• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    Disclosed is an ozone generator unit. The ozone generator unit comprises a housing. The housing comprises a first half having a cylindrical first recess and a second half having a cylindrical second recess. The ozone generator unit further comprises an inlet and an outlet in the housing, a first dielectric disc arranged within the first recess in contact with an inner surface of the first half, a second dielectric disc arranged within the second recess in contact with an inner surface of the second half, and a high voltage electrode, having a gas passage, arranged between the first and second dielectric discs. The high voltage electrode is spaced apart from the first and second dielectric discs using a first spacer and a second spacer to constitute a first gas chamber and a second gas chamber on either side of the high voltage electrode.
    公开号:SE1630183A1
    申请号:SE1630183
    申请日:2016-08-05
    公开日:2018-02-06
    发明作者:Arlemark Jan
    申请人:Ozone Inventions Ltd;
    IPC主号:
    专利说明:

    [8] [0008]present disclosure would be made apparent from the drawings and thethe Additional aspects, advantages, features and objects of the detailed description of illustrative embodiments construed in conjunction with the appended claims that follow.
    [9] [0009] are susceptible to being combined in various combinations without lt will be appreciated that features of the present disclosure departing from the scope of the present disclosure as defined by theappended claims.
    [10] [0010] description of illustrative em bodiments, is better understood when read The summary above, as well as the following detailed in conjunction with the appended drawings. For the purpose of illustrating the present disclosure, exemplary constructions of the disclosure are shown in the drawings. However, the present disclosureis not limited to specific methods and instrumentalities disclosed herein.I/|oreover, those ski|ed in the art will understand that the drawings arenot to scale. Wherever possible, like elements have been indicated by identical num bers.
    [11] [0011] by way of example only, with reference to the following diagrams Em bodiments of the present disclosure will now be described, wherein: FIG. 1 illustrates a perspective view of an ozone generator unit, in accordance with an em bodiment of the present disclosure; FIG. 2 illustrates a sectional view of the ozone generator unit ofFIG. 1 along an axis A-A”, in accordance with an embodiment of the present disclosure; and FIG. 3 illustrates a perspective view of an ozone generator system, in accordance with an embodiment of the present disclosure.
    [12] [0012] employed to represent an item over which the underlined number is ln the accompanying drawings, an underlined number is positioned or an item to which the underlined number is adjacent. A non-underlined number relates to an item identified by a line linking the non-underlined number to the item. When a number is non-underlined andaccompanied by an associated arrow, the non-underlined number is used to identify a general item at which the arrow is pointing.DETAILED DESCRIPTION OF EI/IBODll/IENTS
    [13] [0013] the present disclosure and ways in which they can be implemented.
    [14] [0014] provides an ozone generator unit com prising: ln one aspect, an embodiment of the present disclosure a housing comprising:- a first half having a cylindrical first recess; and- a second half having a cylindrical second recess, wherein thefirst half is coupled to the second half for allowing the first andsecond recesses to form a main cham ber within the housing; - an inlet and an outlet in the housing and extending to the mainchamber; - a first dielectric disc, arranged within the first recess in contact withan inner surface of the first half; - a second dielectric disc, arranged within the second recess incontact with an inner surface of the second half, wherein at leastthe first dielectric disc has a gas passage; and - a high voltage electrode, having a gas passage , arranged in themain chamber and between the first and second dielectric discs,wherein the high voltage electrode is spaced apart from the firstand second dielectric discs using a first spacer and a second spacerto constitute a first gas chamber and a second gas chamber oneither side of the high voltage electrode, wherein the gas passage of the high voltage electrode and the gas passage of the first dielectric disc fluidically couple the first and second gas cham bers, and wherein the inlet is arranged axially in the centre area of the housing and wherein the outlet is arranged radially in the housing.
