CN102133084A - Clothes for measuring motion physiological intelligence and dynamic stable platform thereof - Google Patents

Abstract

The invention relates to a dynamic stable platform of clothes for measuring motion physiological intelligence, which comprises at least one physiological sensing module. The physiological sensing module comprises a carrier, at least one physiological sensing element and a first tension regulation element, wherein the carrier is provided with a surface suitable for contacting the body of a measured person, and the surface is coated with an anti-skidding material layer; the physiological sensing element is arranged on the surface of the carrier and used for measuring a motion physiological signal of the measured person; and the first tension regulation element is arranged at two ends of the carrier and used for regulating the tension of the carrier so that the carrier is fixed on the body of the measured person. When wearing the clothes for measuring motion physiological intelligence to measure the motion physiological signal, a user can acquire the stable motion physiological signal.

Description

Physiology of exercise is measured intelligent clothing and dynamic stability platform thereof

Technical field

The invention relates to a kind of physiological measurements intelligence clothing, and particularly measure intelligent clothing relevant for a kind of dynamic stability platform and physiology of exercise with dynamic stability platform.

Background technology

Carry out physiological ecg signal when detecting with electrocardiograph clinically, electrocardiogram roughly is divided into two kinds of static electrocardiogram and exercise electrocardiograms.When static electrocardiogram detected, the measured is flat to crouch at bed, implements under rest state, and health can not be touched, and respiratory movement is a little bit smaller as far as possible.When exercise electrocardiogram detected, the speed of the measured from normally walking was accelerated to hurry up to skelping, and jogs, and middling speed is run, until the state of hurrying up.Measure the microelectrode technology of motion physiological ecg signal, or because of the utmost point lead the folder be subjected to the body action displacement to cause the generation of noise or abnormal signal, or, and allow the measured produce discomfort because of the electrode slice measured place applies the conducting resinl of tool stickiness, also may produce allergy and be not suitable for using over a long time.

TaiWan, China is announced the I274577 patent and is disclosed a kind of wearable type physiological measurement system.This physiological measurement system is worn on one's body the measured, to measure the physiological signal of the measured, and utilize tension adjusting device, according to the pressure of the measured size difference adjustment physiology sensing element and contact skin, and then correct measurement the measured physiological signal.Though this wearable type physiological measurement system is controlled the telescopic resilience binding force of wearable type physiological measurement system with tension system, just, when motion measurement, still produce the small slippage of electrode slice, thereby cause the generation of noise or abnormal signal.

Therefore, be necessary that in fact the physiology of exercise that a kind of dynamic stability platform is provided and has this dynamic stability platform measures intelligent clothing, to obtain stable physiology of exercise signal.

Summary of the invention

The invention provides a kind of dynamic stability platform, it is used for physiology of exercise and measures intelligent clothing, to obtain stable physiology of exercise signal.

The present invention provides a kind of physiology of exercise to measure intelligent clothing in addition, to obtain stable physiology of exercise signal.

For reaching above-mentioned advantage, the present invention proposes the dynamic stability platform that a kind of physiology of exercise is measured intelligent clothing, and it comprises at least one physiological sensing module.Each physiological sensing module comprises a carrier, at least one physiology sensing element and one first tension adjustment element.Carrier has a surface that is suitable for the Body contact of the measured, is coated with an on-slip material layer on the surface.At least one physiology sensing element is arranged at the surface of carrier, and in order to measure the physiology of exercise signal of the measured.The first tension adjustment element is arranged at the two ends of carrier, in order to adjust the tension force of carrier, so that carrier is fixed in the health of the measured.

In one embodiment of this invention, above-mentioned carrier is one to have the tape-like woven product of telescopic resilience, is suitable for the health around the measured.

In one embodiment of this invention, above-mentioned surface comprises that a first area and is positioned at first area second area in addition, and at least one physiology sensing element is arranged at the first area, and the on-slip material layer is coated on the first area.

In one embodiment of this invention, above-mentioned surface comprises that a first area and is positioned at first area second area in addition, at least one physiology sensing element is arranged at the first area, and the first area is coated with one first on-slip material layer, second area is coated with one second on-slip material layer, and the frictional resistance of first area is higher or lower than the frictional resistance of second area.

In one embodiment of this invention, the first above-mentioned on-slip material layer is identical with the material of the second on-slip material layer, and is positioned at thickness that the first on-slip material layer of first area applies and is greater than or less than the thickness that the second on-slip material layer that is positioned at second area applies.

