CN108590055A - A kind of device for building window sunshade - Google Patents
A kind of device for building window sunshade Download PDFInfo
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- CN108590055A CN108590055A CN201810189838.8A CN201810189838A CN108590055A CN 108590055 A CN108590055 A CN 108590055A CN 201810189838 A CN201810189838 A CN 201810189838A CN 108590055 A CN108590055 A CN 108590055A
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- nodal axisn
- section
- pipe
- controller
- tube
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Classifications
-
- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04F—FINISHING WORK ON BUILDINGS, e.g. STAIRS, FLOORS
- E04F10/00—Sunshades, e.g. Florentine blinds or jalousies; Outside screens; Awnings or baldachins
- E04F10/08—Sunshades, e.g. Florentine blinds or jalousies; Outside screens; Awnings or baldachins of a plurality of similar rigid parts, e.g. slabs, lamellae
- E04F10/10—Sunshades, e.g. Florentine blinds or jalousies; Outside screens; Awnings or baldachins of a plurality of similar rigid parts, e.g. slabs, lamellae collapsible or extensible; metallic Florentine blinds; awnings with movable parts such as louvres
-
- G—PHYSICS
- G05—CONTROLLING; REGULATING
- G05D—SYSTEMS FOR CONTROLLING OR REGULATING NON-ELECTRIC VARIABLES
- G05D3/00—Control of position or direction
- G05D3/12—Control of position or direction using feedback
- G05D3/20—Control of position or direction using feedback using a digital comparing device
-
- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02J—CIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
- H02J7/00—Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries
- H02J7/34—Parallel operation in networks using both storage and other dc sources, e.g. providing buffering
- H02J7/35—Parallel operation in networks using both storage and other dc sources, e.g. providing buffering with light sensitive cells
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- Engineering & Computer Science (AREA)
- Architecture (AREA)
- Civil Engineering (AREA)
- Structural Engineering (AREA)
- Physics & Mathematics (AREA)
- General Physics & Mathematics (AREA)
- Automation & Control Theory (AREA)
- Power Engineering (AREA)
- Power-Operated Mechanisms For Wings (AREA)
Abstract
The invention discloses a kind of device for building window sunshade, including the flexible telescopic rotating shaft of telescoping tube, driving telescoping tube, the driving device for driving telescopic rotating shaft rotation, the sunshading board being arranged on telescoping tube, acquisition influence the meteorological parameter collector of telescoping visor, receive the meteorological parameter information of meteorological parameter collector acquisition and control the controller of motor positive and inverse, provide the power supply of electric energy to whole device;The present invention can automatically control the flexible of sunshading board according to extraneous meteorological condition, effectively reduce indoor radiant heat, hence it is evident that reduce indoor temperature, reduce the operating power consumption of summer air-conditioning, shaded effects are good, reasonable for structure, and appearance looks elegant is economical and practical.
Description
Technical field
The invention belongs to sunshading technology fields, specially a kind of device for building window sunshade.
Background technology
With the fast development of China's economy and the continuous improvement of living standards of the people, building trade high speed development, building
Energy consumption constantly increases, and building energy conservation has become the focus of attention of society.In order to fundamentally solve building energy consumption rapid growth
Present situation, it is necessary to construction unit area energy consumption be greatly lowered under the environmental condition for keeping healthiness.
Housing window sunshade is to improve resident's living environment, effectively reduces a kind of important means of building energy consumption.Data
Show effectively reduce the sun for indoor direct radiation using housing window solar protection devices in summer, reduces indoor spoke
Penetrate heat, hence it is evident that reduce indoor temperature, to reduce the operating power consumption of summer air-conditioning, therefore housing window sunshade is that summer is heat-insulated most
Effective energy conservation measure, while being also the power-economizing method to get instant result the most.In addition, housing window sunshade is improving living environment
In be also of great significance, have and avoid dazzle, ventilation, light transmission, noise abatement, increase the works such as building aesthetic feeling, blocking solar radiation
With.Different demands of the indoor occupant to indoor illumination intensity, comfort can be met.
