CN201620737U - Hollow glass reception device for automatically controlling servo solar louver photovoltaic cell - Google Patents

Hollow glass reception device for automatically controlling servo solar louver photovoltaic cell Download PDF

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Publication number
CN201620737U
CN201620737U CN2010201340489U CN201020134048U CN201620737U CN 201620737 U CN201620737 U CN 201620737U CN 2010201340489 U CN2010201340489 U CN 2010201340489U CN 201020134048 U CN201020134048 U CN 201020134048U CN 201620737 U CN201620737 U CN 201620737U
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solar
blinds
hollow glass
automatic
connects
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吴速
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    • YGENERAL 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
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E10/00Energy generation through renewable energy sources
    • Y02E10/50Photovoltaic [PV] energy
    • Y02E10/56Power conversion systems, e.g. maximum power point trackers

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Abstract

The utility model discloses a hollow glass reception device for automatically controlling a servo solar louver photovoltaic cell, which is characterized in that a louver body (2) of a solar photovoltaic cell is arranged in a hollow glass body (1), a drive module (9) and an automatic servo control module (10) are arranged in a control box (8), a drive motor (7) of the drive module (9) is connected with the louver body (2) of the solar photovoltaic cell by a transmission shaft (6) and a wire coiling device (5), the louver body (2) of the solar photovoltaic cell is connected with an anti-reverse-charge diode (11), the anti-reverse-charge diode (11) is connected with an accumulator group (12), and the accumulator group (12), a networking control module (13), a power supply line (14) of a user and a commercial electric network (15) are connected. The utility model has the properties of heat insulation, sun shading, energy saving, sound insulation and safety, supplies power to a power utilization load by utilizing solar energy, lowers the dependence of non-renewable energy resources, such as petroleum, coal and the like, relieves the energy crisis and protects the atmospheric environment.

Description

A kind of hollow glass receiving system of automatic control servo solar blinds photovoltaic cell
Technical field:
The utility model relates to a kind of hollow glass receiving system of automatic control servo solar blinds photovoltaic cell, belongs to the energy-saving building technology field.
Background technology:
Along with the global resources shortage is serious day by day, only available 40 years of present global petroleum reserves, only available 67 years of gas reserves, coal then also only available 167 years.Yet, solar energy be a kind of be the inexhaustible energy, according to statistics, the annual radiation amount of China solar energy is at 917-2333kWH/m 2, annual radiation amount is averaged and is 1500kWH/m 2Simultaneously interrelated data shows, only newly-increased building area is reached 5,000,000,000 m in 5 years from now on 2, relate to transparency area and reach 1,000,000,000 m 2And traditional building glass can not change the solar energy that shines on it into electric energy; how to develop a kind of for building can insulation, sunshade, energy-conservation; solar energy can be changed into the glass for building purposes receiving system with electric loading use of electric energy again for the user; to reduce dependence to non-renewable energy resources such as oil, coals; alleviating energy crisis, the protection atmospheric environment is the research topic of generally being concerned about at present.
The utility model content:
The purpose of this utility model is to overcome the deficiencies in the prior art and a kind of industries such as building, traffic, boats and ships that are widely used in is provided; can insulation, sunshade, energy-conservation; solar energy can be changed into electric energy for using again with electric loading; reduction is to the dependence of non-renewable energy resources such as oil, coal; alleviating energy crisis, the hollow glass receiving system of the automatic control servo solar blinds photovoltaic cell of protection atmospheric environment.
