CN205195626U - Intelligence of scene mating type chases after a day power supply system - Google Patents

Abstract

The utility model discloses an intelligence of scene mating type chases after a day power supply system, including solar energy module, wind power generation module, cylinder pole (12), control and power management component (17) and battery (16), the solar energy module passes through main tributary hack lever (10) and is connected with horizontal direction ring rail (9) that set up in being close to cylinder pole (12) top to drive through horizontal X axle motion (6) move along ring rail main tributary hack lever (10), cylinder pole (12) still are provided with the vertical direction guide rail that takes off and land, the vertical direction guide rail up -and -down motion that takes off and land can be followed to vertical direction guide rail and horizontal direction ring rail (9) the intercommunication that takes off and land, main tributary hack lever (10) under perpendicular Y axle takes off and land the drive of mechanism. The utility model discloses can suit the angle and reduce its height according to weather and automatic convert the solar energy electroplax into of battery situation to reach and effectively avoid the strong wind and heavy rain and protect the mesh of solar energy electroplax.

Description

A kind of intelligent solar tracking electric power system of honourable mating type

Technical field

The utility model relates to the technical field of photovoltaic power generation utilizing solar energy and wind power generation, particularly relates to a kind of intelligent solar tracking electric power system of honourable mating type.

Background technology

Along with socioeconomic development, the depletion rate of the energy and resource is more and more faster.Energy savings, protection of the environment has become the necessary condition of human kind sustainable development, and the attentiveness of people is just turning to utilization and the exploitation of the renewable energy resources, solar power generation to become the fastest technology of global evolution.

Existing intelligence day by day electric power system art solutions is all generally based on one piece of solar panels, the transducer detecting illuminance, and control according to the illuminance detected the such Combination Design of motor that solar panels rotate, but do not consider wind power generation plant to combine, like this when illumination deficiency, will there is the situation of obvious electricity shortage in existing intelligent solar tracking electricity generation system; Even if when illuminance is more sufficient, depends merely on a limited number of solar energy electroplax and power and can not guarantee to meet compared with the power demands of multi-user.

In addition, existing intelligence is electric power system anti-strong wind heavy rain ability day by day, especially for coastal Heavy Rain of Typhoon hotspot or field high mountain strong wind area, the weather resistant ability of existing intelligence electric power system is day by day very limited, meets with strong wind and heavy rain sky and easily damages.

Utility model content

The purpose of this utility model will overcome the deficiencies in the prior art exactly, provides one to resist bad weather, the intelligent solar tracking electric power system of honourable mating type.

For solving above technical problem, the technical scheme that the utility model adopts is: a kind of intelligent solar tracking electric power system of honourable mating type, comprise solar modules, wind power generation module, cylindrical bar, control and power management component and storage battery, described solar modules is connected with the horizontal direction ring-shaped guide rail be arranged at close to cylindrical bar top by main support bar, and drives described main support bar annularly guide rail movement by horizontal X shaft movement mechanism;

Described cylindrical bar is also provided with vertical direction landing guide rail, and described vertical direction landing guide rail is communicated with horizontal direction ring-shaped guide rail, and main support bar can vertically move up and down by landing guide rail under vertical Y axle plays the drive of descending mechanism;

When described control and power management component detect by the transducer be arranged in solar modules and wind power generation module bad weathers such as occurring strong wind sleet, level of control X-axis motion drives described main support bar to move to vertical direction landing guide rail and horizontal direction ring-shaped guide rail junction, and by vertical Y axle rise descending mechanism by the main support bar being connected with solar modules vertically landing guide rail put down;

When solar modules can be put down by described storage battery, wind power generation module sends electric energy and stores, and for providing electric power when again rising solar modules.

Further, described solar modules comprises frame support, is arranged at solar energy electroplax, light sensor and humidity sensor on described frame support.

Further, described light sensor and humidity sensor are multiple, and are arranged in frame support surrounding formation array respectively.

Further, described solar modules also comprises a scalable adjustment support, is connected, for the angle of inclination of adjusting edge frame bracket with main support bar and frame support.

Further, described vertical Y axle plays the landing rope that descending mechanism comprises vertical Y axle landing motor and is connected with main support bar.

Further, described wind power generation module comprises wind-driven generator 8 and air velocity transducer.

