CN203284989U - Newly-built solar roof integrated power generating system - Google Patents
Newly-built solar roof integrated power generating system Download PDFInfo
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- CN203284989U CN203284989U CN2013202286841U CN201320228684U CN203284989U CN 203284989 U CN203284989 U CN 203284989U CN 2013202286841 U CN2013202286841 U CN 2013202286841U CN 201320228684 U CN201320228684 U CN 201320228684U CN 203284989 U CN203284989 U CN 203284989U
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- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 claims abstract description 23
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- XUIMIQQOPSSXEZ-UHFFFAOYSA-N Silicon Chemical compound [Si] XUIMIQQOPSSXEZ-UHFFFAOYSA-N 0.000 description 1
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Abstract
The utility model relates to a newly-built solar roof integrated power generating system which comprises multiple supporting bars, multiple solar panels, multiple lower rim water retaining parts and a ridge part. The supporting bars are arranged on an auxiliary girder of a house in the direction vertical to the direction of a ridge. The solar panels are fixed on the supporting bars. Each solar panel is provided with an upper rim, a lower rim and two lateral rims. The upper rims and the lower rims of the solar panels are sequentially spliced to form multiple splicing seams of the upper rims and the lower rims. The lateral rims of the solar panels are mutually spliced to form multiple lateral rim splicing seams. The lower rim water retaining parts are fixedly arranged on the lower rims of the solar panels and used for covering the splicing seams of the upper rims and the lower rims and preventing rainwater from leaking into the splicing seams of the upper rims and the lower rims. The lateral rim water retaining parts are fixedly arranged at the lateral rim splicing seams and used for covering the lateral rim splicing seams and preventing rainwater from leaking. The ridge part is fixedly arranged on the ridge of the house and used for covering seams of the upper rims of the solar panels at the two sides of the ridge and preventing the rainwater from leaking.
Description
Technical field
The utility model relates to a kind of solar energy roof integrated power generation system, especially a kind of newly-built solar energy roof integrated power generation system.
Background technology
Photovoltaic system is to utilize solar module and auxiliary equipment sunshine to be converted to the system of electric energy, its characteristics are that reliability is high, long service life, free from environmental pollution, can be incorporated into the power networks again by Independent Power Generation, have vast potential for future development.Solar power system is combined with building energy conservation, and advanced technology means and the developing direction of building energy conservation reduction of discharging, be subject to attention and the popularization of each side day by day especially.But, due to many-sided reason, how building roof and photovoltaic module are combined closely, made that photovoltaic module is actual becomes a kind of new type roof constructional materials, successful case in this respect is few, poor effect.Some BIPV (Building Integrated PV) projects of having implemented, basically just utilize different roofings to put photovoltaic module, do not have with roof be combined, the function of rainproof waterproof, especially the color steel roof General Life only has 6-7, need first remove mounted photovoltaic module if change color steel, engineering is complicated, expense is high, in case roof leaking occurs roofing, safeguards trouble more.On the other hand, the photovoltaic module own wt has certain requirement to roof-bearing, improves the roof-bearing ability and must increase expense and difficulty of construction again.
The utility model content
The purpose of this utility model is to provide a kind of newly-built solar energy roof integrated power generation system, and its feature is solar power system and roofing are became one, and can save original input for color steel sheet roofing, can be again the owner solar power system is provided.It adopts the direct design that combines with the aluminium alloys support bar of photovoltaic module, greatly reduces the overall weight on roof, has alleviated the load-bearing burden of roofing.
The purpose of this utility model is to provide a kind of newly-built solar energy roof integrated power generation system; its characteristics are that the seam crossing between solar panel adopts waterproof construction; thereby make its mode than the color steel that adopts watt more can effectively protect roof to stand the erosion of rainwater; not only avoided the roof short shortcomings in application life such as color steel watt, also saved color steel watt and waited the cost of material and installation and later maintenance maintenance.
Another purpose of the present utility model is to provide a kind of newly-built solar energy roof integrated power generation system, adopt echelon formula mounting method between solar panel, and be connected to each other between solar panel, form one, strengthened integrally-built stability, fastness, and made the solar energy roof cleaner and tidier, attractive in appearance.