The purpose of this utility model can reach by following measure: a kind of hollow glass receiving system of automatic control servo solar blinds photovoltaic cell, it comprises the hollow glass body, it is characterized in that being provided with in the hollow glass body solar-energy photo-voltaic cell blinds body, the both sides of solar-energy photo-voltaic cell blinds body connect siding track, connect control box on the siding track, be provided with driver module and automatic servo control module in the control box, driver module links to each other by feed line with the automatic servo control module, the drive motors of driver module connects winder by power transmission shaft, winder connects solar-energy photo-voltaic cell blinds body, solar-energy photo-voltaic cell blinds body connects counnter attack and fills diode, counnter attack is filled diode and is connected batteries, batteries connects networking control module and user's supply line, and the networking control module connects utility grid and user's supply line;
Wherein, driver module is used to drive rotation, lifting and the adjustment angle of solar-energy photo-voltaic cell blinds body;
Wherein, the automatic servo control module is used to control rotation, lifting and the adjustment angle that driver module drives solar-energy photo-voltaic cell blinds body;
Wherein, batteries is used to store the electric energy that solar-energy photo-voltaic cell blinds body is changed;
Wherein, anti-recoil diode is used to prevent that described batteries from discharging to solar-energy photo-voltaic cell blinds body;
Wherein, the networking control module is used for input civil power when the batteries electric energy is not enough, exports electric energy to utility grid when the batteries electric energy is sufficient.
In order further to realize the purpose of this utility model, described solar-energy photo-voltaic cell blinds body is made of the solar-energy photo-voltaic cell that lays on equally distributed louvre blade that connects by lead and rope and the louvre blade.
In order further to realize the purpose of this utility model, the tow sides of described louvre blade all are laid with solar-energy photo-voltaic cell.
In order further to realize the purpose of this utility model, described solar-energy photo-voltaic cell blinds body is made of the equally distributed double-sided solar photovoltaic cell blinds that connects by lead and rope.
In order further to realize the purpose of this utility model being laid with solar-energy photo-voltaic cell on the back-panel glass of described hollow glass body.
In order further to realize the purpose of this utility model, described driver module comprises remote controller, remote controller connects radio receiving unit, radio receiving unit connects control single chip computer, control single chip computer connects optical control element, drive motors and automatic servo control module respectively, drive motors linkage counter and automatic servo control module, counter connects the automatic servo control module, and the automatic servo control module connects counnter attack by current detecting unit or voltage detection unit and fills diode;
Wherein, drive motors is used to drive described blinds rotation, lifting, adjustment angle;
Wherein, optical control element be used for the power supply at implement device daytime, night automatic connection, close;
Wherein, remote controller is used for device is carried out wireless remote control;
Wherein, radio receiving unit is used to receive the wireless signal of described remote controller, and the signal transmission is worth described control single chip computer;
Wherein, control single chip computer is used to control the startup of described drive motors and the open and close of parking and automatic servo control module;
Wherein, current detecting unit or the voltage detection unit current value I or the magnitude of voltage V that are used to survey and be sent to the automatic servo control module;
Wherein, counter is used for measuring the rotation number of turns of the drive motors of driver module, and turning collar numerical value is delivered to the automatic servo control module;
Wherein, the automatic servo control module is an automatic servo control single chip computer, the anglec of rotation of control solar-energy photo-voltaic cell blinds body in blanking time, and the maximum value of calculating current value I or magnitude of voltage V, read the rotation number of turns of the pairing drive motors of maximum value of current value I or magnitude of voltage V, control drive motors with this and rotate the number of turns, the control drive motors drives the solar-energy photo-voltaic cell blinds and rotates to best angle on the sunny side.
