CN223471885U - A charging conversion device for converting Japanese or national standards to European standards - Google Patents

Abstract

The present invention relates to the field of new energy vehicle charging technology, and discloses a charging conversion device that converts Japanese or Chinese standards to European standards, comprising an input socket, an output socket, and a conversion system. The conversion system is installed inside a housing, the input socket is mounted on one end of the housing, and the output socket is mounted on the other end of the housing. The input socket and the output socket are both electrically connected to the conversion system. The input socket is a Japanese standard socket or a Chinese standard socket, and the output socket is a European standard socket. The present invention can realize charging from a Japanese standard socket to a European standard socket, or from a Chinese standard socket to a European standard socket, and the conversion protocol mainboard has a built-in DC charging conversion module, so that the present invention converts charging through DC power, thereby making the overall performance of the present invention stable and the conversion charging speed fast.

Description

Charging conversion device for converting Japanese standard or national standard into European standard

Technical Field

The utility model relates to the technical field of new energy automobile charging, in particular to a charging conversion device for converting a Japanese standard or national standard into an European standard.

Background

The new energy automobile mainly uses electric power or hydrogen energy as a power source, obviously reduces the tail gas emission of the traditional fuel oil automobile, is more environment-friendly, has excellent acceleration performance in performance, can output larger torque instantaneously, has quite high intelligent degree, and has good functions of automatic driving assistance, intelligent interconnection and the like. In addition, with the continuous perfection of the automobile charging facilities, the problem of continuous voyage of the new energy automobile is solved, and the new energy automobile not only brings novel, environment-friendly and intelligent driving experience for consumers, but also contributes an important strength to global sustainable development.

The charging modes of new energy automobiles in various countries in the market are not the same, and various standards such as European standard, japanese standard, national standard and Tesla standard (NACS) exist, so that in order to adapt to the mutual charging between the new energy automobiles in various countries and the charging piles, the charging conversion devices between the charging ports of the new energy automobiles and the charging piles are generated, and particularly, as the international market is opened, more and more new energy automobiles with different standards flow to the international market, so that different charging conversion devices are needed to meet the demands of different users.

Disclosure of utility model

Aiming at the defects of the prior art, the utility model provides a charging conversion device for converting a Japanese standard or national standard into an European standard, solves the problems proposed by the background art, can realize the charging of the Japanese standard socket into the European standard socket or the charging of the national standard socket into the European standard socket, and is provided with a direct current charging conversion module in a conversion protocol mainboard, so that the charging conversion device is converted and charged through direct current, and further the whole performance of the charging conversion device is stable, and the speed of converting and charging is high.

The utility model provides a conversion equipment that charges that standard or national standard changes European standard, includes input socket, output socket and conversion system, conversion system installs inside the casing, input socket clamps in the one end of casing, and output socket clamps in the other end of casing, input socket and output socket all form electric connection with conversion system, input socket is standard socket or national standard socket, output socket adopts European standard socket.

Preferably, the conversion system comprises a conversion protocol main board, the conversion protocol main board is provided with a direct current charging conversion module, and a main board clamping groove is formed in the side edge of the conversion protocol main board.

Preferably, the input socket comprises an input main board, input DC pins, input signal terminals and an input clamping frame, the input main board is mounted at the inward end part of the input clamping frame, one ends of the input DC pins are clamped at two sides of the input main board, the other ends of the input DC pins are inserted on the input clamping frame, one ends of the input signal terminals are inserted on the input main board, the other ends of the input signal terminals are inserted on the input clamping frame, the input DC pins and the input signal terminals are electrically connected with the input main board, and the input main board and the conversion protocol main board are electrically connected.

The input main board is provided with a plurality of terminal inserting holes, the middle part of the input clamping frame is provided with a DC pin inserting hole and a terminal inserting hole, and one end of the input clamping frame is provided with an input main board clamping groove.

