CN220135267U - Environment-friendly energy-saving road lighting device - Google Patents

Abstract

The utility model relates to the technical field of road illumination, in particular to an environment-friendly and energy-saving road illumination device, which comprises: a bracket; the fixed support frame is fixedly arranged at the top end of the support; the energy charging assembly at least comprises a photovoltaic panel which is arranged on the fixed support frame in a sliding manner; the energy storage block is movably arranged in the fixed support frame, and the lighting assembly at least comprises an LED lamp panel which is arranged on the fixed support frame in a sliding manner. According to the environment-friendly energy-saving road lighting device, the photovoltaic panel of the energy charging assembly is connected in a sliding clamping mode through the fixed support frame, so that the energy charging assembly can be replaced quickly, the energy storage block is directly placed in the fixed support frame, the sliding energy charging assembly and the energy storage block charge energy, the lighting assembly is identical to the energy charging assembly, the LED lamp panel is replaced quickly in a sliding clamping mode, the lighting assembly is combined with the energy storage block through sliding, and the energy storage block provides power for the lighting assembly.

Description

Environment-friendly energy-saving road lighting device

Technical Field

The utility model relates to the technical field of road illumination, in particular to an environment-friendly and energy-saving road illumination device.

Background

The existing road lighting equipment mainly saves energy, and converts sunlight irradiation into electric energy to charge the road lighting equipment, for example, the following technology:

reference is made to publication (bulletin) No.: CN218327854U, publication (date): 2023-01-17, the utility model discloses an environment-friendly and energy-saving urban road lighting device, including base, bracing piece, shell, LED lamp, battery, ring channel and photovoltaic board, the bracing piece is located the top of base and with the top fixed connection of base, the top of bracing piece and the bottom fixed connection of shell, the bottom of shell and the top fixed connection of LED lamp, the LED lamp is located the outside of bracing piece, the battery is located the inside of shell and with the inside bottom fixed connection of shell, the battery runs through the shell through the signal line and with the top electric connection of LED lamp, the surface at the shell is seted up to the ring channel, the inner wall of ring channel and the fixed surface connection of photovoltaic board.

In the prior art including above-mentioned patent, above-mentioned photovoltaic board is direct with the battery connection for photovoltaic board and battery pass through the circuit and form an organic wholely, make both to need disassemble photovoltaic board and battery simultaneously when one of them appears damaging, lead to causing the phenomenon of wasting of resources when changing.

Disclosure of Invention

The utility model aims to provide an environment-friendly and energy-saving road lighting device which is used for solving the problems.

In order to achieve the above object, the present utility model provides the following technical solutions: an environmentally friendly and energy efficient roadway lighting device comprising:

a bracket;

the fixed support frame is fixedly arranged at the top end of the support;

the energy charging assembly at least comprises a photovoltaic panel which is arranged on the fixed support frame in a sliding manner;

the energy storage block is movably arranged in the fixed supporting frame and is electrically connected with the photovoltaic panel;

the illumination assembly at least comprises an LED lamp panel which is arranged on the fixed supporting frame in a sliding mode, and the LED lamp panel is electrically connected with the energy storage block.

Preferably, a sealing cover is axially and rotatably arranged on the fixed support frame, and a transparent plate is fixedly arranged on the sealing cover;

a lug is fixedly arranged in the sealing cover, a clamping block is fixedly arranged at one end of the fixed support frame, and the lug is matched with the clamping block in a clamping way;

the sealing cover is assembled with the clamping block through a nut.

Preferably, the fixed support frame is provided with a first T-shaped groove;

the energy charging assembly further comprises a first T-shaped fixed block, and the first T-shaped fixed block is arranged in the first T-shaped groove in a sliding manner;

the photovoltaic board is fixedly arranged on a first T-shaped fixed block, and one end of the first T-shaped fixed block is fixedly connected with a first bayonet lock.

Preferably, through grooves are symmetrically formed in the fixed support frame, first L-shaped sliding grooves are symmetrically formed in the fixed support frame, and the first L-shaped sliding grooves are communicated with the through grooves;

the first L-shaped chute is internally provided with a first elastic clamping pin in clamping fit with the first clamping pin inserted into the through groove in a sliding manner.

Preferably, a first channel is formed in the fixed support frame, and a partition plate is arranged in the first channel in a sliding manner;

the baffle is fixedly provided with a first magnetic joint, the first T-shaped fixed block is fixedly provided with a second magnetic joint, and the first magnetic joint and the second magnetic joint are magnetically adsorbed.

