CN117570386A - Wind-solar complementary lighting device with detection function - Google Patents

Abstract

The invention discloses a wind-solar complementary lighting device with a detection function, which comprises a foundation, wherein a pressure sensor is fixedly arranged on the top surface of the foundation, a position sensor is arranged above the pressure sensor, a pressing surface is fixedly arranged on the top surface of the position sensor, a base is fixedly arranged on the top surface of the pressing surface, a street lamp main rod is fixedly arranged on the top surface of the base, a control module is fixedly arranged on the outer wall of the street lamp main rod, a street lamp support rod is arranged above the street lamp main rod, a lamp body is fixedly arranged at the end part of the street lamp support rod, a laser sensor is fixedly arranged at the bottom of the lamp body, when the street lamp is used at night, the lamp body can perform lighting work through energy stored by a solar panel and a fan, the existing street lamp irradiation range is not convenient and fast to adjust, and when a street lamp walks to a non-irradiated pressing surface of the street lamp, the bottom of the pressing surface is influenced by pressure, so that the street lamp is extruded by the position sensor and the pressure sensor.

Description

A wind and solar complementary lighting device with detection function

Technical field

The invention relates to the field of wind-solar complementary lighting, specifically a wind-solar complementary lighting device with a detection function.

Background technique

Wind-solar hybrid is a power generation application system that uses solar cell arrays and wind turbines (converting alternating current into direct current) to store the generated electrical energy in the battery pack. When the user needs electricity, the inverter will The DC power stored in the battery pack is converted into AC power and sent to the user's load through the transmission line. Wind turbines and solar cell arrays jointly generate electricity. The wind-solar complementary lighting system has good complementary utilization characteristics of wind energy and solar energy. , which can maximize the use of solar and wind energy resources.

For example, Chinese patent CN108758513B discloses an intelligent wind-solar complementary street lamp with a detection function and high power generation efficiency. The intelligent wind-solar complementary street lamp with a detection function and high power generation efficiency is determined by the light spot position at the bottom of the detection box in the detection mechanism. The propagation direction of sunlight is convenient for the photoelectric mechanism to adjust. Compared with the existing detection mechanism, the detection mechanism has automatic dustproof and cleaning functions. Not only that, the angle and position of the solar panel are adjusted through the photoelectric mechanism so that the solar panel is in the correct position. It prevents sunlight from being blocked while improving the power generation efficiency of the photovoltaic mechanism. Compared with the existing photovoltaic mechanism, the structure of the photovoltaic mechanism is flexible and can adjust the position and direction of the solar panel, thereby improving the practicality of the equipment. .

For this structure, although the angle of the solar panel outside the wind-solar complementary lighting can be adjusted according to the spot position, the illumination position of the wind-solar complementary lighting is relatively fixed, which limits the illumination range. Therefore, we propose a method that can adjust the wind-solar complementary lighting. The irradiation angle is flexibly adjusted to make the irradiation range of the wind-solar complementary lighting lamp wider, thereby improving the use effect of the wind-solar complementary lighting lamp. It is a wind-solar complementary lighting device with a detection function.

Contents of the invention

The purpose of the present invention is to provide a wind and solar complementary lighting device with a detection function to solve the problems raised in the above background technology.

In order to solve the above technical problems, the present invention provides the following technical solution: a wind and solar complementary lighting device with a detection function, including a foundation, a pressure sensor is fixedly installed on the top surface of the foundation, and a position sensor is provided above the pressure sensor. A pressure surface is fixedly installed on the top surface of the position sensor. A base is fixedly installed on the top surface of the pressure surface. A streetlight main pole is fixedly installed on the top surface of the base. A control module is fixedly installed on the outer wall of the streetlight main pole. The streetlight main pole is fixedly installed on the top surface. A street light pole is provided above. A lamp body is fixedly installed at the end of the street light pole. A laser sensor is fixedly installed at the bottom of the lamp body. A solar panel is installed at the top of the main street light pole. A fan is installed above the solar panel. , a wire harness is fixedly installed on the outer wall of the pressure sensor, and a processing component is provided above the foundation. The processing component includes an adjustment component fixedly installed above the main pole of the street lamp. A cleaning component is provided on the outer wall of the adjustment component. The cleaning component There are disassembly and assembly components below.

