CN101308962A - Foldable flexible signal transmission module, wire group and manufacture method of the wire group - Google Patents
Foldable flexible signal transmission module, wire group and manufacture method of the wire group Download PDFInfo
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- CN101308962A CN101308962A CNA2008101356840A CN200810135684A CN101308962A CN 101308962 A CN101308962 A CN 101308962A CN A2008101356840 A CNA2008101356840 A CN A2008101356840A CN 200810135684 A CN200810135684 A CN 200810135684A CN 101308962 A CN101308962 A CN 101308962A
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Abstract
The invention provides a flexible signal transmission module, a line assembly and the fabrication method of the line assembly. The flexible signal transmission module comprises a first coupler socket, a first signal line and a second signal line. The first signal line and the second signal line border upon each other and are parallel to each other and are both connected to the first coupler socket. The first signal line and the second signal line are provided with first fold lines at the ends which are connected to the end of the first coupler socket. The first signal line and the second signal line can be folded along the first fold lines in the same direction and at least the folded parts of the two signal lines are partially overlapped. The fabrication method includes the following steps: a plurality of single lines are arranged in parallel; one end of each signal line is connected to the first coupler socket; the signal lines are folded along the first fold lines in the same direction and at least the folded parts are partially overlapped.
Description
Technical field
The present invention relates to a kind of flexible signal transmission module, line group, in order in electronic installation, carrying out the signal transmission, and relate to the manufacture method of this line group.
Background technology
The electronic installation that can see on the market at present comprises TV, computer, mobile phone and other product, and its inside is formed by a plurality of circuit, module or element.Each part all is responsible for the electronic signal of reception, processing or transmitting portions, to reach the complete function of electronic installation.Generally speaking, described a plurality of circuit, module or interelement are provided with winding displacement group, flexible circuit board or other similar device of transmission signals, transmitting signal at each circuit, module or interelement, and then constitute the binding of whole system.
Figure 1 shows that traditional signal line, comprise the Connection Block 10 and the line group 30 at two ends.The Connection Block 10 at two ends can be connected on the circuit board corresponding connector on corresponding connector or other module, the element; Line group 30 then is responsible for carrying out the signal transmission at 10 of the Connection Blocks at two ends.Because the demand on signal kinds complexity and the circuit design, the number of terminals of Connection Block 10 increases day by day, and the axis quantity of corresponding line group 30 is corresponding raising thereupon, and then the width of line group 30 is increased.
Yet the appearance design of various electronic installation now is a design focal point to save space and volume invariably, the problem that need consider when therefore how to lower the volume of internal circuit module and trying to achieve best space utilization efficient for design.Signal line shown in Figure 1 has the volume of broad, often is difficult for by some less channel spaces in system's housing, and the rotating shaft passage between cover-lifting type mobile phone back of the body lid and body etc. for example, and be unfavorable for whole assembling.In addition,, therefore only can be bent upwards in certain party because the width of line group 30 is much higher than thickness, then not flexible on other direction, and then cause the difficulty of settling signal line.
Summary of the invention
The object of the present invention is to provide the manufacture method of a kind of flexible signal transmission module, line group and this line group, have the advantage that is easy to settle and be accommodated in the system space.
Another object of the present invention is to provide the manufacture method of a kind of flexible signal transmission module, line group and this line group, can increase the selectivity in the system space design.
Another purpose of the present invention is to provide the manufacture method of a kind of flexible signal transmission module, line group and this line group, can reduce the volume of entire system and the demand on the space.
The invention provides a kind of flexible signal transmission module, comprise first Connection Block, first signal line and secondary signal circuit.First signal line and secondary signal circuit are rectangular structure, and both adjacent parallel are arranged side by side, and all have an end to be connected in first Connection Block.First signal line and secondary signal circuit have the first end fold line respectively in the end that connects first Connection Block.The ora terminalis of this first end fold line and this first Connection Block presss from both sides an angle.This first end fold line is first signal line and the folding imaginary datum line of secondary signal circuit, needn't have the profile of entity.First signal line and secondary signal circuit can be folding in the same way along the first end fold line respectively; Both folded portions have at least overlaps.By this design, can reduce by the width when originally first signal line and secondary signal circuit are arranged side by side, transmit the convenience that module is provided with to increase overall signal.
The present invention also provides a kind of soft signal transfer line group, comprises: one first Connection Block; And many barss circuit, being parallel to each other side by side, each bars circuit forms a rectangular structure, and an end connects this first Connection Block; Wherein, the end that described many barss circuit connects this first Connection Block has one first parallel end fold line respectively, the ora terminalis of this first end fold line and this first Connection Block presss from both sides an angle, described many barss circuit is folded to folded part is not parallel in the same way along this first end fold line respectively, and described many barss circuit folded portions is overlapped at least.Thus, can reduce by the width when originally many barss circuit is arranged side by side, increase overall signal and transmit the convenience that module is provided with.