Further, described storage battery is also provided with electric power detection unit, the signal that described control and power management component can send according to electric power detection unit, regulates solar modules working method.

Further, described cylindrical bar top is provided with lightning rod.

The utility model design consideration have employed humidity sensor and wind-force detection means, can automatically identify rainy weather and strong wind weather, when rainy day or strong wind weather, solar energy electroplax can be automatically converted to proper angle and reduce its height by system under corresponding mechanical structure drives, and effectively hides strong wind and heavy rain and the object of protecting solar energy electroplax to reach; Meanwhile, also automatically rotating solar panels to suitable location when electricity is sufficient, avoiding solar panels when without the need to generating electricity also to want front to accept day with high temperature photograph, can useful life of effective extension device.

Accompanying drawing explanation

Fig. 1 is the structural representation of the intelligent solar tracking electric power system of a kind of honourable mating type of the utility model;

Fig. 2 is the system connection diagram of the intelligent solar tracking electric power system of a kind of honourable mating type of the utility model;

In figure: 1-light sensor; 2-humidity sensor; 3-solar energy electroplax; 4-frame support; The scalable adjustment support of 5-; 6-horizontal X shaft movement mechanism; 7-lightning rod; 8-wind-driven generator; 9-horizontal direction ring-shaped guide rail; 10-main support bar; 11-vertical direction landing guide rail; 12-cylindrical bar; 13-landing rope; 14-distribution mainframe box; 15-vertical Y axle landing motor; 16-storage battery; 17-controls and power management component.

Embodiment

Below in conjunction with accompanying drawing, execution mode of the present utility model is further described.

As shown in Figure 1, a kind of intelligent solar tracking electric power system of honourable mating type, comprise solar modules, wind power generation module, cylindrical bar 12, control and power management component 17 and storage battery 16, described solar modules is connected with the horizontal direction ring-shaped guide rail 9 be arranged at close to cylindrical bar 12 top by main support bar 10, and drives described main support bar 10 annularly guide rail movement by horizontal X shaft movement mechanism 6;

Described cylindrical bar 12 is also provided with vertical direction landing guide rail 11, and described vertical direction landing guide rail is communicated with horizontal direction ring-shaped guide rail 9, and main support bar 10 can vertically move up and down by landing guide rail under vertical Y axle plays the drive of descending mechanism;

When described control and power management component 17 detect by the transducer be arranged in solar modules and wind power generation module bad weathers such as occurring strong wind sleet, level of control X-axis motion 6 drives described main support bar 10 to move to vertical direction landing guide rail 11 and horizontal direction ring-shaped guide rail 9 junction, and by vertical Y axle rise descending mechanism by the main support bar 10 being connected with solar modules vertically landing guide rail put down;

When solar modules can be put down by described storage battery 16, wind power generation module sends electric energy and stores, and for providing electric power when again rising solar modules.

Described solar modules comprises frame support 4, be arranged at the solar energy electroplax 3 on described frame support 4, surrounding is distributed with four light sensors 1 and two each and every one humidity sensors 2 form array, whether the position relative to solar energy electroplax 3 and the current weather that effectively can detect the sun are the rainy day, regulate horizontal X shaft movement mechanism 6 and Y-axis landing institution staff in conjunction with wind sensor.

Scalable adjustment support 5 is connected with main support bar 10 and frame support 4, makes to be regulated to be set to by solar energy electroplax 3 at ordinary times to become 30-45 degree horn shape state with horizontal plane.

Vertical Y axle plays the landing rope 13 that descending mechanism comprises vertical Y axle landing motor 15 and is connected with main support bar 10, during work vertical Y axle landing motor 15 drive landing rope 13 by main support bar 10 vertically landing guide rail put down or rise.

Described cylindrical bar 12 top is also provided with lightning rod 7.

The comparatively complete system works execution mode of the utility model as shown in Figure 2, light sensor arrays detects intensity of illumination, the signal provided can inform the orientation of the current sun of controller relative to solar panel place, such controller just can control X-axis mechanism and scalable adjustment support motion through driver element, drive solar energy electroplax, thus make solar energy electroplax remain just to the orientation of the sun, ensure that solar energy receiving efficiency is the highest.Meanwhile, also can solar panels be made when storage battery is full of electricity to avoid vertical sunshine, the Aging Damage caused vertical sunshine to prevent unnecessary high temperature, extend system useful life.