Throughout the year, one day each moment, outdoor optical shines and temperature is all changing.Housing window sunshade is as barrier
The effective means that part solar radiant heat and sunray are got in, solar protection devices should be able to be shone according to outdoor optical and temperature is real-time
Automatically it is adjusted.Existing housing window solar protection devices cannot automatically be adjusted with illumination and temperature change, sunshade effect
Fruit is bad, is easily damaged, and service life is often very short.
Invention content
In order to solve the deficiencies in the prior art, the present invention provides a kind of device for building window sunshade.
The technical solution adopted in the present invention is:A kind of device for building window sunshade, it is characterized in that:The device
Including telescoping tube, telescopic rotating shaft, driving device, sunshading board, meteorological parameter collector, controller, power supply;
The telescoping tube is for two and identical, is separately fixed at metope both sides above door and window, and two telescoping tubes are in dip down
Ramp-like, single telescoping tube includes first segment pipe, double section tube, three-joint pipe, and double section tube can be slided in first segment inner telescoping tube,
Three-joint pipe can be in the second section inner telescoping tube sliding, and often section length of tube is equal, often saves pipe cross-sectional shape and is all square, and second
Section pipe and three-joint pipe are equipped with sealing plate close to metope end, are designed with circular hole at sealing plate center, the circular hole of three-joint pipe upper sealing plate is big
In the circular hole of double section tube upper sealing plate, circular-hole internal-wall is equipped with internal thread, is set on a side wall of first segment pipe and double section tube
There is a v notch v, article v notch v on first segment pipe is more than article v notch v on double section tube, and the bar shaped on two telescoping tubes lacks
Mouth is towards relatively;
The telescopic rotating shaft is for two and identical, is separately positioned in two telescoping tubes, and telescopic rotating shaft is used for driving flexible
Pipe is flexible, and the circular motion of telescopic rotating shaft is converted into the linear motion of telescoping tube;Single telescopic rotating shaft include the first nodal axisn and
Second nodal axisn is cylinder per nodal axisn appearance, per nodal axisn equal length and, the cross section of second nodal axisn equal with every section length of tube
More than the cross section of the first nodal axisn, the second nodal axisn is hollow structure, and hollow cross-section is regular polygon, on the axle body of every nodal axisn
Equipped with external screw thread, the external screw thread of the first nodal axisn is matched with the internal thread of double section tube upper sealing plate, the external screw thread of the second nodal axisn with
The internal thread of three-joint pipe upper sealing plate matches, and makes the internal thread rotatable engagement of the external screw thread and corresponding pipe upper sealing plate of every nodal axisn
To drive the flexible of the pipe;First nodal axisn far from metope end be equipped with the hollow prism that matches of the second nodal axisn, prism it is outer
Diameter is slightly larger than the diameter of the first nodal axisn, and prism physical efficiency makes the in the hollow interior telescopic slide of the second nodal axisn but relatively unrotatable
One nodal axisn can drive the second nodal axisn common rotation by prism;
The driving device be used for drive telescopic rotating shaft to rotate, driving device include the clockwise and anticlockwise motor being fixed on metope, with
The transmission shaft that clockwise and anticlockwise motor output shaft is connected, transmission shaft are arranged between two the first nodal axisns and are passed with two the first nodal axisns
Dynamic connection enables transmission shaft to drive two first segment shaft rotations dynamic simultaneously;
The sunshading board include first block of plate, second block of plate, third block plate, between the length and two telescoping tubes of three blocks of plates away from
From corresponding, the width of three blocks of plates often saves that the length of pipe is corresponding, and first block of plate is fixed at two first segments with telescoping tube
Between pipe, second block of plate passes through article v notch v of two first segment pipes to be fixedly connected with two double section tubes, and third block plate passes through
Article v notch v of two double section tubes is fixedly connected with two three-joint pipes;
The meteorology parameter collector is used to acquire the meteorological parameter information for influencing telescoping visor, and the information of acquisition is transmitted
To controller;The meteorology parameter collector includes luminosity sensor, air-temperature sensor;The luminosity sensor, temperature sensing
