CN116045230A - Multifunctional solar integrated energy-saving LED lamp - Google Patents

Abstract

The invention relates to a multifunctional solar integrated energy-saving LED lamp, which relates to the technical field of lighting lamps, and comprises a lamp post fixedly arranged on the ground, wherein the upper end of the lamp post is fixedly connected with an LED lamp through a lamp arm, the top of the lamp post is rotatably provided with a solar charging plate, and the solar charging plate is connected with the LED lamp through an electric wire; the upper end of the lamp post is provided with a lifting mechanism for controlling the lamp arm and the LED lamp to lift up and down, and the top of the lamp post is also provided with a movable component for controlling the solar charging panel to lift up and down; the invention can control the LED lamp and the solar charging panel to perform up-and-down lifting operation; secondly, the invention can be modified by utilizing the existing lamp post, and the required parts are directly assembled on the existing lamp post to realize the integrated energy-saving LED lamp, so that if the custom-made lamp post with a special shape is produced, a great amount of time and effort are consumed, and higher cost is generated.

Description

Multifunctional solar integrated energy-saving LED lamp

Technical Field

The application relates to the technical field of lighting lamps, in particular to a multifunctional solar integrated energy-saving LED lamp.

Background

An LED, light emitting diode, is a solid-state semiconductor device capable of converting electric energy into visible light, which can directly convert electricity into light, and thus is widely used in the field of illumination.

The street lamp is a main device adopting an LED lamp as a luminous source, is a lamp with a lighting function, and is widely applied to places needing lighting such as streets, roads, residential communities and the like; the traditional street lamp comprises a lamp post, an electric cabinet, a lamp holder and lamps, wherein the electric cabinet and part of the lamp post are embedded on the ground and used for a long time, and the street lamp has a certain service life and a severe working environment, so that the street lamp is easy to break.

The traditional replacing mode of the street lamp is that a ladder or a scaffold is manually built for replacement, the labor intensity of the mode is high, the efficiency is low, and therefore the existing device is further improved, for example, a Chinese patent with the patent number of CN205842578U discloses a lifting street lamp, which comprises a street lamp vertical rod, a street lamp horizontal rod and a street lamp, wherein a pulley block is arranged on the lifting street lamp, a fixed pulley of the pulley block is arranged on the upper part of the street lamp vertical rod, and a movable pulley is arranged on the street lamp horizontal rod and is wound on the fixed pulley and the movable pulley through a pull rope; by adopting the technical scheme, the novel lifting street lamp is provided, so that the maintenance cost and difficulty of the street lamp are greatly reduced, and the maintenance cost of the street lamp is saved; the safety coefficient of the maintenance work of the street lamp is improved, and the safety is enhanced; the maintenance work efficiency of the street lamp is greatly improved; can be applied to various occasions requiring street lamp illumination.

1. In the prior art, the whole street lamp is controlled to lift up and down through the stay cord to after rising the appointed position with the street lamp, still fix it through the stay cord, if the stay cord breaks then can lead to the street lamp to appear dropping, and among the prior art, can't realize the street lamp and carry out not high regulation, often only can rise the street lamp to the top of lamp pole.

2. Nowadays, often advocate green, consequently street lamp among the prior art all is equipped with solar charging panel and supplies power to the street lamp, and it can reduce the consumption of energy by a wide margin, but among the prior art, to the solar energy utilize effect relatively poor, solar charging panel can't realize rotatory usually, consequently leads to its illumination's time shorter, and then makes solar energy's utilization ratio relatively poor.

3. Secondly, among the prior art, solar panel fixes at the top of lamp pole, makes it be in the highest position of lamp pole, avoids nearby building or trees to cause shielding to it, consequently if need to maintain it, usually operating personnel adopts scaling ladder or scaffold frame to climb from top to bottom, and its operation has certain danger.

Disclosure of Invention

In order to achieve multifunctional solar integration of the street lamp, the application provides a multifunctional solar integrated energy-saving LED lamp.

The utility model provides a multi-functional solar energy integration energy-saving LED lamp, includes lamp pole, LED lamp, lamp arm and solar charging panel, subaerial fixed mounting has the lamp pole, and the upper end of lamp pole passes through lamp arm fixedly connected with LED lamp, and solar charging panel is installed in the rotation of the top of lamp pole, links to each other with the LED lamp through the electric wire on the solar charging panel.

The upper end of the solar charging panel is provided with a chip control mechanism for controlling the solar charging panel to rotate, the upper end of the lamp post is provided with a lifting mechanism for controlling the lamp arm and the LED lamp to lift up and down, and the top of the lamp post is also provided with a movable component for controlling the solar charging panel to lift up and down so as to maintain and replace the solar charging panel.

Preferably, the lifting mechanism comprises two mounting holes which are vertically distributed and are formed in the front side wall of the lamp post, bolts are fixedly connected in the mounting holes through bolts and nuts, driving wheels for placing a twisted rope are rotatably mounted on the two bolts, the twisted rope is sleeved on the two driving wheels together, diamond-shaped blocks are fixed on the twisted rope at equal intervals, the diamond-shaped blocks are connected with the lamp arm through an opening and closing assembly capable of being actively opened and closed, and square control grooves are formed in the driving wheels at the lower end of the lamp post.

The lamp is characterized in that the left end and the right end of the lamp post are fixedly connected with two groups of bilaterally symmetrical guide rods through bolts and nuts, arc-shaped sliding blocks are arranged on the two groups of guide rods in a sliding mode, the front sides of the arc-shaped sliding blocks are fixedly connected with fixing blocks, and the outer sides of the arc-shaped sliding blocks are fixedly connected with the lamp arms.

Preferably, two the outside of drive wheel and twisted rope is equipped with the protection casing of fixing on the lamp pole, and perpendicular sliding groove has been seted up at the left and right sides of protection casing, all slidable mounting has the sliding block in two sliding grooves, and fixedly connected with shape frame on the sliding block that is located the protection casing right side, and the fixed block is contradicted on shape frame, is fixed with the auxiliary frame on the sliding block that is located the protection casing left side, and the auxiliary frame carries out fixed connection to two sliding blocks.

Preferably, the opening and closing assembly comprises two right-angle plates which are fixedly connected with the front side wall of the protective cover and used for shielding the sliding grooves, vertical racks are fixedly connected to the inner sides of the right-angle plates, and the fixing blocks correspond to the vertical racks.

The inner side of the fixed block is provided with a horizontal groove, two telescopic rods which are vertically and symmetrically distributed are fixedly arranged in the horizontal groove, one sides of the two telescopic rods, which are close to the vertical racks, are jointly provided with an opening and closing rack, the opening and closing rack is mutually meshed with the vertical racks, the two telescopic rods are jointly and fixedly connected with an isosceles trapezoid block, and part cover that lies in between isosceles trapezoid piece and the fixed block inner wall on two telescopic links is equipped with telescopic spring, and the one end fixedly connected with haulage rope of rack is opened and shut in the isosceles trapezoid piece is kept away from to the isosceles trapezoid piece, and the haulage rope slides and runs through the fixed block, and the one end that the isosceles trapezoid piece was kept away from to the haulage rope sets up in the block terminal, and the block terminal is fixed in the front side lower extreme of lamp pole, and the inboard of fixed block is equipped with the control module that opens and shuts the rack that opens and shuts.

