CN215772574U - Charging cabinet body and combined type shared power supply charging equipment - Google Patents

Abstract

The application discloses charging cabinet body and combination formula shared power battery charging outfit, the charging cabinet body includes: a plurality of battery bins for storing the shared power supply; a rectifier for converting the input alternating current into direct current and outputting the direct current; the transmission interface comprises an output interface or an output interface and an input interface matched with the output interface; the output interface is arranged on one side of the charging cabinet body, and the output interface transmits the direct current converted by the rectifier to the input interface of the other charging cabinet body or the main control cabinet body. The structure of the charging cabinet body can be simplified, and the use risk caused by power transmission can be reduced through direct current transmission, so that the manufacturing and use costs of the charging cabinet body and the combined type shared power supply charging equipment are reduced.

Description

Charging cabinet body and combined type shared power supply charging equipment

Technical Field

The application relates to the field of charging equipment, in particular to a charging cabinet body and combined type shared power supply charging equipment.

Background

The shared charger enables people to live more conveniently, and the trouble caused by no electricity of the mobile phone is avoided. The body shadow can be seen everywhere in large shopping malls, various entertainment places, restaurants and convenience stores with dense hemp. Meanwhile, the charging cabinet body bearing the functions of using, returning and charging the charger encounters new problems. The frequency of using the charger baby is higher in places with concentrated stream of people, and the frequency of using the charger baby is relatively lower in places with scattered stream of people.

In order to enable charging resources to be used more reasonably, most manufacturers develop charging cabinets of different models according to different use environments, and therefore development cost is increased. Or the charging cabinets of the same model are sequentially arranged, so that the space of a merchant is more narrow, the wiring is more messy, and the power consumption is larger. Therefore, a few manufacturers have released the modularized charging cabinet, and the merchants can freely charge the number of the bins according to the actual frequency of the use of the charger.

However, in the existing modularized charging cabinet, power supplies between different charging cabinets are transmitted through an alternating current interface, and each charging cabinet needs to be equipped with an independent adapter for adaptation. Considering that the reliability of equipment use and the safety in utilization of alternating current interface need be guaranteed, need professional installer to carry out the aggregate erection to a plurality of charging cabinet bodies in the assembling process, its structure is comparatively complicated, and manufacturing and use cost are higher, and the user of being not convenient for assembles the use by oneself.

SUMMERY OF THE UTILITY MODEL

The application provides a charging cabinet body and combination formula sharing power battery charging outfit can solve the higher problem of the manufacturing of the charging cabinet body and use cost, reduces the manufacturing and the use cost of this charging cabinet body through DC power supply.

In order to solve the above problem, an embodiment of the present application provides a charging cabinet body, the charging cabinet body includes:

a plurality of battery bins for storing the shared power supply;

a rectifier for converting the input alternating current into direct current and outputting the direct current; and

the transmission interface comprises an output interface or an output interface and an input interface matched with the output interface; the output interface is arranged on one side of the charging cabinet body, and the output interface transmits the direct current converted by the rectifier to the input interface of the other charging cabinet body or the main control cabinet body.

In one embodiment, the output interface is a female connector, and the input interface is a male connector; or

The output interface is a male connector, and the input interface is a female connector.

In one embodiment, the transmission interface is integrated with a power transmission terminal and a communication terminal.

In one embodiment, the charging cabinet body is provided with a first cover plate and a second cover plate on two opposite sides;

the periphery of the first cover plate is surrounded with an installation convex edge;

the periphery of the second cover plate is provided with a mounting groove matched with the mounting convex edge, and the mounting convex edge of the charging cabinet body can be sleeved on the other mounting groove of the charging cabinet body to realize stacked combination.

In one embodiment, at least one chamfer of the mounting groove has a different angle from the other chamfers.

In one embodiment, the transmission interface is a knife-type connector.

The embodiment of the application also provides combined type shared power supply charging equipment, which comprises a main control cabinet body and at least one charging cabinet body;

the main control cabinet body comprises a main control board;

a transmission interface including an input interface; the input interface is arranged on one side of the main control cabinet body and used for receiving the direct current output by the output interface.

