground electrode
Module board) and the second intermediate ground electrode 228 (the 4th module board).In an illustrated embodiment, the same characteristic features of ground electrode may
It is indicated with common appended drawing reference.
In an illustrated embodiment, the ground electrode in different location can have different inside relevant to fluid distrbution
Structure or orientation, this will be further elucidated hereinbelow.
A) the fluidal texture of cooling fluid
In conjunction with particular reference to Figure 11 A-11B and Figure 13-18, each board-like ground electrode 22 may include that multiple vertical fluids are logical
Road 2202 is connected to the connection elongate recesses 2206 of two fluid channels 2202, in two fluid channels of bottom connection at top
It is connected to elongate recesses 2206.In an illustrated embodiment, board-like ground electrode has 4 vertical fluid channels.Each board-like ground electricity
Pole 22 may also include the closure element in the processing hole 2208 for blocking fluid channel 2202 on top and bottom end, such as block spiral shell
Nail.In an illustrated embodiment, first, second and intermediate plate electrode can have identical vertical fluid channel, such as
2242,2262,2282 etc..The ozone generating unit is arranged in the bottom of the multiple stacked board-like ground electrode for cooling down
One or more inflow entrances of fluid and one or more outfluxes (not indicating).In an illustrated embodiment, the fluid
Channel is formed in the plate body of single-piece, and can be closed end by means of blocking the closure element in processing hole 2208.In addition,
The fluid channel can form tortuous flow path by means of being connected to elongate recesses in ground electrode.It should be noted that
Shown in be connection elongate recesses in embodiment, it can be unilateral (face) opening (not perforative), but can be by means of stacked
Adjacent ground electrode is closed.It but in some embodiments, can be perforative connection long hole.
In an illustrated embodiment, multiple inflow entrances of the ozone generating unit and multiple outfluxes are along the multiple folded
The stacked direction for the board-like ground electrode set is arranged alternately in its bottom.Correspondingly, in corresponding cooling fluid compartment system 50
It is arranged alternately corresponding outflux and inflow entrance (as explained further on).In embodiment shown in 30 pieces of module boards,
It is respectively equipped with 6 inflow entrances and 6 outfluxes.Here, for example first end ground electrode 222 has inflow entrance and every 5 pieces of moulds
Inflow entrance is arranged in block plate again, and the second end ground electrode 224 has outflux, and every 5 pieces are arranged outflux again.
Referring especially to the embodiment of Figure 15-17.As shown in figure 17, (the face on the inner surface of first end ground electrode 222
To the surface of intermediate ground electrode), the left side of elongate recesses 2206 can be connected to, herein to flow into end in lower part, with intercommunicating pore
2203.It correspondingly, can be on the surface towards ground electrode 222 of adjacent (first) intermediate ground electrode 226 although being not shown
It is provided with corresponding intercommunicating pore, i.e., on the left side of lower part connection elongate recesses 2206 (according to the orientation of Figure 15).As a result, through flowing into
The cooling fluid that mouth flows into ground electrode 222 can be flowed into ground electrode 226 simultaneously.As shown in figure 15, the first intermediate ground electrode 226
Back to the surface of first end ground electrode 222, the right of elongate recesses 2206 can be connected in lower part, herein be outflow end, tool
There is recirculation hole 2203.As shown in figure 16, the surface back to first end ground electrode 222 of the second intermediate ground electrode 228, Ke Yi
Lower part is connected to the left side of elongate recesses 2206, herein to flow into end, has recirculation hole 2203.Although not shown herein, in second
Between ground electrode 228 direction back to the surface of 222 side of first end ground electrode, elongate recesses 2206 can be connected in lower part
The right (according to the orientation of Figure 16) is herein inflow end, has recirculation hole 2203, medially electric similar to being connected to first aforementionedly
Recirculation hole on the inner surface of pole 226.Although being not shown, in some embodiments, in the inside of the second end ground electrode 224
Surface (towards the surface of first end ground electrode 222) can have the recirculation hole construction similar to the second intermediate ground electrode 226.
As a result, in an illustrated embodiment, being sequentially stacked due to the first and second intermediate ground electrodes, two adjacent moulds
Block plate forms the successively shared intercommunicating pore that flows in and out and is arranged.But it will be appreciated that such as based on different inflow entrances
With the configuration of outflux, there are other intercommunicating pore plans of establishment, or is not provided with the scheme of intercommunicating pore.
In addition, in an illustrated embodiment, recirculation hole is nonpenerative, but it can according to need and be set as perforative.
Here, it will be appreciated that the configuration of different inflow entrances, outflux and corresponding cooling fluid flow path.And
By means of the combination of different closure configurations and vertical fluid course (processing hole) and presumable intercommunicating pore, can be adapted to not
The inflow of same cooling fluid system, outflux, obtain cooling fluid runner different in board-like ozone generating unit.
