CN205041382U

CN205041382U - Elasticity physiology monitoring device

Info

Publication number: CN205041382U
Application number: CN201520772418.4U
Authority: CN
Inventors: 康裕勋; 张丽娟; 侯长俊; 王皓正; 廖淑芬; 陈人寿
Original assignee: Kings Metal Fiber Technologies Co Ltd
Current assignee: Kings Metal Fiber Technologies Co Ltd
Priority date: 2015-09-30
Filing date: 2015-09-30
Publication date: 2016-02-24
Anticipated expiration: 2025-09-30

Abstract

The utility model discloses an elasticity physiology monitoring device, it includes a fabric, a body, an elastic component and a detection module, this body combines on the inlayer of fabric, and be equipped with an at least opening on this body, this elastic component combines in the one side of this body, this detection module combines on this elastic component and exposes outside the opening of this body, therefore, make this detection module increase the pressure of locating the health top layer on the fabric through this elastic component, the messenger is exposed and can be hugged closely in the required health top layer department that listens the position in division extra -oral detection module of this body, with the attached nature that promotes this detection module and health top layer, thereby improve the stability that developments were listened.

Description

Elasticity physiology detector

Technical field

This utility model relates to a kind of elasticity physiology detector, espespecially a kind of modular design passing through a fabric, a body, an elastic component and a detecting module, this detecting module is made on fabric, to increase the pressure to health surface layer by this elastic component, to promote the attaching on this detecting module and health top layer, thus be applicable to physiology detecting clothing, inclination detecting clothing etc. or similar device.

Background technology

In recent years, science and technology is constantly flourishing, industrially starts to research and develop by the technology of detecting module with garments, carries out detecting and the physiological situation of recording body to facilitate, and is convenient to apply to healthy autonomous management at home upper or prevent medically.

But, mostly adopt fixed when current detecting module and garments, namely detecting module is sutured in (as chest place) on required detecting position, makes this detecting module touch skin surface, to detect the physiological signal of human body.

But, when current employing fixed form is by detecting module and garments, easily occur when measuring physiological signal the disruption that signal cuts in and out because wearing relation causes, making cannot test constantly physiological signal, and must again carry out once again, easily increase the burden of gauger.

Therefore, inventor, because above-mentioned deficiency, wishes that proposing a kind of this detecting module that makes has the elasticity physiology detector improving dynamic detection stability feature, and user can be assembled by easy operation.

Utility model content

Main purpose of the present utility model is to provide a kind of elasticity physiology detector, comprise a fabric, one body, one elastic component and a detecting module, this body is incorporated on the internal layer of fabric, and this body is provided with at least one opening, this elastic component is incorporated in the one side of this body, this detecting module to be incorporated on this elastic component and to expose to outside the opening of this body, by this, this detecting module is made on fabric, to increase the pressure to health surface layer by this elastic component, make the detecting module exposed to outside the opening of this body can be close to the health surface layer of required detecting position, to promote the attaching on this detecting module and health top layer, thus the stability of dynamic detection can be improved, and then improve overall practicality.

Of the present utility model time an object is to provide a kind of elasticity physiology detector, the opening of this body has certain length, this elastic component has length in reserve, the opening part of this detecting module by the length in reserve of this elastic component in body is moved, detecting module can be moved left and right in the opening part of this body, to have the function of conversion detecting position, be convenient to the physiological signal detecting health diverse location, and pass through the stability of not interlock design maintenance detecting module, and improve this detecting module because oppressing the phenomenon occurring red swelling of the skin at same position or the physical discomfort caused because oppressing for a long time for a long time, and then improve overall practicality.

Another object of the present utility model is to provide a kind of elasticity physiology detector, this elastic component has an extension, this extension extends to the suture place of fabric, thus the flatness when detecting module be incorporated on this elastic component can be kept to be exposed to the opening of body, and the effect being bound by health top layer is produced by elastic component, the detecting module exposed to outside the opening of this body can be attached on the skin of required detecting position, and then improve overall practicality.

