CN205942453U - A diclinic slope activity roof control system for following tracks of sunlight - Google Patents

A diclinic slope activity roof control system for following tracks of sunlight Download PDF

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Publication number
CN205942453U
CN205942453U CN201620952010.XU CN201620952010U CN205942453U CN 205942453 U CN205942453 U CN 205942453U CN 201620952010 U CN201620952010 U CN 201620952010U CN 205942453 U CN205942453 U CN 205942453U
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CN
China
Prior art keywords
sunlight
hydraulic stem
tracks
crossbeam
control
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
Application number
CN201620952010.XU
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Chinese (zh)
Inventor
胡克用
任伟峰
任芯宁
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Hangzhou Deshang Tech Co Ltd
Hangzhou Deshang Technology Co Ltd
Original Assignee
Hangzhou Deshang Tech Co Ltd
Hangzhou Deshang Technology Co Ltd
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Publication date
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Priority to CN201620952010.XU priority Critical patent/CN205942453U/en
Application granted granted Critical
Publication of CN205942453U publication Critical patent/CN205942453U/en
Expired - Fee Related legal-status Critical Current
Anticipated expiration legal-status Critical

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Abstract

The utility model discloses a diclinic slope activity roof control system for following tracks of sunlight, including the connecting axle, solar panel, the solar energy veneer, the sunlight tracker, wind sensor, and a support, the avris hydraulic stem, middle hydraulic stem, the crossbeam, hydraulic actuator, control center, data collection station, the longitude and latitude controller, single -chip control circuit, battery and angle sensor, solar panel includes two solar energy veneers, the one end fixed connection wind sensor of connecting axle, the middle part of propping up the crossbeam is equipped with middle hydraulic stem, hydraulic actuator's one end electric connection control center, the utility model discloses the beneficial effect who reaches is: through installation sunlight tracker, carry out the accurate tracking of sunlight, improve the utilization ratio of light energy, install control center simultaneously and monitor the analysis with data acquisition, be convenient for make corresponding improvement measure, improve the generating efficiency, install wind sensor simultaneously, monitor wind -force, protect solar panel's safety.