B) the fluidal texture of reaction gas
With particular reference to Figure 15-17, first end ground electrode 222 inner surface (surface towards intermediate ground electrode),
First and second intermediate ground electrodes 226,228 are formed with the first depressed area 2200 back to the surface of first end ground electrode 222.To the greatest extent
Guan Wei is shown specifically, in the inner surface (surface towards intermediate ground electrode) of the second end ground electrode 224, among first and second
Ground electrode 226,228 is formed with the second depressed area 2200 ' back to the surface of end ground electrode 222 towards first.It is real shown in
It applies in example, 2200 to the second depressed area of the first depressed area 2200 ' is deep.The depressed area is configured to be located at adjacent ground for accommodating
Electrion unit between electrode, and correspondingly limit the flow region of reaction gas.In an illustrated embodiment, module
Plate also has the holding tank 2201 positioned at top on the surface for being provided with the first depressed area, to accommodate connecing for electrion unit
Head.In the ring packing (not indicating) that the periphery of depressed area is also provided with annular seal groove and is located therein.
5-17 is continued to refer to figure 1, the first intermediate ground electrode 226 and the second intermediate ground electrode 228 include being located at two sides
Perforative first long hole on side and the second long hole 2260,2280.First and second end ground electrodes include being located at two sides
The first elongate recesses 2220,2240 and the second elongate recesses 2221 (not through).First long hole and first elongated as a result,
Groove forms the elongated inlet chamber for being located at a side.Second long hole and the second elongate recesses are limited positioned at relative side
Elongated discharge chamber.Air inlet 2220 ' and the first elongate recesses 2220 and then elongated inlet chamber in first end ground electrode 222
Connection.Air inlet 2240 ' and the second elongate recesses (not indicating) and then elongated inlet chamber in the second end ground electrode 222 connect
It is logical.In the preferred embodiment shown, also there is vertical (processing) hole in long hole, elongate recesses position (it is by closure element
Block), so that the vertical processing hole also forms a part of air cavity (such as Figure 11 A-11B is best shown).It is real shown in
It applies in example, in module board (plate body), long hole or elongate recesses are located in the depressed area 2200,2200 '.
In addition, can have and be located at inlet chamber and row in the embodiments of the present invention, in each ozone generating unit
Numerous gas flows between air cavity.In some embodiments, it in depressed area, could be formed with transverse to long hole/elongated recessed
Multiple planes (micro-) boss 2204 of slot and the groove 2205 between plane boss 2204, thus plane boss 2204 can be with it
Flat top surface abuts dielectric-slab.In an advantageous embodiment, it is very short that height can be provided, wide high (Width x Height) ratio with higher
Plane (micro-) boss, so as to advantageously provide groove 2205 and dielectric-slab is formed together the high gas of flat the ratio of width to height
Body (micro-) runner, this advantageously overcomes the isolation of adjacent gas runner and effectively improves gas and contacts and then improve reaction efficiency
Double-barreled question.In some embodiments, the wide high proportion of plane boss for example 2:1 to 50:1, preferably 5:1 are to 50:1, more
Preferably 10:1 to 30:1, wide high proportion for example 10:1 to 200:1, the more preferably 20:1 to 200:1 of gas flow (groove),
More preferably 50:1 to 150:1.
In an illustrated embodiment, first end ground electrode 222, the first and second intermediate ground electrodes 226,228
In one depressed area 2200, it is formed with multiple plane boss 2204 and the groove 2205 between plane boss.Although being not shown,
The second end ground electrode 224, the first and second intermediate ground electrodes 226,228 the second depressed area 2200 ' in be again provided with
Multiple plane boss 2204 and the groove 2205 between plane boss.
Here, the construction of this plane boss and groove be it is extremely advantageous, can be made very short with plane boss,
To the height very little of runner, width is very big, can also ensure that the size of each runner is highly uniform and plane is convex at the same time
The contact sealing of platform is uniformly good, can obtain splendid gas and tell on and cooling effect.
In the preferred embodiment shown, depressed area can have excessive radius 2209 in corner.This is astoundingly
It improves yield and improves heat distribution.Although without being bound by theory guessing that this may be because reducing the corner with dielectric-slab
Between point discharge.
Referring especially to Figure 11 A-11B, dielectric-slab 216 can be configured to extend beyond the entrance of plane boss/groove region
Protruding portion 23 is formed into long hole/elongated slot or elongated air cavity, this astoundingly improves yield and improves heat distribution.