In order to achieve the above object, the elasticity physiology detector that this utility model provides, comprise: a fabric, a body, an elastic component and a detecting module, this body is incorporated on the internal layer of fabric, and this body is provided with at least one opening, this elastic component is incorporated in the one side of this body, and this detecting module to be incorporated on this elastic component and to expose to outside the opening of this body, increases the pressure to health surface layer to make this detecting module by this elastic component on fabric.

In an embodiment of the present utility model, the opening of this body is horizontal shape or straight to shape, and the material of this body is cloth, fabric or diaphragm.

In an embodiment of the present utility model, the inner face of the opening of this body is further combined with a lamella, and the opening that this lamella corresponds to body is provided with corresponding opening, and the material of this lamella is plastics, cloth or diaphragm.

In an embodiment of the present utility model, the inner face of the opening of this body is further combined with two lamellas, and these two lamellas lay respectively at the left side and the right of the opening of body, to form bar seam, make the opening of this body correspond to bar seam place, the material of this lamella is plastics, cloth or diaphragm.

In an embodiment of the present utility model, this fabric is clothes, trousers, glove, underwear, vest, corset or flat mouth clothing, and this fabric adopts elastic material braiding or adopts non-resilient material to weave.

In an embodiment of the present utility model, the opening of this body has certain length, and this elastic component has length in reserve further, and the opening part of this detecting module by the length in reserve of this elastic component in body is moved.

In an embodiment of the present utility model, the length in reserve of this elastic component is provided with at least one nonelastic range further.

In an embodiment of the present utility model, this elastic component has an extension further, and this extension extends to the suture place of fabric.

In an embodiment of the present utility model, this elastic component and the combination of this body are be respectively equipped with corresponding junction surface on the two ends of this elastic component with body.

In an embodiment of the present utility model, this combination is suture way, ultrasound wave mode, heat fused mode or bonding agent mode.

In an embodiment of the present utility model, this detecting module and the combination of this elastic component are be respectively equipped with corresponding clamping part on this detecting module with this elastic component.

In an embodiment of the present utility model, the combination of this detecting module and this elastic component is for be directly fixed on detecting module on elastic component.

In an embodiment of the present utility model, this detecting module is provided with the electrode slice for detecting health top layer physiological signal further, and this electrode slice is connected with a Signal transmissions contact further.

In an embodiment of the present utility model, this detecting module is provided with inclination perception chip and microcontroller further, and this microcontroller is connected with inclination perception chip, with the change by microcontroller induction inclination perception chip.

Above-mentioned and other object of the present utility model and advantage, can gain in-depth understanding from the detailed description of following selected embodiment and accompanying drawing.

Certainly, this utility model on some another part, or the arrangement of another part is allowed different, but selected embodiment, then in this description, be described in detail, and in accompanying drawing, show that it constructs.

Accompanying drawing explanation

Fig. 1 is the three-dimensional appearance schematic diagram of the first embodiment of this utility model;

Fig. 2 is the schematic diagram of the detecting module in the first embodiment of this utility model when moving;

Fig. 3 is the three-dimensional appearance schematic diagram of this utility model the second embodiment;

Fig. 4 is the components broken down schematic diagram of this utility model the second embodiment;

Fig. 5 is the schematic diagram of the detecting module in this utility model the second embodiment when moving;

Fig. 6 is the schematic diagram of opening inner face in conjunction with lamella of this utility model the second embodiment;

Fig. 7 is the three-dimensional appearance schematic diagram of the third embodiment of this utility model;

Fig. 8 is the schematic diagram that the extension of elastic component in this utility model the 4th kind of embodiment is incorporated into single fabric suture place;

Fig. 9 is the schematic diagram that the extension of elastic component in this utility model the 4th kind of embodiment is incorporated into suture place, fabric both sides;

Figure 10 is the schematic diagram that the extension circle of elastic component in this utility model the 4th kind of embodiment encloses around fabric one;

Figure 11 is that the body in this utility model the 4th kind of embodiment is incorporated into the schematic diagram of the opening inner face on fabric in conjunction with lamella;

Figure 12 is the schematic diagram that elastic component in this utility model the 4th kind of embodiment is provided with two groups of detecting modules.