For reaching above purpose, the utility model provides a kind of newly-built solar energy roof integrated power generation system, comprising:
Many support bars, be located at the orientation stand perpendicular to ridge on the auxiliary girder in house;
The polylith solar panel, be fixed on described support bar, wherein, every this solar panel has a upper limb, a lower edge, two lateral margins, the upper and lower edge of this polylith solar panel splices successively, form a plurality of upper lower edge splicing seams, the lateral margin of this polylith solar panel splices mutually, forms a plurality of lateral margin splicing seams;
A plurality of lower edge water deflector, be fixedly installed on the lower edge of every solar panel, is used for covering described upper lower edge splicing seams, prevents that rainwater from infiltrating described upper lower edge splicing seams;
A plurality of lateral margin water deflector, be fixedly installed on each lateral margin splicing seams place, is used for covering described lateral margin splicing seams, prevents that rainwater from infiltrating described lateral margin splicing seams; And
One ridge spare, be fixedly installed on the described ridge in house,, for gap between the upper limb of the solar panel that covers the ridge both sides, prevents that rainwater from infiltrating from described gap.
The utility model provides a kind of newly-built solar energy roof, integrated power generation system, and solar power system and roofing are became one, and can save the inputs such as former color steel sheet roofing, has saved cost, provides solar power system for the owner again; The design that it adopts photovoltaic module directly with the aluminium alloys support bar, to combine, greatly reduce the overall weight on roof, alleviated the load-bearing burden of roofing, not only avoided the material roof short shortcomings in application life such as color steel watt, cement, also saved color steel watt and waited the cost of material and installation and later maintenance maintenance.Secondly, adopt echelon formula mounting method between solar panel, and be connected to each other between solar panel, form one, strengthened integrally-built stability, fastness, and made the solar energy roof cleaner and tidier, attractive in appearance.
These purposes of the present utility model, characteristics, and the specific embodiment that advantage will be below, accompanying drawing, and detailed exposure in claim.
Description of drawings
Fig. 1 is the overall structure schematic diagram according to the newly-built solar energy roof integrated power generation system of a preferred embodiment of the present utility model.
Fig. 2 is the partial enlarged drawing of Fig. 1.
Fig. 3 is the part-structure schematic diagram according to the newly-built solar energy of above-mentioned preferred embodiment of the present utility model roof integrated power generation system.
Fig. 4 is the front view according to the lower edge water deflector of above-mentioned preferred embodiment of the present utility model.
Fig. 5 is the front view according to the lateral margin fixture of above-mentioned preferred embodiment of the present utility model.
Fig. 6 is the structural representation according to the lateral margin water deflector of above-mentioned preferred embodiment of the present utility model.
Fig. 7 is the structural representation according to the side eaves of above-mentioned preferred embodiment of the present utility model.
Fig. 8 is the front view according to the base plate brace of above-mentioned preferred embodiment of the present utility model.
Fig. 9 is according to the lower edge base plate of above-mentioned preferred embodiment of the present utility model and the connection diagram between support bar.
Figure 10 is according to the solar panel of above-mentioned preferred embodiment of the present utility model and the connection diagram between support bar.
Figure 11 is the elevation of Figure 10.
The specific embodiment
Referring to Fig. 1-3, newly-built solar energy roof integrated power generation system comprises:
Polylith solar panel 3, be fixed on described support bar 1, wherein, every this solar panel 3 has a upper limb 31, a lower edge 32, two lateral margins 33, the upper limb 31 of this polylith solar panel 3, lower edge 32 splice successively, form a plurality of upper lower edge splicing seams, the lateral margin 33 of this polylith solar panel 3 splices mutually, forms a plurality of lateral margin splicing seams;
A plurality of lower edge water deflector 4, be fixedly installed on the lower edge 32 of every solar panel 3, is used for covering described upper lower edge splicing seams, prevents that rainwater from infiltrating described upper lower edge splicing seams;
A plurality of lateral margin water deflector 5, be fixedly installed on each lateral margin splicing seams place 35, is used for covering described lateral margin splicing seams, prevents that rainwater from infiltrating described lateral margin splicing seams; And
One ridge spare 6, be fixedly installed on the described ridge in house,, for gap between the upper limb 31 of the solar panel that covers the ridge both sides, prevents that rainwater from infiltrating from described gap.