In one embodiment of this invention, the first above-mentioned on-slip material layer is identical with the material of the second on-slip material layer, and is positioned at density that the first on-slip material layer of first area applies and is greater than or less than the density that the second on-slip material layer that is positioned at second area applies.

In one embodiment of this invention, the first above-mentioned on-slip material layer is different with the material of the second on-slip material layer, and the frictional resistance that is positioned at the first on-slip material layer of first area is higher or lower than the frictional resistance of the second on-slip material layer that is positioned at second area.

In one embodiment of this invention, above-mentioned on-slip material layer is a latex material.

In one embodiment of this invention, the coating thickness of above-mentioned on-slip material layer is between 0.01 millimeter to 3 millimeters.

In one embodiment of this invention, the coating thickness of above-mentioned on-slip material layer is between 0.05 millimeter to 0.5 millimeter.

In one embodiment of this invention, the coating method of above-mentioned on-slip material layer is point-like, wire, planar or cellular.

In one embodiment of this invention, above-mentioned on-slip material layer has several micro air-vents.

In one embodiment of this invention, the first above-mentioned tension adjustment element is magic tape or fastener.

In one embodiment of this invention, the dynamic stability platform that above-mentioned physiology of exercise is measured intelligent clothing more comprises at least one motion stabilization supporting element, be positioned at least one side of dynamic stability platform upper and lower sides, the motion stabilization supporting element is suitable for the health around the measured.

In one embodiment of this invention, above-mentioned motion stabilization supporting element comprises a support and one second tension adjustment element, and the second tension adjustment element is arranged at the two ends of support, so that the two ends of support can engage.

In one embodiment of this invention, above-mentioned support is a rope form, strip or tape-like woven product, is suitable for the health around the measured.

In one embodiment of this invention, the second above-mentioned tension adjustment element is magic tape or fastener.

In one embodiment of this invention, above-mentioned support has an on-slip face that is suitable for the Body contact of the measured, and on-slip face is coated with one the 3rd on-slip material layer.

For reaching above-mentioned advantage, the present invention proposes a kind of physiology of exercise in order to measurement physiology of exercise signal in addition and measures intelligent clothing, and it comprises a main body and a dynamic stability platform.Main body is used to be dressed in the health of the measured, and has towards an inner surface of the health of the measured.The dynamic stability platform is arranged at the inner surface of main body, and it comprises at least one physiological sensing module.Each physiological sensing module comprises a carrier, at least one physiology sensing element and one first tension adjustment element.Carrier has a surface that is suitable for the Body contact of the measured, is coated with an on-slip material layer on the surface.Physiology sensing element is arranged at the surface of carrier, and in order to measure the physiology of exercise signal of the measured.The first tension adjustment element is arranged at the two ends of carrier, in order to adjust the tension force of carrier, so that carrier is fixed in the health of the measured.

In one embodiment of this invention, above-mentioned main body is a longitude and latitude twin shaft telescopic resilience textile.

For reaching above-mentioned advantage, the present invention proposes the dynamic stability platform that a kind of physiology of exercise is measured intelligent clothing again, and it comprises at least one physiological sensing module and at least one motion stabilization supporting element.Each physiological sensing module comprises a carrier, at least one physiology sensing element and one first tension adjustment element.Carrier has a surface that is suitable for the Body contact of the measured.Physiology sensing element is arranged at the surface of this carrier, and in order to measure the physiology of exercise signal of the measured.The first tension adjustment element is arranged at the two ends of carrier, and in order to adjust the tension force of strip-like carrier, so that carrier is fixed in the health of the measured.The motion stabilization supporting element is positioned at least one side of physiological sensing module upper and lower sides, and is suitable for the health around the measured.

In one embodiment of this invention, each above-mentioned motion stabilization supporting element comprises a support and one second tension adjustment element, and the second tension adjustment element is arranged at the two ends of this support, so that the two ends of support can engage.

In one embodiment of this invention, above-mentioned support is a rope form, strip or tape-like woven product, and is suitable for the health around the measured.

In one embodiment of this invention, the second above-mentioned tension adjustment element is magic tape or fastener.

In one embodiment of this invention, above-mentioned support has an on-slip face that is suitable for the Body contact of the measured, and on-slip face is coated with one the 3rd on-slip material layer.

In one embodiment of this invention, the 3rd above-mentioned on-slip material layer is a latex material.

In one embodiment of this invention, the coating thickness of the 3rd above-mentioned on-slip material layer is 0.01 millimeter to 3 millimeters.

