CN209545525U - Solar double-glass assemblies system with removable optical plate - Google Patents
Solar double-glass assemblies system with removable optical plate Download PDFInfo
- Publication number
- CN209545525U CN209545525U CN201920724883.9U CN201920724883U CN209545525U CN 209545525 U CN209545525 U CN 209545525U CN 201920724883 U CN201920724883 U CN 201920724883U CN 209545525 U CN209545525 U CN 209545525U
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- China
- Prior art keywords
- optical plate
- glass assemblies
- solar double
- photovoltaic bracket
- area
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B10/00—Integration of renewable energy sources in buildings
- Y02B10/10—Photovoltaic [PV]
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/50—Photovoltaic [PV] energy
- Y02E10/52—PV systems with concentrators
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- Photovoltaic Devices (AREA)
Abstract
The utility model provides a kind of solar double-glass assemblies system with removable optical plate, has the photovoltaic bracket of optical plate and solar double-glass assemblies including multiple rows of top, in which: optical plate and the solar double-glass assemblies direction at the top of photovoltaic bracket successively have spaced setting;Back surface of the optical plate towards solar double-glass assemblies, including the first area of absorbable light longitudinally set gradually along photovoltaic bracket and the second area that can export light, optical plate can be moved in parallel in solar double-glass assemblies and first area is leant out to the coverage area of solar double-glass assemblies along photovoltaic bracket is longitudinally opposed.There is the solar double-glass assemblies system of removable optical plate can guide sunray to the back surface of solar double-glass assemblies in the case where not influencing solar double-glass assemblies front surface and absorbing sunray for this, so that the two-sided available sunray of solar double-glass assemblies.Meanwhile moveable optical plate can be moved to photovoltaic module bottom in maintenance, i.e., using roofing access path space, staff is not interfered to safeguard photovoltaic component system yet.
Description
Technical field
The utility model relates to technical field of photovoltaic power generation, more particularly to a kind of double glass groups with removable optical plate
Part system.
Background technique
Solar double-glass assemblies refer to and form composite layer by two sheet glass and solar battery sheet, between cell piece by conducting wire string, simultaneously
Connection is pooled to lead end and is formed by photovoltaic cell component.Since light equally can be absorbed in the back side of solar double-glass assemblies and generates electricity
Can, the generating efficiency with higher compared with traditional photovoltaic module, thus in recent years using very extensive.
But abundant exploitation is not yet received in the back side power generation potentiality of solar double-glass assemblies at present, promotes double glass groups in the prior art
The back side generating efficiency of part is mainly that reflex reflector is arranged by the back surface in solar double-glass assemblies to realize, reflex reflector due to
It is blocked by component, the light of acquisition is relatively limited, limits the generating efficiency of solar double-glass assemblies.
Utility model content
The utility model provides a kind of solar double-glass assemblies system with removable optical plate, to promote solar double-glass assemblies
Access path region is efficiently used while to solar radiation utilization rate, which includes that multiple rows of top has optical plate and double glass
The photovoltaic bracket of component, in which:
The optical plate and the solar double-glass assemblies direction at the top of the photovoltaic bracket successively have spaced setting;
Back surface of the optical plate towards the solar double-glass assemblies, including along the photovoltaic bracket longitudinally set gradually can
Light-absorbing first area and the second area that light can be exported, the optical plate can along the photovoltaic bracket it is longitudinally opposed in
The solar double-glass assemblies move in parallel and the first area are leant out to the coverage area of the solar double-glass assemblies.
In specific implementation, the optical plate that at the top of the photovoltaic bracket there are multiple groups to be transversely correspondingly arranged and institute are respectively arranged
Solar double-glass assemblies are stated, the optical plate is equal with the width of the solar double-glass assemblies in each group.
In specific implementation, the photovoltaic bracket includes traction device and the longitudinally disposed sliding rail in top, each institute
Optical plate is stated to be sticked in inside the sliding rail along the both ends of the photovoltaic bracket transverse direction, it can be by the traction device in institute
It states in sliding rail and moves.
In specific implementation, the traction device includes spool, flexible rope and pulley, and the pulley is set to the photovoltaic
Inside the pulley base at bracket longitudinal direction both ends, the flexible rope bypasses the pulley, and both ends are fixedly connected on the optical plate;Institute
The mobile optical plate can be pulled by flexible rope described in coiling by stating spool.
In specific implementation, the spool is horizontally set at the optical plate bottom along the photovoltaic bracket by bearing, long
Degree is greater than or equal to the lateral length of the photovoltaic bracket, and one end is provided with driving mechanism.
In specific implementation, the sliding rail includes draw runner and jacking block, the upper surface and two of the jacking block and institute's optical plate
End in contact, the draw runner and the optical plate following table face contact.
In specific implementation, the sliding rail is engineering plastics material sliding rail.
