Source: https://patents.google.com/patent/WO2009030068A1/en
Timestamp: 2018-11-19 01:53:03
Document Index: 785261851

Matched Legal Cases: ['arts 17', 'arts 95', 'arts 17', 'arts 17', 'arts 17', 'arts 17', 'arts 17', 'arts 17', 'arts 17', 'arts 17', 'art 16', 'arts 17', 'arts 96', 'art.\n41']

WO2009030068A1 - Fabric with separate inductive area - Google Patents
Fabric with separate inductive area Download PDF
WO2009030068A1
WO2009030068A1 PCT/CN2007/002649 CN2007002649W WO2009030068A1 WO 2009030068 A1 WO2009030068 A1 WO 2009030068A1 CN 2007002649 W CN2007002649 W CN 2007002649W WO 2009030068 A1 WO2009030068 A1 WO 2009030068A1
PCT/CN2007/002649
Yang, Tzu-Lin
Yang, Ching-Wen
A fabric with separate inductive area (10) includes a first layer (12) and an extending part (16). Said first layer (12) has a first inductive area (13), which is conductive, and a non-inductive area (14), which is not conductive and is located around the first inductive area (13). Said extend part (16) has an accessory (17) connected by a connecting wire (18). Said accessory (17) has a second inductive area (172) thereon and the second inductive area (172) is opposite to the first inductive area (13).
Cloth having separate sensing area
The present invention relates to a cloth or leather, and particularly to a fabric having a majority of the sensing region. Background technique
By integrating the conductive material prior to the cloth or leather or a circuit is formed using various technologies as electronic components, wherein part of the conductive material and the technology is consolidated fabric is used as an electronic switch, e.g. U.S. Pat. No. 7,145,432 Case bendable disclosed switching device, which is formed by an electronic Jian off three sequentially laminated fabric layer, in addition, U.S. Patent No. 6,642,467 also discloses the case of a use, the two layers of conductive material sandwiched elastomeric material unity made of electronic switches, then the electronic switch fabric layers generally excessive, and therefore the manufacturing process is more complicated.
Further, U.S. Pat. No. 6,596,955 sucked text conductive material fixed to the slide fastener, since the fastener can only be applied with clothing, so much restrictions on applications, and the user will not be able to repair, furthermore, the Chinese No. CN1666308 patent also discloses a text electronic switch, which is on the second member to form a switch, but because of the cloth is difficult to integrate into one, so the manufacturing process is also more complicated.
Moreover, also used as a signal or current transmission, such as the case of U.S. Pat. No. 7,154,071, however, its complicated manufacturing process also has disadvantages, as US Patent No. 4237886 Patent No. 6,970,731 and second text caught disclosed is the use of mother buckle manner, with a long off easily, while the text of U.S. Patent No. 6,210,771 disclosed a two-piece structure, and may be used as a switch array (swi tch matrix), then an error signal is generated which is not only readily and easily by the amount of sweat or rain wet cloth and affect the efficacy, in addition, the US Patent No. 6,210,771 discloses a structure can only be measured pressure, the tension can not be measured (strai n) a. SUMMARY
In view of the aforesaid shortcomings, an object of the present invention is to provide a sensing area of ​​the separation cloth is worn by the user may be combined with cloth or leather as a whole, easy to carry the user, and without impeding the user to make any physical actions.
Another object of the present invention to provide a fabric having separate sensing area, because the fabric layer is wetted automatically cut off power supply.
A further object of the present invention is to provide a fabric having a separate sensing area, is used as a tension sensor (strai n gauge).
To achieve the above-mentioned technical object, the cloth having a separate sensing region of the present invention comprising a first layer, and an extension portion, the first conductive layer having at least a first sensing region and a non-conductive non-sensing area located around the first sensing region, the extension having a fitting portion, and at least one connecting line connected to the fitting, is formed on the extending portion having a second sensing region corresponds to the position of the first layer of the first sensing region.
Fabric of the present invention having separate sensing area, comprising:
A first layer, at least a first sensing region and a non-sensing area of ​​a non-conductive material is formed having a conductivity of the non-sensing area is located around the first sensing region;
An extension portion having a fitting, and at least one connecting line connected to the fitting, is formed on the extending portion having a second sensing region corresponds to the position of the first layer of the first sensing region. BRIEF DESCRIPTION
1 is a front view of a first preferred embodiment of the present invention;
FIG 2 is a side view of the detailed structure of a first preferred embodiment of the present invention;
FIG 3 is a side view of a second preferred embodiment of the present invention;
FIG 4 is a side view of a third preferred embodiment of the present invention;
FIG 5 is a side view of a fourth preferred embodiment of the present invention;
FIG 6 is a side view of a fifth preferred embodiment of the present invention;
FIG 7 is a side view of a sixth preferred embodiment of the present invention;
FIG 8 is a perspective view of a seventh preferred embodiment of the present invention;
9 is a perspective view of an eighth preferred embodiment of the present invention;
FIG 10 is a perspective view of a ninth preferred embodiment of the present invention;
FIG 11 is a perspective view of a tenth preferred embodiment of the present invention;
FIG 12 is a side view of a preferred embodiment of the present invention in an eleventh embodiment;
FIG 13 is a side view of the present invention, a twelfth preferred embodiment;
FIG 14 is a front view of a thirteenth preferred embodiment of the present invention;
FIG 15 is a front view of a fourteenth preferred embodiment of the present invention;
FIG 16 is a cross-sectional view of the present invention, the preferred embodiment of the fifteenth embodiment; FIG. 17 is a front view of the present invention, a sixteenth embodiment of the preferred embodiment;
FIG 18 is a front view of the present invention, a seventeenth embodiment of the preferred embodiment;
FIG 19 is a preferred embodiment of the present invention, an eighteenth embodiment: FIG perspective;
FIG 20 is a front view of a nineteenth preferred embodiment of the present invention.
