CN207867353U - Photovoltaic flagpole - Google Patents

Abstract

The utility model is about photovoltaic flagpole.The photovoltaic flagpole includes：The body of rod；Rotary components are located at body of rod outer wall, are rotated around the axle center of the body of rod；Photovoltaic chipset is located at rotary components surface.The technical solution is not only not necessarily to occupy additional surface area, the incident angle that sunlight is radiated on photovoltaic chipset can also be adjusted, it is preferable incident angle to make it, ensure that the radiation reception amount of photovoltaic chipset is met the requirements, to improve the working efficiency of photovoltaic chipset, user experience is improved.

Description

Photovoltaic flagpole

Technical field

The utility model is related to flagpole technical field more particularly to photovoltaic flagpoles.

Background technology

Flag is the symbol and mark of state-owned unit, and people lift flag usually using flagpole in public places.With section The development of skill, flagpole are generally included there are the equipment of power demand, such as the motor of automatic lifting flag, are played national anthem and used Stereo set etc..In the related technology, one group of photovoltaic chipset can be fixedly installed near flagpole, and by the photovoltaic chipset It is electrically connected, achievees the purpose that power supply for electrical equipment with the electrical equipment on flagpole.Although said program can make photovoltaic flagpole On electrical equipment work under the premise of powering without external equipment, but since the photovoltaic chipset of fixed setting not only needs It occupies additional surface area to be installed, it is preferable to be also unable to ensure the incident angle that sunlight is radiated on photovoltaic chipset Incident angle reduce the working efficiency of photovoltaic chipset to reduce the radiation reception amount of photovoltaic chipset.

Utility model content

To overcome the problems in correlation technique, the embodiments of the present invention provide a kind of photovoltaic flagpole.Technical side Case is as follows：

Embodiment according to the present utility model in a first aspect, provide a kind of photovoltaic flagpole, including：

The body of rod；

Rotary components are located at body of rod outer wall, are rotated around the axle center of the body of rod；

Photovoltaic chipset is located at rotary components surface.

In one embodiment, the body of rod includes upper body of rod, frustum cone structure and lower body of rod；

The diameter of upper body of rod is less than the diameter of lower body of rod, and the upper bottom surface of frustum cone structure is connect with upper body of rod, frustum cone structure Bottom surface is connect with lower body of rod, side outer wall setting of the rotary components along frustum cone structure.

In one embodiment, photovoltaic flagpole further includes：

Accumulator, accumulator are electrically connected with photovoltaic chipset.

In one embodiment, photovoltaic flagpole further includes：

Rotary drive motor is located in the body of rod, and rotary drive motor is electrically connected with accumulator, and connects with rotary components It connects, for driving rotary components to rotate.

In one embodiment, photovoltaic flagpole further includes：

Lighting angle sensor, for obtaining direction of illumination information；

Rotation control unit is electrically connected with lighting angle sensor and rotary drive motor；For according to illumination Directional information sends rotation control signal to rotary drive motor, to control the rotation angle of rotary drive motor.

In one embodiment, photovoltaic flagpole further includes：

Driving motor is lifted, is electrically connected with accumulator；

Upside fixed pulley is located at the top of the body of rod；

Downside fixed pulley is located at the bottom of the body of rod；It connect with lifting driving motor, turns under the driving of lifting driving motor It is dynamic；

Rope is used cooperatively with upside fixed pulley and downside fixed pulley；Rope is for hanging flag, in downside fixed pulley Drive under move.

In one embodiment, photovoltaic flagpole further includes：

Environmental information sensor, for the environmental information of environment where obtaining photovoltaic flagpole, environmental information includes precipitation At least one of and in wind speed；

Elevating control unit is electrically connected with lifting driving motor and environmental information sensor, for according to environmental information control System lifting driving motor movement stops, and controls the direction of motion of lifting driving motor.

In one embodiment, photovoltaic flagpole further includes：

Position sensor is located at the outer wall of the body of rod, is electrically connected with elevating control unit, is suspended on rope for obtaining The location information of flag；

Elevating control unit is additionally operable to control the movement of lifting driving motor according to location information or stop.

In one embodiment, the body of rod includes：

Air outlet is located at the top of the body of rod；

Air inlet；

Air duct is located in the body of rod, for air outlet and air inlet to be connected；

Photovoltaic flagpole further includes：

Hair-dryer is located in air duct, for driving flowing of the air in air duct；

Blowing control unit, is electrically connected with environmental information sensor and hair-dryer, for according to environmental information control Blower operation processed or stopping.