Description of reference numerals: 10-fabric; 20-body; 21-opening; 30-elastic component; 31-clamping part; 32-length in reserve; 33-nonelastic range; 34-extension; 40-detecting module; 401-electrode slice; 402-microcontroller; 41-clamping part; 50-lamella; The corresponding opening of 51-; 60-Signal transmissions contact.

Detailed description of the invention

As the schematic diagram of Fig. 1 ~ Figure 12 shows that this utility model embodiment, the elasticity physiology detector preferred forms that this utility model provides is the change of physiological signal for detecting health top layer or body inclination angle, and there is the function improving dynamic detection stability, to promote the attaching with health top layer, and then improve overall practicality.

The first embodiment of the elasticity physiology detector that this utility model provides comprises fabric 10, body 20, elastic component 30 and a detecting module 40, this body 20 is incorporated on the internal layer of fabric 10, and this combination can be suture way, ultrasound wave mode, heat fused mode or bonding agent mode etc. wherein any one, this fabric 10 can for clothes, trousers, glove, underwear, vest, corset, flat mouth clothing etc. wherein any one (and the fabric 10 in the present embodiment is the bodice cloth being not yet sewn into above-mentioned clothing kenel be example).This body 20 is provided with at least one opening 21, wherein this opening 21 can be horizontal shape or straight to shape (the present embodiment directly presents to the openings 21 of shape with two) (as shown in Figure 1), and this body 20 is cloth, fabric, diaphragm etc. wherein any one (embodiment of the present utility model adopts cloth to present), this above-mentioned diaphragm can be diaphragm, the diaphragm of metal material, the diaphragm of carbon material etc. or the diaphragm of other material of plastic material.

In addition, this elastic component 30 is incorporated in the one side of this body 20, wherein this combination can be suture way, ultrasound wave mode, heat fused mode or bonding agent mode etc. wherein any one, or in the two ends of this elastic component 30 with body 20 is respectively equipped with corresponding junction surface (as button, cableties, devil's felt) all can (the present embodiment adopts suture way to present).This detecting module 40 is incorporated on this elastic component 30, wherein this combination is this detecting module 40 and this elastic component 30 is respectively equipped with corresponding clamping part 31,41 (as concave-convex-piece, male and female part etc.) (as shown in Figure 4), or detecting module 40 to be directly fixed on elastic component 30 (as adopt suture way, ultrasound wave mode, heat fused mode or bonding agent mode etc. wherein any one).This detecting module 40 exposes to the opening 21 of this body 20, and (the present embodiment is through straight opening 21 places to shape of two on body 20 by elastic component 30 outward, and make detecting module 40 expose to two directly to shape opening 21 between), and this detecting module 40 has a contact surface, wherein the contact surface of this detecting module 40 is used for body contact top layer, to detect the physiological signal on health top layer, by this, this detecting module 40 is made on fabric 10, to increase the pressure to health surface layer by this elastic component 30, make the detecting module 40 exposed to outside the opening 21 of this body 20 can be close to the health surface layer of required detecting position, to promote the attaching of this detecting module 40 and health top layer.

