CN215366935U - Plug-in charging warning pile - Google Patents

Abstract

The utility model discloses a plug-in charging warning pile, which comprises a pile body which can be sequentially nested and stacked along the height direction, wherein a power supply unit and an LED lamp panel are arranged on the pile body, and the bottom of the pile body is provided with a positive conductive end and a negative conductive end which are respectively and electrically connected with the power supply unit; when the pile bodies are in a stacked state, the positive conductive end and the negative conductive end of the upper pile body in every two adjacent pile bodies are respectively electrically conducted with the positive conductive end and the negative conductive end of the lower pile body. In the use scenes of road administration maintenance, emergency rescue and the like, the charging warning piles can be sequentially sleeved, so that the charging warning piles are convenient to collect and transport and can meet the requirement of dense arrangement; meanwhile, a plurality of sleeved warning piles can share one external charging power supply to be charged simultaneously.

Description

Plug-in charging warning pile

Technical Field

The utility model relates to the technical field of emergency equipment, in particular to a plug-in charging warning pile.

Background

At present, most warning cones (piles/barrels) used in road construction and accident rescue adopt a hollow cone structure with a narrow upper part and a wide lower part in an inner cavity, and the lower part of the hollow cone structure is generally opened. According to different warning principles, the method can be divided into the following steps: passive reflective warning cone (pile) and charging luminous warning cone (pile).

Passive form reflection of light warning awl, like: the utility model provides a remove warning awl, includes the centrum, and the centrum includes base and awl point, and the base is the disc, is provided with three universal wheel on the base, and the universal wheel is equilateral triangle and sets up, and the awl point sets up at the center of base, and the side of awl point is provided with the lime red reflection of light subsides, and the side of awl point is provided with and is used for the buckle of being connected with the rope. Passive form reflection of light warning awl, the advantage lies in: the price is low, the warning is carried out by sticking a reflective film on the surface, and the manual maintenance is less; the disadvantages are that: the light can not be emitted actively for warning, and the prompt is carried out by means of passive light reflection.

Charging luminous warning cone, such as: the electronic traffic warning cone consists of cone, warning lamp and control circuit, and the warning lamp has light emitting diodes as light source and consists of n high-brightness red light emitting diodes. Charging light-emitting warning cone has the advantages that: the lamp can actively emit light to warn; the defects are as follows: the single charging and the single access charging are needed, the use is inconvenient, and the dense arrangement is not suitable.

How to combine the advantage of passive form reflection of light warning awl with luminous warning awl of charging, design a sharing charging source, can charge for a plurality of warning awl simultaneously, make the requirement that warning awl can satisfy intensive laying, be the technical problem that people expected to solve always.

SUMMERY OF THE UTILITY MODEL

The technical problem to be solved by the utility model is as follows: the plug-in type charging warning pile overcomes at least one defect of the prior art, and can meet the requirement of intensive arrangement of the charging warning piles.

The technical scheme of the utility model is that the LED lamp comprises a pile body which can be sequentially nested and stacked along the height direction, wherein a power supply unit and an LED lamp panel are arranged on the pile body, and a positive conductive end and a negative conductive end which are respectively and electrically connected with the power supply unit are arranged at the bottom of the pile body; when the pile bodies are in a stacked state, the positive conductive end and the negative conductive end of the upper pile body in every two adjacent pile bodies are respectively electrically conducted with the positive conductive end and the negative conductive end of the lower pile body.

Specifically, the bottom of the pile body is provided with a step which protrudes outwards in the radial direction, and the positive conductive end and the negative conductive end are respectively arranged on the step.

As an improvement, the bottom edge of the step is provided with a downward extending annular wall, an accommodating cavity is formed between the annular wall and the bottom of the pile body, and when the pile bodies are in a stacked state, the accommodating cavity of the upper layer of pile body is sleeved on the step of the lower layer of pile body. The setting of downwardly extending annular wall replaces step bottom and ground contact, and in the in-service use processes such as road emergency rescue, the electrically conductive end of avoiding the step bottom contacts ground ponding or metal conductor etc. effectively avoids causing warning stake power damage because of the electric short circuit.