Preferably, the control module comprises a movable groove formed in the upper end of a horizontal groove on the inner side of the fixed block, a control spring is fixedly connected in the movable groove, a first right trapezoid block which is arranged in the movable groove in a sliding manner up and down is fixedly connected on the control spring, and the inclined surface of the first right trapezoid block is matched with the isosceles trapezoid block.

Preferably, grooves which are mutually communicated with each other are formed in the upper end of the horizontal groove and are positioned on the right side of the first right trapezoid block, supporting springs are fixedly connected to the front end and the rear end of each groove, a limit groove is formed in the left side of each groove, the second right trapezoid block is slidably mounted in the limit groove, the inclined plane of the second right trapezoid block is deviated from the inclined plane of the first right trapezoid block, and a linkage module is arranged at the side end of each fixing block.

One end of the first right trapezoid block, which is close to the second right trapezoid block, is fixed with a synchronizing rod and a reset spring, the reset spring is positioned below the synchronizing rod, and the second right trapezoid block is provided with a synchronizing groove corresponding to the synchronizing rod.

Preferably, the linkage module comprises a round hole formed in the upper end of a sliding block on the right side of the protective cover, the sliding block is sleeved on the stranded rope through the round hole, a horizontal bar-shaped groove is formed in the round hole, a limit fork is slidably mounted in the bar-shaped groove, one end of the limit fork, which is far away from the bar-shaped groove, is slidably penetrated through the -shaped frame and the fixed block, the limit fork is distributed towards the horizontal groove in the fixed block, and a linkage spring is connected between the limit fork and the bar-shaped groove on the sliding block.

Preferably, the inside of lamp pole upper end is fixed with the rotating electrical machines, and the output of rotating electrical machines is fixed with the cross piece, and cross piece's upper end slidable mounting has the cross cover, and the upper end fixedly connected with power coil of cross cover, cross cover slide setting are in the expansion tank that the pivot bottom was seted up, and the upper end of cross cover is fixed with power coil, and pivot bottom expansion tank internal fixation has magnetism to inhale the piece, and magnetism is inhaled the piece and is located power coil's top, and the pivot is rotated and is installed at the top of lamp pole, and the top of pivot is fixed with the carousel, is equipped with fixed subassembly on the carousel.

The solar charging device is characterized in that a support frame is fixedly connected to a sliding block on the left side of the protective cover, a cross-shaped support is arranged at the upper end of the support frame through an active butt joint separation module, and a solar charging panel is fixedly installed on the cross-shaped support through bolts and nuts.

Preferably, the fixed component comprises a connecting groove formed in the upper end of the turntable, corresponding to the cross-shaped support, a first metal contact is fixed in the connecting groove, a second metal contact is fixedly connected to the upper end of the cross-shaped support, and the first metal contact and the second metal contact are contacted and separated to control the power on and the power off of the LED lamp.

The clamping device is characterized in that the side end of the rotating shaft is fixedly connected with a clamping plate, the side end of the clamping plate is penetrated and provided with a fixing groove, an L-shaped clamping rod is slidably connected in the fixing groove, the side end of the cross-shaped support is provided with a clamping groove corresponding to the L-shaped clamping rod, and a clamping spring is connected between the L-shaped clamping rod and the clamping plate.

Be equipped with the same structure with protection casing right side sliding block on the sliding block of protection casing left side, and the right side conflict of protection casing left side sliding block has T shape frame, and T shape frame slides on the inner wall of protection casing, and is connected with buffer spring between T shape frame and the protection casing.

Preferably, the initiative butt joint separation module includes the cross recess of seting up of support frame upper end, the middle part fixedly connected with initiative spring bar of cross recess, the upper end fixedly connected with slip sleeve of initiative spring bar, slip sleeve slides and sets up on the support frame, vertical groove has been seted up to one side of slip sleeve upper end, has perpendicular door through perpendicular spring slidable mounting in the vertical groove, the side of perpendicular door is fixed with the triangular block, slip sleeve's upper end is fixed with balanced rack, fixedly connected with pulls the rope on the slip sleeve.

One side of the L-shaped clamping connection rod is rotatably provided with a balance gear meshed with the balance rack, the side end of the balance gear is fixedly connected with a cam block through a connecting shaft, the cam block is propped against one end of the L-shaped clamping connection rod, which is far away from the balance gear, the lower end of the clamping plate is fixedly provided with a vertical plate, and a homing spring is arranged between the vertical plate and the cam block.

In summary, the present application includes at least one of the following beneficial technical effects:

1. According to the invention, the LED lamp and the solar charging panel can be controlled to lift up and down in a lifting manner, so that the maintenance efficiency of the solar charging panel and the LED lamp is greatly ensured, and the potential safety hazard of operators is reduced compared with the traditional climbing manner by manpower.

2. According to the invention, the lifting of the LED lamp and the solar charging panel can be controlled through the twisted rope, and meanwhile, the LED lamp can be fixedly adjusted within a certain range of the lamp post, so that the whole equipment can be widely applied to different scenes, and the applicability of the equipment is improved.

3. According to the solar charging panel, the position of the solar charging panel can be regulated every day according to the rising and falling track of solar east, so that the illumination time and the illumination area can be improved to the greatest extent, and the utilization rate of the solar charging panel is improved.

4. According to the LED lamp and lamp post fixing device, the LED lamp and the lamp post are actively and fixedly connected through the control module, the LED lamp is prevented from being controlled to be positioned only through the twisted rope, and if the twisted rope is broken or other unexpected situations occur, the stable connection of the LED lamp and the lamp post is effectively ensured, and the stability of the LED lamp is improved.

5. The invention can utilize the existing lamp post to slightly reform, directly punch holes on the existing lamp post, assemble other needed parts through bolts and nuts, and consume a great deal of time and effort when producing the custom lamp post with special shape, thus generating a great deal of cost.

Drawings

Fig. 1 is a schematic view of a first view main body structure of the present invention.

Fig. 2 is a schematic view of a second view main body structure of the present invention.

Fig. 3 is an enlarged view of a portion of fig. 2 according to the present invention.

Fig. 4 is a schematic view of a part of the structure of the lifting mechanism.

Fig. 5 is a partial enlarged view of the present invention at B in fig. 4.

Fig. 6 is a schematic view of a part of the structure of the opening and closing assembly of the present invention.

Fig. 7 is a partial enlarged view of the present invention at C in fig. 6.

Fig. 8 is a schematic view of a structure of a rotary electric machine, a cross sleeve, an energizing coil, and the like.

Fig. 9 is a first view structural schematic diagram of the fixing assembly.

Fig. 10 is a second view structural schematic diagram of the fixing member.

