CN222839203U - Data cable with adapter - Google Patents

Abstract

The utility model discloses a data line with an adapter, which comprises a data line and the adapter, wherein the data line comprises a wire rod, a first plug and a second plug, the first plug and the second plug are respectively connected with two ends of the wire rod, the first plug is a USB Type-C plug, the adapter is movably installed and connected with the first plug, and the adapter comprises a PCB. Through with adapter and first plug movable mounting connection to the cooperation adapter has with first plug complex first USB Type-C link, and first USB Type-C link sets up with first plug detachable or to inserting the ground, can regard as the docking station to use after first USB Type-C link and first plug to inserting, when first USB Type-C link and first plug separation, the data line can independently use, and the adapter keeps being connected with the data line, avoids one of them part to lose easily, brings the facility for carrying and using.

Description

Data line with adapter

Technical Field

The utility model relates to the technical field of adapters, in particular to a data line with an adapter.

Background

An adapter is a component that is often contacted by electronic engineering technicians. The adapter has the characteristics of wide frequency band and low standing wave. The circuit has very simple function that a bridge for communication is erected between the blocked or isolated circuits in the circuit, so that current flows, and the circuit realizes the preset function. An adapter is an indispensable component in an electronic device, and one or more adapters are always found when viewed along a path through which current flows. The form and construction of the adaptor is variable, and various types of adaptors exist according to the application object, frequency, power, application environment, etc. Whatever the adapter, however, it is necessary to ensure smooth continuous and reliable current flow.

The use of the adapter generally needs to be matched with a data line (also called a connecting line), in the prior art, the adapter and the data line are two large parts which are separated from each other, when the adapter is needed to be used, one end of the data line is spliced with the connecting end of the adapter, and when the adapter is not needed to be used, the adapter is separated from the data line, and as the two large parts are separated from each other, one part is easy to be lost, and inconvenience is brought to carrying and use.

Meanwhile, the USB Type-A female seat connector and the USB Type-C female seat connector adopted by the adapter in the prior art are independent and complete connectors, so that the cost is high, and the independent and complete connectors occupy large space, so that the adapter is large in size.

Therefore, it is necessary to study a scheme to solve the above-mentioned problems.

Disclosure of utility model

In view of the above, the present utility model aims at overcoming the drawbacks of the prior art, and has a main object of providing a data line with an adapter, which can effectively solve the problem that the existing adapter and the data line are separated from each other independently, resulting in inconvenient carrying and use.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

The data line comprises a wire, a first plug and a second plug, wherein the first plug and the second plug are respectively connected with two ends of the wire, the first plug is an USB Type-C plug, the adapter is movably installed and connected with the first plug, the adapter comprises a PCB, a first USB Type-C connecting end is arranged on the PCB, at least one second USB Type-C connecting end and/or at least one USB Type-A connecting end is arranged on the PCB, the first USB Type-C connecting end is matched with the first plug, and the first USB Type-C connecting end and the first plug are arranged in a separable or opposite-plug connection mode.

As a preferred scheme, the adapter further comprises a shell, a containing cavity is formed in the shell, a first USB Type-C jack and a second USB Type-C jack are formed in the shell, the first USB Type-C jack and the second USB Type-C jack are communicated with the containing cavity, the PCB is arranged in the containing cavity, a first USB Type-C female seat tongue piece and a second USB Type-C female seat tongue piece integrally extend out of the PCB, a plurality of first golden fingers are arranged on the first USB Type-C female seat tongue piece, the first USB Type-C female seat tongue piece is located in the first USB Type-C jack and forms the first USB Type-C connecting end, a plurality of second golden fingers are arranged on the second USB Type-C female seat tongue piece, and the second USB Type-C female seat tongue piece is located in the second USB Type-C jack and forms the second USB Type-C connecting end.

The adapter further comprises an USB Type-A female seat terminal module, the USB Type-A female seat terminal module is arranged on the PCB, an USB Type-A jack is formed in the shell and communicated with the accommodating cavity, an USB Type-A female seat tongue piece integrally extends out of the PCB, a metal clamping hook piece is fixed on the second USB Type-C female seat tongue piece, a plurality of third golden fingers are arranged on the USB Type-A female seat tongue piece, the USB Type-A female seat tongue piece is located in the USB Type-A jack, and the USB Type-A female seat terminal module is fixed on the USB Type-A female seat tongue piece and located in the USB Type-A jack to form the USB Type-A connecting end.