Preferably, the output socket comprises an output main board, an output DC pin, an output signal terminal and an output clamping frame, wherein the output main board is arranged at the inward end part of the output clamping frame, one end of the output DC pin is inserted into the lower part of the output main board, the other end of the output DC pin is inserted into the lower part of the output clamping frame, one end of the output signal terminal is inserted into the upper part of the input main board, the other end of the output signal terminal is inserted into the upper part of the output clamping frame, the output DC pin and the output signal terminal are electrically connected with the output main board, and the output main board and the conversion protocol main board are electrically connected.

The output main board is provided with a DC pin inserting hole, a plurality of terminal inserting holes are formed in the upper portion of the output main board, the DC pin inserting hole is formed in the lower portion of the output clamping frame, the terminal inserting hole is formed in the upper portion of the output clamping frame, and an output main board clamping groove is formed in one end of the output clamping frame.

Preferably, the main control switch comprises a switch mounting plate, a switch key and a switch main control connector, wherein the switch mounting plate is mounted on a switch mounting position, the switch key is clamped on the switch mounting plate, the switch main control connector is positioned between the switch mounting plate and the lower shell and is in contact connection with the switch key, a battery mounting position is further arranged below the switch mounting position, and a battery is arranged inside the battery mounting position.

Preferably, a connecting copper bar is further arranged between the input socket and the output socket, and two ends of the connecting copper bar are respectively connected with the input socket and the output socket.

Preferably, the shell comprises an upper shell and a lower shell which are buckled with each other, the upper shell is provided with a handle and a switch installation position, a main control switch is clamped on the switch installation position, a main board clamping column is arranged in the lower shell, a conversion protocol main board is clamped on the main board clamping column, a USB interface is arranged on the bottom surface of the lower shell, and the main control switch and the USB interface are electrically connected with the conversion protocol main board.

Preferably, waterproof rings are arranged at the joints of the input socket and the output socket and the shell, and the waterproof rings are sleeved outside the input socket and the output socket.

Compared with the prior art, the utility model has the following beneficial effects:

1. according to the charging conversion device for converting the Japanese standard or the national standard into the European standard, the Japanese standard socket or the national standard socket is adopted as the input socket, and the European standard socket is adopted as the output socket, so that the charging of the Japanese standard socket into the European standard socket or the charging of the national standard socket into the European standard socket can be realized, and the requirements of users on different charging interfaces can be met conveniently;

2. The conversion protocol mainboard is internally provided with the direct current charging conversion module, so that the conversion charging is carried out through direct current, and the whole performance of the conversion protocol mainboard is stable, and the conversion charging speed is high.

Drawings

Fig. 1 is a schematic diagram of the overall structure of a charging conversion device for converting a japanese standard or national standard into an european standard according to the present utility model;

fig. 2 is a split view of a charging conversion device from a japanese standard or national standard to an european standard according to the present utility model;

fig. 3 is a schematic diagram of the internal structure of the charging conversion device for converting the japanese standard or national standard into the european standard according to the present utility model;

fig. 4 is a schematic diagram of a charging conversion device from a daily standard to an european standard;

fig. 5 is a schematic diagram of a charging conversion device from national standard to european standard.

The device comprises a shell, a top shell, a bottom shell, a handle, a switch mounting position, a main board clamping column, a main board 2, an input socket, a main board 201, a main board 202, an input DC pin, a main board 203, an input signal terminal, a main board clamping frame 204, a main board 3, an output socket, a main board 301, a main board 302, a main board DC pin 303, a main signal terminal 304, a main board clamping frame 4, a protocol conversion main board 5, a battery 6, a main control switch 601, a switch mounting plate 602, a switch key 603, a main control switch connector 7, a USB interface 8, a waterproof ring 9 and a connecting copper bar.

Detailed Description

In order to make the technical solution of the present utility model better understood by those skilled in the art, the following further details of the present utility model will be described with reference to examples and drawings.

