CN104499918A - Two-cavity hollow glass - Google Patents
Two-cavity hollow glass Download PDFInfo
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- CN104499918A CN104499918A CN201410840832.4A CN201410840832A CN104499918A CN 104499918 A CN104499918 A CN 104499918A CN 201410840832 A CN201410840832 A CN 201410840832A CN 104499918 A CN104499918 A CN 104499918A
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- magnetic control
- control part
- glass
- exocoel
- layer glass
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Abstract
The invention provides two-cavity hollow glass. The two-cavity hollow glass comprises inner-layer glass and outer-layer glass, wherein middle glass is arranged between the inner-layer glass and the outer-layer glass; the space between the inner-layer glass and the outer-layer glass is divided into an inner cavity and an outer cavity, and the inner cavity is sealed; a middle magnetic control piece and a middle guide rail are both arranged in the inner cavity; the middle magnetic control piece can move along the longitudinal direction of the middle guide rail; the middle guide rail is arranged along an edge fame in parallel or the middle guide rail and the edge frame are integrally molded and manufactured. A shutter mechanism provided by the invention is wholly mounted in the outer cavity in a detachable manner so that the shutter mechanism is convenient to maintain and mount. The outer cavity can adopt ventilation and non-ventilation schemes according to air temperature environments, and the two schemes are suitable for hot or cold regions to use, and can obtain corresponding heat-preservation and energy-saving effects. A magnetic matching scheme can guarantee that three magnetic control pieces work reliably. A dustproof and dust-removing design is adopted so that the energy-saving and heat-preservation problems are solved and the disadvantages of an opening type design of the outer cavity are correspondingly reduced.
Description
Technical field
The present invention relates to a kind of hollow glass, especially relate to a kind of two chamber hollow glasss.
Background technology
Hollow glass with inlaid louver blades is by inner layer glass, glass outer, frame, blind blades, and the propeller regulating mechanism etc. to be made up of blade elevating mechanism and blade switching mechanism forms, because it not only has the performance of ordinary insulating glass and sun blind concurrently, and have attractive in appearance, generous, easy to operate, clean, health, joint space-efficient particular advantages, thus at home and abroad obtain and develop faster.
But, hollow glass with inlaid louver blades of the prior art, there is following defect: first, single chamber hollow glass with inlaid louver blades of layer glass is when using summer, due to the heat absorption of blind blades and the airtight stuffy of inside glass, make the temperature rise in hollow glass comparatively large, the secondary existed to indoor conducts heat, heat-insulating and energy-saving less effective; The second, the hollow glass with inlaid louver blades in three glass two chambeies that recent market occurs, just reduces and does not fundamentally solve the secondary heat transfer problem of single chamber product; 3rd, no matter be single chamber or two-chamber product, because its shutter mechanism is all fix, install in hollow glass hermetically, glass of only dismantling could take out repairing, all there is the problem of inconvenient maintenance.
Summary of the invention
technical problem:for the defect of existing hollow glass with inlaid louver blades, the invention provides a kind of two chamber hollow glasss being convenient to maintenance, heat preservation energy-saving.
technical scheme: two chamber hollow glasss provided by the invention, not only comprise inner layer glass, glass outer and frame, and its innovation is: it also comprises intermediate glass, middle magnetic control part and intermediate rail; Described intermediate glass is placed between inside and outside layer glass, and the space between inside and outside layer glass is separated into inner chamber and exocoel, and wherein inner chamber is closed; Described middle magnetic control part and intermediate rail are all arranged in described inner chamber, and middle magnetic control part can along the longitudinal translation of intermediate rail.
Further, the intermediate rail of described hollow glass, be arranged in parallel or manufacture one-body molded with it along described frame, is provided with the movable connection structure of the longitudinal translation that the former can be allowed along the latter between described middle magnetic control part and intermediate rail.This structure both can ensure the isolation of inner chamber and exocoel, can solve again the magnetic force problem of transmission of magnetic control operating mechanism, for follow-up improvement extends great space.