Device acquires intensity of illumination, temperature height respectively, and collected parameter is passed to controller through signal transmission line;
Indoors, controller is used to receive the intensity of illumination of meteorological parameter collector output, temperature height for the controller setting
Parameter, controller carries out analyzing processing to the parameter received, and when analysis and processing result reaches preset value, controller starts just
Reversion motor is rotated forward or is rotated backward;The controller includes control circuit board, motor drive module, microcontroller, button
Module;The controller is equipped with automatic control mode and MANUAL CONTROL mode, under automatic control mode, controls priority orders
It is temperature, luminosity, under any circumstance, it is all the first priority to manually control;
The power supply is used for providing electric energy to whole device, and power supply includes solar panel and is connected with solar panel
Accumulator, wherein solar panel be arranged on first block of plate, accumulator be arranged in controller and with controller phase
Connection, solar panel includes the first EVA layer for being bonded in first piece of plate upper surface, the sun being arranged on the first EVA layer
Can cell piece, the second EVA layer in solar cell on piece, the photic zone that is arranged on the second EVA layer, solar cell are set
The thin grid line and the main gate line perpendicular with thin grid line that the plural item of on piece setting is mutually parallel, the end of adjacent two thin grid line is successively
Alternating connects short grid line and forms S type grid lines.
Further, according to same principle, according to actual conditions, the telescoping tube joint number can be more than three sections, telescopic rotating shaft section
Number, which can be more than two sections, sunshading board block number, can be more than three pieces, and the telescoping tube number can be more than two.
Further, the hollow cross-section of second nodal axisn is regular hexagon, and the prism is hexagonal prism.
Further, the sunshading board is followed successively by heat-sink shell, the first hard PU foaming layers, steel screen layer, second firmly from top to bottom
PU foaming layers, tissue layer.
Further, in order to increase sunshading board hardness, the sunshading board cross section is sine curve;In order to increase solar-electricity
Pond plate heat-absorbent surface, assembles solar radiation, and the solar panel cross section is consistent with sunshading board cross section.
Further, the luminosity sensor is photodiode, and the air-temperature sensor is temperature sensing chip
DS18B20。
Further, the motor drive module is motor drive ic L298N, and the microcontroller is HT46F49E monolithics
Machine.
The course of work of the present invention is:Meteorological parameter collector acquisition influences the meteorological parameter information of telescoping visor, and will
The information of acquisition passes to controller, and controller carries out analyzing processing to the parameter received, when analysis and processing result reaches pre-
If when value, controller starts motor and rotates forward or rotate backward, when motor rotates forward, motor drives transmission shaft forward direction to turn
Dynamic, transmission shaft drives the first nodal axisn to rotate forward, and the external screw thread of the first nodal axisn is matched with the internal thread on double section tube sealing plate
Drive double section tube protruding, double section tube drives the second nodal axisn protruding together;Meanwhile the first prism on nodal axisn
Drive the second nodal axisn to rotate, the external screw thread of the second nodal axisn matched with the internal thread on three-joint pipe sealing plate drive three-joint pipe to
Outer stretching, second block of plate being arranged on two double section tube sides and the third block plate being arranged on two three-joint pipe sides
It is gradually protruding in the case where double section tube and three-joint pipe drive;Same reason, when motor rotates backward, two telescoping tubes
It shrinks simultaneously, second block of plate being arranged on two double section tube sides and the third block being arranged on two three-joint pipe sides
Plate is in the case where double section tube and three-joint pipe drive gradually to contract.
Present invention has the advantages that:1. the flexible of sunshading board can be automatically controlled according to extraneous meteorological condition, room is effectively reduced
Interior radiant heat, hence it is evident that reduce indoor temperature, reduce the operating power consumption of summer air-conditioning;2. being equipped with solar panel, not only save
The about energy, and it is omitted alternating current installation wiring process;3. sunshading board is sturdy and durable, shaded effects are good;4. it is reasonable for structure, outside
Beauty is seen, it is economical and practical.
