CN204696036U - The curved surface mounting structure of static switching pad and electronic equipment - Google Patents

Abstract

The utility model provides a kind of curved surface mounting structure of static switching pad, it installs static switching pad for the curved face part at housing, the curved face part thickness of its housing is integrally formed equably, makes described static switching pad bend along the inboard portion of described curved face part and be close to.Particularly, described static switching pad is arranged on flexible substrates.Reinforcement framework is had, to the part chamfering opposed with described curved face part of described reinforcement framework in the internal configurations of described curved face part.Outward flange along described housing forms described curved face part.Described curved face part is arranged at the framework of rotation.The curved surface mounting structure of this static switching pad is by being made up of the input equipment of capacitance-type flexible base, board, and bend along the curve form of resin enclosure, and distance peripheral conductor certain distance is installed, and guarantees electrode area thus, and improves operability.

Description

The curved surface mounting structure of static switching pad and electronic equipment

Technical field

The utility model relates to the curved surface mounting structure that a kind of curved face part at housing installs static switching pad, and on housing, have the electronic equipment based on this curved surface mounting structure.

Background technology

There will be a known and the edge of housing is set to curved surface and the electronic equipment that the touch sensor (switch) of electrostatic capacitive is set in its vicinity (disclose 2011-66065 publication for example, referring to Japanese utility model patents and Japanese utility model patents discloses 2011-82140 publication).

But because the distance between the surface portion of curved surface and internal sensor is uneven, and housing is divided in the middle part of curved surface, thus reaction sensitivity is caused to produce fluctuation.

Such as, at holding equipment body when operating with thumb or forefinger, due to the contact position of the surface portion from curved surface or contact area different, therefore can make slow in reacting or too responsive.

Utility model content

Problem of the present utility model is, for the static switching pad of curved face part being arranged on housing, guarantees its electrode area and improves operability.

For overcoming the above problems, the utility model provides a kind of curved surface mounting structure of static switching pad, it installs static switching pad for the curved face part at housing, and the curved face part thickness of described housing is integrally formed equably, makes described static switching pad bend along the inboard portion of described curved face part and be close to.

Effect of the present utility model is: the curved surface mounting structure of this static switching pad is by being made up of the input equipment of capacitance-type flexible base, board, and bend along the curve form of resin enclosure, and distance peripheral conductor certain distance is installed, guarantee electrode area thus, and improve operability.

Accompanying drawing explanation

Fig. 1 is the figure of the structure of the execution mode representing the electronic equipment that the utility model is suitable for, wherein, (a) of Fig. 1 is the stereogram of camera, and (b) of Fig. 1 is the figure representing its internal structure, and (c) of Fig. 1 is the figure of the state opened by housing.

Fig. 2 is along the cutaway view of the amplification of the arrow A-A line of Fig. 1 (a).

Fig. 3 is the view of flexible base, board, wherein, (a) of Fig. 3 is the figure of the deployed condition of the flexible base, board representing Fig. 1 (b), (b) of Fig. 3 is (c) of the figure representing installment state, Fig. 3 is the figure representing the connector insertion section watched from its opposition side.

Fig. 4 is the partial view of electronic equipment, wherein, the end enlarged drawing that (a) of Fig. 4 watches from the arrow B direction of Fig. 1 (a), (b) of Fig. 4 is that (c) of the figure representing its internal structure, Fig. 4 represents longitdinal cross-section diagram.

Fig. 5 is the stereogram of the relation represented between hinge and wire harness and flexible base, board.

Fig. 6 is the front elevation of the amplification of the roughly right-hand part of Fig. 1 (b).

Embodiment

Below, with reference to accompanying drawing, enforcement execution mode of the present utility model is described in detail.

(main points)

By being made up of the input equipment of capacitance-type flexible base, board, and bend along the curve form of resin enclosure, and distance peripheral conductor certain distance is installed, and guarantees electrode area thus, and improves operability.

(execution mode)

Fig. 1 is the camera of the structure represented as the execution mode being applicable to electronic equipment of the present utility model, and 1 be lens area, 2 is viewing areas, 3 be that to hold district, 4 are camera lenses, 5 are display parts, 6 are input equipments, 7 are the 1st hinges, 8 is the 2nd hinges.

As shown in the figure, the housing of camera is divided into lens area 1, viewing area 2 and holds these three districts of district 3.

And the viewing area 2 that one side has display part 5 is connected with the lens area 1 possessing camera lens 4 in central authorities by the 1st hinge 7, and can rotate centered by this hinge axis.