Specifically, the positive conductive end and the negative conductive end respectively comprise an upper conductive end and a lower conductive end, and the upper conductive end and the lower conductive end are respectively arranged at the upper part and the bottom of the step; the upper layer conductive end and the lower layer conductive end in the positive electrode conductive end and the negative electrode conductive end are respectively and electrically connected.

As an improvement, the upper layer conductive end of the positive conductive end and the lower layer conductive end of the negative conductive end are respectively arranged in an arc belt shape at the upper part of the step, and the lower layer conductive end of the positive conductive end and the lower layer conductive end of the negative conductive end are respectively arranged in an arc belt shape matched with the upper layer conductive end at the bottom of the step. The strip-shaped conductive end has a larger contact surface, and when the warning piles are nested and stacked in sequence, the conductive end of the upper warning pile and the conductive end of the lower warning pile are conveniently and electrically conducted.

Furthermore, the upper part of the step is provided with a limiting block protruding upwards between the positive electrode conductive end and the negative electrode conductive end, and the bottom of the step is provided with a limiting groove matched with the limiting block. Through the cooperation of stopper and spacing groove, a plurality of warning stake can realize quick nested stacking in proper order, has effectively solved and has stacked the in-process, and the electrically conductive end of positive pole and the electrically conductive end of negative pole that are in on the upper strata warning stake and the electrically conductive problem of the electrically conductive end of counterpoint of electrically conductive end of positive pole and the electrically conductive end of negative pole that are in on the warning stake of lower floor are needn't worry because of the inaccurate electric short circuit that leads to of counterpoint, and then the damage warning stake power.

Furthermore, a charging module and a lamp panel driving module which are electrically connected together are also arranged in the pile body, and the charging module is electrically connected with the power supply unit; the power supply unit is electrically connected with the LED lamp panel through the lamp panel driving module; in an initial state, the LED lamp panel is kept in a starting state, and the charging module is in a non-working state; when the plug-in charging warning pile is charged, the charging module is respectively electrically conducted with a positive electrode and a negative electrode of a power supply arranged on the charging pile base through a positive electrode conductive end and a negative electrode conductive end, and the charging module is in a working state; when the charging module is in a working state, the lamp panel driving module controls the LED lamp panel to be closed.

Further, the LED lamp panel sets up a set ofly at least along the direction of height of pile body. Preferably, all be equipped with an LED lamp plate in four different sides of pile body. Through setting up multiunit LED lamp plate, the stake can satisfy the multi-direction requirement of warning of carrying on.

Furthermore, at least one circle of reflective membrane is arranged on the pile body along the circumferential direction of the pile body. The arrangement of the reflective film can ensure that the warning pile can still normally play a warning function under the condition that no electricity exists.

As another improvement, the upper conductive end of the positive conductive end and the lower conductive end of the negative conductive end are respectively arranged on the upper part of the step in an arc belt shape, the lower conductive end of the positive conductive end and the lower conductive end of the negative conductive end are respectively elastic electric connection terminals which are electrically connected to the bottom of the step and extend downwards, the elastic electric connection terminals are symmetrically arranged relative to the axial section of the pile body, and the outer diameter of each elastic electric connection terminal is smaller than the distance between the positive conductive end and the negative conductive end.

As another improvement, the lower conductive end of the positive conductive end and the lower conductive end of the negative conductive end are respectively arranged at the bottom of the step in an arc belt shape, the upper conductive end of the positive conductive end and the upper conductive end of the negative conductive end are respectively elastic electric connection terminals which are electrically connected to the upper part of the step and extend upwards, the elastic electric connection terminals are symmetrically arranged relative to the axial section of the pile body, and the outer diameter of each elastic electric connection terminal is smaller than the distance between the positive conductive end and the negative conductive end.

Under the condition that a plurality of warning piles are sequentially nested and stacked, the arrangement of the elastic electric connection terminal can ensure that the conductive end of the warning pile on the upper layer is stably contacted with the conductive end of the warning pile on the lower layer; meanwhile, when the upper warning pile is rotated, a pair of elastic electric connection terminals arranged at the bottom of the upper warning pile can be always electrically connected with the positive conductive end and the negative conductive end arranged at the upper part of the lower warning pile respectively; or a pair of elastic electric connecting terminals arranged on the upper part of the lower warning pile can be respectively and electrically connected with the positive electrode conductive end and the negative electrode conductive end arranged at the bottom of the upper warning pile, and in addition, the elastic electric connecting terminals are symmetrically arranged relative to the axial section of the pile body, and the size of the outer diameter of each elastic electric connecting terminal is smaller than the size of the distance between the positive electrode conductive end and the negative electrode conductive end, so that no matter how the warning pile is rotated, the electric short circuit can not be caused.