Preferably, the fixed support frame is provided with a second L-shaped clamping groove, and one end of the partition board is fixedly connected with a second clamping pin;

the second L-shaped clamping groove is provided with a second elastic clamping pin in clamping fit with a second clamping pin inserted into the second notch in a sliding mode.

Preferably, the fixed support frame is respectively provided with a first notch and a second notch, and the first notch and the second notch are communicated;

an energy storage block is movably arranged in the first notch, a third magnetic joint is fixedly arranged in the second notch, and a fourth joint and a fifth joint are respectively and fixedly arranged on the energy storage block;

the fifth magnetic joint is magnetically attracted to the second magnetic joint, and the fourth magnetic joint is magnetically attracted to the third magnetic joint.

Preferably, a second T-shaped groove is formed in the fixed support frame, a second T-shaped fixed block is slidably arranged in the second T-shaped groove, and the LED lamp panel is fixedly arranged on the second T-shaped fixed block;

a sixth magnetic joint is fixedly arranged on the second T-shaped fixed block, and the sixth magnetic joint is magnetically adsorbed with the third magnetic joint;

and a third clamping pin is fixedly connected to the second T-shaped fixing block and is matched with the first elastic clamping pin in a clamping way.

In the technical scheme, the environment-friendly and energy-saving road lighting device provided by the utility model has the following beneficial effects: through the photovoltaic board that fills the ability subassembly carries out slip joint through fixed bolster for fill the ability subassembly and can carry out quick replacement, the energy storage piece is direct to be put into fixed bolster in, and the gliding subassembly that fills can fill with the energy storage piece, and the lighting assembly is the same with filling the ability subassembly, and the LED lamp plate carries out quick replacement through the mode of slip joint, and the lighting assembly combines with the energy storage piece through sliding, provides electric power for the lighting assembly through the energy storage piece.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings required for the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments described in the present utility model, and other drawings may be obtained according to these drawings for a person having ordinary skill in the art.

FIG. 1 is a schematic view of the overall structure provided by an embodiment of the present utility model;

fig. 2 is a schematic structural diagram of an illumination portion according to an embodiment of the present utility model;

fig. 3 is a schematic cross-sectional view of an illumination portion according to an embodiment of the present disclosure;

FIG. 4 is a schematic cross-sectional view of a portion A according to an embodiment of the present utility model;

fig. 5 is a schematic structural diagram of a fixed support frame and an energy storage block according to an embodiment of the present utility model;

fig. 6 is a schematic cross-sectional view of an illumination portion according to an embodiment of the present disclosure;

fig. 7 is a schematic structural diagram of an illumination assembly according to an embodiment of the present disclosure.

Reference numerals illustrate:

1. a bracket; 2. fixing the supporting frame; 3. a lighting assembly; 4. a cover; 5. a transparent plate; 6. an energy storage block; 7. a partition plate; 8. an energy charging assembly; 9. a first elastic bayonet lock; 21. a third magnetic joint; 22. a second elastic clamping pin; 23. a first L-shaped chute; 24. a first channel; 25. a clamping block; 27. a through groove; 28. a first T-shaped slot; 29. a second T-shaped slot; 31. a second T-shaped fixed block; 32. a sixth magnetic joint; 33. a third bayonet; 34. an LED lamp panel; 41. a nut; 42. a bump; 61. a fourth linker; 63. a fifth linker; 71. a first magnetic joint; 72. a second bayonet lock; 81. a first T-shaped fixed block; 82. a first bayonet; 83. a second magnetic joint; 84. a photovoltaic panel.

Detailed Description

In order to make the technical scheme of the present utility model better understood by those skilled in the art, the present utility model will be further described in detail with reference to the accompanying drawings.

As shown in fig. 1 to 7, an environment-friendly and energy-saving road lighting device, comprising:

a bracket 1;

a fixed support 2 fixedly provided at the top end of the bracket 1;

the charging assembly 8 at least comprises a photovoltaic panel 84 which is arranged on the fixed support frame 2 in a sliding manner;

the energy storage block 6 is movably arranged in the fixed support frame 2, and the energy storage block 6 is electrically connected with the photovoltaic panel 84;

the lighting assembly 3 at least comprises an LED lamp panel 34 which is arranged on the fixed support frame 2 in a sliding manner, and the LED lamp panel 34 is electrically connected with the energy storage block 6.

