CN219969448U - Charging pile charging induction structure - Google Patents

Abstract

The utility model relates to the technical field of charging piles and discloses a charging pile charging induction structure which comprises a charging pile body and an induction component arranged on the charging pile body and used for inducing charging, wherein a protective box used for protecting the induction component is connected to the outer wall of one side of the charging pile body close to the induction component in a hinge mode, a plurality of buffer components which are arranged in a matrix mode are arranged around the induction component on the outer wall of one side of the charging pile body, a buffer part used for buffering and a transmission part used for transmitting stress are arranged in the buffer component, a reset spring used for buffering through shrinkage and a piston plate used for buffering through compression of gas are arranged in the buffer part, and an extrusion rod and a connecting rotating rod are arranged in the transmission part. According to the utility model, the buffer assembly is arranged, so that the stress of collision on the protective box can be buffered, and the damage of the collision to the sensing assembly is avoided.

Description

Charging pile charging induction structure

Technical Field

The utility model relates to the technical field of charging piles, in particular to a charging pile charging induction structure.

Background

The environment-friendly energy-saving product is full of vigor in the current society, is a new source of economic growth, and is used as a green transportation means for effectively replacing a fuel automobile, and the electric vehicle needs to be greatly developed in the future from the perspective of environment protection and energy sources and needs to be charged by a charging pile.

The search application number is CN201410617166.8, a charging pile induction structure is disclosed, the charging pile induction structure comprises a panel, the end part of a support column is hinged with a connecting rod, one end of the connecting rod is connected with a semi-elliptical bottom ring, the other end of the connecting rod is connected with a lower pressing rod, the end part of the lower pressing rod penetrates through the panel and protrudes out of the upper surface of the panel, an inductor is arranged at the top end of the protrusion, and a blind hole matched with the inductor is formed in the inner surface of the panel; two grooves are formed in the top of the bulge, two elastic arc-shaped baffles are symmetrically arranged at the two ends of the inductor, a supporting spring is arranged in the grooves, and the movable end of the supporting spring is opposite to the movable end of the arc-shaped baffles. The elastic arc-shaped baffle plate can be contacted with the inner wall of the panel before the inductor is contacted with the inner wall of the panel, the arc-shaped baffle plate is stressed and deformed, and the supporting spring in the groove limits the arc-shaped baffle plate to continuously move downwards when the movable end of the arc-shaped baffle plate is supported, so that the inductor is prevented from directly colliding with the inner wall of the panel due to excessive displacement of the arc-shaped baffle plate.

This technical scheme is when using, does not set up the structure to the induction equipment protection on it, fills the electric pile setting outdoor, receives the pollution of the impurity of rainwater easily and leads to its damage, influences its life to the electric pile is bumped to filling under the driver maloperation easily, does not have protective equipment on it, damages induction equipment under bumping easily.

For this reason, we propose a charging pile charging induction structure.

Disclosure of Invention

The utility model mainly solves the technical problems in the prior art and provides a charging pile charging induction structure.

In order to achieve the above purpose, the utility model adopts the following technical scheme that the charging pile charging induction structure comprises a charging pile body and an induction component which is arranged on the charging pile body and is used for inducing charging, wherein a protecting box which is used for protecting the induction component is connected to the outer wall of one side of the charging pile body close to the induction component in a hinge manner, a plurality of buffer components which are arranged in a matrix manner are arranged around the induction component on the outer wall of one side of the charging pile body, a buffer part used for buffering and a transmission part used for transmitting stress are arranged in the buffer component, a reset spring used for buffering through shrinkage and a piston plate used for buffering gas compression are arranged in the buffer part, and an extrusion rod and a connecting rotating rod are arranged in the transmission part.

Further, a plurality of first sliding holes which are circumferentially arranged are formed in the outer wall of one side of the charging pile body in a surrounding mode through the induction assembly, buffer grooves are formed in the inner wall of one side of the first sliding holes, the extrusion rods are connected to the inner wall of the first sliding holes in a sliding mode, the extrusion rods and the extrusion discs are fixedly connected to the axial positions of the two ends of the extrusion rods respectively, the reset springs are sleeved on the outer wall of the extrusion rods, and the two ends of the reset springs are fixedly connected to the opposite ends of the charging pile body and the bearing plate respectively.