0 fabric having separate sensing area
^ The first pattern layer 126 of the first sensing region 13
.4 portion 16 extends non-sensing area 15 reference region
Fitting a second sensing region 172 .7 174 connection line pattern ί 8 --192 output of the control circuit 194
0a cloth having separate sensing area
2a a first layer 13a of the first sensing region 14a non-sensing area
6a extending fitting portion 17a of the second sensing region 172a
8a cable
Ob cloth having separate sensing area
2b groove 13b of the first layer of the first sensing region 121b
4b non-sensing area 16b extending portion 17b fitting
72b of the second sensing region 18b connecting line control circuit 192b
94b exporter
Oc cloth having separate sensing area
2c layer 121 c of the first recess 13c of the first sensing region
4c extending portion 16c non-sensing area parts 17c
Sensing region 72c of the second cable 18c
0d fabric having separate sensing area
Convex surface of the first layer 2d 13d 123d first sensing region 4d non-sensing area 16d extending fitting portion 17d
Second sensing region 72d 18d 174d convex cable
Oe cloth having separate sensing area
The first layer 121 e 2e recess 13e of the first sensing region
4e non-sensing area 16e extending fitting portion 17e
Second sensing region 72e 18e connecting line control circuit 192e
94e exporter
Of cloth having separate sensing area
The first layer 13f perforation 2f first sensing region 125f
4f non-sensing area 16f extending fitting portion 17f
Second sensing region 72f 18f cable
Og cloth having separate sensing area
2g of the first sensing region of the first layer 13g 14g non-sensing area
6g 17g fitting portion 172g extending second sensing region
8g 192g connection line output of the control circuit 194g
Oh cloth having a separate sensing area
A first layer of a perforated 2h 13h 125h first sensing region
Non-sensing area 4h 16h 17h extending portion fitting
Second sensing region 72h 18h cable
0k cloth having separate sensing area
A first perforated layer 2k 13k 125k first sensing region
Non-sensing area 4k 16k 17k extending fitting portion (second sensing region)
20 cloth having a separate sensing region 22 of the first layer of a first sensing region 23 24 25 non-sensing area 262 of the second extending portion 26 fitting sensing region 27 connecting wire 28 reinforcing lines 29 of the second layer
30 cloth having a separate sensing area
32 the first layer 33 of the first sensing region 34 non-sensing area
36 fitting portion 35 extends a second sensing region 362
37 connection line 39 of the second fabric layer 0 has a separation sensing area
2 a first perforated layer 421 of the first sensing region 43 (electroconductive thin line) 44 non-sensing area extending portion 45
6 parts (buttons) 47 of the second sensing region (the line) 49 0 having the second layer of fabric separate sensing region
2 a first perforated layer 521 of the first sensing region 4 53 non-sensing area 55 extending fitting portion 56 (second sensing zone) 61 electronic component 57 is connected a second line 59 having the separation layer 0 fabric sensing area
2 of the first layer 63 of the first sensing region 621 perforations 4 non-sensing area 65 extending fitting portion 66 (second sensing zone) 61 connected to line 68 electronic components 67 cover
The second layer 9 0 fabric having separate sensing area
72 the first layer 721 of the first sensing region 73 perforations
74 non-sensing area 75 extending fitting portion 76
77 connection line (second sensing zone) 79 of the second separation layer 80 having a sensing region of the fabric
82 first layer 83 of the first sensing region (grommet) 84 non-sensing area
85 extending portion 86 fitting connection line 87
The second layer 89
90 cloth having a separate sensing area
921 female fasteners 92 of the first layer 93 of the first sensing region (conductive thin line)
94 non-sensing area 95 extending fitting portion 96 (female fasteners)
97 connection line (second sensing zone) 99 of the second layer
90a cloth having separate sensing area
92a of the first layer 93a of the first sensing region (hook) 94a non-sensing area
Parts 95a extending portion 96a (a second sensing region) connection lines 97a
DETAILED layer 99a of the second embodiment
To better understand the structure and characteristics of the present invention resides, nineteen hereby give the following preferred embodiments with the following description and the accompanying drawings: Referring to FIGS. 1 and 2, a first sensing region having separate preferred embodiment of the present invention provides the fabric 10, containing 12, most of the extension 16, a first layer of a control circuit 192 and an output 194.
The top surface 12 of the first layer comprising a majority of a first sensing area 13, a non-sensing area 14 and the two reference regions 15, 15 may be electrically conductive first loop region 13 and the reference zone, the first loop region 13 It is arranged in a matrix and penetrates the first layer 12, the non-sensing area 14 is located between the first loop 13 and the surrounding region, can be non-conductive and non-conductive non-woven fiber or formed by a magnetically conductive leathers is made, the reference region 15 away from the first sensing region 13; the first sensing region 13 and the reference zone 15 may be employed but are not limited to be formed in the following manner:
1. The non-conductive fibers and conductive fibers is formed by a textile process (Text ile process) woven together, the textile process for knitting (kn itti ng), woven (weav ing) or other suitable process;
2. By embedding conductive metal sheet, or attached to the first layer 12 into the slit is formed; 3. By sewing a conductive thin wire 12 is formed of the first layer;
4 is formed on the first layer 12 is pasted or coated on a conductive substance;
5. The conductive fabric sewn or bonded to the first layer 12 is formed by.
Of the nonconductive fibers may be used but are not limited to, cotton, hemp or nylon, while the conductive fibers may employ multiple molecules conductive fibers or conductive metallic fibers, stainless steel fibers can also be blended together with the non-conductive fibers, or the fibers in the non-conductive coating or incorporation of a conductive material is formed, the conductive fibers comprise a first sensing region 13 is the ratio may be 1 to 100%.