Fig. 11 is a partial enlarged view of the present invention at D in fig. 10.

Fig. 12 is a partial enlarged view of fig. 10 at E according to the present invention.

Fig. 13 is a schematic view of a first view structure of an active docking and undocking module.

Fig. 14 is a schematic view of a second view structure of the active docking and undocking module.

Reference numerals illustrate: 1. a lamp post; 2. an LED lamp; 3. a lamp arm; 4. a solar charging panel; 5. a lifting mechanism; 6. a movable assembly; 52. a driving wheel; 53. a rope; 54. diamond-shaped blocks; 55. an opening and closing assembly; 56. a guide rod; 57. an arc-shaped sliding block; 58. a fixed block; 20. a protective cover; 21. a sliding block; 22. shaped shelves; 550. a right angle plate; 551. a vertical rack; 552. a telescopic rod; 553. a rack is opened and closed; 554. an isosceles trapezoid block; 555. a telescopic spring; 556. a traction rope; 50. a control module; 559. a distribution box; 549. a horizontal slot; 501. a control spring; 502. a first right trapezoid block; 510. grooves; 511. a support spring; 512. a limit groove; 513. a second right trapezoid block; 59. a linkage module; 515. a synchronizing lever; 516. a return spring; 591. a limit fork; 592. an auxiliary frame; 593. a linkage spring; 10. a rotating electric machine; 11. a cross block; 12. a cross sleeve; 13. a power-on coil; 14. a magnetic suction block; 15. a rotating shaft; 16. a turntable; 17. a fixing assembly; 18. a support frame; 19. an active docking and separation module; 30. a cross-shaped bracket; 170. a connecting groove; 171. a first metal contact; 172. a second metal contact; 173. a clamping plate; 174. a clamping spring; 175. an L-shaped clamping connection rod; 176. a T-shaped frame; 177. a buffer spring; 190. an active spring lever; 191. a sliding sleeve; 192. a vertical spring; 193. a vertical door; 194. triangular blocks; 195. a balance rack; 198. a return spring; 199. a vertical plate; 200. pulling the rope; 196. a balance gear; 197. a cam block.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-14.

The embodiment of the application discloses a multi-functional solar energy integration energy-saving LED lamp, realizes the lift of LED lamp 2 and solar charging panel 4 through the mode of going up and down promptly, and then effectual improvement LED lamp 2 and solar charging panel 4 maintain efficiency, avoid operating personnel to climb down along lamp pole 1 to lead to operating personnel's personal safety to receive the threat; secondly, the invention can realize the automatic rotation of the solar charging panel 4, so that the solar charging panel 4 can carry out position adjustment along with the position of the sun, and the utilization rate of the solar charging panel 4 is greatly improved.

Embodiment one:

referring to fig. 1, a multifunctional solar integrated energy-saving LED lamp 2 comprises a lamp post 1, an LED lamp 2, a lamp arm 3 and a solar charging panel 4, wherein the lamp post 1 is fixedly installed on the ground, the upper end of the lamp post 1 is fixedly connected with the LED lamp 2 through the lamp arm 3, the solar charging panel 4 is rotatably installed at the top of the lamp post 1, the solar charging panel 4 is connected with the LED lamp 2 through an electric wire, and the solar charging panel 4 can store converted electric energy, and power is supplied to the LED lamp 2 through the electric wire if necessary.

The upper end of solar charging panel 4 is equipped with the chip control mechanism that control it rotated, and the upper end of lamp pole 1 is equipped with elevating system 5 and is used for controlling lamp arm 3 and LED lamp 2 and goes up and down, thereby the top of lamp pole 1 still is equipped with movable assembly 6 control solar charging panel 4 and goes up and down to realize the maintenance and the change to solar charging panel 4.

It should be noted that, the chip control mechanism is a light sensor in the prior art, and is capable of sensing the existence of light, and sending simple instructions, such as power-off, power-on, etc., through the built-in chip, the lifting mechanism 5 is used for controlling the lifting and lowering of the LED lamp 2, and the movable component 6 is used for controlling the lifting and lowering of the solar charging panel 4.

Referring to fig. 2, firstly, the craftsman assembles the whole equipment, after the whole equipment is assembled, the whole equipment is transported to an area where a street lamp needs to be installed, and then the street lamp is installed on a foundation, so that the street lamp can be used, but the LED lamp 2 has a certain service life, so that the LED lamp 2 needs to be replaced after reaching the service life, and secondly, when the LED lamp 2 is broken, the LED lamp 2 needs to be replaced in time, therefore, the invention provides a lifting mechanism 5 to effectively improve the maintenance and replacement efficiency of the street lamp, based on the following steps:

The lifting mechanism 5 comprises two mounting holes which are arranged on the front side wall of the lamp post 1 and are distributed vertically, bolts are fixedly connected in the mounting holes through bolts and nuts, and driving wheels 52 for placing a stranded rope 53 are rotatably arranged on the two bolts; the bolt is fixed through the bolts and the nuts in the invention to effectively utilize the existing lamp post 1, so that a large number of traditional street lamps are installed in some places; when the lamp post 1 needs to be upgraded and modified, the existing lamp post 1 can be utilized to carry out slight modification, and the punching operation is directly carried out on the existing lamp post 1, so that if the custom-made lamp post 1 with a special shape is produced, a great deal of time and effort are consumed, and a great deal of cost is generated.

The two driving wheels 52 are sleeved with a twisted rope 53, diamond-shaped blocks 54 are fixed on the twisted rope 53 at equal intervals, the diamond-shaped blocks 54 are connected with the lamp arm 3 through an opening and closing component 55 capable of being opened and closed actively, and square control grooves are formed in the driving wheels 52 located at the lower end of the lamp pole 1.

The square control groove is formed in the driving wheel 52 at the lower end of the lamp post 1, and the square control groove is used for enabling an operator to hold a standard crank handle to insert the standard crank handle into the square control groove, then lifting of the street lamp is controlled through the crank handle, and when the crank handle is rotated anticlockwise, the street lamp is in a lifting trend; when the handle is rotated clockwise, the street lamp is in a descending trend.

Secondly, all the street lamps adopt crank handles to control the driving wheels 52, so that standardization can be realized, and the applicability of the street lamps is improved.

The left end and the right end of the lamp post 1 are fixedly connected with two groups of bilaterally symmetrical guide rods 56 through bolts and nuts, arc-shaped sliding blocks 57 are arranged on the two groups of guide rods 56 in a sliding mode, fixing blocks 58 are fixedly connected to the front sides of the arc-shaped sliding blocks 57, opening and closing assemblies 55 are arranged on the fixing blocks 58, and the outer sides of the arc-shaped sliding blocks 57 are fixedly connected with the lamp arms 3.

