CN204289765U - Connector - Google Patents

Abstract

The utility model provides a kind of connector, and first circuit board and second circuit board can easily be electrically connected by this connector individually.This connector comprises: elastomer; Conductive layer, this conductive layer is configured to surround elastomeric periphery; And adhesive or adhesive, this adhesive or adhesive are configured to conductive layer to be attached to elastomer, and wherein, conductive layer comprises basement membrane and multiple conductive pattern, and described multiple conductive pattern is formed on basement membrane at predetermined intervals.

Description

Connector

Technical field

The disclosure relates to a kind of connector.

Background technology

Usually, in order to electrical connection circuit plate, use connector and cable.Such as, in the related, by using cable to connect the first connector being connected to first circuit board and the second connector being connected to second circuit board, thus by first circuit board and second circuit board electrical connection.

Utility model content

In order to realize the advantage of these and other and according to the object of this specification, as specialized at this and describing widely, a kind of connector can comprise: elastomer; Conductive layer, this conductive layer is configured to surround elastomeric periphery; And adhesive or adhesive, this adhesive or adhesive are configured to conductive layer to be attached to elastomer, and wherein, conductive layer comprises non-conductive film and multiple conductive pattern, and described multiple conductive pattern is formed on non-conductive film at predetermined intervals.

In order to realize the advantage of these and other and according to the object of this specification, as specialized at this and describing widely, a kind of connector, this connector, by first circuit board and second circuit board electrical connection, can comprise: non-conductive elastomer; And conductive layer, this conductive layer is configured to the periphery surrounding non-conductive elastomer, wherein, conductive layer comprises non-conductive film and multiple conductive pattern, described multiple conductive pattern is formed on non-conductive film at predetermined intervals, and among multiple conductive pattern, the first conductive pattern be positioned on the first surface of non-conductive elastomer is fixedly joined to the conductive pattern of first circuit board, and among multiple conductive pattern, the second conductive pattern be positioned on the second surface of non-conductive elastomer is fixedly joined to the conductive pattern of second circuit board.

In an exemplary embodiment of the disclosure, non-conductive elastomer can have smooth upper surface and smooth lower surface.

In an exemplary embodiment of the disclosure, non-conductive film can be any one among PETG (PET) film, polyethylene (PE) film, polypropylene (PP) film, ethylene vinyl acetate (EVA) film, polyvinyl chloride (PVC) film, polyimides (PI) film, polyvinylidene chloride (PVDC) film, polyurethane film, Merlon (PC) film and acrylic resin film.

In an exemplary embodiment of the disclosure, the spacing between conductive pattern can in the scope from 0.05mm to 5mm, and preferably, in the scope from 0.1mm to 0.2mm.

In an exemplary embodiment of the disclosure, the scope of the width of each in multiple conductive pattern can from 0.05mm to 5mm, and preferably, from 0.05mm to 0.1mm.

In an exemplary embodiment of the disclosure, the height of connector can be greater than the height of the height of the electronic unit of first circuit board and the electronic unit of second circuit board.

From the detailed description hereinafter provided, the more wide region of the practicality of the application will become more apparent.But, it should be understood that when indicating preferred embodiment of the present utility model, providing detailed description and instantiation by means of only illustrating, this is because to one skilled in the art, the various change in spirit and scope of the present disclosure and modification will become apparent.

Accompanying drawing explanation

Be included to provide further understanding of the present utility model and involvedly in specification, form the accompanying drawing of the part of this specification, illustrating exemplary embodiment, and accompanying drawing to be used from together with description one and to explain principle of the present utility model.

In the accompanying drawings:

Fig. 1 is the view of diagram according to the connector of exemplary embodiment of the present disclosure.

Fig. 2 is the cross-sectional view of the line A-A ' intercepting along Fig. 1.

Fig. 3 to Fig. 5 is the view of diagram for the manufacture of the method for the connector according to exemplary embodiment of the present utility model.

Fig. 6 A and Fig. 6 B is that diagram is for the view by using the single connector manufactured according to exemplary embodiment of the present disclosure to be electrically connected the method for first circuit board and second circuit board.And

Fig. 7 A and Fig. 7 B is the view of diagram for the manufacture of the method for the connector according to another exemplary embodiment of the present disclosure.