Below the technical scheme comprising shutter mechanism: in described exocoel, be provided with the magnetic control shutter mechanism comprising driven magnetic control part and blind blades, blade elevating mechanism and blade switching mechanism; The indoor of described inner layer glass is provided with operation magnetic control part; Realize magnetic between described operation magnetic control part, middle magnetic control part and driven magnetic control part and coordinate interlock; Described operation magnetic control part in its side towards inner layer glass, driven magnetic control part is provided with roller in its side towards intermediate glass, described middle magnetic control part is at least provided with roller in its side towards inner layer glass.
For the normal work and installation and maintenance that ensure three described magnetic control parts are convenient, magnetic force between described operation magnetic control part and middle magnetic control part is greater than the magnetic force between driven magnetic control part and middle magnetic control part, and described middle magnetic control part is only provided with roller in its side towards inner layer glass.
For ease of the maintenance of being taken out by shutter mechanism, the opening suitable for reading of the exocoel of hollow glass of the present invention, the integral installation removably of described shutter mechanism is in described exocoel.
For reducing the temperature of the exocoel at louvre blade place, reduce secondary heat transfer, the end opening of hollow glass exocoel of the present invention is provided with blow vent, makes to form chamber inner air and outer air convection channel in exocoel.
For ensureing described air convection channel, the top fixed mount of the magnetic control shutter mechanism of hollow glass of the present invention is provided with blow vent and/or at least and between the glass of its side leaves space; Lower frame in described exocoel is also provided with blow vent and/or at least and between the glass of its side leaves space.
Enter exocoel for reducing dust, hollow glass of the present invention is equipped with dustproof filter part at the air convection channel mouth of the upper and lower mouth of described exocoel.
For removing the dust of glass surface in exocoel, hollow glass of the present invention is provided with wool top at least one side towards glass of the blind counterweight underbeam of described magnetic control shutter mechanism, and best both sides are equipped with wool top.
For ensureing the good fit of magnetic control part, polylith magnet on each magnetic control part described in hollow glass of the present invention, be arranged in order respectively, be fixed on the longitudinal direction of this magnetic control part mount pad, on each magnetic control part the magnet of adjacent position with the magnetic pole strength of the opposite sex to glass; Realize magnetic across glass in the mode that opposite pole is relative between each magnetic control part to coordinate.
Install for both convenient, can ensure again the magnetic force of middle magnetic control part, hollow glass of the present invention is preferably fixed with polylith magnet respectively in two sides towards inner layer glass and intermediate glass of the mount pad of described middle magnetic control part.
beneficial effect: shutter mechanism of the present invention integral installation removably, in described exocoel, is convenient to maintenance and the installation of shutter mechanism.Secondly, exocoel of the present invention can be taked to ventilate or stuffy two schemes according to temperature environment, is applicable to sweltering heat or cold district use respectively, all can obtains corresponding heat preservation and energy conservation effects.3rd, magnetic coordinated scheme provided by the invention, can ensure the reliably working of three magnetic control parts.Finally, dust-proof and dust removal design provided by the invention, while solution energy-saving heat preserving problem, the shortcoming of corresponding reduction exocoel open by design.
Accompanying drawing explanation
Fig. 1: the overall structure front view of the embodiment of the present invention.
The B-B of Fig. 2: Fig. 1 is to cross-sectional enlarged drawing.
The A-A of Fig. 3: Fig. 1 cuts open enlarged drawing to perpendicular.
Fig. 4: the 4th kind of embodiment schematic diagram of intermediate rail and middle magnetic control part.
Fig. 5: the 5th kind of embodiment schematic diagram of intermediate rail and middle magnetic control part.
Fig. 6: the 6th kind of embodiment schematic diagram of intermediate rail and middle magnetic control part.
Fig. 7: the second embodiment schematic diagram of intermediate rail and middle magnetic control part.
Fig. 8: the third embodiment schematic diagram of intermediate rail and middle magnetic control part.
Fig. 9: the shutter mechanism top fixed rack structure figure of the embodiment of the present invention.
The 1-1 of Figure 10: Fig. 9 is to sectional view.
