CN104966917A

CN104966917A - Rigid-flexible PCB overlapping and clamping structure

Info

Publication number: CN104966917A
Application number: CN201510332021.8A
Authority: CN
Inventors: 章华强; 张守闯
Original assignee: Chengdu Xike Technology Co Ltd
Current assignee: Chengdu Love Technology Co., Ltd.
Priority date: 2015-06-16
Filing date: 2015-06-16
Publication date: 2015-10-07
Anticipated expiration: 2035-06-16
Also published as: CN104966917B

Abstract

The present invention discloses a rigid-flexible PCB overlapping and clamping structure, comprising a complete machine outer frame (302) and a rigid-flexible PCB overlapping and clamping device (301) arranged therein, wherein the rigid-flexible PCB overlapping and clamping device (301) comprises a rigid PCB A (108), a rigid PCB B (109), and a flexible PCB (110), the rigid PCB A (108) is provided with an earphone interface (101) and a USB interface (105), the rigid PCB B (109) is provided with a T card slot (102) and an SIM card slot (103), the rigid PCB A (108) and the rigid PCB B (109) are connected through the flexible PCB (110), and the flexile PCB (110) is provided with a board-to-board adaptor (104), the rigid PCB A (108) is connected with a button A (106), and the rigid PCB B (109) is connected with a button B (107). The rigid-flexible PCB overlapping and clamping structure of the present invention has the advantages of simple structure, convenient assembling, and small occupation space.

Description

A kind of Rigid Flex stacking structure

Technical field

The present invention relates to moving camera structural design and manufacture field, particularly a kind of Rigid Flex stacking structure.

Background technology

The volume of current moving camera is all very little, and internal structure design space is at full stretch, if adopt tile mode, so cannot pile so many structural members in small size; If use multi-layer PCB to carry out stacking, so circuit side connector face is exactly a bottleneck, may cause mutual interference, cannot ensure electrical signal integrity.

Summary of the invention

The object of the invention is to the shortcoming overcoming prior art, the Rigid Flex stacking structure that a kind of structure is simple, easy to assembly and take up room little is provided.

Object of the present invention is achieved through the following technical solutions: a kind of Rigid Flex stacking structure, it comprises complete machine housing, described complete machine housing offers a groove, the spliced eye for splicing interface is offered in groove, described groove is covered by an interface cover plate, Rigid Flex stacking device is installed in described complete machine housing, described Rigid Flex stacking device comprises hardboard A, hardboard B and soft FPC, the one side of described hardboard A is provided with an earphone interface, another reverse side of hardboard A is provided with USB tail and inserts, described hardboard B one side is provided with T draw-in groove, the another side of hardboard B is provided with sim card slot, described hardboard A is connected by soft FPC with between hardboard B, and a plate is provided with to plate docking adapter on this soft FPC, described hardboard A is connected with a button A by soft FPC, described hardboard B is connected with a button B by soft FPC, described button A, button B, earphone interface, USB tail is inserted, T draw-in groove and sim card slot are all communicated with Pin pin corresponding on plate docking adapter with plate by soft FPC.

Described board to board connector is located at above hardboard A by soft PFC bending.

Described button A is located at below hardboard A by soft PFC bending.

The present invention has the following advantages: Rigid Flex stacking vibrational power flow of the present invention has hardboard and soft board, soft board part can bend, by the mode that hardboard and soft board combine, hardboard part is gathered into folds up and down, thus the electronic structure part such as sim card slot, T draw-in groove, earphone interface, board to board connector be arranged on hardboard can be gathered into folds, thus it is little to make this structure take up room, make moving camera miniaturized, and by electronic structure part that soft board connects, position can relative adjustment, thus makes this apparatus structure simple, easy to assembly.