It will be understood that when an element is referred to as being "fixed" to another element, it can be directly on the other element or intervening elements may also be present, and when an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like are used herein for illustrative purposes only and are not meant to be the only embodiment.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this utility model belongs. The terminology used herein in the description of the utility model is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

As shown in fig. 1, fig. 2 and fig. 3, a charging conversion device for converting a standard from a standard to an international standard comprises an input socket 2, an output socket 3 and a conversion system, wherein the conversion system is arranged in a shell 1, the input socket 2 is clamped at one end of the shell 1, the output socket 3 is clamped at the other end of the shell 1, the input socket 2 and the output socket 3 are electrically connected with the conversion system, the input socket 2 is a standard socket or a national standard socket, the output socket 3 adopts an European standard socket, the conversion system comprises a conversion protocol main board 4, the conversion protocol main board 4 is provided with a direct-current charging conversion module, and the side edge of the conversion protocol main board 4 is provided with a main board clamping groove.

In the embodiment, the utility model can realize the charging from the Japanese standard socket to the European standard socket or the charging from the national standard socket to the European standard socket, thereby being convenient for meeting the requirements of users on different charging interfaces, and the conversion protocol main board 4 is internally provided with the direct current charging conversion module, so that the utility model carries out conversion charging through direct current, thereby ensuring the stability of the whole performance and the high speed of conversion charging.

As shown in fig. 1 to 5, the input socket 2 includes an input motherboard 201, an input DC pin 202, an input signal terminal 203, and an input clamping frame 204, wherein the input motherboard 201 is mounted at an inward end of the input clamping frame 204, one end of the input DC pin 202 is clamped at two sides of the input motherboard 201, the other end is inserted on the input clamping frame 204, one end of the input signal terminal 203 is inserted on the input motherboard 201, the other end is inserted on the input clamping frame 204, the input DC pin 202 and the input signal terminal 203 are electrically connected with the input motherboard 201, and the input motherboard 201 is electrically connected with the conversion protocol motherboard 4. The two sides of the input main board 201 are provided with DC pin clamping grooves, the input main board 201 is provided with a plurality of terminal inserting holes, the middle part of the input clamping frame 204 is provided with DC pin inserting holes and terminal inserting holes, and one end of the input clamping frame 204 is provided with an input main board clamping groove. The output socket 3 comprises an output main board 301, an output DC pin 302, an output signal terminal 303 and an output clamping frame 304, wherein the output main board 301 is mounted at the inward end of the output clamping frame 304, one end of the output DC pin 302 is inserted into the lower part of the output main board 301, the other end of the output DC pin 302 is extended and inserted into the lower part of the output clamping frame 304, one end of the output signal terminal 303 is inserted into the upper part of the input main board 201, the other end of the output signal terminal 303 is extended and inserted into the upper part of the output clamping frame 304, the output DC pin 302 and the output signal terminal 303 are electrically connected with the output main board 301, and the output main board 301 and the conversion protocol main board 4 are electrically connected. The lower part of the output main board 301 is provided with a DC pin inserting hole, the upper part of the output main board 301 is provided with a plurality of terminal inserting holes, the lower part of the output clamping frame 304 is provided with a DC pin inserting hole, the upper part is provided with a terminal inserting hole, and one end of the output clamping frame 304 is provided with an output main board clamping groove. A connecting copper bar 9 is further arranged between the input socket 2 and the output socket 3, and two ends of the connecting copper bar 9 are respectively connected with the input socket 2 and the output socket 3.