Referring to Fig. 4, preferably, described lower edge water deflector 4 comprises: a lower edge middleware 41, having emargination groove 42 is horizontally placed on its sidewall, the width of described lower edge groove 42 equals the thickness of described solar panel 3, make the lower edge 32 of described solar panel 3 can just insert described lower edge groove 42, play the effect of the described solar panel 3 of fixed support; And a lower edge weather board 43, be fixedly connected on the upper end of described lower edge middleware 41, and be covered on the upper lower edge splicing seams of adjacent two solar panels, prevent that rainwater from infiltrating along described upper lower edge splicing seams.
Referring to Fig. 4, preferably, each described lower edge water deflector 4 further comprises: a lower edge base plate 44, described lower edge base plate 44 is fixedly connected on the lower end of described lower edge middleware 41, an and lower edge base plate coupling assembling, described lower edge base plate 44 is fixed on described support bar 1 by described lower edge base plate coupling assembling, with the fixing position of described solar panel 3 on roof.
Referring to Fig. 8, preferably, described base plate coupling assembling comprises a base plate brace 45, described base plate brace 45 comprises a lower edge connecting portion 451, and a support member bar connecting portion 452, one section middle part of being fixed in described lower edge connecting portion 451 of described support bar connecting portion 452, whole one-tenth one T shape; Described lower edge connecting portion 451 is fixedly connected on the lower edge base plate 44 of described lower edge water deflector 4, and described support bar connecting portion 452 is connected in described support bar 1, thereby solar panel 3 is fixed on described support bar 1; Preferably, described lower edge connecting portion 451 is wholely set with described support member bar connecting portion 452.
referring to Fig. 8-11, preferably, described support bar connecting portion 452 has a support bar connecting hole 4521, described support bar 1 has an inner chamber 11, reaches one and cracks 12, and the described described inner chamber 11 that cracks is connected, described support bar 1 integral body is the semi-closed structure of a hollow, and its cross section is a C shape, described base plate coupling assembling further comprises a fastening block 46, be placed in described inner chamber 11, can slide in described inner chamber 11, the external dimensions of described fastening block is greater than described 12 the width of cracking, so that can't skid off from described cracking 12, described fastening block 46 has a fixing hole, has a fixing hole screw thread on its inwall, an and securing member 47, be complementary with described fixing hole screw thread, described securing member 47 passes described support member connecting hole and described cracking, be threaded with described fastening block, during installation, described securing member 47 is tightened downwards, until secure the above the relative position of base plate brace 45 and described support bar 1, and this moment, described fastening block can't slide in described inner chamber.
Referring to Fig. 4, preferably, described lower edge middleware 41 has a lower edge cavity 411, and when being given a shock or push, described lower edge cavity 411 produces deformation,, to absorb energy, plays antihunt action; Be full of air in described lower edge cavity 411, air disperses rareness relatively because of its molecule,, without tight contact surface, therefore has good heat insulating function, can strengthen the heat-insulating property on newly-built solar energy roof.
Referring to Fig. 4, preferably, have several lower edge guiding gutters 431 on described lower edge weather board 43, with the direction perpendicular to ridge, be arranged on described lower edge weather board 43, be used for the guiding rainwater mobile along the direction of described lower edge guiding gutter 431, and then successively flow out the roofing body.
