CN115164174B - Intelligent remote monitoring system for outdoor ultra-high power lighting equipment - Google Patents

Abstract

The invention belongs to the technical field of lighting equipment, and particularly relates to an intelligent remote monitoring system of outdoor ultra-high power lighting equipment. This outdoor super high power lighting apparatus wisdom remote monitering system, through setting up rotatory deflection mechanism, for the illuminating effect that makes street lamp better, the camera is when the road surface monitors at night, to the rugged condition on road surface, deflect the angle of street lamp, concentrate the illumination to uneven road surface, be convenient for warn the passerby, the rotation of fourth motor output shaft drives the disc in the base and rotates, the rotation of disc drives the erection column, the high pole rotates, thereby drive street lamp and take place to deflect, deflect certain angle, throw light on the road surface, reach the effect of reminding the passerby.

Description

Intelligent remote monitoring system for outdoor ultra-high power lighting equipment

Technical Field

The invention relates to the technical field of lighting equipment, in particular to an intelligent remote monitoring system of outdoor ultra-high power lighting equipment.

Background

The smart city is a new theory and a new mode for promoting city planning, construction, management and service intelligence by applying new generation information integration technologies such as Internet of things, cloud computing, big data, space geographic information integration and the like. The smart city is a high-speed informatization embodiment of the city after the digital city and the smart city, and is a deep fusion of informatization, industrialization and townization. Lighting street lamps are indispensable living facilities in cities, counties or towns and roads, and are basically spread over the whole living area, so that a crisscross network is formed.

However, although the existing street lamp for illumination in urban construction has an illumination function, in the actual illumination process, due to the consideration of long roads, installation cost and the like, the distance between every two lamp poles is not very short, so that the concentration of all the lamp poles is not high easily, and a certain illumination dead angle exists between adjacent street lamps, so that road condition on the road is difficult to monitor by road monitoring equipment without dead angle. Meanwhile, the existing road monitoring equipment is generally independently built, not only is the land on two sides of a road easy to occupy, but also because the road monitoring equipment and the land are independent systems, the road monitoring equipment and the land are unfavorable for night monitoring, and because the road monitoring equipment and the land are not compatible with each other, the synchronization of illumination and monitoring is difficult to realize, and the monitoring equipment can have clear monitoring pictures only depending on the illumination equipment to a great extent during night monitoring, so that an intelligent illumination monitoring system compatible with illumination and monitoring is required.

Disclosure of Invention

Based on the technical problems, the invention provides an intelligent remote monitoring system for outdoor ultra-high power lighting equipment.

The invention provides an intelligent remote monitoring system of outdoor ultra-high power lighting equipment, which comprises a high pole, a lighting street lamp, a solar panel, a camera, a rotary adjusting mechanism, a telescopic mechanism and a rotary deflection mechanism, wherein one end of the lighting street lamp is fixedly arranged on the outer surface of one side of the high pole, the lower surface of the solar panel is fixedly arranged on the upper surface of the high pole through the rotary adjusting mechanism, and one end of the camera is fixedly arranged on the outer surface of one side of the high pole through the telescopic mechanism;

the rotation adjusting mechanism is arranged on the upper surface of the high rod and drives the solar panel to rotate along with the sun;

the telescopic mechanism is arranged on the outer surface of one side of the high rod and drives the camera to stretch;

the rotary deflection mechanism is arranged on the lower surface of the high rod and drives the high rod to deflect.

Preferably, the rotation adjusting mechanism comprises a sunlight tracking sensor, and the lower surface of the sunlight tracking sensor is fixedly installed with one side surface of the solar panel through an installation plate.

Through the technical scheme, the sunlight tracking sensor is arranged on one side close to the solar panel, and the solar panel is driven to move along with the position of the sun all the time by driving the rotary adjusting mechanism according to the position of the sun.

Preferably, the lower surface of solar cell panel fixedly connected with movable block, the inner wall of movable block fixedly cup joints the articulated shaft, articulated plate has articulated to the both ends of articulated shaft, the lower surface fixedly connected with carousel of articulated plate.

Through the technical scheme, when the rotary adjusting mechanism drives the solar cell panel to move, the movable block rotates on the hinged plate along with the hinged shaft, and the hinged plate, the hinged shaft, the movable block and the solar cell panel are driven to rotate by rotation of the turntable.

Preferably, the external surface of articulated shaft has cup jointed first conical gear, the upper surface of carousel has second conical gear through bearing fixed mounting, one side surface of first conical gear with one side surface meshing of second conical gear, the axle center department of second conical gear has fixedly cup jointed first pivot, the upper surface fixed mounting of high pole has the installation casing, one side surface fixed mounting of installation casing has first motor, the output shaft one end of first motor extends to the inner wall of installation casing and has fixedly cup jointed first worm, the surface meshing of first worm has first worm wheel, the axle center department of first worm wheel with the one end fixed cup joint of first pivot.