In one embodiment of this invention, the coating thickness of the 3rd above-mentioned on-slip material layer is 0.05 millimeter to 0.5 millimeter.

In one embodiment of this invention, the coating method of the 3rd above-mentioned on-slip material layer is point-like, wire, planar or cellular.

In one embodiment of this invention, the 3rd above-mentioned on-slip material layer has a plurality of micro air-vents.

For reaching above-mentioned advantage, the present invention reintroduces a kind of physiology of exercise in order to measurement physiology of exercise signal and measures intelligent clothing, and it comprises a main body and a dynamic stability platform.Main body is used to be dressed in the health of the measured, and has towards an inner surface of the health of the measured.The dynamic stability platform is arranged at the inner surface of main body, and it comprises at least one physiological sensing module and at least one motion stabilization supporting element.Each physiological sensing module comprises a carrier, at least one physiology sensing element and one first tension adjustment element.Carrier has a surface that is suitable for the Body contact of the measured.Physiology sensing element is arranged at the surface of carrier, and in order to measure the physiology of exercise signal of the measured.The first tension adjustment element is arranged at the two ends of carrier, and in order to adjust the tension force of strip-like carrier, so that carrier is fixed in the health of the measured.The motion stabilization supporting element is positioned at least one side of physiological sensing module upper and lower sides, and is suitable for the health around the measured.

Physiology of exercise of the present invention is measured intelligent clothing, its main body has longitude and latitude twin shaft telescopic resilience binding force, can be when the measured be worn physiology of exercise and is measured the motion of intelligent clothing, measure the longitude and latitude twin shaft telescopic resilience of the main body of intelligent clothing with physiology of exercise, reduce physiology of exercise and measure intelligent clothing and involved motion and deutero-physiological noise or abnormal signal what the dynamic stability platform caused.And the carrier of its dynamic stability platform has a surface that is suitable for the Body contact of the measured, be coated with the on-slip material layer on it, and the first tension adjustment element can be measured the stability and the comfort level of physiology of exercise signal according to the measured, adjusts the tension force of the carrier of dynamic stability platform.So, the measured is when measuring the physiology of exercise signal, the physiology sensing element that helps the dynamic stability platform fits tightly the skin of the measured, prevent that the measured is under kinestate, cause the physiology sensing element of dynamic stability platform and the slippage between skin, to reduce because physiological noise or abnormal signal that the measured body action causes the displacement of dynamic stability platform to be caused, thereby obtain the physiology of exercise signal of dynamic stability.

For above-mentioned and other purposes, feature and advantage of the present invention can be become apparent, preferred embodiment cited below particularly, and conjunction with figs. are described in detail below.

Description of drawings

Fig. 1 illustrates the sketch map of measuring intelligent clothing for the physiology of exercise of first embodiment of the invention.

Fig. 2 illustrates the decomposition texture sketch map of measuring intelligent clothing for the physiology of exercise of first embodiment of the invention.

Fig. 3 illustrates the sketch map of physiological sensing module of measuring the dynamic stability platform of intelligent clothing for the physiology of exercise of second embodiment of the invention.

Fig. 4 illustrates the sketch map of physiological sensing module of measuring the dynamic stability platform of intelligent clothing for the physiology of exercise of third embodiment of the invention.

Fig. 5 illustrates the sketch map of physiological sensing module of measuring the dynamic stability platform of intelligent clothing for the physiology of exercise of fourth embodiment of the invention.

Fig. 6 illustrates the sketch map of physiological sensing module of measuring the dynamic stability platform of intelligent clothing for the physiology of exercise of fifth embodiment of the invention.

The main element symbol description:

100 physiology of exercises are measured intelligent clothing 200 main bodys 210 inner surfacies

300,300a, 300b, 300c, 300d: physiological sensing module

310 carriers, 311 surperficial 312 first areas

313 second areas, 320 physiology sensing elements, 330 first tension adjustment elements

400 motion stabilization supporting elements, 500 dynamic stability platforms, 410 supports

412 on-slip faces, 420 second tension adjustment elements, 50 on-slip material layers

52 first on-slip material layers, 54 second on-slip material layers 56 the 3rd on-slip material layer

The specific embodiment

Fig. 1 illustrates the sketch map of measuring intelligent clothing for the physiology of exercise of first embodiment of the invention, and Fig. 2 illustrates the decomposition texture sketch map of measuring intelligent clothing for the physiology of exercise of first embodiment of the invention.Please refer to Fig. 1 and Fig. 2, the physiology of exercise of present embodiment is measured intelligent clothing 100 and is comprised a main body 200 and a dynamic stability platform 500.

