CN203219602U - Connection structure for rigid substrate and flexible substrate - Google Patents
Connection structure for rigid substrate and flexible substrate Download PDFInfo
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- CN203219602U CN203219602U CN 201320111574 CN201320111574U CN203219602U CN 203219602 U CN203219602 U CN 203219602U CN 201320111574 CN201320111574 CN 201320111574 CN 201320111574 U CN201320111574 U CN 201320111574U CN 203219602 U CN203219602 U CN 203219602U
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Abstract
The utility model relates to a connection structure for a rigid substrate and a flexible substrate, which is simple in connection procedure, and can prevent connection parts from stripping off. The connection structure is characterized by comprising through holes (54a), through holes (1103a) and an attachment (12), wherein the through holes (54a) are respectively formed in multiple connection parts (54) of the rigid substrate (5); the through holes (1103a) are correspondingly formed in multiple connection parts (1103) of a flexible printed circuit (FPC); and the attachment (12) includes cylindrical parts (1202) inserted into the through holes (54a, 1103a) and plate-shaped parts (1201), and the cylindrical parts (1202) are respectively formed on one surface of the plate-shaped portions (1201), so that when the connection parts (54) abut against the connection parts (1103), the cylindrical parts (1202) penetrate into the through holes (54a, 1103a), front ends of the cylindrical parts (1202) are riveted on the rigid substrate (5).
Description
Technical field
The utility model relates to the structure that is connected of rigid substrates such as printed circuit board and flexible base, board, for example relates to the structure that is connected of the rigid substrates that disposes in electronic equipments such as mancarried telephone device and flexible base, board.
Background technology
In the past, proposition has following structure: first connect in the pattern connecting hole is set what the upper surface of the soldering splicing ear of flexible base, board formed, so that this first corresponding mode in top that connects the second connection pattern on pattern and the rigid substrates disposes flexible base, board, and connect pattern via above-mentioned connecting hole with first and be connected pattern with second and carry out the soldering connection, thus, rigid substrates is connected (for example, with reference to patent documentation 1) with flexible base, board.Connect structure according to this, the operator can first, second connects pattern from a direction Visual Confirmation, so can confirm the contraposition of rigid substrates and flexible base, board, the brazing state of soldering connecting portion easily.
Patent documentation 1: Japanese kokai publication hei 10-173335 communique, Fig. 1
Yet, in being connected in the structure of above-mentioned rigid substrates and flexible base, board, need so that first on the flexible base, board connects second on pattern and the rigid substrates connects the corresponding mode of pattern flexible base, board is carried out contraposition, so exist the loaded down with trivial details problem of operation till both connections.And, the bonding strength of rigid substrates and flexible base, board depends on the brazing state that disposes via connecting hole, so if as keep flexible base, board and situation that rigid substrates is mentioned apply excessive load, then have the soldering of connecting portion office, the problem that the connection pattern is peeled off.
The utility model content
The utility model is finished in view of this problem, and its purpose is to provide a kind of operation that connects simply also can prevent the coupling part disengaging and make the rigid substrates of the situation that connects disconnection and the structure that is connected of flexible base, board.
The structure that is connected of rigid substrates of the present utility model and flexible base, board is the connection structure that rigid substrates is connected with flexible base, board, and this rigid substrates is provided with a plurality of first connecting portions with a plurality of conductive pattern conductings; The lead pattern that this flexible base, board is provided with a plurality of second connecting portions corresponding with above-mentioned first connecting portion and extends from this second connecting portion is characterized in that, this connection structure has: first through hole forms respectively in a plurality of above-mentioned first connecting portions independently; Second through hole is formed in a plurality of above-mentioned second connecting portions accordingly with above-mentioned first through hole; And attachment, constituted by metal material, have for inserting the tube portion of leading to above-mentioned first, second through hole and the plate-like portion that is formed with this one at a face; Under the state that makes above-mentioned first connecting portion and the above-mentioned second connecting portion butt, above-mentioned tube portion inserts from the above-mentioned second through hole side leads to above-mentioned second through hole and above-mentioned first through hole, and the front end of above-mentioned tube portion is riveted on the above-mentioned rigid substrates.
According to the be connected structure of above-mentioned rigid substrates with flexible base, board, be riveted on the rigid substrates by inserting the tube portion that is constituted by metal material of leading in first, second through hole respectively, and rigid substrates is connected with flexible base, board, so can make bonding strength firm, even under the situation that has applied excessive loads, also can prevent the situation that separate the coupling part.And, only that slotting first connecting portion that just can make rigid substrates in first, second through hole that leads to of the tube portion of attachment is mutually opposed in the reliable mode that contacts with second connecting portion of flexible base, board, so can carry out flexible base, board easily with respect to the operations such as contraposition of rigid substrates, can simplify the operation till finishing of being connected of rigid substrates and flexible base, board.As a result, it is simple to connect operation, and can prevent the coupling part to break away from and make and connect the situation that disconnects.