Through the technical scheme, the rotation of the output shaft of the first motor drives the first worm to rotate, the rotation of the first worm drives the first worm wheel to rotate, the rotation of the first worm wheel drives the first rotating shaft to rotate, the rotation of the first rotating shaft drives the second bevel gear to rotate, the rotation of the second bevel gear drives the first bevel gear to rotate, the rotation of the first bevel gear drives the hinge shaft to rotate, and the rotation of the hinge shaft drives the movable block to drive the solar cell panel to rotate.

Preferably, the outer surface of first pivot has slidingly sleeved the second pivot, the one end of second pivot with the lower fixed surface of carousel is connected, the other end of second pivot extends to the inner wall of installation casing and through the bearing with the inner wall fixed mounting of installation casing, one side fixed surface mounting of installation casing has the second motor, the output shaft one end of second motor extends to the inner wall of installation casing and fixed the cup joint second worm, the surface engagement of second worm has the second worm wheel, the axle center department of second worm wheel with the fixed cup joint of surface of second pivot.

Through above-mentioned technical scheme, the rotation of second motor output shaft drives the second worm and rotates, and the rotation of second worm drives the second worm wheel and rotates, and the rotation of second worm wheel drives the second pivot and rotates, and the rotation of second pivot drives the carousel and rotates, and the rotation of carousel drives solar cell panel and rotates to reach the effect that solar cell panel can follow the sun all the time and move.

Preferably, the telescopic machanism includes the third motor, the surface of third motor with the inner wall fixed mounting of high pole, one side surface fixed mounting of high pole has the fixed column, the inner wall slip joint of fixed column has first sleeve, the slip joint of first telescopic inner wall has the second sleeve, the one end of second sleeve extends to the outer surface of second sleeve and with the one end fixed mounting of camera.

Through above-mentioned technical scheme, the slip joint of first sleeve and fixed column is spacing to first telescopic slip, and the slip joint of second sleeve and first sleeve is spacing to second telescopic slip, avoids first sleeve to rotate in the fixed column and avoids the second sleeve to rotate at first telescopic inner wall.

Preferably, one end of the output shaft of the third motor extends to the inner wall of the fixed column and is fixedly sleeved with a screw rod, one end of the screw rod penetrates through the inner wall of the first sleeve and extends to the inside of the second sleeve, the outer surface of the screw rod is in threaded connection with the inner wall of the first sleeve, the inner wall of the second sleeve is in threaded connection with a screw rod, one end of the screw rod is in threaded connection with the inner wall of the first sleeve, the outer surface of the screw rod is in threaded connection with the inner wall of the screw rod, and one end of the second sleeve is fixedly installed with one end of the camera.

Through the technical scheme, the rotation of the output shaft of the third motor drives the screw to rotate, the rotation of the screw drives the first sleeve in threaded connection with the outer surface of the first sleeve to move on the screw along the inner wall of the fixed column, the rotation belt of the screw simultaneously rotates with the screw rod in threaded connection with the first sleeve, the rotation of the screw rod drives the second sleeve in threaded connection with the second sleeve to move on the screw rod along the inner wall of the first sleeve, and the camera is driven to move along with the movement of the first sleeve and the second sleeve, so that the effect of the telescopic camera is achieved.

Preferably, one end of the high rod is slidably clamped with a mounting column, a hydraulic cylinder is fixedly arranged on the inner bottom wall of the mounting column, and one end of a piston rod of the hydraulic cylinder is fixedly connected with one end of the high rod.

Through above-mentioned technical scheme, the one end of high pole and the inner wall slip joint of erection column, the flexible one end that drives the high pole of pneumatic cylinder piston rod reciprocates in the erection column to reach the effect of flexible high pole.

Preferably, the rotary deflection mechanism comprises a base, a fourth motor is fixedly arranged on the inner bottom wall of the base, and one end of an output shaft of the fourth motor extends to the outer surface of the base and is fixedly sleeved with a disc.

Through above-mentioned technical scheme, the base is installed with ground and plays the supporting role, and the rotation of fourth motor output shaft drives the disc and rotates.

Preferably, the lower surface of the disc is fixedly mounted with the upper surface of the base through a bearing, and the upper surface of the disc is fixedly mounted with the lower surface of the mounting column.

Through above-mentioned technical scheme, the rotation of disc drives erection column, stock and rotates, and the disc is installed through bearing and base, reduces the friction between disc and the base.