In order further to realize the purpose of this utility model, described networking control module comprises detecting unit, detecting unit fills diode with counnter attack respectively and is connected with batteries, first transmitting element is connected with the DC/AC converter with detecting unit respectively, second transmitting element is connected with the AC switch with detecting unit respectively, the DC/AC converter is connected with electricity network with batteries, first transmitting element, user's supply line respectively, and the AC switch is connected with electricity network with second transmitting element, user's supply line respectively;
Wherein, detecting unit is used to detect the duty of current described solar-energy photo-voltaic cell or solar-energy photo-voltaic cell blinds and the electric weight of described batteries storage, if current described solar-energy photo-voltaic cell or solar-energy photo-voltaic cell blinds are in the electric weight of normal operating conditions and the storage of described batteries when reaching pre-set threshold, generate first control instruction, if current described solar-energy photo-voltaic cell or solar-energy photo-voltaic cell blinds are in the electric weight of abnormal operating state and the storage of described batteries when being lower than described threshold value, generate second control instruction;
Wherein, first transmitting element is used for sending first control instruction that detecting unit generates to the DC/AC converter, according to described first control instruction direct current of described batteries storage is transformed into alternating current by the DC/AC converter, and with the power supply circuits and the described utility grid of described alternating current and access customer;
Wherein, second transmitting element is used for sending second control instruction that detecting unit generates to the AC switch, imports user's power supply circuits for using with electric loading by the alternating current that AC switch connection utility grid provides;
Wherein, the DC/AC converter is used for when receiving first control instruction that first transmitting element sends, according to described first control instruction direct current of described batteries storage is transformed into alternating current, and with the supply line and the described utility grid of described alternating current and access customer;
Wherein, the AC switch is used for when receiving second control instruction that second transmitting element sends, and imports user's supply line for using with electric loading according to the alternating current that described second control instruction connection utility grid provides.
The utility model can produce following good effect compared with the prior art: the hollow glass receiving system of automatic control servo solar blinds photovoltaic cell of the present utility model, at hollow glass embedded with solar photovoltaic cell blinds, perhaps on the built-in traditional blinds of hollow glass, lay solar-energy photo-voltaic cell, carry out lifting and the upset of 180 degree and the angular adjustment of blade by driver module and the built-in blinds of automatic servo module controls, reach the purpose of automatic adjusting daylighting, generating, sunshade.This built-in solar-energy photo-voltaic cell blinds or the solar-energy photo-voltaic cell that lays on built-in traditional blinds can change solar energy into electric energy simultaneously, use (comprising this device self electricity consumption) for the user with electric loading.And when the solar-energy photo-voltaic cell electric weight is sufficient, unnecessary electric weight can be incorporated into utility grid and use for other load.And the automatic servo module can be controlled driver module automatically and adjust the best of solar-energy photo-voltaic cell or solar-energy photo-voltaic cell blinds angle that faces south, and guarantees that solar-energy photo-voltaic cell or solar-energy photo-voltaic cell blinds remain high workload efficient.And the networking control module of the hollow glass receiving system of control servo solar blinds photovoltaic cell can be dispatched electric energy automatically automatically, unnecessary electric weight can be incorporated into utility grid and use for other loads when the solar-energy photo-voltaic cell electric weight is sufficient.This device makes solar-energy photo-voltaic cell, blinds, hollow glass cleverly in conjunction with integrated; characteristic with insulation, sunshade, energy-conservation, sound insulation, safety; and utilize solar energy for powering with electric loading; therefore reduced dependence to non-renewable energy resources such as oil, coals; alleviating energy crisis, the protection atmospheric environment.
Description of drawings:
Fig. 1 is a structured flowchart of the present utility model;
Fig. 2 is the structural representation of solar-energy photo-voltaic cell blinds body part of the present utility model;
Fig. 3 is the electric theory diagram of a kind of automatic servo control module of the present utility model and driver module part.