Whether humidity sensor and air velocity transducer induction detect is rainy day and strong wind, there is provided humidity, wind speed measurement signal to controller, if rainy or strong wind detected, then controller is through driver element control X, Y-axis mechanism and scalable adjustment support motion, solar energy electroplax is turned to minimum angles of drenching with rain, and lower, prevent impaired for solar energy electroplax in strong wind and heavy rain sky.

Wind-driven generator 8 is as the supplementary unit of generating, natural wind resource can be made full use of, there is provided more sufficient energy source to native system, can be also charge in batteries when solar modules is put down for a long time can rise solar modules more simultaneously.

Electric energy from solar energy electroplax or wind-driven generator charges a battery after Power Management Unit voltage stabilizing, and the electrical power storage that generating at ordinary times gets is in storage battery, and when needing electricity consumption, storage battery is powered to load equipment via Power Management Unit.Meanwhile, electric power detection unit is responsible for detecting storage battery current power state, and detection limit is informed controller, and the storage battery current electric quantity value of detection is sent to battery capacity indication unit by controller unit; Battery capacity indication unit can be red green LED light, and green light represents that current system can normal power supply, and red light represents that system accumulator electric-quantity is too low, suspends power supply.

The utility model specific embodiment is in sum only the utility model preferred embodiment, is not intended to limit the restriction of this real scope.Therefore, any do within technical characteristic of the present utility model change, modification, substitute, combination or simplify, all should be equivalence substitute mode, be included within protection range of the present utility model.

Claims (8)

1. An intelligent sun-tracking power supply system combining scenery and scenery, comprising a solar module, a wind power generation module, a cylindrical rod (12), a control and power management assembly (17) and a storage battery (16), characterized in that the The solar module is connected with the horizontal circular guide rail (9) arranged on the top of the cylindrical rod (12) through the main support rod (10), and drives the main support rod (10) along the circular guide rail movement; The cylindrical rod (12) is also provided with a vertical take-off and landing guide rail (11), and the vertical take-off and landing guide rail communicates with the horizontal direction circular guide rail (9). Driven to move up and down along the vertical take-off and landing guide rail; When the control and power management component (17) detects severe weather such as heavy wind, rain and snow through the sensors arranged in the solar module and the wind power generation module, control the horizontal X-axis movement mechanism (6) to drive the main support The rod (10) moves to the joint between the vertical take-off and landing guide rail (11) and the horizontal circular guide rail (9), and lifts the main support rod (10) connected with the solar module vertically through the vertical Y-axis take-off and landing mechanism. Drop down the guide rail; The storage battery (16) can store the electric energy generated by the wind power generation module when the solar module is put down, and provide power for raising the solar module again. 2. A wind-solar combined intelligent sun-tracking power supply system according to claim 1, characterized in that, the solar module includes a frame support (4), and the solar power set on the frame support (4) plate (3), light sensor (1) and humidity sensor (2). 3. A wind-solar combined intelligent solar tracking power supply system according to claim 2, characterized in that there are multiple photosensitive sensors (1) and humidity sensors (2), which are respectively arranged on the frame support (4 ) form an array around it. 4. A solar-solar-intelligent solar tracking power supply system according to claim 3, characterized in that the solar module further comprises a telescopic adjustable bracket (5), which is connected with the main bracket rod (10) and the frame The bracket (4) is connected to adjust the inclination angle of the frame bracket (4). 5. The intelligent sun-tracking power supply system according to claim 1, characterized in that, the vertical Y-axis take-off and landing mechanism includes a vertical Y-axis take-off and landing motor (15) and a main support rod (10 ) connected landing rope (13). 6 . The solar-solar-integrated intelligent solar tracking power supply system according to claim 1 , wherein the wind power generation module includes a wind power generator ( 8 ) and a wind speed sensor. 7 . 7. The intelligent solar-tracking power supply system combining wind and scenery according to claim 1, characterized in that the storage battery (16) is provided with a power detection unit, and the control and power management components can be sent according to the power detection unit signal to adjust the working mode of the solar module. 8. The wind-solar-integrated intelligent sun-tracking power supply system according to any one of claims 1-7, characterized in that a lightning rod (7) is arranged on the top of the cylindrical rod (12).