Compared with the prior art, the utility model has the following advantages: according to the utility model, the bottom of the pile body is provided with the positive conductive end and the negative conductive end which are respectively and electrically connected with the power supply unit, and the positive conductive end and the negative conductive end of every two adjacent pile bodies are respectively and electrically conducted with the positive conductive end and the negative conductive end of the lower pile body in a stacked state. Therefore, when the warning piles are nested and stacked in sequence, a parallel circuit is formed, the power supply unit on each warning pile is located in the parallel circuit, at the moment, the positive electrode conductive end and the negative electrode conductive end on the warning pile on the lowest layer are respectively connected with the positive electrode and the negative electrode of an external charging power supply, and the warning piles which are nested and stacked in sequence can be charged simultaneously. Meanwhile, in the use scenes of road administration maintenance, emergency rescue and the like, the warning piles can be nested and stacked in sequence, so that the warning piles are convenient to collect and transport, and the requirement of dense arrangement can be met.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic structural view of embodiment 1 of the present invention.

Fig. 2 is a perspective view of embodiment 1 of the present invention.

Fig. 3 is a plan view of embodiment 1 of the present invention.

Fig. 4 is a cross-sectional view taken along line a-a of fig. 3.

Fig. 5 is a sectional view taken along line B-B of fig. 3.

Fig. 6 is a schematic structural view of embodiment 2 of the present invention.

Fig. 7 is a perspective view of embodiment 2 of the present invention.

Fig. 8 is a schematic block diagram of the circuit of the present invention.

As shown in the figure:

1. a pile body; 11. a power supply unit; 12. an LED lamp panel; 13. a charging module; 14. a lamp panel driving module; 2. a positive conductive terminal; 3. a negative conductive terminal; 4. a step; 41. an annular wall; 42. an accommodating chamber; 43. a limiting block; 44. a limiting groove; 5. elastic electric terminals; 6. a light-reflecting film; 7. a wire; 8. fill the electric pile base.

Detailed Description

The utility model is described in further detail below with reference to the figures and specific examples.

Example 1:

as shown in fig. 1 to 5, in this embodiment, the plug-in charging warning pile includes a pile body 1 that can be sequentially nested and stacked in a height direction, a power supply unit 11 and an LED lamp panel 12 are disposed on the pile body 1, and a positive conductive end 2 and a negative conductive end 3 that are respectively electrically connected to the power supply unit 11 are disposed at the bottom of the pile body 1; when the pile bodies 1 are in a stacked state, the positive conductive end 2 and the negative conductive end 3 of the upper pile body 1 in every two adjacent pile bodies 1 are respectively electrically conducted with the positive conductive end 2 and the negative conductive end 3 of the lower pile body 1.

In this embodiment, the bottom of the pile body 1 is provided with the positive conductive end 2 and the negative conductive end 3 which are respectively electrically connected with the power supply unit 11, and the positive conductive end 2 and the negative conductive end 3 of every two adjacent pile bodies 1 are respectively electrically connected with the positive conductive end 2 and the negative conductive end 3 of the lower pile body 1 in a stacked state of the pile bodies 1. Therefore, when the warning piles are sequentially nested and stacked, a parallel circuit is formed, the power supply unit 11 on each warning pile is in the parallel circuit, at the moment, the positive electrode conductive end and the negative electrode conductive end on the warning pile at the lowest layer are respectively connected with the positive electrode and the negative electrode of an external charging power supply, and the warning piles which are sequentially nested and stacked can be charged simultaneously.

In the use scenes of road administration maintenance, emergency rescue and the like, as a plurality of warning piles can be sequentially nested and stacked, the collection and the transportation are convenient, and the requirement of dense arrangement can be met.

Specifically, as shown in fig. 1 and 2: in this embodiment, the bottom of the pile body 1 is provided with a radially outward protruding step 4, and the positive conductive end 2 and the negative conductive end 3 are respectively arranged on the step 4.