The specific embodiment: the specific embodiment of the present utility model is described in detail below in conjunction with accompanying drawing:
Embodiment: a kind of hollow glass receiving system of automatic control servo solar blinds photovoltaic cell is (referring to Fig. 1-Fig. 3), it comprises hollow glass body 1, be laid with solar-energy photo-voltaic cell on the back-panel glass of hollow glass body 1, be provided with solar-energy photo-voltaic cell blinds body 2 in the hollow glass body 1, it is used for changing solar energy into electric energy, the both sides of solar-energy photo-voltaic cell blinds body 2 connect siding track 4 by traveller, solar-energy photo-voltaic cell blinds body 2 can be along siding track 4 oscilaltions like this, solar-energy photo-voltaic cell blinds body 2 is made of the solar-energy photo-voltaic cell 2-2 that lays on several equally distributed louvre blade 2-1 that connect by lead and rope 3 and the louvre blade 2-1, and the tow sides of louvre blade 2-1 all are laid with solar-energy photo-voltaic cell 2-2.Solar-energy photo-voltaic cell blinds body 2 also can be made of several equally distributed double-sided solar photovoltaic cell blinds that connects by lead and rope 3 as required.Connect control box 8 on the siding track 4, be provided with driver module 9 and automatic servo control module 10 in the control box 8, driver module 9 and automatic servo control module 10 link to each other by feed line, and the drive motors 7 of driver module 9 connects winders 5, winder 5 connecting ropes by power transmission shaft 6.Each solar-energy photo-voltaic cell 2-2 or solar-energy photo-voltaic cell blinds link to each other by feed line with the end that diode 11 is filled in a counnter attack, and the other end that diode 11 is filled in each counnter attack and batteries 12 link to each other by feed line.Batteries 12 and networking control module 13 link to each other by feed line, link to each other by feed line with user's supply line 14.Networking control module 13 and utility grid 15 link to each other by feed line, link to each other by feed line with user's supply line 14.
Wherein batteries 12, are used to store the electric energy that solar-energy photo-voltaic cell or solar-energy photo-voltaic cell blinds are changed;
Wherein anti-recoil diode 11 is used to prevent that described batteries is to described solar-energy photo-voltaic cell or the discharge of solar-energy photo-voltaic cell blinds;
Wherein, networking control module 13 is used for input civil power when the batteries electric energy is not enough, exports electric energy to utility grid when the batteries electric energy is sufficient.Networking control module 13 comprises, detecting unit 13-1, it fills diode 11 and batteries 12 with counnter attack respectively and is connected by feed line, be used to detect the duty of current described solar-energy photo-voltaic cell or solar-energy photo-voltaic cell blinds and the electric weight of described batteries storage, if current described solar-energy photo-voltaic cell or solar-energy photo-voltaic cell blinds are in the electric weight of normal operating conditions and the storage of described batteries when reaching pre-set threshold, generate first control instruction, if current described solar-energy photo-voltaic cell or solar-energy photo-voltaic cell blinds are in the electric weight of abnormal operating state and the storage of described batteries when being lower than described threshold value, generate second control instruction; The first transmitting element 13-2, be connected by feed line with DC/AC converter 13-4 with detecting unit 13-1 respectively, be used for sending first control instruction that detecting unit 13-1 generates to DC/AC converter 13-4, according to described first control instruction direct current of described batteries storage is transformed into alternating current by DC/AC converter 13-4, and with the power supply circuits 14 and the described utility grid 15 of described alternating current and access customer; The second transmitting element 13-3, be connected by feed line with AC switch 13-5 with detecting unit 13-1 respectively, be used for sending second control instruction that detecting unit 13-1 generates, import user's power supply circuits 14 for using with electric loading by the alternating current that AC switch 13-5 connection utility grid 15 provides to AC switch 13-5; DC/AC converter 13-4, be connected by feed line with batteries 12, the first transmitting element 13-2, user's supply line 14 and electricity network 15 respectively, be used for when receiving first control instruction that the first transmitting element 13-2 sends, according to described first control instruction direct current of described batteries 12 storages is transformed into alternating current, and with the supply line 14 and the described utility grid 15 of described alternating current and access customer; AC switch 13-5, be connected by feed line with the second transmitting element 13-3, user's supply line 14 and electricity network 15 respectively, be used for when receiving second control instruction that the second transmitting element 13-3 sends, import user's supply line 14 for using with electric loading according to the alternating current that described second control instruction connection utility grid 15 provides.