Preferably, described lower edge middleware 41, described lower edge weather board 43 and described lower edge base plate 44 are wholely set.
referring to Fig. 5-6, preferably, described lateral margin water deflector 5 comprises: two lateral margin fixtures 51, each lateral margin fixture comprises a lateral margin middleware 511, has a lateral margin groove 512, be horizontally placed on the sidewall of described lateral margin middleware 511, the width of described lateral margin groove 512 equals the thickness of described solar panel 3, make the lateral margin 33 of described solar panel 3 can just insert described lateral margin groove 512, play the effect of the described solar panel 3 of fixed support, an and lateral margin drainage plate 513, the lower end of described lateral margin drainage plate 513 is fixedly connected on described lateral margin middleware 511, direction along described lateral margin middleware 511 extends upward, upwardly extending height is preferably 15mm, described two lateral margin fixtures 51 are sheathed on respectively on the described lateral margin 33 of described solar panel 3, the lateral margin drainage plate 513 of the lateral margin fixture 51 of two solar panels 3 that left and right is adjacent is close to mutually, reach a lateral margin drainage lid 52, be inverted U-shaped, be sheathed on outside described two lateral margin drainage plates 513 being close to mutually, cover the gap of 513 of described lateral margin drainage plates, prevent that rainwater from infiltrating along the gap of 513 of lateral margin drainage plates.
Referring to Fig. 5, preferably, each described lateral margin fixture 51 further comprises: a lateral margin base plate 514, described lateral margin base plate 514 is fixedly connected on the lower end of described lower edge middleware 511, plays the fixed support effect.
Referring to Fig. 5, preferably, described lateral margin middleware 511 has a lateral margin cavity 5111, and when being given a shock or push, described lateral margin cavity 5111 produces deformation,, to absorb energy, plays antihunt action; Be full of air in described lateral margin cavity 37, air disperses rareness relatively because of its molecule,, without tight contact surface, therefore has good heat insulating function, can strengthen the heat-insulating property on newly-built solar energy roof.
Preferably, described lateral margin middleware and described lateral margin drainage plate are wholely set.
Referring to Fig. 2, preferably, the solar panel 3 of ridge both sides further comprises a upper limb water deflector 7, be fixed in the upper limb 31 of described solar panel 3, along described upper limb 31, extend upward certain distance, be preferably 15mm, described ridge spare 6 is inverted U-shaped, be sheathed on outside described upper limb water deflector 7, cover gap between the solar panel 3 of ridge both sides, prevent that rainwater from infiltrating from described gap.
Referring to Fig. 7, preferably, the outermost solar panel 3 in roof further comprises a side eaves 8, be fixedly installed on the lateral margin near the roof outside, by the lateral margin certain distance that stretches out, the upper surface of described side eaves 87 has one first gradient, rainwater can glide along described first gradient, the soffit of described side eaves 8 has one second gradient, along described lateral margin 33 to outer lower side, extends, and prevents that rainwater from flowing to the soffit of solar panel 3 along the soffit of described side eaves 8.
Preferably, every described solar panel comprises an insulation layer, adheres to the soffit of described solar panel by adhesive, with solar panel, forms an integral body, to strengthen the heat-proof quality on solar energy roof.
Preferably, it is the crystal silicon component of 1640mm * 992mm that described solar panel can adopt the standard length and width, or the standard length and width are the amorphous silicon module of 1408mm * 1108mm, and described assembly can be divided into two or one be divided into four, the flexible modulation component size, to adapt to the installation of different roofings.
Preferably, producing assembly can be according to roof structure and needs, produces the different size assembly such as 1.5-2 square metre, 1-1.5 square metre, 0.5-1 square metre.
Preferably, can be according to owner's needs, the production back layer is pressed with the assembly of heat insulating material, to reach the heat insulation and preservation effect in house.
By above-described embodiment, the purpose of this utility model is by fully effective having reached.The personage who is familiar with this skill should be understood that the utility model includes but not limited to the content of describing in accompanying drawing and the top specific embodiment.Any modification that does not depart from function and structure principle of the present utility model all will be included in the scope of claims.