In one embodiment, photovoltaic flagpole further includes：

Communication unit is electrically connected with lifting driving motor, for according to receiving from external control signal, control to rise It drops driving motor movement or stops, and control lifts the direction of motion of driving motor.

In one embodiment, communication unit is also electrically connected with environmental information sensor, is used for according to environmental information, outward The control device in portion sends warning message.

The photovoltaic flagpole provided in the technical solution that the embodiments of the present invention provide, including：The body of rod, rotary components with And photovoltaic chipset, wherein rotary components are located at body of rod outer wall, are rotated around the axle center of the body of rod；Photovoltaic chipset is located at rotation Assembly surface.Since photovoltaic chipset can follow rotary components to be rotated around the axle center of the body of rod, the photovoltaic chipset is not But without occupying additional surface area, additionally it is possible to adjust the incident angle that sunlight is radiated on photovoltaic chipset, make it be Preferable incident angle, it is ensured that the radiation reception amount of photovoltaic chipset is met the requirements, to improve the work of photovoltaic chipset Efficiency improves user experience.

It should be understood that above general description and following detailed description is only exemplary and explanatory, not The utility model can be limited.

Description of the drawings

The drawings herein are incorporated into the specification and forms part of this specification, and shows and meets the utility model Embodiment, and for explaining the principles of the present invention together with specification.

Fig. 1 a are the structural schematic diagrams according to the photovoltaic flagpole shown in an exemplary embodiment；

Fig. 1 b are the vertical views according to the photovoltaic flagpole shown in an exemplary embodiment；

Fig. 2 is the structural schematic diagram according to the photovoltaic flagpole shown in an exemplary embodiment；

Fig. 3 is the structural schematic diagram according to the photovoltaic flagpole shown in an exemplary embodiment；

Fig. 4 a are the structural schematic diagrams according to the photovoltaic flagpole shown in an exemplary embodiment；

Fig. 4 b are the vertical views according to the photovoltaic flagpole shown in an exemplary embodiment；

Fig. 5 is the structural schematic diagram according to the photovoltaic flagpole shown in an exemplary embodiment；

Fig. 6 is the structural schematic diagram according to the photovoltaic flagpole shown in an exemplary embodiment；

Fig. 7 is the structural schematic diagram according to the photovoltaic flagpole shown in an exemplary embodiment；

Fig. 8 is the structural schematic diagram according to the photovoltaic flagpole shown in an exemplary embodiment；

Fig. 9 is the structural schematic diagram according to the photovoltaic flagpole shown in an exemplary embodiment；

Figure 10 is the structural schematic diagram according to the photovoltaic flagpole shown in an exemplary embodiment.

Specific implementation mode

Example embodiments are described in detail here, and the example is illustrated in the accompanying drawings.Following description is related to When attached drawing, unless otherwise indicated, the same numbers in different drawings indicate the same or similar elements.Following exemplary embodiment Described in embodiment do not represent all embodiments consistent with the utility model.On the contrary, they be only with such as The example of the consistent device and method of some aspects be described in detail in the appended claims, the utility model.

Flag is the symbol and mark of state-owned unit, and people lift flag usually using flagpole in public places.In recent years, Setting there are power demand is generally included with the high speed development and people's living standards continue to improve, flagpole of science and technology It is standby, such as the motor of automatic lifting flag, play the stereo set etc. that uses of national anthem.

To solve the above-mentioned problems, the photovoltaic flagpole provided in the technical solution that the embodiments of the present invention provide, packet It includes：The body of rod, rotary components and photovoltaic chipset, wherein rotary components are located at body of rod outer wall, are rotated around the axle center of the body of rod；Light Chipset is lied prostrate, rotary components surface is located at.Since photovoltaic chipset can follow rotary components to be rotated around the axle center of the body of rod, because This photovoltaic chipset is not only not necessarily to occupy additional surface area, additionally it is possible to adjust sunlight and be radiated on photovoltaic chipset Incident angle, it is preferable incident angle to make it, it is ensured that the radiation reception amount of photovoltaic chipset is met the requirements, to improve light The working efficiency for lying prostrate chipset, improves user experience.

The embodiments of the present invention provide a kind of photovoltaic flagpole, and as shown in Fig. 1 a and Fig. 1 b, photovoltaic flagpole 100 wraps Include the body of rod 101, rotary components 102 and photovoltaic chipset 103.Wherein rotary components 102 are located at 101 outer wall of the body of rod, surround bar The axle center of body 101 rotates；Photovoltaic chipset 103 is located at 102 surface of rotary components.