Particularly, in being connected in the structure of above-mentioned rigid substrates and flexible base, board, be preferably, above-mentioned attachment have the press section in the part of above-mentioned plate-like portion, press the part of the direction side that the above-mentioned lead pattern of being positioned at of above-mentioned flexible base, board begins to extend from above-mentioned second connecting portion by above-mentioned press section.In this case, can be separating from rigid substrates away from the position restriction flexible base, board of inserting the tube portion in first, second through hole of leading to, so can improve the reliability of the connection of coupling part.
And, in being connected in the structure of above-mentioned rigid substrates and flexible base, board, being preferably, this connections is constructed to be possessed and the integrated housing of above-mentioned rigid substrates, is provided with the protection board that is positioned on the above-mentioned plate-like portion in the part of above-mentioned housing.In this case; the protection board that constitutes the part of housing is configured on the plate-like portion of attachment; so avoid impact from the outside etc. in the coupling part that can protect first connecting portion and second connecting portion; therefore; can keep the conducting state of first connecting portion and second connecting portion, can provide the high substrate of reliability to connect structure.
In addition, in being connected in the structure of above-mentioned rigid substrates and flexible base, board, be preferably, above-mentioned first connecting portion becomes the stacked membrane structure of carbon pattern on silver-colored pattern, and is provided with the part of exposing above-mentioned silver-colored pattern around above-mentioned first through hole.Expose silver-colored pattern in the part of first connecting portion that is connected with second connecting portion of flexible base, board like this, so can reduce in first connecting portion and conducting resistance second connecting portion, therefore, can improve contact stabilization between first connecting portion and second connecting portion.
For example, in being connected in the structure of above-mentioned rigid substrates and flexible base, board, be preferably, above-mentioned first connecting portion exposes above-mentioned silver-colored pattern in the part that is positioned at than the forward end side of assigned position of above-mentioned first through hole.In this case, be limited to than the forward end side of the assigned position of first through hole and expose silver-colored pattern, so it is mobile at rigid substrates to limit the metal ingredient (silver) that constitutes silver-colored pattern, therefore, in first connecting portion and conducting resistance second connecting portion can be reduced, and the generation of the short circuit that caused by the migration between the adjacent silver-colored pattern can be suppressed.
And, in being connected in the structure of above-mentioned rigid substrates and flexible base, board, be preferably, above-mentioned first connecting portion exposes above-mentioned silver-colored pattern in the part that is positioned at than the forward end side of assigned position of above-mentioned first through hole, and the part that is positioned at the adjacent above-mentioned first connecting portion side at least is by above-mentioned carbon pattern covers.In this case, be limited to than the forward end side of the assigned position of first through hole and expose silver-colored pattern, and be positioned at the part of the first adjacent connecting portion side by the carbon pattern covers, so it is mobile at rigid substrates to prevent from constituting the metal ingredient (silver) of silver-colored pattern, therefore, can prevent the generation of the short circuit that caused by the migration between the silver-colored pattern reliably.
In addition, in being connected in the structure of above-mentioned rigid substrates and flexible base, board, be preferably, configuration has the plate-shaped member that is made of flexible material of the thickness thicker than above-mentioned flexible base, board between the plate-like portion of above-mentioned flexible base, board and above-mentioned attachment.In this case, the attachment that can avoid being made of metal material directly contact with the surface of flexible base, board, can prevent from making damaged situations such as lead pattern set on the flexible base, board.
The effect of utility model
According to the utility model, it is simple to connect operation, and can prevent the coupling part to break away from and make and connect the situation that disconnects.
Description of drawings
Fig. 1 is the exploded perspective view of having used rigid substrates that an execution mode of the present utility model relates to and the multi-directional inputting device that is connected structure of flexible base, board.
Fig. 2 is the stereogram of the multi-directional inputting device that relates to of above-mentioned execution mode.
Fig. 3 is the sectional view of the multi-directional inputting device that relates to of above-mentioned execution mode.
Fig. 4 is for the be connected exploded perspective view of constructing of the rigid substrates that relates to of the above-mentioned execution mode of explanation with flexible base, board.
Fig. 5 is for the be connected stereogram of constructing of the rigid substrates that relates to of the above-mentioned execution mode of explanation with flexible base, board.
Fig. 6 is near the rigid substrates cutaway view with the coupling part that is connected structure of flexible base, board that above-mentioned execution mode relates to.