Embodiment

The utility model can be implemented in many different forms and can have various embodiment, will illustrate the specific embodiment of described various embodiment in the accompanying drawings and will describe this specific embodiment in detail.But, be understood that, exemplary description below of the present utility model is not mean the utility model to be limited to particular form of the present utility model, but the utility model means that covering is included in all modification, the analog in spirit and scope of the present utility model and substitutes.Term is only for describing specific embodiment as used herein, and is not intended to limit the utility model.Unless otherwise defined, otherwise all terms have the identical meaning usually understood with the those of ordinary skill in the art belonging to the utility model as used herein, and all terms should not be interpreted as having the too wide meaning or have the too narrow meaning.If technical term is the wrong term correctly can not expressing spirit of the present utility model as used herein, then they should be allowed to the technical term replacement of those skilled in the art's correct understanding.General term should be explained according to the definition in dictionary or context as used herein, and should not be interpreted as the too narrow meaning.

As used in this, singulative " " and " this " are intended to also comprise plural form, clearly specify unless otherwise context.What be further understood that is, when term as used herein " comprise ", " contain ", " comprising " and/or " comprising ", specify exist be stated feature, integer, step, operation, element and/or parts, but do not get rid of one or more other feature, step, operation, element, parts and/or its combination or interpolation.

Although will be understood that term first, second etc. can be used to describe various element at this, should not limit these elements by these terms.These terms are only used to differentiation element and another element.Such as, the first element can be named as the second element, and similarly, when not departing from scope of the present utility model, the second element can be named as the first element.

Will describe embodiment of the present utility model with reference to accompanying drawing now, wherein throughout accompanying drawing, identical Reference numeral refers to identical element.

In description the utility model, if be considered to unnecessarily shift main idea of the present utility model for the detailed explanation of relevant known function or structure, then omit such explanation, but those skilled in the art will appreciate that this explanation.Accompanying drawing of the present utility model is intended to be convenient to understand the utility model, and should not be interpreted as the restriction being subject to accompanying drawing.

Hereinafter, connector and manufacture method thereof will be described in detail referring to figs. 1 to Fig. 7 B, this connector individually, the first circuit (printed circuit board (PCB) (PCB)) and second circuit board (PCB) can be electrically connected when not using cable.Such as, in the prior art, by using cable to connect by connecting the first connector being connected to first circuit board and the second connector being connected to second circuit board and the first circuit board that is electrically connected and second circuit board.On the contrary, first circuit board and second circuit board can be easily electrically connected when not using such cable according to the connector of exemplary embodiment of the present disclosure.

Fig. 1 is the view of diagram according to the connector of exemplary embodiment of the present disclosure.

Illustrated in FIG, connector 100 comprises: elastomer (non-conductive elastomer) 110; With conductive layer 120 and 130, this conductive layer 120 surrounds the periphery (outer surface corresponding with this periphery) of elastomer 110 with 130.

Multiple conductive patterns (such as, many signal line) 130 that conductive layer 120 and 130 comprises basement membrane (non-conductive film) 120 and is formed on basement membrane 120.

Among multiple conductive pattern 130, be positioned at the first surface of elastomer 110 (such as, the upper surface of elastomer 110) on conductive pattern and the first conductive pattern (many signal line) electrical contact of first circuit board, and among multiple conductive pattern 130, be positioned at the second conductive pattern (many signal line) electrical contact of conductive pattern on the second surface (such as, the lower surface of elastomer 110) of elastomer 110 and second circuit board.

Elastomer 110 can have rectangular shape, square shape, round-shaped etc., and its upper surface and lower surface can be used to be the elastomers 110 of the various structures of plane.

As elastomer 110, any one in synthetic elastomer, natural elasticity body, silicone elastomer and fluorinated elastomer can be used.

Elastomer 110 can be formed by sponge.Such as, elastomer can be formed by any one material in polyurethane (PU) base sponge, acrylic acid sponge, chloroprene rubber (CR) base sponge, Ethylene Propylene Terpolymer M level rubber (EPDM) sponge etc.But the material of elastomer 110 is unrestricted.That is, any material can be used to form elastomer 110, as long as this material has damping characteristics and elasticity.Elastomer 110 can have with porous expanded form.