Wherein, the charging cabinet body is as above any one the charging cabinet body.

In one embodiment, the main control cabinet and the charging cabinet are stacked;

the transmission interface is arranged between the main control cabinet body and the charging cabinet body, or between the charging cabinet body and the charging cabinet body.

The embodiment of the present application further provides a combined type shared power supply charging device, including:

the main control cabinet body comprises a main control board, wherein a rectifier for converting input alternating current into direct current and outputting the direct current is arranged in the main control board;

the transmission interface comprises an output interface, the output interface is arranged on one side of the main control cabinet body, and the output interface transmits the direct current converted by the rectifier to the input interface; and

the charging cabinet body comprises a plurality of battery bins capable of storing a shared power supply, an input interface matched with the output interface is arranged on at least one side of the charging cabinet body, and the charging cabinet body can be detachably connected with one side of the main control cabinet body or the other charging cabinet body; the charging cabinet body obtains direct current through the input interface and carries out charging operation on a shared power supply in the charging cabinet body.

In one embodiment, the main control cabinet and the charging cabinet are stacked;

the transmission interface is arranged between the main control cabinet body and the charging cabinet body, or between the charging cabinet body and the charging cabinet body.

From the above, in the charging cabinet body and the combined type shared power supply charging equipment of the application, the charging cabinet body includes: a plurality of battery bins for storing the shared power supply; a rectifier for converting the input alternating current into direct current and outputting the direct current; and a transmission interface comprising an output interface, or an output interface and an input interface; the output interface is arranged on one side of the charging cabinet body, and transmits the direct current converted by the rectifier to the input interface of the other charging cabinet body or the main control cabinet body. The embodiment of the application converts alternating current input from the commercial power to the charging cabinet body or the main control cabinet body into direct current through the rectifier, and then outputs the alternating current to other charging cabinet bodies or the main control cabinet body for power supply, so that other charging cabinet bodies can normally work without an adapter, the structure of the charging cabinet body can be simplified, direct current transmission can also reduce the use risk caused by power transmission, and the manufacturing and use cost of the charging cabinet body and the combined type shared power supply charging equipment is reduced.

Drawings

Fig. 1 is a schematic view of a first structure of a combined type shared power charging device according to an embodiment of the present application.

Fig. 2 is a functional block diagram of a combined type shared power charging device according to an embodiment of the present disclosure.

Fig. 3 is a second structural schematic diagram of the combined type shared power charging device according to the embodiment of the present application.

Fig. 4 is a schematic diagram of a third structure of a combined type shared power charging apparatus according to an embodiment of the present application.

Fig. 5 is a fourth structural schematic diagram of a combined type shared power charging device according to an embodiment of the present application.

Detailed Description

The following detailed description of the preferred embodiments of the present application, taken in conjunction with the accompanying drawings, will make the advantages and features of the present application more readily appreciated by those skilled in the art, and thus will more clearly define the scope of the invention.

In the description of the present application, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; may be mechanically connected, may be electrically connected or may be in communication with each other; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate.

Referring to fig. 1, a first structure of a combined type shared power charging device provided by the present application is shown.

As shown in fig. 1, the combined shared power charging device includes a charging cabinet 20 and a main control cabinet 10, and the charging cabinet 20 and the main control cabinet 10 may be assembled.

The charging cabinet 20 includes a battery compartment 21, a rectifier 22, and a transmission interface 30.

The battery compartment 21 may store a plurality of shared power supplies, and may use a power supply device to charge the shared power supplies, and the specific internal structure of the battery compartment 21 may use a design of the battery compartment 21 that is common in the art, which is not limited in this application.

The rectifier 22 is configured to convert the input ac power into dc power and output the dc power, where the rectifier 22 may also be referred to as an adapter, and may convert the commercial power into dc power, and the dc power may be used for the battery compartment 21 or for powering other devices in the main control cabinet 10 and other charging apparatuses in the charging cabinet 20 that do not include the rectifier 22.