The 2-2 of Figure 11: Fig. 9 is to sectional view.
Have in figure: glass outer 101, intermediate glass 102, inner layer glass 103, frame 104, fluid sealant 105, dustproof filter part 106, middle magnetic control part 201, intermediate rail 202, operation magnetic control part 203, outer rail 204, shutter mechanism top fixed mount 301, blind blades 302, blind counterweight underbeam 303, wool top 304, driven magnetic control part 305, exocoel munnion 306, shutter mechanism munnion 307, exocoel lower frame 30, shutter mechanism top fixed mount mounting screw 309.
Detailed description of the invention
Below in conjunction with embodiment and accompanying drawing, the present invention is further illustrated.
One, the overall structure of the present embodiment: as shown in Figure 1, Figure 2, Figure 3 shows.
For ease of maintenance and the installation of shutter mechanism, the assembling design that the present embodiment takes " blinds is detachable ": this two chambeies hollow glass comprises the inner layer glass 101 in faced chamber, glass outer 102 outside faced chamber and the frame 104 between each layer glass, 306, 308, in intermediate glass 102 is placed in, between glass outer, in inciting somebody to action, space between glass outer is separated into inner chamber and exocoel, intermediate glass 102, middle magnetic control part 201 and intermediate rail 202 are arranged in closed inner chamber, driven magnetic control part 305 and comprise blind blades 302, blade elevating mechanism and blade switching mechanism are arranged in exocoel at interior shutter mechanism.Exocoel opening suitable for reading, does not establish upper ledge, and shutter mechanism integral installation is removably in described exocoel, as shown in Figure 9, Figure 10, like this, when damage or fault appear in the component in shutter mechanism, easily shutter mechanism can be taken out and keep in repair accordingly or change.
In temperature district higher, in order to reduce the secondary heat transfer of louvre blade, the heat dissipation design that the present embodiment takes " exocoel is open ": leave space between shutter mechanism top fixed mount 301 and glass outer 101, also space is left between exocoel lower frame 308 and glass outer 101, make the convection channel forming chamber inner air and outer air in exocoel, the optical radiation energy that louvre blade is absorbed is dispersed into outdoor by the air of flowing in time, reduce the temperature rise of outer chamber air, and then effectively reduce outdoor heat and pass through exocoel, inner chamber conducts heat to the secondary of indoor, better realize the heat preservation and energy conservation effects of shutter insulating glass unit.Further, for preventing dust from entering exocoel, the exocoel on shutter mechanism top fixed mount 301 is suitable for reading, exocoel end opening under exocoel lower frame 308 is provided with the dustproof filter part 106 that sponge strip is made.In addition, the both sides towards glass of the blind counterweight underbeam 303 of magnetic control shutter mechanism are provided with wool top 304, and when shutter elevating, this wool top 304 1 aspect can clean the floating dust of exocoel interior surfaces of glass, the air flowing in exocoel can also be strengthened on the other hand, accelerate ventilation cooling.
On the contrary, when district uses temperature lower, the present invention can be changed to easily the INSULATION DESIGN of " exocoel is closed ": between shutter mechanism top fixed mount 301 and glass outer 101, between exocoel lower frame 308 and glass outer 101, do not have space also not have blow vent, the convection channel of inner air and outer air is not had in exocoel, the energy that louvre blade absorbs makes the temperature of outer chamber air raise, and then the heat preservation and energy conservation effects of the shutter insulating glass unit improved.
Two, the magnetic control operating mechanism of the present embodiment:
The indoor of the inner layer glass 103 of the present embodiment is provided with operation magnetic control part 203, this operation magnetic control part 203 with realize magnetic between middle magnetic control part 201 and driven magnetic control part 305 three and coordinate and link.During blind work, operation magnetic control part 203 in operating room makes it action, realize magnetic by middle magnetic control part 201 and driven magnetic control part 305 and coordinate interlock, drive the blade elevating mechanism of the shutter mechanism in exocoel, the action of blade switching mechanism, realize lifting or the upset of blind blades 302.