According to the above technical solution, the adjustment component includes a fixed block fixedly installed on the inner wall of the street lamp main pole. An end of the fixed block away from the inner wall of the street lamp main pole is fixedly mounted with a motor. The output end of the motor is fixedly mounted with a threaded rod. The threaded A sleeve is set on the outer wall of the rod, and a sliding plate is fixedly installed on the outer wall of the sleeve. A slip ring is fixedly installed on one end of the sliding plate away from the sleeve. A rotating drum is slidably installed on the inner wall of the sliding ring, and a rotating drum is provided on the outer wall of the rotating drum. The chute, the bottom of the rotating drum is fixedly installed with teeth, the outer wall of the rotating drum is fixedly installed with a limiting ring, the outer wall of the limiting ring is rotated with a special-shaped block, and the top surface of the main street lamp pole is provided with a slot, so A blocking block is slidably provided inside the blocking slot, a limiting plate is fixedly installed at the bottom of the blocking block, and a spring is fixedly installed on the side of the limiting plate away from the blocking block.

According to the above technical solution, the cleaning assembly includes a fixed rod fixedly mounted on the outer wall of the slip ring. The outer wall of the fixed rod is rotatably connected to a connecting plate. One end of the connecting plate away from the fixed rod is hingedly connected to a card frame. The outer wall of the card frame A brush is fixedly installed, a limiting column is fixedly installed on the outer wall of the solar panel, and a support rod is fixedly installed at the bottom of the solar panel.

According to the above technical solution, the disassembly assembly includes an inclined column fixedly installed on the outer wall of the lamp. A T-shaped groove is provided on the side of the inclined column away from the lamp body. The street light pole is fixedly installed on one end away from the slip ring. T-shaped block, the outer wall of the T-shaped block is provided with a first screw hole, the outer wall of the inclined column is provided with a second screw hole, and a bolt is set inside the second screw hole.

According to the above technical solution, there are several pressure sensors, equidistantly distributed at the bottom of the pressure surface. The pressure sensors are connected to the control module through a wire harness, so that when passers-by walk to the top of the pressure surface, the pressure sensors can work. , to turn on the motor to flexibly adjust the lamp body.

According to the above technical solution, there are four clamping blocks, which are distributed around the center of the main pole of the street lamp. The outer wall of the clamping blocks is arranged in an inclined plane. The outer wall of the limiting plate and the inner wall of the clamping groove are slidingly arranged for elasticity of the spring. Under the action of the clamping block, the clamping block will spring up again after being squeezed, so that when the threaded rod is reversed, the clamping block can be used to limit the position. The limiting plate can prevent the clamping block from sliding out of the slot.

According to the above technical solution, the chute provided on the outer wall of the sliding plate and the outer wall of the rotating drum is slidably arranged, and the outer wall of the rotating drum and the inner wall of the slip ring are slidingly arranged. Under their restriction, when the rotating drum is engaged and stops rotating, the sliding plate and the chute are The sliding restriction causes the sleeve to move up and down on the outer wall of the threaded rod, driving the street light pole and the lamp body to move, thereby adjusting the height of the lamp body.

According to the above technical solution, the inner side of the card frame is slidably arranged on the outer wall of the solar panel. There are two card frames, which are symmetrically distributed with the center of the drum. Under its restriction, when the slip ring moves up and down, it drives the connecting plate to move. The connecting plate pushes the card frame to slide on the outer wall of the solar panel.

According to the above technical solution, there are eight limit posts, which are divided into two groups and are arranged in a square shape with four corners of the solar panel. They are used to prevent the frame from sliding out of the solar panel under the restrictions of the limit posts when the frame slides. outer wall.

According to the above technical solution, the outer wall of the first screw hole and the T-shaped groove opened at one end of the inclined column are slidingly arranged, and the bolt is nested inside the first screw hole. Under its restriction, the lamp body and the street lamp pole can be quickly connected. Installation is carried out, and under the action of the bolts and the second screw hole and the first screw hole, the installation of the lamp body and the street lamp pole is more stable.

