TW201041531A - Adjustable intelligent garment - Google Patents

Abstract

An adjustable intelligent garment comprises a passage formed in the garment in which a band of cloth is arranged. An accessory, such as a a lock cord, is provided outside the passage to fix the length of the cloth band in the passage. Furthermore, an electrode is formed of a three-dimensional material and a conductive material. A connection portion connects the electrode to the garment. The connection portion allows for free movement between the electrode and the garment. The accessory can be replaced by a motor.

Description

201041531 VI. Description of the Invention: [Technical Field] The present invention relates to an adjustable smart type of clothing, and more particularly to a wearable electrode combined with a wearable article such as clothes, * ( Garment), this adjustable smart clothing can receive physiological signals or 'transmitting currents and transmitting impulses. This system can receive physiological signals of the human body' such as electrocardiogram, brain wave, electromyography Or send a signal to measure respiratory, body fat, perspiration, and efferent current to produce transcutaneous electrical stimulation (TENS) or electric shock. 〇[Prior Art] By reading human physiological signals or introducing current into the human body, traditionally, instead of using a conductive jelly electrode, vacuum rubber is used to suck the ball, but it is not natural and suitable for the skin. Harmful, can not be used for a long time, so currently use cloth electrodes or dry electrodes such as conductive rubber to read ECG, brain waves, EMG, breathing (impedancepneumography), body fat and humidity or external supply of current to TENS (transcutaneous electricity) Stimulation) or electric shock, for example, US pub. No 2005/0054941 (Appl. NolO/922, 336) Physiologic monitor garment; US pub. No 2007/0127187 (Appl. 11/672, 742) Textile-base electrode ; pub. No </ RTI> </ RTI> <RTIgt; Appl. 10/5091236 ) Wearable monitoring system and method of manufacturing of a wearable monitoring system ; US Pub. 201041531