The invention provides the manufacture method of another soft signal transfer line group, comprise the following step: many barss that is arranged in parallel circuit; Wherein each bars circuit is rectangular structure.An end that connects above-mentioned many barss circuit is in first Connection Block.Along the folding in the same way many barss circuit of the first end fold line, many barss circuit folded portions is overlapped at least respectively.Wherein this first end fold line is positioned at the end that described many barss circuit connects this first Connection Block, and this first end fold line is parallel to each other and presss from both sides an angle with the ora terminalis of this first Connection Block.By this design, can reduce by the width when originally many barss circuit is arranged side by side, transmit the convenience that module is provided with to increase overall signal.
The present invention provides a kind of flexible signal transmission module again, comprises: one first Connection Block; One first signal line, it is a rectangular structure, the one end connects this first Connection Block; And a secondary signal circuit, it is a rectangular structure, the one end connects this first Connection Block and arranged side by side with this first signal line adjacent parallel; Wherein, the end that this first signal line and this secondary signal circuit connect this first Connection Block has one first parallel end fold line respectively, the ora terminalis of this first end fold line and this first Connection Block presss from both sides an angle, this first signal line and this secondary signal circuit are folded in the same way along this first end fold line respectively and cover to small part folded part not, and this first signal line and this secondary signal circuit folded portions are overlapped at least.Thus, can reduce by the width when originally first signal line and secondary signal circuit are arranged side by side, increase overall signal and transmit the convenience that module is provided with.
Description of drawings
Fig. 1 is the schematic diagram of classical signal winding displacement;
Fig. 2 is the embodiment schematic diagram of flexible signal transmission module of the present invention;
Fig. 3 is another embodiment schematic diagram of flexible signal transmission module;
Fig. 4 is the schematic diagram after embodiment illustrated in fig. 2 the folding;
Fig. 5 a is another embodiment schematic diagram of the first end fold line;
Fig. 5 b is the schematic diagram after Fig. 5 a illustrated embodiment folds;
Fig. 6 a is the embodiment schematic diagram with many barss circuit;
Fig. 6 b is the schematic diagram after Fig. 6 a illustrated embodiment folds;
Fig. 6 c is the schematic diagram that Fig. 6 b illustrated embodiment combines with system;
Fig. 7 a is for adopting the embodiment schematic diagram of another second Connection Block design;
Fig. 7 b is the schematic diagram after Fig. 7 a illustrated embodiment folds;
Fig. 7 c is the schematic diagram that Fig. 7 b illustrated embodiment combines with system;
Figure 8 shows that another embodiment schematic diagram of flexible signal transmission module;
Fig. 9 a is the embodiment schematic diagram that comprises the reflexed signal line;
Fig. 9 b is the schematic diagram after Fig. 9 a illustrated embodiment folds;
The embodiment schematic diagram that Figure 10 uses for flexible signal transmission module;
Figure 11 is the embodiment flow chart of flexible signal transmission module manufacture method;
Figure 12 is another embodiment flow chart of flexible signal transmission module manufacture method;
Figure 13 is another embodiment flow chart of flexible signal transmission module manufacture method.
Wherein, description of reference numerals is as follows:
101 first circuit boards, 102 second circuit boards
105 Connection Blocks, 110 first Connection Blocks
120 second Connection Blocks, 301 signal lines
310 first signal lines, 320 secondary signal circuits
330 the 3rd signal lines 340 the 4th signal line
350 first end fold lines, 370 second end fold lines
390 folded inverted line 710 screens
730 system hosts, 750 connection bearings
Embodiment
The invention provides a kind of flexible signal transmission module, connect various system, module or element respectively, with betwixt as the usefulness of transmitting signal.Flexible signal transmission module is preferably made by flexible circuit board (FPC); Yet in different embodiment, flexible signal transmission module also can be made by winding displacement, distribution group, film wire or other element with similar effect.In addition, flexible signal transmission module can be applicable in notebook computer, flat-panel screens, mobile phone and other the various electronic product.