Compared with the prior art, the beneficial effects achieved by the present invention are:

1. The wind-solar complementary lighting device with detection function of the present invention is composed of an adjustment component. When the street lamp is used at night, the energy stored in the solar panel and fan can be used to enable the lamp body to perform lighting work. Existing street lamps It is inconvenient to fix the irradiation range, and it needs to be adjusted. When passers-by walk to the pressure surface that is not illuminated by the street lamp, the pressure causes the bottom of the pressure surface to squeeze against the position sensor and pressure sensor, causing the position sensor to be under pressure. Through the connection The wiring harness transmits instructions to the control module, causing the control module to start the motor. When the pressure sensor finishes working, the position sensor begins to locate the position of the passerby. At this time, the motor starts to work, causing the threaded rod fixedly installed at the output end of the motor to rotate forward. Due to the rotation The teeth fixedly installed at the bottom of the barrel squeeze against the inclined surface of the clamping block, causing the clamping block to slide into the slot, so that the rotating barrel is not limited by extrusion. When the threaded rod rotates, it drives the sleeve set on its outer wall to rotate, so that The sleeve drives the skateboard fixedly installed on the outer wall to rotate, causing the slip ring fixedly installed at the end of the skateboard to rotate. The limit ring fixedly installed on the outer wall of the drum rotates internally with the special-shaped block. The slip ring drives the streetlight pole fixedly installed on the outer wall to rotate. The street light pole is rotated away from the lamp body installed at one end of the slip ring, thereby adjusting the area illuminated by the street light and avoiding the limitation of street light illumination.

2. The wind-solar complementary lighting device with detection function of the present invention is composed of an adjustment component. When the lamp body is above the head of a passerby, the position sensor stops working and the laser sensor starts working. The height of the passerby is determined based on the distance emitted by the laser. This causes the laser sensor to transmit information to the control module, causing the control module to control the motor to reverse rotation. Due to the sliding arrangement of the chute on the outer wall of the slide plate and the outer wall of the drum, the threaded rod can drive the drum to rotate when it rotates. When the drum reverses When rotating, the fixed installation teeth at the bottom of the drum are engaged with the side of the clamping block away from the inclined surface, so that the clamping block will not slide into the slot, so that the threaded rod will not drive the rotating drum to rotate when the threaded rod rotates. The sliding plate fixedly installed on the outer wall of the cylinder and the chute provided on the outer wall of the drum are slidingly arranged. At this time, the rotating threaded rod drives the sleeve set on the outer wall to move up and down. The sleeve drives the slip ring to move up and down accordingly, making the outer wall of the slip ring fixed and installed. The street lamp pole also moves accordingly, causing the street lamp pole to drive the lamp body to move up and down, making the lamp body closer to passers-by, so as to perform better lighting work.

3. The wind-solar complementary lighting device with detection function of the present invention is composed of a cleaning component. When the solar panel is in use, the solar panel needs to be cleaned to improve the energy storage effect of the solar panel. When the laser sensor prompts the slip ring When moving up and down, the slip ring drives the fixed rod fixedly installed on the outer wall to move, causing the fixed rod to push the connecting plate to move. Since the connecting plate is hingedly connected to the fixed rod, and the end of the connecting plate away from the fixed rod is hingedly connected to the frame, so that The connecting plate pushes the card frame slidingly installed on the outer wall of the solar panel to move, so that the card frame drives the brush fixedly installed on the outer wall to move, thereby cleaning the surface of the solar panel. Since the card frame is arranged in a frame shape, the card frame can be stable. It slides with the surface of the solar panel, and is limited by the limiting column to prevent the frame from sliding out of the surface of the solar panel.

4. The wind-solar complementary lighting device with detection function of the present invention is composed of disassembly and assembly components. When the lamp body needs to be repaired after being used for a long time, the control module is operated to lower the lamp body so that the maintenance personnel can perform maintenance on it. For maintenance work, take out the bolts from the second screw hole and the first screw hole, slide the inclined column out from the outer wall of the T-shaped block, and disassemble the lamp body. Since the first screw hole is set at an angle, the lamp body can be disassembled. Under the body's own gravity, it is more firmly connected with the street light pole, and combined with the bolts, the lamp body is installed more stably. This structure can achieve the effect of rapid disassembly, thereby improving the work efficiency of maintenance personnel.