In specific implementation, when the street lamp is installed, an operator firstly corresponds the arc-shaped sliding block 57 on the lamp arm 3 to the guide rod 56, so that the arc-shaped sliding block 57 is arranged on the guide rod 56 in a sliding manner, the effect is to prevent the street lamp from falling or tilting in the process of ascending and descending, the street lamp can move up and down, the ascending and descending of the street lamp are realized, and the function of the stranded rope 53 is to pull the street lamp up and down; when the street lamp rises to a designated position, fixing the street lamp; when maintenance of the street lamp is required, an operator rotates the driving wheels 52 at the lower end of the lamp post 1 anticlockwise, the winch 53 starts to move anticlockwise along the two driving wheels 52, and the LED lamp 2 rises upwards along with the sliding block 21.

Referring to fig. 2 and 3, a schematic structural diagram of a driving mechanism for controlling the LED lamp 2 to move up and down is shown, a protection cover 20 fixed on the lamp post 1 is arranged at the outer sides of the driving wheel 52 and the twisted rope 53, vertical sliding grooves are formed at the left and right ends of the protection cover 20, sliding blocks 21 are slidably mounted in the two sliding grooves, a -shaped frame 22 is fixedly connected to the sliding blocks 21 positioned at the right side of the protection cover 20, and a fixing block 58 is abutted against the -shaped frame 22.

The drive wheel 52 and the twisted rope 53 are both positioned on the outer side of the lamp post 1, so as to avoid long-time exposure to the outside, the lamp post is protected through the protective cover 20, the protective cover 20 covers the lamp post, the protective cover 20 is fixed through bolts and nuts, the outer side wall of the protective cover 20 is provided with a sliding groove, the street lamp is convenient to ascend and descend along the sliding groove, the street lamp is prevented from inclining, and the stability of the street lamp in the up-down movement process is greatly improved through the matching of the sliding groove and the sliding block 21.

Referring to fig. 2 and 3 again, after the street lamp moves up to the designated position, the street lamp needs to be fixed in position, so that the street lamp is prevented from falling off, and based on the fact that the street lamp is fixed in position: the opening and closing assembly 55 comprises two right angle plates 550 fixedly connected to the front side wall of the protective cover 20 and used for shielding the sliding grooves, vertical racks 551 are fixedly connected to the inner sides of the right angle plates 550, and the fixing blocks 58 correspond to the vertical racks 551.

The role of the right angle plate 550 is as follows: not only can shelter from the slip recess, avoid slip recess direct exposure outside, can carry out spacingly when going up and down to the street lamp moreover.

The inner side of the fixed block 58 is provided with a horizontal groove 549, two telescopic rods 552 which are vertically and symmetrically distributed are fixedly arranged in the horizontal groove 549, one sides of the two telescopic rods 552, which are close to the vertical racks 551, are jointly provided with an opening and closing rack 553, and the opening and closing rack 553 and the vertical racks 551 are mutually meshed.

The isosceles trapezoid blocks 554 are fixedly connected to the two telescopic rods 552 together, telescopic springs 555 are sleeved on the parts, located between the isosceles trapezoid blocks 554 and the inner walls of the fixing blocks 58, of the two telescopic rods 552, one end, away from the opening and closing racks 553, of each isosceles trapezoid block 554 is fixedly connected with a traction rope 556, each traction rope 556 penetrates through the fixing block 58 in a sliding mode, one end, away from the isosceles trapezoid blocks 554, of each traction rope 556 is arranged in the distribution box 559, and a control module 50 for opening and closing the corresponding opening and closing racks 553 is arranged on the inner side of each fixing block 58.

In the initial state, the telescopic spring 555 has elasticity, so that the opening and closing rack 553 is meshed with the vertical rack 551.

In specific implementation, when the street lamp rises to a designated position, an operator pulls the traction rope 556 to trigger the control module 50, and drives the opening and closing rack 553 to approach the direction of the vertical rack 551 through the control module 50 until the opening and closing rack 553 and the vertical rack 551 are meshed with each other, at this time, the fixation of the street lamp is completed, and random up-and-down sliding of the street lamp is avoided.

Referring to fig. 4 and 5, the control module 50 includes a movable slot formed at the upper end of a horizontal slot 549 inside the fixed block 58, a control spring 501 is fixedly connected in the movable slot, a first right trapezoid block 502 is fixedly connected on the control spring 501 and slides up and down in the movable slot, and the inclined plane of the first right trapezoid block 502 is matched with an isosceles trapezoid block 554.

The upper end of the horizontal groove 549 is provided with a groove 510 which is communicated with the first right trapezoid block 502 and is positioned on the right side of the first right trapezoid block 502, the front end and the rear end of the groove 510 are fixedly connected with supporting springs 511, the left side of the groove 510 is provided with a limiting groove 512, a second right trapezoid block 513 is slidably mounted in the limiting groove 512, and the inclined plane of the second right trapezoid block 513 is deviated from the inclined plane of the first right trapezoid block 502; it should be noted that, the first rectangular trapezoid block 502 and the second rectangular trapezoid block 513 can be stacked on each other, because one end of the first rectangular trapezoid block 502 close to the second rectangular trapezoid block 513 is a concave structure, and the concave shape corresponds to the second rectangular trapezoid block 513.

The side of fixed block 58 is equipped with linkage module 59, and the one end that is close to No. two right trapezoid blocks 513 of right trapezoid block 502 is fixed with synchronizing bar 515 and reset spring 516, and reset spring 516 is located the below of synchronizing bar 515, has seted up the synchronization groove that corresponds with synchronizing bar 515 on No. two right trapezoid blocks 513.

In specific implementation, when the opening and closing rack 553 and the vertical rack 551 are meshed with each other, an operator pulls the traction rope 556, the opening and closing rack 553 is driven to move back from front to back along the horizontal groove 549 by the traction rope 556, when the opening and closing rack 553 moves, the isosceles trapezoid blocks 554 also move synchronously, the isosceles trapezoid blocks 554 are contacted with the first right trapezoid blocks 502 first, and under the action of external force, the first right trapezoid blocks 502 start to shrink into the movable groove through inclined surfaces and generate pressure on the control spring 501 along with the continuous pulling of the traction rope 556; after the first right trapezoid block 502 is retracted into the movable groove, the isosceles trapezoid block 554 passes over the first right trapezoid block 502, and after the first right trapezoid block 502 loses the external force of the isosceles trapezoid block 554, the isosceles trapezoid block is popped up again through the elasticity of the control spring 501.

At this time, the isosceles trapezoid block 554 generates elastic force to the telescopic spring 555, and meanwhile, the opening and closing rack 553 fixedly connected to the front side of the isosceles trapezoid block 554 is separated from the vertical rack 551, so that the street lamp is in a state of being capable of lifting up and down.

When the street lamp needs to be fixed again, an operator applies a pulling force to the pulling rope 556 which is larger than the pulling force for the first time, so that the isosceles trapezoid blocks 554 continue to move to the rear side, and meanwhile, the isosceles trapezoid blocks 554 abut against the second right trapezoid blocks 513, so that the second right trapezoid blocks 513 move backwards along the grooves 510.