Main body 200 is used to be dressed in the health of the measured, and has towards an inner surface 210 of the health of the measured.Main body 200 can be a longitude and latitude twin shaft telescopic resilience textile, and for example it can be woven, knitted fabric, non-woven, is good with knitted fabric wherein, but not as limit.Longitude and latitude twin shaft telescopic resilience textile can be when the measured be worn physiology of exercise and is measured 100 motions of intelligent clothing, by the longitude and latitude twin shaft telescopic resilience of main body 200, involving that 200 pairs of dynamic stability platforms 500 of reduction main body are caused moved and deutero-physiological noise or abnormal signal.

Dynamic stability platform 500 is arranged at the inner surface 210 of main body 200.Can know that for the ease of diagram the demonstration physiology of exercise measures all parts on the inner surface 210 of intelligent clothing 100, among Fig. 1 main body 200 turn-overs be illustrated that soon inner surface 210 shows towards the beholder.Dynamic stability platform 500 is in order to measure the physiology of exercise signal of the measured, for example physiological ecg signal etc.Dynamic stability platform 500 comprises at least one physiological sensing module 300 and at least one motion stabilization supporting element 400.Dynamic stability platform 500 comprises two physiological sensing modules 300 and four corresponding motion stabilization supporting elements 400 in the present embodiment, but the present invention does not limit the quantity of physiological sensing module 300 and motion stabilization supporting element 400.

Each physiological sensing module 300 comprises a carrier 310, at least one physiology sensing element 320 and one first tension adjustment element 330.Be to be example in the present embodiment, but the present invention does not limit the quantity of physiology sensing element 320 with two physiology sensing elements 320.In the present embodiment, carrier 310 for example is one to have the tape-like woven product of telescopic resilience, and it is suitable for the health around the measured, but not as limit.Carrier 310 has and is suitable for and the surface 311 of the Body contact of the measured and back sides (figure do not show) relative with surface 311, and wherein the back side is the inner surface 210 that is fixed in main body 200.Surface 311 comprises that a first area 312 and is positioned at first area 312 second area 313 in addition.In the present embodiment, the first area 312 on surface 311 is made up of two mutual disjunct isolated areas, to cooperate the quantity of physiology sensing element 320.313 of second areas are to be positioned at zone in addition, first area 312, and it can be made up of zone independent of each other, also can be an overall region that is connected with each other.In the present embodiment, second area 313 is made up of zone independent of each other, and it is spaced apart to form two mutual disjunct isolated areas of first area 312.It should be noted that the present invention does not limit the shape and the position of first area 312 and second area 313.

Two physiology sensing elements 320 are arranged at two mutual disjunct isolated areas of first area 312 on the surface 311 of carrier 310 respectively, and in order to measure the physiology of exercise signal of the measured.The first area 312 on surface 311 is coated with one first on-slip material layer 52, and second area is coated with 313 and is covered with one second on-slip material layer 54.The frictional resistance of first area 312 can be higher or lower than the frictional resistance of second area 313.So, just can help the skin that physiology sensing element 320 fits tightly the measured, to prevent that the measured is under kinestate, cause the slippage between physiology sensing element 320 and skin, and then reduce because of the measured body action and cause the physiological noise that physiology sensing element 320 displacements are caused or the generation of abnormal signal.Therefore, the physiology of exercise of present embodiment is measured intelligent clothing 100 and can be obtained stable physiology of exercise signal.

Particularly, when the material of the first on-slip material layer 52 and the second on-slip material layer 54 is identical, the density that the density that the first on-slip material layer 52 that is positioned at first area 312 is applied applies greater than the second on-slip material layer 54 that is positioned at second area 313; Perhaps make the thickness of the thickness of the first on-slip material layer, 52 coatings that are positioned at first area 312 greater than the second on-slip material layer, 54 coatings that are positioned at second area 313.Said method can realize that all the frictional resistance of first area 312 is higher than the frictional resistance of second area 313.In addition, when the material of the first on-slip material layer 52 and the second on-slip material layer 54 not simultaneously, also can directly select the on-slip material of differentiated friction resistance for use.That is the frictional resistance that is positioned at the first on-slip material layer 52 of first area 312 is higher than the frictional resistance of the second on-slip material layer 54 that is positioned at second area 313.Otherwise, when the material of the first on-slip material layer 52 and the second on-slip material layer 54 is identical, the density that the density that the first on-slip material layer 52 that is positioned at first area 312 is applied applies less than the second on-slip material layer 54 that is positioned at second area 313; Perhaps make the thickness of the thickness of the first on-slip material layer, 52 coatings that are positioned at first area 312 less than the second on-slip material layer, 54 coatings that are positioned at second area 313.Said method can realize that all the frictional resistance of first area 312 is lower than the frictional resistance of second area 313.In addition, when the material of the first on-slip material layer 52 and the second on-slip material layer 54 not simultaneously, also can directly select the on-slip material of differentiated friction resistance for use.That is the frictional resistance that is positioned at the first on-slip material layer 52 of first area 312 is lower than the frictional resistance of the second on-slip material layer 54 that is positioned at second area 313.