Accompanying drawing explanation

Fig. 1 is Rigid Flex stacking device tiling Facad structure schematic diagram;

Fig. 2 is Rigid Flex stacking device tiling inverse layer structure schematic diagram;

Fig. 3 is Rigid Flex stacking apparatus structure schematic diagram;

Fig. 4 is complete machine structure schematic diagram of the present invention;

In figure, 101-earphone interface, 102-T draw-in groove, 103-SIM draw-in groove, 104-plate is to plate docking adapter, 105-USB tail is inserted, 106-button A, 107-button B, 108-hardboard A, 109-hardboard B, 110-soft FPC, 301-Rigid Flex stacking device, 302-complete machine housing, 303-interface cover plate, 304-groove.

Embodiment

Below in conjunction with accompanying drawing, the present invention will be further described, and protection scope of the present invention is not limited to the following stated:

As shown in Figure 4, a kind of Rigid Flex stacking structure, it comprises complete machine housing 302, described complete machine housing 302 offers a groove 304, the spliced eye for splicing interface is offered in groove 304, described groove 304 is covered by an interface cover plate 303, Rigid Flex stacking device 301 is installed in described complete machine housing 302, as Fig. 1, shown in Fig. 2 and Fig. 3, described Rigid Flex stacking device 301 comprises hardboard A108, hardboard B109 and soft FPC110, in the present embodiment, soft FPC110 is equivalent to one piece of soft board, connection line is provided with in soft board, soft FPC110 can freely fold and do not rupture nor can time its inside connection line there is short circuit, breaking phenomena, the one side of described hardboard A108 is provided with an earphone interface 101, another reverse side of hardboard A108 is provided with USB tail and inserts 105, described hardboard B109 one side is provided with T draw-in groove 102, the another side of hardboard B109 is provided with sim card slot 103, described hardboard A108 is connected by soft FPC110 with between hardboard B109, and a plate is provided with to plate docking adapter 104 on this soft FPC110, described hardboard A108 is connected with a button A106 by soft FPC110, described hardboard B109 is connected with a button B107 by soft FPC110, therefore hardboard position can be gathered into folds up and down by bending FPC110, reach the object reducing area occupied, and by hardboard, electronic structure part is installed, ensure that the stable of electronic structure part, described button A106, button B107, earphone interface 101, USB tail inserts 105, T draw-in groove 102 and sim card slot 103 are all communicated with Pin pin corresponding on plate docking adapter 104 with plate by soft FPC110.

In the present embodiment, described board to board connector 104 is located at above hardboard A108 by soft PFC110 bending, thus make board to board connector 104 convenient with structure snapping, but also solve space, described button A108 is located at below hardboard A108 by soft PFC110 bending, soft PFC110 can freely fold, thus button A108 can be arranged on complete machine housing 302 with minimum space occupancy volume.

Claims

1. a Rigid Flex stacking structure, it comprises complete machine housing (302), described complete machine housing (302) offers a groove (304), the spliced eye for splicing interface is offered in groove (304), described groove (304) is covered by an interface cover plate (303), it is characterized in that: in described complete machine housing (302), Rigid Flex stacking device (301) is installed, described Rigid Flex stacking device (301) comprises hardboard A(108), hardboard B(109) and soft FPC(110), described hardboard A(108) one side one earphone interface (101) is installed, hardboard A(108) another reverse side be provided with USB tail insert (105), described hardboard B(109) simultaneously T draw-in groove (102) is installed, hardboard B(109) another side sim card slot (103) is installed, described hardboard A(108) with hardboard B(109) between by soft FPC(110) be connected, and at this soft FPC(110) on be provided with a plate to plate docking adapter (104), described hardboard A(108) by soft FPC(110) be connected with a button A(106), described hardboard B(109) by soft FPC(110) be connected with a button B(107), described button A(106), button B(107), earphone interface (101), USB tail inserts (105), T draw-in groove (102) and sim card slot (103) are all by soft FPC(110) with plate, the upper corresponding Pin pin of plate docking adapter (104) is communicated with.

2. a kind of Rigid Flex stacking structure according to claim 1, is characterized in that: described board to board connector (104) is by soft PFC(110) bending be located at hardboard A(108) top.

3. a kind of Rigid Flex stacking structure according to claim 1, is characterized in that: described button A(108) by soft PFC(110) bending be located at hardboard A(108) below.