CN219029159U - Cluster type multi-connection charging pile - Google Patents

Abstract

The utility model provides a clustered multi-connection charging pile which comprises a multi-connection charging pile assembly and a communication mechanism, wherein the multi-connection charging pile assembly comprises a charging main pile; according to the utility model, the sub-end controllers transmit communication data of the charging sub-piles to the main-end communication module by utilizing the sub-end communication module, the main-end communication module is used for recording the received data into the main-end controllers, and the main-end controllers remotely transmit the data to the operation background of the charging piles by utilizing a wired Ethernet communication mode, so that the charging main piles and the charging sub-piles are clustered, and a plurality of charging sub-pile data in one area are summarized into one charging main pile by utilizing a short-distance wireless communication mode, so that independent wiring of the charging sub-pile communication is not needed, only the charging main pile communication is needed, the construction cost is saved, the interference in the data remote transmission process is avoided, and the reliability and the transmission efficiency of the data transmission are ensured.

Description

Cluster type multi-connection charging pile

Technical Field

The utility model relates to a charging pile, in particular to a clustered multi-connection charging pile, and belongs to the technical field of automobile charging piles.

Background

The charging pile has the function similar to that of an oiling machine in a gas station, can be fixed on the ground or a wall, is installed in public buildings, shopping malls, public parking lots and residential area parking lots or charging stations, can charge electric vehicles of various types according to different voltage levels, is directly connected with an alternating current power grid, is provided with a charging plug at the output end for charging the electric vehicles, generally provides two charging modes of conventional charging and quick charging, can be used by people by using a specific charging card to swipe the card on a man-machine interaction operation interface provided by the charging pile for corresponding operations such as charging mode, charging time and cost data printing, and the charging pile display screen can display data such as charging amount, cost, charging time and the like, and can realize timing, electricity metering and money metering charging and can be used as a citizen power purchasing terminal; the electric automobile charging pile belongs to one side of a power distribution network, and the communication mode of the electric automobile charging pile is often combined with the automation of the power distribution network;

the traditional charging pile communication mode is mainly divided into a wired Ethernet communication mode and a wireless communication mode, and the wired Ethernet communication mode has the main advantages of reliable data transmission and large network capacity; however, a plurality of charging piles are usually required to be installed in one area, so that each charging pile needs to be independently wired, the wiring is complex, the construction cost is high, the wireless communication has the main advantages of being convenient and quick to construct, but easy to interfere when in remote data transmission, and poor in reliability of data transmission, and therefore, the clustered multi-connection charging pile is provided.

Disclosure of Invention

In view of the foregoing, it is desirable to provide a clustered multi-charging stake that solves or alleviates the technical problems of the prior art, at least providing a beneficial option.

The technical scheme of the embodiment of the utility model is realized as follows: the cluster type multi-connection charging pile comprises a multi-connection charging pile assembly and a communication mechanism, wherein the multi-connection charging pile assembly comprises a charging main pile, a plurality of charging sub-piles and a wiring square pipe;

the communication mechanism comprises a plurality of sub-communication boxes, a plurality of sub-end communication modules, a plurality of sub-end controllers, a main communication box, a main end communication module and a main end controller;

a plurality of charge sub-stake is evenly located charge the both sides of main stake, wiring side pipe fixed connection in charge the main stake with charge the bottom of sub-stake, a plurality of sub-communication box install respectively in charge the upper surface middle part of sub-stake, a plurality of sub-end communication module install respectively in sub-communication box's inside wall one side, a plurality of sub-end controller install respectively in sub-communication box's inside wall opposite side, main communication box install in charge the inside wall top of main stake, main end communication module install in main communication box's inside wall one side, main end controller install in main communication box's inside wall middle part.

Still preferably, the charging gun body is installed at the bottom of the front surface of the charging main pile and the bottom of the front surface of the charging sub pile, the gun frame is installed at the top of the front surface of the charging main pile and the top of the front surface of the charging sub pile, and the outer side wall of the charging gun body is slidably connected to the inner side wall of the gun frame.

Further preferably, the sub-pile control units are installed at the tops of the inner side walls of the plurality of charging sub-piles.

Further preferably, a touch screen is arranged in the middle of the front surface of the charging main pile, and a card reader is arranged on one side of the front surface of the charging main pile.