These extensions 16 each having a fitting portion 17 and a connecting line 18, the accessory 17 is spherical, and has an elastic deformation and compression, and any of a fitting surface 17 are formed three annular second sensing region 172 these second sensing region 172 made of conductive material, a first sensing region which is formed in the same manner as the above-described 13, the second sensing region 172 corresponds to the first position of the first layer 13 of the sensing region 12, which is connected line 18 is made of a conductive thin wire braided conductive triple from each other, one end of which is connected to the fitting 17, the other end is connected to the first layer 12 of non-sensing area 14, the connecting wire 18 of the extension 16 are 172 is electrically connected to the corresponding second sensing region, and the extension portion 16 is away from the first region 12 of the reference layer 15, moreover, the fitting 17 may contain a high-density material, such as metal or glass, so that the accessory 17 geocentric vertical direction.
The control circuit 192 is detachably fixed to the first layer 12, may be a printed circuit board or an integrated circuit, the control circuit 192 and the first layer of the first sensing region 13 and 12 of the two reference regions 15 is electrically connected, and 18 connected to these fittings 172 are electrically sensing region 17 through the second connecting line, through which, when the user of the fitting 17 when one of the first layer 12 pressed toward the pressure receiving contacting the second sensing region 172 on the fitting 17 and the corresponding first sensing region 13, so that the first sensing zone 13, the second sensing region 172 and the control circuit 192 form a loop.
The output 194 is electrically connected to the control circuit 192, and is a wireless signal transmitter, when the user presses the different positions of parts 17, the control circuit 192 according to the different loading positions, and the command 194 emit different output signals.
Further, the control circuit 192 also includes a resistance meter, may be used to measure the resistance of the circuit, when greater pressure is applied by the user, the fitting 17 can be deformed by the force, the more so the fitting 17 of the same second sensing region 172 in a manner more closely contact with the first sensing region 13 together, the resistance of the circuit at this time is also smaller; the control circuit 192 is also a built-in resistance threshold, when the resistance of the meter when the measured resistance value is lower than the resistance value Kan, only the control circuit 192 instructs the output device 194 output signals, on the contrary, when the resistance value of the resistance of this circuit is higher than the threshold value, the control circuit 192 will not make any response, in order to avoid inadvertently.
Further, the second sensing region 172 can be designed to be individually connected to the control circuit 192 is electrically insulated from each other by a conductive thin wire three strands, and therefore the parts 17 when the same three second sensing region 172 are in contact with the first sensing region 13, the first sensing zone 13 and the second sensing region 172 may be generated and transmitted simultaneously to the three groups of signals to the control circuit 192, in addition, as the pressure applied by the user of different size, the cloth 10 is turned on also the difference between the number of loops, so that the cloth having separate sensing area 10 may be used as a three-stage switch.
The first layer 12 of the second reference region 15 is separated from each other, and respectively away from the first layer of the first sensing region 13 and 12 of the extension 16, so that when the fabric having separate sensing area 10 in normal use, the two reference regions 15 together form a circuit will not be, and the first 15 nor the actuator 13, the contact region 172 and the second sensing circuit is formed of any one of the reference zone, however, once the two reference regions 15 together form a loop, or when any one of the reference region 15 with any one of the first sensing region 13 or the second sensing region 172 to form a loop, the control circuit 192 will immediately cut off power supply to avoid electrical shock drain the user, but will also command output 194 issues a warning message to alert the user; Similarly, if each of the first sensing region 13 between the first layer 12 is formed if the loop or circuit is formed between the extending portion 172 of each of the second sensing region 16, e.g. when the fabric 10 has separated sensing area stained with sweat or rain affect the use, the control circuit 192 also immediately cut off the power.
Via the above-described structure, the cloth having a separate sensing area 10 may be made by the user wore the laundry, and can be used as a remote control home appliances, a user can press different positions of parts 17, so that the output device 194 issue various kinds of wireless signals to control the television turntable, speaker volume and sound cooling or heating of air conditioning, etc., in addition, the first layer 12 and the fitting 17 has pattern 126, 174 of their functions; as the cloth having separate sensing area 10 is worn by the user in conjunction with the cloth or leather as a whole, and therefore can be easily carried by the user, and without impeding the user performs any body movement.
In addition, the first layer 12 can be formed undergarment worn by the user, and the extension portion 16 disposed outside of the first layer 12, by pressing different parts of the position of the first sensing region 17 to different positions 13 by contact with the user's skin at the measurement, by this, the first sensing region 13 may be used as an electrode to measure body ECG, or to provide electrical nerve stimulation (Transcutaneous Eleetrical nerve St imulat ion; TENS), Further, the cloth having a separate sensing area 10 may provide the current necessary warm clothing, i.e., the cloth having a separate sensing area 10 can be used to transmit not only physiological signals, also for transmitting signals or current from the outside, so that it may also be used as a signal or electric current transmitter.
Further, with the fabric may separate the sensing region 10 is placed under the arms, such that a user can close the upper arm to the chest-side of the circuit is turned on; and the output 194 may be an LED indicator, or a speaker a thin display panel, and emits light, sound or the display position can be pressed to the circuit is turned on.
Further, when the jacket 10 is made of cloth having separate sensing area of ​​a user to be worn on the body, the wearer's body by analyzing various parts of the first and second sensing region 13, 172 is turned on or not the difference is judged to operation of the wearer, e.g., 13, 172 that are separated by a first, a second sensing region at the wearer's chest, and back at the first, second sensing region 13, 172 contact with each other, the wearer can determine stoop, through this, the cloth having a separate sensing area 10 can be used as a detector posture change.
