CN109217056B - Lighting-to-TypeC adapter convenient to produce and manufacture - Google Patents

Abstract

The invention discloses a Lightning-to-TypeC adapter convenient to manufacture, which comprises a shell body, a Lightning plug and a TypeC female seat, wherein the shell body is provided with a plurality of connectors; one end of the shell body is provided with a TypeC socket; the outer end of the Lightning plug extends out of the other end of the shell body, and the inner end of the Lightning plug extends into the shell body; the typeC female seat is connected with the Lightning plug in a conducting way and is positioned in the typeC socket; the Lightning plug is a standard Lightning plug, and the inner end of the Lightning plug is provided with a LIGHTNING PCB board; the TypeC base comprises an insulating body, a first shielding shell, a switching PCB and two rows of conductive terminals. Through insert shaping in insulator has the switching PCB board, utilizes the switching PCB board to carry out the circuit switching with two rows of conductive terminal to the cooperation adopts standard Lightning plug, and one of them row conductive terminal can be switched on with LIGHTNING PCB board welding, thereby need not to carry out special design to Lightning plug, realizes the standardization, has effectively reduced the preparation degree of difficulty of product, and practiced thrift the cost greatly, does benefit to the competition in market.

Description

Lighting-to-TypeC adapter convenient to produce and manufacture

Technical Field

The invention relates to the technical field of adapters, in particular to a Lightning-to-TypeC adapter convenient to manufacture.

Background

In month 12 of 2013, the USB 3.0 promotion team has published a rendering of the next generation USB type c connector, which is then ready for mass production starting in month 8 of 2014. The new interface is highlighted by a more slim design, faster transmission speeds (up to 10 Gbps) and a more robust power transmission (up to 100W). The TypeC double-sided pluggable interface has the greatest characteristic of supporting double-sided insertion of the USB interface, formally solving the worldwide problem of 'always inaccurate insertion of the USB', and randomly inserting the front side and the back side. And the USB data line matched with the USB data line must be thinner and lighter.

The apple high-speed multifunctional I/O interface is 9 months and 12 days 2012, and the American san Francisco grassland conference center apple releases a brand new LIGHTNING DOCK interface, which can be translated into a lightning interface in Chinese. The release of new interface standards also means that apples will be formally replaced with 30-pin Dock interfaces for up to 9 years.

The TypeC interface and the Lightning interface are two common interfaces at present, and in order to realize that these two interfaces can be connected, an adaptor is generally required to be used, and because the TypeC female seat is provided with two rows of conductive terminals arranged in an upper row, when the adaptor is manufactured, a standard Lightning plug cannot be used, and the Lightning plug needs to be specially designed, so that the manufacturing difficulty of the adaptor is high, and the cost is also high. Accordingly, there is a need for improvements to current adapters.

Disclosure of Invention

In view of the above, the present invention aims at overcoming the drawbacks of the prior art, and its primary objective is to provide a lighting-to-type c adapter that is easy to manufacture, and which can effectively solve the problems of the existing adapter that the manufacturing difficulty is high and the cost is high.

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

A lighting-to-TypeC adapter convenient to manufacture comprises a shell body, a lighting plug and a TypeC female seat; one end of the shell body is provided with a TypeC socket; the outer end of the Lightning plug extends out of the other end of the shell body, and the inner end of the Lightning plug extends into the shell body; the typeC female seat is connected with the Lightning plug in a conducting way and is positioned in the typeC socket; the Lightning plug is a standard Lightning plug, and the inner end of the Lightning plug is provided with a LIGHTNING PCB board; the TypeC base comprises an insulating body, a first shielding shell, a transfer PCB and two rows of conductive terminals; the first shielding shell is coated outside the insulating body, the switching PCB and the two rows of conductive terminals are fixed on the insulating body in an embedded mode, the two rows of conductive terminals are arranged up and down and are welded and conducted with the switching PCB, and one row of conductive terminals extends out of the insulating body backwards and is welded and conducted with the LIGHTNING PCB board.