When the second right trapezoid block 513 is abutted against the inner wall of the groove 510, the second right trapezoid block 513 is located at the upper end of the supporting spring 511, at this time, along with the continuous pressing of the isosceles trapezoid block 554 to the second right trapezoid block 513, the second right trapezoid block 513 moves along the limit groove 512 on the groove 510 towards the supporting spring 511, and the second right trapezoid block 513 extrudes the supporting spring 511 through the inclined plane of the second right trapezoid block 513, and when the second right trapezoid block 513 collapses a certain distance towards the supporting spring 511, the isosceles trapezoid block 554 passes over the second right trapezoid block 513, and meanwhile, the isosceles trapezoid block 554 is abutted against the side wall of the second right trapezoid block 513 through the elastic force of the continuously compressed telescopic spring 555.

When an operator releases the traction rope 556, the telescopic spring 555 loses the constraint of external force, the larger elastic force drives the isosceles trapezoid block 554 to extrude the second right trapezoid block 513, so that the second right trapezoid block 513 moves towards the first right trapezoid block 502, after the second right trapezoid block 513 contacts with the first right trapezoid block 502, the second right trapezoid block 513 is overlapped with the first right trapezoid block 502 to form a whole, the elastic force of the telescopic spring 555 is far greater than that of the supporting spring 511, the control spring 501 and the reset spring 516, and therefore the isosceles trapezoid block 554 extrudes the second right trapezoid block 513 and the first right trapezoid block 502 at the moment when the traction rope 556 is released, and the isosceles trapezoid block 554 contracts upwards until the isosceles trapezoid block 554 passes over the second right trapezoid block 513 and the first right trapezoid block 502 again, and the opening and closing rack 553 is meshed with the vertical rack 551 again.

Referring to fig. 6 and 7, when an operator pulls the pulling rope 556, the open-close rack 553 is connected to and disconnected from the rope 53 through the link module 59 as follows: the linkage module 59 includes the round hole of seting up of the sliding block 21 upper end on protection casing 20 right side, and the sliding block 21 is established on the stranded rope 53 through the round hole cover, has seted up horizontal form bar groove in the round hole, and slidable mounting has spacing fork 591 in the bar groove, and the one end that spacing fork 591 kept away from the bar groove is slided and is run through shape frame 22 and fixed block 58 for spacing fork 591 distributes towards the inside horizontal groove 549 of fixed block 58, is connected with the linkage spring 593 between the bar groove on spacing fork 591 and the sliding block 21.

The limiting fork 591 is slidably arranged in a bar-shaped groove on the sliding block 21, and in an initial state, the limiting fork 591 is kept away from the round hole through the initial elastic force of the linkage spring 593.

An auxiliary frame 592 is fixedly connected to the slide block 21 on the right side of the protective cover 20, and the two fixing blocks 58 are fixedly connected through the auxiliary frame 592.

It should be noted that, the spacing between the limiting forks 591 is smaller than the size of the diamond 54, and the aperture of the round hole is larger than the size of the diamond 54.

When the isosceles trapezoid block 554 and the open-close rack 553 move, the open-close rack 553 extrudes the limit fork 591 on the horizontal groove 549, and the limit fork 591 moves towards the sliding block 21 after receiving external force through the inclined surface of the limit fork 591 until the limit fork 591 is inserted into the round hole, and at the moment, the round hole is blocked by the limit fork 591.

After the opening and closing rack 553 is separated from the vertical rack 551, the limiting fork 591 is inserted into the round hole; when the open-close rack 553 is meshed with the vertical rack 551, the limiting fork 591 is far away from the round hole of the sliding block 21, and when an operator rotates the driving wheel 52, the diamond-shaped blocks 54 on the stranded rope 53 drive the sliding block 21 and the whole street lamp to move up and down through the limiting fork 591.

Because the plurality of diamond blocks 54 are arranged on the stranded rope 53 at equal intervals, when the stranded rope 53 moves, external force can be applied to the limiting fork 591 through the diamond blocks 54, namely when the LED lamp is required to descend, the diamond blocks 54 above the sliding block 21 apply downward force to the limiting fork 591, so that the LED lamp is driven to descend; when the LED lamp is required to rise, the diamond-shaped blocks 54 positioned below the sliding blocks 21 apply upward force to the limiting fork 591, so that the LED lamp is driven to rise.

Embodiment two: on the basis of the first embodiment, in order to further improve the intellectualization and convenience of the whole integrated LED lamp 2, the invention provides the movable assembly 6, the solar charging panel 4 arranged at the upper end of the whole lamp post 1 is ensured to perform self-adaptive rotation through the movable assembly 6, the maximum utilization rate of the solar charging panel 4 is ensured, and the up-and-down lifting of the solar charging panel 4 can be synchronously realized when the lifting of the LED lamp 2 is realized.

Referring to fig. 8 and 9, a rotating motor 10 is fixed in the upper end of the lamp pole 1, a cross block 11 is fixed at the output end of the rotating motor 10, a cross sleeve 12 is slidably mounted at the upper end of the cross block 11, an energizing coil 13 is fixedly connected to the upper end of the cross sleeve 12, the cross sleeve 12 is slidably arranged in a telescopic groove formed in the bottom of a rotating shaft 15, the energizing coil 13 is fixed at the upper end of the cross sleeve 12, a magnetic attraction block 14 is fixed in the telescopic groove at the bottom of the rotating shaft 15, the magnetic attraction block 14 is located above the energizing coil 13, the rotating shaft 15 is rotatably mounted at the top of the lamp pole 1, a rotary table 16 is fixed at the top of the rotating shaft 15, and a fixing component 17 is arranged on the rotary table 16.

The cross sleeve 12 slides up and down at the bottom of the rotating shaft 15, and the cross sleeve 12 only slides up and down and cannot rotate independently, but can only rotate synchronously along with the rotating shaft 15.

The support frame 18 of fixed connection on the sliding block 21 of protection casing 20 left side, the upper end of support frame 18 is equipped with cross support 30 through initiative butt joint separation module 19, passes through bolt and nut fixed mounting solar charging panel 4 on the cross support 30.

In particular, when the chip control mechanism at the upper end of the solar charging plate 4 senses sunlight, the solar charging plate 4 performs power generation operation, generated electric energy is stored through the battery inside the solar charging plate 4, meanwhile, part of the electric energy is used for illuminating the LED lamp 2, and the other part of the electric energy is used for supplying power to the rotating motor 10, and after the chip control mechanism at the upper end of the solar charging plate 4 senses sunlight, the electric energy acts on the energizing coil 13, so that the energizing coil 13 generates magnetic force, and the energizing coil 13 and the cross sleeve 12 move towards the upper magnetic attraction block 14, so that the cross sleeve 12 is separated from the cross block 11, and at the moment, the chip control mechanism cuts off the power of the rotating motor 10.

After solar energy moves, the solar charging panel 4 cannot sense sunlight, the power-on coil 13 is powered off, so that the cross sleeve 12 moves downwards freely, then the rotary motor 10 is started, the cross block 11 on the rotary motor 10 is matched with the cross sleeve 12, and the rotary shaft 15 and the solar charging panel 4 fixed on the rotary shaft 15 through the fixing component 17 are driven to rotate through the cross block 11 and the cross sleeve 12.