As elastomer 110, homogenous material base sponge can be used, such as silicones, fluoride resin etc., or use by by polyurethane, acrylic acid sponge and EPDM sponge being immersed in the heat-resisting sponge that the composite material that applies in silicon or fluoride resin is formed.

The size of elastomer 110 can not be limited, and the height of elastomer 110 can be greater than the height of the height of the electric of first circuit board and/or electronic unit and the electric of second circuit board and/or electronic unit, the electric and/or electronic unit of the electric of first circuit board and/or electronic unit and second circuit board is not contacted with each other.

Conductive layer 120 and 130 surrounds the portion perimeter surface of elastomer (such as, sponge) 110.Such as, conductive layer 120 and 130 can surround the periphery of elastomer (such as, sponge) 110, and alongst two of elastomer (such as, sponge) 110 end surfaces are exposed.

Adhesive (or adhesive layer) or adhesive (adhesive agent layer) can be formed between elastomer 110 and basement membrane 120, so that conductive layer 120 and 130 is fastened to elastomer (such as, sponge) 110.

After elastomer 110 and basement membrane 120 combine by adhesive (after being fully cured), when adhesive is released, the bonding strength of adhesive disappears.Adhesive can be hotmelt or liquid resin adhesive.Have and equal or can adhesive be used as higher than the hotmelt of the fusing point of predetermined temperature so that strengthen thermal resistance.Curable adhesive such as silicones, fluoride resin etc. can be used as liquid resin adhesive.

Hotmelt can be formed by any one among ethylene vinyl acetate, polyisobutene, polyamide, polyethylene terephthalate, polypropylene, polyester, polyimides and polyethylene.

When adhesive, after elastomer 110 and basement membrane 120 stick together by adhesive, adhesive can be released and be reused for adhesion.As the resin of adhesive, acryl, silicon, PU, fluoride resin etc. can be used.As adhesive, use polyethylene terephthalate (PET) film, polyimide film, aluminium foil, Copper Foil, paper etc. can be used as the adhesive (double-sided pressure-sensitive adhesive tape) of the dual coating of substrate.

Basement membrane 120 can be any one in the middle of PETG (PET) film, polyethylene (PE) film, polypropylene (PP) film, ethylene vinyl acetate (EVA) film, polyvinyl chloride (PVC) film, polyimides (PI) film, polyvinylidene chloride (PVDC) film, polyurethane film, Merlon (PC) film and acrylic resin film.

Multiple conductive pattern 130 (such as, many signal line 130) can be formed by the metal of one or more types selected in the middle of copper, tin, silver, gold and aluminium.By printing process or etching process, multiple conductive pattern 130 can be formed on basement membrane 120.

Spacing 130A between conductive pattern 130 can in the scope from 0.05mm to 5mm, and preferably, in the scope from 0.1mm to 0.2mm, but the disclosure is not limited thereto.The width 130B of each in multiple conductive pattern 130 can in the scope from 0.05mm to 5mm, and preferably, in the scope from 0.05mm to 0.1mm, but the disclosure is not limited thereto.

Fig. 2 is the cross-sectional view of the line A-A ' intercepting along Fig. 1.

Illustrated in fig. 2, among multiple conductive pattern 130, be positioned at the first surface of elastomer 110 (such as, the upper surface of elastomer 110) on conductive pattern 130-1 be attached regularly (connection) with first conductive pattern (many signal line) of first circuit board, and among multiple conductive pattern, be positioned at the second conductive pattern electrical contact of conductive pattern 130-2 on the second surface (such as, the lower surface of elastomer 110) of elastomer 110 and second circuit board.

Fig. 3 to Fig. 5 is the view of diagram for the manufacture of the method for the connector according to exemplary embodiment of the present disclosure.

As illustrated in Figure 3, by forming the multiple conductive patterns 130 arranged continuously at predetermined intervals on basement membrane 120, the conductive layer 120 and 130 according to exemplary embodiment of the present disclosure can be manufactured.