The polylith magnet of each magnetic control part of the present embodiment is arranged in order respectively, be fixed on the longitudinal direction of each magnetic control part mount pad, on each magnetic control part, two blocks of magnet of adjacent position are with contrary magnetic pole strength to glass, realize magnetic coordinate between each magnetic control part across intermediate glass or inner layer glass in the mode that opposite pole is relative.Especially, install for both convenient, can ensure again the magnetic force of middle magnetic control part 201, the two chamber hollow glasss of the present embodiment preferably on the two sides towards inner layer glass 103 and intermediate glass 102 of the mount pad of described middle magnetic control part 201, are fixed with polylith magnet all respectively.
Need ben: in the present embodiment, the magnetic force between operation magnetic control part 203 and middle magnetic control part 201 is greater than the magnetic force between driven magnetic control part 305 and middle magnetic control part 201, so just can easily carry out installation, the cooperation of three magnetic control parts.Magnetic between three magnetic control parts coordinates principle as follows: when worst magnetic cooperation fault appears in three magnetic control parts, namely magnetic control part 203 is operated, middle magnetic control part 201 and driven magnetic control part 305 three be not all when working the situation in Ci He district, first, promote operation magnetic control part 203, externally guide rail 204 longitudinal translation from the top down, after operation magnetic control part 203 is close to middle magnetic control part 201, repulsion between the two can promote the latter its along intermediate rail 202 translation downwards, when middle magnetic control part 201 bumps against the lower limit part that boundary frame area 104 or intermediate rail 202 preset, middle magnetic control part 201 stops moving down, now operating magnetic control part 203 continues descending, and the repulsion overcoming middle magnetic control part 201 makes a forcible entry into magnetic conjunction workspace, makes operation magnetic control part 203 realize magnetic across inner layer glass 103 in the mode that opposite pole is relative with middle magnetic control part 201 and coordinates.Then, continue to promote operation magnetic control work 203 to move up, operation magnetic control is done 203 and is driven middle magnetic control part 102 together to move up, when middle magnetic control part 201 is close to driven magnetic control part 305, repulsion between the two can promote it and move up, when driven magnetic control part 305 bumps against the upper limit preset in shutter mechanism upper holder 301 or shutter mechanism curtain, driven magnetic control part 305 stops moving up, now operating magnetic control part 203 drives middle magnetic control part 201 to continue to move up, the repulsion allowing middle magnetic control part 201 overcome driven magnetic control part 305 is made a forcible entry into magnetic and is closed workspace.Complete above operation, require that the magnetic force between operation magnetic control part 203 and middle magnetic control part 201 must be greater than the magnetic force between driven magnetic control part 305 and middle magnetic control part 201, so just can complete above-mentionedly allowing middle magnetic control part 201 enter to match with driven magnetic control part 305 magnetic to close workspace.On the contrary, if the magnetic force between operation magnetic control part 203 and middle magnetic control part 201 is less than the magnetic force between driven magnetic control part 305 and middle magnetic control part 201, so above-mentioned middle magnetic control part 201 closes in the process of workspace entering the magnetic that to match with driven magnetic control part 305, can be greater than with the magnetic coordinate force of driven magnetic control part 305 the magnetic coordinate force operating magnetic control part 203 and middle magnetic control part 201 because of middle magnetic control part 201, result causes operation magnetic control part 203 to be again separated with middle magnetic control part 201, cannot realize magnetic and coordinate between three magnetic control parts.
Operation magnetic control part 203 in its side towards inner layer glass 103, driven magnetic control part 305 is provided with roller in its side towards intermediate glass 102; Driven magnetic control part 305 is only provided with roller in its side towards inner layer glass 103, namely its dorsal part does not establish roller towards intermediate glass 102 side, like this, when the operation magnetic control part 203 of outside takes off, middle magnetic control part 201 and driven magnetic control part 305 are pull-in on the two sides of intermediate glass 102, driven magnetic control part 305 can reliably be fixed with the larger frictional force on intermediate glass 102 surface by driven magnetic control part 305, thus effectively prevents the confusion, the damage that cause louvre blade because of the displacement out of control of shutter mechanism.
