CN223720696U - Charging pile - Google Patents

Abstract

The application discloses a charging pile, and belongs to the technical field of charging equipment. The charging pile comprises a shell, a side door and a locking mechanism, wherein the shell is provided with a first operation port and a second operation port, the side door is used for opening and closing the first operation port, the locking mechanism is installed in an inner cavity of the shell and used for locking or unlocking the side door, the door body is used for opening and closing the second operation port and is locked or unlocked by a lock, and the locking mechanism can be operated through the second operation port under the condition that the second operation port is in an opening state so as to unlock the side door. The probability that the first operation port of the charging pile is maliciously opened is lower, so that the safety risk of the charging pile is lower.

Description

Charging pile

Technical Field

The application belongs to the technical field of charging equipment, and particularly relates to a charging pile.

Background

With the vigorous development of the electric automobile industry, the safety of the charging pile serving as an important supporting facility of the electric automobile is increasingly concerned by people.

Traditional electric pile that fills usually includes casing and side door, and the casing is equipped with the operation mouth, and the user can carry out dismouting and maintenance to the part in the inner chamber of casing with the help of the operation mouth, and the side door is used for opening and close the operation mouth, and the side door generally relies on the connecting piece, for example screw detachably to install on the casing, and the part of connecting piece is located outside the casing. Under this kind of mounting means, the probability that the operation mouth was maliciously opened is higher to lead to charging stake's security risk higher.

Disclosure of utility model

The embodiment of the application aims to provide a charging pile which can solve the problem that the safety risk of the charging pile in the related technology is high.

The embodiment of the application provides a charging pile, which comprises:

the shell is provided with a first operation port and a second operation port;

The side door is used for opening and closing the first operation port, and the locking mechanism is arranged in the inner cavity of the shell and is used for locking or unlocking the side door;

The door body is used for opening and closing the second operation port and is locked or unlocked by the lockset, and under the condition that the second operation port is in an opening state, the locking mechanism can be operated through the second operation port so as to unlock the side door.

In the embodiment of the application, the locking mechanism is arranged in the inner cavity of the shell, and when the second operation port is in an open state, the locking mechanism is operated through the second operation port, so that the side door can be unlocked, and the side door is used for opening and closing the first operation port. That is, the locking mechanism is hidden in the inner cavity of the housing, and in the case where the second operation port is in the open state, the locking mechanism is operated through the second operation port, thereby achieving the opening of the first operation port. Therefore, the first operation port can be opened only by opening the second operation port, and the door body is used for opening and closing the second operation port and is locked or unlocked by the lock, which means that the probability that the second operation port is maliciously opened is lower, so that the probability that the first operation port is maliciously opened is lower, and the safety risk of the charging pile is lower.

Furthermore, in the embodiment of the application, the locking mechanism is hidden in the inner cavity of the shell, so that the locking mechanism is less influenced by the outside, and the service life of the locking mechanism is prolonged.

Drawings

FIG. 1 is a schematic diagram of a charging pile according to an embodiment of the present application;

FIG. 2 is an enlarged view of section I of FIG. 1;

FIG. 3 is a schematic view of a side door according to an embodiment of the present application;

fig. 4 is an enlarged view of a portion a of fig. 3;

FIG. 5 is a cross-sectional view of a charging stake according to an embodiment of the present application;

fig. 6 is an enlarged view of a portion B of fig. 5;

FIG. 7 is a schematic structural view of a locking mechanism according to an embodiment of the present application;

FIG. 8 is an exploded view of a locking mechanism disclosed in an embodiment of the present application;

FIG. 9 is an enlarged view of section II of FIG. 1;

FIG. 10 is a second schematic structural view of a charging pile according to an embodiment of the present application;

Fig. 11 is an enlarged view of a portion C of fig. 10;

FIG. 12 is a third schematic view of a charging pile according to an embodiment of the present application;

Fig. 13 is an enlarged view of a portion D of fig. 12.