In addition, be formed as surrounding lens area 1 and be connected with lens area 1 by the 2nd hinge 8 with the holding district 3 of the framework of viewing area 2 shape, and can rotate centered by the 2nd hinge axis vertical with the hinge axis of the 1st hinge 7.

And district 3 is provided with input equipment 6 in holding.

Fig. 2 is the sectional view of the input equipment 6 of the arrow A-A line represented along Fig. 1 (a), being arranged on the input equipment 6 holding inside, district 3 is that multiple (example of Fig. 1 is 4) static switching pad 6b (with reference to Fig. 1) is arranged in flexible base, board (hereinafter referred to as FPC).

The FPC 6a of this input equipment 6 is held the inner surface configuration in the roughly arc-shaped surface portion of the outside resin enclosure 3a in district 3 along formation, paste with two-sided tape 9.

Here, as shown in the figure, the roughly arc-shaped surface portion of outside resin enclosure 3a is integrally formed with uniform thickness.

Above input equipment 6 is capacitance-type, when its periphery and neighbouring there is metal time can not correctly work, therefore its distance metal certain distance is installed.

That is, metal reinforcement framework 31 is provided with along with the inner surface holding the inner side resin enclosure 3b that the outside resin enclosure 3a phase in district 3 is assembled.This reinforcement framework 31 is roughly quadrangular section, and chamfering 31a is carried out in two opposed for the roughly arc-shaped surface portion of resin enclosure 3a outside this angle parts.Utilize this chamfering 31a, make the static switching pad 6b of FPC 6a roughly even to guarantee correctly action apart from the distance of metal reinforcement framework 31.

The outer surface of the outside resin enclosure 3a holding district 3 is provided with the mark corresponding with the position of the static switching pad 6b being installed on inner input equipment 6 or symbol etc.

(a) of Fig. 3 represents the deployed condition of the FPC 6a of the input equipment 6 of (b) of Fig. 1, and (b) of Fig. 3 represents installment state, and (c) of Fig. 3 represents the connector insertion section watched from its opposition side.

That is, as shown in Fig. 3 (a), the FPC 6a of flat form, as shown in Fig. 3 (b), the roughly arc-shaped surface portion in the mounted state along the outside resin enclosure 3a inner surface holding district 3 bends.

As shown in Fig. 3 (c), be provided with the connector insertion section 6c in the roughly arc-shaped surface portion that is positioned in an end of FPC 6a.

Finger (static capacity change) whether is had in the surperficial certain distance of the static switching pad 6b on the input equipment 6 detecting distance FPC 6a of above capacitance-type, and to host computer side output switching signal.

Particularly, this signal with the static switching pad 6b slide pointed along multiple arrangement or click, is outputted to the main substrate 23 (with reference to Fig. 6) in viewing area 2 thus by the FPC 6a of input equipment 6 in the curved face part of outside resin enclosure 3a being attached at inner peripheral surface.

Such as, by carrying out slide with finger along static switching pad 6b, the image menu of display part 5 can be sent, and determined by click.

In addition, by carrying out slide with finger along static switching pad 6b, the zoom etc. of camera lens 4 can be carried out.

The enlarged drawing of the end that (a) of Fig. 4 watches from the arrow B direction of Fig. 1 (a), (b) of Fig. 4 represents its internal structure, (c) of Fig. 4 represents longitudinal cross-section, and 35 represent the FPC held in district 3, and 36 represent the connector held in district 3.

Fig. 5 represents the relation between the 1st hinge 7 and the 2nd hinge 8 and wire harness 13 and FPC25/35, and 11 represent the framework in lens areas 1, and 12 represent the support in lens areas 1, and 13 represent wire harness, and 22 represent the support in viewing areas 2, and 25 represent the FPC in viewing areas 2.

Fig. 6 is the enlarged drawing of the front elevation of the roughly right-hand part of Fig. 1 (b), and 23 represent the main substrate in viewing area 2, and 24 represent the connector being installed on this main substrate 23.

As shown in Figure 5, lens area 1 is provided with framework 11, its central authorities at this framework 11, via the 1st hinge 7, are connected with the support 22 in viewing area 2, and being connected with the 2nd hinge 8 up and down at framework 11.

The end side of wire harness 13 through in the hollow bulb of the 1st hinge 7 and support 22 outstanding to the inside of viewing area 2.The fine rule coaxial cable extended from an end of this side, viewing area 2 and FPC 25 soldering.