Claims (12)
1. a newly-built solar energy roof integrated power generation system, is characterized in that, comprising:
Many support bars, be located at the orientation stand perpendicular to ridge on the auxiliary girder in house;
The polylith solar panel, be fixed on described support bar, wherein, every this solar panel has a upper limb, a lower edge, two lateral margins, the upper and lower edge of this polylith solar panel splices successively, form a plurality of upper lower edge splicing seams, the lateral margin of this polylith solar panel splices mutually, forms a plurality of lateral margin splicing seams;
A plurality of lower edge water deflector, be fixedly installed on the lower edge of every solar panel, is used for covering described upper lower edge splicing seams, prevents that rainwater from infiltrating described upper lower edge splicing seams;
A plurality of lateral margin water deflector, be fixedly installed on each lateral margin splicing seams place, is used for covering described lateral margin splicing seams, prevents that rainwater from infiltrating described lateral margin splicing seams; And
One ridge spare, be fixedly installed on the described ridge in house,, for gap between the upper limb of the solar panel that covers the ridge both sides, prevents that rainwater from infiltrating from described gap.
2. newly-built solar energy according to claim 1 roof integrated power generation system, it is characterized in that, described lower edge water deflector comprises: a lower edge middleware, having emargination groove is horizontally placed on its sidewall, the width of described lower edge groove equals the thickness of described solar panel, make the lower edge of described solar panel can just insert described lower edge groove, play the effect of the described solar panel of fixed support; And a lower edge weather board, be fixedly connected on the upper end of described lower edge middleware, and be covered on the upper lower edge splicing seams of adjacent two solar panels, prevent that rainwater from infiltrating along described upper lower edge splicing seams.
3. newly-built solar energy according to claim 2 roof integrated power generation system, it is characterized in that, each described lower edge water deflector further comprises: a lower edge base plate, described lower edge base plate is fixedly connected on the lower end of described lower edge middleware, an and lower edge base plate coupling assembling, described lower edge base plate is fixed on described support bar by described lower edge base plate coupling assembling, with the fixing position of described solar panel on roof.
4. newly-built solar energy according to claim 3 roof integrated power generation system, it is characterized in that, described lower edge base plate coupling assembling comprises a base plate brace, described lower edge base plate brace comprises a lower edge connecting portion, an and support member bar connecting portion, one section middle part of being fixed in described lower edge connecting portion of described support bar connecting portion, whole one-tenth one T shape; Described lower edge connecting portion is fixed in the base plate of described lower edge water deflector, and described support bar connecting portion is connected in described support bar, thereby solar panel is fixed on described support bar.
5. newly-built solar energy according to claim 4 roof integrated power generation system, it is characterized in that, described support bar connecting portion has a support bar connecting hole, described support bar has an inner chamber, reaching one cracks, described cracking and described intracavity inter-connection, described support bar integral body is the semi-closed structure of a hollow, and its cross section is a C shape, described base plate coupling assembling further comprises a fastening block, be placed in described inner chamber, can slide in described inner chamber, the external dimensions of described fastening block is greater than the described width that cracks, so that can't skid off from described cracking, described fastening block has a fixing hole, has a fixing hole screw thread on its inwall, an and securing member, be complementary with described fixing hole screw thread, described securing member passes described support member connecting hole and described cracking, be threaded with described fastening block, during installation, described securing member is tightened downwards, until secure the above the relative position of base plate brace and described support bar, and this moment, described fastening block can't slide in described inner chamber.
6. newly-built solar energy according to claim 2 roof integrated power generation system, is characterized in that, described lower edge middleware has a lower edge cavity.
7. newly-built solar energy according to claim 1 roof integrated power generation system, it is characterized in that, described lateral margin water deflector comprises: two lateral margin fixtures, each lateral margin fixture comprises a lateral margin middleware, has a lateral margin groove, be horizontally placed on the sidewall of described lateral margin middleware, the width of described lateral margin groove equals the thickness of described solar panel, make described solar panel lateral margin can just insert described lateral margin groove, play the effect of the described solar panel of fixed support, an and lateral margin drainage plate, the lower end of described lateral margin drainage plate is fixedly connected on described lateral margin middleware, direction along described lateral margin middleware extends upward, described two lateral margin fixtures are sheathed on respectively on the described lateral margin of described solar panel, the lateral margin drainage plate of the lateral margin fixture of two solar panels that left and right is adjacent is close to mutually, reach a lateral margin drainage lid, be inverted U-shaped, be sheathed on outside described two lateral margin drainage plates being close to mutually, cover the gap between described lateral margin drainage plate, prevent that rainwater from infiltrating along the gap between the lateral margin drainage plate.