The second embodiment of the elasticity physiology detector that this utility model provides comprises fabric 10, body 20, elastic component 30 and a detecting module 40, this body 20 is incorporated on the internal layer of fabric 10, and this combination can be suture way, ultrasound wave mode, heat fused mode or bonding agent mode etc. wherein any one, this fabric 10 can for clothes, trousers, glove, underwear, vest, corset, flat mouth clothing etc. wherein any one (and the fabric 10 in the present embodiment is the bodice cloth being not yet sewn into above-mentioned clothing kenel be example).This body 20 is provided with at least one opening 21, wherein this opening 21 can be horizontal shape or straight to shape (the present embodiment presents with the opening 21 of a horizontal shape) (as shown in Figure 3), and this body 20 is cloth, fabric, diaphragm etc. wherein any one (embodiment of the present utility model adopts cloth to present), this above-mentioned diaphragm can be diaphragm, the diaphragm of metal material, the diaphragm of carbon material etc. or the diaphragm of other material of plastic material.

In addition, this elastic component 30 is incorporated in the one side of this body 20, wherein this combination can be suture way, ultrasound wave mode, heat fused mode or bonding agent mode etc. wherein any one, or in the two ends of this elastic component 30 with body 20 is respectively equipped with corresponding junction surface (as button, cableties, devil's felt etc.) all can (the present embodiment adopts suture way to present).This detecting module 40 is incorporated on this elastic component 30, wherein this combination is this detecting module 40 and this elastic component 30 is respectively equipped with corresponding clamping part 31,41 (as concave-convex-piece, male and female part etc.) (as shown in Figure 4), or detecting module 40 to be directly fixed on elastic component 30 (as adopt suture way, ultrasound wave mode, heat fused mode or bonding agent mode etc. wherein any one).This detecting module 40 exposes to the opening 21 outer (the present embodiment is that detecting module 40 is exposed between the opening 21 of a horizontal shape) of this body 20, and this detecting module 40 has a contact surface, wherein the contact surface of this detecting module 40 is used for body contact top layer, to detect the physiological signal on health top layer, by this, this detecting module 40 is made on fabric 10, to increase the pressure to health surface layer by this elastic component 30, make the detecting module 40 exposed to outside the opening 21 of this body 20 can be close to the health surface layer of required detecting position, to promote the attaching of this detecting module 40 and health top layer.

The first embodiment of the elasticity physiology detector that above-mentioned this utility model provides, in the second embodiment, the opening 21 of this body 20 has certain length (the present embodiment may be implemented in two directly to the opening 21 of the horizontal shape of opening 21 or of shape) in time implementing, this elastic component 30 has length in reserve 32 (as shown in Figures 1 and 3), and this detecting module 40 has a contact surface, wherein the contact surface of this detecting module 40 is used for body contact top layer, to detect the physiological signal on health top layer, the length in reserve 32 making this detecting module 40 be positioned at the elastic component 30 of body 20 inside by this carries out moving (as shown in figures 2 and 5), detecting position can be converted between the opening 21 of body 20 to make detecting module 40.

The third embodiment of the elasticity physiology detector that this utility model provides comprises a fabric 10, one body 20, one elastic component 30 and a detecting module 40, it is identical with the first embodiment and the second embodiment that it implements structure, the length in reserve 32 that Main Differences is this elastic component 30 in the first embodiment and the second embodiment is provided with at least one nonelastic range 33 (as shown in Figure 7), the present embodiment directly presents to the opening 21 of shape with two (not to be limited with the present embodiment, also may be implemented in the opening 21 of a horizontal shape), and this nonelastic range 33 also can be located at the two ends of the detecting module 40 of this elastic component 30 respectively, the centre position that this detecting module 40 is incorporated on elastic component 30 has elasticity.This nonelastic range 33 can when elastic component 30 weaves together with weave and form, or adopt combination to combine non-resilient 33 sections with elastic component 30, this combination can be suture way, ultrasound wave mode, heat fused mode or bonding agent mode etc. wherein any one.By the nonelastic range 33 set by the two ends of the detecting module 40 of this elastic component 30, this detecting module 40 can be moved again.