Wherein driver module 9 comprises remote controller 9-1, remote controller 9-1 connects radio receiving unit 9-3, radio receiving unit 9-3 connects control single chip computer 9-4, control single chip computer 9-4 connects optical control element 9-2, drive motors 7 and automatic servo control module 10 respectively, drive motors 7 linkage counter 9-5 and automatic servo control module 10, counter 9-5 connects automatic servo control module 10, and automatic servo control module 10 connects counnter attack by current detecting unit 17 or voltage detection unit 16 and fills diode 11.Drive motors is used to drive described blinds lifting, adjusts angle; Optical control element, be used for the power supply at implement device daytime, night automatic connection, close; Remote controller is used for device is carried out wireless remote control; Radio receiving unit is used to receive the wireless signal of described remote controller, and the signal transmission is worth described control single chip computer; Control single chip computer is used to control the startup of described drive motors and the open and close of parking and automatic servo module.Wherein, remote controller is preset with function buttons such as the up lifting of blinds (blade turns over turnback automatically), blinds descend (the blade automatic reverse turns over turnback), stop, blinds angle adjustment, Generate, Generation, Generator control, automatic servo control, each function button correspondence writes one group of instruction of control single chip computer in advance, after electricity generate function starts, circuit between solar-energy photo-voltaic cell blinds and the batteries is connected automatically, the solar-energy photo-voltaic cell blinds with power delivery to batteries, behind automatic servo control function on, electricity generate function starts thereupon; Blinds will be by the automatic servo module controls, and this moment, the control single chip computer of driver module was not controlled blinds;
Driver module 9 and automatic servo control module 10 control driver module drive solar-energy photo-voltaic cell in the following manner or the solar-energy photo-voltaic cell blinds rotates to best angle on the sunny side, keep its highest generating efficiency: automatic servo control module 10 is an automatic servo control single chip computer, the anglec of rotation of control solar-energy photo-voltaic cell blinds in blanking time, t (predeterminable 10 minutes promptly sets interval, or 20,30 minutes), rotational angle r (predeterminable 5 degree) is set, calculate the number of turns p that the required drive motors of blinds anglec of rotation r is rotated according to drive motors rotating speed and the size that connects the connecting rope of blinds, with t, the p value writes the control single chip computer of automatic servo control module, automatic servo control module control blinds was every t minute during use, and blinds rotates the r degree.Current detecting unit 17 or voltage detection unit 16 are sent to the current value I of surveying (or magnitude of voltage V) control single chip computer of automatic servo module, counter 9-5 is used for measuring the rotation number of turns of driver module drive motors, and turning collar numerical value is delivered to the control single chip computer of automatic servo module, getting the cycle-index value is 5, the control single chip computer of automatic servo module control blinds was every t minute during use, blinds rotation r degree, and counter rotates drive motors five times turning collar numerical value P1, P2, P3, P4, P5 is sent to the control single chip computer of automatic control module, current detecting unit (or voltage detection unit) is surveyed I1 successively simultaneously, I2, I3, I4, I5, five primary current value (or V1, V2, V3, V4, five magnitudes of voltage of V5), and this value is sent to the automatic servo control single chip computer, the automatic servo control single chip computer is by calculating I1, I2, I3, I4, I5 (or V1, V2, V3, V4, V5) maximum value is determined the best of blinds angle that faces south.Be maximum as I3 value (or V3 value) for example, the rotation number of turns P3 of when surveying voltage V3 (or voltage detection unit) pairing drive motors when the control single chip computer of automatic servo module reads electric current I 3 that current detecting unit is surveyed, rotate the P3 circle with this control drive motors, this moment, blinds was best angle on the sunny side.