As shown in Figure 6, this FPC 25, by inserting the connector 24 on main substrate 23, makes input equipment 6 be electrically connected with main substrate 23.

In addition, another side of wire harness 13 is through in the support 12 of a side and the quill shaft of the 2nd hinge 8, and the end inwardly projecting to framework region 3 goes out.Coaxial and the FPC35 soldering of the fine rule extended from the other end of this framework region 3 side.

At this FPC35, connector 36 is installed.

As shown in (b) and (c) of Fig. 4, be inserted with the connector insertion section 6c in the roughly arc-shaped surface portion of an end of the FPC 6a being positioned at input equipment 6 at this connector 36.

Then, the effect obtained by the input equipment 6 of said structure is enumerated.

1), because input equipment 6 is for having the FPC 6a of static switching pad 6b, when therefore input equipment 6 is installed, it can be made to match with the shape in the roughly arc-shaped surface portion of the outside resin enclosure 3a in holding district 3.

2) because input equipment 6 is installed in the roughly arc-shaped surface portion along outside resin enclosure 3a, the area of input range can not therefore be reduced.

3) due to the display part 5 of viewing area 2 can not be contacted, and go the outer surface contacting holding district 3 to operate input equipment 6, therefore can alleviate pressure during photography.

4) be arranged on the medial surface in the roughly arc-shaped surface portion of outside resin enclosure 3a due to input equipment 6, thus can not outward appearance be damaged.

5) as described in execution mode, input equipment 6 not only can be set to multiple static switching pad 6b continuous variable ground slide, also can to multiple static switching pad 6b distribution function respectively, and, multiple static switching pad 6b not only can arrange in rectilinear direction, also can in the wider purposes of the various variable mode of XY direction arrangement etc.

6) other mechanical switch etc. also can be made to be formed as above-mentioned FPC 6a, thus can more complicated input be carried out.

7) configure owing to making the FPC 6a with multiple static switching pad 6b leave metal reinforcement framework 31 certain distance at the back side, therefore can make input equipment 6 resist because of human body or product ground connection cause strong to the ability of the external disturbance that electrostatic capacitance causes.

Above, district 3 is being held and is possessing the camera of static switching pad 6b according to the curved surface mounting structure of execution mode, make the roughly arc-shaped surface portion thickness of the outside resin enclosure 3a in holding district 3 integrally formed equably like this, and the static switching pad 6b installation portion of FPC 6a is close to case of bending along the inboard portion in the roughly arc-shaped surface portion of resin enclosure 3a outside this.

Therefore, static switching pad 6b installs along the roughly arc-shaped surface portion of the outside resin enclosure 3a holding district 3, and when guaranteeing the electrode area of this static switching pad 6b, can improve operability.

(variation)

In the above embodiment, camera can be not only the camera limited in the utility model, also can be other electronic equipments such as the mobile phone being equipped with camera.

In addition, in embodiments, it is the structure of the housing by 2 pivot hinges rotations, but also can be the structure of the housing by 1 pivot hinge rotation, or also can be the housing not having hinge.

In addition, suitable change can certainly be done for the structure on concrete details.

Above, although the description of several execution mode of the present utility model, but scope of the present utility model is not limited to above-mentioned execution mode, also comprises and the uniform scope of utility model scope described in the scope of claim.

The priority of the specification of the application JP2014-146388 Japanese invention patent application by reference, and the full content of this priority application is imported to the application.

Claims (6)

1. a curved surface mounting structure for static switching pad, it installs static switching pad for the curved face part at housing, it is characterized in that,

The curved face part thickness of described housing is integrally formed equably,

Described static switching pad is made to bend along the inboard portion of described curved face part and be close to.

2. the curved surface mounting structure of static switching pad according to claim 1, is characterized in that,

Described static switching pad is arranged on flexible substrates.

3. the curved surface mounting structure of static switching pad according to claim 1, is characterized in that,

Reinforcement framework is had in the internal configurations of described curved face part,

To the part chamfering opposed with described curved face part of described reinforcement framework.

4. the curved surface mounting structure of static switching pad according to claim 1, is characterized in that,

Outward flange along described housing forms described curved face part.

5. the curved surface mounting structure of static switching pad according to claim 4, is characterized in that,

Described curved face part is arranged at the framework of rotation.

6. an electronic equipment, is characterized in that,

Housing has as claimed in claim 1 based on the static switching pad of curved surface mounting structure.