In order to prevent the positive and negative conductive terminals 2 and 3 disposed on the step 4 from directly contacting the ground.

Further, as shown in fig. 1 to 5: the bottom edge of step 4 is equipped with downwardly extending's annular wall 41, forms between annular wall 41 and the pile body 1 bottom and holds chamber 42, and when pile body 1 was in the state of stacking, the chamber 42 cover of holding of upper strata pile body 1 was established on step 4 of lower floor's pile body 1. The setting of downwardly extending annular wall replaces step bottom and ground contact, and in the in-service use processes such as road emergency rescue, the electrically conductive end of avoiding the step bottom contacts ground ponding or metal conductor etc. effectively avoids causing warning stake power damage because of the electric short circuit.

In this embodiment, the positive conductive terminal 2 and the negative conductive terminal 3 both include an upper conductive terminal and a lower conductive terminal, and the upper conductive terminal and the lower conductive terminal are respectively disposed at the upper portion and the bottom portion of the step 4; the upper layer conductive end and the lower layer conductive end of the positive electrode conductive end 2 and the negative electrode conductive end 3 are respectively and electrically connected.

Further, as shown in fig. 1, 2 and 5: the upper conductive end of the positive conductive end 2 and the negative conductive end 3 is respectively arranged in an arc belt shape at the upper part of the step 4, and the lower conductive end of the positive conductive end 2 and the negative conductive end 3 is respectively arranged in an arc belt shape matched with the upper conductive end at the bottom of the step 4.

Specifically, as shown in fig. 5: in the positive conductive end 2 and the negative conductive end 3, the same electrodes of the upper conductive end and the lower conductive end are electrically connected through a lead 7, and the upper conductive end and the lower conductive end of the same electrode can also be of an integral structure penetrating through the upper part and the bottom of the step 4; the positive electrode terminal 2 and the negative electrode terminal 3 are electrically connected to the power supply unit 11 through wires 7, respectively.

The strip-shaped conductive end has a larger contact surface, and when the warning piles are nested and stacked in sequence, the conductive end of the upper warning pile and the conductive end of the lower warning pile are conveniently and electrically conducted.

Further, as shown in fig. 1, 2 and 4: the upper part of the step 4 is provided with a limit block 43 protruding upwards between the positive conductive end 2 and the negative conductive end 3, and the bottom of the step 4 is provided with a limit groove 44 matched with the limit block 43.

Through the cooperation of stopper and spacing groove, a plurality of warning stake can realize quick nested stacking in proper order, has effectively solved and has stacked the in-process, and the electrically conductive end of positive pole and the electrically conductive end of negative pole that are in on the upper strata warning stake and the electrically conductive problem of the electrically conductive end of counterpoint of electrically conductive end of positive pole and the electrically conductive end of negative pole that are in on the warning stake of lower floor are needn't worry because of the inaccurate electric short circuit that leads to of counterpoint, and then the damage warning stake power.

Further, as shown in fig. 1: the LED lamp panel 12 is arranged along the height direction of the pile body 1. When in use, the warning piles are matched with the warning requirements in different directions. A group of LED lamp panels is arranged on four different side faces of the pile body 1. Through setting up multiunit LED lamp plate, the stake can satisfy the multi-direction requirement of warning of carrying on.

When the warning pile is used, the warning pile can normally play a warning function under the condition that the power supply of the warning pile is not powered.

Further, as shown in fig. 1: at least one circle of reflective film 6 is arranged on the pile body 1 along the circumferential direction of the pile body 1, and usually 2 circles of reflective films are arranged on the pile body above and below the LED lamp bank. The arrangement of the reflective film can ensure that the warning pile can still normally play a warning function under the condition that no electricity exists.

Example 2:

this embodiment is a preferred embodiment of the present invention, and is different from embodiment 1 in that:

as shown in fig. 6 and 7, in the present embodiment: the upper layer conductive end of the positive conductive end 2 and the negative conductive end 3 is respectively arranged on the upper part of the step 4 in an arc belt shape, the lower layer conductive end of the positive conductive end 2 and the negative conductive end 3 is respectively an elastic electric connection terminal 5 which is electrically connected to the bottom of the step 4 and extends downwards, the elastic electric connection terminals 5 are symmetrically arranged relative to the axial section of the pile body 1, and the outer diameter of each elastic electric connection terminal 5 is smaller than the distance between the positive conductive end 2 and the negative conductive end 3.