In some embodiments, the rectifier 22 may be integrated into the charging cabinet 20, or may be used in combination with the rectifier 22 as an external device, that is, the rectifier 22 may not be included in the charging cabinet 20.

The transmission interface 30 comprises an output interface, or an output interface and an input interface matched with the output interface; the output interface is disposed at one side of the charging cabinet 20, and transmits the direct current converted by the rectifier 22 to the input interface of another charging cabinet 20 or the main control cabinet 10.

The transmission interface 30 can be used as an electrical connection structure between the charging cabinets 20 and between the charging cabinet 20 and the main control cabinet 10, so that the direct current converted by the charging cabinet 20 can be transmitted to another charging cabinet 20 or between the main control cabinets 10 through the transmission interface 30.

In one embodiment, the output interface is a female connector 31, and the input interface is a male connector 32; or the output interface is the male connector 32 and the input interface is the female connector 31. The male connector 32 and the female connector 31 can be electrically connected by matching with each other, so that power transmission or signal transmission is performed through the metal terminals of the connectors, and the specific layout (e.g., position, size, connector type) can be set according to actual needs.

The embodiment of fig. 1 is mounted and connected by means of the female connector 31 at the upper part and the male connector 32 at the lower part, thereby improving the mounting convenience. Specifically, in order to improve the current transmission efficiency of the direct current and reduce the size of the connector, the transmission interface 30 may be a knife-type connector, which is more convenient to install. It will be appreciated that other forms of connector than a guillotine connector may be used as a component of the power or signal transmission.

In an embodiment, the transmission interface 30 may be integrated with a power transmission terminal and a communication terminal, and the power transmission terminal and the communication terminal are integrated on the same transmission interface 30, so that the alignment problem caused by a plurality of connectors can be reduced, the installation convenience is improved, the structural design of the charging cabinet 20 and the main control cabinet 10 can be further simplified, and further, the manufacturing and maintenance costs of the charging cabinet 20 and the charging device are reduced.

After this charging cabinet body 20 inserts the commercial power, can be through rectifier 22 with alternating current power supply rectification become the direct current power supply that equipment can directly be used, charging cabinet body 20 can utilize this direct current power supply to supply power for battery compartment 21, can also export the direct current that rectifier 22 rectification obtained through output interface, thereby make other charging cabinet bodies 20 or the main control cabinet body 10 can receive the direct current through input interface, and then need not additionally to be equipped with the adapter alone and carry out current conversion can obtain the current that can directly be used, the structure of charging cabinet body 20 has been simplified, manufacturing cost is reduced. Moreover, compared with the unprocessed alternating current, the transmission requirement of the direct current obtained after the processing is reduced, the safety is higher, the use risk caused by the assembly error of a user is avoided, the charging cabinet body 20 can be conveniently installed by the user, and the maintenance cost of the charging cabinet body is reduced.

In fig. 1, in conjunction with fig. 2, the combined shared power charging apparatus 100 includes at least one master control cabinet 10 in addition to the charging cabinet 20 and the transmission interface 30.

The main control cabinet 10 may include a main control board 11, where the main control board 11 is configured to control the battery compartment 21 of the charging cabinet 20 in the charging device to borrow or return a shared power supply, or process a control action related to other functions of the charging cabinet 20, and may include a processor, a memory, and other components or control circuits commonly used by a processing unit in the field, and implement a preset function by executing a corresponding program stored in the memory, and the specific configuration and implementation of the function of the main control board 11 are not limited in this application.

Referring to fig. 3, a second structure of the combined charging device with shared power supply according to the embodiment of the present application is shown.

The charging device may include a main control cabinet 10 and a charging cabinet 20, wherein the charging cabinet 20 inputs the commercial power into a rectifier 22 through an external commercial power to obtain a processed direct current, and the direct current may supply power to a battery compartment 21 of the charging cabinet, and may be transmitted to the main control cabinet 10 through a male connector 32 serving as an output interface.