Fig. 7 is the key diagram of the connecting portion on the rigid substrates that relates to of above-mentioned execution mode.
Fig. 8 is the key diagram of the connecting portion on the rigid substrates that relates to of the variation of above-mentioned execution mode.
Description of symbols
1 multi-directional inputting device
2 upper shells
3 lower houses
32a protects board
4 covers
5 rigid substrates
51 peristomes
52a, 52b resistance pattern (conductive pattern)
53a, 53b collector body pattern (conductive pattern)
54 connecting portions
The 54a through hole
54b silver pattern
54c carbon pattern
55 FPC connecting portions
6,7 slide units
8 limiting parts
9 operating bodies
10 helical springs
11 FPC
1101 basal films
1102 lead patterns
1103 connecting portions
The 1103a through hole
1104 connectors
1105,1106 stiffeners
The 1106a through hole
12 attachment
1201 plate-like portions
The 1201a press section
1202 portions
1203 caulking parts
Embodiment
Below, describe execution mode of the present utility model in detail with reference to accompanying drawing.The structure (below, suitably be called " substrate connects structure ") that is connected of the rigid substrates that present embodiment relates to and flexible base, board for example is applied to being connected of the rigid substrates that disposes in the electronic equipment such as mancarried telephone device and flexible base, board.Below, describe in the multi-directional inputting device that mancarried telephone device etc. carries, using the situation that substrate that present embodiment relates to connects structure, but for the purposes that the substrate that present embodiment relates to connects structure, be not limited to these, and can suitably change.
Fig. 1 has used the exploded perspective view that substrate that an execution mode of the present utility model relates to connects the multi-directional inputting device 1 of structure.Fig. 2 and Fig. 3 are respectively stereogram and the sectional views of the multi-directional inputting device 1 that relates to of present embodiment.In addition, below, for convenience of description, upper side shown in Figure 1 is called the upper side of multi-directional inputting device 1, lower side shown in Figure 1 is called the lower side of multi-directional inputting device 1.
As shown in Figure 1, the multi-directional inputting device 1 that present embodiment relates to possesses upper shell 2, lower house 3 and cover 4, constitutes by their combinations are taken in various component parts in the space that inside forms.Upper shell 2, lower house 3 and cover 4 are, under overlapping state, make slotting the leading among the through hole 31c, 43 of lower house 3 and cover 4 of column snap-latch piece 22a of upper shell 2, and it is integrated by hot riveting or cold riveting its leading section to be out of shape upper shell 2, lower house 3 and cover 4.In addition, in Fig. 1, for convenience of description, show the state that waits to make the snap-latch piece 22a distortion of upper shell 2 by hot riveting.
At the upper surface of cover 4, mounting be provided with resistance pattern 52(52a, 52b) and collector body pattern 53(53a, 53b) rigid substrates 5.Rigid substrates 5 is configured to be clamped in the state between lower house 3 and the cover 4.Between rigid substrates 5 on being overlapped in cover 4 and the lower house 3 in the formed space, taken in a pair of slide unit 6,7 and limiting part 8, between lower house 3 and upper shell 2, in the formed space, take in the helical spring 10 of operating body 9 and ring-type.
Near the bight of top plate portion 31, be provided with the snap-latch piece 22a that keeps supplying housing 2 and insert four logical through hole 31c.And, in an opposed across corner of top plate portion 31, be provided with a pair of installing hole 31d that installs for to the equipment that carries multi-directional inputting device 1.And, on one side of side wall portion 32, be provided with to the side with extending and protect board 32a.Protection board 32a and the flexible base, board of following rigid substrates 5 to be connected (below, be called " FPC(Flexible Printed Circuits) ") part of 11 is overlapping, thus protect this flexible base, board 11.
Under the state that has made up these upper shells 2, lower house 3 and cover 4, constitute the shell of multi-directional inputting device 1.In this case, the top plate portion 31 of lower house 3 constitutes the wall part (with reference to Fig. 3) that formed space, the inside of shell is separated into upper space US and lower space DS.
And, on one side of rigid substrates 5, be provided with highlightedly for the FPC connecting portion 55 that connects FPC11.Its details is as in the back descriptively, and FPC11 for example is connected with FPC connecting portion 55 by a plurality of (being four the in the present embodiment) attachment 12 that are made of metal material.In addition, near the bight of rigid substrates 5, be provided with the snap-latch piece 22a that keeps supplying housing 2 and insert four logical through holes 56.