The first on-slip material layer 52 and the second on-slip material layer 54 can be latex material, but not as limit.In addition, the first on-slip material layer 52 and the second on-slip material layer 54 can have a plurality of micro air-vents, with the breathability of increase carrier 310, thereby increase the comfortableness that the measured uses.The coating thickness of the first on-slip material layer 52 and the second on-slip material layer 54 for example is between 0.01 millimeter to 3 millimeters, preferably between 0.05 millimeter to 0.5 millimeter.The coating method of the first on-slip material layer 52 and the second on-slip material layer 54 can be point-like, wire, planar or cellular, but not as limit.The first on-slip material layer 52 that present embodiment is shown in Figure 2 and the second on-slip material layer 54 all adopt the mode of planar coating, and the first on-slip material layer 52 and the second on-slip material layer, 54 equal tools are a plurality of that micro air-vent arranged.And the coating density of the first on-slip material layer 52 that is positioned at first area 312 is greater than the coating density of the second on-slip material layer 54 that is positioned at second area 313, thereby makes the frictional resistance of first area 312 be higher than the frictional resistance of second area 313.

The first tension adjustment element 330 is arranged at the two ends of carrier 310, and in order to adjust the tension force of carrier 310, so that carrier 310 is fixed in the health of the measured.In the present embodiment, the first tension adjustment element 330 can be magic tape or fastener.Two co-operating members 332,334 of forming magic tape or fastener are arranged at the two ends of carrier 310 respectively.In addition, in the embodiment of fastener as the first tension adjustment element 330, two co-operating members 332,334 can be respectively pin thread and the box that matches.Yet, the first tension adjustment element 330 is not as limit, as long as stability when the first tension adjustment element 330 can be measured the physiology of exercise signal according to the measured and comfort level are adjusted the tension force that centers on of carrier 310, thereby prevent that further the measured from causing the physiology sensing element 320 that is arranged at carrier 310 and the slippage between skin under the kinestate, getting final product to guarantee the generation that reduces physiological noise or abnormal signal.

Motion stabilization supporting element 400 is positioned at least one side of physiological sensing module 300 upper and lower sides.Be to be example in the present embodiment with four motion stabilization supporting elements 400, these four motion stabilization supporting elements 400 are arranged at the inner surface 210 of main body 200, and wherein per two motion stabilization supporting elements 400 lay respectively at two examples up and down of a physiology sensing module 300.Motion stabilization supporting element 400 can contact and be resisted against physiological sensing module 300, also can and physiological sensing module 300 between leave the gap.Motion stabilization supporting element 400 is suitable for the health around the measured, and when the measured was worn physiology of exercise and measured 100 motions of intelligent clothing, that can reduce further that physiology of exercise measures that 200 pairs of physiological sensing modules 300 of main body of intelligent clothing 100 are caused involved motion and deutero-physiological noise or abnormal signal.

In the present embodiment, each motion stabilization supporting element 400 comprises a support 410 and one second tension adjustment element 420.Support 410 is one to have rope form, strip or the tape-like woven product of telescopic resilience, but not as limit.Support 410 is suitable for around the health of the measured and can has an on-slip face 412 that is suitable for the Body contact of the measured.In the present embodiment, on-slip face 412 for example is coated with one the 3rd on-slip material layer 56.The 3rd on-slip material layer 56 can be latex material, but not as limit.In addition, the 3rd on-slip material layer 56 can have a plurality of micro air-vents, with the breathability of increase support 410, thereby increases the comfortableness that the measured uses.The coating thickness of the 3rd on-slip material layer 56 for example is between 0.01 millimeter to 3 millimeters, preferably between 0.05 millimeter to 0.5 millimeter.The coating method of the 3rd on-slip material layer 56 can be point-like, wire, planar or cellular.The 3rd on-slip material layer 56 shown in Figure 2 adopts the mode of planar coating, and the 3rd on-slip material layer 56 has a plurality of micro air-vents.