Three, the guiding mechanism of the present embodiment:
The middle magnetic control part 201 of the present embodiment and intermediate rail 202 are arranged in described inner chamber, and middle magnetic control part 201 can along the longitudinal translation of intermediate rail 202.Specifically, intermediate rail 202 be exactly one with the one-body molded manufacture of frame 104, the vertical draw-in groove that is arranged on 104 inboards, as shown in Figure 2, the outside of middle magnetic control part 201 is provided with the card base that vertical pocket matches buckles with this, this card base is connected in the vertical draw-in groove inside frame 104 actively, makes middle magnetic control part 201 can along the longitudinal translation of intermediate rail 202.
Middle magnetic control part 201 is not limit, as long as can ensure that middle magnetic control part 201 along the longitudinal translation of intermediate rail 202, and don't can depart from intermediate rail 202 with the concrete structure of intermediate rail 202.Fig. 7 and Fig. 8 gives other two kinds of movable connection structures of middle magnetic control part 201 and intermediate rail 202; Fig. 4 and Fig. 5 gives middle magnetic control part 201 and is placed on situation in vertical tubulose or channel-shaped intermediate rail 202; It is the situations being fixed on the aluminium parting bead on glass that Fig. 6 gives intermediate rail 202, and in the middle of under this situation, magnetic control part 201 can only upper and lower translation in the strip space between this aluminium parting bead 202 and the frame 104 closed on.
In addition, if need two chamber hollow glasss of the present invention to install and use in higher position, then kind of the magnetic control part of three described in this programme and intermediate rail can be arranged on lower frame position, like this, operation magnetic control part just can pull along lower frame is parallel, and then shutter elevating or upset can be operated equally, as long as set up the corresponding angle pulley changing lifting bracing wire, upset stayguy direction, operation, the regulation and control of blind so just can be carried out at lower position.
Claims (11)
1. two chamber hollow glasss, comprise inner layer glass, glass outer and frame, it is characterized in that: it also comprises intermediate glass, middle magnetic control part and intermediate rail; Described intermediate glass is placed between inside and outside layer glass, and the space between inside and outside layer glass is separated into inner chamber and exocoel, and wherein inner chamber is closed; Described middle magnetic control part and intermediate rail are all arranged in described inner chamber, and middle magnetic control part can along the longitudinal translation of described intermediate rail, and described intermediate rail be arranged in parallel or manufacture one-body molded with it along described frame.
2. hollow glass as claimed in claim 1, is characterized in that: the movable connection structure being provided with the longitudinal translation that the former can be allowed along the latter between described middle magnetic control part and intermediate rail.
3. hollow glass as claimed in claim 2, is characterized in that: be provided with driven magnetic control part in described exocoel, and comprises the shutter mechanism of blind blades, blade elevating mechanism and blade switching mechanism; The indoor of described inner layer glass is provided with operation magnetic control part; Realize magnetic between described operation magnetic control part, middle magnetic control part and driven magnetic control part and coordinate interlock; Described operation magnetic control part in its side towards inner layer glass, driven magnetic control part is provided with roller in its side towards intermediate glass, described middle magnetic control part is at least provided with roller in its side towards inner layer glass.
4. hollow glass as claimed in claim 3, it is characterized in that: the magnetic force between described operation magnetic control part and middle magnetic control part is greater than the magnetic force between driven magnetic control part and middle magnetic control part, described middle magnetic control part is only provided with roller in its side towards inner layer glass.
5. hollow glass as claimed in claim 3, it is characterized in that: the opening suitable for reading of described exocoel, the integral installation removably of described shutter mechanism is in described exocoel.
6. hollow glass as claimed in claim 5, is characterized in that: the end opening of described exocoel is provided with blow vent, makes to form chamber inner air and outer air convection channel in exocoel.