In specific implementation, there is optical fiber inside the optical plate, the light incident side of the optical fiber is set to institute
First area is stated, light guide outlet is set to the second area.
In specific implementation, the light incident side and light guide outlet of the optical fiber are each perpendicular to the positive table of the optical plate
Face.
The solar double-glass assemblies system with removable optical plate provided by the utility model, successively sets at the top of photovoltaic bracket
Spaced optical plate and solar double-glass assemblies are equipped with, optical plate has the absorbable light longitudinally set gradually along photovoltaic bracket
First area and the second area that can export light, optical plate can be moved in parallel simultaneously in solar double-glass assemblies along photovoltaic bracket is longitudinally opposed
First area is leant out to the coverage area of solar double-glass assemblies.There is the solar double-glass assemblies system of removable optical plate can not influence for this
Solar double-glass assemblies front surface guides sunray to the back surface of solar double-glass assemblies in the case where absorbing sunray, so that double glass groups
The two-sided available sunray of part, has sufficiently excavated the power generation potential of solar double-glass assemblies, significantly improves double glass groups
The generated energy of part.Meanwhile moveable optical plate can be moved to photovoltaic module bottom in maintenance, i.e., overhaul using roofing
Channel space does not interfere staff to safeguard photovoltaic component system yet.
Detailed description of the invention
It, below will be right in order to illustrate more clearly of specific embodiment of the present invention or technical solution in the prior art
Specific embodiment or attached drawing needed to be used in the description of the prior art are briefly described, it should be apparent that, it is described below
In attached drawing be only that some specific embodiments of the utility model are not being paid for those of ordinary skill in the art
Out under the premise of creative work, it is also possible to obtain other drawings based on these drawings.In the accompanying drawings:
Fig. 1 is according to the solar double-glass assemblies system in one specific embodiment of the utility model with removable optical plate
Side view;
Fig. 2 is the mobile schematic diagram according to optical plate in one specific embodiment of the utility model;
Fig. 3 is according to the solar double-glass assemblies system in one specific embodiment of the utility model with removable optical plate
Front view;
Fig. 4 is the connection schematic diagram according to spool and flexible rope in one specific embodiment of the utility model;
Fig. 5 is the division schematic diagram according to first area and second area in one specific embodiment of the utility model;
Fig. 6 is the structural schematic diagram according to optical fiber in one specific embodiment of the utility model.
Specific embodiment
For the purposes, technical schemes and advantages of specific embodiment of the present invention are more clearly understood, below with reference to
Attached drawing is described in further details specific embodiment of the present invention.Here, the schematic specific implementation of the utility model
Mode and its explanation are not intended to limit the scope of the present invention for explaining the utility model.
As shown in Figure 1, Figure 2 and shown in Fig. 5, utility model people is in view of respectively arranging the access path between component in non-maintenance in roof
Time is not high to the utilization rate of sunlight, thus proposes a kind of solar double-glass assemblies system with removable optical plate, to mention
Access path region is efficiently used while solar double-glass assemblies are risen to solar radiation utilization rate, which includes that multiple rows of top has light
The photovoltaic bracket of guide plate 200 and solar double-glass assemblies 100, in which:
The optical plate 200 and the solar double-glass assemblies 100 direction at the top of the photovoltaic bracket successively have spaced set
It sets;
Back surface of the optical plate 200 towards the solar double-glass assemblies 100, including longitudinally successively set along the photovoltaic bracket
The first area 210 for the absorbable light set and the second area 220 that can export light, the optical plate 200 can be along the light
Bracket is longitudinally opposed moves in parallel in the solar double-glass assemblies 100 and the first area 210 is leant out the solar double-glass assemblies 100 for volt
Coverage area.
In specific implementation, the setting of photovoltaic bracket can be there are many embodiment.For example, frame is along double at the top of photovoltaic bracket
100 bottom of glass component laterally can have a notch, and optical plate 200 can be leant out from the notch.
In specific implementation, can there is more the quantity of the optical plate 200 being arranged and solar double-glass assemblies 100 at the top of row's photovoltaic bracket
Kind embodiment.For example, as shown in Fig. 2, respectively arranging the lateral length of the photovoltaic bracket can match with the size of roofing, together
When, in order to preferably make the solar double-glass assemblies 100 absorb sunray, generating efficiency is promoted, is respectively arranged at the top of the photovoltaic bracket
It can have the optical plate 200 and the solar double-glass assemblies 100 that multiple groups are transversely correspondingly arranged, the optical plate in each group
200 is equal with the width of the solar double-glass assemblies 100.
In specific implementation, optical plate 200 can be there are many embodiment along photovoltaic bracket longitudinal movement.For example, in order to protect
It is mobile steady to demonstrate,prove optical plate 200, as shown in Figure 1 and Figure 2, the photovoltaic bracket may include traction device and it is longitudinally disposed in
The sliding rail 310 at top, each optical plate 200 then can be sticked in the sliding along the both ends of the photovoltaic bracket transverse direction
Inside track 310, it can be moved in the sliding rail 310 by the traction device.