Hold above-mentionedly, the second tension adjustment element 420 is in order to adjust the tension force of support 410, so that support 410 is fixed in the health of the measured.In the present embodiment, the second tension adjustment element 420 can be magic tape or fastener, two co-operating members 422,424 of forming magic tape or fastener are arranged at the two ends of support 410 respectively, but not as limit, as long as can adjusting around tension force of support 410, and the two ends of support 410 can engage and get final product.In addition, motion stabilization supporting element 400 also can not comprise the second tension adjustment element 420, and directly the two ends of support 410 is tied up mutually.In addition, motion stabilization supporting element 400 also can be located at the outer surface of main body 200.

It should be noted that, the surface 311 that the present invention does not limit the carrier 310 of physiological sensing module 300 must apply the on-slip material, also can be only motion stabilization supporting element 400 by being suitable for ending around the health of the measured, that reduces that physiology of exercise measures that 200 pairs of physiological sensing modules 300 of main body of intelligent clothing 100 are caused involves motion and deutero-physiological noise or abnormal signal.And physiological noise or abnormal signal that the surface 311 alternative coating on-slip materials of carrier 310 cause physiological sensing module 300 displacements of dynamic stability platform 500 to be caused with further reduction owing to the measured body action, thereby the physiology of exercise signal of acquisition dynamic stability.

Fig. 3 illustrates the sketch map of physiological sensing module of measuring the dynamic stability platform of intelligent clothing for the physiology of exercise of second embodiment of the invention.Please refer to Fig. 3, the physiological sensing module 300a of present embodiment and the physiological sensing module 300 of first embodiment are roughly the same, and its difference is that on-slip material layer 50 only is coated on first area 312, and second area 313 uncoated on-slip materials.Among this embodiment, the frictional resistance of first area 312 also is higher than the frictional resistance of second area 313.In addition, on-slip material layer 50 can be latex material, but not as limit.On-slip material layer 50 can have a plurality of micro air-vents, with the increase breathability, thereby increases the comfortableness that the measured uses.The coating thickness of on-slip material layer 50 for example can be between 0.01 millimeter to 3 millimeters, preferably between 0.05 millimeter to 0.5 millimeter.In addition, the coating method of on-slip material layer 50 can be point-like, wire, planar or cellular, but not as limit.

Fig. 4 illustrates the sketch map of physiological sensing module of measuring the dynamic stability platform of intelligent clothing for the physiology of exercise of third embodiment of the invention.Please refer to Fig. 4, the physiological sensing module 300b of present embodiment and the physiological sensing module 300 of first embodiment are roughly the same, and its difference is that physiological sensing module 300b only comprises a physiology sensing element 320.In the present embodiment, surface 312 comprises a first area 312 and a second area 313, and first area 312 is used to be provided with physiology sensing element 320, and 313 of second areas are to be positioned at zone in addition, first area 312.In addition, the mode that the first on-slip material layer 52 that is positioned at first area 312 and the second on-slip material layer 54 that is positioned at second area 313 all adopt wire to apply, and the first on-slip material layer 52 and the second on-slip material layer 54 have a plurality of micro air-vents.The thickness that the first on-slip material layer 52 applies can be greater than or less than the thickness of the second on-slip material layer, 54 planar coatings, so that the frictional resistance of first area 312 is higher or lower than the frictional resistance of second area 313.In addition, similar to first embodiment, the first on-slip material layer 52 of present embodiment can be identical material with the second on-slip material layer 54, also can be unlike material.

Fig. 5 illustrates the sketch map of physiological sensing module of measuring the dynamic stability platform of intelligent clothing for the physiology of exercise of fourth embodiment of the invention.Please refer to Fig. 5, the physiological sensing module 300c of present embodiment and the physiological sensing module 300b of the 3rd embodiment are roughly the same, the mode that the first on-slip material layer 52 that its difference is to be positioned at first area 312 and the second on-slip material layer 54 that is positioned at second area 313 all adopt point-like to apply, and the first on-slip material layer 52 and the second on-slip material layer 54 have a plurality of micro air-vents.And the density that the first on-slip material layer, 52 point-like apply can be greater than or less than the density that the second on-slip material layer, 54 point-like apply, so that the frictional resistance of first area 312 is higher or lower than the frictional resistance of second area 313.In addition, similar to first embodiment, the first on-slip material layer 52 of present embodiment can be identical material with the second on-slip material layer 54, also can be unlike material.