Reference numerals illustrate:

100-shell, 110-second operation port, 120-mounting rack and 130-protective cover;

200-side door, 210-clamping part;

300-locking mechanism, 310-mounting seat, 311-mounting part, 312-first sub-part, 3121-accommodation groove, 313-second sub-part, 320-locking piece, 321-guiding inclined plane, 330-operating piece, 331-limit part, 332-pull ring, 340-elastic piece;

400-door body;

500-gun lines;

610-first clamp, 620-second clamp, 630-first screw;

710-gland, 720-third clamp, 730-fourth clamp, 740-second screw;

810-input module, 811-first mounting shaft, 820-connection;

910-display screen, 920-card reader, 930-first control device, 940-second control device, 950-power distribution module, 960-gun head, 970-emergency switch, 980-indicator light.

Detailed Description

The technical solutions of the embodiments of the present application will be clearly described below with reference to the drawings in the embodiments of the present application, and it is apparent that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments, which are obtained by a person skilled in the art based on the embodiments of the present application, fall within the scope of protection of the present application.

The terms first, second and the like in the description and in the claims, are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged, as appropriate, such that embodiments of the present application may be implemented in sequences other than those illustrated or described herein, and that the objects identified by "first," "second," etc. are generally of a type, and are not limited to the number of objects, such as the first object may be one or more. Furthermore, in the description and claims, "and/or" means at least one of the connected objects, and the character "/", generally means that the associated object is an "or" relationship.

The charging pile provided by the embodiment of the application is described in detail through specific embodiments and application scenes thereof by combining the accompanying drawings.

Referring to fig. 1 to 13, a charging pile is disclosed in an embodiment of the present application, which includes a housing 100, a side door 200, a locking mechanism 300, and a door body 400. Alternatively, the charging pile is, for example, a dc charging pile.

Specifically, the housing 100 is provided with a first operation port and a second operation port 110, and the first operation port and the second operation port 110 are used to communicate the inner cavity of the housing 100 with the outside, and the shape and the size of the first operation port and the second operation port 110 are determined according to the specific situation, which is not limited in the embodiment of the present application.

The side door 200 is used for opening and closing a first operation port, a part of an inner cavity of the housing 100 is, for example, a heat dissipation subchamber, a heat dissipation component is installed in the heat dissipation subchamber, the first operation port is, for example, communicated with the heat dissipation subchamber, and when the first operation port is in an open state, a user can, for example, disassemble or maintain the heat dissipation component through the first operation port. The locking mechanism 300 is installed in the inner cavity of the housing 100 and serves to lock or unlock the side door 200.

Referring to fig. 1 to 6, the door body 400 is used to open and close the second operation port 110, and is locked or unlocked by a lock, and in the case that the second operation port 110 is in an open state, the locking mechanism 300 can be operated through the second operation port 110 to unlock the side door 200.

The lock may be a door lock, in which case the lock is part of a charging post, or the lock may be a component that is additionally provided on the charging post. In addition, the door body 400 may be locked or unlocked by only a single lock, or at least two locks may be simultaneously provided on the door body 400, and the at least two locks may be locked or unlocked together.

In the embodiment of the present application, the locking mechanism 300 is installed in the inner cavity of the housing 100, and when the second operation port 110 is in the opened state, the locking mechanism 300 is operated through the second operation port 110, so that the side door 200 can be unlocked, and the side door 200 is used for opening and closing the first operation port. That is, the locking mechanism 300 is hidden in the inner cavity of the housing 100, and in the case where the second operation port 110 is in the opened state, the locking mechanism 300 is operated through the second operation port 110, thereby achieving the opening of the first operation port. In this way, the second operation port 110 needs to be opened first to open the first operation port, and the door body 400 is used for opening and closing the second operation port 110 and is locked or unlocked by the lock, which means that the probability that the second operation port 110 is maliciously opened is lower, so that the probability that the first operation port is maliciously opened is lower, and further the safety risk of the charging pile is lower.