As shown in Figure 2, flexible signal transmission module comprises first Connection Block 110, first signal line 310 and secondary signal circuit 320.First Connection Block 110 is connected in order to the connector with circuit board or another cable, and the viewable design demand selects installing to be protruding seat and dimple.In addition, first Connection Block 110 can select to adopt cover-lifting type, drawing formula, welding or other design to link with first signal line 310 and secondary signal circuit 320 with the rear.In the embodiment shown in Figure 2, the closure of first Connection Block 110 or slot direction are parallel to first signal line 310 and secondary signal circuit 320; Yet in the embodiment shown in fig. 3, the closure of first Connection Block 110 or slot direction are perpendicular to first signal line 310 and secondary signal circuit 320.
In preferred embodiment shown in Figure 2, first Connection Block 110 is row's shape Connection Block, and its width is enough to make first signal line 310 and secondary signal circuit 320 parallel being connected in side by side on first Connection Block 110.As shown in Figure 2, first signal line 310 and secondary signal circuit 320 are rectangular structure.Both adjacent parallel are arranged side by side, and all have an end to be connected in first Connection Block 110.In this embodiment, first signal line 310 and secondary signal circuit 320 form through cutting for same flexible circuit board.The end that first signal line 310 and secondary signal circuit 320 are connected in first Connection Block 110 is cutting and separating not, therefore still is in connection state.Yet in different embodiment, but also cutting and separating of the end that first signal line 310 and secondary signal circuit 320 are connected in first Connection Block 110 makes first signal line 310 and secondary signal circuit 320 be two list structures fully independently on the structure.In addition, first signal line 310 and secondary signal circuit 320 are preferably and have identical width; Yet in different embodiment, first signal line 310 and secondary signal circuit 320 also can have different width respectively.
In this embodiment, as shown in Figure 2, first signal line 310 and secondary signal circuit 320 have the first end fold line 350 respectively in the end that connects first Connection Block 110.This first end fold line 350 is the imaginary datum line that first signal line 310 and secondary signal circuit 320 fold, and needn't have the profile of entity.Yet in a preferred embodiment, the first end fold line 350 is the folding line on first signal line 310 and the secondary signal circuit 320; In addition, in different embodiment, also can on first signal line 310 and secondary signal circuit 320, form the first end fold line 350 with pressurization or other processing mode.
The first end fold line 350 on first signal line 310 and the secondary signal circuit 320 is for being parallel to each other, and presss from both sides an angle with the ora terminalis of first Connection Block 110.As shown in Figures 2 and 3, the first end fold line 350 is preferably and the ora terminalis of first Connection Block 110 folder miter angle; In other words, when first signal line 310 and secondary signal circuit 320 are folding along the first end fold line 350, the ora terminalis that first signal line 310 after folding and secondary signal circuit 320 are parallel to first Connection Block 110.In addition, one end of the first end fold line 350 is preferably extended by the POS INT that the side of first signal line 310 or secondary signal circuit 320 and first Connection Block, 110 ora terminalis intersect, and obliquely streaks first signal line 310 or secondary signal circuit 320 and arrives another side.
As shown in Figure 4, first signal line 310 and secondary signal circuit 320 can be folding in the same way along the first end fold line 350 respectively.First signal line 310 after folding and secondary signal circuit 320 are preferred parallel with the not folded part that is connected in first Connection Block 110 respectively.Described herein parallelly be meant two interplanar parallel relation, but not the parallel relation on the bearing of trend.Yet in different embodiment, first signal line 310 also can not reach the degree of doubling with the folding degree of secondary signal circuit 320, and makes folded part and folded part not keep the angle of an angle.In addition, in this embodiment, first signal line 310 after folding and secondary signal circuit 320 to small part are covered in not on the folded part.In this embodiment, first signal line 310 and secondary signal circuit 320 folded portions are for covering not folded portions fully; Yet in different embodiment, folded portions also can partly not be exposed to outside the folded part.
As shown in Figure 4, first signal line 310 and secondary signal circuit 320 folded portions have at least and overlap.In this embodiment, because first signal line 310 is folding towards the direction of secondary signal circuit 320, first signal line 310 after therefore folding is covered on the secondary signal circuit 320, and both are all at same direction overlap extension.By this design, can be with originally first signal line 310 and secondary signal circuit 320 width side by side the time reduce by half, transmit the convenience that module is provided with to increase overall signal.
Fig. 5 a and Fig. 5 b are depicted as another embodiment of the present invention.In this embodiment, the ora terminalis of the first end fold line 350 and first Connection Block 110 folder one is not equal to the angle of 45 degree; In other words, when first signal line 310 and secondary signal circuit 320 are folding along the first end fold line 350, the ora terminalis that first signal line 310 after folding and secondary signal circuit 320 are not parallel to first Connection Block 110.For making first signal line 310 and the secondary signal circuit 320 still can be overlapped after folding, therefore need to adjust the relative position relation of the first end fold line 350 on first signal line 310 and the secondary signal circuit 320.Shown in Fig. 5 a, the first end fold line, 350 distances, first Connection Block, 110 close together on first signal line 310, then distance first Connection Block 110 is far away for the first end fold line 350 on the secondary signal circuit 320.Yet in this embodiment, the first end fold line 350 on first signal line 310 and the secondary signal circuit 320 still keeps the relation that is parallel to each other.Shown in Fig. 5 b, first signal line 310 and secondary signal circuit 320 are overlapped in folding back, and press from both sides an angle with the ora terminalis of first Connection Block 110, and are not to be parallel to each other.