C) module board (ground electrode) component
In some embodiments according to the present utility model, provide module board (ground electrode) component comprising it is stacked and
At first end ground electrode, (such as multiple groups first and second are medially for the second end ground electrode and at least one intermediate ground electrode
Electrode).The stacked ground electrode can by means of at least one, 4 clamp stud holes 2207 in embodiment as shown are by adding
Tight bolt 29 is fixed together.
It will be appreciated that forming different plates by the construction, stacked manner and fluid-flow mode of different module boards
In multiple and different embodiments of formula ground electrode component.
For example, the gas flow direction that embodiment shown in having in one embodiment is different, thus the second module board 224
In this as the end ground electrode of inlet end, the first module board 222 is in this as outlet side.
For example, in one embodiment, one or both of end module plate can be structured as being not involved in corona discharge, i.e., only
The ground electrode or module board of first and/or second " blind " are provided.
For example, in some embodiments, the intercommunicating pore of different location can be set in module board, to realize different tortuous stream
It is dynamic.
For example, in some embodiments, different intercommunicating pores can be set, such as flow in and out end in cooling fluid
Perforative intercommunicating pore is all set, so that all intermediate module plates identical can be constituted, (flowing in and out hole can juxtaposition or friendship
Mistake setting).
For example, in some embodiments, the recess of the both side surface of intermediate module plate can have identical depth, and two
Side surface all has the holding tank for accommodating connector portions.
Above and other can all to fall in this practical new for the embodiments that be expected by those skilled in the art under disclosure introduction
In the range of type.
Electrion unit
As previously mentioned, ozone generating unit 20 may also include the electrion unit being arranged between board-like ground electrode 22,
It can be for example including electrode plate with high voltage component 21 and positioned at the optional dielectric-slab 216 of its two sides.In an illustrated embodiment,
Dielectric-slab 216 can have than 21 wider width of electrode plate with high voltage component.
Referring especially to Figure 19-20, which includes the height for being located in the middle resilient sleeper-bearing 212 and two sides
Piezoelectricity pole plate 214 is, for example, metal plate.
The resilient sleeper-bearing 212 may include connector portions 2120, notched plate body, top sealing 2125, sealed bottom portion
2126, these components can be single-piece, and for example, rubber is made.The described resilient sleeper-bearing 212, i.e. can be in its plate body
Multiple groups transverse support ribs 2127 are set, and in a preferred embodiment, the transverse support ribs can correspond to plane boss 2204
Position setting, this provide especially optimize support positioning and gas producing efficiency promotion.In the described resilient sleeper-bearing 212, i.e.
Multiple vertical supporting ribs 2128 can also be set in its plate body.In the top and bottom sealing, can be set it is multiple to
Rib that two sides are extended, such as lateral and/or vertical rib, and the gap between the rib.Which not only provides to Jie
Effective support of scutum, can also have further benefit.
The resilient sleeper-bearing 212 may also include by the connector portions 2120 holding and that extends at the top of the connector portions connects
Line end 2121 and a pair end 2122 disposed in parallel extended from the notch of the plate body.It is also settable and this is to end
A pair of of elastic contact chip 2123 of 2122 screws connection.
Correspondingly, the notch for being used to support one of elastic contact chip 2123 is provided in electrode plate with high voltage 214,
Shown in be ladder notch 2142 in embodiment.Optionally, aperture 2144, position are also provided in electrode plate with high voltage 214
The screw connection portion that can correspond to another elastic contact chip is set, for use as evacuation or more preferably as further fixed.
In addition, in resilient sleeper-bearing 212, especially in top sealing, sealed bottom portion (especially rib) and plate body
Limit the receiving portion for shape cooperation electrode plate with high voltage 214.Rib and gap in the top and bottom sealing can be borrowed
Help elastic properties of materials, not only maintain electrode plate well, and allow its with dielectric-slab it is uniform it is good contact, this is for producing
Gas efficiency ozone is extremely advantageous for occurring.
High-voltage insurance device
The ozone generator of embodiment according to the present utility model, such as ozone generating unit may also include practical new according to this
The high-voltage insurance device 30 of one embodiment of type, for example, it is cylindrical.
In one embodiment of the utility model, high-voltage insurance device 30 may include first lead end 301, the second lead
End 302, cylinder at least partly prolong by closing inner chamber 300 that film 307 surrounds, in the closing inner chamber positioned at cylinder is intracorporal
Fuse 308 stretch and connection first and second lead end and it is contained in the intracorporal extinguishing particle of the cylinder or fluid.