8. newly-built solar energy according to claim 7 roof integrated power generation system, is characterized in that, described lateral margin middleware has a lateral margin cavity.
9. newly-built solar energy according to claim 2 roof integrated power generation system, it is characterized in that, have several lower edge guiding gutters on described lower edge weather board, be arranged on described lower edge weather board with the direction perpendicular to ridge, be used for the guiding rainwater mobile along the direction of described lower edge guiding gutter, and then successively flow out the roofing body.
10. newly-built solar energy according to claim 1 roof integrated power generation system, it is characterized in that, the solar panel of ridge both sides further comprises a upper limb water deflector, be fixed in the upper limb of described solar panel, extend upward certain distance along described upper limb, described ridge spare is inverted U-shaped, is sheathed on outside described upper limb water deflector, cover gap between the solar panel of ridge both sides, prevent that rainwater from infiltrating from described gap.
11. newly-built solar energy according to claim 1 roof integrated power generation system, it is characterized in that, the outermost solar panel in roof further comprises a side eaves, be fixedly installed on the lateral margin near the outside, roof, by the lateral margin certain distance that stretches out, the upper surface of described side eaves has one first gradient, rainwater can glide along described first gradient, the soffit of described side eaves has one second gradient, extend to outer lower side along described lateral margin, prevent that rainwater from flowing to the soffit of solar panel along the soffit of described side eaves.
12. newly-built solar energy according to claim 1 roof integrated power generation system, it is characterized in that, every described solar panel comprises an insulation layer, adhere to the soffit of described solar panel by adhesive, form an integral body with solar panel, to strengthen the heat-proof quality on solar energy roof.
Priority Applications (2)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2013202286841U CN203284989U (en) | 2013-04-27 | 2013-04-27 | Newly-built solar roof integrated power generating system |
| US14/093,438 US20140299177A1 (en) | 2013-04-08 | 2013-11-30 | Integrated roof solar power system |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2013202286841U CN203284989U (en) | 2013-04-27 | 2013-04-27 | Newly-built solar roof integrated power generating system |
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| CN203284989U true CN203284989U (en) | 2013-11-13 |
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| Application Number | Title | Priority Date | Filing Date |
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| CN2013202286841U Expired - Fee Related CN203284989U (en) | 2013-04-08 | 2013-04-27 | Newly-built solar roof integrated power generating system |
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Cited By (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN104124913A (en) * | 2013-04-27 | 2014-10-29 | 沙嫣 | New solar roof integration power generation system |
| CN109120214A (en) * | 2018-09-29 | 2019-01-01 | 淮南市福地环保科技有限公司 | A kind of solar panels bracket and installation method |
| CN110847522A (en) * | 2019-10-25 | 2020-02-28 | 浙江建设职业技术学院 | Building energy recycling system |
| CN111851727A (en) * | 2020-07-22 | 2020-10-30 | 保定嘉盛光电科技股份有限公司 | Curved surface colorized modular prefabricated power generation building material and manufacturing method thereof |
-
2013
- 2013-04-27 CN CN2013202286841U patent/CN203284989U/en not_active Expired - Fee Related
Cited By (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN104124913A (en) * | 2013-04-27 | 2014-10-29 | 沙嫣 | New solar roof integration power generation system |
| CN109120214A (en) * | 2018-09-29 | 2019-01-01 | 淮南市福地环保科技有限公司 | A kind of solar panels bracket and installation method |
| CN110847522A (en) * | 2019-10-25 | 2020-02-28 | 浙江建设职业技术学院 | Building energy recycling system |
| CN111851727A (en) * | 2020-07-22 | 2020-10-30 | 保定嘉盛光电科技股份有限公司 | Curved surface colorized modular prefabricated power generation building material and manufacturing method thereof |
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Free format text: FORMER OWNER: SHA XIAOLIN Effective date: 20150522 Owner name: NANTONG QIANGSHENG PHOTOELECTRIC TECHNOLOGY CO.,LT Free format text: FORMER OWNER: SHA YAN Effective date: 20150522 |
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