Illustratively, photovoltaic chipset can be include at least one flexible thin film photovoltaic's chip.Wherein fexible film light Volt chip is sealed to form using fexible film electricity generation material through blocking water, and has the characteristics that frangible, vibration resistance and impact, has dim light Power generation, wet-heat resisting, low temperature resistant performance.It photovoltaic chipset surface can also be by component protections such as fluid sealant, transparent protective layers.

Rotary components may be mounted on the sliding rail on body of rod outer wall, by being slided along the sliding rail, can make rotation Turn component to rotate around the axle center of the body of rod.

The photovoltaic flagpole provided in the technical solution that the embodiments of the present invention provide, including：The body of rod, rotary components with And photovoltaic chipset, wherein rotary components are located at body of rod outer wall, are rotated around the axle center of the body of rod；Photovoltaic chipset is located at rotation Assembly surface.Since photovoltaic chipset can follow rotary components to be rotated around the axle center of the body of rod, the photovoltaic chipset is not But without occupying additional surface area, additionally it is possible to adjust the incident angle that sunlight is radiated on photovoltaic chipset, make it be Preferable incident angle, it is ensured that the radiation reception amount of photovoltaic chipset is met the requirements, to improve the work of photovoltaic chipset Efficiency improves user experience.

In one embodiment, as shown in Fig. 2, the body of rod 101 includes upper body of rod 1011, frustum cone structure 1012 and lower body of rod 1013, the wherein diameter of upper body of rod 1011 is less than the diameter of lower body of rod 1013, the upper bottom surface 1112 and upper boom of frustum cone structure 1012 Body 1011 connects, and the bottom surface 1212 of frustum cone structure 1012 is connect with lower body of rod 1013, and rotary components 102 are along frustum cone structure 1012 The setting of side outer wall.

Since sunlight usually has certain inclination angle when being irradiated to ground, and sunlight is being irradiated to photovoltaic chipset On incidence angle closer to 90 degree, the photoelectric conversion rate of photovoltaic chipset is higher therefore by making rotary components along frustum cone structure The setting of side outer wall, sunlight incidence angle of photovoltaic chipset on being irradiated to rotary components can be made to be easier access to 90 Degree, to further improve the photoelectric conversion rate of photovoltaic chipset.

In one embodiment, as shown in figure 3, photovoltaic flagpole 100 further includes accumulator 104, accumulator 104 and photovoltaic core Piece group 103 is electrically connected.

Accumulator can put aside electric energy, make photovoltaic flagpole that can also export electric energy in the case of no sunlight illumination.

In one embodiment, as shown in Fig. 4 a and Fig. 4 b, photovoltaic flagpole 100 further includes rotary drive motor 105, rotation Turn driving motor 105 to be located in the body of rod, rotary drive motor 105 is electrically connected with accumulator 104, rotary drive motor 105 and rotation Turn the connection of component 102, for driving rotary components 102 to rotate.

It drives the rotary components to be rotated along the axle center of the body of rod by rotary drive motor, can reduce by manual drive Human cost caused by the rotary components.

In one embodiment, as shown in figure 5, photovoltaic flagpole 100 further includes lighting angle sensor 106 and rotation control Unit 107, wherein lighting angle sensor 106, for obtaining direction of illumination information, rotation control unit 107, with lighting angle Sensor 106 and rotary drive motor 105 are electrically connected；For according to direction of illumination information to rotary drive motor 105 Rotation control signal is sent, to control the rotation angle of rotary drive motor 105.

Illustratively, lighting angle sensor can be used for obtaining the direction of illumination of sunlight, and to rotation control unit Send the direction of illumination information for being used to indicate direction of illumination.Rotation control unit, for being driven to rotation according to direction of illumination information Dynamic motor sends rotation control signal.Rotary drive motor, in response to rotation control signal, driving rotary components to be along the body of rod Axle center rotation, so that angle between photovoltaic chipset and sunlight is greater than or equal to lighting angle threshold value.

By obtaining direction of illumination information by lighting angle sensor, and by rotation control unit according to direction of illumination information Sending rotation control signal to rotary drive motor can be reached with controlling the rotation angle of rotary drive motor by photovoltaic flag Bar is led automatically according to the purpose in angle of incidence of sunlight adjustment rotary components orientation reducing the rotary components described in manual drive Under the premise of the human cost of cause, it is ensured that the photoelectric conversion rate of photovoltaic chipset maximizes.