A pair of slide unit 6,7 moves and is being disposed at lower space DS(with reference to Fig. 3 with the direction of this moving orthogonal mobile mode of sliding with the slip that can be accompanied by operating body 9). Slide unit 6,7 is made of rectangular plate-shaped member, and configuration growth limit is mutually orthogonal.And, near slide unit 6,7 central authorities, be provided with the slotted hole 61,71 that extends along its long limit.Near the both ends on the long limit of slide unit 6, be provided with a pair of sheet 62 that is directed.And, at the lower surface of an end of slide unit 6 sliding part 63 is arranged fixedly.Equally, near the both ends on the long limit of slide unit 7, be provided with a pair of sheet 72 that is directed.And, at the lower surface of an end of slide unit 7 sliding part 73 is arranged fixedly.
Limiting part 8 is disposed at the upper side (with reference to Fig. 3) of the slide unit 6 among the lower space DS.Limiting part 8 for example forms by rectangular plate-shaped member is implemented Bending Processing.Central authorities at limiting part 8 are provided with the slotted hole 81 that extends along its long limit.Limiting part 8 is provided with a pair of snap-latch piece 82 that hangs down from the both ends of long side direction.The length of the same length between a pair of rib that the length between these a pair of snap-latch pieces 82 is configured to and the lower surface of lower house 3 is set (omitting diagram).When to operating body 9 effect revolving forces, limiting part 8 makes snap-latch piece 82 and rib butt, thereby plays the effect of the rotation of restriction operating body 9.
Operating body 9 for example is made of the resin material of insulating properties, has: movable part 91 has disc-shape; Operating portion 92 arranges from the central portion of this movable part 91 upward side-prominently; The 93(of non-circular shape portion is with reference to Fig. 3), arrange highlightedly to the lower side from the central portion of movable part 91; And drive division 94, from the further setting highlightedly of bottom of this non-circular shape 93.It is roughly the same that movable part 91 is configured to the top dimension of protuberance 31b of ring-type of protuberance 21b, lower house 3 of the ring-type of the size of its outer diameter part and upper shell 2.Non-circular shape portion 93 is arranged to the shape that can engage with the slotted hole 81 of limiting part 8, constitutes and the revolving force that acts on operating body 9 can be delivered to limiting part 8.Drive division 94 is configured to cylindrical shape, constitutes to insert to lead in slide unit 6,7 the slotted hole 61,71.
The helical spring 10 of ring-type is accommodated in upper space US(with reference to Fig. 3 with mounting to the mode on the top plate portion 31 of lower house 3).Be assembled into the internal diameter of upper space US helical spring 10 before, constitute the profile than the movable part 91 of operating body 9, the slightly little size of top dimension of protuberance 21b, 31b.When being assembled into upper space US, the helical spring 10 pushing expansion a little laterally by protuberance 21b, 31b and movable part 91.Helical spring 10 plays the effect that makes the operating body 9 that has been carried out slide reset into initial position shown in Figure 3 (neutral position).
FPC11 is connected with the FPC connecting portion 55 of rigid substrates 5 by a plurality of attachment 12.FPC11 is connected with rigid substrates 5 in the mode that the bearing of trend along FPC connecting portion 55 extends.Details is provided with connector portion 1104 at the leading section of FPC11 as narration in the back.Constitute via this connector portion 1104 and can will export to external equipment from the signal of the related multi-directional inputting device 1 of present embodiment.
Assembling is when having the multi-directional inputting device 1 of this formation, as shown in Figure 2, under the state of aiming at the bight, with rigid substrates 5 mountings to cover 4.And and integrated, upper shell 2 mountings are to lower house 3 to the rigid substrates 5 for lower house 3 mountings.In addition, lower house constitutes and rigid substrates 5 integrated housings.The FPC connecting portion 55 of rigid substrates 5 extends the ground configuration from the end face of cover 4 to the side.The protection board 32a that extends to the direction identical with FPC connecting portion 55 covers on FPC connecting portion 55 in the mode of the upper surface integral body that covers FPC connecting portion 55.
And, as shown in Figure 3, in the inside of multi-directional inputting device 1, in mounting slide unit 6,7 and the state of limiting part 8 under rigid substrates 5 on overlapping lower house 3.In this case, slide unit 6,7 is configured to, and sliding part 63,73 is gone up and is in contact with it across being positioned at resistance pattern 52a on the rigid substrates 5 and collector body pattern 53a, resistance pattern 52b and collector body pattern 53b respectively.Thus, can export and slide unit 6, output signal that 7 sliding position is corresponding.Limiting part 8 overlaps these slide units 6,7 upper side.
Having in mounting overlappingly on the lower house 3 under the state of operating body 9 and helical spring 10 has a upper shell 2.Operating body 9 exposes via the peristome 21a of upper shell 2 with the upper end of operating portion 92 and non-circular shape portion 93 and drive division 94 are configured in upper space US via the state that the peristome 31a of lower house 3 enters in the lower space DS.The movable part 91 of operating body 9 is with the state configuration of its peripheral end mounting on the protuberance 31b of lower house 3.The protuberance 31b arranged opposite of the protuberance 21b of upper shell 2 and lower house 3, movable part 91 are configured to slide in can the gap between protuberance 21b and protuberance 31b mobile.