    [15] [0015] provides an ozone generator system comprising: ln another aspect, an embodiment of the present disclosure - at least one ozone generator unit, the at least one ozone generatorunit comprising: - a housing comprising: - a first half having a cylindrical first recess; and - a second half having a cylindrical second recess, whereinthe first half is coupled to the second half for allowing thefirst and second recesses to form a main chamber withinthe housing; - an inlet and an outlet in the housing and extending to the mainchamber; - a first dielectric disc, arranged within the first recess in contactwith an inner surface of the first half; - a second dielectric disc, arranged within the second recess incontact with an inner surface of the second half, wherein atleast the first dielectric disc has a gas passage; and - a high voltage electrode, having a gas passage, arranged inthe main cham ber and between the first and second dielectricdiscs, wherein the high voltage electrode is spaced apart fromthe first and second dielectric discs using a first spacer and asecond spacer to constitute a first gas cham ber and a secondgas cham ber on either side of the high voltage electrode,wherein the gas passage of the high voltage electrode and thegas passage of the first dielectric disc fluidically couple the first and second gas chambers, and wherein the inlet is arranged axially in the centre area of thehousing and wherein the outlet is arranged radially in the houäng; - a first bracket attached to the inlet of each of the at least one ozonegenerator units;- a second bracket attached to the outlet of each of the at least one OZOFIG genefatOl' UnltS; - at least one control circuit associated with each of the at least oneozone generator units; and- at least one fan arranged in front of an outer surface of each of the at least one ozone generator units.
    [16] [0016] and an OZOFIG genefatOl' SyStem.
    [11] [0011] herein refers to a device which may be used for generation of ozone (or ln an embodiment, the term “ozone generator unit” usedtrioxygen). Specifically, the ozone generator unit generates ozone bysubjecting a gas stream to a corona discharge (or a high voltage electricfield). oxygen, for example, air or diatomic oxygen gas. The corona discharge ln an embodiment, the gas stream includes a gas comprising may ionise oxygen molecules in the gas stream. Thereafter, the ionisedmolecules in the gas stream may recombine to form ozone. lt may beevident that the ozone generator unit may be made of a material suitable to withstand generation of ozone.
    [18] [0018] the housing may be an outer cover or casing of the ozone generator unit.
    [19] [0019] attaching the first half with the second half using screws at a plurality of ln an embodiment, the housing may be assembled by positions on the first and second halves. lt may be evident that shape,size and arrangem ent of the first and second halves are such that leakageof the gas stream and/or ozone from the housing may be avoided. ln an embodiment, the housing is operable to be subjected to air cooling.
    [20] [0020] recess. Specifically, the cylindrical first recess may be a cavity in the first As mentioned above, the first half includes the cylindrical first half to accommodate components of the ozone generator unit therein.Similarly, the second half includes the cylindrical second recess (orcavity). ln an embodiment, the first and second recesses may be of another shape, such as cuboid.
    [21] [0021]first and second recesses to form a main chamber within the housing.The arrangement of the first and second recesses.
    [22] [0022] of a shape including, but not limited to, a cuboid or a cylinder. ln one em bodiment, the first half and the second half may beForexample, the ozone generator unit may include a flat cuboid shape.Specifically, the housing, may include the flat cuboid shape, having first and second cuboid halves of same dimensions. ln an embodiment, the first and the second halves may be made of aluminium, stainless steel orother similar metals. lt may be evident that the material of the first andthe second halves should not react with ozone, thereby avoidingcontamination of ozone, and increasing longevity of use of the ozone generator unit.
    [23] [0023] the first and the second halves comprises a plurality of cooling fins. ln an embodiment, at least a portion of an outer surface of Specifically, the plurality of cooling fins may be ridges (or flanges orraised edges) on the outer surface of the first and/or the second halves.lt may be evident that presence of the plurality of cooling fins mayincrease surface area of the outer surface of the first and the secondhalves. Therefore, an increased outer surface area may be exposed toair (cooling medium) for dissipation of heat in order to reduce timerequired to cool the ozone generator unit. ln an example, the pluralityof cooling fins may have triangular cross sections. ln another example,the plurality of cooling fins may have polygonal cross section, such as rectangular cross section.