In one embodiment, as shown in fig. 6, photovoltaic flagpole 100 further includes lifting driving motor 108, upside fixed pulley 109, downside fixed pulley 110 and rope 111.Wherein, driving motor 108 is lifted, is electrically connected with accumulator 104；Surely it slides upside Wheel 109 is located at the top of the body of rod 101；Downside fixed pulley 110, is located at the bottom of the body of rod 101, and downside fixed pulley 110 drives with lifting Dynamic motor 108 connects, in being rotated by for lifting driving motor 108；Rope 111, it is fixed with upside fixed pulley 109 and downside Pulley 110 is used cooperatively, and rope 111 is moved for hanging flag under the drive of downside fixed pulley 110.

Illustratively, by driving downside fixed pulley to rotate by lifting driving motor, rope can be driven, automatic liter is reached It lowers flag the purpose of flag, to save human resources.

In one embodiment, as shown in fig. 7, photovoltaic flagpole 100 further includes：Environmental information sensor 112 and lifting Control unit 113, wherein the environmental information of environment, environmental information where environmental information sensor 112 is used to obtain photovoltaic flagpole Including at least one in precipitation and wind speed.Elevating control unit 113 is sensed with lifting driving motor 108 and environmental information Device 112 is electrically connected, and is used to control the movement of lifting driving motor 108 according to environmental information or be stopped, and controls lifting driving electricity The direction of motion of machine 108.

Illustratively, elevating control unit can be used for when environmental information meets lift requirement to lifting driving motor It sends and rises control signal, fall control signal to lifting driving motor transmission when environmental information satisfaction falls condition.Lifting Driving motor can be used for rotating to the first reference direction in response to rising control signal driving downside fixed pulley, keep downside fixed Pulley driving is suspended on the rising of the flag on rope；Driving motor is lifted, can be also used in response to falling control signal driving Downside fixed pulley is rotated to the second reference direction, makes downside fixed pulley that the flag being suspended on rope be driven to decline, the first reference Direction is opposite with the second reference direction.

By controlling the movement of lifting driving motor or stopping, and control lifting according to environmental information by elevating control unit The direction of motion of driving motor can execute the operation of flagraising, or be suitble to drop in natural environment when natural environment is suitble to hoist a flag When flag, the operation lowered flag is executed, to avoid flag from being damaged because natural environment is severe.

In one embodiment, as shown in figure 8, photovoltaic flagpole 100 further includes：Position sensor 114, wherein position sensing Device 114 is located at the outer wall of the body of rod 101, is electrically connected with elevating control unit 113, for obtaining the flag being suspended on rope 111 Location information；Elevating control unit 113 is additionally operable to control the movement of lifting driving motor 108 according to location information or stop.

By being controlled the movement of lifting driving motor according to location information by elevating control unit or being stopped, it can be ensured that flag Under the premise of position capable of being raised to, unnecessary lifting driving motor loss is reduced.

In one embodiment, as shown in figure 9, the body of rod 101 includes air outlet 1014, air inlet 1015, air duct 1016.Its Middle air outlet 1014 is located at the top of the body of rod 101；Air duct 1016 is located in the body of rod, for air outlet 1014 and air inlet to be connected 1015.Photovoltaic flagpole 100 further includes hair-dryer 115 and blowing control unit 116.

Hair-dryer 115 is located in air duct 1016, for driving flowing of the air in air duct 1016；

Blowing control unit 116, is electrically connected with environmental information sensor 112 and hair-dryer 115, for according to ring Border information control hair-dryer 115 work stops.

By controlling blower operation or stopping according to environmental information by blowing control unit, can reach in no-wind environment Lower automatic blasting, makes the purpose of flag blowing.

In one embodiment, as shown in Figure 10, photovoltaic flagpole 100 further includes：Communication unit 117, communication unit 117 with It lifts driving motor 108 to be electrically connected, for according to receiving from external control signal, control lifting driving motor 108 to be transported Dynamic or stopping, and control lift the direction of motion of driving motor 108.

By the way that by communication unit, according to receiving from external control signal, control lifting driving motor moves or stops Only, and the direction of motion for lifting driving motor is controlled, the mesh for operation of being hoisted a flag or lowered flag according to remote signal can be reached , the controllable space of photovoltaic flagpole is increased, user experience is improved

It should be noted that communication unit can also send warning message according to environmental information to external control device. By, according to environmental information, being sent warning message by communication unit to external control device, user can be made in photovoltaic flagpole Environment it is more severe when, can learn above- mentioned information by control device, facilitate user to take further measures and avoid photovoltaic Flagpole damages, so as to improve user experience.