The best that automatic servo control module 10 and driver module 9 can also realize adjusting automatically solar-energy photo-voltaic cell or solar-energy photo-voltaic cell blinds by following another kind of mode angle that faces south guarantees the operating efficiency that it is the highest.Longitude and latitude according to the installation geographical position, the best of calculating every period angle that faces south, predeterminable 30 minutes of the time interval, it is the complete closure angle that the blinds original state is set, calculate blinds according to the rotating speed of drive motors and the size that connects the connecting rope of blinds and go to certain time during best angle on the sunny side by the complete closure angle, the positive negative direction of the number of turns of the required rotation of drive motors and required rotation writes the positive negative direction value of clock value, corresponding number of turns value and rotation the control single chip computer of automatic servo module; During use, the number of turns and the positive negative direction of the required rotation of drive motors of angle correspondence the most on the sunny side of blinds when the automatic servo module reads certain clock value, the control drive motors begins rotation.Both can realize adjusting automatically blinds according to this to the best function of angle on the sunny side.
The hollow glass receiving system of automatic control servo solar blinds photovoltaic cell of the present utility model, in use, optical control element is controlled the connection of power supply according to the intensity of sunshine at daytime, night and is closed, and device is controlled automatically by the automatic servo module behind the power connection; The user can use a teleswitch device is artificially controlled simultaneously.
Existing blinds hollow glass mostly is tube shaped electric machine and drives, and adopts multiple control modes such as wireless remote control, acoustic control, light-operated, acousto-optic control, timing.The hollow glass receiving system of automatic control servo solar blinds photovoltaic cell of the present utility model is in implementation process, can utilize existing blinds hollow glass, lay solar-energy photo-voltaic cell within it on each blinds of putting or directly replace original blinds with the solar-energy photo-voltaic cell blinds, increase the automatic servo module that a cover links to each other with the tubulose drive motors, solar-energy photo-voltaic cell or solar-energy photo-voltaic cell blinds arrange that by the connecting rope of original connection blinds feed line fills diode with counnter attack and links to each other.In the use, the best that the automatic servo module can be adjusted blinds automatically angle that faces south guarantees the operating efficiency that it is the highest.
While is along with the development of solar-photovoltaic technology, the generating efficiency of solar-energy photo-voltaic cell improves gradually, as the generating of both can having worked under at poor light condition, manufacturing cost reduces gradually, for reaching optimal effectiveness, can all lay solar-energy photo-voltaic cell or adopt double-sided solar photovoltaic cell blinds the two-sided of original blinds in the implementation process, and on the back-panel glass of hollow glass body, lay solar-energy photo-voltaic cell.
The hollow glass receiving system of automatic control servo solar blinds photovoltaic cell of the present utility model, in implementation process, the networking control module can be linked to each other with the circuit outlet line of user's switchbox, batteries links to each other with the networking control module, the networking control module is connected with user's power circuit with batteries simultaneously, realize the automatic scheduling of electric power by the networking control module, when the electric energy of batteries is sufficient, the networking control module is cut off the electric power input of utility grid automatically, this moment, batteries institute electric energy stored can be for the using with electric loading of user, and unnecessary electric energy can be exported to utility grid for other loads uses; When the electric energy of batteries was not enough, the networking control module was connected the electric power input of utility grid automatically, this moment the user uses mains-supplied with electric loading.
The hollow glass receiving system of automatic control servo solar blinds photovoltaic cell of the present utility model, at hollow glass embedded with solar photovoltaic cell blinds, perhaps on the built-in traditional blinds of hollow glass, lay solar-energy photo-voltaic cell, carry out the angular adjustment of upset blades of lifting and 180 degree by driver module and the built-in blinds of automatic servo module controls, reach the effect of automatic adjusting daylighting, generating, sunshade.This built-in solar-energy photo-voltaic cell blinds or the solar-energy photo-voltaic cell that lays on built-in traditional blinds change solar energy into electric energy simultaneously, use (comprising this device self electricity consumption) for the user with electric loading.And when the solar-energy photo-voltaic cell electric weight is sufficient, unnecessary electric weight can be incorporated into utility grid and use for other load.This device makes solar-energy photo-voltaic cell, blinds, hollow glass cleverly in conjunction with integrated; characteristic with insulation, sunshade, energy-conservation, sound insulation, safety; and utilize solar energy for powering with electric loading; reduced dependence to non-renewable energy resources such as oil, coals; alleviating energy crisis, the protection atmospheric environment.This device has been opened up the usage space of solar cell, not only can be installed on indoor, also can be used for outdoor, can be widely used in building doors and windows, glass partition, curtain wall, skylight etc., and highway, railway, airport, harbour, the various vehicles, outdoor enclosure wall, noise barrier, windbreak etc.And this device adopts modularized design, and some these devices can be networked and be formed large-scale power plant.