In specific implementation, the setting of traction device can be there are many embodiment.For example, as shown in Fig. 1, Fig. 3 and Fig. 4,
The traction device may include spool 320, flexible rope 330 and pulley 340, and the pulley 340 is for changing flexible rope
341 inside of pulley base in photovoltaic bracket longitudinal direction both ends can be set (with the sliding rail in 330 direction of draw
310 are correspondingly arranged), the flexible rope 330 can then bypass the pulley 340, and both ends are fixedly connected on the optical plate
200;The spool 320 can pull the mobile optical plate 200 by flexible rope 330 described in coiling, make the optical plate
200 vertically move along the photovoltaic bracket.
In specific implementation, the setting of spool 320 can be there are many embodiment.For example, as shown in figure 3, the spool 320
It can be horizontally set at 200 bottom of optical plate along the photovoltaic bracket by bearing 321, length is greater than or equal to the light
The lateral length of bracket is lied prostrate, one end is provided with driving mechanism, when which is set, 320 one end of spool and photovoltaic bracket
One end alignment, the other end then lean out photovoltaic bracket, are connect by retarder with driving mechanism to obtain the torsion of driving mechanism offer
Turn power;For another example can a spool 320 individually be arranged in bottom in solar double-glass assemblies 100 described in each group and optical plate 200, so that respectively
Optical plate 200 is individually moved, and does not influence the generating efficiency of other solar double-glass assemblies 100 when overhauling a local fault.Driving mechanism
Selection can be there are many embodiment, for example, the driving mechanism can be electric motor.Further, soft in order to guarantee
Property 330 both ends uniform force of rope, the spool 320 can be set in the center of the solar double-glass assemblies 100.
In specific implementation, the setting of sliding rail 310 can be there are many embodiment.For example, as shown in Figure 1, Figure 3, institute
Stating sliding rail 310 may include draw runner 311 and jacking block 312, the upper surface and both ends of the jacking block 312 and institute's optical plate 200
Contact, the draw runner 311 and the 200 following table face contact of optical plate.When setting, jacking block 312 can be fixed on solar double-glass assemblies 100
In longitudinal both ends frame, draw runner 311 can be then fixed on the lower frame at the longitudinal both ends of solar double-glass assemblies 100, jacking block 312 and draw runner
It is formed among 311 the sliding rail 310 of optical plate 200 being in U-shape can be accommodated, optical plate 200 then can be in sliding rail
Low friction is slided in 310.When sliding rail 310 is installed, then briquetting 360 can be used by solar double-glass assemblies 100, jacking block 312 and slide
Block 311 is successively pressed in along multiple guide rails 350 of the horizontally-parallel setting of photovoltaic bracket.
In specific implementation, the selection of 310 material of sliding rail can be there are many embodiment.For example, the sliding rail
310 can be engineering plastics material sliding rail.Engineering plastics material can further decrease optical plate 200 and sliding rail
Frictional force between 310, meanwhile, the property of self-lubricating can also be not required to daily maintenance, reduce the maintenance cost of the system.
In specific implementation, the selection of optical plate 200 can be there are many embodiment.For example, as shown in fig. 6, the light guide
There is optical fiber 230, the light incident side of the optical fiber 230 is set to the first area 210, light guide inside plate 200
Outlet is set to the second area 220.
In specific implementation, to promote light guide efficiency, as shown in fig. 6, can have inside the optical plate 200 a plurality of parallel
The optical fiber 230 of setting, further, the light incident side and light guide outlet of the optical fiber 230 can be each perpendicular to institute
State the front surface of optical plate 200.
In conclusion the solar double-glass assemblies system with removable optical plate provided by the utility model, in photovoltaic bracket
Top is disposed with spaced optical plate 200 and solar double-glass assemblies 100, optical plate 200 have along photovoltaic bracket it is longitudinal according to
The first area 210 of the absorbable light of secondary setting and the second area 220 that can export light, optical plate 200 can be along photovoltaic branch
Frame is longitudinally opposed to be moved in parallel in solar double-glass assemblies 100 and first area 210 is leant out to the coverage area of solar double-glass assemblies 100.The tool
There is the solar double-glass assemblies system of removable optical plate can be in the case where not influencing 100 front surface of solar double-glass assemblies absorption sunray
Sunray is guided to the back surface of solar double-glass assemblies 100, so that the two-sided available sunray of solar double-glass assemblies 100,
The power generation potential for sufficiently having excavated solar double-glass assemblies 100, significantly improves the generated energy of solar double-glass assemblies 100.Meanwhile it is removable
Optical plate 200 can maintenance when be moved to photovoltaic module bottom, i.e., using roofing access path space, also do not interfere work
Make personnel and safeguards photovoltaic component system.