No 2007/0285868 (Appl. 11/808391) Sensor arrangement; US Pub. No 2008/0064970 (Appl. 11/576765) 12 lead ECG Fabric electrode belt system 'But there is a problem that the wearable electrode is in the movement of the human body It will also move with it, so it is often necessary to apply a large fixing force to the electrode. For example, the wearable clothes should be worn tightly so that there is no relative movement between the electrodes and the body, but the user will be uncomfortable and practical. There is no good signal or stable current stimulation (TENS or electric shock), and now we have developed adjustable smart clothes to achieve this. At the same time, another problem with the wearable electrode is that it is comfortable and fit, but most of the clothes designed and manufactured in the same way are only XL (extra large), L (large), Μ (medium), s (small). Convenient for production, the invention also has to achieve the goal of mass production, without the need to personally design but can comfortably receive the desired physiological signal, outgoing signal or outgoing current. SUMMARY OF THE INVENTION In view of the above-mentioned deficiencies of the present invention, the garment includes a channel on the garment, a strip of cloth in the passage, and a Q-accessory on the outside of the passage. To visualize the ribbon tree in the channel length, such as a rope buckle, another electrode is composed of a combination of a three-dimensional material and a conductive material, and the electrode is connected to the clothes by a connecting portion, which makes the electrode and the clothing both Freely movable, that is, __ structural changes, to reduce the noise of human body movements or external forces, accessories can also be replaced by motors. The three-dimensional and ~-structure of the electrode may be an elastic body such as cotton, sponge, rubber, and the belt-like cloth may be an elastic band or a pandex, and an elastic material such as an elastic yarn or an elastic thread may be used for the same joint portion. The signal or current quality of Yan Yan is better. Because clothing such as clothing or socks are only large, medium and small size, such as adjustment, Xian ___ such as rope buckle to ridicule 201041531 ribbon cloth in the length of the channel, so it is more convenient and allows people of different sizes to Convenient to use, there is a sensor between the accessory and the strip fabric to sense the length of the strip fabric in the channel, such as the sensor, and we can also replace the accessory with the card, the strip fabric The automatic lengthening is short. This secret can be used to make heart _, heartbeat, breathing, body fat, etc., and can also be used to provide transcutaneous electrical stimulation (10) s) or electric shock. [Embodiment] For the further step-by-step _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ , general and its effects, the seven items of Silk Town. The first figure is a schematic view of a conventional Lai electrode garment of the present invention; ^ ΞΓ Γ 示意图 示意图 示意图 示意图 Γ Γ Γ Γ Γ Γ Γ Γ Γ Γ Γ Γ Γ Γ Γ Γ Γ Γ Γ Γ Γ Γ Γ Γ Γ Γ Γ Γ Γ Γ Γ Γ Γ Γ Γ Γ The fourth figure is the electrocardiogram of the present invention _ existing adjustable smart clothing measurement; the fifth picture is the present day (four) - the preferred thin section of the diagram; the first, the figure is the hair of the five The electrocardiogram of the adjustable smart clothing measurement; the seventh figure is a schematic diagram of the subtraction of the two-touch compensation; the second preferred embodiment is a side view; the ninth figure is the second preferred embodiment of the present invention. The eleventh figure is a cross-sectional view of the third preferred embodiment of the present invention; the tenth figure is a cross-sectional view of the itit# of the present invention; the eleventh figure is the fifth preferred embodiment of the present invention. FIG. 13 is a schematic view showing a motor replacement fitting according to a sixth preferred embodiment of the present invention; and FIG. 14 is a seventh preferred embodiment of the present invention. Ribbon fabric with conductive material Figure; The structure of all wearable sensor devices is worn on people (such as clothes, pants, underwear, skirts) or on people (such as socks, hats, scarves, masks, etc.). Traditional clothing has dimensions, and it can be used for the general public and is convenient for mass production. The classification of XL (extra large), L (general), Μ (--), S (small size) is not completely consistent. The personal size of each person, of course, the premise of these clothes is comfortable, so that the user does not feel the presence of a sensor. For example, as shown in FIG. 1, the garment 1 provided for the wearable electrode 2 of an electrocardiogram (brain wave or electromyogram, heartbeat (heart), heartbeat variation (hrv)) may be used for measuring body fat and venous embolism (Impedance phlebography). ), cardiac output (impedance cardi〇graphy), impulse pneumography, humidity Galvanic skin Response (GSR) clothing, can also be used as TENS (transdermal electrical stimulation therapy) or electric shock. 〇 When the average person moves, the relative position of any electrode 2 and skin will be distorted when the physiological signal, outgoing signal or stimulation current is distorted. Therefore, it is often necessary to wear the clothes tightly so that the electrode 2 is not casual. Moving 'but still can't get satisfactory signal or stimulating current, the wearer also feels uncomfortable' means that ECG, EMG, brain wave, breathing, body fat, fishing degree, τ brain, electric shock stability and reliability are very Poor, so how to achieve reliable signal and current and user comfort is an important issue at present. When the electrode 2 is a combination of a three-dimensional material and a guide material, for example, the electrode 2 is the cloth electrode 2 and the three-dimensional material is an elastic body 3. Referring to FIG. 2, the purpose is to make the pressure of the electrode 2 and the human body 13 more complicated than the clothes 1. The pressure between the human body and the human body is large, for example, the elasticity of the 201041331 body 3 is not increased, and the electrocardiogram (ECG) when the electrode 2 is directly at the same level as the clothes 1 is shown in Fig. 3; the elastic body 3 is between the electrode 2 and the clothes. Cylindrical, the results please refer to Figure 4, which means that if only the electrode 2 and the human body 13 close to the signal, the effect is better than the signal difference between the placement of the elastic body 3 between the 2 and the clothing i. Stabilize the quality of the signal, but there is still noise, especially in the movement of the body, because the clothes 1 and the electrode 2 are - body, for example, the arm movement will pull the fabric of the cuff, and also affect the upper body clothes! Therefore, the electrode 2 will also move with it, so the electrode 2 we designed has a connection part 4 between the electrode 2 and the clothes i, that is, between the three-dimensional structure of the bungee 2 and the clothes 1 Referring to FIG. 5, a signal obtained by the electrode 2 is transmitted to the processor 12 via the transmission line 11. Then, when the user is in the body, the clothes are followed by the chicken, but because of the connection portion 4, the electrode 2 and the garment 1 have a buffer structure, so the electrode 2 does not move with the movement of the body. The electrocardiogram (10)) signal is relatively stable, and the signal quality is not affected by the outside world, as shown in Fig. 6 'especially the connecting portion 4 is made of elastic material, such as elastic yarn, spring, rubber, sponge or elastic thread'. The noise generated by the limb movement is reduced because the connecting portion 4 of the