In the embodiment shown in Fig. 6 a, soft signal transfer line group of the present invention comprises many barss circuit 301, and is connected with first Connection Block 110.Many barss circuit 301 is arranged parallel to each other, and forms rectangular structure respectively.In this preferred embodiment, each bars circuit 301 all has identical wide cut; Yet in different embodiment, each signal line 301 also can have different wide cuts respectively.As embodiment before, be equipped with the first end fold line 350 that is parallel to each other on each bars circuit 301.Each bars circuit 301 all is folded to folded part is not parallel in the same way along the first all separately end fold lines 350, and each signal line 301 folded portions all has at least part overlapped.Shown in Fig. 6 b, can be covered on the adjacent part of its folded sides after folding than Outboard Sections in the signal line 301; And the part that this is capped also is covered on the back part of its folded sides in regular turn again.By this design, the signal line 301 that originally is parallel to each other is superimposed with each other, and then width arranged side by side is reduced to width after superimposed originally.
In addition, in the embodiment shown in Fig. 6 a and Fig. 6 b, soft signal transfer line group also comprises second Connection Block 120.Second Connection Block 120 is arranged at the other end of many barss circuit 301 with respect to first Connection Block 110.Many barss circuit 301 is side by side parallel and be connected with second Connection Block 120.Each bars circuit 301 is equipped with the second end fold line, 370, the second end fold lines 370 that are parallel to each other and spends or other angles with the ora terminalis folder 45 of second Connection Block 120 in an end that connects second Connection Block 120.In this embodiment, the second end fold line 370 and the first end fold line 350 are parallel to each other, and make signal line 301 angle folding at two ends all consistent; This moment first Connection Block 110 and second Connection Block 120 difference reverse rotation equal angular after folding, and respectively in the opposite direction.Yet in different embodiment, 350 of the second end fold line 370 and the first end fold lines also can be not parallel to each other, to change first Connection Block 110 and the second Connection Block 120 relative angle difference after folding.
Shown in Fig. 6 b, each bars circuit 301 all is folded to folded part is not parallel in the same way along the second all separately end fold lines 370, and each signal line 301 folded portions all has at least part overlapped.Part than the outside in the signal line 301 can be covered by its adjacent inside part part ground after folding.What need pay special attention to is that signal line 301 is opposite with the direction that folds along the first end fold line 350 along the direction that the second end fold line 370 folds.Shown in Fig. 6 b, signal line 301 is folding towards second Connection Block 120 in the first end fold line, 350 places; Then folding in the second end fold line, 370 places towards first Connection Block 110.Signal line 301 originally arranged side by side forms the storehouse situation in folding the back, and misplaces before and after the meeting to each other; One end of the signal line 301 of for example folding back the superiors can protrude in the signal line 301 under it, and the other end then can retraction in the ora terminalis of signal line 301 under it.
In the embodiment shown in Fig. 7 a and Fig. 7 b, the closure of second Connection Block 120 or slot direction are then perpendicular to the closure of the signal line 301 and first Connection Block 110.By this kind design, soft signal transfer line group is cooperated the connection requirement of various different angles.Fig. 7 c is depicted as soft signal transfer line group among Fig. 7 b and is applied to embodiment in the system and device.This embodiment is that with the difference of Fig. 6 c illustrated embodiment the closure of second circuit board 102 upper connecting bases 105 is different, therefore when being cooperated with second Connection Block 120 of different directions, selection in more designs can be provided, and save the space requirement of entire system.
In the embodiment shown in fig. 8, the end that many barss circuit 301 is connected in second Connection Block 120 is not provided with the second end fold line 370, and is also not folding with respect to second Connection Block 120.To connect an end of first Connection Block 110 folding and when being superimposed with each other when signal line 301, owing to many barss circuit 301 produces dislocation at an end that connects first Connection Block 110 because of folding, but the not corresponding dislocation of an end that connects second Connection Block 120, therefore the two ends of signal line 301 produce relatively and reverse, and second Connection Block 120 is reversed with respect to first Connection Block 110 generation synchronously.As shown in Figure 8, second Connection Block 120 reverses to perpendicular with first Connection Block 110.By this design, soft signal transfer line group is cooperated the connection requirement of more different angles.