Preferably, the monitoring module comprises a GPS module for locating the position of each lighting street lamp and an antenna for transmitting wireless signal data, and the antenna adopts an anti-interference duplex antenna;

the monitoring module transmits signals to the background server in a wireless or wired mode through the antenna, then relevant information is displayed on the computer display, and wireless control is achieved through the computer display.

The beneficial effects of the invention are as follows:

1. through setting up the rotation regulating mechanism, solar cell panel is through absorbing the sunlight, directly or indirectly convert the solar radiation energy into electric energy through photoelectric effect or photochemical effect, in order to improve solar cell panel's efficiency of absorbing the sunlight, the sunlight is sought the trace sensor and is controlled first motor and second motor and is operated in proper order through the controller according to the position of sunlight, the rotation of first motor output shaft drives first worm and rotates, the rotation of first worm drives first worm wheel and rotates, the rotation of first worm wheel drives first pivot and rotates, the rotation of first pivot drives second conical gear and rotates, the rotation of second conical gear drives first conical gear and rotates, the rotation of first conical gear drives the articulated shaft and drives the movable block, the rotation of movable block drives solar cell panel and rotates about;

the rotation of the output shaft of the second motor drives the second worm to rotate, the rotation of the second worm drives the second worm wheel to rotate, the rotation of the second worm wheel drives the second rotating shaft to rotate, the rotation of the second rotating shaft drives the turntable to rotate, and the rotation of the turntable drives the solar cell panel to rotate, so that the effect that the solar cell panel can always deflect along with the position of sunlight is achieved.

2. The camera projects an optical image generated by surrounding road surface scenes through the lens onto the image sensor, the optical image is converted into an electric signal, the electric signal is converted into a digital image signal, the digital image signal is sent to the digital signal processing chip for processing, the digital image signal is transmitted to the computer for processing through the USB interface, the road surface images are seen on the computer display, in order to enable the camera and the lighting street lamp to clearly monitor and illuminate the road surface at night, when the displayed images are incomplete, the rotation of the output shaft of the third motor drives the screw to rotate, the rotation of the screw drives the first sleeve in threaded connection with the outer surface of the screw to move on the screw along the inner wall of the fixed column, meanwhile, the rotation belt of the screw rotates with the screw rod in threaded connection with the screw rod, the rotation of the screw rod drives the second sleeve in threaded connection with the movement of the first sleeve on the screw rod, and the movement of the first sleeve drives the camera to move along with the movement of the first sleeve, so that the effect of the telescopic camera is achieved, and the condition of the road surface is judged through the whole front-back movement of the camera;

when the picture that the camera shot is not clear enough, too dark time, the pneumatic cylinder piston rod in the erection column contracts and drives the high pole along the inner wall downwardly moving of erection column to drive lighting street lamp and camera downwardly moving, when moving to certain position, clearly shoot the road surface condition, reach the effect that can monitor the road surface condition in time.

3. Through setting up rotatory deflection mechanism, in order to make the illuminating effect of street lamp better, the camera is when the road surface is monitored at night, to the rugged condition on road surface, make the angle that corresponds the street lamp of illumination on the road surface take place to deflect, and let the street lamp of illumination street lamp both sides keep motionless, thereby concentrate the illumination to the unevenness road surface, be convenient for warn passerby, the rotation of fourth motor output shaft drives the disc and rotates in the base, the rotation of disc drives erection column, the pole rotates, thereby drive the street lamp of illumination and take place to deflect, deflect certain angle, throw light on the road surface, reach the effect of reminding passerby.

4. By arranging the monitoring module, the real-time state of each street lamp can be clearly mastered or controlled, and the monitoring module can be adjusted to be in a working state for sending data at regular time for saving energy.

Drawings

FIG. 1 is a schematic diagram of an intelligent remote monitoring system for outdoor ultra-high power lighting equipment;

fig. 2 is a perspective view of a sunlight tracking sensor structure of an intelligent remote monitoring system for outdoor ultra-high power lighting equipment;

FIG. 3 is a perspective view of the installation housing of the intelligent remote monitoring system for outdoor ultra-high power lighting equipment;

fig. 4 is a perspective view of a first worm structure of an intelligent remote monitoring system for outdoor ultra-high power lighting equipment, which is provided by the invention;

fig. 5 is a perspective view of a first motor structure of an intelligent remote monitoring system for outdoor ultra-high power lighting equipment according to the present invention;

fig. 6 is a perspective view of a camera structure of an intelligent remote monitoring system for outdoor ultra-high power lighting equipment, which is provided by the invention;

fig. 7 is a perspective view of a screw rod structure of an intelligent remote monitoring system for outdoor ultra-high power lighting equipment;

fig. 8 is a perspective view of a hydraulic cylinder structure of an intelligent remote monitoring system for outdoor ultra-high power lighting equipment, which is provided by the invention;

fig. 9 is a perspective view of a fourth motor structure of the intelligent remote monitoring system for outdoor ultra-high power lighting equipment according to the present invention;