Furthermore, in the embodiment of the present application, the locking mechanism 300 is hidden in the inner cavity of the housing 100, which makes the locking mechanism 300 less affected by the outside, thereby prolonging the service life of the locking mechanism 300.

In another embodiment, side door 200 is provided with a snap-fit portion 210, locking mechanism 300 includes a lock 320, and lock 320 is movable between a locked position and an unlocked position. When the first operation port is in the closed state and the locking member 320 is located at the locking position, the locking member 320 is engaged with the engaging portion 210 to lock the side door 200. In the case where the lock 320 is located at the unlock position, the lock 320 is separated from the latch 210 to unlock the side door 200. In the case where the second operation port 110 is in the opened state, the locking member 320 may be operated through the second operation port 110 to move the locking member 320 from the locking position to the unlocking position.

Compared to the embodiment in which the locking mechanism 300 includes an electromagnet and a switch, in this embodiment, the locking member 320 is in locking engagement with the locking portion 210, so as to lock the side door 200, and the locking engagement manner is not easily interfered by the magnetic field, so that the side door 200 can be relatively stably maintained in the locked state.

In other alternative embodiments, the locking mechanism 300 may also include an electromagnet and a switch, where the electromagnet is electrically connected to the power supply component of the charging post through the switch, and the side door 200 is provided with a magnetic absorbing member, for example. In the case where the second operation port 110 is in the open state, the switch may be closed through the second operation port 110 to unlock the side door 200. Specifically, when the switch is in the open state and the side door 200 closes the first operation port, the power supply component supplies power to the electromagnet, the electromagnet generates magnetic force, and the electromagnet is magnetically attracted to the magnetic attraction component, so that locking of the side door 200 is realized, and when the switch is in the closed state, the magnetic force of the electromagnet disappears, and the magnetic attraction component cannot be attracted, so that unlocking of the side door 200 is realized.

In another embodiment, referring to fig. 7 and 8, the locking mechanism 300 further includes, for example, a mounting base 310, an operating member 330, and an elastic member 340. Alternatively, the elastic member 340 is, for example, a spring. The locking member 320 is slidably engaged with the mounting block 310 such that the locking member 320 is slidable between a locked position and an unlocked position. The operating member 330 is coupled to the locking member 320 and is configured to drive the locking member 320 from the locked position to the unlocked position. The elastic member 340 is mounted on the mounting base 310, and is used for driving the locking member 320 to move from the unlocking position to the locking position.

In the actual use process, when the second operation port 110 is in the open state, the user pulls the operation member 330, for example, to drive the locking member 320 to slide, so as to change the position of the locking member 320, so that the locking member 320 moves from the locking position to the unlocking position. In the case that the first operation port is in the opened state, the user only needs to release the operation member 330, and then the locking member 320 can automatically move from the unlocking position to the locking position under the action of the elastic member 340. It can be seen that the locking member 320 can be automatically moved from the unlocking position to the locking position due to the elastic member 340, thereby saving manpower. In addition, by the arrangement, the locking mechanism 300 is simple in structure, low in cost and good in applicability.

Alternatively, the locking member 320 is, for example, a stainless steel member to extend the service life of the locking member 320, and the operating member 330 is, for example, provided with a pull ring 332 to facilitate the user pulling the operating member 330. The mount 310 is attached to the housing 100 by, for example, the mount 120, and as shown in fig. 2, the mount 120 is, for example, substantially L-shaped.

In addition, the side door 200 is provided with, for example, an elastic sealing strip that deforms, for example, under pressure to better seal the gap between the side door 200 and the case 100 when the first operation port is in the closed state and the side door 200 is in the locked state. In the case that the side door 200 is in the unlocked state, the elastic sealing strip automatically returns to the original shape and drives the side door 200 to slightly move in a direction away from the housing 100, so that the side door 200 cannot be locked even if the operating member 330 moves to the locking position again.

In other alternative embodiments, the locking structure may not include the elastic member 340, in which case the movement of the locking member 320 from the locked position to the unlocked position and vice versa may be accomplished by manual operation.

