CN210167823U - Multi-country charger structure - Google Patents

Multi-country charger structure Download PDF

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Publication number
CN210167823U
CN210167823U CN201920938184.4U CN201920938184U CN210167823U CN 210167823 U CN210167823 U CN 210167823U CN 201920938184 U CN201920938184 U CN 201920938184U CN 210167823 U CN210167823 U CN 210167823U
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Prior art keywords
charging
cover body
multinational
connector
charger structure
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CN201920938184.4U
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Chinese (zh)
Inventor
李宜勋
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Million Electronic Technology (xiamen) Co Ltd
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Million Electronic Technology (xiamen) Co Ltd
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Abstract

The utility model provides a multinational charger structure, which comprises a first cover body, a group of connector and a second cover body, wherein the first cover body is provided with a pin group and at least one conducting piece, the group of connector is arranged on the first cover body and is provided with a charging circuit and a charging wire, one end of the charging circuit is provided with a first charging connector and is electrically connected with the charging circuit, the charging circuit is electrically connected with the pin group and is provided with a first charging seat and a second charging seat, the second cover body is arranged on the group of connector and is provided with a second charging connector and a third charging connector, the multinational charger structure can be correspondingly inserted into multinational sockets through the pin group, and can use the first charging connector or the first charging seat or the second charging seat or the third charging connector according to requirements, so that the multinational charger structure can be correspondingly used for the multinational sockets and charge various electronic devices, thereby achieving the effects of convenient operation and conversion and convenient carrying.