FIG. 10 is a schematic diagram of a monitoring module of an intelligent remote monitoring system for outdoor ultra-high power lighting equipment according to the present invention;

fig. 11 is a state display diagram of a computer monitor of an intelligent remote monitoring system for outdoor ultra-high power lighting equipment according to the present invention.

In the figure: 1. a high pole; 2. a lighting street lamp; 3. a solar cell panel; 4. a camera; 5. a solar tracking sensor; 501. a movable block; 502. a hinge shaft; 503. a hinged plate; 504. a turntable; 505. a first bevel gear; 506. a second bevel gear; 507. a first rotating shaft; 508. a mounting shell; 509. a first motor; 510. a first worm; 511. a first worm wheel; 512. a second rotating shaft; 513. a second motor; 514. a second worm; 515. a second worm wheel; 6. a third motor; 61. fixing the column; 62. a first sleeve; 63. a second sleeve; 64. a screw; 65. a screw rod; 66. a mounting column; 67. a hydraulic cylinder; 7. a base; 71. a fourth motor; 72. a disc; 8. an antenna; 81. a background server; 82. a computer display.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

Referring to fig. 1-11, an outdoor ultra-high power lighting equipment wisdom remote monitering system, including high pole 1, lighting street lamp 2, solar cell panel 3 and camera 4, still include rotary adjustment mechanism, telescopic machanism and rotatory deflection mechanism, lighting street lamp 2's one end fixed mounting is at one side surface of high pole 1, and solar cell panel 3's lower surface passes through rotary adjustment mechanism and the upper surface fixed mounting of high pole 1, and one end of camera 4 passes through telescopic machanism and one side surface fixed mounting of high pole 1.

In order to realize that the solar cell panel 3 automatically tracks sunlight and stores electric energy to the maximum extent, the rotary adjusting mechanism is arranged on the upper surface of the high rod 1 and drives the solar cell panel 3 to rotate along with the sun.

The rotation adjusting mechanism comprises a sunlight tracking sensor 5, a movable block 501, a hinge shaft 502, a hinge plate 503, a turntable 504, a first conical gear 505, a second conical gear 506, a first rotating shaft 507, a mounting shell 508, a first motor 509, a first worm 510, a first worm wheel 511, a second rotating shaft 512, a second motor 513, a second worm 514 and a second worm wheel 515, wherein the lower surface of the sunlight tracking sensor 5 is fixedly mounted on one side surface of the solar cell panel 3 through a mounting plate, the sunlight tracking sensor 5 senses the position of sunlight, and the first motor 509 and the second motor 513 are controlled to start according to the position of the sunlight through a controller, so that the solar cell panel 3 is driven to always move along with the sunlight.

The upper surface of movable block 501 is fixedly connected with the lower surface of solar cell panel 3, the both ends of articulated shaft 502 are articulated with the inner wall of articulated slab 503, the inner wall of movable block 501 is fixedly cup jointed with the surface of articulated shaft 502, the rotation of articulated shaft 502 on articulated slab 503 drives movable block 501 to move in step, the lower surface of articulated slab 503 is fixedly connected with the upper surface of disc 72, the axle center department of first conical gear 505 is fixedly cup jointed with the surface of articulated shaft 502, the rotation of first conical gear 505 drives articulated shaft 502 to rotate on articulated slab 503, the lower surface of second conical gear 506 is fixedly installed with the upper surface of disc 72 through the bearing, the one side surface of first conical gear 505 meshes with one side surface of second conical gear 506, the meshing of first conical gear 505 and second conical gear 506 carries out the spacing to the rotation of articulated shaft 502.

One end of the first rotating shaft 507 is fixedly sleeved with the axis of the second bevel gear 506, the other end of the first rotating shaft 507 penetrates through a bearing to extend into the installation shell 508 and is fixedly sleeved with the axis of the first worm gear 511, the lower surface of the installation shell 508 is fixedly arranged on the upper surface of the high rod 1, one side surface of the first motor 509 is fixedly arranged on one side surface of the installation shell 508, one end of an output shaft of the first motor 509 extends to the inner wall of the installation shell 508 and is fixedly sleeved with one end of the first worm 510, and the outer surface of the first worm 510 is meshed with one side outer surface of the first worm gear 511.