    [24] [0024] disc, arranged within the first recess to contact an inner surface of the The ozone generator unit further com prises a first dielectric first half. Further, the first dielectric disc has a gas passage. Specifically,the gas passage may be a hole (or a passage) on the first dielectric discto allow movement of the gas stream within the main cham ber. Further,the gas passage may be present centrally or may be eccentric. lt maybe evident that more than one gas passage may be present on the firstdielectric disc. The contact of the first dielectric disc with the innersurface of the first half leads to a reduction in energy required to cool theozone generator unit. Specifically, heat generated within the mainchamber during ozone generation may be transmitted via the firstdielectric disc to the first half (or first ground electrode) by conduction.
    [25] [0025]include a gas passage to allow movement of the gas stream within thedetail). ln one em bodiment, the first and second dielectric discs, each main chamber (explained herein later in greater ln anem bodiment, the first and second dielectric discs are made of a dielectricthe first and second material, such as aluminate (AlO2). Further, dielectric discs are of same shape and size. For example, the first andsecond dielectric discs may be circular in shape and have same diameter.ln another example, the first and second dielectric discs may be polygonal in shape, and have same dimensions.
    [26] [0026] coated with a layer of metal on a surface, of the first and second dielectric ln an embodiment, the first and second dielectric discs arediscs, in contact with the first and the second halves. ln an example, alayer of gold (Au) or silver (Ag) may be coated on the surfaces of the firstand second dielectric discs which may be in contact with the first and thesecond halves. The metal coating increases cooling efficiency of theozone generator unit by forming a metallic contact of the first and seconddielectric discs with the first and the second halves. Specifically, themetallic contact increases conduction of heat from the first and seconddielectric discs to the first and the second halves. ln an example, a silvercoating on surfaces of the first and second dielectric discs may increasethe ozone output of the ozone generator unit by 10 percent as compared to the ozone output without the silver coating on surfaces of the first and 12 second dielectric discs. ln another example, a gold coating on surfacesof the first and second dielectric discs may provide a higher coolingefficiency as compared to a silver coating, due to higher conduction of heat.
    [21] [0021] electrode, having a gas passage, arranged in the main chamber, and The ozone generator unit further comprises a high voltagebetween the first and second dielectric discs. Specifically, the highvoltage electrode may be a metallic conductor capable of withstanding ahigh voltage current for the generation of ozone. ln an example, the highvoltage current (or high frequency alternating current) may be applied tothe high voltage electrode via a high voltage connection extending froma power supply to the ozone generator unit. Specifically, a high voltagecable may extend through a wall entrance (such as a cavity or a recess)into the housing and coupled to the high voltage electrode at one end and at other end coupled to a high voltage current source.
    [28] [0028] passage of the first dielectric disc fluidically couple the first and second The gas passage of the high voltage electrode and the gasgas cham bers. Specifically, gas passages of the high voltage electrodeand first dielectric disc allow movement of the gas stream and/or ozonewithin the main chamber. ln an example, the gas passages of the highvoltage electrode and the first dielectric disc are holes in centres thereof.ln such example, the central hole of the high voltage electrode alignscoaxially with the central hole of the first dielectric disc for fluidically coupling the first and second gas cham bers.
    [29] [0029] of stainless steel or tungsten. ln an embodiment, the high voltage electrode may be madeFurther, a peripheral edge of the highvoltage electrode may com prise a plurality of grooves. The plurality ofgrooves may be arranged symmetrically or asymmetrically on the peripheral edge of the high voltage electrode. 13
    [30] [0030] second dielectric discs using a first spacer and a second spacer to The high voltage electrode is spaced apart from the first and constitute a first gas chamber and a second gas cham ber on either sideof the high voltage electrode. ln an em bodiment, the first spacer and thesecond spacer are elements configured to mount two components apartby a specific distance. Specifically, the first spacer may be used to spaceapart the high voltage electrode from the first dielectric disc by a specificdistance. Similarly, the second spacer may be used to space apart thehigh voltage electrode from the second dielectric disc by a specific distance.
    [31] [0031]from the first and second dielectric discs lies within a range of 0.05that the ln an embodiment, the distance of the high voltage electrodemillimetres and 0.2 millimetres. lt may be evidentaforementioned range of distance between the high voltage electrode andthe first and second dielectric discs may be optimum, but not necessaryfor operation of the ozone generator unit. For example, the distance ofthe high voltage electrode from the first and second dielectric discs is0.08 millimetres. ln such embodiments, generation and quantity (or yield) of ozone from the ozone generator unit, may be optimal.