Since the resistance of the circuit because of the size of the fitting 17 to withstand various pressures vary, so that the cloth having a separate sensing area 10 may be used as a variable resistor or a pressure sensor (pressure gauge)
Further, the cloth having a separate sensing area 10 may be used as a switch array (switch matrix) or keyboard (Keyboard), i.e. a short circuit to the electronic switch (ON) and open the circuit through the high and low resistance values ​​( OFF), furthermore, when the user presses these parts 17, due to the fitting 17 is deformed by the force, and therefore the user can feel this has been really depressed parts 17, 17 when the accessory user's finger to leave, use these accessories are also felt 17 is reinstated by the elastic action; Further, when the cloth having separate sensing area 10 may provided only a single first and a single sensing region 13 extending portion 16, and is used as a single electronic switch .
The cloth having separate sensing area 10 on the structure, in fact, also has a variety of changes, Please refer to FIG. 3, a second preferred embodiment of the present invention provides a fabric having separate sensing region 10a of the foregoing embodiment examples provided substantially the same structure, which is different only in that the first layer 12a of the first sensing region 13a of the first layer 12a is formed on the surface only, and not penetrating the first layer 12a, and any of the extension portions 16a each comprising two cable connection fitting 17a and the first layer 18a 12a, 17a to the fitting fixed to the specific position, and the accessory 17a is made of a rigid material.
Because of its first and second conductive areas 13a, 172a are formed only between the first layer 12a and the accessory 17a, it can effectively prevent the fabric by the first layer 10a and the shorting 12a discounts; In addition, since the parts 17a is made of a rigid material, itself is not deformed due to a force, such that the resistance value of the fixed circuit, so that the cloth having a separate sensing region 10a may be used as a passive resistor assembly. Furthermore, the accessory 17a can be designed to be made of an elastic material through which, when the user pulling force toward the upper and lower sides of the first layer 12a, the fitting 17a through which the tension of the connecting line 18a close to the first conductive region 13a, and thus the resistance value of the circuit is changed and the resistance is due to the size of a user with different force varies, so that the cloth having a separate sensing area 10a may be used as a tension sensor (strain gauge) is used.
Further, the cloth having a separate sensing area 10a can also be made by the user wore the shirt, since the user's inhalation, exhalation, or that various limbs can make the cloth having separate sensing area 10a is subjected to tension the size of a difference, so that the cloth having a separate sensing area 10a may be used as a detector posture change or the breathing detector -.
Further, also shown in Figure 4, a recess 121 b is formed for accommodating parts 17b on the side of the first layer 12b, a first sensing region 13b is formed on the first layer with respect to the fitting 12b and 17b the other side, and its position corresponds to the recess 121 b, since the first and second sensing region 13b, 172b can be electrically conductive, they can together form a capacitor, and the control circuit 192b may include a capacitance meter for measuring the amount of the first and second sensing region 13b, 172b capacitance values ​​formed through this, the control circuit 192b according to a variation in capacitance value of the first, second sensing region relatively close to 13b, 172b or away caused to control 194b output of signals.
Further, since the fitting 17b is received in the recess 121b, the user can be effectively avoided inadvertently 17b of the second fitting sensing region 172b.
When the first fixing, the relative position of the second sensing region 13b, 172b, and this fabric has a separation sensing region 10b may be used as passive capacitance value of the fixed capacitor module is used, and also by changing the first designer, second sensing region 13b, 172b or spacing area to design the various passive components different capacitance values ​​of the capacitance; and when the first fabric, the second sensing region 13b, 172b when the relatively movable or deformable, having separate sensing area of ​​the 10b may be used as a variable capacitor; Further, since the change in the capacitance value is related to the first, 13b, the pitch variation of the second sensing area 172b, so that the situation can change over time by analyzing the capacitance value, that further movement speed or acceleration of the accessory 17b, and thus the separation cloth having a sensing area 10b may be used as a velocity or acceleration detector.
5 also, the extension portion 16c of the fitting 17c shape and size designed to correspond to the groove 121 c of the first layer 12c by this, when the accessory 17c completely received in the groove 121 c, the the fabric has a separation surface 10c is to maintain a flat sensing area, to increase the aesthetic, in addition, the first layer 12c of the first sensing region 13c is located inside the first layer 12c. Please refer to FIG. 6, the embodiment provides substantially the same structure, which is different only in that a fifth preferred embodiment of the present invention provided with the fabrics 10d having separate sensing regions embodiment, on a first layer 12d is formed with a convex 123d, and 12d of the first layer is a majority of the annular first sensing region 13d is formed on the convex surface 123d, which has two fitting 17d is a second sensing region made of a conductive material 172d, and the fitting 17d and 174d having a concave surface conformable contact with the convex surface 123d, contact with each other through the first and second sensing regions at different positions 13d, 172d of the first and second sensing region 13d, 172d may be generated transmission signal to the different Control circuit.
Please refer to FIG. 7, the embodiment provides substantially the same structure, which is different only in the sixth preferred embodiment of the present invention provides a fabric having separated the 10e and sensing region embodiment, a first layer of first sensing 12e 13e is a region 121 e inner wall surface in the recess, and fitting l? e of the second sensing region 172e is shaped like a hemisphere, and the output of the control circuit 192e and 194e are disposed on the accessory 17e is placed, via a connection line and 18e 12e is electrically in contact with the first sensing region.