Description of the drawings

The drawings are used to provide a further understanding of the present invention and constitute a part of the specification. They are used to explain the present invention together with the embodiments of the present invention and do not constitute a limitation of the present invention. In the attached picture:

Figure 1 is a schematic three-dimensional front structural view of a wind-solar complementary lighting device with detection function according to the present invention;

Figure 2 is a schematic three-dimensional structural diagram of a wind-solar complementary lighting device with detection function according to the present invention;

Figure 3 is an adjustment component diagram of a wind-solar complementary lighting device with detection function according to the present invention;

Figure 4 is a schematic connection diagram of a pressure sensor of a wind-solar complementary lighting device with detection function according to the present invention;

Figure 5 is a schematic cross-sectional view of the adjustment component of a wind-solar complementary lighting device with detection function according to the present invention;

Figure 6 is a partial exploded schematic diagram of the adjustment component of a wind-solar complementary lighting device with detection function according to the present invention;

Figure 7 is a schematic exploded view of the adjustment component of a wind-solar complementary lighting device with detection function according to the present invention;

Figure 8 is a cleaning component diagram of a wind-solar complementary lighting device with detection function according to the present invention;

Figure 9 is a schematic view of the back of the cleaning component of a wind-solar complementary lighting device with detection function according to the present invention;

Figure 10 is an exploded schematic diagram of the cleaning component of a wind-solar complementary lighting device with detection function according to the present invention;

Figure 11 is a disassembly and assembly diagram of a wind-solar complementary lighting device with detection function according to the present invention;

Figure 12 is an exploded schematic diagram of the disassembly and assembly components of a wind-solar complementary lighting device with detection function according to the present invention;

Figure 13 is a block diagram of a wind-solar complementary lighting device with detection function according to the present invention;

In the picture: 1. Foundation; 2. Pressure sensor; 3. Pressure surface; 4. Base; 5. Street light main pole; 6. Control module; 7. Processing components; 8. Street light pole; 9. Lamp body; 10. Laser sensor; 11. Solar panel; 12. Fan; 13. Position sensor; 14. Wire harness; 71. Adjustment component; 73. Cleaning component; 74. Disassembly and assembly components; 711. Fixed block; 712. Motor; 713. Threaded rod ; 714, sleeve; 715, slide plate; 716, slip ring; 717, rotating drum; 718, chute; 719, teeth; 720, limit ring; 721, special-shaped block; 722, card slot; 723, card block ; 724. Limiting plate; 725. Spring; 731. Fixed rod; 732. Connecting plate; 733. Card frame; 734. Brush; 735. Limiting column; 736. Support rod; 741. Inclined column; 742. T-shaped Slot; 743, T-shaped block; 744, first screw hole; 745, second screw hole; 746, bolt.

Detailed ways

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments are only some of the embodiments of the present invention, rather than all the embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those of ordinary skill in the art without creative efforts fall within the scope of protection of the present invention.

Example 1

A preferred embodiment of a wind-solar complementary lighting device with a detection function provided by the present invention is shown in Figures 1 to 13: a wind-solar complementary lighting device with a detection function, including a foundation 1;

A pressure sensor 2 is fixedly installed on the top surface of the foundation 1;

A position sensor 13 is provided above the pressure sensor 2;

The pressure surface 3 is fixedly installed on the top surface of the position sensor 13;

A base 4 is fixedly installed on the top surface of the pressure surface 3;

The street light main pole 5 is fixedly installed on the top surface of the base 4;

A control module 6 is fixedly installed on the outer wall of the street light main pole 5;

A streetlight support pole 8 is provided above the main streetlight pole 5;

A lamp body 9 is fixedly installed at the end of the street lamp support pole 8;

A laser sensor 10 is fixedly installed at the bottom of the lamp body 9;