Referring to fig. 10, 11 and 12, the fixing assembly 17 includes a connection slot 170 formed at the upper end of the turntable 16 and corresponding to the cross-shaped support 30, a first metal contact 171 is fixed in the connection slot 170, a second metal contact 172 is fixedly connected to the upper end of the cross-shaped support 30, and the first metal contact 171 and the second metal contact 172 control the LED lamp 2 to be powered on and off through contact and separation.

The side end of the rotating shaft 15 is fixedly connected with a clamping plate 173, the side end of the clamping plate 173 is provided with an L-shaped groove, an L-shaped clamping rod 175 is slidably connected in the L-shaped groove through a clamping spring 174, and the side end of the cross-shaped bracket 30 is provided with a clamping groove corresponding to the L-shaped clamping rod 175.

The sliding block 21 on the left side of the protective cover 20 is provided with the same structure as the sliding block 21 on the right side of the protective cover 20, the right side of the sliding block 21 on the left side of the protective cover 20 is abutted against the T-shaped frame 176, the T-shaped frame 176 slides on the inner wall of the protective cover 20, and a buffer spring 177 is connected between the T-shaped frame 176 and the protective cover 20.

In the specific implementation process, when the LED lamp 2 is mounted on the lamp post 1, the limiting fork 591 on the sliding block 21 on the right side of the protective cover 20 is positioned at the position inserted into the round hole, meanwhile, when the limiting fork 591 on the right side of the protective cover 20 is inserted into the round hole, the limiting fork 591 on the right side of the protective cover 20 extrudes the T-shaped frame 176, so that the limiting fork 591 on the right side of the protective cover 20 extrudes the T-shaped frame 176, the T-shaped frame 176 extrudes the limiting fork 591 on the sliding block 21 on the left side of the protective cover 20, the limiting fork 591 on the left side of the protective cover 20 is far away from the round hole on the sliding block 21 on the left side of the protective cover 20, and the stranded rope 53 can be pulled to control the LED lamp 2 to move up and down through the diamond-shaped block 54.

The T-shaped bracket 176 functions as a connection between two sliding blocks 21 and the hinge line 53, and after one sliding block 21 is connected to the hinge line 53, the other sliding block 21 is separated from the hinge line 53, and vice versa.

When the LED lamp 2 reaches the specified position, the limiting fork 591 of the sliding block 21 on the right side of the protection cover 20 is deviated from the twisted rope 53, at this time, the limiting fork 591 of the sliding block 21 on the left side of the protection cover 20 is inserted into the round hole of the limiting fork 591, and the twisted rope 53 is limited in the limiting fork 591, at this time, the driving wheel 52 is rotated anticlockwise, the twisted rope 53 on the upper end of the driving wheel 52 drives the sliding block 21 on the left side of the protection cover 20 to move up and down, at this time, the solar charging panel 4 is controlled to lift by the sliding block 21 on the left side of the protection cover 20.

After the sliding block 21 at the left side of the protective cover 20 moves to the position of the lowest end of the lamp pole 1, the solar charging panel 4 is fixed on the cross-shaped support 30 by bolts and nuts, and then the driving wheel 52 is rotated clockwise, so that the solar charging panel 4 moves upwards until the cross-shaped support 30 at the upper end thereof is inserted into the connecting groove 170 on the turntable 16, and the first metal contact 171 and the second metal contact 172 are in pressing contact with each other.

Here, the first metal contact 171 is connected to an electric wire connected to the LED lamp 2, and the second metal contact 172 is connected to an electric wire connected to the solar charging panel 4, so that the first metal contact 171 may be disconnected from the second metal contact 172 when maintenance and repair of the solar charging panel 4 are required.

When the sliding block 21 on the left side of the protection cover 20 drives the solar charging panel 4 above the protection cover 20 to move to the uppermost end, the first metal contact 171 of the cross-shaped support 30 on the upper end of the sliding block 21 on the left side of the protection cover 20 is contacted with the second metal contact 172 on the turntable 16, and meanwhile, the clamping groove on the cross-shaped support 30 is mutually clamped with the L-shaped clamping connection rod 175, so that the cross-shaped support 30 and the solar charging panel 4 fixedly arranged at the upper end of the cross-shaped support are mutually fixed.

Referring to fig. 12, 13 and 14, a schematic structural diagram of butt joint and separation between a support frame 18 and a cross bracket 30 is shown, the active butt joint separation module 19 includes a cross groove formed at the upper end of the support frame 18, a driving spring rod 190 is fixedly connected at the middle of the cross groove, a sliding sleeve 191 is fixedly connected at the upper end of the driving spring rod 190, the sliding sleeve 191 is slidably disposed on the support frame 18, a vertical groove is formed at one side of the upper end of the sliding sleeve 191, a vertical door 193 is slidably mounted in the vertical groove through a vertical spring 192, a triangular block 194 is fixed at the side end of the vertical door 193, a balance rack 195 is fixed at the upper end of the sliding sleeve 191, and a pulling rope 200 is fixedly connected on the sliding sleeve 191.

One side of the L-shaped clamping connection rod 175 is rotatably provided with a balance gear 196 which is meshed with the balance rack 195, the side end of the balance gear 196 is fixedly connected with a cam block 197 through a connecting shaft, the cam block 197 is abutted against one end of the L-shaped clamping connection rod 175 far away from the balance gear 196, the lower end of the clamping plate 173 is fixedly provided with a vertical plate 199, and a reset spring 198 is arranged between the vertical plate 199 and the cam block 197.

After the cross-shaped bracket 30 is fixed with the turntable 16 and the rotating shaft 15, the cross-shaped bracket 30 needs to be separated from the supporting frame 18 continuously, so that the solar charging panel 4 can rotate by three hundred sixty degrees.

In particular, when the support 18 moves up to the top of the lamp pole 1, the second metal contact 172 at the upper end of the cross-shaped bracket 30 contacts with the first metal contact 171 on the turntable 16, and at the same time, the L-shaped clamping rod 175 at the upper end of the clamping plate 173 is inserted into the clamping groove at the upper end of the cross-shaped bracket 30, so that the fixed connection between the cross-shaped bracket 30 and the lamp pole 1 is completed, and the solar charging plate 4 is ensured to supply power to the LED lamp 2.

When the solar charging panel 4 is fixed with the lamp post 1, the support frame 18 and the cross-shaped support 30 are required to be disconnected, so that the solar charging panel 4 can rotate freely, therefore, after the solar charging panel 4 rises upwards to the top of the lamp post 1, an operator pulls the pulling rope 200, and the pulling rope 200 drives the sliding sleeve 191 downwards, so that the sliding sleeve 191 is separated from the cross-shaped support 30 which is slidably arranged at the upper end of the sliding sleeve 191; at this time, the solar charging panel 4 is lifted.