Description

A kind of double slanted moveable roof control system for following the tracks of sunlight
Technical field
This utility model is related to a kind of control system, particularly to a kind of double slanted moveable roof for following the tracks of sunlight Control system.
Background technology
Solar energy refers to the infrared radiant energy of the sun, and main performance is exactly the sunray often said.It is typically used as sending out in the modern times Electricity or for water heater provide the energy.Since life on earth is born, the just main infrared radiant energy existence being provided with the sun, and Also understand with sun dry part from ancient human, and the method as making food, such as salt manufacturing and solarization cured fish etc..In Fossil fuel Increasingly, in the case of reducing, solar energy has become the important component part that the mankind use the energy, and is constantly developed.Solar energy Using having photothermal deformation and opto-electronic conversion two ways, solar electrical energy generation is a kind of emerging regenerative resource.Existing too The double slanted moveable roof of sunlight is difficult to follow the tracks of and generates electricity, sun light utilization efficiency bottom, and generating efficiency is low, follows the tracks of the sun simultaneously The double slanted moveable roof of light commonly encounters heavy rain of blowing, and security performance can reduce, and cannot be carried out effectively monitoring sum According to analysis it is difficult to efficiently be improved, improve generating efficiency.
Utility model content
This utility model provides a kind of double slanted moveable roof control system for following the tracks of sunlight, by installing the sun Light tracker, wind sensor, hydraulic stem, hydraulic actuating mechanism and control centre, effectively solve existing sunlight Double slanted moveable roof control system cannot improve generating efficiency, cannot be carried out imitate monitoring data analysis and cannot be effective The problem improved of carrying out.
In order to solve above-mentioned technical problem, this utility model provides following technical scheme:
A kind of double slanted moveable roof control system for following the tracks of sunlight of this utility model, including connecting shaft, the sun Can plate, solar energy veneer, sun light tracking device, wind sensor, support, avris hydraulic stem, middle hydraulic stem, crossbeam, hydraulic pressure Actuator, control centre, data acquisition unit, longitude and latitude controller, single chip machine controlling circuit, accumulator and angular transducer, Described solar panels include two described solar energy veneers, and the two ends of described connecting shaft are flexibly connected described solar panels, and Described sun light tracking device is equipped with described solar energy veneer, one end of described connecting shaft is fixedly connected described wind-force sensing Device, the lower end of described solar panels is provided with described support, and the lower end of described support is provided with described crossbeam, and two described solar energys The both sides lower end of veneer is equipped with described avris hydraulic stem, and described avris hydraulic stem is located on described crossbeam, and described crossbeam Middle part is provided with described middle hydraulic stem, and described middle hydraulic stem is connected with described connecting shaft, and liquid is installed in the lower end of described crossbeam Pressure actuator, and one end of described hydraulic actuating mechanism is electrically connected with described control centre.
As a kind of optimal technical scheme of the present utility model, described hydraulic actuating mechanism is electric power valve, and described avris Hydraulic stem and described middle hydraulic stem are all electrically connected with described hydraulic actuating mechanism.
As a kind of optimal technical scheme of the present utility model, described sun light tracking device and described wind sensor all with Described control centre is electrically connected with, and is provided with described longitude and latitude controller and described Single-chip Controlling electricity inside described control centre Road, described hydraulic actuating mechanism and described longitude and latitude controller are all electrically connected with described single chip machine controlling circuit.
As a kind of optimal technical scheme of the present utility model, described solar energy veneer is set with the junction of described connecting shaft There is described angular transducer, and described angular transducer is electrically connected with described control centre.
As a kind of optimal technical scheme of the present utility model, the lower end of described solar panels connects described accumulator, and The lower end of described solar panels connects described data acquisition unit, and described data acquisition unit is electrically connected with described control centre.
The beneficial effect that this utility model is reached is:A kind of double slanted activity for following the tracks of sunlight of this utility model Roof control system, by installing sun light tracking device, carries out sunlight and precisely follows the tracks of, and installs hydraulic stem simultaneously and executes with hydraulic pressure Mechanism, is convenient for angular adjustment, improves the utilization rate of luminous energy, installs control centre simultaneously and is monitored data collection point Analysis, is easy to make corresponding Improving Measurements, improve generating efficiency, installs wind sensor simultaneously, monitor wind-force, protect solar energy The safety of plate, this utility model effectively raises the efficiency of light energy utilization, and motility is high.
Brief description
Accompanying drawing is used for providing further understanding to of the present utility model, and constitutes a part for description, with this practicality New embodiment is used for explaining this utility model together, does not constitute to restriction of the present utility model.In the accompanying drawings:
Fig. 1 is structural representation of the present utility model;
Fig. 2 be this utility model control system structural representation;
