CN110542043A

CN110542043A - LED street lamp illumination control monitoring device

Info

Publication number: CN110542043A
Application number: CN201910867850.4A
Authority: CN
Inventors: 宋鹏威
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-09-15
Filing date: 2019-09-15
Publication date: 2019-12-06

Abstract

The invention discloses an LED street lamp lighting control monitoring device, which comprises a monitoring main body, wherein an angle modulation driving cavity is arranged in the monitoring main body, an LED street lamp pole which penetrates through the angle modulation driving cavity and extends forwards and backwards is connected to the monitoring main body in a rotating matching manner, an angle modulation worm wheel which is fixedly connected with the LED street lamp pole in the circumferential direction in a matching manner is arranged in the angle modulation driving cavity, an angle modulation rotating shaft which extends leftwards and rightwards is connected to the upper side of the angle modulation worm wheel in a rotating matching manner, an angle modulation worm which is meshed with the angle modulation worm wheel is fixedly arranged on the angle modulation rotating shaft in the circumferential direction, a first gear which is fixedly connected with the angle modulation rotating shaft in the circumferential direction in a matching manner is arranged on the left side of the angle modulation worm, a monitoring accommodating cavity is arranged on the left side of the angle modulation driving cavity, a protective cover plate mechanism is; the functional diversity and the practicality of street lamp have been improved.

Description

LED street lamp illumination control monitoring device

Technical Field

The invention relates to the technical field of traffic municipal monitoring, in particular to an LED street lamp illumination control monitoring device.

Background

The monitoring device has an important function in road facilities, can monitor the traffic condition on the road and improve the safety performance. The existing monitoring device is not particularly perfect in design and structure and has no substantive characteristics, in severe weather, a camera can be damaged, the angle position of monitoring equipment cannot be adjusted, and therefore the monitoring effect is affected.

Disclosure of Invention

The invention aims to provide an LED street lamp illumination control monitoring device which is used for overcoming the defects in the prior art.

The LED street lamp illumination control monitoring device comprises a monitoring main body, wherein an angle modulation driving cavity is arranged in the monitoring main body, an LED street lamp post which penetrates through the angle modulation driving cavity and extends forwards and backwards is connected to the monitoring main body in a rotating matching manner, an angle modulation worm wheel which is fixedly connected with the LED street lamp post in a circumferential direction in a matching manner is arranged in the angle modulation driving cavity, an angle modulation rotating shaft which extends leftwards and rightwards is connected to the upper side of the angle modulation worm wheel in a rotating matching manner, an angle modulation worm which is meshed with the angle modulation worm wheel is fixedly arranged on the angle modulation rotating shaft in a circumferential direction, a first gear which is fixedly connected with the angle modulation rotating shaft in a circumferential direction in a matching manner is arranged on the left side of the angle modulation worm, a monitoring accommodating cavity is arranged on the left side of the angle modulation driving cavity, a protective cover plate mechanism is arranged in the monitoring accommodating cavity, a telescopic monitoring mechanism is further arranged in the monitoring accommodating cavity, the upper side of angle modulation drive chamber is equipped with and is used for drive control protective cover mechanism and flexible monitoring device drive work's coordinated control mechanism, be equipped with between coordinated control mechanism and the angle modulation drive chamber and be used for controlling the power control mechanism of coordinated control mechanism work.

According to a further technical scheme, the telescopic monitoring mechanism comprises a telescopic fixed block fixedly connected with the right side wall of the angle modulation driving cavity, a telescopic sliding cavity with an opening arranged leftwards is arranged in the telescopic fixed block, and a telescopic monitor is connected in the telescopic sliding cavity in a sliding fit mode.

Further technical scheme, protective cover plate mechanism includes the arc guard plate, the arc guard plate is located flexible solid piece left side position, the upper and lower both ends of arc guard plate all have set firmly the backup pad, the downside the solenoid device has set firmly in the backup pad.