A solar panel 11 is provided on the top of the street lamp main pole 5;

A fan 12 is provided above the solar panel 11;

A wire harness 14 is fixedly installed on the outer wall of the pressure sensor 2;

And the processing component 7 is arranged above the foundation 1. The processing component 7 includes an adjustment component 71 fixedly installed above the street lamp main pole 5. The adjustment component 71 includes a fixing block 711 fixedly installed on the inner wall of the street lamp main pole 5. The fixing block 711 is away from the street lamp. A motor 712 is fixedly installed on one end of the inner wall of the main rod 5. A threaded rod 713 is fixedly installed at the output end of the motor 712. A sleeve 714 is set on the outer wall of the threaded rod 713. A sliding plate 715 is fixedly installed on the outer wall of the sleeve 714. The sliding plate 715 is away from the sleeve 714. A slip ring 716 is fixedly installed at one end. A rotating drum 717 is slidably installed on the inner wall of the slip ring 716. A chute 718 is provided on the outer wall of the rotating drum 717. Teeth 719 are fixedly installed at the bottom of the rotating drum 717. A limit ring 720 is fixedly installed on the outer wall of the rotating drum 717. , the outer wall of the limit ring 720 is rotated with a special-shaped block 721, and the top surface of the street lamp main pole 5 is provided with a clamping slot 722. A clamping block 723 is slidably provided inside the clamping slot 722, and a limiting plate 724 is fixedly installed at the bottom of the clamping block 723. The limiting plate A spring 725 is fixedly installed on the side of 724 away from the clamping block 723 .

In this embodiment, when the street lamp is used at night, the energy stored in the solar panel 11 and the fan 12 can be used to enable the lamp body 9 to perform lighting work. The existing street lamp irradiation range is inconvenient and needs to be adjusted. When passersby walk to the pressure surface 3 that is not illuminated by the street lamp, they are affected by the pressure, causing the bottom of the pressure surface 3 to squeeze against the position sensor 13 and the pressure sensor 2, causing the position sensor 13 to be pressurized and sent to the control module 6 through the connected wire harness 14 The instruction causes the control module 6 to start the motor 712. When the pressure sensor 2 ends working, the position sensor 13 starts to locate the position of the passerby. At this time, the motor 712 starts working, causing the threaded rod 713 fixedly installed at the output end of the motor 712 to rotate forward. The teeth 719 fixedly installed at the bottom of the rotating drum 717 are squeezed by the bevel of the clamping block 723, causing the clamping block 723 to slide into the slot 722, so that the rotating drum 717 is not limited by extrusion. When the threaded rod 713 rotates, its outer wall is driven The set sleeve 714 rotates, causing the sleeve 714 to drive the sliding plate 715 fixedly installed on its outer wall to rotate, causing the sliding ring 716 fixedly installed at the end of the sliding plate 715 to rotate, and the limit ring 720 and the special-shaped block 721 fixedly installed on the outer wall of the rotating drum 717 Internal rotation causes the slip ring 716 to drive the street light pole 8 fixedly installed on its outer wall to rotate, causing the street light pole 8 to rotate away from the lamp body 9 installed at one end of the slip ring 716, thereby adjusting the area illuminated by the street light to avoid the limitation of street light illumination. When the lamp body 9 is above the passerby's head, the position sensor 13 stops working, and the laser sensor 10 starts to work, and determines the height of the passerby based on the distance emitted by the laser, so that the laser sensor 10 transmits information to the control module 6, so that the control module 6 controls The motor 712 rotates reversely. Since the outer wall of the slide plate 715 and the chute 718 opened on the outer wall of the rotating drum 717 are slidably arranged, the threaded rod 713 can drive the rotating drum 717 to rotate when the rotating drum 717 rotates in the opposite direction. The fixed installation teeth 719 are engaged with the side of the clamping block 723 away from the inclined surface, so that the clamping block 723 will not slide into the slot 722, so that when the threaded rod 713 rotates, it will not drive the rotating drum 717 to rotate. Since the sleeve The sliding plate 715 fixedly installed on the outer wall of the rotating drum 714 slides with the chute 718 provided on the outer wall of the rotating drum 717. At this time, the rotating threaded rod 713 drives the sleeve 714 set on the outer wall to move up and down, and the sleeve 714 drives the slip ring 716 to move up and down accordingly. , so that the street light pole 8 fixedly installed on the outer wall of the slip ring 716 also moves accordingly, so that the street light pole 8 drives the lamp body 9 to move up and down, so that the lamp body 9 is closer to passers-by, so as to perform better lighting work.