4th kind of embodiment of the elasticity physiology detector that this utility model provides comprises a fabric 10, one body 20, one elastic component 30 and a detecting module 40, it implements structure and the first embodiment, the second embodiment and the third embodiment identical, Main Differences is at the first embodiment, elastic component 30 in the second embodiment and the third embodiment has an extension 34, this extension 34 extends to the suture place of fabric 10, can be divided in conjunction with single side seam line place (as shown in Figure 8), in conjunction with suture place, both sides (as shown in Figure 9), or being embodied as directly to be enclosed extension 34 encloses (as shown in Figure 10) around fabric 10 1, wherein this fabric 10 is clothes, trousers, glove, underwear, vest, corset, flat mouth clothing etc. wherein any one, and the present embodiment is for the fabric 10 of vest, make the fabric 10 of vest can be dressed in (it is presentation mode that the fabric 10 of vest is all turned down out interior the inside by enforcement diagram of the present utility model) on the health of people, and formed with the health top layer of people and contact, make to be incorporated into body 20 on the fabric 10 of this vest can close contact in the ad-hoc location on the health top layer of people, as breast portion, chest etc., and make the detecting module 40 exposed to outside the opening 21 of this body 20 can press close to the health top layer of people, and this above-mentioned fabrics 10 adopts elastic material weave or adopt non-resilient material to weave.When elastic component 30 has extension 34, the energy maintenance detecting module 40 be incorporated on this elastic component 30 is exposed to the flatness during opening 21 of body 20, and the effect being bound by health top layer is produced by elastic component 30, the detecting module 40 exposed to outside the opening 21 of this body 20 can be attached on the skin of required detecting position, improve the contact effect with health top layer.

In addition, the first embodiment of the elasticity physiology detector that above-mentioned this utility model provides, the second embodiment, in the third embodiment and the 4th kind of embodiment, the opening 21 of this body 20 is in time implementing (the present embodiment presents with the opening 21 of a horizontal shape), in the inner face of the opening 21 of body 20 in conjunction with a lamella 50 (as shown in Figure 6 or shown in Figure 11), this combination can be suture way, ultrasound wave mode, heat fused mode or bonding agent mode etc. wherein any one, the opening 21 that this lamella 50 corresponds to body 20 is provided with corresponding opening 51, make the detecting module 40 be positioned on elastic component 30 can be exposed to outside through the corresponding opening 51 of lamella 50 and the opening 21 of body 20, and this lamella 50 is plastics, cloth (produces hardness by processing mode, cloth as woven with acryl yarn), diaphragm (can be the diaphragm of plastic material, the diaphragm of metal material, the diaphragm of carbon material etc. or other material) etc. wherein any one, thus increase the hardness of the opening 21 of body 20, make this detecting module 40 when opening 21 place of body 20 carries out slippage, not easily elastic component 30 is pulled out opening 21 place of body 20, cause cannot use to avoid this detecting module 40 to depart from original sliding trajectory.

The opening 21 of this body 20 is in time implementing, also can in the inner face of the opening 21 of body 20 in conjunction with two lamella (not shown), this combination can be suture way, ultrasound wave mode, heat fused mode or bonding agent mode etc. wherein any one, these two lamellas lay respectively at the left side and the right of the opening 21 of body 20, to form bar seam (not shown), the opening 21 of this body 20 is made to correspond to bar seam place, make the detecting module 40 be positioned on elastic component 30 can be exposed to outside through the bar seam place of two lamellas and the opening 21 of body 20, and the material of these two lamellas is plastics, cloth (produces hardness by processing mode, cloth as woven with acryl yarn), diaphragm (can be the diaphragm of plastic material, the diaphragm of metal material, the diaphragm of carbon material etc. or other material) etc. wherein any one, so that the hardness of the opening 21 of body 20 can be increased, make this detecting module 40 when opening 21 place of body 20 carries out slippage, not easily elastic component 30 is pulled out opening 21 place of body 20, cause cannot use to avoid this detecting module 40 to depart from original sliding trajectory.