Meanwhile, in this embodiment, the step 4 is not provided with a limiting block and a limiting groove.

Under the condition that a plurality of warning piles are sequentially nested and stacked, the arrangement of the elastic electric connection terminal can ensure that the conductive end of the warning pile on the upper layer is stably contacted with the conductive end of the warning pile on the lower layer; meanwhile, when the upper warning pile is rotated, a pair of elastic electric connecting terminals arranged at the bottom of the upper warning pile can be respectively and electrically conducted with the positive conductive end and the negative conductive end arranged on the upper portion of the lower warning pile.

Example 3:

this embodiment is a modification of embodiment 2, and is different from embodiment 2 in that: the elastic electric connection terminal is arranged at a position different from the arc-shaped electric conduction terminal.

Specifically, the lower layer conductive end of the positive conductive end 2 and the negative conductive end 3 is respectively arranged at the bottom of the step 4 in an arc belt shape, the upper layer conductive end of the positive conductive end 2 and the negative conductive end 3 is respectively an elastic electric connection terminal 5 which is electrically connected to the upper part of the step 4 and extends upwards, the elastic electric connection terminals 5 are symmetrically arranged relative to the axial cross section of the pile body 1, and the outer diameter of each elastic electric connection terminal 5 is smaller than the distance between the positive conductive end 2 and the negative conductive end 3.

Under the condition that a plurality of warning piles are sequentially nested and stacked, the arrangement of the elastic electric connection terminal can ensure that the conductive end of the warning pile on the upper layer is stably contacted with the conductive end of the warning pile on the lower layer; meanwhile, when the upper warning pile is rotated, a pair of elastic electric connecting terminals arranged on the upper portion of the lower warning pile can be respectively and electrically connected with the positive conductive end and the negative conductive end arranged at the bottom of the upper warning pile.

Example 4:

the embodiment is an improvement of the embodiment 1, the embodiment 2 or the embodiment 3, and is based on the technical scheme of the embodiment 1, the embodiment 2 or the embodiment 3.

As shown in fig. 8: a charging module 13 and a lamp panel driving module 14 which are electrically connected together are also arranged in the pile body 1, and the charging module 13 is electrically connected with the power supply unit 11; the power supply unit 11 is electrically connected with the LED lamp panel 12 through the lamp panel driving module 14; in an initial state, the LED lamp panel 12 is kept in an on state, and the charging module 13 is in a non-operating state; when the plug-in charging warning pile is charged, the charging module 13 is respectively electrically conducted with the positive electrode and the negative electrode of a power supply arranged on the charging pile base 8 through the positive electrode conductive end 2 and the negative electrode conductive end 3, and the charging module 13 is in a working state; when the charging module 13 is in an operating state, the lamp panel driving module 14 controls the LED lamp panel 12 to be closed.

In this embodiment, under the normality, LED lamp plate 12 keeps opening, and LED lamp plate alright flashing light is luminous, warns the stake and gets into warning operating condition, and the module 13 that charges in the stake of warning this moment is in non-operating condition, and the module 13 that charges just begins to work when warning the stake and charging. When the warning pile needs to be charged, the warning pile is placed on a charging pile base 8 with a built-in large-capacity battery, a charging module 13 in the warning pile is electrically conducted with a power supply anode and a power supply cathode which are arranged on the charging pile base 8 respectively through a positive conductive end 2 and a negative conductive end 3, the charging module 13 enters a working state, a power supply unit 11 in the warning pile is charged, and the LED lamp panel 12 is controlled to be closed through an electrical interference lamp panel driving module 14.

In order to close the LED lamp panel, a conventional operation method is also applicable to this embodiment by setting a common control switch between the power supply unit 11 and the LED lamp panel 12.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications of the present embodiment without inventive contribution as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.

Claims (10)

1. The utility model provides a plug-in warning stake that charges, it includes pile body (1) that can follow the direction of height nested stack in proper order, its characterized in that: the pile body (1) is provided with a power supply unit (11) and an LED lamp panel (12), and the bottom of the pile body (1) is provided with a positive conductive end (2) and a negative conductive end (3) which are respectively and electrically connected with the power supply unit (11); when the pile bodies (1) are in a stacked state, the positive conductive end (2) and the negative conductive end (3) of the upper pile body (1) in every two adjacent pile bodies (1) are respectively in electric conduction with the positive conductive end (2) and the negative conductive end (3) of the lower pile body (1).