Description of the drawings
If Fig. 1 is surface structure schematic diagram of the present invention.
If Fig. 2 is cross-sectional structure schematic diagram of the present invention.
If Fig. 3 is internal structure schematic diagram of the present invention.
If Fig. 4 is flexible pipe structure schematic diagram of the present invention.
If Fig. 5 is closing plate structure schematic diagram of the present invention.
If Fig. 6 is telescopic rotating shaft structural schematic diagram of the present invention.
Specific implementation mode
The present invention will be further described below in conjunction with the accompanying drawings.
A kind of device for building window sunshade, it is characterized in that:The device includes telescoping tube 1, telescopic rotating shaft, driving
Device, sunshading board 5, meteorological parameter collector 11, controller 12, power supply;
The telescoping tube 1 is for two and identical, is separately fixed at metope both sides above door and window, two telescoping tubes 1 are in downward
Skewed, single telescoping tube 1 includes first segment pipe 2, double section tube 3, three-joint pipe 3, and double section tube 3 can be in first segment pipe 2
Telescopic slide, three-joint pipe 4 can in double section tube 3 telescopic slide, often save length of tube it is equal, often save pipe cross-sectional shape be all
Square, double section tube 3 and three-joint pipe 4 are equipped with sealing plate 17 close to metope end, and sealing plate is designed with circular hole 19, third at 17 center
The circular hole 19 for saving 4 upper sealing plate 17 of pipe is more than the circular hole 19 of 3 upper sealing plate 17 of double section tube, and 19 inner wall of circular hole is equipped with internal thread 20,
One side wall of first segment pipe 2 and double section tube 3 is equipped with article v notch v 14, and article v notch v 14 on first segment pipe 2 is more than the
V notch v 14 on double section tube 3, v notch v 14 on two telescoping tubes 1 is towards opposite;
The telescopic rotating shaft is for two and identical, is separately positioned in two telescoping tubes 1, and telescopic rotating shaft is used for driving flexible
Pipe 1 is flexible, and the circular motion of telescopic rotating shaft is converted into the linear motion of telescoping tube;Single telescopic rotating shaft includes the first nodal axisn 15
It is cylinder per nodal axisn appearance with the second nodal axisn 16, it is per nodal axisn equal length and equal with every section length of tube, the second nodal axisn 16
Cross section is more than the cross section of the first nodal axisn 15, and the second nodal axisn 16 is hollow structure, and hollow 22 cross section is regular polygon, often
The axle body of nodal axisn is equipped with external screw thread 21,20 phase of internal thread of the external screw thread 21 and 3 upper sealing plate 17 of double section tube of the first nodal axisn 15
Cooperation, the external screw thread 21 of the second nodal axisn 16 are matched with the internal thread 20 of 4 upper sealing plate 17 of three-joint pipe, make the external screw thread of every nodal axisn
21 drive the flexible of the pipe with 20 rotatable engagement of internal thread of corresponding pipe upper sealing plate 17;First nodal axisn 15 is set far from metope end
Have and match prism 18 with the second nodal axisn hollow 22, the outer diameter of prism 18 is slightly larger than the diameter of the first nodal axisn 15, prism
18 can in hollow the 22 of the second nodal axisn 16 telescopic slide but relatively unrotatable, so that the first nodal axisn 15 is passed through 18 band of prism
16 common rotation of dynamic second nodal axisn;
The driving device be used for drive telescopic rotating shaft to rotate, driving device include the clockwise and anticlockwise motor 13 being fixed on metope,
The transmission shaft 10 being connected with 13 output shaft of clockwise and anticlockwise motor, transmission shaft 10 be arranged between two the first nodal axisns 15 and with two
First nodal axisn 15 is sequentially connected, and transmission shaft 10 is enable to drive two the first nodal axisn 15 rotations simultaneously;
The sunshading board 5 includes first block of plate, 6, second blocks of plates 7, third block plate 8, between the length and two telescoping tubes of three blocks of plates
Distance it is corresponding, the width of three blocks of plates often saves that the length of pipe is corresponding, and first block of plate 6 is fixed at two with telescoping tube
Between one section pipe 2, second block of plate 7 passes through article v notch v 14 of two first segment pipes 2 to be fixedly connected with two double section tubes 3, the
Three blocks of plates 8 pass through article v notch v 14 of two double section tubes 3 to be fixedly connected with two three-joint pipes 4;