Further, a plurality of limit sliding grooves which are arranged circumferentially are formed in the inner wall of one side of the buffer groove, and limit sliding blocks are connected to the inner wall of the limit sliding groove in a sliding mode.

Further, the relative one end of spacing slider and extrusion dish all is provided with and is used for pivoted rotating assembly, connects the bull stick both ends and rotates respectively to connect in two rotating assembly.

Further, spacing spout inner wall is provided with the baffle, and baffle one end is provided with the air cavity, is provided with inert gas in the air cavity, and has seted up the second sliding hole on the baffle, and sliding connection has the connecting rod in the second sliding hole, connecting rod one end fixedly connected with in spacing slider outer wall, connecting rod other end fixedly connected with piston plate, piston plate sliding connection in the air cavity inner wall.

Further, the damping rod which provides resistance through contraction is arranged on the inner wall of one side of the buffer groove, and the other end of the damping rod is fixedly connected to the outer wall of the extrusion disc.

Furthermore, the outer wall of one side of the protective box is inclined, and a plurality of rain guide grooves which are in linear arrangement are formed in the protective box.

Further, the both ends of the inner wall of the rain guide groove are provided with first transition parts, the both ends of the notch of the rain guide groove are provided with second transition parts, and the cross sections of the rain guide groove and the second transition parts are arc-shaped.

Advantageous effects

The utility model provides a charging pile charging induction structure. The beneficial effects are as follows:

(1) This fill electric pile induction structure that charges, through the buffer assembly who sets up, when needs protect response subassembly, rotate the protective housing, buckle the protective housing on response subassembly, bearing plate and the protective housing inner wall on the buffer assembly are laminated mutually this moment, when striking appears, can transmit bearing plate and the last reset spring to the stress on the protective housing this moment, reset spring can cushion the stress through the shrink, and drive the extrusion pole and slide in first sliding hole, when the extrusion pole removes, can drive through the rotation subassembly on extrusion plate and the extrusion pole and connect the bull stick and rotate, the rotation subassembly that connects the bull stick can drive spacing slider through on the other end slides in spacing spout, then drive the piston board through the connecting rod and slide in the air cavity, then to the inert gas extrusion in the air cavity, the reaction force through inert gas atmospheric pressure can further cushion the stress that receives on the protective housing, and then can cushion the stress in a plurality of directions, the buffer effect is improved, can cushion the stress that receives on the protective housing, avoid bumping and cause the damage to response subassembly.

(2) This fill electric pile induction structure that charges through the damping pole that sets up, when the extrusion dish removes, can extrude the damping pole, the damping pole receives the extrusion and can produce resistance through the shrink, can absorb the elastic potential energy that produces when restoring spring shrink through the resistance, avoids restoring spring to continue the shake under the elastic potential energy drive, keeps restoring spring's stability, and then keeps the stability of protective housing, avoids the protective housing to rock down and causes the response subassembly damage to the response subassembly striking.

(3) This fill electric pile response structure that charges through the protective housing that sets up and lead the rain groove, on slope design on the protective housing and the design of leading the rain groove can let the rainwater pass through the protective housing fast, avoid the rainwater to be detained on the protective housing, remain on carelessly getting into the response subassembly on the protective housing, cause the damage to the response subassembly to the arc design of first transition portion and second transition portion can reduce debris and lead the frictional force between the rain groove, thereby can avoid debris to block up in leading the rain groove, influence the rainwater and pass through.

Drawings

FIG. 1 is a front view of the present utility model;

FIG. 2 is a partial cross-sectional view of the present utility model;

FIG. 3 is an enlarged view of portion A of FIG. 2 in accordance with the present utility model;

FIG. 4 is a detailed view of the protective case of the present utility model;

fig. 5 is an enlarged view of portion B of fig. 4 in accordance with the present utility model.

Legend description: 1. a charging pile body; 2. an induction assembly; 3. a protective box; 4. a buffer assembly; 5. a pressure bearing plate; 6. an extrusion rod; 7. a return spring; 8. a buffer tank; 9. an extrusion plate; 10. a damping rod; 11. connecting a rotating rod; 12. a limit sliding block; 13. a connecting rod; 14. a piston plate; 15. an air cavity; 16. a rain guide groove; 17. a first transition portion; 18. a second transition.