When maintenance is required on the solar charging panel 4, the solar charging panel 4 needs to be lowered, the pulling rope 200 which is always in a downward straight state is loosened, the sliding sleeve 191 moves upwards through the elastic force of the driving spring rod 190, then the rotating motor 10 drives the rotating shaft 15 and the clamping plate 173 to rotate clockwise, the bottom of the cross bracket 30 firstly contacts the triangular block 194 in the process of rotating the clamping plate 173, then an external force is applied through the inclined surface of the triangular block 194, so that the triangular block 194 drives the vertical door 193 to move downwards, the vertical door 193 rises until the cross bracket 30 passes over the triangular block 194 and the vertical door 193, and the cross bracket 30 is sleeved by the sliding sleeve 191.

In the process of rotating the cross bracket 30, the balance gear 196 on the L-shaped clamping rod 175 is meshed with the balance rack 195 fixed at the upper end of the sliding sleeve 191, so that the balance gear 196 rotates anticlockwise under the action of the balance rack 195 along with the rotation of the cross bracket 30, and the cam block 197 is driven to rotate when the balance gear 196 rotates, the cam block 197 extrudes the vertical plate 199 at the lower end of the clamping plate 173, and then the L-shaped clamping rod 175 is pulled out from the clamping groove on the cross bracket 30.

It should be noted that, the cross bracket 30 is in a circular shape when rotating, so the sliding sleeve 191 and the balance rack 195 at the upper end thereof are in an arc shape, so as to facilitate better engagement of the balance gear 196 and the balance rack 195.

When the L-shaped clamping connection rod 175 is pulled out from the clamping groove on the cross-shaped support 30, the rotary motor 10 is powered off, the cross-shaped support 30 and the solar charging panel 4 at the upper end of the cross-shaped support are separated from the lamp post 1, and the winch 53 is driven to rotate anticlockwise, so that the solar charging panel 4 can be lowered.

The implementation principle of the embodiment is as follows:

1: the multifunctional integrated street lamp can realize the up-and-down lifting of the LED lamp 2 and the up-and-down lifting of the solar charging panel 4.

2: when the streetlight is installed, the operator rotates the driving wheels 52 counterclockwise, and the rope 53 starts to move along the two driving wheels 52 counterclockwise, and the LED lamp 2 is lifted up with the slider 21.

3: when the street lamp rises to the designated position, an operator pulls the traction rope 556 to enable the opening and closing rack 553 to be meshed with the vertical rack 551, and then fixation of the lamp post 1 and the LED lamp 2 is completed, so that the street lamp is prevented from being deviated or falling.

4: when the street lamp needs to be maintained, larger force is applied to the traction rope 556 than the first time, so that the distance of the movement of the traction rope 556 is longer, at the moment, the opening and closing rack 553 is separated from the vertical rack 551, the LED lamp 2 is connected with the stranded rope 53 again, at the moment, the stranded rope 53 drives the LED lamp 2 to descend, and when the LED lamp descends to the lowest position of the lamp pole 1, the LED lamp is maintained.

5: when the solar charging panel 4 is installed, the above operation is repeated, the solar charging panel 4 is driven to rise to the top of the lamp pole 1 by the other sliding block 21, and the sliding sleeve 191 is separated from the sliding block 21 for conveying the solar charging panel 4 by pulling the rope 200, so that three hundred and sixty degrees of rotation of the solar charging panel 4 is ensured.

6: the solar charging panel 4 needs to be maintained, the solar charging panel 4 is reconnected with the sliding block 21 through the sliding sleeve 191, at this time, the solar charging panel 4 is driven to descend by rotating the twisted rope 53 anticlockwise, and the solar charging panel is maintained when the solar charging panel descends to the lowest position of the lamp pole 1.

The embodiments of the present invention are all preferred embodiments of the present invention, and are not intended to limit the scope of the present invention in this way, therefore: all equivalent changes in structure, shape and principle of the invention should be covered in the scope of protection of the invention.

Claims (10)

1. The utility model provides a multi-functional solar energy integration energy-conserving LED lamp, includes lamp pole (1), LED lamp (2), lamp arm (3) and solar charging panel (4), subaerial fixed mounting has lamp pole (1), and lamp arm (3) fixedly connected with LED lamp (2) are passed through to the upper end of lamp pole (1), and solar charging panel (4) are installed in the rotation of the top of lamp pole (1), link to each other with LED lamp (2) through the electric wire on solar charging panel (4), its characterized in that: the solar charging panel (4) is characterized in that a chip control mechanism for controlling the solar charging panel to rotate is arranged at the upper end of the solar charging panel (4), a lifting mechanism (5) for controlling the lamp arm (3) and the LED lamp (2) to lift up and down is arranged at the upper end of the lamp post (1), and a movable assembly (6) for controlling the solar charging panel (4) to lift up and down is further arranged at the top of the lamp post (1) so as to maintain and replace the solar charging panel (4).

2. The multifunctional solar integrated energy-saving LED lamp of claim 1, wherein: the lifting mechanism (5) comprises two mounting holes which are formed in the front side wall of the lamp post (1) and are vertically distributed, bolts are fixedly connected in the mounting holes through bolts and nuts, driving wheels (52) for placing a twisted rope (53) are rotatably arranged on the two bolts, the twisted rope (53) is sleeved on the two driving wheels (52) together, diamond-shaped blocks (54) are fixed on the twisted rope (53) at equal intervals, the diamond-shaped blocks (54) are connected with the lamp arm (3) through an opening and closing assembly (55) capable of being actively opened and closed, and square control grooves are formed in the driving wheels (52) which are positioned at the lower end of the lamp post (1); two groups of bilaterally symmetrical guide rods (56) are fixedly connected to the left end and the right end of the lamp post (1) through bolts and nuts, arc-shaped sliding blocks (57) are installed on the two groups of guide rods (56) in a sliding mode up and down, fixing blocks (58) are fixedly connected to the front sides of the arc-shaped sliding blocks (57), and the outer sides of the arc-shaped sliding blocks (57) are fixedly connected with the lamp arms (3).

3. The multifunctional solar integrated energy-saving LED lamp of claim 2, wherein: two the outside of drive wheel (52) and twisted rope (53) is equipped with protection casing (20) of fixing on lamp pole (1), perpendicular slip recess has been seted up at both ends about protection casing (20), equal slidable mounting has sliding block (21) in two slip recesses, fixedly connected with shape frame (22) on sliding block (21) on protection casing (20) right side, fixed block (58) conflict is on shape frame (22), be fixed with auxiliary frame (592) on sliding block (21) on protection casing (20) left side, auxiliary frame (592) carry out fixed connection to two sliding blocks (21).