In this embodiment, the input motherboard 201 is clamped in an input motherboard clamping groove at the end of the input clamping frame 204, and the input motherboard 201 is fixed on the input clamping frame 204 by a screw, one end of the input DC pin 202 is clamped in the DC pin clamping grooves at two sides of the input motherboard 201, the other end is inserted in a DC pin insertion hole in the middle of the input clamping frame 204, one end of the input signal terminal 203 is inserted in a terminal insertion hole in the input motherboard 201, and the other end is extended and inserted in a terminal insertion hole in the middle of the input clamping frame 204; the output main board 301 is clamped in an output main board clamping groove at the end part of the output clamping frame 304, the output main board 301 is fixed on the output clamping frame 304 through screws, one end of the output DC pin 302 is clamped in a DC pin inserting hole at the lower part of the output main board 301, the other end of the output DC pin 302 is extended and inserted in a DC pin inserting hole at the lower part of the output clamping frame 304, one end of the output signal terminal 303 is inserted in a terminal inserting hole of the output main board 301, the other end of the output signal terminal 303 is extended and inserted in a terminal inserting hole at the upper part of the output clamping frame 304, copper bar inserting grooves are formed at the inner end parts of the input DC pin 202 and the output DC pin 302, and two ends of the connecting copper bar 9 are respectively inserted in the copper bar inserting grooves of the input DC pin 202 and the output DC pin 302, so that the connection of the input socket 2 and the output socket 3 is realized.

As shown in fig. 1, 2 and 3, the housing 1 includes an upper housing 101 and a lower housing 102 that are fastened to each other, the upper housing 101 is provided with a handle 103 and a switch mounting position 104, a main control switch 6 is mounted on the switch mounting position 104 in a clamping manner, a main board mounting column 105 is disposed in the lower housing 102, the conversion protocol main board 4 is mounted on the main board mounting column 105 in a clamping manner, a USB interface 7 is disposed on the bottom surface of the lower housing 102, and the main control switch 6 and the USB interface 7 are electrically connected with the conversion protocol main board 4. The main control switch 6 comprises a switch mounting plate 601, a switch key 602 and a switch main control connector 603, wherein the switch mounting plate 601 is mounted on the switch mounting position 104, the switch key 602 is clamped on the switch mounting plate 601, the switch main control connector 603 is positioned between the switch mounting plate 601 and the lower shell 102 and is in contact connection with the switch key 602, a battery 5 mounting position is further arranged below the switch mounting position 104, and a battery 5 is arranged inside the battery 5 mounting position. The waterproof rings 8 are arranged at the joints of the input socket 2 and the output socket 3 and the shell 1, and the waterproof rings 8 are sleeved outside the input socket 2 and the output socket 3.

In this embodiment, an input mounting groove is formed at one end of the housing 1, the input clamping frame 204 is clamped in the input mounting groove, a waterproof ring mounting groove is formed inside the input mounting groove, the waterproof ring 8 is clamped in the waterproof ring mounting groove, an output mounting groove is formed at the other end of the housing 1, the output clamping frame 304 is clamped in the output mounting groove, a waterproof ring mounting groove is also formed at the outer side of the output clamping frame 304, and the waterproof ring 8 is arranged in the waterproof ring mounting groove at the outer side of the output clamping frame 304, so that the waterproof effect can be achieved.

The foregoing description is only a preferred embodiment of the present utility model, and is not intended to limit the utility model in any way, and those skilled in the art may easily implement the present utility model as shown in the drawings and described above, but many modifications, adaptations and variations of the present utility model can be made by those skilled in the art without departing from the scope of the present utility model, and at the same time, any equivalent changes, adaptations and variations of the above embodiments according to the essential technology of the present utility model are intended to be within the scope of the present utility model.

Claims (10)