In figure:1st, connecting shaft;2nd, solar panels;3rd, solar energy veneer;4th, sun light tracking device;5th, wind sensor;6、 Support;7th, avris hydraulic stem;8th, middle hydraulic stem;9th, crossbeam;10th, hydraulic actuating mechanism;11st, control centre;12nd, data acquisition Device;13rd, longitude and latitude controller;14th, single chip machine controlling circuit;15th, accumulator;16th, angular transducer.
Specific embodiment
Below in conjunction with accompanying drawing, preferred embodiment of the present utility model is illustrated it will be appreciated that described herein excellent Select embodiment to be merely to illustrate and explain this utility model, be not used to limit this utility model.
Embodiment
As shown in Figure 1-2, a kind of double slanted moveable roof control system for following the tracks of sunlight of this utility model, including Connecting shaft 1, solar panels 2, solar energy veneer 3, sun light tracking device 4, wind sensor 5, support 6, avris hydraulic stem 7, in Between hydraulic stem 8, crossbeam 9, hydraulic actuating mechanism 10, control centre 11, data acquisition unit 12, longitude and latitude controller 13, single-chip microcomputer Control circuit 14, accumulator 15 and angular transducer 16, solar panels 2 include two solar energy veneers 3, and the two of connecting shaft 1 End is flexibly connected and is equipped with sun light tracking device 4 on solar panels 2, and solar energy veneer 3, and one end of connecting shaft 1 is fixedly connected Wind sensor 5, the lower end of solar panels 2 is provided with support 6, and the lower end of support 6 is provided with crossbeam 9, and two solar energy veneers 3 Both sides lower end is equipped with avris hydraulic stem 7, and avris hydraulic stem 7 is located on crossbeam 9, and the middle part of crossbeam 9 is provided with middle hydraulic stem 8, and middle hydraulic stem 8 is connected with connecting shaft 1, the lower end installation hydraulic actuating mechanism 10 of crossbeam 9, and hydraulic actuating mechanism 10 One end is electrically connected with control centre 11.
Hydraulic actuating mechanism 10 is electric power valve, and avris hydraulic stem 7 and middle hydraulic stem 8 are all electric with hydraulic actuating mechanism 10 Property connect, be easy to control hydraulic stem 7 and middle hydraulic stem 8 to start.Sun light tracking device 4 and wind sensor 5 all with control The heart 11 is electrically connected with, and is provided with longitude and latitude controller 13 and single chip machine controlling circuit 14 inside control centre 11, and hydraulic pressure executes machine Structure 10 and longitude and latitude controller 13 are all electrically connected with single chip machine controlling circuit 14, longitude and latitude controller 13 be easy to directly input through Degree latitude controls.Solar energy veneer 3 is provided with angular transducer 16 with the junction of connecting shaft 1, and angular transducer 16 and control Center 11 is electrically connected with, and angular transducer 16 is used for measuring the angle of solar energy veneer 3.The lower end of solar panels 2 connects electric power storage Pond 15, and the lower end of solar panels 2 connects data acquisition unit 12, data acquisition unit 12 is electrically connected with control centre 11, collection Related data, is easy to make corresponding adjustment, improves the efficiency of light energy utilization.
Specifically, when this utility model uses, on general sunlight vertical irradiation to solar panels 2, the efficiency of light energy utilization is high, when Sunlight is irradiated on solar energy veneer 3, and sun light tracking device 4 senses sunlight irradiating angle, and control centre 11 controls startup Hydraulic actuating mechanism 10, controls avris hydraulic stem 7 to move up and down, makes solar energy veneer 3 vertical with sunlight, and install longitude and latitude Controller 13, calculates local darkness time daybreak, and adjust automatically controls, and carries out precise positioning tracking to the sun, it is to avoid because Black clouds blocks and sunlight reflection, causes sun light tracking device 4 to follow the tracks of confusion, it is to avoid control centre 11 sends false command, from And improve solar power generation efficiency, and data acquisition unit 12 effectively gathers conversion of solar energy, and pass through angular transducer 16 collection solar energy veneer 3 angle changes, came when night, and control centre 11 controls solar panels 2 to return to initial position, works as chance To heavy rain of blowing, wind sensor 5 can monitor wind-force size, once wind-force is too high, control centre 11 controls hydraulic pressure to execute by force Mechanism 10, makes solar energy veneer 3 return to initial position, and middle hydraulic stem 8 enters to shrink, and strengthens solar panels 2 monolithic stability Property.
The beneficial effect that this utility model is reached is:A kind of double slanted activity for following the tracks of sunlight of this utility model Roof control system, by installing sun light tracking device 4, carries out sunlight and precisely follows the tracks of, and installs hydraulic stem simultaneously and holds with hydraulic pressure Row mechanism 10, is convenient for angular adjustment, improves the utilization rate of luminous energy, and the control centre 11 of installation simultaneously is monitored data and adopts Set analysis, are easy to make corresponding Improving Measurements, improve generating efficiency, install wind sensor 5 simultaneously, monitor wind-force, protection The safety of solar panels 2, this utility model effectively raises the efficiency of light energy utilization, and motility is high.
Finally it should be noted that:The foregoing is only preferred embodiment of the present utility model, be not limited to this Utility model, although being described in detail to this utility model with reference to the foregoing embodiments, for those skilled in the art For, it still can be modified to the technical scheme described in foregoing embodiments, or to wherein some technical characteristics Carry out equivalent.All of the present utility model spirit and principle within, any modification, equivalent substitution and improvement made etc., all Should be included within protection domain of the present utility model.