Fig. 6 illustrates the sketch map of physiological sensing module of measuring the dynamic stability platform of intelligent clothing for the physiology of exercise of fifth embodiment of the invention.Please refer to Fig. 6, the dynamic stability platform 300b of the dynamic stability platform 300d of present embodiment and the 3rd embodiment is roughly the same, its difference is that the second on-slip material layer 54 that is positioned at the first on-slip material layer 52 of first area 312 and is positioned at second area 313 all adopts the mode of cellular coating, and the density that the first on-slip material layer 52 applies can be greater than or less than the density that the second on-slip material layer 54 applies, so that the frictional resistance of first area 312 is higher or lower than the frictional resistance of second area 313.In addition, similar to first embodiment, the first on-slip material layer 52 of present embodiment can be identical material with the second on-slip material layer 54, also can be unlike material.

Be noted that though the first on-slip material layer 52 among above-mentioned each embodiment is all identical with the coating method of the second on-slip material layer 54, in other embodiments, the coating method of the first on-slip material layer 52 and the second on-slip material layer 54 can be inequality.

In sum, when the measured is worn physiology of exercise of the present invention and is measured intelligent clothing and measure the physiology of exercise signal, since the surface-coated of carrier have the on-slip material and further routing motion stablize supporting element, so can effectively prevent the slippage of dynamic stability position of platform, with raising ambulatory physiological signal measuring stability, thereby obtain stable physiology of exercise signal.In addition, physiology of exercise of the present invention measures intelligent clothing and the dynamic stability platform adopts the on-slip material and is processed into the structure with a plurality of micro air-vents, and tension of engagement adjusts the use of element, so can improve the comfortableness when dressing physiology of exercise of the present invention and measuring intelligent clothing.

Though the present invention discloses as above with preferred embodiment; right its is not in order to limiting the present invention, anyly has the knack of this skill person, without departing from the spirit and scope of the present invention; can do a little change and retouching, thus protection scope of the present invention with the claim of applying for a patent defined and be as the criterion.

Claims (16)

1. a physiology of exercise is measured the dynamic stability platform of intelligent clothing, it is characterized in that comprising:

At least one physiological sensing module, each described physiological sensing module comprises:

A carrier that is fixed in the measured health has a surface that is suitable for the Body contact of the measured, wherein should be coated with the on-slip material layer on the surface;

At least one physiology sensing element is arranged at this surface of this carrier, and measures the physiology of exercise signal of the measured; And

One in order to adjust the tensile first tension adjustment element of this carrier, is arranged at the two ends of this carrier.

2. physiology of exercise as claimed in claim 1 is measured the dynamic stability platform of intelligent clothing, it is characterized in that: this carrier is the tape-like woven product with telescopic resilience that are suitable for around the health of the measured, this on-slip material layer is a latex material, the coating thickness of this on-slip material layer is 0.01 millimeter to 3 millimeters, this on-slip material layer is applied to point-like, wire, planar or cellular, this on-slip material layer has a plurality of micro air-vents, and this first tension adjustment element is magic tape or fastener.

3. physiology of exercise as claimed in claim 1 is measured the dynamic stability platform of intelligent clothing, this surface comprises a second area beyond a first area and this first area, this at least one physiology sensing element is arranged at this first area, and this on-slip material layer is coated on this first area.

4. physiology of exercise as claimed in claim 1 is measured the dynamic stability platform of intelligent clothing, it is characterized in that: this surface comprises a second area beyond a first area and this first area, this at least one physiology sensing element is arranged at this first area, this on-slip material layer comprises first on-slip material layer that is coated on this first area and the second on-slip material layer that is coated on this second area, and the frictional resistance of the first on-slip material layer of this first area is higher or lower than the frictional resistance of the second on-slip material layer of this second area.

5. physiology of exercise as claimed in claim 4 is measured the dynamic stability platform of intelligent clothing, it is characterized in that: this first on-slip material layer is identical with the material of this second on-slip material layer, and is positioned at thickness that this first on-slip material layer of this first area applies and is greater than or less than the thickness that this second on-slip material layer of being positioned at this second area applies.