The non-circular shape portion 93 of operating body 9 inserts in the mode of engaging leads in the slotted hole 81 of the limiting part 8 that is made of metallic plate.And drive division 94 is inserted and is led in slide unit 6,7 the slotted hole 61,71, and the slip movement that is accompanied by operating body 9 can make slide unit 6,7 slide mobile to A shown in Figure 1, B direction.
Below, illustrate that the substrate that is equipped on above-mentioned multi-directional inputting device 1 connects structure.Fig. 4 is the exploded perspective view that connects structure for the substrate that the explanation present embodiment relates to.Fig. 5 is the stereogram that connects structure for the substrate that the explanation present embodiment relates to.In Fig. 4 and Fig. 5, only show rigid substrates 5, FPC11 and attachment 12.In addition, in Fig. 4, for convenience of description, show the state that the caulking part 1203 that will constitute the part of attachment 12 has carried out riveted joint.And in Fig. 5, the substrate that shows when observing from the lower face side of rigid substrates 5 connects structure.
As shown in Figure 4, with resistance pattern 52(52a, 52b) and collector body pattern 53(53a, 53b) the part of the connecting portion 54 that arranges of the mode of end conducting be disposed at FPC connecting portion 55.Connecting portion 54 is in the end of resistance pattern 52 and collector body pattern 53, is made of the part to the bearing of trend bending of FPC connecting portion 55.In a plurality of (being four in the present embodiment) connecting portion 54, be formed with through hole 54a independently.These through holes 54a constitutes first through hole, also connects FPC connecting portion 55 ground and forms.
FPC11 for example has the basal film 1101 that is made of polyimides.Basal film 1101 comprises strip parts 1101a and is arranged at the wide width part 1101b of the end of this strip parts 1101a.Lower surface at strip parts 1101a is provided with lead pattern 1102.In the end of lead pattern 1102, be provided with the connecting portion 1103 that is connected with the connecting portion 54 of rigid substrates 5.That is, lead pattern 1102 extends to lower left shown in Figure 4 from connecting portion 1103.Lead pattern 1102 and connecting portion 1103 be, on copper pattern across the nickel pattern and the stacked membrane structure of golden pattern.Connecting portion 1103 constitutes second connecting portion, is arranged on the position corresponding with connecting portion 54 of the lower surface of wide width part 1101b.In a plurality of (being four in the present embodiment) connecting portion 1103, be formed with through hole 1103a.These through holes 1103a constitutes second through hole corresponding with through hole 54a, also connects basal film 1101(wide width part 1101b) form.
At the other end of strip parts 1101a, be provided with connector portion 1104, the electronic equipment (for example, mancarried telephone device) that this connector portion 1104 is used for being connected with multi-directional inputting device 1 connects.Upper surface at the strip parts 1101a corresponding with this connector portion 1104 is pasted with stiffener 1105.Equally, the upper surface at wide width part 1101b is pasted with stiffener 1106 by adhesive etc.These stiffeners 1105,1106 for example are made of insulating material such as polyimides, have the thickness of slab thicker than basal film 1101.At stiffener 1106, be formed with through hole 1106a in the position corresponding with through hole 1103a.In addition, stiffener 1106 has flexible, and constitutes plate-shaped member.
In the part of plate-like portion 1201, be provided with across the basal film 1101(of 1106 couples of FPC11 of stiffener more particularly, be wide width part 1101b) the press section 1201a that presses.Be configured in two inboard attachment 12, in the position corresponding with the coupling part part (parts of connector portion 1104 sides) slightly in the outer part that connects than the connecting portion 1103 of following in the lead pattern 1102, has the press section 1201a of direction (being the direction of the quadrature in the present embodiment) extension that intersects at the bearing of trend with strip parts 1101a.Namely, the press section 1202a of the attachment 12 that the inboard of Width FPC11(wide width part 1106) disposes, extend in the outside to Width (direction of intersecting with the bearing of trend of lead pattern 1102), and press at the back side that is positioned at the FPC11 of the direction side that lead pattern 1102 begins to extend from connecting portion 1103 across 1106 pairs of stiffeners.On the other hand, be disposed at two attachment 12 in the outside, with the coupling part that connects with the connecting portion 1103 in the lead pattern 1102 near corresponding position, have along the bearing of trend with strip parts 1101a and intersect the press section 1201a of direction extension of (quadrature).