As a preferable scheme, the Lightning plug is sleeved with a second shielding shell, the second shielding shell is located in the shell body, the inner ends of the second shielding shell and the first shielding shell are in sleeved connection with each other, and the LIGHTNING PCB board is located in the second shielding shell.

As a preferable scheme, one end of the second shielding shell is tightly sleeved and fixed with the outer peripheral side surface of the Lightning plug, and the other end of the second shielding shell is tightly sleeved and fixed with the outer peripheral side surface of the inner end of the first shielding shell.

As a preferable scheme, the shell body is of an integrated structure, the shell body wraps the first shielding shell and the second shielding shell, a slot hole is formed in the other end face of the shell body, and the outer end of the Lightning plug penetrates through the slot hole and extends outwards.

As a preferable scheme, the inside mosaic forming of front end of insulator is fixed with the shielding piece, and the upper and lower surface of this shielding piece all covers the insulating piece, and this shielding piece and insulating piece are located between two rows of conductive terminal.

As a preferred scheme, the upper surface of LIGHTNING PCB boards is provided with a plurality of bonding pads which are spaced side by side, wherein the tail ends of the conductive terminals positioned on the upper row extend backwards and are welded and fixed with the corresponding bonding pads.

As a preferable scheme, the two sides of the rear end of the insulating body are extended to form a supporting part, each supporting part is concavely provided with a concave position, and the two sides of the rear end of the LIGHTNING PCB board are propped against the corresponding concave positions.

As a preferred solution, each row of conductive terminals is composed of a plurality of conductive terminals, wherein a portion of the conductive terminals in the upper row extend rearward to be in solder communication with the LIGHTNING PCB board.

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

1. Through insert shaping in insulator has the switching PCB board, utilizes the switching PCB board to carry out the circuit switching with two rows of conductive terminal to the cooperation adopts standard Lightning plug, and one of them row conductive terminal can be switched on with LIGHTNING PCB board welding, thereby need not to carry out special design to Lightning plug, realizes the standardization, has effectively reduced the preparation degree of difficulty of product, and practiced thrift the cost greatly, does benefit to the competition in market.

2. Through being provided with the second shielding shell, utilize the inner of second shielding shell and first shielding shell to overlap each other to be connected to LIGHTNING PCB boards are located the second shielding shell, with the realization better shielding effect, make signal transmission more reliable and stable.

In order to more clearly illustrate the structural features and efficacy of the present invention, the present invention 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 invention;

FIG. 2 is an assembled perspective view of another angle of the preferred embodiment of the present invention;

FIG. 3 is an exploded view of a preferred embodiment of the present invention;

FIG. 4 is an exploded view of another angle of the preferred embodiment of the present invention;

FIG. 5 is a partial assembly view of a preferred embodiment of the present invention;

FIG. 6 is a cross-sectional view of a preferred embodiment of the present invention.

The attached drawings are used for identifying and describing:

10. shell body 11, typeC socket

12. Closing surface 13, slot

20. Lighting plug 21, LIGHTNING PCB board

211. Pad 30 and typeC female seat

31. Insulation body 311 and support part

32. First shielding shell 33 and switching PCB board

34. Conductive terminal 35, shielding sheet

36. Insulating sheet 301, concave position

40. A second shielding shell.

Detailed Description

Referring to fig. 1 to 6, a specific structure of a preferred embodiment of the present invention is shown, which includes a housing body 10, a lighting plug 20, and a TypeC socket 30.

One end of the housing body 10 is provided with a TypeC socket 11, the other end of the housing body 10 is provided with a sealing surface 12, a slot 13 is formed in the sealing surface 12, and the housing body 10 is of an integrated structure.