Example 2

A preferred embodiment of a wind-solar complementary lighting device with detection function provided by the present invention is shown in Figures 1 to 13: the cleaning assembly 73 includes a fixed rod 731 fixedly installed on the outer wall of the slip ring 716, and the outer wall of the fixed rod 731 is rotatably connected with The connecting plate 732 is hingedly connected to a card frame 733 at one end of the connecting plate 732 away from the fixed rod 731. A brush 734 is fixedly installed on the outer wall of the card frame 733. A limiting column 735 is fixedly installed on the outer wall of the solar panel 11. A support rod is fixedly installed at the bottom of the solar panel 11. 736.

In this embodiment, when the solar panel 11 is in use, the solar panel 11 needs to be cleaned to improve the energy storage effect of the solar panel 11. When the laser sensor 10 causes the slip ring 716 to move up and down, the slip ring 716 drives it. The fixed rod 731 fixedly installed on the outer wall moves, causing the fixed rod 731 to push the connecting plate 732 to move. Since the connecting plate 732 is hingedly connected to the fixed rod 731, and the end of the connecting plate 732 away from the fixed rod 731 is hingedly connected to the card frame 733, the connecting plate 732 is hingedly connected to the fixed rod 731. 732 pushes the card frame 733 slidably installed on the outer wall of the solar panel 11 to move, so that the card frame 733 drives the brush 734 fixedly installed on the outer wall to move, thereby cleaning the surface of the solar panel 11. Since the card frame 733 is arranged in a frame shape, This allows the card frame 733 to stably slide with the surface of the solar panel 11, and is limited by the limiting column 735 to prevent the card frame 733 from sliding out of the surface of the solar panel 11.

Example 3

A preferred embodiment of a wind-solar complementary lighting device with detection function provided by the present invention is shown in Figures 1 to 13: the disassembly assembly 74 includes an inclined column 741 fixedly installed on the outer wall of the lamp body 9, and the inclined column 741 is far away from the lamp. A T-shaped slot 742 is provided on one side of the body 9. A T-shaped block 743 is fixedly installed on one end of the street lamp pole 8 away from the slip ring 716. A first screw hole 744 is provided on the outer wall of the T-shaped block 743. Two screw holes 745 are provided with bolts 746 inside the second screw hole 745 .

In this embodiment, when the lamp body 9 needs to be inspected after being used for a long time, the control module 6 is operated to lower the lamp body 9 so that the maintenance personnel can inspect the lamp body 9. The bolt 746 is removed from the second screw hole 745 and the Take out the inside of a screw hole 744 and slide the inclined column 741 out from the outer wall of the T-shaped block 743 to disassemble the lamp body 9. Since the first screw hole 744 is arranged at an angle, it can be connected to the lamp body 9 under its own gravity. The street lamp support pole 8 is more firmly connected, and combined with the bolts 746, the lamp body 9 is installed more stably. This structure can achieve the effect of quick disassembly, thereby improving the work efficiency of maintenance personnel.

Among them, there are several pressure sensors 2, equidistantly distributed at the bottom of the pressure surface 3. The pressure sensors 2 are connected to the control module 6 through the wire harness 14, so that when passers-by walk to the top of the pressure surface 3, the pressure sensors 2 can work. , thereby turning on the motor 712 to flexibly adjust the lamp body 9 .

Among them, there are four clamping blocks 723, which are distributed around the center of the street lamp main pole 5. The outer wall of the clamping block 723 is arranged in an inclined plane. The outer wall of the limiting plate 724 and the inner wall of the clamping groove 722 are slidingly arranged for use under the elastic action of the spring 725. , so that the clamping block 723 springs up again after being squeezed, so that when the threaded rod 713 is reversed, the clamping block 723 can be used to limit the position, and the limiting plate 724 can prevent the clamping block 723 from sliding out of the slot 722 .