In a further technical scheme, the linkage control mechanism comprises a first transmission cavity and a second transmission cavity positioned on the upper side of the first transmission cavity, the first transmission cavity is connected with a first rotating shaft which extends leftwards and rightwards in a rotating fit manner, a second gear is fixedly arranged on the first rotating shaft in the circumferential direction, a first transmission wheel which is fixedly connected with the first rotating shaft in the circumferential direction in a fixed fit manner is arranged on the left side of the second gear, a first bevel gear which is fixedly connected with the first rotating shaft in the circumferential direction in a fixed fit manner is arranged on the right side of the second gear, a left extending section of the second transmission cavity is positioned on the upper side of the monitoring accommodating cavity, a second rotating shaft is connected between the monitoring accommodating cavity and the second transmission cavity in a rotating fit manner, a first transmission wheel positioned in the second transmission cavity is fixedly arranged at the tail end of the top of the second rotating shaft, and the tail end of the bottom of the second rotating shaft is fixedly connected with the supporting plate on the, a third rotating shaft is connected between the second transmission cavity and the first transmission cavity in a rotating fit manner, a third transmission wheel positioned in the second transmission cavity is fixedly arranged at the tail end of the top of the third rotating shaft, a first transmission belt is connected between the first transmission wheel and the third transmission wheel in a power fit manner, a second bevel gear meshed with the first bevel gear is fixedly arranged at the tail end of the bottom of the third rotating shaft, a third transmission cavity is arranged between the monitoring accommodating cavity and the angle adjusting driving cavity, the tail end of the top of the third transmission cavity is communicated with the first transmission cavity, the first transmission wheel is positioned at the upper side position of the third transmission cavity, an internal thread rotating sleeve is connected in a rotating wall on the left side of the third transmission cavity in a rotating fit manner, a telescopic screw rod is connected in the internal thread rotating sleeve in a matching manner, and the tail end on the left side of the telescopic screw rod is fixedly connected with the telescopic monitor in, and the tail end of the right side of the internal thread rotating sleeve is fixedly provided with a fourth transmission wheel positioned in the third transmission cavity, and a second transmission belt is connected between the fourth transmission wheel and the first transmission wheel in a power fit manner.

In a further technical scheme, the power control mechanism comprises a switching chute, the top of the switching chute is communicated with the first transmission cavity, the bottom of the switching chute is communicated with the angle modulation driving cavity, a driving motor is fixedly arranged in the left side wall of the switching chute, a sliding guide cavity is communicated and arranged in the right side wall of the switching chute, a sliding guide block body is connected in the sliding guide cavity in a sliding fit manner, a top pressing spring is connected in the right side top pressing fit manner of the sliding guide block body, an inner key rotating sleeve with the right side end connected with the left side end of the sliding guide block body in a rotating fit manner is arranged in the switching chute, a third gear is fixedly arranged on the outer surface of the inner key rotating sleeve in the circumferential direction, an outer key shaft with the left side end connected with the right side end of the driving motor in a power fit manner is connected in the inner key rotating sleeve in a matching manner, a directional sliding cavity is communicated and arranged in the, the left side of the directional sliding cavity is opposite to the supporting plate on the lower side of the directional sliding cavity, a directional magnet is fixedly arranged in the directional sliding cavity, and a pulling rope is fixedly arranged between the right tail end of the directional magnet and the right tail end of the guide block body.

According to the further technical scheme, the maximum circumcircle of the top of the third gear extends into the first transmission and control cavity, and the maximum circumcircle of the bottom of the third gear extends into the angle adjusting driving cavity.

According to the further technical scheme, the second gear and the first gear are arranged in a staggered mode, and when the third gear is in meshed connection with the second gear, the first gear is in a disengaged state; when the third gear is meshed with the first gear, the second gear is in a disengaged state.

The invention has the beneficial effects that: the street lamp angle adjusting device is simple in structure and convenient to operate, the power control mechanism controls the protective cover plate mechanism and the telescopic monitor, so that automatic control opening and closing work of the protective cover plate mechanism and stretching work of the telescopic monitor are achieved, the automatic protection function in severe weather is improved, the service life is greatly prolonged, meanwhile, the power control mechanism controls rotation of the angle adjusting worm, the angle adjusting worm and the angle adjusting worm wheel are made to work in a matched mode, different angle adjusting work of the street lamp angle adjusting device is achieved, adjusting requirements of different angles are met, the monitoring effect is improved, and meanwhile, the function diversity and the practicability of the street lamp are improved.