As a preferred scheme, the female seat tongue piece of second USB Type-C is two, and the female seat tongue piece of two second USB types-C is relative USB Type-A female seat tongue piece bilateral symmetry, and corresponding, this second USB Type-C jack is two, and two second USB Type-C jacks are relative USB Type-A jack bilateral symmetry to, and, the female seat tongue piece of every second USB Type-C is located the female seat tongue piece of corresponding second USB Type-C, is fixed with a metal trip spare on the female seat tongue piece of every second USB Type-C.

As a preferred scheme, USB Type-A female seat terminal module is including insulating seat and a plurality of shell fragment terminal, and aforesaid USB Type-A female seat tongue piece insert molding is fixed in the insulating seat, and this a plurality of third golden fingers expose the front end surface of insulating seat, and this a plurality of shell fragment terminals are all fixed together with insulating seat insert molding, and every shell fragment terminal all switches on with the welding of PCB board, and every shell fragment terminal all has elastic contact portion, and a plurality of elastic contact portions are located the rear of a plurality of third golden fingers.

The shell comprises a main shell body and an USB Type-A female seat shell body, wherein the first USB Type-C jack is located on the rear side face of the main shell body, the second USB Type-C jack and the USB Type-A jack are arranged on the front side face of the main shell body side by side, the USB Type-A female seat shell body is wrapped outside the USB Type-A female seat terminal module, and the USB Type-A female seat shell body is located in the main shell body.

As a preferable scheme, mounting grooves are formed in two sides of the rear end of the first plug, the adapter is rotatably lifted and arranged relative to the first plug, a connecting support is arranged in the main shell body and is provided with two rotating arms, the two rotating arms extend out of the rear side face of the main shell body backwards, the two rotating arms are respectively positioned on two sides of the first USB Type-C jack, the two rotating arms are hinged with the first plug and are respectively positioned in the corresponding mounting grooves, and the two rotating arms can be respectively movably arranged back and forth along the corresponding mounting grooves.

As a preferred scheme, main shell body is including main part and back stopper, and this second USB Type-C jack and USB Type-A jack set up side by side on the leading flank of main part, and this back stopper seals the rear end opening of main part, and this first USB Type-C jack is located the back stopper.

As a preferable scheme, the rear end edge of the main body is provided with a plurality of buckling holes, the rear plug is extended to form a plurality of hook parts, and the hook parts are matched with the buckling holes to be buckled and fixed.

Compared with the prior art, the utility model has obvious advantages and beneficial effects, and in particular, the technical scheme can be as follows:

1. Through with adapter and first plug movable mounting connection to the cooperation adapter has with first plug complex first USB Type-C link, and first USB Type-C link sets up with first plug detachable or to inserting the ground, can regard as the docking station to use after first USB Type-C link and first plug to inserting, when first USB Type-C link and first plug separation, the data line can independently use, and the adapter keeps being connected with the data line, avoids one of them part to lose easily, brings the facility for carrying and using.

2. Through the female seat tongue piece of first USB Type-C, the female seat tongue piece of second USB Type-C and the female seat tongue piece of USB Type-A of integrative extension on the PCB board, each female seat tongue piece all can be as the part of each interface for each interface need not to adopt independent complete connector, thereby greatly reduced product manufacturing cost, can save the space that each interface occupies simultaneously, make the whole volume of adapter smaller and more exquisite, use more convenient.

In order to more clearly illustrate the structural features and efficacy of the present utility model, the present utility model will be described in detail below with reference to the accompanying drawings and examples.

Drawings

FIG. 1 is an assembled perspective view of a preferred embodiment of the present utility model;

FIG. 2 is an assembled perspective view of the adapter according to the preferred embodiment of the present utility model;

FIG. 3 is an assembled perspective view of the adapter at another angle in accordance with the preferred embodiment of the present utility model;

FIG. 4 is an exploded view of the adapter in the preferred embodiment of the present utility model;

FIG. 5 is an exploded view of another angle of the adapter in the preferred embodiment of the present utility model;

FIG. 6 is a schematic diagram of the partial assembly of the adapter in accordance with the preferred embodiment of the present utility model;

FIG. 7 is a schematic diagram showing the internal structure of the adapter according to the preferred embodiment of the present utility model;

fig. 8 is a schematic view of another angle of fig. 7.