Further preferably, the rear surfaces of the charging sub-piles are hinged with door bodies through rotating shafts.

Further preferably, indicator lamps are uniformly installed at the top of the front surface of the charging main pile, and the indicator lamps are correspondingly arranged with the charging sub piles.

Further preferably, two ventilation openings are symmetrically formed in the outer side wall of the charging main pile, and the inner side walls of the two ventilation openings are fixedly connected with filter screens.

Further preferably, the signal output end of the sub-end controller is electrically connected to the signal input end of the sub-end communication module through a wire, the signal output end of the sub-end communication module is electrically connected to the signal input end of the main-end communication module, the signal output ends of the main-end communication module, the card reader and the touch screen are electrically connected to the signal input end of the main-end controller through wires, the signal output end of the main-end controller is electrically connected to the signal input end of the charging pile operation background through wires, and the electrical output end of the main-end controller is electrically connected to the electrical input end of the indicator lamp through wires.

By adopting the technical scheme, the embodiment of the utility model has the following advantages: according to the utility model, the sub-end controllers transmit communication data of the charging sub-piles to the main-end communication module by utilizing the sub-end communication module, the main-end communication module is used for recording the received data into the main-end controllers, and the main-end controllers remotely transmit the data to the operation background of the charging piles by utilizing a wired Ethernet communication mode, so that the charging main piles and the charging sub-piles are clustered, and a plurality of charging sub-pile data in one area are summarized into one charging main pile by utilizing a short-distance wireless communication mode, so that independent wiring of the charging sub-pile communication is not needed, only the charging main pile communication is needed, the construction cost is saved, the interference in the data remote transmission process is avoided, and the reliability and the transmission efficiency of the data transmission are ensured.

The foregoing summary is for the purpose of the specification only and is not intended to be limiting in any way. In addition to the illustrative aspects, embodiments, and features described above, further aspects, embodiments, and features of the present utility model will become apparent by reference to the drawings and the following detailed description.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings that are required in the embodiments or the technical descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a block diagram of the present utility model;

FIG. 2 is a schematic cross-sectional view of the charge stake of the present utility model;

FIG. 3 is a schematic rear view of the present utility model;

fig. 4 is a schematic diagram of an axial structure of a charging main pile according to the present utility model;

fig. 5 is a schematic cross-sectional structure of the charging main pile of the present utility model.

Reference numerals: 1. a multi-charging pile assembly; 2. a communication mechanism; 101. charging a main pile; 102. charging the electric pile; 103. wiring square tubes; 201. a sub-communication box; 202. a sub-end communication module; 203. a child end controller; 204. a main communication box; 205. a main end communication module; 206. a master controller; 41. a gun rack; 42. a charging gun body; 43. a sub pile control unit; 44. a touch screen; 45. a card reader; 47. an indicator light; 48. a door body; 49. a vent; 50. and (5) a filter screen.

Detailed Description

Hereinafter, only certain exemplary embodiments are briefly described. As will be recognized by those of skill in the pertinent art, the described embodiments may be modified in various different ways without departing from the spirit or scope of the present utility model. Accordingly, the drawings and description are to be regarded as illustrative in nature and not as restrictive.

Embodiments of the present utility model will be described in detail below with reference to the accompanying drawings.

As shown in fig. 1-5, the embodiment of the utility model provides a clustered multi-connection charging pile, which comprises a multi-connection charging pile assembly 1 and a communication mechanism 2, wherein the multi-connection charging pile assembly 1 comprises a charging main pile 101, a plurality of charging electric piles 102 and a wiring square pipe 103;

the communication mechanism 2 comprises a plurality of sub-communication boxes 201, a plurality of sub-terminal communication modules 202, a plurality of sub-terminal controllers 203, a main communication box 204, a main terminal communication module 205 and a main terminal controller 206;

the two sides of charging main pile 101 are evenly located to a plurality of electric piles 102 that charge, wiring square pipe 103 fixed connection is in the bottom of charging main pile 101 and charging electric piles 102, a plurality of sub communication casees 201 are installed respectively in the upper surface middle part of charging electric piles 102, a plurality of sub communication modules 202 are installed respectively in sub communication casees 201's inside wall one side, a plurality of sub communication controllers 203 are installed respectively in sub communication casees 201's inside wall opposite side, main communication casees 204 are installed in the inside wall top of charging main pile 101, main communication module 205 is installed in main communication casees 204's inside wall one side, main communication controllers 206 are installed in main communication casees 204's inside wall middle part.