elastic material has the characteristics of stretching and contracting itself. For example, when the garment 1 is moved upward, the connecting portion 4 having the elastic elasticity is elongated, so that the electrode 2 remains. When the position is not affected by the movement of the limb or the external force, for example, when the external force is pressed, the elastic material of the connecting portion 4 contracts, so the electrode 2 still does not move, that is, the change in the textile structure is reduced. Noise from human movements or external forces. But because every person's body is different, and the size of the general clothes i is only red u or S, it is not completely fit, so the tree will also produce a bad number, or it is already a suitable dress. At the same time, it is still the signal age of the electrode 2 or the electric signal or current supply. Therefore, we have designed a channel 7 on the clothes i. This channel 7 is just on the top of the electrode 2 201041531 4 tight band, underwear webbing, "χ, lycra, knitted cloth J, · the exit end has _a〇ck card) 5 Use two rubbers to loosen or tie tightly. When different people wear it, if the banded cloth is too tight, _ the wild right clothes 1 is slightly larger, and the banded fabric 6 can be tied tightly; Convenient g ^ she she ^ 纟 _ _ people &quot; ^ manufacturing, and use the upper non-Ο Ο H 尔 晴 晴 _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ More:, see Figure 7, the side view please see _ 8, which in Figure 8 we can see the human body 13 and the electrode 2 contact. At this time, it is like the personal quantity, _Fig. (10)) The signal is very happy, and at the same time, when the human body moves, 'Because the elastic banded cloth 6 can fix the electrode 2, for example: the chest circumference or the abdomen cycle during breathing The sex becomes larger and smallerer', and the clothes are constantly changing, but the elastic band-like fabric 6 with the T-fold change is elongated or shortened, so that the electrode 2 remains in place. Moreover, the strip fabric 6 is smaller than the passage 7 of the clothes shackle. When the clothes squat up and down with the limbs, the belt woven fabric 6 does not move up and down, so the electrocardiogram ((4) signal stability is further increased, see FIG. In addition, the way in which the electrode 2 and the garment itself are joined by the connecting portion 4 can be changed between the electrode 2 and the strip-shaped cloth 6, and the connecting portion 4 is connected, that is, the connecting portion 4 passes through the surface layer of the garment to enter the passage. 7 is fixed on the strip fabric 6, please refer to 1 (): On the other hand, we can also, the 乂7 is in contact with the electrode 2 - the track opening allows the connecting portion 4 to freely open at the track Move up 'Please refer to Figure u, so the electrode 2 is not on the inside of the channel 7, or in the simple shape of the strip fabric 6 and is in principle surrounded by the strip fabric 6. The Lock Card 5 can also be used for the buckle. , Adjusting buckle, Ribbon buckle, Bundle buckle, etc. with fixing strap 8 201041531 The fabric 6 is long in the channel; ^ is replaced by the fitting. In addition, the channel outlet of the ribbon fabric can have 2 'that is, both ends of the strip fabric When exposed, accessories such as rope buckles must be connected to the ends of the fabric, and the fabric can also be used. One end is fixed to the clothes, so there is only one exit', so the fittings only need to be connected to the end of the strip that is not fixed. A pressure or strain sensor can be installed on the fitting to measure the strip fabric. The degree of tightness of 6 can be adjusted by the value of the previous pressure or strain when the user next wears it back. For example, the signal stability and the pressure at good quality When the sensor 9 value is "a", when the user puts on the clothes 1 next time, if the pressure sensing value is "a" during the adjustment of the rope buckle 5, the processor 12 will emit a signal such as sound or light. The prompt has reached the best position. Therefore, the same piece of clothing can be provided for different people, as long as the processor 12 knows the best sensing value of each person's own pressure sensor 9, please refer to FIG. 12, There is a pressure sensor 9 (not shown) inside the accessory cord buckle 5. For example, the strip fabric 6 itself has a strain sensor which can also be on the outside of the electrode, inside the garment or inside the strip fabric 6. With the pressure sensor 9, the same can be obtained Effect ^The way of adjusting the strip fabric 6 can also be operated by the user himself, and changed to an electric motor 1 〇 to adjust the function of the motor 10 to replace the function of the accessory to achieve the strip fabric in the fixed channel. The length 'can be recorded every time the belt fabric is adjusted _ degrees, and the strip fabric 6 can be automatically adjusted to the position known at the time of the next use. Please refer to Fig. 13. In addition, the strip fabric 6 can contain conductive Material 14 (for example, rubber containing conductive material such as graphite) When the length is different, the resistance of the strip fabric 6 is different, and can be set according to the resistance value of the user in an optimum state, so on the strip fabric 6 Measuring the resistance of different lengths (the longer the longer the resistance), it is known that the strip fabric 6 is in the length of the channel, and the rope buckle 5 can be automatically adjusted when the next time it is worn again, so that the strip is in the channel 7 Cloth = length and previously set length - so that the user does not have to re-test the best ribbon cloth. 9 201041531 In the length of channel 7, that is, processor 12 has a dragon library at the same time, please refer to Figure Μ. The number of electrodes 2 in the channel 7 or in the strip fabric 6 is at least one, and there may be more than one channel 7 in one piece of clothing, and each channel 7) has at least one strip-like cloth 6. For the same reason, we can also use other wires such as posture wire, accelerometer, gyroscope, temperature sensor, pressure sensor, tension sensor, blood pressure sensor, cloth sensor, blood oxygen sensor, blood. , the sense of sound _, silk sensor county replaced. [Simple description of the diagram] 〇 The first _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ The result of the electrocardiogram of the traditional adjustable smart clothing measurement on the clothing is directly closed; the fourth figure is the electrocardiogram of the existing adjustable smart clothing measurement; the fifth figure is the first preferred embodiment of the present invention A cross-sectional view of the sixth embodiment of the present invention is an electrocardiogram of an adjustable smart type of clothing as shown in the fifth embodiment of the present invention; the second preferred embodiment of the present invention is a schematic view of the second preferred embodiment of the present invention; FIG. 11 is a schematic view of a fiber according to a third preferred embodiment of the present invention; FIG. 11 is a fourth preferred embodiment of the present invention; FIG. 10 is a side view of a pressure sensing device according to a fifth preferred embodiment of the present invention; and FIG. 10 is a schematic view of a motor replacement fitting according to a sixth preferred embodiment of the present invention; Figure 14 is a belt of a seventh preferred embodiment of the present invention Schematic cloth, schematic diagram of conductive material; 201041531 [Main component symbol description] 5: Rope buckle 10: Motor 1: Clothes 2: Electrode 3: Elastomer 4: Connection part 6: Ribbon cloth 7: Channel 8: Track 9: Pressure sensor 11: transmission line 12: processor 13: human body 14: conductive material