The meteorology parameter collector 11 is for acquire the meteorological parameter information for influencing sunshading board 5 and stretching, and by the information of acquisition
Pass to controller 12;The meteorology parameter collector 11 includes luminosity sensor, air-temperature sensor;The luminosity sensor,
Air-temperature sensor acquires intensity of illumination, temperature height respectively, and collected parameter is passed to control through signal transmission line
Device 12;
The controller 12 is arranged indoors, and controller 12 is used to receive intensity of illumination, the gas that meteorological parameter collector 11 exports
Warm height parameter, controller 12 carries out analyzing processing to the parameter received, when analysis and processing result reaches preset value, control
Device 12 starts clockwise and anticlockwise motor and rotates forward or rotate backward;The controller 12 include control circuit board, motor drive module,
Microcontroller, key-press module;The controller 12 is equipped with automatic control mode and MANUAL CONTROL mode, under automatic control mode,
Control priority orders are temperature, luminosity, and under any circumstance, it is all the first priority to manually control;
The power supply is used for providing electric energy to whole device, and power supply includes solar panel 9 and is connected with solar panel 9
The accumulator connect, wherein solar panel 9 are arranged on first block of plate 6, accumulator setting in the controller 12 and with control
Device 12 processed is connected, and solar panel 9 includes the first EVA layer for being bonded in first piece of 6 upper surface of plate, is arranged in the first EVA
The second EVA layer in solar cell on piece, the photic zone that is arranged on the second EVA layer is arranged in solar battery sheet on layer,
The thin grid line and the main gate line perpendicular with thin grid line that the plural item of solar cell on piece setting is mutually parallel, adjacent two thin grid line
End alternately connect short grid line successively and form S type grid lines.
Further, according to same principle, according to actual conditions, 1 joint number of the telescoping tube can be more than three sections, telescopic rotating shaft section
Number, which can be more than two sections, 5 block number of sunshading board, can be more than three pieces, and 1 number of the telescoping tube can be more than two.
Further, hollow 22 cross section of second nodal axisn 16 is regular hexagon, and the prism 18 is hexagonal prism.
Further, the sunshading board 5 is followed successively by heat-sink shell, the first hard PU foaming layers, steel screen layer, second from top to bottom
Hard PU foaming layers, tissue layer.
Further, in order to increase 5 hardness of sunshading board, 5 cross section of the sunshading board is sine curve;In order to increase solar energy
Solar panel heat-absorbent surface, assembles solar radiation, and 9 cross section of the solar panel is consistent with sunshading board cross section.
Further, the luminosity sensor is photodiode, and the air-temperature sensor is temperature sensing chip
DS18B20。
Further, the motor drive module is motor drive ic L298N, and the microcontroller is HT46F49E monolithics
Machine.
The course of work of the present invention is:The meteorological acquisition of parameter collector 11 influences the meteorological parameter information of telescoping visor, and
The information of acquisition is passed into controller 12, controller 12 carries out analyzing processing to the parameter received, works as analysis and processing result
When reaching preset value, controller 12 starts motor 13 and rotates forward or rotate backward, when motor 13 rotates forward, 13 band of motor
Dynamic transmission shaft 10 rotates forward, and transmission shaft 10 drives the first nodal axisn 15 to rotate forward, the external screw thread 21 and second of the first nodal axisn 15
Internal thread 20 on section 3 sealing plate 17 of pipe, which matches, drives double section tube 3 protruding, and double section tube 3 drives the second nodal axisn 16 1
It rises protruding;Meanwhile the first prism 18 on nodal axisn 15 drives the rotation of the second nodal axisn 16, the external screw thread 21 of the second nodal axisn 16
It is protruding that driving three-joint pipe 4 is matched with the internal thread 20 on 4 sealing plate 17 of three-joint pipe, is arranged in two double section tubes 3
Second block of plate 7 on side and the third block plate 8 that is arranged on two 4 sides of three-joint pipe are in double section tube 3 and three-joint pipe 4
It drives lower gradually protruding;Same reason, when motor 13 rotates backward, two telescoping tubes 1 are shunk simultaneously, are arranged two
Second block of plate 7 on a 3 side of double section tube and the third block plate 8 that is arranged on two 4 sides of three-joint pipe are in double section tube 3
Gradually to contract under being driven with three-joint pipe 4.