    [32] [0032] branches). ln an embodiment, the spacer has a star-like form (i.e. fiveln alternative embodiments, the spacer may have any otherform (i.e. four or six branches) suitable for spacing apart the high voltage electrode from the first and second dielectric discs.
    [33] [0033] be spaces, between the high voltage electrode and the first and second ln an embodiment, the first and second gas chambers maydielectric discs (spaced apart using spacers). Specifically, the first gascham ber may be defined as a space between the first dielectric disc andthe high voltage electrode. Similarly, the second gas chamber may bedefined as a space between the second dielectric disc and the high voltage electrode. 14
    [34] [0034] peripheral edge, and the gas passage of the high voltage electrode allow lt may be evident that the plurality of grooves on the flow of the gas stream within the first and second gas chambers of themain cham ber. l/loreover, the flow of gas stream may be uniform due tothe plurality of grooves on the peripheral edge of the high voltageelectrode. Therefore, pressure within the first and second gas cham bers may be similar (or uniform).
    [35] [0035] flat-type configuration which may be easily assembled. Specifically, the ln an embodiment, the ozone generator unit has a modular, ozone generator unit may be assembled in a sandwich-like configuration(or a layered configuration) by an arrangement of the high voltageelectrode, the first and second spacers, and the first and second dielectric discs.
    [36] [0036] further comprises an insulating ring arranged between the inner surfaces of the ln an embodiment, the ozone generator unitfirst and the second halves, and periphery of the high voltage electrodeand the first and second dielectric discs. Specifically, the insulating ringis made of an insulating material, such as teflon, to resist a flow of currentdue to the corona discharge. ln one embodiment, an inner diameter ofthe insulating ring may correspond to diameters of the high voltageelectrode and the first and second dielectric discs, for secure assembly ofthe ozone generator unit. Further, it may be obvious that there may bea clearance between the periphery (of the high voltage electrode and thefirst and second dielectric discs) and the insulating ring to allow flow ofthe gas stream into the main chamber (particularly, into the first and second gas cham bers).
    [31] [0031] at least one sealing ring arranged between the insulating ring and the ln an embodiment, the ozone generator unit also comprises inner surfaces of the first and the second halves. The at least one sealing ring may be arranged to seal the gas cham bers and/or the main cham ber to prevent Ieakage of gas stream and/or ozone from the ozone generator unit. ln an example, the at least one sealing ring may be O-rings.
    [38] [0038] arranged axially in the centre area of and radially in the housing The ozone generator unit comprises an in|et and an out|etrespectively, and extending to the main chamber. Specifically, an in|etmay be a central point of entry (of inflow) of the gas stream into thehousing, and the out|et may be a peripheral point of exit (or outflow) ofozone from the housing. ln an embodiment, the ozone generator unitmay include more than one in|et to permit uniform flow of gas streambetween the first and second gas cham bers. ln an embodiment, the in|etmay be arranged axially, and the out|et may be arranged radially in thehousing. ln an embodiment, the in|et and the out|et may be made of amaterial same as the first and second halves of the housing, such asaluminium. Otherwise, the in|et and the out|et may be made of other suitable material, such as an ozone resistant plastic.
    [39] [0039] generation of ozone by subjecting the gas stream ln operation, the ozone generator unit may be used forto the coronadischarge. Specifically, ionisation of the gas stream for generation ofozone generates heat within the ozone generator unit. lt may be evidentthat cooling of the ozone generator unit is critical for proper functionalitythereof. Specifically, the housing is operable to be subjected to aircooling. ln an em bodiment, the aforementioned arrangement of the highvoltage electrode, the first and second spacers, and the first and seconddielectric discs provides a solution for cooling of the ozone generator unit.Specifically, the first and second dielectric discs contact the inner surfacesof the first and second halves and transmit the generated heat thereto(by conduction). Therefore, air around outer surfaces of the first andsecond halves may be used as the cooling medium to cool the ozonegenerator unit. The aforementioned cooling may be enhanced by coating a layer of metal on the surfaces of the first and second dielectric discs in 16 contact with the first and the second halves. Further, cooling may alsobe enhanced by the plurality of cooling fins on the outer surface of the first and/or the second halves.