The attached drawings are used for identifying and describing:

10. data line 11, wire rod

12. First plug 13, second plug

101. Mounting groove 20, adapter

21. Housing 211, main housing body

2111. Main body 2112, rear plug

212. USB Type-A female seat shell 213 and connecting bracket

2131. Rotating arm 22 and PCB

221. First USB Type-C female seat tongue 2211 and first golden finger

222. Second USB Type-C female seat tongue 2221, second golden finger

223. USB Type-A female seat tongue 2231 and third golden finger

2232. Through groove 23 and USB Type-A female seat terminal module

231. Insulating base 232 and spring terminal

2321. Elastic contact portion 24, metal hook member

201. Accommodating cavity 202 and first USB Type-C jack

203. Second USB Type-C jack 204, USB Type-A jack

205. Button hole 206, hook portion

Detailed Description

Referring to fig. 1 to 8, a specific structure of a preferred embodiment of the present utility model is shown, which includes a data line 10 and an adapter 20.

The data line 10 comprises a wire 11, a first plug 12 and a second plug 13, wherein the first plug 12 and the second plug 13 are respectively connected with two ends of the wire 11. In this embodiment, the first plug 12 and the second plug 13 are USB Type-C plugs, and mounting slots 101 are provided on two sides of the rear end of the first plug 12.

The adaptor 20 is movably mounted and connected with the first plug 12, and comprises a PCB22, a first USB Type-C connector is disposed on the PCB22, and at least one second USB Type-C connector and/or at least one USB Type-a connector are disposed on the PCB22, wherein the first USB Type-C connector is adapted to the first plug 12, and the first USB Type-C connector is detachably or oppositely connected with the first plug 12. Specifically, the adapter 20 further includes a housing 21 and an USB Type-a female socket terminal module 23, the USB Type-a female socket terminal module 23 is disposed on a PCB22, and the USB Type-a female socket terminal module 23 and the PCB22 are both disposed in the housing 21 and formed with a first USB Type-C connection end, a second USB Type-C connection end, and a USB Type-a connection end. In the present embodiment, the adapter 20 is rotatably disposed with respect to the first plug 12.

The housing 21 has a containing cavity 201, and a first USB Type-C jack 202, a second USB Type-C jack 203 and a USB Type-A jack 204 are formed on the housing 21, and the first USB Type-C jack 202, the second USB Type-C jack 203 and the USB Type-A jack 204 are all communicated with the containing cavity 201. Specifically, the shell 21 comprises a main shell 211 and an USB Type-a female socket shell 212, the first USB Type-C jack 202 is located on the rear side of the main shell 211, the second USB Type-C jack 203 and the USB Type-a jack 204 are arranged on the front side of the main shell 211 side by side, the two second USB Type-C jacks 203 are symmetrical left and right with respect to the USB Type-a jack 204 so as to provide two circuit connections, and the USB Type-a female socket shell 212 is located in the main shell 211 and has a simple and stable structure. The main housing 211 comprises a main body 2111 and a rear plug 2112, the second USB Type-C receptacle 203 and the USB Type-a receptacle 204 are arranged on the front side of the main body 2111 side by side, the rear plug 2112 covers the rear end opening of the main body 2111, and the first USB Type-C receptacle 202 is arranged on the rear plug 2112, so that the structure is simple and the assembly is convenient. In addition, the rear end edge of the main body 2111 is provided with a plurality of buckling holes 205, the rear plug 2112 is extended with a plurality of hook portions 206, and the plurality of hook portions 206 are matched with the plurality of buckling holes 205 to be buckled and fixed, so that the assembly is simple and stable. The USB Type-A female seat shell 212 is a stamping iron shell, and is simple in structure and easy to manufacture. And, a connection bracket 213 is disposed in the main housing 211, the connection bracket 213 has two rotating arms 2131, the two rotating arms 2131 extend backward out of the rear side of the main housing 211, the two rotating arms 2131 are respectively located at two sides of the first USB Type-C jack 202, the two rotating arms 2131 are hinged with the first plug 12 and are respectively located in the corresponding mounting slots 101, and the two rotating arms 2131 can be respectively movably disposed back and forth along the corresponding mounting slots 101, so that the structure is simple, and the assembly and the use are convenient.