When FPC connecting portion 55 is connected FPC11, at first, so that the through hole 1106a of the through hole 1103a(stiffener 1106 of connecting portion 1103) mode corresponding with the through hole 54a of connecting portion 54 be overlapping with FPC11 and rigid substrates 5.Thus, the connecting portion 1103 of the connecting portion 54 of rigid substrates 5 and FPC11 becomes the state of butt.Then, from upper side (that is, through hole 1103a(through hole 1106a) side) the tube portion 1202 of attachment 12 inserted lead to each through hole, make the leading section (bottom) of a portion 1202 outstanding to the lower side from through hole 54a.Then, be riveted to rigid substrates 5(FPC connecting portion 55 by parts that it is outstanding such as cringle riveted joints) on.Thus, the front end of tube portion 1202 becomes caulking part 1203 as shown in Figure 5.
In addition,, for the order of connection of FPC connecting portion 55, be not limited thereto at FPC11, and can suitably change.For example, also can be, with the tube portion 1202 of attachment 12 insert lead to through hole 1103a, 1106a after, the tube portion 1202 of the attachment of arranging among the through hole 1103a with FPC11 12 inserts leads among the through hole 54a of rigid substrates 5, and by cringle riveted joint etc. will from through hole 54a to the lower side outstanding part be riveted to rigid substrates 5(FPC connecting portion 55) on.And, also can be, each component parts shown in Figure 4 is turned upside down, make the tube portion 1202 of attachment 12 side-prominent upward from the through hole 54a of rigid substrates 5, and its leading section is riveted on the rigid substrates 5.
Fig. 6 is that the substrate that present embodiment relates to connects near the cutaway view in coupling part of constructing.Section when in addition, figure 6 illustrates the tube portion 1202 of the attachment 12 that pass nearest front side shown in Figure 4.As shown in Figure 6, rigid substrates 5 and FPC11 are inserted respectively under the state that has led to tube portion 1202 in through hole 54a, 1103a and are clamped by plate-like portion 1201 and caulking part 1203, so can make bonding strength firm, make even under the situation that has applied excessive loads, also can prevent the coupling part from separating to connect the situation that disconnects.
Particularly, connect in the structure at the substrate that present embodiment relates to, only the tube portion 1202 of attachment 12 is inserted and lead among through hole 54a, the 1103a, just can make the connecting portion 54 of rigid substrates 5 mutually opposed in the reliable mode that contacts with the connecting portion 1103 of FPC11, so can carry out FPC11 easily with respect to the operations such as contraposition of rigid substrates 5, can simplify the operation till finishing of being connected of rigid substrates 5 and FPC11.And, between connecting portion 54 and connecting portion 1103, dispose the parts of formation adhesive layer etc., but connecting portion 54 is directly contacted with connecting portion 1103, constitute the part number of packages that substrate connects structure so can reduce.And, as the material that constitutes connecting portion 54 and connecting portion 1103, even under the situation of having used the material that can not carry out soldering, also two connecting portions can be electrically connected to each other.
And attachment 12 become across stiffener 1106 and by the wide width part 1101b of plate-like portion 1201 with FPC11(basal film 1101) be pressed into the state of rigid substrates 5.Therefore, can avoid the attachment 12 that constituted by metallic plate etc. directly with the wide width part 1101b of FPC11(basal film 1101) the surface contact, can prevent from making the situation of lead pattern 1102 breakages such as grade set on the FPC11.
In addition, the press section 1201a that constitutes the part of plate-like portion 1201 is configured near corresponding position the leading section with FPC connecting portion 55.Then, same with plate-like portion 1201, become across stiffener 1106 and with the wide width part 1101b of FPC11(basal film 1101) be pressed into the state of rigid substrates 5.Therefore, can limit FPC11 from rigid substrates 5(FPC connecting portion 55 away from the position of tube portion 1202) separate, can improve the reliability of the connection of coupling part more.
In addition, above the FPC of rigid substrates 5 connecting portion 55, dispose the protection board 32a(of lower house 3 with reference to Fig. 3).Therefore, can protect coupling part set on the FPC connecting portion 55 to avoid from the impact of outside etc., so can keep the conducting state of connecting portion 54 with the connecting portion 1103 of FPC11 of rigid substrates 5, can provide the high substrate of reliability to connect structure.
At this, illustrate that substrate that present embodiment relates to connects the formation of the connecting portion 54 on the rigid substrates 5 in the structure.Fig. 7 is the key diagram of the connecting portion 54 on the rigid substrates 5 that relates to of present embodiment.As shown in Figure 7, connecting portion 54 becomes the stacked membrane structure of carbon pattern 54c on silver-colored pattern 54b.Both ends and collector body pattern 53 about resistance pattern 52 also are same.Resistance pattern 52 is only to constitute with carbon pattern 54c in the sliding area of sliding part 63,73 sliding contacts, and do not have silver-colored pattern 54b under carbon pattern 54c.In addition, in Fig. 7, for convenience of description, only carbon pattern 54c is applied oblique line.