Such as, apply to comprise metal (such as along the pattern (such as, conductive pattern) preset on basement membrane (such as, resin sheet) 120 by using printing process, tin, copper, aluminium etc.) solution, conductive layer 120 and 130 can be manufactured.Alternatively, also can by conjunction with insulating trip (such as, basement membrane) and conducting strip (such as, metallic plate) and with after etching conducting strip with make multiple conductive pattern retain manufacture conductive layer 120 and 130.That is, by also making the conducting strip of combination form pattern subsequently in conjunction with basement membrane 120 and conducting strip, multiple conductive layer 130 can be formed.

As illustrated in Figure 4, surrounded the periphery of elastomer 110 by manufactured conductive layer 120 and 130, multiple conductive patterns 130 of manufactured conductive layer 120 and 130 are exposed.By using adhesive and adhesive, manufactured conductive layer 120 and 130 can be fixedly attached to elastomer 110.

As illustrated in Figure 5, the elastomer 110 surrounded by conductive layer 120 and 130 is cut into default size, thus completes connector 100.

Fig. 6 A and Fig. 6 B is that diagram is for the view by using the single connector manufactured according to exemplary embodiment of the present disclosure to be electrically connected the method for first circuit board and second circuit board.

Illustrated in fig. 6, by welding process or electroconductive binder etc., connector 100 is fixedly attached to the conductive pattern of first circuit board 200.

Illustrated in fig. 6b, by making to be attached to the connector 100 of first circuit board 200 and conductive pattern 310 electrical contact of second circuit board 300, first circuit board 200 and second circuit board 300 can be electrically connected.The conductive pattern of first circuit board 200 is the conductive patterns being formed to allow first circuit board 200 and second circuit board 300 to be electrically connected.The conductive pattern 310 of second circuit board 300 is the conductive patterns being formed to allow first circuit board 200 and second circuit board 300 to be electrically connected.

Can be fixed in position by multiple projections 410 second circuit board 300 be formed on housing (not shown).Multiple projection 410 is given prominence to predetermined height by penetrating second circuit board 300.Through hole 210 is formed on the position corresponding with projection 410 of first circuit board 200.Through hole 210 can have the diameter not allowing projection 410 to pass through.By the height from the outstanding projection 410 of second circuit board 300, the distance between first circuit board 200 and second circuit board 300 is maintained.Distance between first circuit board 200 and second circuit board 300 can be set to following distance, and suitably compression connector 100 makes conductive pattern 130 flexibly contact with conductive pattern 310 over this distance.

Can fastening projection 410 by the screw 6-1 that will describe hereinafter, but alternatively, when not using screw 601, distance maintains component and can be configured to maintain the distance between first circuit board 200 and second circuit board 300.

And distance maintains component and can be configured to be fixed to first circuit board 200 or second circuit board 300.

After the connector 100 being attached to first circuit board 200 with conductive pattern 310 electrical contact being electrically contacted second circuit board 300, by using screw 6-1 etc., first circuit board 200 and second circuit board 300 can be secured to projection 410, thus the conductive pattern 310 of the connector 100 and second circuit board 300 that are attached to first circuit board 200 can flexibly be maintained to be electrical contact with each other.

Fig. 7 A and Fig. 7 B is the view of diagram for the manufacture of the method for the connector according to another exemplary embodiment of the present disclosure.

Illustrated in fig. 7, multiple conductive pattern 130 is not formed on two edges 121 (coupling part) place of basement membrane 120, and overlapping in any one side in four sides of elastomer 110, two edges 121.Such as, when the outer periderm conductive layer 120 and 130 of elastomer 110 surround multiple conductive pattern 130 is exposed time, overlapping in two edges 121 any one lateral surfaces in two lateral surfaces of elastomer 110.That is, multiple conductive pattern 130 be not formed on basement membrane 120 all sides among the side corresponding with any one lateral surfaces described in elastomer 110 on.

Adhesive or adhesive can be formed on two edges 121.Such as, when two edge 121 overlaps are to be fixed on by adhesive or adhesive in any one lateral surfaces in two lateral surfaces of elastomer 110, two ends of basement membrane 120 are connected regularly.

Illustrated in figure 7b, be cut into default size by having two ends by the elastomer 110 that the basement membrane 120 of the structure 121a connected regularly covers, thus complete the manufacture of connector 100.