The outer end of the Lightning plug 20 extends out of the other end of the housing body 10, the inner end of the Lightning plug 20 extends into the housing body 10, the Lightning plug 20 is a standard Lightning plug, the inner end of the Lightning plug is provided with a LIGHTNING PCB board 21, the upper surface of the Lightning PCB 21 is provided with a plurality of pads 211 which are spaced side by side, and the number of the pads 211 is five; in the present embodiment, the outer end of the Lightning plug 20 protrudes outward through the slot 13.

The TypeC female socket 30 is connected with the Lightning plug 20 in a conductive manner and is located in the TypeC socket 11; the TypeC female socket 30 includes an insulating body 31, a first shielding shell 32, a transfer PCB 33, and two rows of conductive terminals 34; the first shielding shell 32 is covered outside the insulating body 31, the adapting PCB 33 and the two rows of conductive terminals 34 are both fixed on the insulating body 31 by insert molding, the two rows of conductive terminals 34 are arranged up and down and are welded and conducted with the adapting PCB 33, and one row of conductive terminals 34 extends backwards out of the insulating body 31 and is welded and conducted with the LIGHTNING PCB board 21.

In this embodiment, a shielding sheet 35 is insert-molded and fixed inside the front end of the insulating body 31, the upper and lower surfaces of the shielding sheet 35 are covered with insulating sheets 36, the shielding sheet 35 and the insulating sheets 36 are located between two rows of conductive terminals 34, wherein the tail ends of the conductive terminals 34 located in the upper row extend backward and are welded and fixed with corresponding bonding pads 211; two sides of the rear end of the insulating body 31 extend to form a supporting part 311, each supporting part 311 is concavely provided with a concave 301, and two sides of the rear end of the LIGHTNING PCB board 21 are propped against the corresponding concave 301; and each row of conductive terminals 34 is made up of a plurality of conductive terminals 34, in this embodiment seven, with five conductive terminals 34 in the upper row extending rearwardly into solder communication with LIGHTNING PCB plates 21.

And, the Lightning plug 20 is sleeved with a second shielding shell 40, the second shielding shell 40 is located in the shell body 10, the second shielding shell 40 and the inner end of the first shielding shell 32 are sleeved and connected with each other, and the LIGHTNING PCB board 21 is located in the second shielding shell 40, so as to achieve better shielding effect and make signal transmission more stable and reliable. In this embodiment, one end of the second shielding shell 40 is tightly sleeved and fixed with the outer peripheral side surface of the Lightning plug 20, and the other end of the second shielding shell 40 is tightly sleeved and fixed with the outer peripheral side surface of the inner end of the first shielding shell 32; and, the housing body 10 encases the first shielding shell 32 and the second shielding shell 40.

The manufacturing method of the embodiment is as follows:

Firstly, forming insulating sheets 36 on the upper and lower surfaces of a shielding sheet 35, and arranging two rows of conductive terminals 34 up and down, wherein the conductive terminals 34 positioned on the upper row are welded and communicated with the upper surface of a transfer PCB 33, and the conductive terminals 34 positioned on the lower row are welded and communicated with the lower surface of the transfer PCB 33; then, the shield sheet 35 and the insulating sheet 36 molded together are placed between the front ends of the two rows of conductive terminals 34; then, the assembled transfer PCB 33, the conductive terminals 34, the shielding sheets 35 and the insulating sheets 36 are put into an injection mold together to form the insulating body 31; then, the first shielding shell 32 is covered outside the insulating body 31; next, taking the Lightning plug 20, and welding and conducting the conductive terminal 34 extending backwards with the LIGHTNING PCB board 21; then, the outer end of the Lightning plug 20 is inserted into and passed out of the rear end of the second shield shell 40, and the front end of the second shield shell 40 is tightly fitted and fixed with the outer peripheral side surface of the Lightning plug 20, and the rear end of the second shield shell 40 is tightly fitted and fixed with the outer peripheral side surface of the inner end of the first shield shell 32; finally, the housing body 10 is molded outside the second shield housing 40 and the first shield housing 32 such that the housing body 10 encases the second shield housing 40 and the first shield housing 32.