Claims (7)
1. a kind of device for building window sunshade, it is characterized in that:The device includes telescoping tube, telescopic rotating shaft, driving dress
It sets, sunshading board, meteorological parameter collector, controller, power supply;
The telescoping tube is for two and identical, is separately fixed at metope both sides above door and window, and two telescoping tubes are in dip down
Ramp-like, single telescoping tube includes first segment pipe, double section tube, three-joint pipe, and double section tube can be slided in first segment inner telescoping tube,
Three-joint pipe can be in the second section inner telescoping tube sliding, and often section length of tube is equal, often saves pipe cross-sectional shape and is all square, and second
Section pipe and three-joint pipe are equipped with sealing plate close to metope end, are designed with circular hole at sealing plate center, the circular hole of three-joint pipe upper sealing plate is big
In the circular hole of double section tube upper sealing plate, circular-hole internal-wall is equipped with internal thread, is set on a side wall of first segment pipe and double section tube
There is a v notch v, article v notch v on first segment pipe is more than article v notch v on double section tube, and the bar shaped on two telescoping tubes lacks
Mouth is towards relatively;
The telescopic rotating shaft is for two and identical, is separately positioned in two telescoping tubes, and telescopic rotating shaft is used for driving flexible
Pipe is flexible, and the circular motion of telescopic rotating shaft is converted into the linear motion of telescoping tube;Single telescopic rotating shaft include the first nodal axisn and
Second nodal axisn is cylinder per nodal axisn appearance, per nodal axisn equal length and, the cross section of second nodal axisn equal with every section length of tube
More than the cross section of the first nodal axisn, the second nodal axisn is hollow structure, and hollow cross-section is regular polygon, on the axle body of every nodal axisn
Equipped with external screw thread, the external screw thread of the first nodal axisn is matched with the internal thread of double section tube upper sealing plate, the external screw thread of the second nodal axisn with
The internal thread of three-joint pipe upper sealing plate matches, and makes the internal thread rotatable engagement of the external screw thread and corresponding pipe upper sealing plate of every nodal axisn
To drive the flexible of the pipe;First nodal axisn far from metope end be equipped with the hollow prism that matches of the second nodal axisn, prism it is outer
Diameter is slightly larger than the diameter of the first nodal axisn, and prism physical efficiency makes the in the hollow interior telescopic slide of the second nodal axisn but relatively unrotatable
One nodal axisn can drive the second nodal axisn common rotation by prism;
The driving device be used for drive telescopic rotating shaft to rotate, driving device include the clockwise and anticlockwise motor being fixed on metope, with
The transmission shaft that clockwise and anticlockwise motor output shaft is connected, transmission shaft are arranged between two the first nodal axisns and are passed with two the first nodal axisns
Dynamic connection enables transmission shaft to drive two first segment shaft rotations dynamic simultaneously;
The sunshading board include first block of plate, second block of plate, third block plate, between the length and two telescoping tubes of three blocks of plates away from
From corresponding, the width of three blocks of plates often saves that the length of pipe is corresponding, and first block of plate is fixed at two first segments with telescoping tube
Between pipe, second block of plate passes through article v notch v of two first segment pipes to be fixedly connected with two double section tubes, and third block plate passes through
Article v notch v of two double section tubes is fixedly connected with two three-joint pipes;
The meteorology parameter collector is used to acquire the meteorological parameter information for influencing telescoping visor, and the information of acquisition is transmitted
To controller;The meteorology parameter collector includes luminosity sensor, air-temperature sensor;The luminosity sensor, temperature sensing