The inner wall of the second rotating shaft 512 is in sliding sleeve joint with the outer surface of the first rotating shaft 507, one end of the second rotating shaft 512 is fixedly connected with the lower surface of the rotating disc 504, the other end of the second rotating shaft 512 extends to the inner wall of the installation shell 508 and is fixedly installed with the inner wall of the installation shell 508 through a bearing, one side surface of the second motor 513 is fixedly installed with one side surface of the installation shell 508, one end of an output shaft of the second motor 513 extends to the inner wall of the installation shell 508 and is fixedly sleeved with one end of the second worm 514, the axle center of the second worm wheel 515 is fixedly sleeved with the other end of the second rotating shaft 512, and one side outer surface of the second worm wheel 515 is meshed with the outer surface of the second worm 514.

The solar cell panel 3 directly or indirectly converts solar radiation energy into electric energy through a photoelectric effect or a photochemical effect by absorbing sunlight, in order to improve the efficiency of solar cell panel 3 in absorbing sunlight, the sunlight tracking sensor 5 sequentially controls the first motor 509 and the second motor 513 to operate according to the position of the sunlight through the controller, the rotation of the output shaft of the first motor 509 drives the first worm 510 to rotate, the rotation of the first worm 510 drives the first worm wheel 511 to rotate, the rotation of the first worm wheel 511 drives the first rotating shaft 507 to rotate, the rotation of the first rotating shaft 507 drives the second conical gear 506 to rotate, the rotation of the second conical gear 506 drives the first conical gear 505, the rotation of the first conical gear 505 drives the hinge shaft 502 to rotate, the rotation of the hinge shaft 502 drives the movable block 501, and the rotation of the movable block 501 drives the solar cell panel 3 to rotate left and right.

The rotation of the output shaft of the second motor 513 drives the second worm 514 to rotate, the rotation of the second worm 514 drives the second worm wheel 515 to rotate, the rotation of the second worm wheel 515 drives the second rotating shaft 512 to rotate, the rotation of the second rotating shaft 512 drives the turntable 504 to rotate, and the rotation of the turntable 504 drives the solar panel 3 to rotate, so that the effect that the solar panel 3 can always deflect along with the position of sunlight is achieved.

In order to increase the shooting range and definition of the camera 4, the telescopic mechanism is arranged on the outer surface of one side of the high rod 1 and drives the camera 4 to stretch and retract.

The telescopic machanism includes third motor 6, fixed column 61, first sleeve 62, second sleeve 63, screw rod 64, lead screw 65, erection column 66 and pneumatic cylinder 67, the surface fixed mounting of third motor 6 is at the inner wall of high pole 1, one side surface of fixed column 61 and one side surface fixed mounting of high pole 1, the surface of first sleeve 62 is pegged graft with the inner wall slip of fixed column 61, the slip joint of first sleeve 62 and fixed column 61 carries out spacing to the slip of first sleeve 62, avoid first sleeve 62 to rotate at the inner wall of fixed column 61, the surface of second sleeve 63 is pegged graft with the inner wall slip of first sleeve 62, the slip joint of second sleeve 63 and first sleeve 62 carries out spacing to the slip of second sleeve 63, avoid second sleeve 63 to rotate at the inner wall of first sleeve 62, the one end of second sleeve 63 extends to the surface of first sleeve 62 and with the one end fixed mounting of camera 4, camera 4 monitors the surrounding environment.

One end of an output shaft of the third motor 6 extends to the inner wall of the fixed column 61 and is fixedly sleeved with one end of a screw rod 64, one end of the screw rod 64 penetrates through the inner wall of the first sleeve 62 and extends to the inside of the second sleeve 63, the outer surface of the screw rod 64 is in threaded connection with the inner wall of the first sleeve 62, the outer surface of the screw rod 64 is in threaded connection with the inner wall of a screw rod 65, one end of the screw rod 65 is in threaded connection with the inner wall of the first sleeve 62, and the screw rod 65 extends to be in threaded connection with the outer surface of the second sleeve 63 and the inner wall of the second sleeve 63.

The inner wall of the mounting column 66 is in sliding clamping connection with the outer surface of the high rod 1, the outer surface of the hydraulic cylinder 67 is fixedly arranged on the inner bottom wall of the mounting column, and one end of a piston rod of the hydraulic cylinder 67 is fixedly connected with one end of the high rod 1.