Description

Multi-country charger structure
Technical Field
The utility model relates to a charger especially indicates a can conveniently operate conversion and convenient to carry's multinational charger structure.
Background
With the continuous development of social economy, people travel abroad, business trip and other affairs are more and more frequent, so that people need to carry some corresponding communication equipment or electric appliances to go out abroad conveniently, such as notebook computers, mobile phones, MP3 and other electronic products, which are all power-consuming products, so that a matched adapter is prepared for use when power is in short supply, because communication interfaces of countries around the world adopt different standards, such as sockets in American, English, Australian and European countries, and when electronic goods frequently moved are moved to other countries for use, the problem of unusable goods occurs, furthermore, the electronic goods have quite many styles and varieties, even the same variety has different brands, and various styles and brands have charging connectors belonging to the styles, such as a MicroUSB charging connector, a USB charging connector, a Lightning charging connector and a Type-C charging connector, most chargers currently provided on the market correspond to one type of electrical connector, and are relatively inconvenient to use, so that a patch cord is additionally configured to correspond to different electrical connectors, and therefore, under the condition that a user uses chargers corresponding to different connectors and sockets in different countries, no charger capable of simultaneously corresponding to different connectors and sockets in different countries exists on the market, and the user can only carry the patch cord corresponding to different electrical connectors and adapters corresponding to different countries, so that inconvenience in operation conversion and carrying is caused.
Therefore, there is a need in the art for a new solution to the above-mentioned problems.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a can make things convenient for operation conversion and convenient to carry's multinational charger structure, solve the problem of mentioning in the above-mentioned background art.
A multinational charger structure comprises a first cover body, wherein one side of the first cover body is provided with a pin group, and the other side of the first cover body is provided with at least one conducting piece electrically connected with the pin group;
the connecting body is assembled on one side, opposite to the conducting piece, of the first cover body, a charging circuit is arranged on the connecting body, a caulking groove is formed in the connecting body, a charging wire is arranged in the caulking groove and is electrically connected with the charging circuit, a first charging connector is arranged at one end of the charging wire, and the charging circuit is electrically connected with the pin group and is provided with a first charging seat and a second charging seat;
the second cover body is assembled on the assembling body, and a second charging joint and a third charging joint are arranged on the side edges of the first cover body and the second cover body.
Furthermore, the first cover body and the assembly body are assembled with each other by at least one fixed element, and one side of the first cover body is provided with a pin accommodating groove for the pin assembly to be arranged.
Furthermore, the conducting piece is provided with a first conducting end and a second conducting end, and the second conducting end is electrically connected with the pin group.
Furthermore, the assembly body is provided with a through hole for the first conduction end to pass through and electrically connected with the charging circuit.
Furthermore, a containing groove is formed in the side edge of the second cover body, and the first charging connector is arranged in the containing groove.
Further, the second cover body side is formed with both sides groove, and the second joint that charges with this third charge connect set up in the side groove, and be provided with the both sides cover lid on this second cover body side the second charge joint with this third charge joint and side groove.
Further, the second charging connector and the third charging connector are respectively formed with a transfer hole, and the transfer hole can be connected with the first charging connector in an assembling manner.
Furthermore, a first connecting hole and a second connecting hole are formed in the second cover body, and the first charging seat and the second charging seat are assembled through the first connecting hole and the second connecting hole respectively.
Further, the first charging socket is a micro USB charging socket, the first charging socket and the second charging socket are USB charging sockets, and the second charging socket and the third charging socket are a Lightning charging socket and a Type-C charging socket respectively.
Adopt above-mentioned technical scheme the utility model discloses following beneficial effect can be brought:
the utility model provides a many countries charger structure accessible its pin group that has corresponds and inserts the socket of locating many countries, and can use first charging joint or first charging seat or second charging joint or the third joint that charges according to the demand to make this many countries charger structure can correspond and use in many countries socket and charge to multiple electronic equipment, and then reach the efficiency that can conveniently operate the conversion and convenient to carry.
Drawings
Fig. 1 is a three-dimensional combination schematic diagram of the multi-country charger structure of the present invention.
Fig. 2 is a three-dimensional exploded view of the multi-country charger structure of the present invention.
Fig. 3 is a first schematic diagram of the multi-country charger structure according to the present invention.
Fig. 4 is a schematic diagram of the implementation of the multinational charger structure of the present invention.
Fig. 5 is a third schematic diagram of the multi-country charger structure of the present invention.
Fig. 6 is a fourth schematic diagram of the multi-country charger structure according to the present invention.
Fig. 7 is a fifth schematic view of the multi-country charger structure of the present invention.
Fig. 8 is a sixth schematic view of the multi-country charger structure according to the present invention.
Fig. 9 is a seventh implementation schematic diagram of the multi-country charger structure of the present invention.
Fig. 10 is an eighth schematic diagram of the multi-country charger structure according to the present invention.
In the figure, 1-multinational charger structure, 2-first cover body, 21-pin containing groove, 22-pin group, 221-first conducting piece, 222-second conducting piece, 223-first extending piece, 224-second extending piece, 23-conducting piece, 231-first conducting end, 232-second conducting end, 24-fixed element, 3-assembly body, 31-charging circuit, 311-first charging seat, 312-second charging seat, 32-caulking groove, 33-charging wire, 331-first charging joint, 34-through hole, 4-second cover body, 41-containing groove, 42-side groove, 43-side cover, 44-second charging joint, 441-switching hole, 45-third charging joint, 451-switching hole, 46-first aperture, 47-second aperture.
Detailed Description
The utility model is further explained with the accompanying drawings and the detailed embodiments;