Those skilled in the art will readily occur to this practicality after considering specification and putting into practice utility model disclosed herein Novel other embodiments.This application is intended to cover any variations, uses, or adaptations of the utility model, these Variations, uses, or adaptations follow the general principle of the utility model and include undocumented skill of the utility model Common knowledge in art field or conventional techniques.The description and examples are only to be considered as illustrative, the utility model True scope and spirit are indicated by the following claims.

It should be understood that the utility model is not limited to the accurate knot for being described above and being shown in the accompanying drawings Structure, and various modifications and changes may be made without departing from the scope thereof.The scope of the utility model is only wanted by appended right It asks to limit.

Claims (10)

1. a kind of photovoltaic flagpole, which is characterized in that including：

The body of rod；

Rotary components are located at the body of rod outer wall, are rotated around the axle center of the body of rod；

Photovoltaic chipset is located at the rotary components surface.

2. photovoltaic flagpole according to claim 1, which is characterized in that the body of rod include upper body of rod, frustum cone structure and Lower body of rod；

The diameter of the upper body of rod is less than the diameter of the lower body of rod, and the upper bottom surface of the frustum cone structure connects with the upper body of rod It connects, the bottom surface of the frustum cone structure is connect with the lower body of rod, side outer wall of the rotary components along the frustum cone structure Setting.

3. photovoltaic flagpole according to claim 1 or 2, which is characterized in that the photovoltaic flagpole further includes：

Accumulator, the accumulator are electrically connected with the photovoltaic chipset.

4. photovoltaic flagpole according to claim 3, which is characterized in that the photovoltaic flagpole further includes：

Rotary drive motor, be located at the body of rod in, the rotary drive motor is electrically connected with the accumulator, and with it is described Rotary components connect, for driving the rotary components to rotate.

5. photovoltaic flagpole according to claim 4, which is characterized in that the photovoltaic flagpole further includes：

Lighting angle sensor, for obtaining direction of illumination information；

Rotation control unit is electrically connected with the lighting angle sensor and the rotary drive motor；For basis The direction of illumination information sends rotation control signal to the rotary drive motor, to control the rotation of the rotary drive motor Gyration.

6. photovoltaic flagpole according to claim 3, which is characterized in that the photovoltaic flagpole further includes：

Driving motor is lifted, is electrically connected with the accumulator；

Upside fixed pulley is located at the top of the body of rod；

Downside fixed pulley is located at the bottom of the body of rod；It is connect with the lifting driving motor, in the lifting driving motor It is rotated by；

Rope is used cooperatively with the upside fixed pulley and the downside fixed pulley；The rope is for hanging flag, in institute It states and is moved under the drive of downside fixed pulley.

7. photovoltaic flagpole according to claim 6, which is characterized in that the photovoltaic flagpole further includes：

Environmental information sensor, for the environmental information of environment where obtaining the photovoltaic flagpole, the environmental information includes drop At least one of in water and wind speed；

Elevating control unit is electrically connected with the lifting driving motor and the environmental information sensor, for according to the ring Border information control lifting driving motor movement stops, and controls the direction of motion of lifting driving motor.

8. photovoltaic flagpole according to claim 7, which is characterized in that the photovoltaic flagpole further includes：

Position sensor is located at the outer wall of the body of rod, is electrically connected with the elevating control unit, is suspended on for acquisition described The location information of flag on rope；

The elevating control unit is additionally operable to control the lifting driving motor movement according to the positional information or stop.

9. photovoltaic flagpole according to claim 7, which is characterized in that the body of rod includes：

Air outlet is located at the top of the body of rod；

Air inlet；

Air duct is located in the body of rod, for the air outlet and the air inlet to be connected；

The photovoltaic flagpole further includes：

Hair-dryer is located in the air duct, for driving flowing of the air in air duct；

Blowing control unit, is electrically connected with the environmental information sensor and the hair-dryer, for according to the ring Border information controls the blower operation or stopping.

10. photovoltaic flagpole according to claim 6, which is characterized in that the photovoltaic flagpole further includes：

Communication unit is electrically connected with the lifting driving motor, for according to receiving from external control signal, controlling institute It states the movement of lifting driving motor or stops, and control lifts the direction of motion of driving motor.