Through setting up telescopic machanism, camera 4 passes through the optical image that the camera lens produced and throws on image sensor, then convert into the signal of telecommunication, become digital image signal after the conversion, send processing in the digital signal processing chip again, process in transmitting the computer through the USB interface, see road surface image on the computer display 82, in order to make camera 4 and lighting street lamp 2 can carry out clear control and illumination to the road surface when night, when the image that shows is incomplete, the rotation of third motor 6 output shaft drives screw 64 rotation, the rotation of screw 64 drives the first sleeve 62 of its surface threaded connection and moves on screw 64 along the inner wall of fixed column 61, simultaneously the rotation of screw 64 takes the screw 65 of its threaded connection and rotates, the rotation of screw 65 drives the second sleeve 63 of its threaded connection and moves on screw 65 along the inner wall of first sleeve 62, along with the movement of first sleeve 62 and second sleeve 63 drive camera 4, thereby reach the effect of telescopic camera 4, judge the condition of road surface through the holistic back and forth movement of camera 4.

When the picture shot by the camera 4 is not clear enough and is too dark, the piston rod of the hydraulic cylinder 67 in the mounting column 66 is contracted to drive the high rod 1 to move downwards along the inner wall of the mounting column 66, so that the lighting street lamp 2 and the camera 4 are driven to move downwards, and when the picture moves to a certain position, the clear shooting of the road surface is realized, and the effect of monitoring the road surface condition in time is achieved.

In order to realize the monitoring to the surrounding environment of the rugged road, the problem that the illumination dead angle can not be monitored is avoided simultaneously, and the rotary deflection mechanism is arranged on the lower surface of the high rod 1 and drives the high rod 1 to deflect.

The rotary deflection mechanism comprises a base 7, a fourth motor 71 and a disc 72, wherein the lower surface of the base 7 is fixedly arranged on the ground, the lower surface of the fourth motor 71 is fixedly arranged on the inner bottom wall of the base 7, one end of an output shaft of the fourth motor 71 extends to the outer surface of the base 7 and is fixedly sleeved with the lower surface of the disc 72, the lower surface of the disc 72 is fixedly arranged on the upper surface of the base 7 through a bearing, and the upper surface of the disc 72 is fixedly arranged on the lower surface of the mounting post 66.

Through setting up rotatory deflection mechanism, in order to make the illuminating effect of street lamp 2 better, when the camera 4 monitors the road surface at night, to the rugged condition on road surface, make the angle that corresponds street lamp 2 on the road surface take place to deflect to let the street lamp 2 of this street lamp 2 both sides keep motionless, thereby concentrate the illumination to the unevenness road surface, be convenient for warn passerby, the rotation of fourth motor 71 output shaft drives disc 72 rotation in the base 7, disc 72's rotation drives erection column 66, stock 1 rotates, thereby drive street lamp 2 and take place to deflect, deflect to certain angle, throw light on the road surface, reach the effect of reminding passerby.

The monitoring module comprises a GPS module for locating the position of each lighting street lamp 2 and an antenna 8 for transmitting wireless signal data, and the antenna 8 adopts an anti-interference duplex antenna.

The anti-interference duplex antenna is composed of full duplex equipment, and a transmitter and a receiver in the full duplex equipment realize data transmission by means of the two antennas.

The two antenna modes are respectively the same antenna mode shared by the equal-frequency receiving and transmitting isolation devices of the circulator and the space isolation antenna mode obtained by respectively using different antennas. The full duplex technology can solve the interference problem of self-transmitted signal butt joint signals by performing simultaneous signal receiving and transmitting on the same time-frequency resource and advanced interference elimination technology.

The anti-interference duplex antenna adopts the reconstruction of self-interference signals at a receiving end to counteract self-interference in the received signals, and the self-interference signals can be counteracted and reconstructed in a digital domain, an analog domain and an antenna domain. The multipath reflection self-interference component is accurately determined according to the channel environment, and the method has the characteristics of time varying, low power and wide time delay distribution.

Full duplex self-drying hesitation principle of anti-interference duplex antenna: in full duplex devices, there are mainly two ways for a locally transmitted signal to enter a local receiver as a self-interfering signal: firstly, the main interference component in the self-interference signal is formed by the way that the leakage of a receiving and transmitting isolation device, the echo reflection of an antenna, the direct path of space between a transmitting antenna and a receiving antenna and the like enter a local receiver; and secondly, the self-interference signal directly enters a local receiver after being reflected by multipath of the wireless signal entering environment, thereby forming a multi-street reflection self-interference component in the self-interference signal.

In the full duplex equipment, the transmitter and the receiver can share the same antenna through the equal-frequency receiving and transmitting isolation device of the circulator, and certain space isolation can be obtained through respectively using different antennas.

The anti-interference duplex antenna can effectively solve the problems of easy data loss and disorder during wireless data transmission and reception, and greatly increases the authenticity and effectiveness of data.