In connecting portion 54, around through hole 54a, be provided with the part that silver-colored pattern 54b exposes.More particularly, expose silver-colored pattern 54b in the part that is positioned at than the forward end side of the assigned position of through hole 54a (bottom side shown in Figure 7).By the part at the connecting portion 54 that is connected with the connecting portion 1103 of FPC11 so silver-colored pattern 54b is exposed, can reduce the conducting resistance (contact resistance) between connecting portion 54 and the connecting portion 1103.
As shown in Figure 7, silver-colored pattern 54b be along with the straight line of the direction of bearing of trend (above-below direction shown in Figure 7) quadrature of connecting portion 54, can be that the border is exposed the leading section side with the straight line L that passes from the center of a plurality of through hole 54a.Usually, if the metal that uses as wiring or electrode is exposed, then its metal ingredient is at insulant mobile (transport phenomena), thereby interelectrode insulation resistance reduces, and the result can produce the situation of short circuit.The substrate related in present embodiment connects in the structure, is that the border is exposed the silver-colored pattern 54b of leading section side with the straight line L that passes from the center of a plurality of through hole 54a.Therefore, the exposed portions serve of silver pattern 54b is limited at the part zone around the through hole 54a, so it is mobile at rigid substrates 5 to limit the metal ingredient (silver) that constitutes silver-colored pattern 54b, therefore, the conducting resistance with connecting portion 1103 can be reduced, and the generation by the caused short circuit of migration between the silver-colored pattern 54b can be suppressed.
In addition, about the exposed portions serve of silver-colored pattern 54b, be not limited to example shown in Figure 7, and can suitably change.Fig. 8 be the rigid substrates 5 that relates to of modified embodiment of the present embodiment ' on connecting portion 54 ' key diagram.In addition, in Fig. 8, to giving identical mark with the common formation of Fig. 7, and only carbon pattern 54c is applied oblique line.
In addition, the utility model is not limited to above-mentioned execution mode, can carry out after changing various and implements.In the above-described embodiment, about the illustrated size of accompanying drawing, shape etc., be not limited thereto, can in the scope of performance effect of the present utility model, suitably change.In addition, only otherwise the scope that breaks away from the purpose of this utility model just can suitably change and implement.
For example, in the connecting portion 54 of the rigid substrates 5 of above-mentioned execution mode, to being that the situation that the border is exposed the silver-colored pattern 54b of leading section side is illustrated with the straight line L that passes from the center of a plurality of through hole 54a.Yet the position on the border when silver-colored pattern 54b is exposed is not limited thereto, and can suitably changes.And the boundary line when silver-colored pattern 54b is exposed needn't be configured to the straight line shape, also can be rectilinear form or the curved shape with ladder difference.
And, in the connecting portion 54 of the rigid substrates 5 of above-mentioned execution mode, be illustrated for the situation with formation of stacked carbon pattern 54c on silver-colored pattern 54b.Yet the formation about connecting portion 54 is not limited thereto, and can suitably change.For example, also can use the stacked nickel pattern of copper pattern and then the stacked formation of golden pattern.But, under the situation aspect the cost when consider forming connecting portion 54, the such formation of preferred above-mentioned execution mode.
Claims (9)
1. the structure that is connected of a rigid substrates and flexible base, board is the connection structure that rigid substrates is connected with flexible base, board, and this rigid substrates is provided with a plurality of first connecting portions with a plurality of conductive pattern conductings; The lead pattern that this flexible base, board is provided with a plurality of second connecting portions corresponding with above-mentioned first connecting portion and extends from this second connecting portion is characterized in that,
This connection structure has: first through hole forms respectively in a plurality of above-mentioned first connecting portions independently; Second through hole is formed in a plurality of above-mentioned second connecting portions accordingly with above-mentioned first through hole; And attachment, constituted by metal material, have for inserting the tube portion lead to above-mentioned first, second through hole and reach the plate-like portion that is formed with this one at a face,
Under the state that makes above-mentioned first connecting portion and the above-mentioned second connecting portion butt, above-mentioned tube portion inserts from the above-mentioned second through hole side leads to above-mentioned second through hole and above-mentioned first through hole, and the front end of above-mentioned tube portion is riveted on the above-mentioned rigid substrates.
2. the structure that is connected of rigid substrates as claimed in claim 1 and flexible base, board is characterized in that,
Above-mentioned attachment have the press section in the part of above-mentioned plate-like portion, press the part of the direction side that the above-mentioned lead pattern of being positioned at of above-mentioned flexible base, board begins to extend from above-mentioned second connecting portion by above-mentioned press section.