Please refer to FIG. 8, the embodiment provides substantially the same structure, which is different only in that the seventh preferred embodiment of the present invention provides a fabric 10f having separate sensing region with the embodiment, a first layer having a through hole 12f is 125F, and the first layer of the first sensing region 12f 13f is formed by sewing a conductive thin wires on the hole edge of the through perforations 12f, 12f of the first layer comprising a resilient material, for example elastic fibers or rubber, so the perforation 125f can be stretched moderately, a second sensing region is on a strip-shaped parts 17f 172f, and is formed by sewing a conductive thin wires on the accessory 17f.
Please refer to FIG. 9, an eighth preferred fabric of the present invention having separate sensing region 10g embodiment is provided comprising a first layer 12g, an extension part 16g, a control circuit 192g, and 194 g of an output member, the first a first layer 12g, 13g sensing region is annular, the extension portion comprising a fitting 16g 17g, 18g and the first connection line connecting the accessory 17g and 12g of the first layer of non-sensing area 14g, 17g of the fitting two sensing area 172g is made of magnetic material, the connecting member 18g is not electrically conductive, through which, when the accessory 17g toward or away from the first layer 12g, the second sensing region 17g of the fitting allows the ring 172g shaped first sensing region 13g induced electromotive force, the control circuit 192g can detect the induced electromotive force, and 194g send a signal based on the magnitude of the induced electromotive force command to the output member, i.e., the cloth having a separate sensing area 10g is used as a passive inductive component.
Please refer to FIG. 10, the embodiment provides substantially the same structure, which is different from that of the ninth preferred embodiment of the present invention provides fabric 10h having separate sensing region with the embodiment, the perforation 125h 12h of the first layer is in the form triangle, the cloth having a separate sensing region 10h having three to a first sensing region 13h are formed on three sides of the perforation 125h, 17h and its accessories are triangular cone, and having a second three 172h are formed in the sensing region the three parts of the side surface 17h, 18h and the number of connecting lines into three tapered parts 17h allows a user to more easily insert it into the perforation 125h, so that the designer can be improved by reducing the size of the through-hole 125h market acceptance of the cloth 10h.
Further, since the shape of the perforation 125h and the accessory 17h showed a non-circular, so that the user may be directed to the rotary fitting 17h to an appropriate angle before inserting the through hole 125h, 172h such that the second sensing region may be more precisely with the first loop region 13h then paste.
Please refer to FIG. 11, the embodiment provides substantially the same structure, which is different in that a tenth preferred embodiment of the present invention provides the cloth with 10k sensing area having separate embodiment, the first sensing of a first layer 12k area 13k is formed by a conductive thin wires wound spirally in a manner slit 125k perforation hole edge, extending fitting portion 16k 17k is made of magnetically permeable material and form a second sensing region 17k, and the accessory 17k is cylindrical, the connecting lines extending portion 16k 18k are made of metal and spirally wound in the accessory 17k, through which, when the connecting cord and the powered accessory 18k 17k away from or toward the perforations when 125K, the accessory 17k is the first sensing region can generate an induced electromotive force 13k; Since the accessory 17k is cylindrical in shape and therefore has the advantages of easy design and manufacture.
Please refer to FIG. 12, an eleventh preferred embodiment of the present invention provides a fabric having separate sensing area 20 includes a first layer 22, an extension portion 25, a second layer 29, a control circuit (not shown in FIG. ) and an output unit (not shown), the extension portion 25 of connecting wire 27 is made of metal, and connected to the fitting 26 and the second layer 29, the control circuit is also connected via the line 27 with the the fitting 262 is electrically connected to the second sensing region 26, moreover, the extension portion 25 further includes a non-conductive reinforcement wire 28 are respectively connected to the fitting 26 and the second layer 29, so that the fitting 26 can be more firmly fixed 29 to the second layer.
Please refer to FIG. 13, the structure of the embodiment is provided with the cloth 30 having separate sensing region according to an eleventh preferred embodiment of the present invention is provided in a twelfth preferred embodiment is substantially the same, which is different only in that 36 parts through the connection line 37 is sewn to the second layer 39.
Via the above-described structure, the manufacturer may be respectively a first layer 32 and second layer 39 are respectively made trousers for the user and the undergarment worn on the body, and the first, second sensing region 33, 362 is placed near the user abdominal at by this, the user can by urging the abdomen and gasping for air, so that the first sensing region 33 and the second close contact sensing region 362, so that the resistance of the circuit is reduced, thereby enabling the output of signals, in the same manner, the control circuit which can change the capacitance value of the formed first by detecting the sensing region 33 and the second sensing region 362, to cause the output of signals, further, the first sensing region 33 may annular design, so that the control circuit may command the output of the electromotive force signals induced by the first sensing region 33 is formed.
Further, the first layer may also be laid on the seat 32; and the second layer 39 is made of an outer jacket or pants worn for a user, through this, the user can correct or not to correct the pressure parts in accordance with sitting; the first layer 32 may also be laid on the surface of the sheets, and the second layer 39 may be made of an outer jacket or trousers worn for patients with chronic diseases, through this, to the position of the caregiver and the pressure receiving portion pressure the length of time for patients to timely turn over, or to know whether the patient falling from the bed.