Specifically, as can be seen from fig. 1 to 3, the photovoltaic panel 84 of the charging assembly 8 slides from a low position to a high position through the fixed support frame 2 (as can be seen from fig. 3, the left side of the fixed support frame 2 is a low position, and the right side of the fixed support frame 2 is a high position), when the photovoltaic panel 84 slides to a high position, the photovoltaic panel 84 is clamped and fixed with the fixed support frame 2, when the photovoltaic panel 84 slides to a low position, the photovoltaic panel 84 is separated from the fixed support frame 2, and the charging assembly 8 can be quickly replaced through the sliding of the photovoltaic panel 84 from the high position to the low position.

Meanwhile, as can be seen from fig. 3, the energy storage block 6 is directly placed in the fixed support frame 2, and meanwhile, the high-level sliding energy charging assembly 8 and the energy storage block 6 are magnetically adsorbed, so that the photovoltaic panel 84 charges the energy storage block 6.

Meanwhile, as can be seen from fig. 3, the operation of the lighting assembly 3 is the same as that of the charging assembly 8, the LED lamp panel 34 is quickly replaced by sliding in a high-low position, the lighting assembly 3 is magnetically adsorbed to the energy storage block 6 when sliding in a high-low position, and the energy storage block 6 provides power for the lighting assembly 3, so that the LED lamp panel 34 works.

In the above technical scheme, through the photovoltaic board 84 that fills the ability subassembly 8 carries out slip joint through fixed support frame 2 for fill the ability subassembly 8 and can carry out quick replacement, energy storage piece 6 directly put into fixed support frame 2 in, the gliding ability subassembly that fills 8 fills with energy storage piece 6 can, lighting assembly 3 is the same with filling the ability subassembly 8, LED lamp plate 34 carries out quick replacement through the mode of slip joint, lighting assembly 3 combines through slip and energy storage piece 6, provide electric power for lighting assembly 3 through energy storage piece 6.

As a further provided embodiment of the present utility model, a sealing cover 4 is axially and rotatably arranged on the fixed support frame 2, and a transparent plate 5 is fixedly arranged on the sealing cover 4;

a bump 42 is fixedly arranged in the sealing cover 4, a clamping block 25 is fixedly arranged at one end of the fixed support frame 2, and the bump 42 is matched with the clamping block 25 in a clamping way;

the cover 4 is assembled with the snap-in block 25 by means of a nut 41.

Further, a first T-shaped groove 28 is formed in the fixed support frame 2;

the energy charging assembly 8 further comprises a first T-shaped fixed block 81, and the first T-shaped fixed block 81 is arranged in the first T-shaped groove 28 in a sliding manner;

the photovoltaic board 84 is fixedly mounted on the first T-shaped fixed block 81, and one end of the first T-shaped fixed block 81 is fixedly connected with a first bayonet 82.

Furthermore, through grooves 27 are symmetrically formed in the fixed support frame 2, first L-shaped sliding grooves 23 are symmetrically formed in the fixed support frame 2, and the first L-shaped sliding grooves 23 are communicated with the through grooves 27;

the first L-shaped chute 23 is slidably provided with a first elastic locking pin 9 which is in locking engagement with a first locking pin 82 inserted into the through groove 27.

Specifically, through fig. 3-4, it can be seen that the transparent plate 5 on the cover 4 can enable sunlight to irradiate on the photovoltaic panel 84 through the cover 4, so that the photovoltaic panel 84 works, meanwhile, the cover 4 can play a role in dust prevention and rain prevention for the photovoltaic panel 84, and the protruding block 42 of the cover 4 and the clamping block 25 are clamped for the first time, so that the cover 4 can be fixed on the fixed support frame 2, and the cover 4 is fixed for the second time through rotation of the nut 41.

Meanwhile, as can be seen from fig. 2 to 3, the sealing cover 4 is opened, the first elastic clamping pin 9 at the tail of the fixed support frame 2 is pushed, so that the clamping state of the first elastic clamping pin 9 and the first clamping pin 82 is released, the photovoltaic panel 84 is drawn, the photovoltaic panel 84 slides to a low position in the first T-shaped groove 28 through the first T-shaped fixed block 81, and when the photovoltaic panel 84 slides to a low position, the photovoltaic panel 84 can be separated from the fixed support frame 2.