Drawings

FIG. 1 is a schematic diagram of an internal structure of an LED street lamp illumination control monitoring device according to the present invention;

FIG. 2 is a schematic diagram of the structure of A-A of FIG. 1 according to the present invention;

FIG. 3 is a schematic diagram of the structure of B-B in FIG. 1 according to the present invention;

FIG. 4 is an enlarged partial schematic view of C of FIG. 1 in accordance with the present invention;

Fig. 5 is a schematic perspective view of an arc-shaped guard plate according to the present invention.

Detailed Description

the invention will now be described in detail with reference to fig. 1-5, for convenience of description, the following orientations will now be defined: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

Referring to fig. 1 to 5, the LED street lamp lighting control monitoring device according to the embodiment of the present invention includes a monitoring main body 6, an angle modulation driving cavity 63 is disposed in the monitoring main body 6, the monitoring main body 6 is connected with an LED street lamp post 68 which penetrates through the angle modulation driving cavity 63 and extends back and forth in a rotating and matching manner, an angle modulation worm wheel 681 which is connected with the LED street lamp post 68 in a circumferential and fixed manner is disposed in the angle modulation driving cavity 63, an angle modulation rotating shaft 631 which extends left and right in a rotating and matching manner is connected to the upper side of the angle modulation worm wheel 681, an angle modulation worm 632 which is meshed with the angle modulation worm wheel 681 and connected to the angle modulation worm wheel 632 in a circumferential and fixed manner is disposed on the left side of the angle modulation worm 632, a monitoring accommodation cavity 62 is disposed on the left side of the angle modulation driving cavity 63, and a protective cover mechanism is disposed in the monitoring accommodation cavity 62, the monitoring accommodating cavity 62 is internally provided with a telescopic monitoring mechanism, an open slot 66 communicated with the outside is arranged in the left side wall of the monitoring accommodating cavity 62, a linkage control mechanism for driving and controlling the protective cover plate mechanism and the telescopic monitoring mechanism to work is arranged on the upper side of the angle modulation driving cavity 63, and a power control mechanism for controlling the linkage control mechanism to work is arranged between the linkage control mechanism and the angle modulation driving cavity 63.

Beneficially or exemplarily, the telescopic monitoring mechanism comprises a telescopic fixed block 621 fixedly connected with the right side wall of the angle modulation driving cavity 63, a telescopic sliding cavity 6211 with a leftward opening is arranged in the telescopic fixed block 621, and a telescopic monitor 6212 is connected in the telescopic sliding cavity 6211 in a sliding fit manner.

Beneficially or exemplarily, the protecting cover mechanism includes an arc-shaped protecting plate 622, the arc-shaped protecting plate 622 is located at a left side position of the telescopic fixing block 621, supporting plates 6221 are fixedly arranged at upper and lower ends of the arc-shaped protecting plate 622, and an electromagnetic coil device 623 is fixedly arranged in the supporting plate 6221 at the lower side.

Advantageously or exemplarily, the linkage control mechanism includes a first transmission cavity 65 and a second transmission cavity 61 located at an upper side of the first transmission cavity 65, a first rotating shaft 651 is rotatably and fittingly connected to the first transmission cavity 65 and extends left and right, a second gear 653 is fixedly and circumferentially arranged on the first rotating shaft 651, a first driving wheel 652 fixedly and fittingly connected to the first rotating shaft 651 in a circumferential direction is arranged at a left side of the second gear 653, a first bevel gear 654 fixedly and fittingly connected to the first rotating shaft 651 in a circumferential direction is arranged at a right side of the second gear 653, a left extending section of the second transmission cavity 61 is located at an upper side position of the monitoring accommodation cavity 62, a second rotating shaft 614 is rotatably and fittingly connected between the monitoring accommodation cavity 62 and the second transmission cavity 61, a first driving wheel 613 located in the second transmission cavity 61 is fixedly and arranged at a top end of the second rotating shaft 614, the bottom end of the second rotating shaft 614 is fixedly connected with the supporting plate 6221 at the upper side in a matching manner, a third rotating shaft 611 is connected between the second transmission cavity 61 and the first transmission cavity 65 in a rotating manner, a third transmission wheel 612 positioned in the second transmission cavity 61 is fixedly arranged at the top end of the third rotating shaft 611, a first transmission belt 615 is connected between the first transmission wheel 613 and the third transmission wheel 612 in a power matching manner, a second bevel gear 616 engaged and connected with the first bevel gear 654 is fixedly arranged at the bottom end of the third rotating shaft 611, a third transmission cavity 67 with a top end communicated with the first transmission cavity 65 is arranged between the monitoring accommodating cavity 62 and the angle adjusting driving cavity 63, the first transmission wheel 652 is positioned at the upper side position of the third transmission cavity 67, and an internal thread rotating sleeve 624 is rotatably connected in a matching manner in the left side wall of the third transmission cavity 67, internal thread changes cover 624 internal thread cooperation and is connected with flexible screw 6241, flexible screw 6241 the left side end with flexible watch-dog 6212 fixed coordination is connected, the right side end of internal thread changes cover 624 has set firmly to be located fourth drive wheel 671 in the third transmission chamber 67, fourth drive wheel 671 with power fit is connected with second drive belt 672 between the first drive wheel 652, thereby realizes automatic control the flexible coordinated control of flexible watch-dog 6212 and the upset control of realization automatic control arc guard plate 622.