first, please refer to fig. 1 and fig. 2, which are a three-dimensional assembly schematic view and a three-dimensional disassembly schematic view of the multi-country charger structure 1 of the present invention, as can be clearly seen from the figures, wherein the multi-country charger structure 1 includes a first cover body 2, a set of connecting bodies 3 and a second cover body 4.
Wherein a pin receiving slot 21 is formed on one side of the first cover 2, a pin set 22 is disposed in the pin receiving slot 21 of the first cover 2, and at least one conducting member 23 is disposed on the other side of the first cover 2 opposite to the pin set 22, a first conducting end 231 and a second conducting end 232 are respectively formed on two ends of the conducting member 23, the second conducting end 232 is electrically connected to the pin set 22, the pin set 22 includes at least one first conducting member 221 and at least one second conducting member 222 and at least one first extending member 223 and at least one second extending member 224, and at least one fixing element 24 is further disposed on the first cover 2, and the fixing element 24 is used for assembling the first cover 2 and the set of connectors 3.
Wherein the assembly body 3 is assembled on one side of the first cover 2 opposite to the conducting member 23, the assembly body 3 is provided with a charging circuit 31 and a surrounding embedding slot 32 formed on the side, and the assembly body 3 is provided with a charging wire 33 in the embedding slot 32, the charging wire 33 can be accommodated in the embedding slot 32 in a surrounding manner, and one end of the charging wire 33 is electrically connected with the charging circuit 31, the other end is provided with a first charging connector 331, the first charging connector 331 can be a micro USB charging connector, but is not limited thereto, the assembly body 3 is provided with a through hole 34, the first conducting terminal 231 of the conducting member 23 passes through the through hole 34 and is electrically connected with the charging circuit 31, the charging circuit 31 is electrically connected with the pin assembly 22 through the conducting member 23, the charging circuit 31 is provided with a first charging seat 311 and a second charging seat 312, and the first charging seat 311 and the second charging seat 312 are USB charging seats, but are not so limited.
The second cover 4 and the assembly body 3 are assembled with each other and are disposed at the other side of the first cover 2, the second cover 4 covers the charging circuit 31, a containing groove 41, two side grooves 42 and two side covers 43 are formed on the side of the second cover 4, the containing groove 41 is used for the first charging connector 331 to be disposed, the second cover 4 is provided with a second charging connector 44 and a third charging connector 45, the second charging connector 44 and the third charging connector 45 are respectively a Lightning charging connector and a Type-C charging connector, but not limited thereto, the second charging connector 44 is disposed in the side groove 42 of one side and is positioned by the side cover 43, the third charging connector 45 is disposed in the side groove 42 of the other side and is positioned by the side cover 43 of the side, and the second charging connector 44 and the third charging connector 45 are respectively formed with a transfer connection hole 441, or 43, 451, the through holes 441, 451 are connected to the first charging connector 331 and electrically connected to the charging circuit 31, and a first connection hole 46 and a second connection hole 47 are formed on the second cover 4 for the first charging seat 311 and the second charging seat 312 to be assembled.
Referring to the drawings and fig. 3 to 5, the multi-country charger structure 1 according to the present invention is schematically illustrated in a first to a third embodiment, wherein when the multi-country charger structure 1 is used to charge an electronic device, a charging member can be selected according to a charging hole of the electronic device, if the electronic device is a micro USB charging hole, the charging wire 33 can be screwed out from the slot 32, such that the charging wire 33 and the first charging connector 331 are exposed outside the slot 32, and the first charging connector 331 can be inserted into the charging hole of the electronic device, such that the charging circuit 31 charges the electronic device through the first charging connector 331, and if the electronic device has the USB charging wire 33, the USB charging wire 33 can be directly inserted into the first charging seat 311 or the second charging seat 312, such that the charging circuit 31 charges the electronic device through the first charging seat 311 or the second charging seat 312, or when the electronic device is a Lightning charging hole, the charging wire 33 can be unscrewed from the recessed slot 32, so that the charging wire 33 and the first charging connector 331 are exposed outside the recessed slot 32, and after the second charging connector 44 is removed from the side slot 42, the through-hole 441 of the second charging connector 44 can be electrically connected with the first charging connector 331, and the second charging connector 44 can be inserted into the charging hole of the electronic device, so that the charging circuit 31 charges the electronic device through the second charging connector 44, and if the electronic device is a Type-C charging hole, the charging wire 33 can be unscrewed from the recessed slot 32, so that the charging wire 33 and the first charging connector 331 are exposed outside the recessed slot 32, and after the third charging connector 45 is removed from the side slot 42, the through-hole 451 of the third charging connector 45 can be electrically connected with the first charging connector 331, and the third charging connector 45 can be inserted into the charging hole of the electronic device, the charging circuit 31 charges the electronic device through the third charging connector 45, and the multi-country charger structure 1 can use the first charging connector 331, the first charging seat 311, the second charging seat 312, the second charging seat 44, or the third charging connector 45 to charge various electronic devices as required, thereby achieving the effects of convenient operation and conversion and convenient carrying.
Referring to the drawings and fig. 6 to 10, the multi-country charger structure 1 according to the present invention is shown in the fourth to eighth embodiments, wherein when the multi-country charger structure 1 is inserted into a multi-country socket for charging, the pin set 22 can be pulled up by adjusting the first power connector 221, the second power connector 222, the first extender 223, and the second extender 224 of the pin set 22, so that the pin set 22 can be inserted into the multi-country socket, so as to conduct power to the pin set 22, and after the pin set 22 conducts power, the power is transmitted to the charging circuit 31, and the charging circuit 31 provides power to the first charging connector 331, the second charging connector 44, the third charging connector 45, the first charging socket 311, or the second charging socket 312, the multi-country charger structure 1 can be inserted into the multi-country socket through the pin set 22, and the first charging connector 331, the first charging connector 311, the second charging socket 312, the second charging socket 44, or the second charging socket 312 can be used according to the requirements The three charging connectors 45 enable the multi-country charger structure 1 to be correspondingly used in a multi-country socket and charge various electronic devices, so that the effects of convenient operation and conversion and convenient carrying are achieved.