In one embodiment, the charging gun body 42 is mounted at the bottom of the front surfaces of the charging main pile 101 and the charging sub pile 102, the gun frame 41 is mounted at the top of the front surfaces of the charging main pile 101 and the charging sub pile 102, and the outer side wall of the charging gun body 42 is slidably connected to the inner side wall of the gun frame 41; the charging gun body 42 is limited on the charging main pile 101 and the charging sub pile 102 through the gun frame 41.

In one embodiment, a touch screen 44 is installed in the middle of the front surface of the charging main pile 101, and a card reader 45 is installed on one side of the front surface of the charging main pile 101; the charged card is read by the card reader 45 and then the user performs man-machine interaction by the arranged touch screen 44.

In one embodiment, the rear surfaces of the plurality of charging posts 102 are hinged with the door 48 through a rotating shaft; opening and closing of the charging stake 102 is controlled by the door 48.

In one embodiment, two ventilation openings 49 are symmetrically formed in the outer side wall of the charging main pile 101, and the filter screen 50 is fixedly connected to the inner side walls of the two ventilation openings 49; the charging main pile 101 is ventilated and radiated through the ventilation opening 49, and sundries carried in the air are intercepted through the filter screen 50.

In one embodiment, the sub-pile control units 43 are installed at the top of the inner side walls of the plurality of charging sub-piles 102, the indicator lamps 47 are uniformly installed at the top of the front surface of the charging main pile 101, the indicator lamps 47 are correspondingly arranged with the charging sub-piles 102, the signal output ends of the sub-end controllers 203 are electrically connected to the signal input ends of the sub-end communication modules 202 through wires, the signal output ends of the sub-end communication modules 202 are electrically connected to the signal input ends of the main end communication modules 205, the signal output ends of the main end communication modules 205, the card readers 45 and the touch screen 44 are electrically connected to the signal input ends of the main end controllers 206 through wires, and the signal output ends of the main end controllers 206 are electrically connected to the signal input ends of the charging pile operation background through wires, and the electrical output ends of the main end controllers 206 are electrically connected to the electrical input ends of the indicator lamps 47 through wires; the data of the charging electric pile 102 is sent to the main end communication module 205 through the sub-end controller 203 by the sub-end communication module 202, then the received data is recorded into the main end controller 206 through the main end communication module 205, and then the data is remotely transmitted to the charging electric pile operation background through the main end controller 206 by utilizing the wired Ethernet communication mode.

In one embodiment, the models of the sub-end communication module 202 and the main end communication module 205 are NRF24L01; the model of the main-end controller 206 and the sub-end controller 203 is DF-96D.

The utility model works when in work: the wiring square tube 103 is pre-buried at a designated position, then the charging main pile 101 and the charging sub pile 102 are respectively arranged above the wiring square tube 103, so that the wiring square tube 103 is used for wiring between the charging main pile 101 and the charging sub pile 102, then the data of the charging sub pile 102 is sent to the main end communication module 205 through the sub end communication module 202 by the sub end controller 203, then the received data is recorded into the main end controller 206 by the main end communication module 205, so that the cluster arrangement is carried out between the charging main pile 101 and the charging sub pile 102, then the data of a plurality of charging sub piles 102 in an area are summarized into one charging main pile 101 by utilizing a short-distance wireless communication mode, thus the independent wiring of the communication of the charging sub pile 102 is not needed, then the data is remotely transmitted to a charging pile operation background by utilizing a wired Ethernet communication mode through the main end controller 206, so as to collect data to the operation background of the charging pile, and then only the communication of the charging main pile 101 is required to be wired, thereby saving the construction cost, avoiding the data from being interfered in the remote transmission process, ensuring the reliability and the transmission efficiency of the data transmission, when a user needs to charge by using the charging main pile 101 or the charging sub pile 102, only the charging gun body 42 needs to be moved to slide out of the gun frame 41, then the charging gun body 42 is connected to a user automobile, then the charging card is read by the card reader 45, then the user performs man-machine interaction by the set touch screen 44, then the data of the touch screen 44 and the card reader 45 are received by the main end controller 206, after the card reader 45 reads the charging card data and the requirement is input, the main end controller 206 transmits the instruction to the corresponding sub-end communication module 202 by using the main end communication module 205 according to the requirement, the data is then entered into the sub-end controller 203 through the sub-end communication module 202, the sub-stake control unit 43 is started to operate according to instructions through the sub-end controller 203 so as to charge the automobile of the user according to the requirements, and then the indicator lamp 47 is started to operate through the main-end controller 206 so as to prompt the current charging state of the user.