Detailed Description

Embodiment one: the utility model provides a fill electric pile and fill electric induction structure, as shown in fig. 1-2, including fill electric pile body 1 and set up on filling electric pile body 1 be used for to the response subassembly 2 that charges, fill electric pile body 1 one side outer wall and be close to response subassembly 2 department hinge connection and be used for the protection box 3 to response subassembly 2 protection, and fill electric pile body 1 one side outer wall and encircle response subassembly 2 and be provided with a plurality of buffer modules 4 that are the matrix arrangement, be provided with the buffering portion that is used for buffering and the drive portion that is used for transmitting stress in the buffer module 4, be provided with in the buffer portion through shrink buffer reset spring 7 and through the piston plate 14 to the gas compression buffering, be provided with extrusion pole 6 and connection bull stick 11 in the drive portion.

The outer wall of one side of the charging pile body 1 surrounds the induction assembly 2 and is provided with a plurality of first sliding holes which are circumferentially arranged, the inner wall of one side of the first sliding hole is provided with a buffer groove 8, the extrusion rod 6 is slidably connected to the inner wall of the first sliding hole, the axial positions of the two ends of the extrusion rod 6 are respectively fixedly connected with the extrusion rod 6 and the extrusion disc 9, the reset spring 7 is sleeved on the outer wall of the extrusion rod 6, and the two ends of the reset spring 7 are respectively fixedly connected to the opposite ends of the charging pile body 1 and the bearing plate 5.

Through the buffer module 4 that sets up, when needs protect response subassembly 2, rotate protective housing 3, detain protective housing 3 on response subassembly 2, bearing plate 5 and the laminating mutually of protective housing 3 inner wall on the buffer module 4 this moment, when the striking appears, can transmit bearing plate 5 and its last reset spring 7 to the stress on the protective housing 3 this moment, reset spring 7 can cushion the stress through the shrink to drive extrusion rod 6 in first sliding hole and slide, then can cushion the stress that receives the collision on the protective housing 3, avoid colliding and cause the damage to response subassembly 2.

As shown in fig. 2-3, a plurality of limit sliding grooves which are circumferentially arranged are formed in the inner wall of one side of the buffer groove 8, and limit sliding blocks 12 are slidably connected to the inner wall of the limit sliding groove.

The opposite ends of the limiting slide block 12 and the extrusion disc 9 are respectively provided with a rotating component used for rotating, and two ends of the connecting rotating rod 11 are respectively and rotatably connected in the two rotating components.

The limiting sliding groove is characterized in that a partition plate is arranged on the inner wall of the limiting sliding groove, an air cavity 15 is arranged at one end of the partition plate, inert gas is arranged in the air cavity 15, a second sliding hole is formed in the partition plate, a connecting rod 13 is connected in the second sliding hole in a sliding mode, one end of the connecting rod 13 is fixedly connected to the outer wall of the limiting sliding block 12, a piston plate 14 is fixedly connected to the other end of the connecting rod 13, and the piston plate 14 is connected to the inner wall of the air cavity 15 in a sliding mode.

Through the buffer module 4 that sets up, when the squeeze lever 6 removes, can drive through the rotation subassembly on squeeze plate 9 and it and connect bull stick 11 and rotate, connect bull stick 11 can drive spacing slider 12 in spacing spout through the rotation subassembly on the other end and slide, then drive piston board 14 through connecting rod 13 and slide in air cavity 15, then to the inert gas extrusion in the air cavity 15, can further cushion the stress that receives on the protective housing 3 through the reaction force of inert gas atmospheric pressure, and then can cushion the stress in a plurality of directions, improve the buffering effect, further protect sensing assembly 2.

As shown in fig. 3, the inner wall of one side of the buffer tank 8 is provided with a damping rod 10 providing resistance by contraction, and the other end of the damping rod 10 is fixedly connected to the outer wall of the pressing disk 9.

Through the damping pole 10 that sets up, when the extrusion dish 9 removes, can extrude damping pole 10, damping pole 10 receives the extrusion and can produce the resistance through the shrink, absorbs the elastic potential energy that produces when the reset spring 7 shrink through the resistance, avoids reset spring 7 to last shake under the elastic potential energy drives, keeps reset spring 7's stability, and then keeps the stability of protective housing 3, avoids protective housing 3 to rock down and causes response subassembly 2 damage to response subassembly 2 striking.

Embodiment two: on the basis of the first embodiment, referring to fig. 4 and 5, the outer wall of one side of the protection box 3 is inclined, and a plurality of rain guide grooves 16 are formed on the protection box 3 in a linear arrangement.