It will be appreciated by those skilled in the art that accompanying drawing is the schematic diagram of a preferred embodiment, unit in the accompanying drawing or flow process might not be that enforcement the utility model is necessary.
Above embodiment is described preferred implementation of the present utility model; be not that scope of the present utility model is limited; under the prerequisite that does not break away from the utility model design spirit; various distortion and improvement that the common engineers and technicians in this area make the technical solution of the utility model all should fall in the definite protection domain of claims of the present utility model.

Claims (7)

1. automatic hollow glass receiving system of control servo solar blinds photovoltaic cell, it comprises hollow glass body (1), it is characterized in that being provided with in the hollow glass body (1) solar-energy photo-voltaic cell blinds body (2), the both sides of solar-energy photo-voltaic cell blinds body (2) connect siding track (4), siding track (4) is gone up and is connected control box (8), be provided with driver module (9) and automatic servo control module (10) in the control box (8), driver module (9) links to each other by feed line with automatic servo control module (10), the drive motors (7) of driver module (9) connects winder (5) by power transmission shaft (6), winder (5) connects solar-energy photo-voltaic cell blinds body (2), solar-energy photo-voltaic cell blinds body (2) connects counnter attack and fills diode (11), counnter attack is filled diode (11) and is connected batteries (12), batteries (12) connects networking control module (13) and user's supply line (14), and networking control module (13) connects utility grid (15) and user's supply line (14).
2. the hollow glass receiving system of a kind of automatic control servo solar blinds photovoltaic cell according to claim 1 is characterized in that described solar-energy photo-voltaic cell blinds body (2) is by solar-energy photo-voltaic cell (2-2) formation of laying on equally distributed louvre blade (2-1) that connects by lead and rope (3) and the louvre blade (2-1).
3. the hollow glass receiving system of a kind of automatic control servo solar blinds photovoltaic cell according to claim 2 is characterized in that the tow sides of described louvre blade (2-1) all are laid with solar-energy photo-voltaic cell (2-2).
4. the hollow glass receiving system of a kind of automatic control servo solar blinds photovoltaic cell according to claim 1 is characterized in that described solar-energy photo-voltaic cell blinds body (2) is made of the equally distributed double-sided solar photovoltaic cell blinds that connects by lead and rope (3).
5. the hollow glass receiving system of a kind of automatic control servo solar blinds photovoltaic cell according to claim 1 is characterized in that being laid with solar-energy photo-voltaic cell on the back-panel glass of described hollow glass body (1).
6. the hollow glass receiving system of a kind of automatic control servo solar blinds photovoltaic cell according to claim 1, it is characterized in that described driver module (9) comprises remote controller (9-1), remote controller (9-1) connects radio receiving unit (9-3), radio receiving unit (9-3) connects control single chip computer (9-4), control single chip computer (9-4) connects optical control element (9-2) respectively, drive motors (7) and automatic servo control module (10), drive motors (7) linkage counter (9-5) and automatic servo control module (10), counter (9-5) connects automatic servo control module (10), and automatic servo control module (10) connects counnter attack by current detecting unit (17) or voltage detection unit (16) and fills diode (11).