Above-described specific embodiment, to the purpose of this utility model, technical scheme and beneficial effects carried out into
One step is described in detail, it should be understood that being not used to limit the foregoing is merely specific embodiment of the present utility model
Determine the protection scope of the utility model, within the spirit and principle of the utility model, any modification for being made equally is replaced
It changes, improve, should be included within the scope of protection of this utility model.
Claims (9)
1. a kind of solar double-glass assemblies system with removable optical plate, which is characterized in that there is optical plate including multiple rows of top
(200) and the photovoltaic bracket of solar double-glass assemblies (100), in which:
The optical plate (200) and the solar double-glass assemblies (100) direction at the top of the photovoltaic bracket successively have spaced set
It sets;
The back surface of the optical plate (200) towards the solar double-glass assemblies (100), including longitudinally successively set along the photovoltaic bracket
The first area (210) for the absorbable light set and the second area (220) that can export light, the optical plate (200) can edge
The photovoltaic bracket is longitudinally opposed to be moved in parallel and leans out the first area (210) described in the solar double-glass assemblies (100)
The coverage area of solar double-glass assemblies (100).
2. the solar double-glass assemblies system with removable optical plate as described in claim 1, which is characterized in that respectively arrange the photovoltaic
Cradle top has the optical plate (200) that is transversely correspondingly arranged of multiple groups and a solar double-glass assemblies (100), described in each group
Optical plate (200) is equal with the width of the solar double-glass assemblies (100).
3. the solar double-glass assemblies system with removable optical plate as claimed in claim 2, which is characterized in that the photovoltaic bracket
Including traction device and the longitudinally disposed sliding rail (310) in top, each optical plate (200) is along the photovoltaic bracket
Lateral both ends are sticked in the sliding rail (310) inside, can be by the traction device in the sliding rail (310)
It is mobile.
4. the solar double-glass assemblies system with removable optical plate as claimed in claim 3, which is characterized in that the traction device
Including spool (320), flexible rope (330) and pulley (340), the pulley (340) is set to the photovoltaic bracket longitudinal two
The pulley base (341) at end is internal, and the flexible rope (330) bypasses the pulley (340), and both ends are fixedly connected on the light guide
Plate (200);The spool (320) can pull the mobile optical plate (200) by flexible rope described in coiling (330).
5. the solar double-glass assemblies system with removable optical plate as claimed in claim 4, which is characterized in that the spool
(320) optical plate (200) bottom is horizontally set at along the photovoltaic bracket by bearing (321), length is greater than or equal to
The lateral length of the photovoltaic bracket, one end are provided with driving mechanism.
6. the solar double-glass assemblies system with removable optical plate as claimed in claim 3, which is characterized in that the sliding rail
It (310) include draw runner (311) and jacking block (312), the upper surface and two end in contact of the jacking block (312) and institute's optical plate (200),
The draw runner (311) and the optical plate (200) following table face contact.
7. the solar double-glass assemblies system with removable optical plate as claimed in claim 6, which is characterized in that the sliding rail
It (310) is engineering plastics material sliding rail.
8. the solar double-glass assemblies system with removable optical plate as described in claim 1, which is characterized in that the optical plate
(200) internal to have optical fiber (230), the light incident side of the optical fiber is set to the first area (210), light guide
Outlet is set to the second area (220).
9. the solar double-glass assemblies system with removable optical plate as claimed in claim 8, which is characterized in that the optical fiber
(230) light incident side and light guide outlet is each perpendicular to the front surface of the optical plate (200).
Priority Applications (1)
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CN201920724883.9U CN209545525U (en) | 2019-05-20 | 2019-05-20 | Solar double-glass assemblies system with removable optical plate |
Applications Claiming Priority (1)
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CN201920724883.9U CN209545525U (en) | 2019-05-20 | 2019-05-20 | Solar double-glass assemblies system with removable optical plate |
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CN209545525U true CN209545525U (en) | 2019-10-25 |
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CN201920724883.9U Active CN209545525U (en) | 2019-05-20 | 2019-05-20 | Solar double-glass assemblies system with removable optical plate |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110034723A (en) * | 2019-05-20 | 2019-07-19 | 浙江正泰新能源开发有限公司 | Solar double-glass assemblies system with removable optical plate |
-
2019
- 2019-05-20 CN CN201920724883.9U patent/CN209545525U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110034723A (en) * | 2019-05-20 | 2019-07-19 | 浙江正泰新能源开发有限公司 | Solar double-glass assemblies system with removable optical plate |
CN110034723B (en) * | 2019-05-20 | 2024-08-09 | 浙江正泰新能源开发有限公司 | Dual glass assembly system with movable light guide plate |
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