In a further embodiment, referring to fig. 6 to 8, the side door 200 is rotatably installed on the housing 100, and the latch member 320 is provided with a guide slope 321, and the side door 200 drives the latch member 320 to slide through the guide slope 321 during the closing of the first operation port of the side door 200, so that the latch member 320 is retracted from the side door 200.

In the solution adopted in this embodiment, in the actual use process, in the process of closing the first operation port of the side door 200, the side door 200 may drive the locking member 320 to gradually slide from the locking position to the unlocking position through the guiding inclined plane 321, so that the locking member 320 avoids the side door 200, and in the state where the side door 200 is completely closed, the elastic member 340 may automatically drive the locking member 320 to slide from the unlocking position to the locking position, so that the locking member 320 is engaged with the engaging portion 210, and further locks the side door 200. It can be seen that, in the present embodiment, the locking of the side door 200 can be automatically achieved while the side door 200 is closed, thereby saving manpower.

In alternative embodiments, the locking member 320 may not have a guide slope 321, in which case, for example, the user is required to manually pull the operating member 330 to retract the locking member 320 away from the side door 200.

In a further embodiment, referring to fig. 1, 5 and 6, the operation member 330 is disposed toward the second operation port 110, and optionally, a center line of the operation member 330 is, for example, parallel to a center line of the second operation port 110. Thus, the user can operate the operation member 330 more conveniently, so that the charging pile can be used more conveniently.

In other alternative embodiments, the operation member 330 may be parallel to the second operation port 110, in which case the center line of the operation member 330 is perpendicular to the center line of the second operation port 110, for example.

In a further embodiment, the elastic member 340 is sleeved on the operation member 330, for example. The installation position of the elastic member 340 can be conveniently and rapidly determined, so that the installation process of the elastic member 340 is simplified, and the operation member 330 can limit the shaking of the elastic member 340, so that the stability of the elastic member 340 is improved. Furthermore, with the solution of the present embodiment, the space occupied by the elastic member 340 and the operation member 330 as a whole is small, thereby improving the compactness of the locking mechanism 300.

In other alternative implementations, the elastic member 340 may be disposed side-by-side with the operating member 330.

In a further embodiment, referring to fig. 7 and 8, the mounting base 310 is provided with a guide channel, one end of the locking member 320 extends into the guide channel from one end of the guide channel, and the locking member 320 is slidably engaged with the guide channel to slidably engage with the mounting base 310. One end of the operating member 330 extends into the guide channel from the other end of the guide channel and is coupled to the locking member 320, and the elastic member 340 is installed in the guide channel.

With the solution of this embodiment, a portion of the locking member 320 and the elastic member 340 are both hidden in the mounting base 310, which is beneficial to reduce the volume of the locking mechanism 300. In addition, in the case that a portion of the locking member 320 and the elastic member 340 are installed in the guide passage, the installation seat 310 is disposed around a portion of the locking member 320 and the elastic member 340, which makes the locking member 320 and the elastic member 340 less subject to external interference, thereby extending the service lives of the locking member 320 and the elastic member 340 and making the operation of the locking member 320 more reliable.

In alternative embodiments, the resilient member 340 may be located outside the guide channel, or a guide slot may be used instead of the guide channel.

In a further embodiment, referring to fig. 2, 7 and 8, the mounting base 310 is provided with a mounting portion 311, one end of the elastic member 340 is connected to the locking member 320, the other end is connected to the mounting portion 311, the operating member 330 is provided with a limiting portion 331, and the limiting portion 331 is located on a side of the mounting portion 311 away from the locking member 320 and is in limiting engagement with the mounting portion 311 in a sliding direction of the locking member 320, for example, a sliding direction of the locking member 320 is a direction indicated by an arrow line K in fig. 7. With this arrangement, when the side door 200 is in the locked state, the mounting portion 311 can limit the movement of the limiting portion 331 toward the direction approaching the locking portion 210, so as to improve the stability of the operating member 330 and ensure a reliable engagement between the locking member 320 and the locking portion 210. In addition, in the present embodiment, the mounting portion 311 may serve as a mounting base for the elastic member 340 and may cooperate with the limiting portion 331 to limit the movement of the operating member 330, thereby simplifying the structure of the locking mechanism 300 and making the locking mechanism 300 low in cost.