3. the structure that is connected of rigid substrates as claimed in claim 1 and flexible base, board is characterized in that,
This connection structure possesses and the integrated housing of above-mentioned rigid substrates, is provided with the protection board that is positioned on the above-mentioned plate-like portion in the part of above-mentioned housing.
4. the structure that is connected of rigid substrates as claimed in claim 2 and flexible base, board is characterized in that,
This connection structure possesses and the integrated housing of above-mentioned rigid substrates, is provided with the protection board that is positioned on the above-mentioned plate-like portion in the part of above-mentioned housing.
5. as the be connected structure of each described rigid substrates in the claim 1~4 with flexible base, board, it is characterized in that,
Above-mentioned first connecting portion becomes the stacked membrane structure of carbon pattern on silver-colored pattern, and is provided with the part of exposing above-mentioned silver-colored pattern around above-mentioned first through hole.
6. the structure that is connected of rigid substrates as claimed in claim 5 and flexible base, board is characterized in that,
Above-mentioned first connecting portion exposes above-mentioned silver-colored pattern in the part that is positioned at than the forward end side of assigned position of above-mentioned first through hole.
7. the structure that is connected of rigid substrates as claimed in claim 5 and flexible base, board is characterized in that,
Above-mentioned first connecting portion exposes above-mentioned silver-colored pattern in the part that is positioned at than the forward end side of assigned position of above-mentioned first through hole, and the part that is positioned at the adjacent above-mentioned first connecting portion side at least is by above-mentioned carbon pattern covers.
8. the structure that is connected of rigid substrates as claimed in claim 5 and flexible base, board is characterized in that,
Configuration has the plate-shaped member that is made of flexible material of the thickness thicker than above-mentioned flexible base, board between the plate-like portion of above-mentioned flexible base, board and above-mentioned attachment.
9. as the be connected structure of each described rigid substrates in the claim 1~4 with flexible base, board, it is characterized in that,
Configuration has the plate-shaped member that is made of flexible material of the thickness thicker than above-mentioned flexible base, board between the plate-like portion of above-mentioned flexible base, board and above-mentioned attachment.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
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JP2012-057433 | 2012-03-14 | ||
JP2012057433A JP5878400B2 (en) | 2012-03-14 | 2012-03-14 | Connection structure between rigid board and flexible board |
Publications (1)
Publication Number | Publication Date |
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CN203219602U true CN203219602U (en) | 2013-09-25 |
Family
ID=49209102
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN 201320111574 Expired - Lifetime CN203219602U (en) | 2012-03-14 | 2013-03-12 | Connection structure for rigid substrate and flexible substrate |
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JP (1) | JP5878400B2 (en) |
CN (1) | CN203219602U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105676456A (en) * | 2016-04-06 | 2016-06-15 | 众景视界(北京)科技有限公司 | Modularized head-mounted electronic device |
Family Cites Families (6)
Publication number | Priority date | Publication date | Assignee | Title |
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JPS5994487A (en) * | 1982-11-19 | 1984-05-31 | 松下電器産業株式会社 | Method of connecting between front and back of flexible both-side circuit board |
JPS63197379U (en) * | 1987-06-09 | 1988-12-19 | ||
JPH1041111A (en) * | 1996-07-25 | 1998-02-13 | Matsushita Electric Ind Co Ltd | Resistance element for variable resistor |
JP2000150010A (en) * | 1998-11-02 | 2000-05-30 | Fujikura Ltd | Connecting method for membrane sheet with lead wire |
JP2002204068A (en) * | 2000-12-28 | 2002-07-19 | Mitsumi Electric Co Ltd | Method of jointing printed wiring board and flexible wiring board |
JP2003280024A (en) * | 2002-03-20 | 2003-10-02 | Kawaguchiko Seimitsu Co Ltd | Liquid crystal display device |
-
2012
- 2012-03-14 JP JP2012057433A patent/JP5878400B2/en active Active
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2013
- 2013-03-12 CN CN 201320111574 patent/CN203219602U/en not_active Expired - Lifetime
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105676456A (en) * | 2016-04-06 | 2016-06-15 | 众景视界(北京)科技有限公司 | Modularized head-mounted electronic device |
Also Published As
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JP2013191755A (en) | 2013-09-26 |
JP5878400B2 (en) | 2016-03-08 |
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Address after: Tokyo, Japan Patentee after: ALPS ELECTRIC Co.,Ltd. Address before: Tokyo, Japan Patentee before: Alps Electric Co.,Ltd. |
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Granted publication date: 20130925 |