Beneficially or exemplarily, the power control mechanism includes a switching sliding chute 69, a top portion of the switching sliding chute 69 is communicated with the first control chamber 65, a bottom portion of the switching sliding chute 69 is communicated with the angle adjusting driving chamber 63, a driving motor 691 is fixedly arranged in a left side wall of the switching sliding chute 69, a sliding guide chamber 692 is communicated in a right side wall of the switching sliding chute 69, a sliding guide block 693 is connected in the sliding guide chamber 692 in a sliding fit manner, a pressing spring 694 is connected in the sliding guide block 693 in a pressing fit manner, an inner key rotary sleeve 695 is arranged in the switching sliding chute 69, a right end of the inner key rotary sleeve 695 is rotatably connected with a left end of the sliding guide block 693 in a matching manner, a third gear 697 is fixedly arranged on an outer surface of the inner key rotary sleeve 695 in a circumferential direction, an outer key shaft 696 is connected in the inner key rotary sleeve 695 in a matching manner, and a left end of the inner key rotary sleeve 695 is in, a directional sliding cavity 64 is communicated with the right side wall of the monitoring accommodating cavity 62, the left side of the directional sliding cavity 64 is opposite to the supporting plate 6221 on the lower side, a directional magnet 641 is fixedly arranged in the directional sliding cavity 64, and a pulling rope 645 is fixedly arranged between the right side end of the directional magnet 641 and the right side end of the guide block body 693.

Advantageously or exemplarily, the top maximum circumcircle of the third gear 697 extends into the first transmission chamber 65 and the bottom maximum circumcircle of the third gear 697 extends into the recliner drive chamber 63.

Advantageously or exemplarily, the second gear 653 is staggered with the first gear 633, and when the third gear 697 is in meshing connection with the second gear 653, the first gear 633 is in a disengaged state; when the third gear 697 is in meshing engagement with the first gear 633, the second gear 653 is brought into a disengaged state.

During the initial state, flexible watch-dog 6212 is located flexible sliding chamber 6211 completely, and makes arc guard plate 622 be located flexible solid block 621 positive left side position, simultaneously, makes arc guard plate 622 be located the positive right side position of open slot 66, at this moment, makes the guide block body 693 be located the left side section of guide sliding chamber 692, and then makes the guide block body 693 drive the third gear 697 on the interior key commentaries on classics cover 695 and furthest be located the left side position in switching spout 69, and make the biggest circumscribed circle in top of third gear 697 and second gear 653 meshing be connected, simultaneously, make the biggest circumscribed circle in bottom of third gear 697 furthest keep away from first gear 633.