The monitoring module transmits signals to the background server 81 in a wireless or wired mode through the antenna 8, then relevant information is displayed on the computer display 82, wireless control is achieved through the computer display 82, the picture state of the monitoring camera 4 can be displayed on the computer display 82, and the situation of each street lamp can be displayed, and the monitoring module comprises: the state of the current street lamp, the generated energy, the generating efficiency, whether the GPS positioning is normal or not, and the total generated energy of the current lighting street lamp 2.

By arranging the monitoring module, the real-time state of each street lamp can be clearly mastered or controlled, and in order to save energy, the monitoring module can be adjusted to be in a working state of sending data regularly, and the total state information of all the street lamps 2 can be arranged at one corner on the computer display 82.

Working principle: the solar cell panel 3 directly or indirectly converts solar radiation energy into electric energy through a photoelectric effect or a photochemical effect by absorbing sunlight, so as to provide electric energy for the lighting street lamp 2, the camera 4, the rotation adjusting mechanism, the telescopic mechanism and the rotation deflection mechanism;

the sunlight tracking sensor 5 sequentially controls the first motor 509 and the second motor 513 to operate according to the position of sunlight through the controller, the rotation of an output shaft of the first motor 509 drives the first worm 510 to rotate, the rotation of the first worm 510 drives the first worm wheel 511 to rotate, the rotation of the first worm wheel 511 drives the first rotating shaft 507 to rotate, the rotation of the first rotating shaft 507 drives the second bevel gear 506 to rotate, the rotation of the second bevel gear 506 drives the first bevel gear 505 to rotate, the rotation of the first bevel gear 505 drives the hinge shaft 502 to rotate, the rotation of the hinge shaft 502 drives the movable block 501, and the rotation of the movable block 501 drives the solar cell panel 3 to rotate left and right;

the rotation of the output shaft of the second motor 513 drives the second worm 514 to rotate, the rotation of the second worm 514 drives the second worm wheel 515 to rotate, the rotation of the second worm wheel 515 drives the second rotating shaft 512 to rotate, the rotation of the second rotating shaft 512 drives the rotating disc 504 to rotate, and the rotation of the rotating disc 504 drives the solar panel 3 to rotate, so that the solar panel 3 is driven to always deflect along with the position of sunlight, and the efficiency of converting solar energy into electric energy by the solar panel 3 is increased;

the camera 4 projects an optical image generated by surrounding road scenes through a lens onto an image sensor, converts the optical image into an electric signal, converts the electric signal into a digital image signal, sends the digital image signal into a digital signal processing chip for processing, and transmits the digital image signal into a computer for processing through a USB interface, and a computer display sees the road images;

when the displayed image is incomplete, the rotation of the output shaft of the third motor 6 drives the screw rod 64 to rotate, the rotation of the screw rod 64 drives the first sleeve 62 in threaded connection with the outer surface of the screw rod 64 to move on the screw rod 64 along the inner wall of the fixed column 61, meanwhile, the rotation of the screw rod 64 drives the screw rod 65 in threaded connection with the screw rod 64, the rotation of the screw rod 65 drives the second sleeve 63 in threaded connection with the screw rod 65 to move on the screw rod 65 along the inner wall of the first sleeve 62, the movement of the first sleeve 62 and the second sleeve 63 drives the camera 4 to move, and the monitoring range of the camera 4 to the surrounding environment of the road is enlarged through the integral forward and backward movement of the camera 4;

when the picture shot by the camera 4 is not clear enough and is too dark, the piston rod of the hydraulic cylinder 67 in the mounting column 66 is contracted to drive the high rod 1 to move downwards along the inner wall of the mounting column 66, so that the lighting street lamp 2 and the camera 4 are driven to move downwards, and when the picture is moved to a certain position, the road surface condition is shot clearly.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims (4)

1. The utility model provides an outdoor super high power lighting apparatus wisdom remote monitering system, includes stock (1), street lamp (2), solar cell panel (3) and camera (4), its characterized in that: the solar street lamp comprises a solar cell panel (3), a solar cell panel (Gao Gan) and a camera (4), and is characterized by further comprising a rotation adjusting mechanism, a telescopic mechanism and a rotation deflection mechanism, wherein one end of the illumination street lamp (2) is fixedly arranged on the outer surface of one side of the Gao Gan (1), the lower surface of the solar cell panel is fixedly arranged on the upper surface of the Gao Gan (1) through the rotation adjusting mechanism, and one end of the camera (4) is fixedly arranged on the outer surface of one side of the Gao Gan (1) through the telescopic mechanism;