    [40] [0040] to the high voltage electrode may ln an embodiment, the application of the high voltage currentinitiate a sputtering process.Specifically, iron particles (or ions) from the high voltage electrode mayreact with oxygen in the main cham ber and subsequently get depositedon the first and second dielectric discs. Therefore, the first and seconddielectric discs may include a layer of iron oxide thereon. The depositionof iron oxide layer increases the ozone output of the ozone generator unit.
    [41] [0041] generator system having at least one ozone generator unit (as explained Another aspect of the present disclosure provides an ozone hereinabove). The ozone generator system may be used for generatinga greater quantity of ozone as compared to an ozone generator unit. lnone em bodim ent, the at least one ozone generator unit may be connected in parallel to define the ozone generator system.
    [42] [0042] attached to the inlet of each of the at least one ozone generator units.
    [43] [0043] bracket attached to the outlet of each of the at least one ozone generator The ozone generator system further comprises a second units. Similarly, the second bracket may be an elongated structure 17 The tube may be attached to the outlet of each of the at least one ozone having a channel, configured to receive a tube (or a pipe) therein. generator units to enable a uniform outflow of the ozone from the ozonegenerator units. Further, the first bracket may act as a rigid support for parallel arrangement and connection of the ozone generator units.
    [44] [0044] The ozone generator system also comprises at least onecontrol circuit associated with each of the at least one ozone generatorunits. Specifically, the at least one control circuit may include components (such as electrical, mechanical and computing units) tocontrol operation of the at least one ozone generator units. lt may beevident, that the components of the control circuits may be capable ofwithstanding high voltage current. ln an embodiment, the at least one control circuit may be mounted on at least one circuit board.
    [45] [0045] fan arranged in front of an outer surface of each of the at least one ozone The ozone generator system further comprises at least one generator units. The at least one fan may be used for cooling the at leastone ozone generator units by directing air over the outer surfaces thereof.ln an embodiment, the at least one fan may be arranged in front of outersurfaces (of the ozone generator units) including the plurality of cooling fins.DETAl LED DESCRIPTION OF THE DRAWI NGS
    [46] [0046] unit 100, in accordance with an embodiment of the present disclosure.
    [41] [0041] 100 of FIG. 1 along an axis A-A”, in accordance with an embodiment of FIG. 2 illustrates a sectional view of the ozone generator unit the present disclosure. As shown, the first half 104 is positioned on thesecond half 106, therefore a first recess 204 and a second recess 206together form a main chamber 208 within the housing 102. The ozonegenerator unit 100 includes the plurality of cooling fins 120 (also shownin FIG. 1) extending from at least a portion of an outer surface of the firstand the second halves 104, 106. Further, the outlet 110 is shownarranged radially in the housing 102, and an inlet 202 is arrangedradially into the housing and axially into the main chamber at a centrearea on the first half 104 of the housing 102. A first dielectric disc 210is arranged in the first recess 204 in contact with an inner surface 240of the first half 104. Similarly, a second dielectric disc 214 is arrangedin the second recess 206 in contact with an inner surface 242 of thesecond half 106. Furthermore, a high voltage electrode 218 is arrangedbetween the first dielectric disc 210 and the second dielectric disc 214;particularly, the high voltage electrode 218 is spaced apart from the firstdielectric disc 210 and the second dielectric disc 214, respectively, usinga first spacer 230 and a second spacer 232. This constitutes a first gaschamber 250 and a second gas chamber 252 on either side of the high voltage electrode 218.