Referring especially to Figure 24-27, the high-voltage insurance device 30 for showing one embodiment according to the present utility model may be used also
First end insulator cap 303, the second end insulator cap 304 including cylinder both ends are arranged in.In one embodiment, the cylinder
It can be ceramic tube 305.Although in an illustrated embodiment, insulator cap and cylinder limit inner containment extinguishing particle or stream together
The space of body, it is envisioned that only being realized by cylinder, this is fallen into the scope of the utility model.It is contemplated that insulator cap
Mode that can be different from illustrated embodiment constructs.
In one embodiment, extinguishing particle/fluid can be the combination of quartz sand or it and other particles or fluid.
In the embodiment shown in Figure 24-27, high-voltage insurance device 30 may include the insulation branch in closing inner chamber 300
Frame 306, film 307 can be coated on the insulating support 306.In an illustrated embodiment, insulating support 306 is rectangle frame
, and two panels film 307 covers the rectangular frame in two sides (top and bottom) respectively to surround out the closing inner chamber.This is absolutely
The insulating support of edge bracket 306, such as rectangular frame is equipped with electrical contacts, such as wiring rivet 309 at both ends.Implement shown in
In example, fuse 308 extends to the other end from one end inclination in the inner space of frame to connect respectively at both ends in top side and bottom side
The electrical contacts, wiring rivet 309 are connect, thus fuse only film described in point contact at two at this.But it is contemplated that other structures
Make so that fuse all, preferably only partially, the more preferable only film described in one or more point contacts.
By means of the high-voltage insurance device 30 of embodiment according to the present utility model, the configuration of especially point contact film,
It can particularly advantageously overcome the problems, such as the Overload Protection of high voltage in ozone generator field, low current.
Under the introduction of the embodiments of the present invention, film is so selected, so that the fusing point of film compares fuse
Fusing point it is 0 DEG C -100 DEG C high, preferably 40 DEG C -90 DEG C.Under the introduction of the embodiments of the present invention, film is so selected,
So that the fusing point of film is 250 DEG C -350 DEG C, preferably 300 DEG C -350 DEG C.
Although in the described embodiment, describing the high-voltage insurance device for ozone generating-device, it is also conceivable to use
In the overload protection arrangement of other field, this is fallen into the scope of the utility model.
In an illustrated embodiment, a kind of high-voltage insurance device assembly is additionally provided comprising multiple parallel arrangement of height
Safety device 30 is pressed, is especially arranged in correspondence with high-field electrode component 21 (high-field electrode discharge cell).The high-voltage insurance
Device assembly may also include one or more safety device brackets 31.The safety device bracket 31 may include supporting leg 310 and side by side
The multiple elastic receiving holes 312 being arranged, to accommodate high-voltage insurance device 30.It is also settable with reference to Fig. 7, Figure 12, Figure 18-19
It is connected to the first busbar connector 33 of interface 32.In some embodiments, first busbar connector 33 it is so structured that with interface or
The pcb board of plumb joint.Multiple high-voltage insurance devices 30 can be respectively connected to first busbar connector 33 at one end, in other end example
The terminals 2121 of electrode plate with high voltage 21 are such as connected to by tubular connector.
Correspondingly, be also provided with the second busbar connector 35 for being connected to terminals 34, second busbar connector 35 for example by means of
Help screw and is fixed to ground electrode.Second busbar connector 35 for example can be simple electric connecting sheet.
With continued reference to Fig. 7, Figure 12, Figure 18-19, ozone generating unit 20 may also include for the tight of the multiple module boards of lock ring
Gu frame 24, superposed unit housings 26 step up spiral shell positioned at the unit housings 28 of lower part and for step up multiple module boards
Bolt 29.Unit housings 26 can be used for blocking electrical component, such as high-voltage insurance device.Unit housings 26 can be used for accommodating cooling fluid
The pipeline of compartment system, as further described.Optionally, settable humidity sensor or alarm dress in unit housings 26
It sets.
Flow channel cloth relevant to fluid distrbution described in embodiment according to the present utility model in ozone generating unit
Setting form also will be further elucidated hereinbelow.
Fluid distribution system
- 6 are continued to refer to figure 1, the fluid distribution system according to the utility model embodiment is described.In ozone generator,
Two kinds of following fluid distribution systems often may be present, i.e., for providing the gas distribution system for producing ozoniferous gas (such as oxygen)
It unites and for providing the cooling fluid compartment system of cooling fluid, such as water.Be described below, both fluid distribution systems it is more
A embodiment.
A) cooling fluid compartment system
Referring especially to Fig. 2-Fig. 3, the cooling fluid compartment system 50 of one embodiment, cooling fluid distribution system are shown
System may include influent stream pipeline subsystem and drain tube subsystems.More specifically, cooling fluid compartment system 50 may include side by side
Influent stream general pipeline 51 and drainage general pipeline 52 arranged at the bottom and one or more influent stream branch pipe groups and one or more drainage branch
Pipe group (being in an illustrated embodiment 8).