Example 1

when the telescopic monitor 6212 needs to be controlled to perform telescopic operation, the external key shaft 696 is controlled by the driving motor 691 to drive the internal key rotary sleeve 695 to rotate, so that the internal key rotary sleeve 695 drives the third gear 697 and the second gear 653 to rotate, and the second gear 653 drives the first driving wheel 652 and the first bevel gear 654 on the first rotary shaft 651 to rotate, at this time, the second driving belt 672 on the first driving wheel 652 drives the fourth driving wheel 671 and the internal thread rotary sleeve 624 to rotate, so that the telescopic monitor 6212 is driven by the telescopic screw 6241 to slide towards the left direction in the telescopic sliding chamber 6211 due to the rotation of the internal thread rotary sleeve 624, at the same time, the second bevel gear 616 and the third driving wheel 612 at the top of the third rotary shaft 611 are driven to rotate by the rotation of the first driving belt 615 on the third driving wheel 612, at this time, the first driving wheel 613 and the second rotary shaft 614 are driven to rotate by the first driving belt 615 on the third driving wheel 612, and the upper supporting plate 6221 is fixedly connected with the, and then second pivot 614 drives the rotation of protective cover mechanism, when flexible watch-dog 6212 moves the left side position in the smooth chamber 6211 that stretches out and draws back, and make second pivot 614 drive arc protection plate 622 keep away from the positive left side position of smooth chamber 6211 that stretches out and draws back, at this moment, continue to control driving motor 691 and rotate, slide to the open slot 66 in flexible watch-dog 6212 until, control driving motor 691 stop rotation this moment, and simultaneously, rotate by second pivot 614, and then drive arc protection plate 622 furthest keep away from the positive left side position of smooth chamber 6211 that stretches out and draws back.

Example 2

When the shooting angle needs to be adjusted, the electromagnetic coil device 623 is powered on, so that the directional magnet 641 and the electromagnetic coil device 623 generate suction force, at this time, the left end of the directional magnet 641 extends into the monitoring accommodating cavity 62 and abuts against the supporting plate 6221 on the lower side, the protective cover plate mechanism is prevented from shaking during movement, meanwhile, the pull rope 645 at the right end of the directional magnet 641 drives the sliding guide block 693 to overcome the jacking force of the jacking spring 694 and slide towards the right side direction in the sliding guide cavity 692, so that the maximum circumcircle at the bottom of the third gear 697 is in a meshing connection state with the first gear 633, at the same time, the maximum circumcircle at the top of the third gear 697 is far away from the second gear 653, at this time, the right section of the outer key shaft 696 and the left section of the inner key rotary sleeve 695 are kept in a matching connection state, and then the outer key shaft 696 is controlled by the driving motor 691 to drive the inner key rotary sleeve 695 and the third gear 697 to rotate, the third gear 697 drives the first gear 633 and the angle adjusting worm 632 on the angle adjusting shaft 631 to rotate in cooperation with the angle adjusting worm wheel 681, so as to drive the monitoring main body 6 to realize the overall angle adjustment.

It will be apparent to those skilled in the art that various modifications may be made to the above embodiments without departing from the general spirit and concept of the invention. All falling within the scope of protection of the present invention. The protection scheme of the invention is subject to the appended claims.

Claims

1. The utility model provides a LED street lamp lighting control monitoring device, includes the control main part, its characterized in that: the LED street lamp comprises a monitoring main body and is characterized in that an angle modulation driving cavity is arranged in the monitoring main body, the monitoring main body is connected with an LED street lamp pole which penetrates through the angle modulation driving cavity in a rotating fit manner and extends forwards and backwards, an angle modulation worm wheel which is fixedly matched and connected with the LED street lamp pole in the circumferential direction is arranged in the angle modulation driving cavity, the upper side of the angle modulation worm wheel is connected with an angle modulation rotating shaft which extends leftwards and rightwards in a rotating fit manner, an angle modulation worm which is meshed and connected with the angle modulation worm wheel is fixedly arranged on the circumferential direction of the angle modulation worm wheel, a first gear which is fixedly matched and connected with the angle modulation rotating shaft in the circumferential direction is arranged on the left side of the angle modulation worm, a monitoring accommodating cavity is arranged on the left side of the angle modulation driving cavity, a protective cover plate mechanism is arranged in the monitoring accommodating cavity, a telescopic monitoring mechanism is further arranged in the accommodating cavity, an open slot which The angle adjusting mechanism comprises a working linkage control mechanism, a power control mechanism used for controlling the working of the linkage control mechanism is arranged between the linkage control mechanism and the angle adjusting driving cavity, and a power control mechanism used for controlling the working of the linkage control mechanism is arranged between the linkage control mechanism and the angle adjusting driving cavity.

2. The lighting control and monitoring device for the LED street lamp according to claim 1, wherein: the telescopic monitoring mechanism comprises a telescopic fixed block fixedly connected with the right side wall of the angle modulation driving cavity, a telescopic sliding cavity with a leftward opening is arranged in the telescopic fixed block, and a telescopic monitor is connected in the telescopic sliding cavity in a sliding fit manner.