the rotation adjusting mechanism is arranged on the upper surface of the Gao Gan (1) and drives the solar panel (3) to rotate along with the sun;

the rotation adjusting mechanism comprises a sunlight tracking sensor (5), the lower surface of the sunlight tracking sensor (5) is fixedly arranged on one side surface of the solar panel (3) through a mounting plate, a movable block (501) is fixedly connected to the lower surface of the solar panel (3), a hinge shaft (502) is fixedly sleeved on the inner wall of the movable block (501), hinge plates (503) are hinged to two ends of the hinge shaft (502), and a turntable (504) is fixedly connected to the lower surface of the hinge plates (503);

the outer surface of the hinge shaft (502) is fixedly sleeved with a first conical gear (505), the upper surface of the rotary table (504) is fixedly provided with a second conical gear (506) through a bearing, one side outer surface of the first conical gear (505) is meshed with one side outer surface of the second conical gear (506), the axle center of the second conical gear (506) is fixedly sleeved with a first rotary shaft (507), the upper surface of the Gao Gan (1) is fixedly provided with a mounting shell (508), one side surface of the mounting shell (508) is fixedly provided with a first motor (509), one end of an output shaft of the first motor (509) extends to the inner wall of the mounting shell (508) and is fixedly sleeved with a first worm (510), the outer surface of the first worm (510) is meshed with a first worm wheel (511), and the axle center of the first worm wheel (511) is fixedly sleeved with one end of the first rotary shaft (507);

the outer surface of the first rotating shaft (507) is in sliding sleeve connection with a second rotating shaft (512), one end of the second rotating shaft (512) is fixedly connected with the lower surface of the rotary table (504), the other end of the second rotating shaft (512) extends to the inner wall of the installation shell (508) and is fixedly installed with the inner wall of the installation shell (508) through a bearing, a second motor (513) is fixedly installed on one side surface of the installation shell (508), one end of an output shaft of the second motor (513) extends to the inner wall of the installation shell (508) and is fixedly sleeved with a second worm (514), a second worm wheel (515) is meshed with the outer surface of the second rotating shaft (512), and the axis center of the second worm wheel (515) is fixedly sleeved with the outer surface of the second rotating shaft (512);

the telescopic mechanism is arranged on the outer surface of one side of the Gao Gan (1) and drives the camera (4) to stretch;

the telescopic mechanism comprises a third motor (6), the outer surface of the third motor (6) is fixedly mounted with the inner wall of the Gao Gan (1), a fixed column (61) is fixedly mounted on the outer surface of one side of the Gao Gan (1), a first sleeve (62) is slidably clamped on the inner wall of the fixed column (61), a second sleeve (63) is slidably clamped on the inner wall of the first sleeve (62), and one end of the second sleeve (63) extends to the outer surface of the second sleeve (63) and is fixedly mounted with one end of the camera (4);

one end of an output shaft of the third motor (6) extends to the inner wall of the fixed column (61) and is fixedly sleeved with a screw rod (64), one end of the screw rod (64) penetrates through the inner wall of the first sleeve (62) and extends to the inside of the second sleeve (63), the outer surface of the screw rod (64) is in threaded connection with the inner wall of the first sleeve (62), a screw rod (65) is in threaded connection with the inner wall of the second sleeve (63), one end of the screw rod (65) is in rotational connection with the inner wall of the first sleeve (62), and the outer surface of the screw rod (64) is in threaded connection with the inner wall of the screw rod (65);

the rotary deflection mechanism is arranged on the lower surface of the Gao Gan (1) and drives the Gao Gan (1) to deflect.

2. The intelligent remote monitoring system for outdoor ultra-high power lighting equipment according to claim 1, wherein: one end of the Gao Gan (1) is slidably clamped with a mounting column (66), a hydraulic cylinder (67) is fixedly arranged on the inner bottom wall of the mounting column (66), and one end of a piston rod of the hydraulic cylinder (67) is fixedly connected with one end of the Gao Gan (1).

3. The intelligent remote monitoring system for outdoor ultra-high power lighting equipment according to claim 2, wherein: the rotary deflection mechanism comprises a base (7), a fourth motor (71) is fixedly arranged on the inner bottom wall of the base (7), and one end of an output shaft of the fourth motor (71) extends to the outer surface of the base (7) and is fixedly sleeved with a disc (72).

4. An outdoor ultra-high power lighting equipment wisdom remote monitoring system according to claim 3, wherein: the lower surface of the disc (72) is fixedly mounted with the upper surface of the base (7) through a bearing, and the upper surface of the disc (72) is fixedly mounted with the lower surface of the mounting column (66).