In an illustrated embodiment, each influent stream branch pipe group may include sequentially connected the first approximate horizontal influent stream branch pipe
53, the second roughly vertical influent stream branch pipe 55 and the approximate horizontal third of one or more (being in an illustrated embodiment 3)
Influent stream branch pipe 57.Each drainage branch pipe group may include sequentially connected one or more (being in an illustrated embodiment 3) substantially
Horizontal third drainage branch pipe 58, the second roughly vertical drainage branch pipe 56 and the first approximate horizontal drainage branch pipe 54.
In addition to flow direction on the contrary, influent stream branch pipe group (such as the first, second, third influent stream branch pipe) and drainage branch pipe group (such as first,
Second, third drainage branch pipe) there is same shape size (such as cavity shape size).In an illustrated embodiment, into
Flowing branch pipe group (such as the first, second, third influent stream branch pipe) and drainage branch pipe group (such as the first, second, third drainage branch pipe) can be
It is arranged substantially symmetrically on the direction influent stream/drainage general pipeline, and is slightly misaligned on the longitudinal direction influent stream/drainage general pipeline.?
Shown in preferred embodiment, third influent stream and drainage branch pipe 57,58 are disposed in parallel under module board 22, are located at unit housings
In 28.
In an illustrated embodiment, third influent stream branch pipe 57 includes and one or more inflow entrances in 22 bottom of module board
One or more (the being in an illustrated embodiment 6) outflux 570 being connected.Accordingly, third drainage branch pipe 58 includes
One or more (the being in an illustrated embodiment 6) stream being connected with one or more outfluxes in 22 bottom of module board
Entrance 580.In an illustrated embodiment, outflux 570 and inflow entrance 580 correspond to inflow entrance and stream in 22 bottom of module board
It exports and is arranged alternately along third influent stream/drainage branch pipe longitudinal direction.
In an illustrated embodiment, third influent stream branch pipe 57 have platform part 574, one of the third influent stream branch pipe 57
Or multiple outfluxes 570 are located in its platform part 574.In addition, being provided with the ground with ozone generating unit at each outflux 570
The boss 572 of inflow entrance docking in electrode.Third drainage branch pipe 58 has platform part 584, the third drainage branch pipe 58
One or more inflow entrances 580 are located in its platform part 584.In addition, being provided at each inflow entrance 580 and ozone generating unit
Ground electrode in outflux docking boss 582.In the embodiment shown in fig. 14, in third branch pipe 57,58 with platform
The opposite side in portion 574,584 can be correspondingly provided with platform part 577,578, and aperture 578,588 is correspondingly provided with boss,
Such as it can be used for facilitating installation ground electrode and the support branch pipe and ground electrode.It is highly preferred that this can provide inflow and outflow
The configuration of mouth changes diversity.
In an illustrated embodiment, the end 576,586 of the third influent stream/drainage branch pipe 57,58 for example can be by blocking
Element closing.
In some embodiments, it can be set into detachable between the branch pipe or between branch pipe and general pipeline and can block
's.Such as the second influent stream/drainage branch pipe 55,56 may include the pipe fitting 552 being connect with third influent stream/drainage branch pipe 57,58,
562, can be can block, this provides possibility for the flexible allotment of ozone generating unit.
In some embodiments, between the branch pipe in each influent stream branch pipe group, between branch pipe and general pipeline, branch pipe and modular unit
At least one level structure of voltage regulation can be limited, the structure of voltage regulation is, for example, the minor diameter diameter of upstream and the downstream that is for example connected directly
Enlarged diameter section be formed by.The ratio between equivalent cross section of the reduced diameter section of structure of voltage regulation and enlarged diameter section 1:2 to 1:10 it
Between, preferably between 1:2-1:5.In some embodiments, between the branch pipe in each drainage branch pipe group, between branch pipe and general pipeline,
Branch pipe and modular unit can limit at least one level structure of voltage regulation, and the structure of voltage regulation is, for example, the major diameter diameter and such as of upstream
The reduced diameter section in the downstream being connected directly is formed by.The ratio between the reduced diameter section of structure of voltage regulation and the equivalent cross section of enlarged diameter section
In 1:2 between 1:10, preferably between 1:2-1:5.
In some embodiments, it may include existing for flow tube (not shown) and setting for the upstream the influent stream general pipeline is set
The delivery pipe in the downstream the drainage general pipeline, it is described to have the diameter less than influent stream general pipeline to limit influent stream pipeline subsystem for flow tube
Level-one (influent stream) structure of voltage regulation of system, the drainage general pipeline have the diameter greater than delivery pipe to limit drain tube subsystems
Level-one (drainage) structure of voltage regulation.