The PCB 22 is disposed in the accommodating cavity 201, the PCB 22 has a switching circuit (not shown in the drawing), the PCB 22 integrally extends with a first USB Type-C female socket tongue 221, a second USB Type-C female socket tongue 222 and a USB Type-a female socket tongue 223, the first USB Type-C female socket tongue 221 has a plurality of first gold fingers 2211, the plurality of first gold fingers 2211 are connected with the switching circuit in a conductive manner, the first USB Type-C female socket tongue 221 is disposed in the first USB Type-C jack 202 and forms the first USB Type-C connection end, the second USB Type-C female socket tongue 222 has a plurality of second gold fingers 2221, the plurality of second gold fingers 2221 are connected with the switching circuit in a conductive manner, the second USB Type-C female socket tongue 222 is disposed in the second USB Type-C jack 203 and forms the second USB Type-C connection end, the second USB Type-C female socket tongue 222 is fixed with a metal hook 24, and the plurality of gold fingers 223 are connected with the third USB Type-a plurality of gold fingers 223 in the third USB Type-a female socket tongue 223. In this embodiment, a plurality of second golden fingers 2221 are formed on the upper and lower surfaces of the front end of the second USB Type-C female socket tongue piece 222, so as to realize double-sided insertion, and the use is more convenient. And, the number of the second USB Type-C female seat tongues 222 is two, the two second USB Type-C female seat tongues 222 are symmetrical with respect to the USB Type-a female seat tongues 223, each of the second USB Type-C female seat tongues 222 is located in the corresponding second USB Type-C receptacle 203, and a metal hook 24 is fixed on each of the second USB Type-C female seat tongues 222. In addition, the USB Type-a female seat tongue piece 223 is provided with a plurality of through grooves 2232, and the through grooves 2232 are arranged at intervals laterally and located behind the third golden fingers 2231.

This female seat terminal module 23 of USBType-A is fixed in on the female seat tongue 223 of USBType-A and is located in the USBType-A jack 204 and constitutes aforesaid USBType-A link. In this embodiment, the USB Type-a female socket housing 212 is wrapped outside the USB Type-a female socket terminal module 23. Specifically, the USB Type-a female socket terminal module 23 includes an insulating socket 231 and a plurality of spring terminals 232, the USB Type-a female socket tongue piece 223 is insert molded and fixed in the insulating socket 231, the plurality of third golden fingers 2231 are exposed out of the front end surface of the insulating socket 231, the plurality of spring terminals 232 are insert molded and fixed with the insulating socket 231, each spring terminal 232 is welded with the PCB 22 and is connected with the adapting circuit, each spring terminal 232 has an elastic contact portion 2321, the plurality of elastic contact portions 2321 are located behind the plurality of third golden fingers 2231, the structure is simple and stable, and the plurality of through grooves 2232 provide space for the plurality of elastic contact portions 2321 to elastically deform.

The assembly process of this embodiment is described in detail as follows:

Firstly, the PCB 22, the metal hook 24 and the plurality of spring terminals 232 are prepared, then the metal hook 24 is assembled on the second USB Type-C socket tongue 222, the plurality of spring terminals 232 are welded with the USB Type-a socket tongue 223, then the assembled PCB 22, the metal hook 24 and the plurality of spring terminals 232 are put into an injection mold to be injection molded into the insulating base 231, then the USB Type-a socket housing 212 is covered outside the USB Type-a socket terminal module 23, thus forming a semi-finished product, and finally the semi-finished product is assembled in the main housing 211.

When in use, as shown in fig. 1, the two rotating arms 2131 are connected with the first plug 12 of the data line 10 by turning over, after the front end of the first plug 12 is inserted into the first USB Type-C jack 202, the first plug 12 is in contact with the plurality of first golden fingers 2211 on the first USB Type-C socket tongue piece 221, so as to realize the installation connection and conduction of the data line 10 and the product, and then the slave device can be plugged into the second USB Type-C jack 203 or the USB Type-a jack 204 through another data line, so that the product can be used as a docking station.

When the data line 10 needs to be used alone, the adaptor 20 is inlaid and pulled, so that the adaptor 20 is separated from the first plug 12, and then the adaptor 20 is turned upwards relative to the first plug 12, and at the moment, the first plug 12 and the second plug 13 can be respectively connected with two external devices.

The utility model is designed with the key that the adapter is movably installed and connected with the first plug, and is matched with the adapter to be provided with the first USB Type-C connecting end matched with the first plug, the first USB Type-C connecting end and the first plug are arranged in a separable or opposite-plug connection mode, when the first USB Type-C connecting end and the first plug are opposite-plug, the adapter can be used as a docking station, when the first USB Type-C connecting end and the first plug are separated, the data line can be independently used, and the adapter is kept connected with the data line, so that one part of the adapter is prevented from being easily lost, and convenience is brought to carrying and use.

The foregoing description is only a preferred embodiment of the present utility model, and is not intended to limit the technical scope of the present utility model, so any minor modifications, equivalent changes and modifications made to the above embodiments according to the technical principles of the present utility model are still within the scope of the technical solutions of the present utility model.