The main control cabinet 10 is provided with a main control board 11 and a female connector 31 as an input interface of direct current, and the main control cabinet 10 can be directly combined with the first charging cabinet 20 and can directly obtain direct current from the first charging cabinet 20.

The main control cabinet 10 may further transmit the control command of the main control board 11 to the charging cabinet 20 through the transmission interface 30 integrated with the power transmission terminal and the communication terminal, so as to control the normal operation of the battery compartment 21 of the charging cabinet 20. The transmission interface 30 is disposed between the main control cabinet 10 and the charging cabinet 20, or between the charging cabinet 20 and the charging cabinet 20, and the specific setting position, specification, connector type, and the like can be set according to actual needs.

With reference to fig. 1, the main control cabinet 10 and the charging cabinets 20 are stacked, and a plurality of charging cabinets 20 can be stacked in a limited space by using a stacking manner, so that the use space is more conveniently saved.

In an embodiment, the charging cabinet 20 is provided with a first cover plate and a second cover plate on two opposite sides, the first cover plate is surrounded by a mounting flange 23, the second cover plate is surrounded by a mounting groove 24 matching with the mounting flange 23, and the mounting flange 23 of one charging cabinet 20 can be sleeved in the mounting groove 24 of the other charging cabinet 20 to realize a stacked combination. This range upon range of mode can ensure the installation stability between the different charging cabinet bodies 20, and utilizes the cooperation of mounting groove 24 and installation protruding edge 23 can be more favorable to the installation location, reduces the equipment degree of difficulty and the installation cost of battery charging outfit.

Further, at least one of the mounting grooves 24 is chamfered at an angle different from the other. Through the angle of different chamfers, can be so that the mounting groove 24 of different chamfers plays the effect of location, prevent slow-witted, further improve battery charging outfit's installation convenience.

Referring to fig. 4, a third structure of a combined charging device with a shared power supply according to an embodiment of the present application is shown.

As shown in fig. 4, the charging apparatus may take the form of a cabinet including two types with respect to the charging apparatus in fig. 3, one type being a cabinet including a rectifier 22, hereinafter referred to as a first charging cabinet 20; the other is a cabinet that does not contain a rectifier 22, hereinafter referred to as the second charging cabinet 20'.

Specifically, the first charging cabinet 20 is externally connected with the commercial power, and the commercial power is input into the rectifier 22 to obtain a processed direct current, and the direct current may be used to supply power to the battery compartment 21, and may also be transmitted to the female connector 31 serving as an input interface in one of the second charging cabinets 20 'through the male connector 32 serving as an output interface, so as to input the direct current into the second charging cabinet 20' to supply power thereto.

The main control cabinet 10 is provided with a main control board 11 and a female connector 31 as an input interface of the direct current, so that the female connector 31 is utilized to obtain the direct current input from the male connector 32 of the other second charging cabinet 20'. The main control cabinet 10 transmits the control command of the main control board 11 to the charging cabinet 20 step by step through the transmission interface 30.

Referring to fig. 5, a fourth structure of the combined charging device with shared power supply according to the embodiment of the present application is shown.

As shown in fig. 5, the charging cabinet comprises a main control cabinet 10 and at least one charging cabinet 20; the main control cabinet 10 comprises a main control board 11, wherein a rectifier 22 for converting input alternating current into direct current and outputting the direct current is arranged in the main control board 11; the transmission interface 30 includes an output interface, the output interface is disposed at one side of the main control cabinet 10, and the output interface transmits the direct current converted by the rectifier 22 to the input interface; the charging cabinet body 20 comprises a plurality of battery bins 21 capable of storing a shared power supply, at least one side of the charging cabinet body 20 is provided with an input interface matched with an output interface, and the charging cabinet body can be detachably connected with one side of the main control cabinet body 10 or another charging cabinet body 20; the charging cabinet 20 obtains direct current through the input interface, and performs charging operation on the shared power supply in the charging cabinet 20.