When in use, the outer end of the lighting plug 20 can be plugged with an external lighting socket, and the typeC female socket 30 can be plugged by an external typeC male plug, so that signal transmission is realized.

The design focus of the invention is that: firstly, through the embedded shaping in insulator has the switching PCB board, utilizes the switching PCB board to carry out the circuit switching with two rows of conductive terminal to the cooperation adopts standard Lightning plug, and one of them row conductive terminal can be switched on with LIGHTNING PCB board welding, thereby need not to carry out special design to Lightning plug, realizes the standardization, has effectively reduced the preparation degree of difficulty of product, and practiced thrift the cost greatly, does benefit to the competition in market. And secondly, by the aid of the second shielding shell, the inner ends of the second shielding shell and the inner ends of the first shielding shell are in sleeved connection, and the LIGHTNING PCB plates are located in the second shielding shell, so that a better shielding effect is achieved, and signal transmission is more stable and reliable.

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

Claims (7)

1. A lighting-to-TypeC adapter convenient to manufacture comprises a shell body, a lighting plug and a TypeC female seat; one end of the shell body is provided with a TypeC socket; the outer end of the Lightning plug extends out of the other end of the shell body, and the inner end of the Lightning plug extends into the shell body; the typeC female seat is connected with the Lightning plug in a conducting way and is positioned in the typeC socket; the method is characterized in that: the Lightning plug is a standard Lightning plug, and the inner end of the Lightning plug is provided with a LIGHTNING PCB board; the TypeC base comprises an insulating body, a first shielding shell, a transfer PCB and two rows of conductive terminals; the first shielding shell is coated outside the insulating body, the switching PCB and the two rows of conductive terminals are fixed on the insulating body in an embedded mode, the two rows of conductive terminals are arranged up and down and are welded and communicated with the switching PCB, and one row of conductive terminals extends out of the insulating body backwards and is welded and communicated with the LIGHTNING PCB board; the Lightning plug is sleeved with a second shielding shell, the second shielding shell is located in the shell body, the second shielding shell and the inner end of the first shielding shell are connected in a sleeved mode, and the LIGHTNING PCB board is located in the second shielding shell.

2. The lighting-to-TypeC adaptor of claim 1, wherein: one end of the second shielding shell is tightly sleeved and fixed with the outer peripheral side face of the Lightning plug, and the other end of the second shielding shell is tightly sleeved and fixed with the outer peripheral side face of the inner end of the first shielding shell.

3. The lighting-to-TypeC adaptor of claim 1, wherein: the shell body is of an integrated structure, the shell body wraps the first shielding shell and the second shielding shell, a slot hole is formed in the other end face of the shell body, and the outer end of the Lightning plug penetrates through the slot hole and extends outwards.

4. The lighting-to-TypeC adaptor of claim 1, wherein: the inside mosaic forming of front end of insulator is fixed with the shielding piece, and the upper and lower surface of this shielding piece all covers the insulating piece, and this shielding piece and insulating piece are located between two rows of conductive terminal.

5. The lighting-to-TypeC adaptor of claim 1, wherein: the upper surface of LIGHTNING PCB boards has a plurality of pads spaced side by side, wherein the tail ends of the conductive terminals in the upper row extend rearward and are soldered to the corresponding pads.

6. The lighting-to-TypeC adaptor of claim 1, wherein: the rear end both sides of insulator all extend and have a supporting part, and each supporting part is last to be concavely to be equipped with the concave position, and the rear end both sides of this LIGHTNING PCB board support on corresponding concave position.

7. The lighting-to-TypeC adaptor of claim 1, wherein: each row of conductive terminals is composed of a plurality of conductive terminals, wherein part of the conductive terminals in the upper row extend backwards to be welded and conducted with the LIGHTNING PCB board.