The first embodiment of the elasticity physiology detector that above-mentioned this utility model provides, the second embodiment, in the third embodiment and the 4th kind of embodiment, this detecting module 40 is in time implementing, its the first implement aspect and can be the electrode slice 401 that is provided with for detecting health top layer physiological signal (as Fig. 1, Fig. 3, shown in Fig. 7 or Fig. 8), and this electrode slice 401 is formed by many non-conductive fiber yarns and many conductive fiber yarn weaving, or this electrode slice 401 full wafer is all formed by conductive fiber yarn weaving, all there is conductive effect to make full wafer electrode slice 401, many conductive fiber yarns in above-mentioned electrode slice 401 can be woven into a conductive region, can be close proximity on body skin by the conductive region of electrode slice 401, be beneficial to detect physiological signal, wherein this physiological signal can be body temperature, heart beating, pulse, breathe wait wherein any one.

The first embodiment of the elasticity physiology detector that above-mentioned this utility model provides, the second embodiment, in the third embodiment and the 4th kind of embodiment, this detecting module 40 is in time implementing, its the second implements aspect can be provided with inclination perception chip and microcontroller 402 (as shown in figure 12), this microcontroller 402 is connected with inclination perception chip, to be responded to the change of inclination perception chip by microcontroller 402, wherein this inclination perception chip is 3-axis acceleration sensor (ThreeAxisLow-gMicromachinedAccelerometer), this 3-axis acceleration sensor is by three axle X, Y, angle of inclination and the accelerometer of Z value calculate, and detect by microcontroller 402 timing and transmit, angle of inclination can be selected to be greater than +/-1.0 degree or +/-1.5 degree or +/-2.0 degree etc., to judge whether user has phenomenon that is dizzy or that fall, microcontroller 402 can establish detecting number of times at regular time and quantity to detect, such as continuous in 30 seconds average detecting value be greater than +/-1.0 degree (or +/-1.5 degree, +/-2.0 degree) namely regard as abnormal dip.Or adopt nine axle attitude transducer (not shown), this nine axles attitude transducer comprises 3-axis acceleration sensor, triaxial magnetic field sensor and three axle gyrosensors, magnetic field range can be ± 1.3/1.9/2.5/4.0/4.7/5.6/8.1gauss, acceleration range can be ± 2g/ ± 4g/ ± 8g, gyroscope scope can be ± 250/500/2000dps, whether there is exception by the attitude of above-mentioned value range monitoring user, regard as abnormal dip when the value that goes beyond the scope is.And above-mentioned inclination or attitudes vibration are when exceeding setting value, microcontroller 402 carrys out signal transmission by wireless signal transmitter (not shown) immediately.

In 4th kind of embodiment of the elasticity physiology detector that above-mentioned this utility model provides, this fabric 10 is provided with Signal transmissions contact 60 (as shown in figure 12), this Signal transmissions contact 60 is connected with at least one detecting module 40, make the change of physiological signal or the body inclination angle detected by above-mentioned detecting module 40 can transfer to this Signal transmissions contact 60, this Signal transmissions contact 60 group can establish a signal transmission device (not shown), and be provided with wireless transport module in this signal transmission device, so that the change of physiological signal or body inclination angle is wirelessly transmitted on electronic equipment (as smart mobile phone, Intelligent flat computer, notebook computer, desktop computer, armarium etc.) or high in the clouds on, be convenient to the result understanding detecting, to carry out prevention medical treatment in advance.

In addition, the first embodiment of above-mentioned elasticity physiology detector, the second embodiment, the third embodiment and the 4th kind of embodiment are in time implementing, all by a fabric 10, one body 20, the modular design of one elastic component 30 and a detecting module 40, this body 20 is incorporated on the internal layer of fabric 10, and this body 20 is provided with at least one opening 21, this elastic component 30 is incorporated in the one side of this body 20, this detecting module 40 to be incorporated on this elastic component 30 and to expose to outside the opening 21 of this body 20, by this, this detecting module 40 is made on fabric 10, to increase the pressure to health surface layer by this elastic component 30, make the detecting module 40 exposed to outside the opening 21 of this body 20 can be close to the health surface layer of required detecting position, to promote the attaching of this detecting module 40 and health top layer, thus the stability of dynamic detection can be improved.