The foregoing is merely illustrative of the present utility model, and the present utility model is not limited thereto, and any person skilled in the art will readily recognize that various changes and substitutions are possible within the scope of the present utility model. Therefore, the protection scope of the present utility model shall be subject to the protection scope of the claims.

Claims (8)

1. The utility model provides a cluster formula allies oneself with more fills electric pile, includes that the allies oneself with fills electric pile subassembly (1) and communication mechanism (2), its characterized in that: the multi-connection charging pile assembly (1) comprises a charging main pile (101), a plurality of charging sub-piles (102) and a wiring square pipe (103);

the communication mechanism (2) comprises a plurality of sub-communication boxes (201), a plurality of sub-end communication modules (202), a plurality of sub-end controllers (203), a main communication box (204), a main end communication module (205) and a main end controller (206);

a plurality of fill electric sub-stake (102) evenly locate the both sides of charging main stake (101), wiring side pipe (103) fixed connection in the bottom of charging main stake (101) and charging sub-stake (102), a plurality of sub-communication box (201) install respectively in the upper surface middle part of charging sub-stake (102), a plurality of sub-end communication module (202) install respectively in inside wall one side of sub-communication box (201), a plurality of sub-end controller (203) install respectively in inside wall opposite side of sub-communication box (201), main communication box (204) install in the inside wall top of charging main stake (101), main end communication module (205) install in inside wall one side of main communication box (204), main end controller (206) install in inside wall middle part of main communication box (204).

2. The clustered multi-charging stake of claim 1, wherein: charging gun body (42) is all installed to the front surface bottom of charging main pile (101) and charging sub-stake (102), gun frame (41) is all installed at the front surface top of charging main pile (101) and charging sub-stake (102), the lateral wall sliding connection of charging gun body (42) in the inside wall of gun frame (41).

3. The clustered multi-charging stake of claim 1, wherein: and the tops of the inner side walls of the charging sub-piles (102) are provided with sub-pile control units (43).

4. The clustered multi-charging stake of claim 1, wherein: the charging main pile (101) is characterized in that a touch screen (44) is arranged in the middle of the front surface of the charging main pile (101), and a card reader (45) is arranged on one side of the front surface of the charging main pile (101).

5. The clustered multi-charging stake of claim 1, wherein: the rear surfaces of the charging sub-piles (102) are hinged with a door body (48) through rotating shafts.

6. The clustered multi-charging stake of claim 4, wherein: the utility model discloses a charging pile, including charging main pile (101), pilot lamp (47) are evenly installed at the front surface top of charging main pile (101), pilot lamp (47) with charging sub pile (102) correspond the setting.

7. The clustered multi-charging stake of claim 1, wherein: two ventilation openings (49) are symmetrically formed in the outer side wall of the charging main pile (101), and filter screens (50) are fixedly connected to the inner side walls of the two ventilation openings (49).

8. The clustered multi-charging stake of claim 6, wherein: the signal output part of the sub-terminal controller (203) is electrically connected to the signal input part of the sub-terminal communication module (202) through a wire, the signal output part of the sub-terminal communication module (202) is electrically connected to the signal input part of the main terminal communication module (205), the signal output parts of the main terminal communication module (205), the card reader (45) and the touch screen (44) are electrically connected to the signal input part of the main terminal controller (206) through wires, the signal output part of the main terminal controller (206) is electrically connected to the signal input part of the charging pile operation background through wires, and the electrical output part of the main terminal controller (206) is electrically connected to the electrical input part of the indicator lamp (47) through wires.

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