Alternatively, referring to fig. 2, one end of the operating member 330 protrudes into the guide passage, for example, through the first end of the guide passage, the mounting portion 311 shields the first end of the guide passage, and the limiting portion 331 is located outside the guide passage. By this arrangement, the sealing performance of the guide passage is good, thereby further extending the service lives of the locking member 320 and the elastic member 340.

In other alternative embodiments, the operation member 330 may not have the limiting portion 331, and the mounting base 310 may additionally have a connecting portion, so that the elastic member 340 is mounted on the mounting base 310 by connecting an end of the elastic member 340 facing away from the locking member 320 with the connecting portion.

In a further embodiment, referring to fig. 8, the mounting base 310 is provided with the mounting portion 311, the operating member 330 is provided with the limiting portion 331, the mounting base 310 includes a first sub-portion 312 and a second sub-portion 313, and the first sub-portion 312 and the second sub-portion 313 are detachably connected and together enclose a guide channel. So configured, either the first sub-portion 312 or the second sub-portion 313 may be replaced individually, thereby reducing waste. In addition, when the first sub-portion 312 or the second sub-portion 313 is removed, the components in the guide channel can be easily assembled, disassembled or maintained, so that the difficulty in using the charging pile is reduced.

As a specific embodiment, the first sub-portion 312 is provided with a receiving groove 3121, for example, in which case the first sub-portion 312 is substantially U-shaped, for example. The second sub-portion 313, for example, shields the notch of the receiving groove 3121 to form a guide channel, and the first sub-portion 312 and the second sub-portion 313 are connected, for example, by a screw connection or a snap connection, or the like.

In other alternative embodiments, the mounting block 310 may be a unitary structure.

In a further embodiment, the mounting base 310 is provided with the mounting portion 311, the operating member 330 is provided with the limiting portion 331, and the operating member 330 is screwed with the locking member 320. By such arrangement, the distance between the locking member 320 and the mounting portion 311 can be adjusted by rotating the operating member 330 and the locking member 320 relatively, and the compression amount of the elastic member 340 is directly related to the distance between the locking member 320 and the mounting portion 311, so that the compression amount of the elastic member 340 can be adjusted by rotating the operating member 330 and the locking member 320 relatively, and accordingly, the amount of force required for pulling the operating member 330 can be adjusted, thereby meeting the diversified demands of different users.

In another embodiment, the door body 400 is a front door of a charging stake. The charging pile is generally provided with a front door, and the front door is generally a main door of the charging pile, and referring to fig. 1, the front door is provided with a display screen 910, a card reader 920, an indicator light 980, and other components for interaction with a user. So set up, need not to additionally set up second operation mouth 110, also need not additionally add the door body 400 to improve the intensity of casing 100, and simplified the structure of filling electric pile.

In other alternative embodiments, the charging stake may also include both a door body 400 and a front door.

In another embodiment, referring to fig. 1, the number of locking mechanisms 300 is at least two, for example, each locking mechanism 300 is arranged at intervals along the height direction of the housing 100, for example, the direction indicated by the arrow line M in fig. 1. The greater the number of locking mechanisms 300, the better the locking reliability of side doors 200, so that setting the number of locking mechanisms 300 to at least two can lock side doors 200 more firmly on housing 100, which makes the risk of side doors 200 being opened maliciously lower.

In other alternative embodiments, the number of locking mechanisms 300 may be one.

In another embodiment, the number of the side doors 200 is at least two, and each side door 200 corresponds to a different first operation opening, that is, each side door 200 is used for opening and closing a different first operation opening, and the side doors 200 and the first operation openings are in a one-to-one correspondence. Each side door 200 corresponds to at least one locking mechanism 300, and each side door 200 is engaged with a corresponding locking mechanism 300, specifically, each clamping portion 210 of each side door 200 corresponds to, for example, one locking mechanism 300, and each clamping portion 210 is, for example, used for clamping engagement with a locking member 320 of its corresponding locking mechanism 300.