1. A charging conversion device for converting Japanese or national standards to European standards, characterized in that it comprises an input socket (2), an output socket (3) and a conversion system, wherein the conversion system is installed inside a housing (1), the input socket (2) is snap-fitted to one end of the housing (1), and the output socket (3) is snap-fitted to the other end of the housing (1), and both the input socket (2) and the output socket (3) are electrically connected to the conversion system, the input socket (2) is a Japanese standard socket or a national standard socket, and the output socket (3) is a European standard socket. 2. The charging conversion device for converting Japanese or national standards to European standards according to claim 1 is characterized in that: the conversion system includes a conversion protocol mainboard (4), the conversion protocol mainboard (4) is provided with a DC charging conversion module, and the side of the conversion protocol mainboard (4) is provided with a mainboard card slot. 3. The charging conversion device for converting Japanese or national standards to European standards according to claim 2 is characterized in that: the input socket (2) includes an input mainboard (201), an input DC pin (202), an input signal terminal (203) and an input card mounting frame (204); the input mainboard (201) is installed at the inward end of the input card mounting frame (204); one end of the input DC pin (202) is mounted on both sides of the input mainboard (201), and the other end is inserted into the input card mounting frame (204); one end of the input signal terminal (203) is inserted into the input mainboard (201), and the other end is inserted into the input card mounting frame (204); the input DC pin (202) and the input signal terminal (203) are both electrically connected to the input mainboard (201); and the input mainboard (201) is electrically connected to the conversion protocol mainboard (4). 4. The charging conversion device for converting from Japanese standard or national standard to European standard according to claim 3 is characterized in that: DC pin card slots are provided on both sides of the input main board (201), and a plurality of terminal insertion holes are provided on the input main board (201); a DC pin plug hole and a terminal plug hole are provided in the middle of the input card mounting frame (204), and an input main board card slot is provided at one end of the input card mounting frame (204). 5. The charging conversion device for converting Japanese or national standards to European standards according to claim 1 is characterized in that: the output socket (3) includes an output mainboard (301), an output DC pin (302), an output signal terminal (303) and an output card mounting frame (304); the output mainboard (301) is installed at the inward end of the output card mounting frame (304); one end of the output DC pin (302) is inserted into the lower part of the output mainboard (301), and the other end is extended and inserted into the lower part of the output card mounting frame (304); one end of the output signal terminal (303) is inserted into the upper part of the input mainboard (201), and the other end is extended and inserted into the upper part of the output card mounting frame (304); the output DC pin (302) and the output signal terminal (303) are both electrically connected to the output mainboard (301), and the output mainboard (301) is electrically connected to the conversion protocol mainboard (4). 6. The charging conversion device for converting Japanese or national standards to European standards according to claim 5 is characterized in that: a DC pin insertion hole is provided at the lower part of the output mainboard (301), and a plurality of terminal insertion holes are provided at the upper part of the output mainboard (301); a DC pin insertion hole is provided at the lower part of the output card mounting frame (304), and a terminal insertion hole is provided at the upper part, and an output mainboard card mounting slot is provided at one end of the output card mounting frame (304). 7. The charging conversion device for converting Japanese or national standards to European standards according to claim 1 is characterized in that a connecting copper rod (9) is further provided between the input socket (2) and the output socket (3), and the two ends of the connecting copper rod (9) are respectively connected to the input socket (2) and the output socket (3). 8. The charging conversion device for converting Japanese or national standards to European standards according to claim 2 is characterized in that: the shell (1) includes an upper shell (101) and a lower shell (102) that are interlocked, the upper shell (101) is provided with a handle (103) and a switch mounting position (104), a main control switch (6) is clamped on the switch mounting position (104), a mainboard clamping column (105) is provided inside the lower shell (102), the conversion protocol mainboard (4) is clamped on the mainboard clamping column (105), a USB interface (7) is provided on the bottom surface of the lower shell (102), and the main control switch (6) and the USB interface (7) are both electrically connected to the conversion protocol mainboard (4). 9. The charging conversion device for converting Japanese or national standards to European standards according to claim 8 is characterized in that: the main control switch (6) includes a switch mounting plate (601), a switch button (602) and a switch main control connector (603), the switch mounting plate (601) is installed on the switch mounting position (104), the switch button (602) is clamped on the switch mounting plate (601), the switch main control connector (603) is located between the switch mounting plate (601) and the lower shell (102), and forms a contact connection with the switch button (602), and a battery (5) is further provided below the switch mounting position (104), and a battery (5) is provided inside the battery (5) mounting position. 10. The charging conversion device for converting Japanese or national standards to European standards according to claim 1 is characterized in that: a waterproof ring (8) is provided at the connection between the input socket (2) and the output socket (3) and the housing (1), and the waterproof ring (8) is sleeved on the outside of the input socket (2) and the output socket (3).