In an illustrated embodiment, the first influent stream branch pipe 53 of minor diameter and the second influent stream branch pipe 55 of major diameter can be with shapes
At second level (influent stream) structure of voltage regulation.And the second drainage branch pipe 56 of major diameter and the first drainage branch pipe 54 of minor diameter can be formed
Second level (drainage) structure of voltage regulation.
In some embodiments, the outflux 570 of third influent stream branch pipe 57 can be relatively small diameter portion or limit
Coarctation segment can form the three-level with upstream reduced diameter section and downstream enlarged diameter section with the fluid channel 2202 of module board 22
(influent stream) structure of voltage regulation.Correspondingly, the fluid channel 2202 of module board 22 can be with 580 shape of inflow entrance of third drainage branch pipe 58
At three-level (drainage) structure of voltage regulation of the minor diameter of major diameter and downstream with upstream.
B) gas distributed system
Referring especially to Fig. 4-Fig. 5, the gas distributed system 40 of one embodiment is shown, which may include
Air inlet pipeline subsystem and gas exhaust piping subsystem.More specifically, gas distributed system 40 may include being disposed side by side on top
Inlet manifold 41 and exhaust main 42 and one or more air intake branch groups and one or more exhaust branch pipe groups are (shown in
It is 8 in embodiment).
In an illustrated embodiment, each air intake branch group may include sequentially connected the first approximate horizontal air intake branch
43, the second roughly vertical air intake branch 45 and the approximate horizontal third of one or more (being in an illustrated embodiment 3)
Air intake branch 47.Each exhaust branch pipe group may include sequentially connected one or more (being in an illustrated embodiment 3) substantially
Horizontal third exhaust branch pipe 48, roughly vertical second exhaust branch pipe 46 and approximate horizontal first exhaust branch pipe 44.
In addition to flow direction on the contrary, air intake branch group (such as the first, second, third air intake branch) and exhaust branch pipe group (such as first,
Second, third exhaust branch pipe) there is same shape size (such as cavity shape size).In an illustrated embodiment, into
Gas branch pipe group (such as the first, second, third air intake branch) and exhaust branch pipe group (such as the first, second, third exhaust branch pipe) can be
It is arranged substantially symmetrically on air inlet/exhaust main direction, and is slightly misaligned on air inlet/exhaust main longitudinal direction.?
Shown in preferred embodiment, axis symmetrical mode point of the third inlet and exhaust manifold 47,48 relative to module board 22
It is not connected to the first and second end module plates 222,224.
In some embodiments, it can be set into detachable between the branch pipe or between branch pipe and general pipeline and can block
's.Such as the second air inlet/exhaust branch pipe 45,46 can be connect with third air inlet/exhaust branch pipe 47,48 be it is dismountable, and second
The pipe fitting 452,462 that air inlet/exhaust branch pipe 45,46 is connect with third air inlet/exhaust branch pipe 47,48, which can be, can pass through closure
What element 49 blocked, this provides possibility for the flexible allotment of ozone generating unit.
In some embodiments, between the branch pipe in each air intake branch group, between branch pipe and general pipeline, branch pipe and modular unit
At least one level structure of voltage regulation can be limited, the structure of voltage regulation is, for example, the minor diameter diameter of upstream and the downstream that is for example connected directly
Enlarged diameter section be formed by.The ratio between equivalent cross section of the reduced diameter section of structure of voltage regulation and enlarged diameter section 1:2 to 1:10 it
Between, preferably between 1:2-1:5.In some embodiments, between the branch pipe in each exhaust branch pipe group, between branch pipe and general pipeline,
Branch pipe and modular unit can limit at least one level structure of voltage regulation, and the structure of voltage regulation is, for example, the major diameter diameter and such as of upstream
The reduced diameter section in the downstream being connected directly is formed by.The ratio between the reduced diameter section of structure of voltage regulation and the equivalent cross section of enlarged diameter section
In 1:2 between 1:10, preferably between 1:2-1:5.
In some embodiments, it may also include the air supply pipe (not shown) that the inlet manifold upstream is set and setting
Delivery pipe in the exhaust main downstream.Air supply pipe has the diameter less than inlet manifold to limit air inlet pipeline subsystem
Level-one (air inlet) structure of voltage regulation.Exhaust main has the diameter greater than efferent duct to limit the level-one of gas exhaust piping subsystem
(exhaust) structure of voltage regulation.
In an illustrated embodiment, the first air intake branch 43 of minor diameter and the second air intake branch 45 of major diameter can be with shapes
At second level (air inlet) structure of voltage regulation.And the second exhaust branch pipe 46 of major diameter and the first exhaust branch pipe 44 of minor diameter can be formed
Second level (exhaust) structure of voltage regulation.