In the embodiment shown in Fig. 9 a, soft signal transfer line group also comprises the 3rd signal line 330 and the 4th signal line 340 that is connected in first Connection Block 110.The 3rd signal line 330 and the 4th signal line 340 are respectively rectangular structure, and with first signal line 310 and secondary signal circuit 320 parallel first Connection Blocks 110 that are connected in regular turn side by side.As shown in the figure, the 3rd signal line 330 and secondary signal circuit 320 adjacent flat ranks, the 4th signal line 340 then is adjacent at the opposite side of the 3rd signal line 330 side by side.The 3rd signal line 330 and the 4th signal line 340 have the folded inverted line 390 that parallels respectively on the end that connects first Connection Block 110.Folded inverted line 390 is the imaginary datum line that the 3rd signal line 330 and the 4th signal line 340 fold, and needn't have the profile of entity.Yet in a preferred embodiment, folded inverted line 390 is a folding line; In addition, in different embodiment, also can on the 3rd signal line 330 and the 4th signal line 340, form folded inverted line 390 with pressurization or other processing mode.
The ora terminalis of the folded inverted line 390 and first Connection Block 110 presss from both sides an angle, and has opposite trend with the first end fold line 350 with respect to the ora terminalis of first Connection Block 110.Shown in Fig. 9 a, when the trend of the first end fold line 350 is lower-left when upper right, the trend of folded inverted line 390 is upper left bottom right, and vice versa.In addition, in this embodiment, the first end fold line 350 has the relativeness of mirror image with folded inverted line 390, so both are also identical with the folded angle of first Connection Block, 110 ora terminalis, only difference on the direction.Yet in different embodiment, the first end fold line 350 and folded inverted line 390 can be respectively and the ora terminalis folder different angles of first Connection Block 110.
Shown in Fig. 9 b, similar with first signal line 310 and secondary signal circuit 320, the 3rd signal line 330 and the 4th signal line 340 are also folding along folded inverted line 390 respectively, and both relations after folding also and the relation object of 320 in first signal line 310 and secondary signal circuit seemingly.Promptly the folded part of the 3rd signal line 330 and the 4th signal line 340 is overlapped at least.Yet because of the first end fold line 350 is opposite with the trend of folded inverted line 390, therefore there is different folding directions in the group that first signal line 310 and secondary signal circuit 320 are formed with the group that the 3rd signal line 330 and the 4th signal line 340 are formed.In different embodiment, first signal line 310 and the secondary signal circuit 320 extendible groups that form for more signal lines, and the 3rd signal line 330 and the 4th signal line 340 also extendible be the group that more reverse signal circuits are formed.In addition, by adjusting the angle difference of the first end fold line 350 and folded inverted line 390, more can adjust the relative angle relation after folding between the distinct group group.By this design, can make corresponding respectively different signal sources, the elasticity that designs with increase of being connected in of signal line group of different directions.
As shown in figure 10, when soft signal transfer line group is arranged in the electronic installation,, horizontal width is reduced, be easy to do the adjustment of radial distorted because each signal line 301 forms superimposed state.In addition, with notebook computer shown in Figure 10 is example, when soft signal transfer line group need be passed through than narrow space, the connection bearing 750 of 730 of screen 710 and system hosts for example, because the signal line 301 that is superimposed has width smaller, therefore passed this type of less space easily.
Figure 11 shows that the manufacture method embodiment flow chart of the soft signal transfer line of the present invention group.As shown in figure 11, step 1110 comprises many barss circuit that is arranged in parallel; Wherein each bars circuit is rectangular structure.In a preferred embodiment, this step can be cut the mode of a sheet signal line in the same way, is arranged in parallel and is the signal line of strip to form many.This sheet signal line is preferably made by flexible circuit board; Yet in different embodiment, the sheet signal line also can be made by the element of winding displacement, distribution group, film wire or the similar effect of other tool.
In a preferred embodiment, therefore the ora terminalis of the first end fold line and first Connection Block folder miter angle when the folded signal circuit, can make institute's folded portions parallel with the ora terminalis of first Connection Block.Yet in different embodiment, the folded angle of ora terminalis of the first end fold line and first Connection Block can be adjusted, and makes the signal line folded portions press from both sides different angles with the ora terminalis of first Connection Block.