7. according to the hollow glass receiving system of the described a kind of automatic control servo solar blinds photovoltaic cell of claim (1), it is characterized in that described networking control module (13) comprises detecting unit (13-1), detecting unit (13-1) fills diode (11) with counnter attack respectively and is connected with batteries (12), first transmitting element (13-2) is connected with DC/AC converter (13-4) with detecting unit (13-1) respectively, second transmitting element (13-3) is connected with AC switch (13-5) with detecting unit (13-1) respectively, DC/AC converter (13-4) respectively with batteries (12), first transmitting element (13-2), user's supply line (14) is connected with electricity network (15), AC switch (13-5) respectively with second transmitting element (13-3), user's supply line (14) is connected with electricity network (15).
CN2010201340489U 2010-02-23 2010-02-23 Hollow glass reception device for automatically controlling servo solar louver photovoltaic cell Expired - Fee Related CN201620737U (en)

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Cited By (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102536085A (en) * 2012-01-16 2012-07-04 兰州双龙太阳能科技有限公司 Solar blind window
CN102916620A (en) * 2012-10-24 2013-02-06 严辉 Intelligent photovoltaic sunshading power generation system
CN104697115A (en) * 2015-03-08 2015-06-10 中南林业科技大学 Intelligent safety type bathroom ventilation control system based on window blind
CN104764132A (en) * 2015-03-08 2015-07-08 中南林业科技大学 Intelligent and safe bathroom ventilating control system
CN104808725A (en) * 2015-03-08 2015-07-29 中南林业科技大学 Bathroom ventilation control method based on shutters
CN104820453A (en) * 2015-03-08 2015-08-05 中南林业科技大学 Intelligent bathroom window
CN105089456A (en) * 2015-08-18 2015-11-25 广水市弘泰光电科技有限公司 Solar photovoltaic window with adjusting devices
CN112112330A (en) * 2020-09-21 2020-12-22 吴祖荣 Photovoltaic glass shutter wall with high power generation efficiency and energy conservation
CN114033280A (en) * 2021-11-25 2022-02-11 上海理工大学 Multifunctional solar thermoelectric comprehensive utilization energy-saving window
WO2022129530A1 (en) * 2020-12-18 2022-06-23 Somfy Activites Sa Method for operating an autonomous electrical device

Cited By (13)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102536085A (en) * 2012-01-16 2012-07-04 兰州双龙太阳能科技有限公司 Solar blind window
CN102916620A (en) * 2012-10-24 2013-02-06 严辉 Intelligent photovoltaic sunshading power generation system
CN104764132B (en) * 2015-03-08 2017-05-31 中南林业科技大学 A kind of intelligent safety bathroom ventilation control system
CN104697115A (en) * 2015-03-08 2015-06-10 中南林业科技大学 Intelligent safety type bathroom ventilation control system based on window blind
CN104764132A (en) * 2015-03-08 2015-07-08 中南林业科技大学 Intelligent and safe bathroom ventilating control system
CN104808725A (en) * 2015-03-08 2015-07-29 中南林业科技大学 Bathroom ventilation control method based on shutters
CN104820453A (en) * 2015-03-08 2015-08-05 中南林业科技大学 Intelligent bathroom window
CN105089456A (en) * 2015-08-18 2015-11-25 广水市弘泰光电科技有限公司 Solar photovoltaic window with adjusting devices
CN112112330A (en) * 2020-09-21 2020-12-22 吴祖荣 Photovoltaic glass shutter wall with high power generation efficiency and energy conservation
CN112112330B (en) * 2020-09-21 2021-11-26 广州盈德建筑工程有限公司 Photovoltaic glass shutter wall with high power generation efficiency and energy conservation
WO2022129530A1 (en) * 2020-12-18 2022-06-23 Somfy Activites Sa Method for operating an autonomous electrical device
FR3118358A1 (en) * 2020-12-18 2022-06-24 Somfy Activites Sa Method of operation of an autonomous electrical device.
CN114033280A (en) * 2021-11-25 2022-02-11 上海理工大学 Multifunctional solar thermoelectric comprehensive utilization energy-saving window

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