4. A multifunctional solar energy integrated energy-saving LED lamp according to claim 3, characterized in that: the opening and closing assembly (55) comprises two right-angle plates (550) fixedly connected to the front side wall of the protective cover (20) and used for shielding the sliding grooves, vertical racks (551) are fixedly connected to the inner sides of the right-angle plates (550), and the fixing blocks (58) correspond to the vertical racks (551); the utility model discloses a control module, including fixed block (58), horizontal groove (549) have been seted up to the inboard of fixed block (58), horizontal groove (549) internally mounted has telescopic link (552) of two upper and lower symmetric distributions, one side that two telescopic link (552) are close to perpendicular rack (551) is installed jointly and is opened and shut rack (553), intermesh between rack (553) and perpendicular rack (551) opens and shuts, common fixedly connected with isosceles trapezoid piece (554) on two telescopic link (552), and the part cover that is located between isosceles trapezoid piece (554) and the fixed block (58) inner wall on two telescopic link (552) is equipped with extension spring (555), one end fixedly connected with haulage rope (556) that opens and shuts rack (553) are kept away from to isosceles trapezoid piece (554), haulage rope (556) slip runs through fixed block (58), and one end that haulage rope (556) kept away from isosceles trapezoid piece (554) is set up in block (559), block (559) are fixed at the front side lower extreme of lamp pole (1), the inboard of fixed block (58) is equipped with control module (50) that opens and shuts.

5. The multifunctional solar integrated energy-saving LED lamp according to claim 4, wherein: the control module (50) comprises a movable groove formed in the upper end of a horizontal groove (549) on the inner side of the fixed block (58), a control spring (501) is fixedly connected in the movable groove, a first right trapezoid block (502) which is arranged in the movable groove in a sliding mode up and down is fixedly connected on the control spring (501), and the inclined surface of the first right trapezoid block (502) is matched with the isosceles trapezoid block (554).

6. The multifunctional solar integrated energy-saving LED lamp according to claim 5, wherein: the upper end of the horizontal groove (549) is provided with a groove (510) which is positioned on the right side of the first right trapezoid block (502) and communicated with the horizontal groove, the front end and the rear end of the groove (510) are fixedly connected with supporting springs (511), the left side of the groove (510) is provided with a limit groove (512), the second right trapezoid block (513) is slidably arranged in the limit groove (512), the inclined plane of the second right trapezoid block (513) is deviated from the inclined plane of the first right trapezoid block (502), and the side end of the fixed block (58) is provided with a linkage module (59); one end of the first right trapezoid block (502) close to the second right trapezoid block (513) is fixedly provided with a synchronizing rod (515) and a reset spring (516), the reset spring (516) is located below the synchronizing rod (515), and the second right trapezoid block (513) is provided with a synchronizing groove corresponding to the synchronizing rod (515).

7. The multifunctional solar integrated energy-saving LED lamp according to claim 6, wherein: the linkage module (59) comprises a round hole formed in the upper end of a sliding block (21) on the right side of the protective cover (20), the sliding block (21) is sleeved on the stranded rope (53) through the round hole, a horizontal strip-shaped groove is formed in the round hole, a limiting fork (591) is slidably mounted in the strip-shaped groove, one end of the limiting fork (591), far away from the strip-shaped groove, of the limiting fork slides through a -shaped frame (22) and a fixed block (58), the limiting fork (591) faces the horizontal groove (549) in the fixed block (58) to be distributed, and a linkage spring (593) is connected between the limiting fork (591) and the strip-shaped groove on the sliding block (21).

8. A multifunctional solar energy integrated energy-saving LED lamp according to claim 3, characterized in that: the novel lamp is characterized in that a rotating motor (10) is fixed in the upper end of the lamp post (1), a cross block (11) is fixed at the output end of the rotating motor (10), a cross sleeve (12) is slidably installed at the upper end of the cross block (11), an energizing coil (13) is fixedly connected to the upper end of the cross sleeve (12), the cross sleeve (12) is slidably arranged in a telescopic groove formed in the bottom of a rotating shaft (15), the energizing coil (13) is fixedly arranged at the upper end of the cross sleeve (12), a magnetic attraction block (14) is fixedly arranged in the telescopic groove in the bottom of the rotating shaft (15), the magnetic attraction block (14) is located above the energizing coil (13), the rotating shaft (15) is rotatably installed at the top of the lamp post (1), a rotary table (16) is fixedly arranged at the top of the rotating shaft (15), and a fixing component (17) is arranged on the rotary table (16); the solar charging device is characterized in that a support frame (18) is fixedly connected to a sliding block (21) on the left side of the protective cover (20), a cross-shaped support (30) is arranged at the upper end of the support frame (18) through an active butt joint separation module (19), and a solar charging panel (4) is fixedly installed on the cross-shaped support (30) through bolts and nuts.

9. The multifunctional solar integrated energy-saving LED lamp of claim 8, wherein: the fixing component (17) comprises a connecting groove (170) formed at the upper end of the rotary table (16) corresponding to the cross-shaped support (30), a first metal contact (171) is fixed in the connecting groove (170), a second metal contact (172) is fixedly connected at the upper end of the cross-shaped support (30), and the first metal contact (171) and the second metal contact (172) are contacted and separated to control the power on and the power off of the LED lamp (2); the clamping device is characterized in that a clamping plate (173) is fixedly connected to the side end of the rotating shaft (15), a fixing groove is formed in the side end of the clamping plate (173) in a penetrating mode, an L-shaped clamping rod (175) is connected in a sliding mode in the fixing groove, a clamping groove corresponding to the L-shaped clamping rod (175) is formed in the side end of the cross-shaped bracket (30), and a clamping spring (174) is connected between the L-shaped clamping rod (175) and the clamping plate (173); the sliding block (21) on the left side of the protective cover (20) is provided with a structure identical to that of the sliding block (21) on the right side of the protective cover (20), the right side of the sliding block (21) on the left side of the protective cover (20) is abutted against the T-shaped frame (176), the T-shaped frame (176) slides on the inner wall of the protective cover (20), and a buffer spring (177) is connected between the T-shaped frame (176) and the protective cover (20).

10. The multifunctional solar integrated energy-saving LED lamp of claim 9, wherein: the active butt joint separation module (19) comprises a cross-shaped groove formed in the upper end of the support frame (18), the middle part of the cross-shaped groove is fixedly connected with an active spring rod (190), the upper end of the active spring rod (190) is fixedly connected with a sliding sleeve (191), the sliding sleeve (191) is arranged on the support frame (18) in a sliding mode, one side of the upper end of the sliding sleeve (191) is provided with a vertical groove, a vertical door (193) is arranged in the vertical groove in a sliding mode through a vertical spring (192), a triangular block (194) is fixed at the side end of the vertical door (193), a balance rack (195) is fixed at the upper end of the sliding sleeve (191), and a pulling rope (200) is fixedly connected to the sliding sleeve (191); one side rotation of L shape clamping pole (175) is installed and is balanced gear (196) with balanced rack (195) intermeshing, and the side of balanced gear (196) is through connecting axle fixedly connected with cam block (197), and cam block (197) are supported and are leaned on one end that L shape clamping pole (175) kept away from balanced gear (196), and the lower extreme of grip block (173) is fixed with vertical board (199), is provided with reset spring (198) between vertical board (199) and cam block (197).

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