Meanwhile, as can be seen from fig. 2 to 3, when the energy charging assembly 8 is installed, only the first T-shaped fixing block 81 needs to be pushed into the first T-shaped groove 28, and because the end portion of the first clamping pin 82 and the first elastic clamping pin 9 are both semi-arc-shaped, and the first elastic clamping pin 9 is pushed by the spring, when the first clamping pin 82 contacts with the first elastic clamping pin 9, the first elastic clamping pin 9 slides in the first L-shaped chute 23 to be clamped with the first clamping pin 82, so that the energy charging assembly 8 can be clamped on the fixed support frame 2.

As a further embodiment of the present utility model, a first channel 24 is formed in the fixed support frame 2, and a partition 7 is slidably disposed in the first channel 24;

the first magnetic joint 71 is fixedly arranged on the partition plate 7, the second magnetic joint 83 is fixedly arranged on the first T-shaped fixing block 81, and the first magnetic joint 71 and the second magnetic joint 83 are magnetically attracted.

Further, a second L-shaped clamping groove is formed in the fixed support frame 2, and a second clamping pin 72 is fixedly connected to one end of the partition plate 7;

the second L-shaped clamping groove is slidably provided with a second elastic clamping pin 22 which is in clamping fit with a second clamping pin 72 inserted into the second notch.

Further, a first notch and a second notch are respectively arranged in the fixed support frame 2, and the first notch is communicated with the second notch;

the first notch is movably provided with an energy storage block 6, the second notch is fixedly provided with a third magnetic joint 21, and the energy storage block 6 is respectively fixedly provided with a fourth joint 61 and a fifth joint 63;

fifth magnetic coupling 63 magnetically attracts second magnetic coupling 83, and fourth magnetic coupling 61 magnetically attracts third magnetic coupling 21.

Specifically, as can be seen from fig. 3 to fig. 5, when the charging assembly 8 is removed, the second elastic clamping pin 22 in the second L-shaped clamping groove is buckled, so that the second elastic clamping pin 22 slides in the second L-shaped clamping groove to be in a clamping state with the second clamping pin 72 of the partition 7, at this time, the partition 7 is pushed to slide in the first channel 24 from a low position to a high position (as can be seen from fig. 5, the left side of the fixed support frame 2 is in a low position, and the right side of the fixed support frame 2 is in a high position), and when the partition 7 slides to a high position, the energy storage block 6 in the first notch can be taken out and replaced.

Meanwhile, as can be seen from fig. 3 to 5, the energy storage block 6 is placed in the first notch at the time of replacement, the fourth magnetic joint 61 communicates with the third magnetic joint 21 by magnetic attraction when the energy storage block 6 is placed in, and the first magnetic joint 71 moves along with the partition 7 and communicates with the fifth magnetic joint 63 by magnetic attraction when the partition 7 moves to the lower position.

Meanwhile, as can be seen from fig. 3 to 5, since the end of the second bayonet lock 72 and the end face of the second elastic bayonet lock 22 are both semi-arc, and the second elastic bayonet lock 22 is pushed by the spring, when the second bayonet lock 72 contacts with the second elastic bayonet lock 22, the second elastic bayonet lock 22 slides in the second L-shaped slot to be clamped with the second bayonet lock 72, so that the partition 7 can be clamped on the fixed support frame 2, and when the first T-shaped fixed block 81 is installed, the second magnetic joint 83 is communicated with the first magnetic joint 71 through magnetic adsorption, and the energy storage block 6 can be charged through the energy charging assembly 8 through the communication of the three parts.

As an embodiment of the present utility model, a second T-shaped groove 29 is formed on the fixed support frame 2, a second T-shaped fixing block 31 is slidably disposed in the second T-shaped groove 29, and an led lamp panel 34 is fixedly mounted on the second T-shaped fixing block 31;

a sixth magnetic joint 32 is fixedly arranged on the second T-shaped fixed block 31, and the sixth magnetic joint 32 and the third magnetic joint 21 are magnetically adsorbed;

the second T-shaped fixing block 31 is fixedly connected with a third bayonet lock 33, and the third bayonet lock 33 is matched with the first elastic bayonet lock 9 in a clamping way.

Specifically, as can be seen from fig. 3 to fig. 7, the first elastic clamping pin 9 at the tail of the fixed support frame 2 is pushed, so that the LED lamp panel 34 can slide from a low position to a high position in the second T-shaped groove 29 through the second T-shaped fixing block 31 (as can be seen from fig. 3, the left side of the fixed support frame 2 is a low position, and the right side of the fixed support frame 2 is a high position), and when the LED lamp panel 34 slides to the low position, the LED lamp panel 34 can be disassembled for replacement.