In the embodiment shown in fig. 12, also comprise step 1210: the other end that connects many barss circuit is in second Connection Block.Step 1230 item comprises respectively along the folding in the same way many barss circuit of the second end fold line, and many barss circuit folded portions is overlapped at least.The second end fold line is positioned at the end that signal line connects second Connection Block, is parallel to each other between each bar second end fold line and presss from both sides an angle with the ora terminalis of second Connection Block.In a preferred embodiment, the second end fold line is parallel with the first end fold line, and signal line is opposite with the folding direction of the second end fold line in the first end fold line.
In the embodiment shown in fig. 13, also comprise step 1310: many reflexed signal lines that are arranged in parallel, and make the reflexed signal line be positioned at signal line one side and be parallel to each other side by side.Step 1330 item comprise connect the reflexed signal line an end in first Connection Block.The formation of reflexed signal line and setting are similar in appearance to other signal line, and the mode that preferably can cut the sheet signal line forms.
The present invention is described by above-mentioned related embodiment, yet the foregoing description is only for implementing example of the present invention.It must be noted that the embodiment that has disclosed does not limit the scope of the invention.On the contrary, being contained in the modification of the spirit of protection range and scope and equalization is provided with and all is contained in the scope of the present invention.
Claims (27)
1. flexible signal transmission module comprises:
One first Connection Block;
One first signal line, it is a rectangular structure, the one end connects this first Connection Block; And
One secondary signal circuit, it is a rectangular structure, the one end connects this first Connection Block and arranged side by side with this first signal line adjacent parallel;
Wherein, the end that this first signal line and this secondary signal circuit connect this first Connection Block has one first parallel end fold line respectively, the ora terminalis of this first end fold line and this first Connection Block presss from both sides an angle, this first signal line and this secondary signal circuit are folding in the same way along this first end fold line respectively, and this first signal line and this secondary signal circuit folded portions are overlapped at least.
2. flexible signal transmission module as claimed in claim 1, the wherein ora terminalis of this first end fold line and this first Connection Block folder miter angle, and this first signal line and this secondary signal circuit folded portions are parallel with the ora terminalis of this first Connection Block.
3. flexible signal transmission module as claimed in claim 1, wherein this flexible signal transmission module also comprises one second Connection Block, this second Connection Block is with respect to this first Connection Block setting, and the other end of this first signal line and this secondary signal circuit connects this second Connection Block respectively.
4. flexible signal transmission module as claimed in claim 3, wherein this first signal line and this secondary signal circuit end that connects this second Connection Block has one second parallel end fold line respectively, and the ora terminalis of this second end fold line and this second Connection Block presss from both sides an angle, this first signal line and this secondary signal circuit are folding in the same way along this second end fold line respectively, and this first signal line and this secondary signal circuit are in this first end fold line and opposite in the folding direction of this second end fold line.
5. flexible signal transmission module as claimed in claim 4, wherein this first end fold line and this second end fold line are parallel.
6. flexible signal transmission module as claimed in claim 3, wherein this first signal line and this secondary signal circuit end that connects this second Connection Block is parallel to each other side by side and this second Connection Block is folding relatively, and this second Connection Block this first Connection Block relatively reverses an angle.
7. flexible signal transmission module as claimed in claim 1, wherein this flexible signal transmission module also comprises:
One the 3rd signal line, it is a rectangular structure, the one end connects this first Connection Block and arranged side by side with this secondary signal circuit adjacent parallel; And
One the 4th signal line, it is a rectangular structure, the one end connects this first Connection Block and arranged side by side with the 3rd signal line adjacent parallel;
Wherein, the end that the 3rd signal line and the 4th signal line connect this first Connection Block has a parallel folded inverted line respectively, described folded inverted line presss from both sides an angle with the ora terminalis of this first Connection Block respectively, this folded inverted line has opposite trend with the ora terminalis of relative this first Connection Block of this first end fold line, the 3rd signal line and the 4th signal line fold in the same way along this folded inverted line respectively, and the 3rd signal line and the 4th signal line folded portions are overlapped at least.
8. soft signal transfer line group comprises:
One first Connection Block; And
Many barss circuit, it is parallel to each other side by side, and each bars circuit forms a rectangular structure, and an end connects this first Connection Block;
Wherein, the end that described many barss circuit connects this first Connection Block has one first parallel end fold line respectively, the ora terminalis of this first end fold line and this first Connection Block presss from both sides an angle, described many barss circuit is folded to folded part is not parallel in the same way along this first end fold line respectively, and described many barss circuit folded portions is overlapped at least.
9. soft signal transfer line group as claimed in claim 8, wherein the ora terminalis of this first end fold line and this first Connection Block presss from both sides miter angle, and described many barss circuit folded portions is parallel with the ora terminalis of this first Connection Block.