Among them, the outer wall of the sliding plate 715 and the chute 718 provided on the outer wall of the rotating drum 717 are slidingly arranged, and the outer wall of the rotating drum 717 and the inner wall of the slip ring 716 are slidingly arranged. Under their restriction, when the rotating drum 717 is engaged and stops rotating, the sliding plate 715 and the chute 718 are slidably arranged. 718 sliding restriction, so that the sleeve 714 moves up and down on the outer wall of the threaded rod 713, driving the street light pole 8 and the lamp body 9 to move, thereby adjusting the height of the lamp body 9.

Among them, the inner side of the card frame 733 is slidably arranged on the outer wall of the solar panel 11. There are two card frames 733, which are symmetrically distributed with the center of the rotating drum 717. Under its restriction, when the slip ring 716 moves up and down, it drives the connecting plate 732 to move, so that The connecting plate 732 pushes the card frame 733 to slide on the outer wall of the solar panel 11 .

Among them, there are eight limiting posts 735, which are divided into two groups and are arranged in a square shape with the four corners of the solar panel 11. When the frame 733 slides, under the restrictions of the limiting posts 735, the frame 733 is prevented from sliding out of the solar panel. 11 outer wall.

Among them, the outer wall of the first screw hole 744 and the T-shaped slot 742 opened at one end of the inclined column 741 are slidably arranged, and the bolt 746 is sleeved inside the first screw hole 744. Under its restriction, the lamp body 9 and the street lamp pole 8 can be quickly connected. During installation, the installation of the bolts 746 and the second screw holes 745 and the first screw holes 744 makes the installation of the lamp body 9 and the street lamp pole 8 more stable.

It should be noted that in this article, relational terms such as first and second are only used to distinguish one entity or operation from another entity or operation, and do not necessarily require or imply that these entities or operations are mutually exclusive. any such actual relationship or sequence exists between them. Furthermore, the terms "comprises," "comprises," or any other variations thereof are intended to cover a non-exclusive inclusion such that a process, method, article, or apparatus that includes a list of elements includes not only those elements, but also those not expressly listed other elements, or elements inherent to the process, method, article or equipment.

Finally, it should be noted that the above are only preferred embodiments of the present invention and are not intended to limit the present invention. Although the present invention has been described in detail with reference to the foregoing embodiments, for those skilled in the art, it is still The technical solutions described in the foregoing embodiments may be modified, or some of the technical features may be equivalently replaced. Any modifications, equivalent substitutions, improvements, etc. made within the spirit and principles of the present invention shall be included in the protection scope of the present invention.

Claims (10)

1. The wind-solar complementary lighting device with the detection function comprises a foundation (1);

the pressure sensor (2) is fixedly arranged on the top surface of the foundation (1);

a position sensor (13) is arranged above the pressure sensor (2);

the top surface of the position sensor (13) is fixedly provided with a pressing surface (3);

the top surface of the pressing surface (3) is fixedly provided with a base (4);

the top surface of the base (4) is fixedly provided with a street lamp main rod (5);

the outer wall of the street lamp main rod (5) is fixedly provided with a control module (6);

a street lamp support rod (8) is arranged above the street lamp main rod (5);

the end part of the street lamp support rod (8) is fixedly provided with a lamp body (9);

a laser sensor (10) is fixedly arranged at the bottom of the lamp body (9);

a solar panel (11) is arranged at the top of the street lamp main rod (5);

a fan (12) is arranged above the solar panel (11);

a wire harness (14) is fixedly arranged on the outer wall of the pressure sensor (2);

and a processing assembly (7) arranged above the foundation (1), characterized in that: the processing assembly (7) comprises an adjusting assembly (71) fixedly installed above the street lamp main rod (5), a cleaning assembly (73) is arranged on the outer wall of the adjusting assembly (71), and a disassembling and assembling assembly (74) is arranged below the cleaning assembly (73).