Meanwhile, as can be seen from fig. 3 to fig. 7, when the lighting assembly 3 is installed, the sixth magnetic connector 32 magnetically attracts the third magnetic connector 21, so that the electric energy of the energy storage block 6 (which is not explained in the prior art) is transmitted through the attraction and communication between the sixth magnetic connector 32 and the third magnetic connector, and the electric energy of the energy storage block 6 is transmitted to the LED lamp panel 34, so that the LED lamp panel 34 can work to illuminate a road.

Working principle: as can be seen from fig. 1 to 7, when the components on the fixed support frame 2 are replaced, the cover 4 is first opened, the nut 41 is turned, so that the cover 4 and the fixed support frame 2 are released from the first clamped state, then the cover 4 is fastened, the bump 42 and the clamping block 25 are released from the second reinforced state, after the cover 4 is opened, the first elastic clamping pin 9 at the tail of the fixed support frame 2 is pushed, so that the first elastic clamping pin 9 and the first clamping pin 82 are released from the clamped state, at the moment, the photovoltaic panel 84 is drawn, the photovoltaic panel 84 slides in the first T-shaped groove 28 towards the low position through the first T-shaped fixing block 81, when the photovoltaic panel 84 slides to the low position, the photovoltaic panel 84 can be separated from the fixed support frame 2, when the charging assembly 8 is removed, the second elastic clamping pin 22 in the second L-shaped clamping groove is fastened, so that the second elastic clamping pin 22 slides in the second L-shaped clamping groove and the second clamping pin 72 of the partition 7 is released from the clamped state, at the moment, the partition 7 is pushed to slide in the first groove 24 to the high position, at the moment, the partition 7 slides in the high position in the first groove 24, and the high position can be removed from the illumination assembly 6 in the same way as the first charging assembly 6, and the charging assembly can be removed from the illumination assembly in the same way.

During installation, firstly, the lighting assembly 3 is installed back into the fixed support frame 2, the second T-shaped fixed block 31 is pushed into the second T-shaped groove 29, because the end part of the third clamping pin 33 and the first elastic clamping pin 9 are both semi-arc-shaped, and the first elastic clamping pin 9 is pushed by a spring, when the third clamping pin 33 is contacted with the first elastic clamping pin 9, the first elastic clamping pin 9 slides in the first L-shaped chute 23 to be clamped with the third clamping pin 33, so that the lighting assembly 3 can be clamped on the fixed support frame 2, when the lighting assembly 3 is clamped, the sixth magnetic joint 32 is in magnetic attraction communication with the third magnetic joint 21, at the moment, the energy storage block 6 is placed in the first notch, when the energy storage block 6 is placed in, the fourth magnetic joint 61 is communicated with the third magnetic joint 21 through magnetic attraction, so that the lighting assembly 3 is communicated with the energy storage block 6, when the partition 7 moves to a low position, the second bayonet lock 72 moves along with the partition 7, because the end of the second bayonet lock 72 and the end face of the second elastic bayonet lock 22 are both semi-arc-shaped, and the second elastic bayonet lock 22 is pushed by the spring, when the second bayonet lock 72 contacts with the second elastic bayonet lock 22, the second elastic bayonet lock 22 slides in the second L-shaped slot to be clamped with the second bayonet lock 72, so that the partition 7 can be clamped on the fixed support frame 2, meanwhile, the first magnetic joint 71 moves along with the partition 7, and is communicated with the fifth joint 63 through magnetic adsorption, after the energy storage block 6 is installed, the energy charging assembly 8 is finally installed, when the energy charging assembly 8 is installed, only the first T-shaped fixing block 81 is pushed into the first T-shaped slot 28, because the end of the first bayonet lock 82 and the first elastic bayonet lock 9 are both semi-arc-shaped, and the first elastic bayonet lock 9 is pushed by the spring, so when first bayonet lock 82 and first elasticity bayonet lock 9 contact, first elasticity bayonet lock 9 slides at first L type spout 23 and carries out the joint with first bayonet lock 82 for charging subassembly 8 can block and fix on fixed support frame 2, and when charging subassembly 8 installation was accomplished, second magnetic joint 83 was through magnetic adsorption and first magnetic joint 71 intercommunication, made energy storage piece 6 through charging subassembly 8 through the intercommunication of three and charge, for lighting assembly 3 provides the electric energy.