In this embodiment, different side doors 200 are used for opening and closing different first operation ports, and each first operation port corresponds to a different position of the housing 100, so that different maintenance requirements can be met, and the number of side doors 200 is set to at least two to better meet the diversified maintenance requirements of the user.

Specifically, the number of the side doors 200 is two, for example, and the two side doors 200 are disposed on two opposite sides of the housing 100 in a first direction, for example, perpendicular to a height direction of the housing 100, respectively.

In other alternative embodiments, the number of side doors 200 may be one.

In another embodiment, the clamping portion 210 includes a bayonet for a clamping engagement with the locking member 320.

In this embodiment, in the case of the bayonet and the locking member 320 being in a snap fit, the bayonet is disposed around a portion of the locking member 320, which makes the fit between the snap portion 210 and the locking member 320 more reliable.

In other alternative embodiments, the locking portion 210 may also include a groove, such as a slot facing the bottom surface of the housing 100, for locking engagement with the locking member 320.

In another embodiment, referring to fig. 6, the charging pile further includes a gun wire 500, a first clamping member 610 and a second clamping member 620, wherein one end of the gun wire 500 passes through the housing 100 and extends into the inner cavity of the housing 100, the first clamping member 610 and the second clamping member 620 are both positioned in the inner cavity of the housing 100 and detachably connected, the first clamping member 610 and the second clamping member 620 jointly clamp the gun wire 500, and at least one of the first clamping member 610 and the second clamping member 620 is connected with the housing 100 to fix the gun wire 500 on the housing 100.

In the present embodiment, the gun line 500 is only detachable when at least one of the first clamping member 610 and the second clamping member 620 is removed, and the first clamping member 610 and the second clamping member 620 are both positioned in the inner cavity of the housing 100, thereby improving the anti-theft performance of the gun line 500. In addition, by detachably connecting the first clamping member 610 and the second clamping member 620, the first clamping member 610 or the second clamping member 620 can be removed more conveniently, so that the gun line 500 can be detached more conveniently.

Optionally, the first clamping member 610 and the second clamping member 620 are detachably connected, for example, through the first threaded member 630, and the first threaded member 630 is smaller in size, so that the first threaded member 630 can be disassembled and assembled by means of a smaller-sized tool, and the smaller-sized tool is easy to carry, thereby reducing the maintenance difficulty of the charging pile.

Alternatively, the first clamping member 610 is connected to the housing 100, for example, and the second clamping member 620 is not directly connected to the housing 100, for example, and at least one of the first clamping member 610 and the second clamping member 620 is detached from the second operating opening 110 when the second operating opening 110 is in an open state, for example, so as to detach the gun line 500.

In other alternative embodiments, the first clamping member 610 and the second clamping member 620 may both be located outside the housing 100.

In another embodiment, referring to fig. 9 and 10, the charging pile further includes a gun wire 500, a sealing sleeve 710, a third clamping member 720 and a fourth clamping member 730, the casing 100 is provided with a mounting hole, one end of the gun wire 500 extends into the inner cavity of the casing 100 through the mounting hole, the sealing sleeve 710 is located between the wall of the mounting hole and the gun wire 500 and is in sealing fit with both the wall of the mounting hole and the gun wire 500, in other words, the sealing sleeve 710 is sleeved outside the gun wire 500 and is in sealing fit with both the wall of the mounting hole and the gun wire 500. The third clamping member 720 and the fourth clamping member 730 are both located outside the housing 100 and jointly clamp the sealing sleeve 710, and the third clamping member 720 and the fourth clamping member 730 are detachably connected.