10. soft signal transfer line group as claimed in claim 8, wherein this soft signal transfer line group also comprises one second Connection Block, and this second Connection Block is with respect to this first Connection Block setting, and the other end of described many barss circuit connects this second Connection Block respectively.
11. soft signal transfer line group as claimed in claim 10, the end that wherein said many barss circuit connects this second Connection Block has one second parallel end fold line respectively, and the ora terminalis of this second end fold line and this second Connection Block presss from both sides an angle, described many barss circuit is folded to folded part is not parallel in the same way along this second end fold line respectively, and described many barss circuit is in this first end fold line and opposite in the folding direction of this second end fold line.
12. soft signal transfer line group as claimed in claim 11, wherein this first end fold line and this second end fold line are parallel.
13. soft signal transfer line group as claimed in claim 10, wherein said many barss circuit connect, and an end of this second Connection Block is parallel to each other side by side and this second Connection Block is not folding relatively, this second Connection Block this first Connection Block relatively reverses an angle.
14. soft signal transfer line group as claimed in claim 8, wherein this soft signal transfer line group also comprises:
Many reflexed signal lines are parallel to each other side by side, and each bar reflexed signal line forms a rectangular structure, and an end connects this first Connection Block; Wherein said many reflexed signal lines are arranged at described many barss circuit one side and are parallel to each other side by side;
Wherein, the end that described many reflexed signal lines connect this first Connection Block has a parallel folded inverted line respectively, described folded inverted line presss from both sides an angle with the ora terminalis of this first Connection Block respectively, this folded inverted line has opposite trend with the ora terminalis of relative this first Connection Block of this first end fold line, described many reflexed signal lines are folded to folded part is not parallel in the same way along this folded inverted line respectively, and described many reflexed signal line folded portions are overlapped at least.
15. a soft signal transfer line group manufacture method comprises the following step:
Many barss that is arranged in parallel circuit; Wherein each bars circuit forms a rectangular structure;
An end that connects described many barss circuit is in one first Connection Block; And
Fold described many barss circuit in the same way along one first end fold line respectively, and described many barss circuit folded portions is overlapped at least; Wherein this first end fold line is positioned at the end that described many barss circuit connects this first Connection Block, and this first end fold line is parallel to each other and presss from both sides an angle with the ora terminalis of this first Connection Block.
Step comprises and cuts a sheet signal line in the same way to form this signal line of many strips 16. manufacture method as claimed in claim 15, wherein said many barss circuit are arranged in parallel.
17. manufacture method as claimed in claim 15, wherein this folding step comprises the folding in the same way described many barss circuit of this first end fold line that presss from both sides miter angle along the ora terminalis with this first Connection Block, and makes described many barss circuit folded portions parallel with the ora terminalis of this first Connection Block.
18. manufacture method as claimed in claim 15, wherein this manufacture method also comprise connect described many barss circuit respectively the other end in one second Connection Block.
19. manufacture method as claimed in claim 18, wherein this manufacture method also comprises respectively along the folding in the same way described many barss circuit of one second end fold line, and described many barss circuit folded portions is overlapped at least; Wherein this second end fold line is positioned at the end that described many barss circuit connects this second Connection Block, this second end fold line is parallel to each other and presss from both sides an angle with the ora terminalis of this second Connection Block, and described many barss circuit is in this first end fold line and opposite in the folding direction of this second end fold line.
20. manufacture method as claimed in claim 15, wherein this manufacture method also comprises:
Many the reflexed signal lines that are arranged in parallel, and make described many reflexed signal lines be positioned at described many barss circuit one side and be parallel to each other side by side; Wherein each bars circuit forms a rectangular structure;
An end that connects described many reflexed signal lines is in this first Connection Block; And
Fold described many reflexed signal lines in the same way along a folded inverted line respectively, and described many reflexed signal line folded portions are overlapped at least; Wherein this folded inverted line is positioned at described many reflexed signal lines and connects the end of this first Connection Block and press from both sides an angle with the ora terminalis of this first Connection Block respectively, and this folded inverted line has opposite trend with the ora terminalis of relative this first Connection Block of this first end fold line.
21. a flexible signal transmission module comprises:
One first Connection Block;
One first signal line, it is a rectangular structure, the one end connects this first Connection Block; And
One secondary signal circuit, it is a rectangular structure, the one end connects this first Connection Block and arranged side by side with this first signal line adjacent parallel;
Wherein, the end that this first signal line and this secondary signal circuit connect this first Connection Block has one first parallel end fold line respectively, the ora terminalis of this first end fold line and this first Connection Block presss from both sides an angle, this first signal line and this secondary signal circuit are folded in the same way along this first end fold line respectively and cover to small part folded part not, and this first signal line and this secondary signal circuit folded portions are overlapped at least.