In an illustrated embodiment, the third air intake branch 47 of relatively small diameter (equivalent cross-sectional area) and relatively large etc.
The elongated inlet chamber for imitating cross-sectional area forms three-level (air inlet) structure of voltage regulation of air inlet pipeline subsystem.Correspondingly, elongated exhaust
The three-level (exhaust) that the third exhaust branch pipe 48 of chamber and relatively small diameter (equivalent cross-sectional area) forms gas exhaust piping subsystem is steady
Laminated structure.
In an illustrated embodiment, multiple air intake branch groups are arranged in parallel along the extending direction of inlet manifold, multiple exhausts
Branch pipe group is arranged in parallel along the extending direction of exhaust main.And multiple influent stream branch pipe groups are along the parallel cloth of extending direction of influent stream general pipeline
It sets, multiple drainage branch pipe groups are arranged in parallel along the extending direction of drainage general pipeline.And influent stream/drainage general pipeline and air inlet/exhaust main
It is divided into the bottom and top of ozone generator and is arranged in parallel.
In an illustrated embodiment, in side air intake branch group and influent stream (or drainage) branch pipe group along the extending direction of general pipeline
It is arranged alternately, in opposite side, exhaust branch pipe group is arranged alternately with drainage (or influent stream) branch pipe group along the extending direction of general pipeline.This can
To provide very compact structure.
High pressure wire box
Processing circuit, transformation mechanism and/or power conversion are optionally installed in circuit module 60 (such as high pressure wire box)
The relevant functional component of module etc. and the power supply of ozone generator, monitoring.Since it is not the emphasis of the utility model, herein not
It repeats.
In addition, it will be appreciated by those skilled in the art that the method and its step can be in accordance with an embodiment of the present disclosure
It is real applied to new device, equipment is formed in the device described in accordance with an embodiment of the present disclosure, equipment in the case of no contradiction
Apply example.It in turn, can also be not for method described in device or equipment described in the embodiment of the present disclosure, program, step
It is integrated in contradictory situation in the method for embodiment of the disclosure and forms new embodiment of the method.
It has referred to above-described embodiment and has specifically illustrated and describe the exemplary means of the utility model, system and method,
Only implement the example of the optimal mode of this system and method.It will be appreciated by those skilled in the art that be can implement this
Various changes are done without departing from being defined in appended right to the embodiment of system and method described herein when system and/or method
The spirit and scope of the utility model in it is required that.Appended claims are intended to define the range of device, system and method, therefore fall
The system and method for entering in these claims and being equal with it can be included.
Claims (14)
1. a kind of ozone generating unit, characterized in that including multiple stacked board-like ground electrodes, multiple electrion units and
Multiple high-voltage insurance devices of the multiple electrion unit are respectively connected to, wherein electrion unit includes high-field electrode
Board group part and dielectric-slab positioned at electrode plate with high voltage component two sides;
Wherein each board-like ground electrode includes the ontology of single-piece, and the board-like ground electrode further includes the of the one-piece body
The first length for forming depressed area at least one of one and second surface and being located at two sides in the depressed area
Hole/elongate recesses and the second long hole/elongate recesses, the board-like ground electrode further include in the depressed area transverse to institute
State the multiple plane boss and the groove between plane boss that the first and second long holes/elongate recesses extend, it is described board-likely
Electrode further includes the fluid channel formed in the one-piece body;
Wherein it is long to form perforative first for first long hole of the multiple stacked board-like ground electrode and the first elongate recesses
Shape air cavity, second long hole and the second elongate recesses form the perforative second elongated air cavity;
Wherein each electrion unit is arranged in the depressed area between adjacent ground electrode.
2. ozone generating unit according to claim 1, characterized in that the multiple stacked board-like ground electrode includes the
One end ground electrode, the second end ground electrode and at least one intermediate ground electrode, in which:
The first end ground electrode includes the first depressed area and position formed in the first surface of the one-piece body
In first elongate recesses and the second elongate recesses in first depressed area, the first end ground electrode includes from institute
The second surface for stating one-piece body extends to air inlet/gas outlet of first elongate recesses;
The second end ground electrode includes the second depressed area and position formed in the second surface of the one-piece body
In first elongate recesses and the second elongate recesses in second depressed area, the second end ground electrode includes from institute
The first surface for stating one-piece body extends to outlet/air inlet of second elongate recesses;
The intermediate ground electrode includes the first depressed area formed in the first surface of the one-piece body and in the second table
The second depressed area formed in face and first long hole and the second long hole in first and second depressed area.
3. ozone generating unit according to claim 2, characterized in that the first end ground electrode and intermediate ground electrode
Top holding tank with the connector portions for accommodating high-field electrode component for being located at first surface.