In this embodiment, the clamping action of the third clamping member 720 and the fourth clamping member 730 on the sealing sleeve 710 generates a certain pressing force, and the pressing force can enhance the sealing effect between the sealing sleeve 710 and the gun line 500, so as to improve the waterproof performance of the charging pile. In addition, the third clamping member 720 and the fourth clamping member 730 can be conveniently assembled and disassembled by detachably connecting the third clamping member 720 and the fourth clamping member 730, so that the gun line 500 can be conveniently assembled and disassembled.

Optionally, the third clamping member 720 and the fourth clamping member 730 are detachably connected, for example, by a second threaded member 740.

In other alternative embodiments, the charging stake may not include the third clamping member 720 and the fourth clamping member 730.

In another embodiment, referring to fig. 12 and 13, the charging pile further includes an input module 810 and a connector 820, wherein the input module 810 is located in the inner cavity of the housing 100 and is used for being electrically connected with a mains, one end of the input module 810 is rotatably connected with the housing 100, and the other end of the input module 810 is detachably connected with the housing 100 through the connector 820. Alternatively, the connector 820 may be, for example, a screw, and the input module 810 may be, for example, a three-phase input pad.

In this embodiment, the connecting member 820 is detachably connected to the housing 100, so that the connecting member 820 can be easily assembled and disassembled. In the case of removing the connecting member 820, the end of the input module 810, which is rotatably connected to the housing 100, can rotate relative to the housing 100, so as to drive the input module 810 to rotate integrally, and thus the position of the input module 810 can be changed. In this way, when the input module 810 is connected to other components or the input module 810 needs to be maintained, the position of the input module 810 can be flexibly adjusted, so that the connection difficulty between the input module 810 and other components is reduced, and the maintenance difficulty of the input module 810 is reduced.

Alternatively, the input module 810 is provided with a first mounting shaft 811 and a second mounting shaft, for example, provided on opposite sides of the input module 810 in the height direction of the housing 100, and the first mounting shaft 811 and the second mounting shaft are rotatably connected to the housing 100, for example, so that one end of the input module 810 is rotatably connected to the housing 100.

In other alternative embodiments, the end of the input module 810 that is rotatably coupled to the housing 100 may also be secured to the housing 100.

In addition, referring to fig. 1, the charging pile is further provided with a first control device 930, a second control device 940, a power distribution module 950, a gun head 960, an emergency switch 970, and the like, for example, and the casing 100 is provided with a protection cover 130, and the protection cover 130 is used for protecting the gun head 960, for example.

The embodiments of the present application have been described above with reference to the accompanying drawings, but the present application is not limited to the above-described embodiments, which are merely illustrative and not restrictive, and many forms may be made by those having ordinary skill in the art without departing from the spirit of the present application and the scope of the claims, which are to be protected by the present application.

Claims (10)

1. A charging pile, comprising:

A housing (100), the housing (100) being provided with a first operation port and a second operation port (110);

A side door (200) and a locking mechanism (300), wherein the side door (200) is used for opening and closing the first operation port, and the locking mechanism (300) is installed in an inner cavity of the shell (100) and is used for locking or unlocking the side door (200);

The door body (400), the door body (400) is used for opening and close second operation mouth (110) to by tool to lock locking or unblock, and under the condition that second operation mouth (110) is in the open state, accessible second operation mouth (110) operation locking mechanism (300) to unblock side door (200).

2. The charging pile according to claim 1, characterized in that the side door (200) is provided with a clamping portion (210), the locking mechanism (300) comprises a locking member (320), and the locking member (320) is movable between a locking position and an unlocking position, and in the case where the first operation port is in a closed state and the locking member (320) is located at the locking position, the locking member (320) is in clamping engagement with the clamping portion (210) to lock the side door (200), in the case where the locking member (320) is located at the unlocking position, the locking member (320) is separated from the clamping portion (210) to unlock the side door (200), and in the case where the second operation port (110) is in an open state, the locking member (320) is operable through the second operation port (110) to move the locking member (320) from the locking position to the unlocking position.