3. The lighting control and monitoring device for the LED street lamp according to claim 2, wherein: the protective cover plate mechanism comprises an arc-shaped protective plate, the arc-shaped protective plate is located at the left side position of the telescopic fixing block, supporting plates are fixedly arranged at the upper end and the lower end of the arc-shaped protective plate respectively, and an electromagnetic coil device is fixedly arranged in the supporting plates at the lower side.

4. the lighting control and monitoring device for the LED street lamp according to claim 1, wherein: the linkage control mechanism comprises a first transmission cavity and a second transmission cavity positioned on the upper side of the first transmission cavity, a first rotating shaft which is arranged in a left-right extending mode is connected in the first transmission cavity in a rotating fit mode, a second gear is fixedly arranged on the first rotating shaft in the circumferential direction, a first transmission wheel which is fixedly connected with the first rotating shaft in the circumferential direction in a matched mode is arranged on the left side of the second gear, a first bevel gear which is fixedly connected with the first rotating shaft in the circumferential direction in a matched mode is arranged on the right side of the second gear, the left extending section of the second transmission cavity is positioned on the upper side of the monitoring accommodating cavity, a second rotating shaft is connected between the monitoring accommodating cavity and the second transmission cavity in a rotating fit mode, a first transmission wheel positioned in the second transmission cavity is fixedly arranged at the tail end of the top of the second rotating shaft, and the tail end of the bottom of the second rotating shaft is fixedly connected with the supporting plate on, a third rotating shaft is connected between the second transmission cavity and the first transmission cavity in a rotating fit manner, a third transmission wheel positioned in the second transmission cavity is fixedly arranged at the tail end of the top of the third rotating shaft, a first transmission belt is connected between the first transmission wheel and the third transmission wheel in a power fit manner, a second bevel gear meshed with the first bevel gear is fixedly arranged at the tail end of the bottom of the third rotating shaft, a third transmission cavity is arranged between the monitoring accommodating cavity and the angle adjusting driving cavity, the tail end of the top of the third transmission cavity is communicated with the first transmission cavity, the first transmission wheel is positioned at the upper side position of the third transmission cavity, an internal thread rotating sleeve is connected in a rotating wall on the left side of the third transmission cavity in a rotating fit manner, a telescopic screw rod is connected in the internal thread rotating sleeve in a matching manner, and the tail end on the left side of the telescopic screw rod is fixedly connected with the telescopic monitor in, and the tail end of the right side of the internal thread rotating sleeve is fixedly provided with a fourth transmission wheel positioned in the third transmission cavity, and a second transmission belt is connected between the fourth transmission wheel and the first transmission wheel in a power fit manner.

5. The lighting control and monitoring device for the LED street lamp according to claim 1, wherein: the power control mechanism comprises a switching chute, the top of the switching chute is communicated with the first control cavity, the bottom of the switching chute is communicated with the angle modulation driving cavity, a driving motor is fixedly arranged in the left side wall of the switching chute, a guide sliding cavity is communicated and arranged in the right side wall of the switching chute, a guide sliding block body is connected in the guide sliding cavity in a sliding fit manner, a top pressing spring is connected in the right side top pressing fit manner of the guide sliding block body, an inner key rotating sleeve is arranged in the switching chute, the right side end of the inner key rotating sleeve is connected with the left side end of the guide sliding block body in a rotating fit manner, a third gear is circumferentially fixedly arranged on the outer surface of the inner key rotating sleeve, an outer key shaft is connected in the inner key rotating sleeve in a matching manner, the left side end of the inner key rotating sleeve is connected with the right side end of the driving motor in a power fit manner, a directional sliding cavity is communicated and arranged in the right side, and a directional magnet is fixedly arranged in the directional sliding cavity, and a pulling rope is fixedly arranged between the right tail end of the directional magnet and the right tail end of the guide block body.

6. The LED street lamp illumination control monitoring device according to claim 5, wherein: the maximum circumcircle of the top of the third gear extends into the first transmission and control cavity, and the maximum circumcircle of the bottom of the third gear extends into the angle modulation driving cavity.

7. The lighting control and monitoring device for the LED street lamp according to claim 1, wherein: the second gear and the first gear are arranged in a staggered mode, and when the third gear is in meshed connection with the second gear, the first gear is in a disengaged state; when the third gear is meshed with the first gear, the second gear is in a disengaged state.