    [48] [0048] coaxially with gas passage 212 of the first dielectric disc 210 for A gas passage 220 of the high voltage electrode 218 aligns fluidically coupling the first and second gas chambers 250, 252. Asshown, a peripheral edge of the high voltage electrode 218 includes a plurality of grooves 222 to allow a uniform flow of a gas stream between 19 the first and second gas Chambers 250, 252. The first and seconddielectric discs 210, 214 are coated with layers of metal 260, 262 andallowed to contact the inner surfaces 240, 242, respectively, of the firstand the second halves104, 106. The ozone generator unit 100 includesan insulating ring 270 arranged between the inner surfaces 240, 242 ofthe first and the second halves 104, 106, and periphery of the highvoltage electrode 218 and the first and second dielectric discs 210, 214.The ozone generator unit 100 also includes sealing rings 272 arrangedbetween the insulating ring 270 and the inner surfaces 240, 242 of the first and the second halves104,106.
    [49] [0049]system 300, FIG. 3 illustrates a perspective view of an ozone generatorin accordance with an em bodiment of the presentdisclosure. The ozone generator system 300 includes a plurality of ozonegenerator units (such as, the ozone generator unit 100, shown in FIG.1). As shown, the ozone generator system 300 includes three ozonegenerator units 302, 304 and 306. The ozone generator system 300includes a first bracket 310 attached to inlets (not shown) of each of theozone generator units 302, 304, 306. The ozone generator system 300further includes a second bracket 312 attached to the outlets (not shown)of each of the ozone generator units 302, 304, 306. The ozonegenerator system 300 also includes at least one control circuit, such ascircuits 320, 322, 324, associated with each of the ozone generator units302, 304, 306, respectively. Each of the circuits 320, 322, 324includes electronic components, such as 330, mounted thereon.Additionally, the ozone generator system 300 includes at least one fan,such as fans 340, 342 and 344, arranged in front of an outer surface ofunits 302, 304, 306.Specifically, the fans 340, 342, 344 are directed towards the cooling fins 350, 352, 354 of units 302, 304, 306, each of the at least one ozone generator the OZOHG genefatOl' respectively.
    [50] [0050] Modifications to embodiments of the present disclosuredescribed in the foregoing are possible without departing from the scopeof the present disclosure as defined by the accompanying claims.Expressions such as “inc|uding”, “comprising”, “incorporating”, “have”,“is” used to describe and claim the present disclosure are intended to beconstrued in a non-exclusive manner, namely allowing for items,components or elements not explicitly described also to be present.
    Reference to the singular is also to be construed to relate to the plural.
    权利要求:
    Claims (12)
    [1] 1. An ozone generator unit comprising: a housing comprising:- a first half having a cylindrical first recess; and- a second half having a cylindrical second recess, wherein thefirst half is coupled to the second half for allowing the first andsecond recesses to form a main cham ber within the housing;an inlet and an outlet in the housing and extending to the mainchamber;a first dielectric disc, arranged within the first recess in contact withan inner surface of the first half;a second dielectric disc, arranged within the second recess incontact with an inner surface of the second half, wherein at leastthe first dielectric disc has a gas passage; anda high voltage electrode, having a gas passage, arranged in themain chamber and between the first and second dielectric discs,wherein the high voltage electrode is spaced apart from the firstand second dielectric discs using a first spacer and a second spacerto constitute a first gas chamber and a second gas chamber oneither side of the high voltage electrode,wherein the gas passage of the high voltage electrode and the gaspassage of the first dielectric disc fluidically couple the first and second gas cham bers, and wherein the inlet is arranged axially in the centre area of the housing and wherein the outlet is arranged radially in the housing.
    [2] 2. An ozone generator unit according to claim 1, wherein the housing is operable to be subjected to air cooling. 22
    [3] 3. _ An ozone generator unit according to any of the preceding claims, wherein at least a portion of an outer surface of the first and the second ha|ves comprises a plurality of cooling fins.
    [4] 4. _ An ozone generator unit according to claim 1, further comprising an insulating ring arranged between the inner surfaces of the first andthe second ha|ves, and periphery of the high voltage electrode and the first and second die|ectric discs.
    [5] 5. _ An ozone generator unit according to claim 4, further comprising at least one sealing ring arranged between the insulating ring and the inner surfaces of the first and the second ha|ves.