3. The charging pile according to claim 2, characterized in that the locking mechanism (300) further comprises a mounting seat (310), an operating member (330) and an elastic member (340);

The locking piece (320) is in sliding fit with the mounting seat (310) so that the locking piece (320) can slide between the locking position and the unlocking position, the operating piece (330) is connected with the locking piece (320) and is used for driving the locking piece (320) to move from the locking position to the unlocking position, and the elastic piece (340) is mounted on the mounting seat (310) and is used for driving the locking piece (320) to move from the unlocking position to the locking position;

And/or the clamping part (210) comprises a bayonet which is used for being matched with the locking piece (320) in a clamping way.

4. A charging pile according to claim 3, characterized in that the side door (200) is rotatably mounted on the housing (100), the locking member (320) is provided with a guide slope (321), and the side door (200) drives the locking member (320) to slide through the guide slope (321) during the closing of the first operation port by the side door (200) so that the locking member (320) is retracted from the side door (200);

and/or the operating member (330) is disposed toward the second operating port (110);

And/or, the elastic piece (340) is sleeved on the operation piece (330).

5. A charging pile according to claim 3, characterized in that the mounting base (310) is provided with a guide channel, one end of the locking member (320) extends into the guide channel from one end of the guide channel, the locking member (320) is in sliding fit with the guide channel, one end of the operating member (330) extends into the guide channel from the other end of the guide channel and is connected with the locking member (320), and the elastic member (340) is mounted in the guide channel.

6. The charging pile according to claim 5, characterized in that the mounting base (310) is provided with a mounting portion (311), one end of the elastic member (340) is connected with the locking member (320), the other end is connected with the mounting portion (311), the operating member (330) is provided with a limiting portion (331), and the limiting portion (331) is located at one side of the mounting portion (311) away from the locking member (320) and is in limiting fit with the mounting portion (311) in the sliding direction of the locking member (320).

7. The charging pile according to claim 5, characterized in that the mounting seat (310) comprises a first sub-portion (312) and a second sub-portion (313), the first sub-portion (312) and the second sub-portion (313) being detachably connected and together enclosing the guide channel;

And/or the operating piece (330) is in threaded connection with the locking piece (320).

8. The charging pile according to claim 1, characterized in that the door body (400) is a front door of the charging pile;

And/or the number of the locking mechanisms (300) is at least two, and the locking mechanisms (300) are arranged at intervals along the height direction of the shell (100);

and/or the number of the side doors (200) is at least two, each side door (200) corresponds to a different first operation port, each side door (200) corresponds to at least one locking mechanism (300), and each side door (200) is matched with the corresponding locking mechanism (300).

9. The charging pile according to claim 1, further comprising a gun wire (500), a first clamping member (610) and a second clamping member (620), wherein one end of the gun wire (500) passes through the housing (100) and protrudes into an inner cavity of the housing (100), wherein the first clamping member (610) and the second clamping member (620) are both located in the inner cavity of the housing (100) and are detachably connected, wherein the first clamping member (610) and the second clamping member (620) jointly clamp the gun wire (500), and wherein at least one of the first clamping member (610) and the second clamping member (620) is connected with the housing (100).

10. The charging pile according to claim 1, further comprising a gun wire (500), a sealing sleeve (710), a third clamping member (720) and a fourth clamping member (730), wherein the housing (100) is provided with a mounting hole, one end of the gun wire (500) extends into an inner cavity of the housing (100) through the mounting hole, the sealing sleeve (710) is located between a hole wall of the mounting hole and the gun wire (500) and is in sealing fit with both the hole wall of the mounting hole and the gun wire (500), the third clamping member (720) and the fourth clamping member (730) are located outside the housing (100) and jointly clamp the sealing sleeve (710), and the third clamping member (720) and the fourth clamping member (730) are detachably connected;

And/or, the charging pile further comprises an input module (810) and a connecting piece, wherein the input module (810) is positioned in the inner cavity of the shell (100) and is used for being electrically connected with a mains supply, one end of the input module (810) is rotationally connected with the shell (100), and the other end of the input module is detachably connected with the shell (100) through the connecting piece.