While certain exemplary embodiments of the present utility model have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that modifications may be made to the described embodiments in various different ways without departing from the spirit and scope of the utility model. Accordingly, the drawings and description are to be regarded as illustrative in nature and not as restrictive of the scope of the utility model, which is defined by the appended claims.

Claims (8)

1. An environment-friendly and energy-saving road lighting device, comprising:

a bracket (1);

the fixed support frame (2) is fixedly arranged at the top end of the support (1);

the energy charging assembly (8) at least comprises a photovoltaic panel (84) which is arranged on the fixed support frame (2) in a sliding manner;

the energy storage block (6) is movably arranged in the fixed supporting frame (2), and the energy storage block (6) is electrically connected with the photovoltaic panel (84);

the illumination assembly (3) at least comprises an LED lamp panel (34) which is arranged on the fixed support frame (2) in a sliding mode, and the LED lamp panel (34) is electrically connected with the energy storage block (6).

2. The environment-friendly and energy-saving road lighting device according to claim 1, wherein a sealing cover (4) is axially and rotatably arranged on the fixed support frame (2), and a transparent plate (5) is fixedly arranged on the sealing cover (4);

a bump (42) is fixedly arranged in the sealing cover (4), a clamping block (25) is fixedly arranged at one end of the fixed support frame (2), and the bump (42) is in clamping fit with the clamping block (25);

the sealing cover (4) is assembled with the clamping block (25) through a nut (41).

3. An environment-friendly and energy-saving road lighting device according to claim 1, characterized in that the fixed support frame (2) is provided with a first T-shaped groove (28);

the energy charging assembly (8) further comprises a first T-shaped fixed block (81), and the first T-shaped fixed block (81) is arranged in the first T-shaped groove (28) in a sliding mode;

the photovoltaic panel (84) is fixedly arranged on the first T-shaped fixed block (81), and one end of the first T-shaped fixed block (81) is fixedly connected with a first bayonet lock (82).

4. An environment-friendly and energy-saving road lighting device according to claim 3, characterized in that through grooves (27) are symmetrically formed in the fixed support frame (2), first L-shaped sliding grooves (23) are symmetrically formed in the fixed support frame (2), and the first L-shaped sliding grooves (23) are communicated with the through grooves (27);

the first L-shaped chute (23) is provided with a first elastic clamping pin (9) in clamping fit with a first clamping pin (82) inserted into the through groove (27) in a sliding mode.

5. The environment-friendly and energy-saving road lighting device according to claim 4, wherein a first channel (24) is formed in the fixed support frame (2), and a partition plate (7) is slidably arranged in the first channel (24);

the partition plate (7) is fixedly provided with a first magnetic joint (71), the first T-shaped fixing block (81) is fixedly provided with a second magnetic joint (83), and the first magnetic joint (71) and the second magnetic joint (83) are magnetically adsorbed.

6. The environment-friendly and energy-saving road lighting device according to claim 5, wherein the fixed support frame (2) is provided with a second L-shaped clamping groove, and one end of the partition board (7) is fixedly connected with a second clamping pin (72);

the second L-shaped clamping groove is slidably provided with a second elastic clamping pin (22) which is in clamping fit with a second clamping pin (72) inserted into the second notch.

7. The environment-friendly and energy-saving road lighting device according to claim 6, wherein the fixed support frame (2) is respectively provided with a first notch and a second notch, and the first notch and the second notch are communicated;

an energy storage block (6) is movably arranged in the first notch, a third magnetic joint (21) is fixedly arranged in the second notch, and a fourth joint (61) and a fifth joint (63) are respectively and fixedly arranged on the energy storage block (6);

the fifth magnetic joint (63) is magnetically attracted to the second magnetic joint (83), and the fourth magnetic joint (61) is magnetically attracted to the third magnetic joint (21).

8. The environment-friendly and energy-saving road lighting device according to claim 7, wherein a second T-shaped groove (29) is formed in the fixed support frame (2), a second T-shaped fixed block (31) is slidably arranged in the second T-shaped groove (29), and the LED lamp panel (34) is fixedly arranged on the second T-shaped fixed block (31);

a sixth magnetic joint (32) is fixedly arranged on the second T-shaped fixed block (31), and the sixth magnetic joint (32) is magnetically adsorbed with the third magnetic joint (21);

and a third bayonet lock (33) is fixedly connected to the second T-shaped fixed block (31), and the third bayonet lock (33) is in clamping fit with the first elastic clamping pin (9).