    [6] 6. _ An ozone generator unit according to any of the preceding claims, wherein a peripheral edge of the high voltage electrode comprises a plurality of grooves.
    [7] 7. _ An ozone generator unit according to any of the preceding claims, wherein the first and the second ha|ves are made of aluminium.
    [8] 8. _ An ozone generator unit according to any of the preceding claims, wherein the first and second die|ectric discs are made of aluminate.
    [9] 9. _ An ozone generator unit according to any of the preceding claims, wherein the first and second die|ectric discs are coated with a layer ofmetal on a surface of the first and second die|ectric discs in contact with the first and the second ha|ves.
    [10] 10.
    [11] 11. 23 An ozone generator unit according to any of the preceding claims,wherein a distance of the high voltage electrode from the first andsecond dielectric discs lies within a range of 0.05 millimetres and 0.2 millimetres. An ozone generator system comprising:- at least one ozone generator unit, the at least one ozone generatorunit comprising: - a housing comprising: - a first half having a cylindrical first recess; and - a second half having a cylindrical second recess, whereinthe first half is coupled to the second half for allowing thefirst and second recesses to form a main chamber withinthe housing; - an inlet and an outlet in the housing and extending to the mainchamber; - a first dielectric disc, arranged within the first recess in contactwith an inner surface of the first half; - a second dielectric disc, arranged within the second recess incontact with an inner surface of the second half, wherein atleast the first dielectric disc has a gas passage; and - a high voltage electrode, having a gas passage, arranged inthe main cham ber and between the first and second dielectricdiscs, wherein the high voltage electrode is spaced apart fromthe first and second dielectric discs using a first spacer and asecond spacer to constitute a first gas cham ber and a secondgas cham ber on either side of the high voltage electrode,wherein the gas passage of the high voltage electrode and thegas passage of the first dielectric disc fluidically couple the first and second gas chambers, and 24 wherein the inlet is arranged axially in the centre area of thehousing and wherein the outlet is arranged radially in the houäng; - a first bracket attached to the inlet of each of the at least one ozone5 generator units;- a second bracket attached to the outlet of each of the at least oneozone generator units;- at least one control circuit associated with each of the at least oneozone generator units; and10 - at least one fan arranged in front of an outer surface of each of the at least one ozone generator units.
    [12] 12. An ozone generator system according to claim 11, wherein theouter surface of each of the at least one ozone generator units 15 comprises a plurality of cooling fins.
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    法律状态:
    2021-01-12| OPRJ| Opposition has been rejected|
    优先权:
    申请号 | 申请日 | 专利标题
    SE1630183A|SE540004C2|2016-08-05|2016-08-05|OZONE GENERATOR UNIT AND SYSTEM|SE1630183A| SE540004C2|2016-08-05|2016-08-05|OZONE GENERATOR UNIT AND SYSTEM|
    PCT/IB2017/054595| WO2018025133A1|2016-08-05|2017-07-28|Ozone generator unit and system|
    CN201780054918.6A| CN109715553A|2016-08-05|2017-07-28|Ozone generator units and system|
    ES17767922T| ES2878028T3|2016-08-05|2017-07-28|Ozone Generating Unit and System|
    RU2019105790A| RU2741394C2|2016-08-05|2017-07-28|Ozone generator and system of ozone generators|
    CA3032782A| CA3032782A1|2016-08-05|2017-07-28|Ozone generator unit and system|
    EP21164556.9A| EP3862315A3|2016-08-05|2017-07-28|Ozone generator unit and system|
    KR1020197006504A| KR20190046836A|2016-08-05|2017-07-28|Ozone generator unit and system|
    EP17767922.2A| EP3494084B1|2016-08-05|2017-07-28|Ozone generator unit and system|
    JP2019528177A| JP2019527671A|2016-08-05|2017-07-28|Ozone generator unit and ozone generator system|
    AU2017307365A| AU2017307365B2|2016-08-05|2017-07-28|Ozone generator unit and system|
    US16/170,875| US10336612B2|2016-08-05|2018-10-25|Ozone generator unit and system|
    ZA2019/01280A| ZA201901280B|2016-08-05|2019-02-28|Ozone generator unit and system|
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