The opening 21 of this body 20 can also have certain length, this elastic component 30 has length in reserve 32, this detecting module 40 is moved in opening 21 place of body 20 by the length in reserve 32 of this elastic component 30, detecting module 40 can be moved left and right in opening 21 place of this body 20, to have the function of conversion detecting position, be convenient to the physiological signal detecting health diverse location, and by its not interlock design with the stability keeping detecting module 40, and improve this detecting module 40 because oppressing the phenomenon occurring red swelling of the skin at same position or the physical discomfort caused because oppressing for a long time for a long time.

The foregoing is only preferred embodiment of the present utility model, when can not limit the scope of this utility model enforcement with this; Therefore all simple equivalences done according to this utility model right and utility model description change and modify, and all should belong in protection domain of the present utility model.

Claims

1. an elasticity physiology detector, is characterized in that, comprising:

One fabric;

One body, this body is incorporated on the internal layer of fabric, and this body is provided with at least one opening;

One elastic component, this elastic component is incorporated in the one side of this body; And

One detecting module, this detecting module is incorporated on this elastic component, and this detecting module exposes to outside the opening of this body, increases the pressure to health surface layer to make this detecting module by this elastic component on fabric.

2. elasticity physiology detector according to claim 1, is characterized in that, the opening of this body is horizontal shape or straight to shape, and the material of this body is cloth, fabric or diaphragm.

3. elasticity physiology detector according to claim 1 and 2, is characterized in that, the inner face of the opening of this body is further combined with a lamella, and the opening that this lamella corresponds to body is provided with corresponding opening, and the material of this lamella is plastics, cloth or diaphragm.

4. elasticity physiology detector according to claim 1 and 2, it is characterized in that, the inner face of the opening of this body is further combined with two lamellas, these two lamellas lay respectively at the left side and the right of the opening of body, to form bar seam, make the opening of this body correspond to bar seam place, the material of this lamella is plastics, cloth or diaphragm.

5. elasticity physiology detector according to claim 1, is characterized in that, this fabric is clothes, trousers, glove, underwear, vest, corset or flat mouth clothing, and this fabric adopts elastic material braiding or adopts non-resilient material to weave.

6. elasticity physiology detector according to claim 1, it is characterized in that, the opening of this body has certain length, and this elastic component has length in reserve further, and the opening part of this detecting module by the length in reserve of this elastic component in body is moved.

7. elasticity physiology detector according to claim 6, is characterized in that, the length in reserve of this elastic component is provided with at least one nonelastic range further.

8. elasticity physiology detector according to claim 1, it is characterized in that, this elastic component has an extension further, and this extension extends to the suture place of fabric.

9. elasticity physiology detector according to claim 1, is characterized in that, this elastic component and the combination of this body are be respectively equipped with corresponding junction surface on the two ends of this elastic component with body.

10. elasticity physiology detector according to claim 1, is characterized in that, this combination is suture way, ultrasound wave mode, heat fused mode or bonding agent mode.

11. elasticity physiology detectors according to claim 1, is characterized in that, this detecting module and the combination of this elastic component are be respectively equipped with corresponding clamping part on this detecting module with this elastic component.

12. elasticity physiology detectors according to claim 1, it is characterized in that, the combination of this detecting module and this elastic component is for be directly fixed on detecting module on elastic component.

13. elasticity physiology detectors according to claim 1, it is characterized in that, this detecting module is provided with the electrode slice for detecting health top layer physiological signal further, and this electrode slice is connected with a Signal transmissions contact further.

14. elasticity physiology detectors according to claim 1, it is characterized in that, this detecting module is provided with inclination perception chip and microcontroller further, and this microcontroller is connected with inclination perception chip, with the change by microcontroller induction inclination perception chip.