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Claims (1)

201041531 VII. Patent application scope: 1. An adjustable type of smart clothing, comprising: a garment for the user to wear; - a passage, disposed on the garment, and having at least one strip fabric in the passage; - an accessory for adjusting the length of the strip fabric in the channel; at least - an electrode comprising a combination of a solid material and a conductive material; and a connecting portion connecting the electrode to the garment. t 〇 2. t The adjustable smart garment of claim i, wherein the garment is attached to the processor and connected to the electrode via a transmission line. 3. According to the scope of patent application 1, the adjustable material can be made by the four materials. Adjustable smart clothing, wherein the strip fabric can be adjusted by the bullet i as described in the scope of claim 3, ___ ' which is deleted as an rubber sponge, a milk ball, a water bag, a spring, a foam material or cotton.诼 Private chest 1 right ^ type honesty, wealth and wealth can be flexible 8. As described in patent scope i can be attached to the body of clothing. ‘Hui type clothing, the connection part is connected to the electrode. 9. As described in the patent application, the strip fabric is used. The θ 慧 型 衣物 , , 该 该 θ θ θ θ θ θ θ θ θ θ θ θ θ θ θ θ θ θ θ θ θ θ θ θ θ θ θ θ θ θ θ θ θ θ θ θ θ θ θ θ θ °Adjustable smart clothing, which can be a rope buckle, 12 201041531 buckle, adjustment buckle, ribbon buckle or tail buckle. 12. The adjustable smart garment of claim i, wherein the accessory is a motor for adjusting the length of the strip fabric in the channel. 13. The adjustable smart garment of claim i, wherein the belt fabric is provided with a pressure or tension sensor to detect the length of the strip of fabric in the channel. 14. The adjustable smart garment as described in the scope of the patent application, wherein the strip fabric has a conductive material. 15. The adjustable smart garment of claim i, wherein the material is surrounded. ^ 〇 16. The adjustable smart garment of claim i wherein there is a pressure sensor on the outside of the electrode or on the inside of the garment for sensing the pressure experienced by the electrode. 5 The invention relates to the adjustable smart clothing of the patent scope i, wherein the strip fabric has a tension sensor for laterally pulling the strip fabric in the channel. 18. An adjustable type of smart clothing comprising: a garment for the wearer to wear; - a passageway for setting up the thief's clothing, and having at least a strip of cloth on the rideway; an accessory for adjusting The strip fabric is at the length of the channel; at least one sensor; and a connecting portion connecting the electrode to the garment. Replenishment, _ tender: treatment of fine 18 敝 咖 咖 继 继 _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ Cloth or loose. 22. Adjustable (4) sensor, accelerometer, cymbal, and pull force as described in claim 18, wherein the temperature is constant! Knife von is, cloth sensor, posture 13 201041531 sensor, Optical sensor, sound sensor, blood oxygen sensor or blood pressure sensor. 23. The adjustable smart garment of claim 18, wherein the accessory is a motor for adjusting the length of the ribbon in the channel. 24. An adjustable type of smart clothing comprising: and at least one strip of cloth _ clothing on the passage for the user to wear; a passageway disposed on the garment, a motor for adjusting the belt The length of the channel is at least one sensor. The adjustable smart clothing according to claim 24, wherein the sensor is a temperature sensor, an accelerometer, a gyroscope, a tension sensor, and a pressure sense wire. , fabric sensor, posture sensor, optical secret H, sound sense silk, blood oxygen wire or blood pressure sensor.