Compared with the charging device in fig. 3, the charging device integrates the rectifier 22 into the main control cabinet 10, and after the commercial power is rectified by the rectifier 22 in the main control cabinet 10, the commercial power is transmitted to other charging cabinets 20 through the transmission interface 30, so as to supply power to the charging cabinets 20.

In an embodiment, the rectifier 22 may be integrated on the main control board 11, or may be a rectifier 22 separately configured in the main control cabinet 10 or externally disposed, and a specific arrangement manner may be designed according to requirements, which is not limited in this application.

The embodiment of the application converts alternating current input from the commercial power to the charging cabinet body or the main control cabinet body into direct current through the rectifier, and then outputs the alternating current to other charging cabinet bodies or the main control cabinet body for power supply, so that other charging cabinet bodies can normally work without an adapter, the structure of the charging cabinet body can be simplified, direct current transmission can also reduce the use risk caused by power transmission, and the manufacturing and use cost of the charging cabinet body and the combined type shared power supply charging equipment is reduced.

The embodiments of the present application have been described in detail with reference to the drawings, but the present application is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present application within the knowledge of those skilled in the art.

Claims (10)

1. The utility model provides a charging cabinet body which characterized in that, charging cabinet body includes:

a plurality of battery bins for storing the shared power supply;

a rectifier for converting the input alternating current into direct current and outputting the direct current; and

the transmission interface comprises an output interface or an output interface and an input interface matched with the output interface; the output interface is arranged on one side of the charging cabinet body, and the output interface transmits the direct current converted by the rectifier to the input interface of the other charging cabinet body or the main control cabinet body.

2. The charging cabinet of claim 1, wherein:

the output interface is a female connector, and the input interface is a male connector; or

The output interface is a male connector, and the input interface is a female connector.

3. The charging cabinet of claim 2, wherein the transmission interface is integrated with a power transmission terminal and a communication terminal.

4. The charging cabinet of claim 1, wherein the charging cabinet is provided with a first cover plate and a second cover plate on opposite sides;

the periphery of the first cover plate is surrounded with an installation convex edge;

the periphery of the second cover plate is provided with a mounting groove matched with the mounting convex edge, and the mounting convex edge of the charging cabinet body can be sleeved on the other mounting groove of the charging cabinet body to realize stacked combination.

5. The charging cabinet of claim 4, wherein at least one chamfer of the mounting groove has a different angle than the other chamfers.

6. The charging cabinet of any one of claims 1 to 5, wherein the transmission interface is a guillotine connector.

7. The combined type shared power supply charging equipment is characterized by comprising a main control cabinet body and at least one charging cabinet body;

the main control cabinet body comprises a main control board;

a transmission interface including an input interface; the input interface is arranged on one side of the main control cabinet body and is used for receiving the direct current output by the output interface;

the charging cabinet body is the charging cabinet body as claimed in any one of claims 1 to 6.

8. The combined shared power charging apparatus of claim 7, wherein:

the main control cabinet body and the charging cabinet body are arranged in a stacked mode;

the transmission interface is arranged between the main control cabinet body and the charging cabinet body, or between the charging cabinet body and the charging cabinet body.

9. A combined shared power charging apparatus, comprising:

the main control cabinet body comprises a main control board, wherein a rectifier for converting input alternating current into direct current and outputting the direct current is arranged in the main control board;

the transmission interface comprises an output interface, the output interface is arranged on one side of the main control cabinet body, and the output interface transmits the direct current converted by the rectifier to an input interface; and

the charging cabinet body comprises a plurality of battery bins capable of storing a shared power supply, an input interface matched with the output interface is arranged on at least one side of the charging cabinet body, and the charging cabinet body can be detachably connected with one side of the main control cabinet body or the other charging cabinet body; the charging cabinet body obtains direct current through the input interface and carries out charging operation on a shared power supply in the charging cabinet body.

10. The combined shared power charging apparatus of claim 9, wherein:

the main control cabinet body and the charging cabinet body are arranged in a stacked mode;

the transmission interface is arranged between the main control cabinet body and the charging cabinet body, or between the charging cabinet body and the charging cabinet body.

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