Claims (9)

1. A data cable with an adapter, characterized in that: it comprises a data cable and an adapter; the data cable comprises a wire, a first plug and a second plug, the first plug and the second plug are respectively connected to two ends of the wire, and the first plug is a USB Type-C plug; the adapter is movably installed and connected to the first plug, the adapter comprises a PCB board, a first USB Type-C connection end is arranged on the PCB, and at least one second USB Type-C connection end and/or at least one USB Type-A connection end are also arranged on the PCB, the first USB Type-C connection end is adapted to the first plug, and the first USB Type-C connection end and the first plug are arranged to be detachable or plug-in connected. 2. The data cable with a built-in adapter according to claim 1 is characterized in that: the adapter also includes a shell, the shell has a accommodating cavity, the shell is provided with a first USB Type-C socket and a second USB Type-C socket, the first USB Type-C socket and the second USB Type-C socket are both connected to the accommodating cavity; the PCB board is arranged in the accommodating cavity, and a first USB Type-C female socket tongue and a second USB Type-C female socket tongue are integrally extended from the PCB board; the first USB Type-C female socket tongue has a plurality of first gold fingers, the first USB Type-C female socket tongue is located in the first USB Type-C socket and constitutes the aforementioned first USB Type-C connection end; the second USB Type-C female socket tongue has a plurality of second gold fingers, the second USB Type-C female socket tongue is located in the second USB Type-C socket and constitutes the aforementioned second USB Type-C connection end. 3. The data cable with its own adapter according to claim 2 is characterized in that: the adapter also includes a USB Type-A female terminal module, which is arranged on the PCB board; the shell is provided with a USB Type-A socket, which is connected to the accommodating cavity; a USB Type-A female tongue is integrally extended from the PCB board; a metal hook is fixed on the second USB Type-C female tongue; a plurality of third gold fingers are provided on the USB Type-A female tongue, and the USB Type-A female tongue is located in the USB Type-A socket; the USB Type-A female terminal module is fixed on the USB Type-A female tongue and is located in the USB Type-A socket to constitute the aforementioned USB Type-A connection end. 4. The data cable with a built-in adapter according to claim 3 is characterized in that: there are two second USB Type-C female socket tongues, and the two second USB Type-C female socket tongues are symmetrical with respect to the USB Type-A female socket tongue. Correspondingly, there are two second USB Type-C sockets, and the two second USB Type-C sockets are symmetrical with respect to the USB Type-A socket. Moreover, each second USB Type-C female socket tongue is located in the corresponding second USB Type-C socket, and a metal hook is fixed to each second USB Type-C female socket tongue. 5. The data cable with its own adapter according to claim 3 is characterized in that: the USB Type-A female socket terminal module includes an insulating seat and a plurality of spring terminals, the aforementioned USB Type-A female socket tongue is inlay-molded and fixed in the insulating seat, the plurality of third gold fingers are exposed from the front end surface of the insulating seat, the plurality of spring terminals are inlay-molded and fixed with the insulating seat, each spring terminal is welded and connected with the PCB board, each spring terminal has an elastic contact portion, and the plurality of elastic contact portions are located behind the plurality of third gold fingers. 6. The data cable with its own adapter according to claim 3 is characterized in that: the shell includes a main shell and a USB Type-A female shell; the first USB Type-C jack is located on the rear side of the main shell, and the second USB Type-C jack and the USB Type-A jack are arranged side by side on the front side of the main shell; the USB Type-A female shell is covered on the outside of the USB Type-A female terminal module, and the USB Type-A female shell is located inside the main shell. 7. The data cable with its own adapter according to claim 6 is characterized in that: installation grooves are set on both sides of the rear end of the first plug, the adapter is rotatably flipped relative to the first plug, a connecting bracket is set in the main outer shell, the connecting bracket has two rotating arms, the two rotating arms extend backward from the rear side of the main outer shell, the two rotating arms are respectively located on both sides of the first USB Type-C socket, the two rotating arms are hinged to the first plug and are respectively located in the corresponding installation grooves, and the two rotating arms can be movably set back and forth along the corresponding installation grooves. 8. The data cable with its own adapter according to claim 6, characterized in that: the main outer shell includes a main body and a rear plug, the second USB Type-C socket and the USB Type-A socket are arranged side by side on the front side of the main body, the rear plug covers the rear end opening of the main body, and the first USB Type-C socket is located on the rear plug. 9. The data cable with built-in adapter according to claim 8 is characterized in that: a plurality of buckle holes are opened on the rear edge of the main body, and a plurality of hooks extend from the rear plug, and the plurality of hooks are fastened with the plurality of buckle holes by buckling.