Claims (5)

1. a kind of double slanted moveable roof control system for following the tracks of sunlight, including connecting shaft (1), solar panels (2), too Sun can veneer (3), sun light tracking device (4), wind sensor (5), support (6), avris hydraulic stem (7), middle hydraulic stem (8), crossbeam (9), hydraulic actuating mechanism (10), control centre (11), data acquisition unit (12), longitude and latitude controller (13), list Piece machine control circuit (14), accumulator (15) and angular transducer (16) are it is characterised in that described solar panels (2) include two Individual described solar energy veneer (3), and the two ends of described connecting shaft (1) are flexibly connected described solar panels (2), and described solar energy Described sun light tracking device (4) is equipped with veneer (3), one end of described connecting shaft (1) is fixedly connected described wind sensor (5), the lower end of described solar panels (2) is provided with described support (6), and the lower end of described support (6) is provided with described crossbeam (9), and The both sides lower end of two described solar energy veneers (3) is equipped with described avris hydraulic stem (7), and described avris hydraulic stem (7) is located at On described crossbeam (9), and the middle part of described crossbeam (9) is provided with described middle hydraulic stem (8), and described middle hydraulic stem (8) with Described connecting shaft (1) connects, and described hydraulic actuating mechanism (10) is installed in the lower end of described crossbeam (9), and described hydraulic pressure execution machine One end of structure (10) is electrically connected with described control centre (11).
2. a kind of double slanted moveable roof control system for following the tracks of sunlight according to claim 1, its feature exists It is electric power valve in, described hydraulic actuating mechanism (10), and described avris hydraulic stem (7) and described middle hydraulic stem (8) is equal and institute State hydraulic actuating mechanism (10) to be electrically connected with.
3. a kind of double slanted moveable roof control system for following the tracks of sunlight according to claim 1, its feature exists All it is electrically connected with described control centre (11) in, described sun light tracking device (4) and described wind sensor (5), and described It is provided with described longitude and latitude controller (13) and described single chip machine controlling circuit (14), described hydraulic pressure execution inside control centre (11) Mechanism (10) and described longitude and latitude controller (13) are all electrically connected with described single chip machine controlling circuit (14).
4. a kind of double slanted moveable roof control system for following the tracks of sunlight according to claim 1, its feature exists In described solar energy veneer (3) is provided with described angular transducer (16) with the junction of described connecting shaft (1), and described angle Sensor (16) is electrically connected with described control centre (11).
5. a kind of double slanted moveable roof control system for following the tracks of sunlight according to claim 1, its feature exists In the lower end of described solar panels (2) connects described accumulator (15), and the lower end of described solar panels (2) connects described number According to harvester (12), described data acquisition unit (12) is electrically connected with described control centre (11).
CN201620952010.XU 2016-08-24 2016-08-24 A diclinic slope activity roof control system for following tracks of sunlight Expired - Fee Related CN205942453U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201620952010.XU CN205942453U (en) 2016-08-24 2016-08-24 A diclinic slope activity roof control system for following tracks of sunlight

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201620952010.XU CN205942453U (en) 2016-08-24 2016-08-24 A diclinic slope activity roof control system for following tracks of sunlight

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN108385488A (en) * 2018-05-06 2018-08-10 吉林大学 Vehicle-mounted road surface flaw detection system verifying attachment based on varied angle crackle
CN112240072A (en) * 2019-07-17 2021-01-19 清远市德晟嘉恒能源环保工程有限责任公司 Efficient crystalline silicon solar photovoltaic power generation sunlight shed

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN108385488A (en) * 2018-05-06 2018-08-10 吉林大学 Vehicle-mounted road surface flaw detection system verifying attachment based on varied angle crackle
CN112240072A (en) * 2019-07-17 2021-01-19 清远市德晟嘉恒能源环保工程有限责任公司 Efficient crystalline silicon solar photovoltaic power generation sunlight shed

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GR01 Patent grant
CF01 Termination of patent right due to non-payment of annual fee
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20170208

Termination date: 20190824