7. hollow glass as claimed in claim 6, is characterized in that: the shutter mechanism top fixed mount of described magnetic control shutter mechanism is provided with blow vent and/or at least and between the glass of its side leaves space; Exocoel lower frame in described exocoel is also provided with blow vent and/or at least and between the glass of its side leaves space.
8. hollow glass as claimed in claim 6, is characterized in that: be equipped with dustproof filter part at the air convection channel mouth of the upper and lower mouth of described exocoel.
9. hollow glass as claimed in claim 6, is characterized in that: at least one side towards glass of the blind counterweight underbeam of described magnetic control shutter mechanism is provided with wool top.
10. the hollow glass as described in any one in claim 1 to 9, it is characterized in that: the polylith magnet on magnetic control part described in each, be arranged in order respectively, be fixed on the longitudinal direction of this magnetic control part mount pad, on each magnetic control part the magnet of adjacent position with the magnetic pole strength of the opposite sex to glass; Realize magnetic across glass in the mode that opposite pole is relative between each magnetic control part to coordinate.
11. hollow glasss as claimed in claim 10, is characterized in that: the mount pad of described middle magnetic control part is fixed with polylith magnet respectively towards two sides of inner layer glass and intermediate glass.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201410840832.4A CN104499918A (en) | 2014-12-30 | 2014-12-30 | Two-cavity hollow glass |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201410840832.4A CN104499918A (en) | 2014-12-30 | 2014-12-30 | Two-cavity hollow glass |
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| Publication Number | Publication Date |
|---|---|
| CN104499918A true CN104499918A (en) | 2015-04-08 |
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Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201410840832.4A Pending CN104499918A (en) | 2014-12-30 | 2014-12-30 | Two-cavity hollow glass |
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| Country | Link |
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| CN (1) | CN104499918A (en) |
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105041169B (en) * | 2015-08-07 | 2016-08-24 | 常熟中勤建材有限公司 | Energy-saving multilayer hollow glass louver |
| CN109944529A (en) * | 2019-04-25 | 2019-06-28 | 深圳市森林绿建科技有限公司 | A kind of hollow glass structure |
| CN112065245A (en) * | 2020-02-14 | 2020-12-11 | 重庆大学 | Window inner chamber cleaning device |
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| EP2196615A2 (en) * | 2008-12-12 | 2010-06-16 | Saint Gobain Glass France | Insulating glass element |
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| CN203161047U (en) * | 2013-03-28 | 2013-08-28 | 南京锐谷窗饰有限公司 | Double-cavity hollow louver glass |
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| CN203701908U (en) * | 2014-02-21 | 2014-07-09 | 济南鸿泰建筑遮阳系统有限公司 | Shutter glass with single handle, three sheets of glass and two chambers |
| CN203925232U (en) * | 2014-03-25 | 2014-11-05 | 上海青鹰实业股份有限公司 | A kind of hollow glass door and window structure |
| CN204609714U (en) * | 2014-12-30 | 2015-09-02 | 南京锐谷节能科技有限公司 | Two chamber hollow glasss |
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Patent Citations (8)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| EP2196615A2 (en) * | 2008-12-12 | 2010-06-16 | Saint Gobain Glass France | Insulating glass element |
| CN101705778A (en) * | 2009-11-19 | 2010-05-12 | 浙江瑞明节能门窗有限公司 | Sun shading and energy-saving aluminum alloy door and window |
| CN102352723A (en) * | 2011-07-01 | 2012-02-15 | 邢皓宇 | Hollow glass with built-in sun-shading curtain |
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Cited By (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105041169B (en) * | 2015-08-07 | 2016-08-24 | 常熟中勤建材有限公司 | Energy-saving multilayer hollow glass louver |
| CN109944529A (en) * | 2019-04-25 | 2019-06-28 | 深圳市森林绿建科技有限公司 | A kind of hollow glass structure |
| CN112065245A (en) * | 2020-02-14 | 2020-12-11 | 重庆大学 | Window inner chamber cleaning device |
| CN112065245B (en) * | 2020-02-14 | 2022-06-10 | 重庆大学 | Window inner chamber cleaning device |
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Application publication date: 20150408 |
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