4. according to claim 1 to ozone generating unit described in one of 3, characterized in that the electrode plate with high voltage component includes
A pair of of the electrode plate with high voltage being located in the middle on resilient sleeper-bearing and two sides.
5. ozone generating unit according to claim 4, characterized in that also have multiple groups in the plate body of the resilient sleeper-bearing
The corresponding position of the multiple plane boss is arranged in transverse support ribs, the multiple groups transverse support ribs in the mounted state.
6. ozone generating unit according to claim 4, characterized in that the resilient sleeper-bearing includes integrally formed connector portions
And the terminals for being kept and being extended at the top of the connector portions by the connector portions.
7. ozone generating unit according to claim 6, characterized in that one end of the multiple high-voltage insurance device by
The terminals are connected in tubular connector, the other end is connected to the first busbar connector.
8. according to claim 1 to ozone generating unit described in one of 3, characterized in that further include being connected to the multiple fold
Second busbar connector of the board-like ground electrode set.
9. ozone generating unit according to claim 4, characterized in that the resilient sleeper-bearing include integrally formed plate body,
Top sealing and sealed bottom portion, the two sides shape of the top sealing, plate body and sealed bottom portion in the resilient sleeper-bearing
At the receiving portion cooperated with high-field electrode plate shape, the dielectric-slab is configured to be compressed against the top sealing and bottom is close
In envelope portion.
10. according to claim 1 to ozone generating unit described in one of 3, characterized in that the dielectric-slab is configured to extend into
Protruding portion is formed in the elongated air cavity.
11. according to claim 1 to ozone generating unit described in one of 3, characterized in that the high-voltage insurance device includes the
One lead end, the second lead end, cylinder, positioned at the cylinder it is intracorporal at least partly by film surround closing inner chamber, described
The fuse of extend in the closing inner chamber and connection first lead end and the second lead end and it is contained in that the cylinder is intracorporal to be put out
Go out particle or fluid.
12. according to claim 1 to ozone generating unit described in one of 3, characterized in that further include stepping up the multiple be stacked
Board-like ground electrode clamp stud, to clamp each electrion list in the depressed area that is arranged between adjacent ground electrode
Member.
13. according to claim 1 to ozone generating unit described in one of 3, characterized in that further include multiple stacked for lock ring
The fastening frame of board-like ground electrode, the upper unit shell for accommodating the multiple high-voltage insurance device, for accommodating fluid
The lower unit shell of pipeline.
14. a kind of ozone generator, characterized in that including according to claim 1 to one or more ozone described in one of 13
Generating unit, gas distributed system and cooling fluid compartment system, wherein gas distributed system connection described first and the
Two elongated air cavitys, the cooling fluid compartment system are connected to the fluid channel.
Priority Applications (1)
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CN201920182499.0U CN209536974U (en) | 2019-02-01 | 2019-02-01 | A kind of ozone generating unit and ozone generator |
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CN201920182499.0U CN209536974U (en) | 2019-02-01 | 2019-02-01 | A kind of ozone generating unit and ozone generator |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114751383A (en) * | 2021-01-12 | 2022-07-15 | 北京科胜美科技有限公司 | Integrated ozone generation module |
CN114763253A (en) * | 2021-01-12 | 2022-07-19 | 北京科胜美科技有限公司 | Modular ozone generator device and mounting platform thereof |
CN114763255A (en) * | 2021-01-12 | 2022-07-19 | 北京科胜美科技有限公司 | Ground electrode for ozone generator |
CN114763253B (en) * | 2021-01-12 | 2024-04-26 | 北京科胜美科技有限公司 | Modularized ozone generator equipment and mounting platform thereof |
-
2019
- 2019-02-01 CN CN201920182499.0U patent/CN209536974U/en not_active Expired - Fee Related
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114751383A (en) * | 2021-01-12 | 2022-07-15 | 北京科胜美科技有限公司 | Integrated ozone generation module |
CN114763253A (en) * | 2021-01-12 | 2022-07-19 | 北京科胜美科技有限公司 | Modular ozone generator device and mounting platform thereof |
CN114763255A (en) * | 2021-01-12 | 2022-07-19 | 北京科胜美科技有限公司 | Ground electrode for ozone generator |
CN114751383B (en) * | 2021-01-12 | 2023-08-15 | 北京科胜美科技有限公司 | Integrated ozone generating module |
CN114763253B (en) * | 2021-01-12 | 2024-04-26 | 北京科胜美科技有限公司 | Modularized ozone generator equipment and mounting platform thereof |
CN114763255B (en) * | 2021-01-12 | 2024-04-26 | 北京科胜美科技有限公司 | Ground electrode for ozone generator |
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