2. The wind-solar complementary lighting apparatus with detection function according to claim 1, wherein: the utility model provides an adjusting part (71) is including fixed mounting fixed block (711) at street lamp mobile jib (5) inner wall, one end fixed mounting motor (712) of street lamp mobile jib (5) inner wall are kept away from to fixed block (711), motor (712) output fixedly holds threaded rod (713), threaded rod (713) outer wall cover is equipped with sleeve (714), sleeve (714) outer wall fixed mounting has slide plate (715), slide plate (715) are kept away from one end fixed mounting of sleeve (714) and are had sliding ring (716), sliding ring (716) inner wall slip is provided with rotary drum (717), spout (718) have been seted up to rotary drum (717) outer wall, rotary drum (717) bottom fixed mounting has tooth (719), rotary drum (717) outer wall fixed mounting has spacing ring (720), spacing ring (720) outer wall rotation is provided with dysmorphism piece (721), draw-in groove (722) have been seted up to street lamp (5) top surface, inside slip of draw-in groove (722) is provided with fixture block (723), fixture block (723) bottom fixed mounting limiting plate (724), one side (723) are kept away from spring 725.

3. The wind-solar complementary lighting apparatus with detection function according to claim 1, wherein: the cleaning assembly (73) comprises a fixed rod (731) fixedly mounted on the outer wall of the slip ring (716), a connecting plate (732) is rotationally connected to the outer wall of the fixed rod (731), a clamping frame (733) is hinged to one end, away from the fixed rod (731), of the connecting plate (732), a brush (734) is fixedly mounted on the outer wall of the clamping frame (733), a limiting column (735) is fixedly mounted on the outer wall of the solar panel (11), and a supporting rod (736) is fixedly mounted on the bottom of the solar panel (11).

4. The wind-solar complementary lighting apparatus with detection function according to claim 1, wherein: the assembly and disassembly components (74) comprise inclined columns (741) fixedly mounted on the outer wall of the lamp body (9), T-shaped grooves (742) are formed in one sides, far away from the lamp body (9), of the inclined columns (741), T-shaped blocks (743) are fixedly mounted at one ends, far away from the slip rings (716), of the street lamp support rods (8), first screw holes (744) are formed in the outer wall of each T-shaped block (743), second screw holes (745) are formed in the outer wall of each inclined column (741), and bolts (746) are sleeved in the second screw holes (745).

5. The wind-solar complementary lighting apparatus with detection function according to claim 1, wherein: the number of the pressure sensors (2) is a plurality, the pressure sensors are distributed at the bottom of the pressure surface (3) at equal intervals, and the pressure sensors (2) are connected with the control module (6) through the wire harness (14).

6. The wind-solar complementary lighting apparatus with detection function according to claim 2, wherein: the number of the clamping blocks (723) is four, the clamping blocks are circumferentially distributed around the center of a circle of the street lamp main rod (5), the outer wall of each clamping block (723) is inclined, and the outer wall of each limiting plate (724) and the inner wall of each clamping groove (722) are slidably arranged.

7. The wind-solar complementary lighting apparatus with detection function according to claim 2, wherein: the outer wall of the sliding plate (715) is arranged in a sliding manner with a sliding groove (718) formed in the outer wall of the rotary drum (717), and the outer wall of the rotary drum (717) is arranged in a sliding manner with the inner wall of the sliding ring (716).

8. A wind-solar complementary lighting apparatus with detection function according to claim 3, characterized in that: the inner side of the clamping frames (733) and the outer wall of the solar panel (11) are arranged in a sliding mode, two clamping frames (733) are symmetrically distributed in the center of the rotary drum (717).

9. A wind-solar complementary lighting apparatus with detection function according to claim 3, characterized in that: the number of the limiting columns (735) is eight, and the limiting columns are divided into two groups and are arranged in a square shape at four corners of the solar panel (11).

10. The wind-solar complementary lighting apparatus with detection function according to claim 4, wherein: the outer wall of the first screw hole (744) is slidably arranged with a T-shaped groove (742) formed in one end of the inclined column (741), and the bolt (746) is sleeved with the first screw hole (744).