6. physiology of exercise as claimed in claim 4 is measured the dynamic stability platform of intelligent clothing, it is characterized in that: this first on-slip material layer is identical with the material of this second on-slip material layer, and is positioned at density that this first on-slip material layer of this first area applies and is greater than or less than the density that this second on-slip material layer of being positioned at this second area applies.

7. physiology of exercise as claimed in claim 4 is measured the dynamic stability platform of intelligent clothing, it is characterized in that: this first on-slip material layer is different with the material of this second on-slip material layer, and the frictional resistance that is positioned at this first on-slip material layer of this first area is higher or lower than the frictional resistance of this second on-slip material layer that is positioned at this second area.

8. physiology of exercise as claimed in claim 1 is measured the dynamic stability platform of intelligent clothing, it is characterized in that: comprise that more at least one is suitable for the motion stabilization supporting element around the measured health, is positioned at least one side of this dynamic stability platform upper and lower sides.

9. physiology of exercise as claimed in claim 8 is measured the dynamic stability platform of intelligent clothing, it is characterized in that: each described motion stabilization supporting element comprises:

A support; And

One second tension adjustment element is arranged at the two ends of this support, so that the two ends of this support can engage.

10. physiology of exercise as claimed in claim 9 is measured the dynamic stability platform of intelligent clothing, it is characterized in that: this support is the rope form that is suitable for around the health of the measured, strip or tape-like woven product, this second tension adjustment element is magic tape or fastener, this support has the on-slip face that is suitable for the Body contact of the measured, and this on-slip face is coated with one deck the 3rd on-slip material layer, the 3rd on-slip material layer is a latex material, the coating thickness of the 3rd on-slip material layer is 0.01 millimeter to 3 millimeters, the 3rd on-slip material layer is applied to point-like, wire, planar, or cellular, the 3rd on-slip material layer has a plurality of micro air-vents.

11. one kind comprises physiology of exercise as claimed in claim 1 and measures the physiology of exercise of the dynamic stability platform of intelligent clothing and measure intelligent clothing, in order to measure the physiology of exercise signal of the measured, it is characterized in that: this physiology of exercise is measured intelligent clothing and is comprised:

A main body is used to be dressed in the health of the measured, and this main body has an inner surface towards the health of the measured; And

This dynamic stability platform is arranged at this inner surface of this main body.

12. physiology of exercise as claimed in claim 11 is measured intelligent clothing, it is characterized in that: the main body of this main body for making by longitude and latitude twin shaft telescopic resilience textile.

13. a physiology of exercise is measured the dynamic stability platform of intelligent clothing, it is characterized in that: comprise at least one physiological sensing module, each described physiological sensing module comprises:

A carrier has a surface that is suitable for the Body contact of the measured;

At least one is arranged at this surface of this carrier in order to the physiology sensing element of the physiology of exercise signal of measurement the measured; And

A first tension adjustment element that makes this carrier be fixed in the measured health is arranged at the two ends of this carrier, and in order to adjust the tension force of this strip-like carrier; And

The motion stabilization supporting element that at least one is suitable for around the measured health is positioned at least one side of this physiological sensing module upper and lower sides.

14. physiology of exercise as claimed in claim 13 is measured the dynamic stability platform of intelligent clothing, it is characterized in that: this first tension adjustment element is magic tape or fastener, each this motion stabilization supporting element comprises a support and one second tension adjustment element, be arranged at the two ends of this support, so that the two ends of this support can engage, this support is in the rope form of the health that centers on the measured, strip or tape-like woven product, this second tension adjustment element is magic tape or fastener, this support has the on-slip face that is suitable for the Body contact of the measured, and this on-slip face is coated with one deck the 3rd on-slip material layer, the 3rd on-slip material layer is a latex material, the coating thickness of the 3rd on-slip material layer is 0.01 millimeter to 3 millimeters, the 3rd on-slip material layer is applied to point-like, wire, planar, or cellular, the 3rd on-slip material layer has a plurality of micro air-vents.

15. one kind comprises physiology of exercise as claimed in claim 13 and measures the physiology of exercise of the dynamic stability platform of intelligent clothing and measure intelligent clothing, in order to measure the physiology of exercise signal of the measured, it is characterized in that: this physiology of exercise is measured intelligent clothing and is comprised:

A main body is used to be dressed in the health of the measured, and this main body has the inner surface towards the health of the measured; And

This dynamic stability platform is arranged at this inner surface of this main body.

16. physiology of exercise as claimed in claim 15 is measured intelligent clothing, it is characterized in that: this main body is that longitude and latitude twin shaft telescopic resilience textile is made.

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