Based on the spirit of the present invention, the cloth having a separate area on the sensing structure, in fact, also has a variety of changes, refer now to FIG. 14, the cloth having a separate sensing area of ​​a thirteenth embodiment of the present invention is provided in the preferred embodiment 40 Also it includes a first layer 42, an extension portion 45, a second layer 49, a control circuit (not shown), and an output unit (not shown), the first layer 42 having a through hole 421, the majority of the conductive and a thin wire 43 non-sensing area 44, the conductive thin wire 43 is sewn to the edge of the perforation hole 421, and forming the first layer of the first sensing region 42 is 43, the first loop region 43 is separated from each other, the non-sensing area 44 is formed around the first loop region 43; the extending portion 45 having a fitting 46 and two connecting lines 47, the fitting 46 is a button and is made of an insulating material, and through which two slit lines 47 is connected to the second layer 49, the two connection lines 47 are made of conductive material, and a second sensing region is formed in the extension portion 45 of 47, 47 and the two connecting wire placed through the second 42142 perforated layer, the first layer 42 is located in the fitting 46 and the Between the floor 49; By this, the user can relative to the first layer 42 and second layer 49 is pulled, so that the second layer 49 and drives the button 46 moves along the perforations 421, through the connection lines 47 contact with the first sensing region of 43 different positions, the control circuit controlling the output device to make all kinds of signals, i.e., the fabric having separate sensing area 40 is used as a signal generator.
Further, also in the peripheral edge of the connecting line 47 is coated with an insulating material, through which the control circuit may detect the change in capacitance connection line 47 and the first sensing region 43 is formed by controlling the output It emits a signal.
Referring now to Figure 15, a fourteenth preferred embodiment of the present invention provides a fabric having separate sensing region 50 of the embodiment is substantially the same structure provided with the thirteenth preferred embodiment also includes a first layer 52, a extending portion 55, a second layer 59, a control circuit (not shown), and an output unit (not shown), which is different in that the first layer of the first sensing region 52 is a schematic 53 of a circular shape, and the hole edge perforations 521 spaced apart a predetermined distance, and the fitting 55 by a conductive material 56 made of the extending portion, and likewise a button 56, and the extending portion 55 of the second sensing region 56 is formed, and the extending portion 55 further includes an electronic component 561 disposed on the button 56, and 57 electrically connected to the cable, the electronic component 561 can include an integrated circuit (Integrated Circu it; IC), a light emitting diode (Light Emi t ing Doide; LED), sensor device, antenna, speakers, microphone, a resistor, a capacitor or an inductor. "
The user can force the button 56 is inclined and in contact with the first layer 53 of a first sensing region 52, in addition, also in the bottom surface of the button 56 coated with a layer of insulating material, such as plastic, so that the user can by pressing the button a difference of the first and second capacitance sensing region 53 formed by the 56 values.
Please refer to FIG. 16, a fifteenth preferred embodiment of the present invention to provide fabric 60 with the sensing region has a separation thirteenth preferred embodiment provides substantially the same structure, which is different only in its extension 65 further includes a top cover 68 provided in the fitting 66, and an electronic component 661 provided in the cap 68, and the electronic component 661 is electrically connected to the connection line 67, the accessory 66 is made of conductive material and is a button 66, and a second portion extending form the sensing region 65 is 66, the cap 68 by the insulating material made, in order to avoid direct user contact with the fitting 66 by an electric shock.
Please refer to FIG. 17, a sixteenth embodiment of the present invention, the preferred embodiment is provided with separate fabric with the sensing area 70 provided in the preferred embodiment is substantially the same structure, the same having a first layer 72, a portion 75 extending , a second layer 79, a control circuit (not shown) and an output C¾ ^ not shown of the first layer 72 and a through hole 721 a dream - region 73, the first region 73 should be ¾ by conductive fine line sewn around the through-hole 721 is formed, and spaced apart a predetermined distance between the edge of the perforation hole 721, the extension portion 77 of connecting wire 75 is made of metal, and forming the second sensing portion 75 extending region 77, the fitting 76 is made of an insulating material, by moving the second sensing region 77, the first, second sensing region 73, formed by the capacitance value of 77 will change the control circuit according to the this change in capacitance of the output device to control signals; Further, the cloth having a separate sensing area 70 can be designed to be the first sensing region 73 is formed on the first layer, the hole edge 72 of the perforation 721, and fitted to the cable insulation material 77 of the outer coating.
Please refer to FIG. 18, a seventeenth embodiment of the present invention is provided in the preferred embodiment has a separation cloth 80 has a sensing area extending portion 85 of the same embodiment with the sixteenth preferred embodiment, the second layer 89, a control circuit (FIG. not shown) and an output device (not shown), which is different only in that a first layer 82 having a retaining ring 83, the retaining ring 83 is made of conductive fabric and has elasticity, and forming the first a first layer 82 of the sensing region 83, through which the retaining ring 83 may be provided by a sleeve fitting 86 and in contact with the connecting line 87, the circuit is turned on, the integrated circuit may also be provided on the fitting 86, the LED or antenna, and connected to the connection line 87.
Please refer to FIG. 19, the cloth having a separate sensing region of an eighteenth embodiment of the present invention is provided in the preferred embodiment 90 also has a first layer 92, two extending portions 95, a second layer 99, a control circuit (not shown) and an output unit (not shown), the first layer 92 includes two female fasteners 921 each through a third conductive thin wire 93 sewn to the non-sensing area 94, the female fasteners 921 are made of an insulating material prepared to each respective conductive thin wires 93 are a first layer 92 of the first sensing region 93 is formed, and electrically connected to the control circuit, the two extending portions 95 each comprise a fitting 96 and three connection lines 97, the fitting these connection lines 96 are slits 97 on the second layer 99, which is a well-fitting% fastener 96 and is made of insulating material, the fitting 96 is detachably fixed to the female fastener 921, the connection lines 97 are also formed in the respective sensing region 97 extending second portion 95, through which a user by engaging the male fastener 96 and the female fastener 921, the first loop 93 and the zones second sensing region 97 contacting the conductive circuit is formed, and on the male fasteners 96 and Renyi Cheng female fasteners 921 Each having three different current or signaling; in addition, the number of such male fasteners and the female fasteners 96 to 921 may also be one or three or more, and on the number of male fasteners 96 may also be more or less than these female fasteners 921.