Device acquires intensity of illumination, temperature height respectively, and collected parameter is passed to controller through signal transmission line;
Indoors, controller is used to receive the intensity of illumination of meteorological parameter collector output, temperature height for the controller setting
Parameter, controller carries out analyzing processing to the parameter received, and when analysis and processing result reaches preset value, controller starts just
Reversion motor is rotated forward or is rotated backward;The controller includes control circuit board, motor drive module, microcontroller, button
Module;The controller is equipped with automatic control mode and MANUAL CONTROL mode, under automatic control mode, controls priority orders
It is temperature, luminosity, under any circumstance, it is all the first priority to manually control;
The power supply is used for providing electric energy to whole device, and power supply includes solar panel and is connected with solar panel
Accumulator, wherein solar panel be arranged on first block of plate, accumulator be arranged in controller and with controller phase
Connection, solar panel includes the first EVA layer for being bonded in first piece of plate upper surface, the sun being arranged on the first EVA layer
Can cell piece, the second EVA layer in solar cell on piece, the photic zone that is arranged on the second EVA layer, solar cell are set
The thin grid line and the main gate line perpendicular with thin grid line that the plural item of on piece setting is mutually parallel, the end of adjacent two thin grid line is successively
Alternating connects short grid line and forms S type grid lines.
2. a kind of device for building window sunshade according to claim 1, it is characterized in that:The telescoping tube joint number energy
Can be more than two sections, sunshading board block number more than three sections, telescopic rotating shaft joint number can be more than three pieces, and the telescoping tube number can be more than two
It is a.
3. a kind of device for building window sunshade according to claim 1, it is characterized in that:In second nodal axisn
Empty cross section is regular hexagon, and the prism is hexagonal prism.
4. a kind of device for building window sunshade according to claim 1, it is characterized in that:The sunshading board from up to
Under be followed successively by heat-sink shell, the first hard PU foaming layers, steel screen layer, the second hard PU foaming layers, tissue layer.
5. a kind of device for building window sunshade according to claim 1, it is characterized in that:The sunshading board cross section
For sine curve;The solar panel cross section is consistent with sunshading board cross section.
6. a kind of device for building window sunshade according to claim 1, it is characterized in that:The luminosity sensor is
Photodiode, the air-temperature sensor are temperature sensing chip DS18B20.
7. a kind of device for building window sunshade according to claim 1, it is characterized in that:The motor drive module
For motor drive ic L298N, the microcontroller is HT46F49E microcontrollers.
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CN201810189838.8A CN108590055A (en) | 2018-03-08 | 2018-03-08 | A kind of device for building window sunshade |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
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CN109098361A (en) * | 2018-09-29 | 2018-12-28 | 合肥工业大学 | One kind being suitable for the adjustable skylight solar protection devices of traditional residence |
CN114439285A (en) * | 2021-12-29 | 2022-05-06 | 青岛腾远设计事务所有限公司 | Lighting and shading integrated classroom module |
CN115072499A (en) * | 2022-06-30 | 2022-09-20 | 国网四川省电力公司攀枝花供电公司 | Universal telescopic cloth curtain device |
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CN202248595U (en) * | 2011-10-19 | 2012-05-30 | 河北工业大学 | Automatic adjustable sunshading board for building |
CN104290568A (en) * | 2013-07-15 | 2015-01-21 | 常州市沃斯通美机械有限公司 | Visor |
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CN204983444U (en) * | 2015-07-20 | 2016-01-20 | 上海水石建筑规划设计有限公司 | Integrated solar balcony fence |
CN105952076A (en) * | 2016-07-09 | 2016-09-21 | 潜山共同创网络科技有限公司 | Computer controlled balcony shielding device |
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Application publication date: 20180928 |