As mentioned above, according in the connector of exemplary embodiment of the present disclosure and manufacture method thereof, can easily be electrically connected first circuit board and second circuit board by only using the single connector not using cable or the multiple connectors being normally used for being electrically connected first circuit board (PCB) and second circuit board (PCB).

Previous embodiment and advantage are only exemplary, and are not regarded as restriction of the present disclosure.This instruction can be easily applied to the device of other type.This description is intended to be illustrative, and does not limit the scope of claim.Manyly to substitute, modification and variant will be obvious for a person skilled in the art.The feature of exemplary embodiment described here, structure, method and other characteristic can be combined in every way, with that obtain other and/or alternative exemplary embodiment.

When eigen can be realized in a variety of forms when not departing from characteristic of the present utility model, also be understood that, above-described embodiment is not by the restriction of previously described any details, unless otherwise prescribed, otherwise be widely interpreted in the scope that should limit in the appended claims, and therefore, be intended to contain all changes in the equivalent of scope and boundary or this scope and the boundary falling into claim and modification by appended claim.

Claims (13)

1. a connector, is characterized in that comprising:

Elastomer;

Conductive layer, described conductive layer is configured to surround described elastomeric periphery; And

Adhesive or adhesive, described adhesive or adhesive are configured to described conductive layer to be attached to described elastomer,

Wherein, described conductive layer comprises non-conductive film and multiple conductive pattern, and described multiple conductive pattern is formed on described non-conductive film at predetermined intervals.

2. connector according to claim 1, is characterized in that, the spacing between described conductive pattern is in the scope from 0.05mm to 5mm.

3. connector according to claim 1, is characterized in that, the width of each in described multiple conductive pattern is in the scope from 0.05mm to 5mm.

4. a connector, described connector is by first circuit board and second circuit board electrical connection, and the feature of described connector is to comprise:

Non-conductive elastomer; With

Conductive layer, described conductive layer is arranged to surround the periphery of described non-conductive elastomer,

Wherein, described conductive layer comprises non-conductive film and multiple conductive pattern, and described multiple conductive pattern is formed on described non-conductive film at predetermined intervals, and

Among described multiple conductive pattern, the first conductive pattern be positioned on the first surface of described non-conductive elastomer is fixedly joined to the conductive pattern of described first circuit board, and among described multiple conductive pattern, the second conductive pattern be positioned on the second surface of described non-conductive elastomer is fixedly joined to the conductive pattern of described second circuit board.

5. connector according to claim 4, is characterized in that, described non-conductive elastomer has smooth upper surface and smooth lower surface.

6. connector according to claim 4, it is characterized in that, described non-conductive film is any one among PETG (PET) film, polyethylene (PE) film, polypropylene (PP) film, ethylene vinyl acetate (EVA) film, polyvinyl chloride (PVC) film, polyimides (PI) film, polyvinylidene chloride (PVDC) film, polyurethane film, Merlon (PC) film and acrylic resin film.

7. connector according to claim 4, is characterized in that comprising further:

Adhesive or adhesive, described conductive layer is attached to described non-conductive elastomer by described adhesive or adhesive.

8. connector according to claim 4, is characterized in that, the spacing between described conductive pattern is in the scope from 0.05mm to 5mm.

9. connector according to claim 4, is characterized in that, the width of each in described multiple conductive pattern is in the scope from 0.05mm to 5mm.

10. connector according to claim 4, is characterized in that, the height of the height of the electronic unit of first circuit board described in the aspect ratio of described connector and the electronic unit of described second circuit board is high.

11. connectors according to claim 4, is characterized in that, described multiple conductive pattern is only formed on the described non-conductive film on three sides among four sides being positioned at described non-conductive elastomer.

12. connectors according to claim 11, is characterized in that, described multiple conductive pattern is not formed on two edges of described non-conductive film, and

On a side in four sides of described non-conductive elastomer except described three sides, described two edges are connected to each other regularly.

13. connectors according to claim 12, is characterized in that, described two edges of described non-conductive film are connected to each other on a described side of described non-conductive elastomer regularly by adhesive or adhesive.