Please refer to FIG. 20, the cloth having a separate sensing region of a nineteenth embodiment of the present invention is provided in the preferred embodiment having a first layer 90a 92a, an extension portion 95a, a second layer 99a, a control circuit (not 93a illustrates a first sensing region), and an output unit (not shown), the first layer 92a having a hook 93a, the hook 93a is made of electrically conductive material, and is formed of the first layer 92a the extension portion 95a is a second sensing region 96a having a fitting 96a through a connecting seam line 97a to the second layer 99a, the accessory 96a is made of conductive material and formed in the extending portion 95a of the connecting line 97a It is made of metal, through this, the hook 93a may be formed by a circuit card to the hook parts 96a.
Based on the spirit of the present invention, the cloth having a separate sensing area actually has many variations, such as the built-in control may also be time threshold (e.g. 3 seconds) within the circuit, when the first and second conductive sensing region when this time period is higher than the threshold value, it instructs the control circuit emits an output signal, in order to avoid inadvertently, such that whenever and easily think of various changes, should be protected scope of the appended claims is encompassed.
A separating fabric having a sensing area, characterized by: comprising:
A first layer having at least a first electrically conductive sensing area, and a non-sensing area of ​​a non-conductive material is formed, the non-sensing area is located around the first sensing region;
An extension portion having a fitting, and at least one connecting line connected to the fitting, is formed with a second sensing area corresponding to the location of the first sensing region of the extension portion of the first layer.
2. The fabric has a separation sensing region according to claim 1, wherein: the connecting line is connected to the non-sensing area of ​​the first layer.
3. The fabric has a separation sensing region according to claim 1, wherein: the second sensing area is located on the accessory.
4. The fabric has a separation sensing region according to claim 1, wherein: the extension portion comprises a cap disposed on the fitting, the cap is made of insulating material.
5. The fabric has a separation sensing region according to claim 1, wherein: the connecting wire is made of conductive material.
6. The fabric has a separation sensing region according to claim 1, wherein: the extending portion includes a part disposed on the electronic parts, the electronic component is connected electrically to the connection line, the integrated electronic component comprising circuits, light emitting diodes, inductors, antennas, speakers, microphone, a resistor, capacitor or inductance.
The connection to the electronic component and the extending portion comprises a cap disposed on the fitting, and an electronic component disposed on the top cover: 7. The fabric has a separation sensing region according to claim 1, characterized in that line is electrically connected to the electronic component comprises an integrated circuit, light emitting diodes, inductors, antennas, speakers, microphone, a resistor, capacitor or inductance.
8. The fabric 1 has a separation or a sensing region according to claim 5, wherein: the connecting wire is electrically connected to the second sensing area of ​​the extending portion.
9. The fabric has a separation sensing region according to claim 1, wherein: the connecting wire is formed a second extending portion extending portion of the sensing region.
10. A cloth having a separate sensing region according to claim 1, wherein: the connecting wire periphery covered with an insulating material.
1 1. The fabric has a separation sensing region according to claim 1, wherein: the extending portion of the fitting spherical, conical or cylindrical.
12. A cloth having a separate sensing region according to claim 1, wherein: the first layer of the first sensing region through the first layer.
13. A cloth having a separate sensing region according to claim 1, wherein: the first layer of the first sensing region is formed in the first inner layer.
14. A cloth having a separate sensing region according to claim 1, wherein: the first sensing region of the first layer or the current as a signal transmitter.
15. A cloth having a separate sensing region according to claim 1, wherein: the first layer formed on the first sensing region relative to the other side of the fitting.
16. A cloth having a separate sensing region according to claim 1, wherein: the first conductive region and the second conductive region is formed via a conductive fiber textile processes.
Fabric having separate sensing area as claimed in claim 16, wherein: the process is a knitted or woven plain weave.
18. The fabric has a separation sensing region according to claim 1, wherein: the first conductive region and the second conductive region via the conductive metal sheet is embedded, attached to, or sewn into the first layer is formed.
19. The fabric has a separation sensing region according to claim 1, wherein: the first conductive region and the second conductive region by sewing a conductive thin wire of the first layer is formed.
20. The fabric has a separation sensing region according to claim 1, wherein: the first conductive region and the second conductive region in the first layer by applying a conductive coating material or a paste is formed.
21. The fabric has a separation sensing region according to claim 1, wherein: the first conductive region and the second conductive region of the conductive fabric sewn or bonded to the first layer is formed by.
22. The fabric has a separation sensing region according to claim 1, wherein: the second sensing region extending portion being made of conductive material.
23. The fabric has a separation sensing region according to claim 1, wherein: the second extending portion of the sensing region is made of a magnetic material or a magnetically conductive material.
24. The fabric has a separation sensing region according to claim 1, wherein: the number of the extending portion is two or more.
25. The fabric having a sensing region of the separation of claim 24, wherein: the array is used as a switch or a keyboard.
26. The fabric has a separation sensing region according to claim 1, wherein: the number of the first layer of the first sensing region is two or more.
27. The fabric has a separation sensing region according to claim 1, wherein: the number of the extending portion of the second sensing region is two or more.
28. The fabric has a separation sensing region according to claim 1, wherein: the number of the connecting lines is two or more.
29. The fabric has a separation sensing region according to claim 1, wherein: the wire connecting portion extending from the plurality of conductive thin wires knitted together.
30. The fabric has a separation sensing region according to claim 1, wherein: the extending portion includes a non-conductive reinforcement wire connected to the fitting. .
31. The fabric has a separation sensing region according to claim 1, wherein: the elastomeric material comprises a cloth layer.