22. flexible signal transmission module as claimed in claim 21, the wherein ora terminalis of this first end fold line and this first Connection Block folder miter angle, and this first signal line and this secondary signal circuit folded portions are parallel with the ora terminalis of this first Connection Block.
23. flexible signal transmission module as claimed in claim 21, wherein this flexible signal transmission module also comprises one second Connection Block, this second Connection Block is with respect to this first Connection Block setting, and the other end of this first signal line and this secondary signal circuit connects this second Connection Block respectively.
24. flexible signal transmission module as claimed in claim 23, wherein this first signal line and this secondary signal circuit end that connects this second Connection Block has one second parallel end fold line respectively, and the ora terminalis of this second end fold line and this second Connection Block presss from both sides an angle, this first signal line and this secondary signal circuit are folded to and folded part copline not in the same way along this second end fold line respectively, and this first signal line and this secondary signal circuit are in this first end fold line and opposite in the folding direction of this second end fold line.
25. flexible signal transmission module as claimed in claim 24, wherein this first end fold line and this second end fold line are parallel.
26. flexible signal transmission module as claimed in claim 23, wherein this first signal line and this secondary signal circuit end that connects this second Connection Block is parallel to each other side by side and this second Connection Block is folding relatively, and this second Connection Block this first Connection Block relatively reverses an angle.
27. flexible signal transmission module as claimed in claim 21, wherein this flexible signal transmission module also comprises:
One the 3rd signal line, it is a rectangular structure, the one end connects this first Connection Block and arranged side by side with this secondary signal circuit adjacent parallel; And
One the 4th signal line, it is a rectangular structure, the one end connects this first Connection Block and arranged side by side with the 3rd signal line adjacent parallel;
Wherein, the end that the 3rd signal line and the 4th signal line connect this first Connection Block has a parallel folded inverted line respectively, described folded inverted line presss from both sides an angle with the ora terminalis of this first Connection Block respectively, this folded inverted line has opposite trend with the ora terminalis of relative this first Connection Block of this first end fold line, the 3rd signal line and the 4th signal line are folded to and folded part copline not in the same way along this folded inverted line respectively, and the 3rd signal line and the 4th signal line folded portions are overlapped at least.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN200810135684A CN100585950C (en) | 2008-07-09 | 2008-07-09 | Foldable flexible signal transmission module, wire group and manufacture method of the wire group |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN200810135684A CN100585950C (en) | 2008-07-09 | 2008-07-09 | Foldable flexible signal transmission module, wire group and manufacture method of the wire group |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| CN101308962A true CN101308962A (en) | 2008-11-19 |
| CN100585950C CN100585950C (en) | 2010-01-27 |
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| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN200810135684A Active CN100585950C (en) | 2008-07-09 | 2008-07-09 | Foldable flexible signal transmission module, wire group and manufacture method of the wire group |
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| Country | Link |
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| CN (1) | CN100585950C (en) |
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN102832520A (en) * | 2012-08-31 | 2012-12-19 | 惠州Tcl移动通信有限公司 | Circuit board connecting device and manufacturing method thereof, and portable electronic equipment |
| CN105826782A (en) * | 2016-05-09 | 2016-08-03 | 四川长虹电器股份有限公司 | USB3.0 signal extending line system based on FFC flat cable |
| CN106027711A (en) * | 2016-07-28 | 2016-10-12 | 广东欧珀移动通信有限公司 | Circuit board component and mobile terminal |
-
2008
- 2008-07-09 CN CN200810135684A patent/CN100585950C/en active Active
Cited By (5)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN102832520A (en) * | 2012-08-31 | 2012-12-19 | 惠州Tcl移动通信有限公司 | Circuit board connecting device and manufacturing method thereof, and portable electronic equipment |
| CN102832520B (en) * | 2012-08-31 | 2015-07-01 | 惠州Tcl移动通信有限公司 | Portable electronic equipment |
| CN105826782A (en) * | 2016-05-09 | 2016-08-03 | 四川长虹电器股份有限公司 | USB3.0 signal extending line system based on FFC flat cable |
| CN105826782B (en) * | 2016-05-09 | 2018-07-03 | 四川长虹电器股份有限公司 | USB3.0 signal extended line systems based on FFC winding displacements |
| CN106027711A (en) * | 2016-07-28 | 2016-10-12 | 广东欧珀移动通信有限公司 | Circuit board component and mobile terminal |
Also Published As
| Publication number | Publication date |
|---|---|
| CN100585950C (en) | 2010-01-27 |
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