Claims (9)

1. The utility model provides a multinational charger structure which characterized in that: the mask comprises a first mask body, wherein one side of the first mask body is provided with a pin group, and the other side of the first mask body is provided with at least one conducting piece electrically connected with the pin group;
the connecting body is assembled on one side, opposite to the conducting piece, of the first cover body, a charging circuit is arranged on the connecting body, a caulking groove is formed in the connecting body, a charging wire is arranged in the caulking groove and is electrically connected with the charging circuit, a first charging connector is arranged at one end of the charging wire, and the charging circuit is electrically connected with the pin group and is provided with a first charging seat and a second charging seat;
the second cover body is assembled on the assembling body, and a second charging joint and a third charging joint are arranged on the side edges of the first cover body and the second cover body.
2. The multinational charger structure of claim 1, wherein: the first cover body and the assembly body are assembled with each other through at least one fixed element, and one side of the first cover body is provided with a pin accommodating groove for the pin assembly to be arranged.
3. The multinational charger structure of claim 1, wherein: the conducting piece is provided with a first conducting end and a second conducting end, and the second conducting end is electrically connected with the pin group.
4. The multinational charger structure of claim 3, wherein: the assembly body is provided with a through hole for the first conduction end to pass through and electrically connected with the charging circuit.
5. The multinational charger structure of claim 1, wherein: the side edge of the second cover body is provided with a containing groove, and the containing groove is used for the first charging connector to be arranged.
6. The multinational charger structure of claim 1, wherein: the second cover body side is formed with both sides groove, and this second charge joint with this third joint that charges set up in the side inslot, and be provided with the both sides cover lid on this second cover body side the second charge joint with this third charge joint and side groove.
7. The multinational charger structure of claim 1, wherein: the second charging connector and the third charging connector are respectively provided with a switching hole which can be connected with the first charging connector in an assembling mode.
8. The multinational charger structure of claim 1, wherein: the second cover body is provided with a first connecting hole and a second connecting hole which are respectively used for the assembly of the first charging seat and the second charging seat.
9. The multinational charger structure of claim 1, wherein: the first charging connector is a charging connector of MicroUSB, the first charging seat and the second charging seat are charging connectors of USB, and the second charging seat and the third charging seat are charging connectors of Lightning and Type-C respectively.
CN201920938184.4U 2019-06-21 2019-06-21 Multi-country charger structure Active CN210167823U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201920938184.4U CN210167823U (en) 2019-06-21 2019-06-21 Multi-country charger structure

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201920938184.4U CN210167823U (en) 2019-06-21 2019-06-21 Multi-country charger structure

Publications (1)

Publication Number Publication Date
CN210167823U true CN210167823U (en) 2020-03-20

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ID=70170250

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201920938184.4U Active CN210167823U (en) 2019-06-21 2019-06-21 Multi-country charger structure

Country Status (1)

Country Link
CN (1) CN210167823U (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN110299738A (en) * 2019-06-21 2019-10-01 普罗万电子科技(厦门)有限公司 Multinational charger construction

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN110299738A (en) * 2019-06-21 2019-10-01 普罗万电子科技(厦门)有限公司 Multinational charger construction

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