The two ends of the inner wall of the rain guide groove 16 are provided with first transition parts 17, the two ends of the notch of the rain guide groove 16 are provided with second transition parts 18, and the cross sections of the rain guide groove 16 and the second transition parts 18 are arc-shaped.

Through the protective housing 3 and the rain guide groove 16 that set up, the slope design on the protective housing 3 and the design of rain guide groove 16 can let the rainwater pass through on the protective housing 3 fast, avoid the rainwater to be detained on the protective housing 3, remain on the protective housing 3 carelessly get into on the response subassembly 2, cause the damage to the response subassembly 2 to the arc design of first transition portion 17 and second transition portion 18 can reduce the frictional force between debris and the rain guide groove 16, thereby can avoid debris to block up in the rain guide groove 16, influence the rainwater and pass through.

The foregoing has shown and described the basic principles and main features of the present utility model and the advantages of the present utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (8)

1. The utility model provides a fill electric pile induction structure that charges, fills electric pile body (1) and sets up on filling electric pile body (1) and be used for to the response subassembly (2) that charges, its characterized in that: the utility model discloses a charging pile body, including charging pile body (1), charging pile body, drive part, piston plate (14) that charging pile body (1), charging pile body (1) one side outer wall is close to sensing subassembly (2) department hinge connection has protective housing (3) that are used for the protection to sensing subassembly (2), and charging pile body (1) one side outer wall encircles sensing subassembly (2) and be provided with a plurality of buffer modules (4) that are the matrix arrangement, be provided with the buffering portion that is used for buffering in buffer modules (4) and be used for transmitting stress, be provided with reset spring (7) through shrink buffering in the buffering portion and through being provided with extrusion rod (6) and connecting bull stick (11) in the drive part.

2. The charging pile charging induction structure according to claim 1, characterized in that: fill electric pile body (1) one side outer wall and encircle induction subassembly (2) and offer a plurality of first sliding holes that are circumference and arrange, buffer tank (8) have been offered to first sliding hole one side inner wall, extrusion pole (6) sliding connection is in first sliding hole inner wall, extrusion pole (6) both ends axial position is fixedly connected with extrusion pole (6) and extrusion dish (9) respectively, and reset spring (7) cup joint in extrusion pole (6) outer wall, reset spring (7) both ends are fixedly connected with respectively in fill electric pile body (1) and the relative one end of bearing plate (5).

3. The charging pile charging induction structure according to claim 2, characterized in that: a plurality of limit sliding grooves which are circumferentially arranged are formed in the inner wall of one side of the buffer groove (8), and limit sliding blocks (12) are connected to the inner wall of the limit sliding groove in a sliding mode.

4. A charging pile charging induction structure according to claim 3, characterized in that: the limiting sliding block (12) and the opposite end of the extrusion disc (9) are respectively provided with a rotating component used for rotating, and two ends of the connecting rotating rod (11) are respectively connected in the two rotating components in a rotating mode.

5. The charging pile charging induction structure according to claim 4, characterized in that: the limiting sliding chute is characterized in that a partition plate is arranged on the inner wall of the limiting sliding chute, an air cavity (15) is arranged at one end of the partition plate, inert gas is arranged in the air cavity (15), a second sliding hole is formed in the partition plate, a connecting rod (13) is connected in the second sliding hole in a sliding mode, one end of the connecting rod (13) is fixedly connected to the outer wall of the limiting sliding block (12), a piston plate (14) is fixedly connected to the other end of the connecting rod (13), and the piston plate (14) is connected to the inner wall of the air cavity (15) in a sliding mode.

6. The charging pile charging induction structure according to claim 5, characterized in that: the inner wall of one side of the buffer groove (8) is provided with a damping rod (10) which provides resistance through contraction, and the other end of the damping rod (10) is fixedly connected with the outer wall of the extrusion disc (9).

7. The charging pile charging induction structure according to claim 1, characterized in that: the outer wall of one side of the protective box (3) is inclined, and a plurality of rain guide grooves (16) which are linearly arranged are formed in the protective box (3).

8. The charging pile charging induction structure according to claim 7, characterized in that: the two ends of the inner wall of the rain guide groove (16) are provided with first transition parts (17), the two ends of the notch of the rain guide groove (16) are provided with second transition parts (18), and the cross sections of the rain guide groove (16) and the second transition parts (18) are arc-shaped.