2. The plug-in charging warning stake of claim 1, characterized in that: the bottom of the pile body (1) is provided with a radial outward convex step (4), and the positive conductive end (2) and the negative conductive end (3) are respectively arranged on the step (4).

3. The plug-in charging warning stake of claim 2, characterized in that: the bottom edge of step (4) is equipped with downwardly extending's annular wall (41), form between annular wall (41) and pile body (1) bottom and hold chamber (42), work as when pile body (1) is in when stacking the state, the chamber (42) that holds of upper pile body (1) is established on step (4) of lower floor's pile body (1).

4. The plug-in charging warning stake of claim 3, characterized in that: the positive conductive end (2) and the negative conductive end (3) comprise an upper conductive end and a lower conductive end, and the upper conductive end and the lower conductive end are respectively arranged at the upper part and the bottom of the step (4); and the upper layer conductive end and the lower layer conductive end in the positive conductive end (2) and the negative conductive end (3) are respectively and electrically connected.

5. The plug-in charging warning stake of claim 4, characterized in that: the positive conductive end (2) and the upper conductive end in the negative conductive end (3) are respectively arranged in an arc belt shape on the upper part of the step (4), and the positive conductive end (2) and the lower conductive end in the negative conductive end (3) are respectively arranged in an arc belt shape matched with the respective upper conductive end at the bottom of the step (4).

6. The plug-in charging warning stake of claim 5, characterized in that: the upper portion of step (4) is in be equipped with upwards bellied stopper (43) between positive pole conducting terminal (2) and negative pole conducting terminal (3), just the bottom of step (4) is equipped with stopper (43) looks adaptation's spacing groove (44).

7. The plug-in charging warning stake of claim 4, characterized in that: the utility model discloses a pile body, including anodal conductive end (2) and negative pole conductive end (3), the upper strata conductive end in anodal conductive end (2) and negative pole conductive end (3) is arc banding setting on the upper portion of step (4) respectively, the lower floor conductive end in anodal conductive end (2) and the negative pole conductive end (3) is electric connection terminal (5) of bottom and downwardly extending of electric connection in step (4) respectively, elasticity electric connection terminal (5) for the axial cross-section symmetry of pile body (1) sets up, and the external diameter size of elasticity electric connection terminal (5) is less than the distance size between anodal conductive end (2) and the negative pole conductive end (3).

8. The plug-in charging warning stake of claim 4, characterized in that: the electrically conductive end of lower floor in anodal electrically conductive end (2) and the electrically conductive end of negative pole (3) is arc banding setting respectively in the bottom of step (4), the electrically conductive end of upper strata in anodal electrically conductive end (2) and the electrically conductive end of negative pole (3) is electricity connection terminal (5) on the upper portion of step (4) and the elasticity that upwards extends respectively, elasticity connect electrical terminal (5) for the axial cross section symmetry of pile body (1) sets up, and the external diameter size of elasticity connect electrical terminal (5) is less than the distance size between anodal electrically conductive end (2) and the electrically conductive end of negative pole (3).

9. The pluggable charging warning stake of any one of claims 1-8, wherein: a charging module (13) and a lamp panel driving module (14) which are electrically connected together are also arranged in the pile body (1), and the charging module (13) is electrically connected with the power supply unit (11); the power supply unit (11) is electrically connected with the LED lamp panel (12) through the lamp panel driving module (14); in an initial state, the LED lamp panel (12) is kept in a starting state, and the charging module (13) is in a non-working state; when the plug-in charging warning pile is charged, the charging module (13) is respectively electrically conducted with a positive electrode and a negative electrode of a power supply arranged on the charging pile base (8) through the positive electrode conductive end (2) and the negative electrode conductive end (3), and the charging module (13) is in a working state; when the charging module (13) is in a working state, the lamp panel driving module (14) controls the LED lamp panel (12) to be closed.

10. The pluggable charging warning stake of any one of claims 1-8, wherein: at least one circle of reflective membrane (6) is arranged on the pile body (1) along the circumferential direction of the pile body (1).

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