32. A cloth having a separate sensing region according to claim 1, wherein: the second sensing region extending annular portion or strip.
33. A cloth having a separate sensing region according to claim 1, wherein: the first layer has a recess for receiving the fitting.
34. The fabric has a separation of the sensing region as claimed in claim 33, wherein: the first layer of the first sensing region is located in the recess.
35. The fabric has a separation of the sensing region as claimed in claim 33, wherein: a shape corresponding to the size fitting to the recess of the first layer.
36. The fabric has a separation sensing region according to claim 1, wherein: the first layer having a convex surface, the first layer of the first sensing region is located on the convex surface.
37. The fabric having a sensing region of the separation of claim 36, wherein: the accessory has a concave surface to the convex surface then paste.
38. The fabric has a separation sensing region according to claim 1, wherein: the first layer having a through hole, the first sensing region is formed in the periphery of the perforation.
39. The fabric has a separation sensing region according to claim 38, wherein: the first sensing region is formed in the perforation hole edge.
40. The fabric has a separation sensing region according to claim 38, wherein: the first sensing region and the perforation hole edge there is a predetermined distance apart.
41. The fabric has a separation sensing region of claim 1 or claim 38, wherein: the connecting wire placed through the perforation.
42. The fabric has a separation sensing region according to claim 1, wherein: the accessory is a button.
43. The fabric has a separation sensing region according to claim 1, characterized in that: a second layer comprising a connection line connected to the extension portion.
44. The fabric having a sensing region of the separation of claim 43, wherein: the first layer is located between the second layer and the accessory.
45. The fabric having a sensing region of the separation of claim 43, wherein: the first layer comprises a female fastener by sewing a conductive thin wire to the non-sensing area, the conductive thin wires forming the first layer a first sensing region.
46. ​​The fabric having a sensing region of the separation of claim 45, wherein: the extending portion fitting is a male fastener, the male fastener detachably fixed to the female fastener.
47. The fabric has a separation sensing region according to claim 1, wherein: the first layer comprises a retaining ring, the retaining ring is made of conductive material, the retaining ring forming the first layer of the first sensing area.
48. The fabric having a sensing region of the separation of claim 47, wherein: the retaining ring is resilient.
49. The fabric has a separation sensing region according to claim 1, wherein: the control circuit includes a first layer are respectively connected to the first electrical sensing zone.
The reference region of the first sensing region of the first layer, and extending away from the first layer comprises at least one conductive reference area: 50. A fabric as claimed in having separate sensing region according to claim 49, characterized in that section, and connected electrically to the control circuit.
51. The fabric has a separation of the sensing region as claimed in claim 50, wherein: the number of the reference area is two or more, the control circuit determines whether or not the drain circuit is formed between them based on whether the reference area.
52. The of claim 50 having the separation cloth sensing area, wherein: the control circuit is formed to determine whether the loop between the drain according to the first sensing region and the reference region.
53. The fabric has a separation sensing region according to claim 50, wherein: the control circuit is electrically connected to the second sensing area of ​​the extending portion, according to whether the circuit is formed between the reference area and the second sensing region to determine whether leakage.
54. The method of claim 49 having the separation cloth sensing area, wherein: the control circuit comprises a capacitance meter or resistance meter.
55. The method of claim 49 having the separation cloth sensing area, wherein: the control circuit detects induced electromotive force of the first layer of the first sensing region generated.
56. The fabric having a sensing region of the separation of claim 49, wherein: the output includes a circuit connected electrically to the control.
57. The fabric has a separation sensing region according to claim 1, wherein: the first layer having a pattern on the accessory or to display its function.
58. The fabric has a separation sensing region according to claim 1, wherein: the accessory is the vertical center of the earth.
59. The fabric has a separation sensing region according to claim 1, wherein: is used as a switch.
60. The fabric has a separation sensing region according to claim 1, wherein: is used as a pressure sensor or a tension sensor.
61. The fabric has a separation sensing region according to claim 1, characterized in that: used as a signal generator.
62. The fabric has a separation sensing region according to claim 1, characterized in that: used as a detector posture change.
63. The fabric has a separation sensing region according to claim 1, characterized in that: used as a respiratory monitor.
64. The fabric has a separation sensing region according to claim 1, characterized in that: used as the resistive element.
65. The fabric has a separation sensing region according to claim 1, characterized in that: used as an inductor component.
66. The fabric has a separation sensing region according to claim 1, characterized in that: used as the velocity or acceleration detector
67. The fabric has a separation sensing region according to claim 1, characterized in that: used as a capacitance component.
68. The fabric has a separation sensing region according to claim 1, wherein: the first layer of the first sensing region used as an electrode.
PCT/CN2007/002649 2007-09-04 2007-09-04 Fabric with separate inductive area WO2009030068A1 (en)
PCT/CN2007/002649 WO2009030068A1 (en) 2007-09-04 2007-09-04 Fabric with separate inductive area
JP2010522168A JP5520825B2 (en) 2007-09-04 2008-09-03 Cloth material with separate conductive areas
EP20080800566 EP2228007A4 (en) 2007-09-04 2008-09-03 Cloth comprising separable sensitive areas
PCT/CN2008/001570 WO2009033361A1 (en) 2007-09-04 2008-09-03 Cloth comprising separable sensitive areas
US12676564 US8331097B2 (en) 2007-09-04 2008-09-03 Cloth comprising separable sensitive areas
CN 200880103798 CN102215745B (en) 2007-09-04 2008-09-03 Cloth having separate sensing area
WO2009030068A1 true true WO2009030068A1 (en) 2009-03-12
ID=40428424
US (1) US8331097B2 (en)
EP (1) EP2228007A4 (en)
JP (1) JP5520825B2 (en)
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