CN105559258A - Wearing apparel comfort level testing method and system - Google Patents

Abstract

The invention discloses a wearing apparel comfort level testing method and a wearing apparel comfort level testing system, which are designed aiming at acquiring the physiological data of the human body when the human body wears the wearing apparel. The wearing apparel comfort level testing method comprises the following steps: manufacturing or selecting the tested wearing apparel according to the physiological feature data of the human body; collecting the physiological data of the human body after the tested wearing apparel is worn; transmitting the collected data to a server through a wired or wireless manner; and comparing with a standard database, and outputting the comparison result.

Description

Wear comfort test method and system

Technical field

The present invention relates to a kind of wear comfort test method and system.

Background technology

Everyone has self physical difference, and nature has the demand of Different Individual otherness to wear.For shoes, everyone foot type is not identical, two pin of same person also also exist certain difference, traditional only with greatly, the style getting off to distinguish shoes is fitted and can not be met people to the demand of customization shoes, human foot has many human parameters, these human parameters all determine the comfort level of foot in shoes of human body, such as some people is flat foot, some people is clawfoot, whole sole splayfooted people is all contacted with sole, the sole of the shoes of design like this will be put down, for clawfoot people corresponding foot arch part in the middle of sole to be made projection to support foot, the acquisition of these data no longer can obtain only by simple measurement, the foot of a little people easily perspires again simultaneously, so just there is certain requirement to the air permeability of shoes, the foot of some people is afraid of cold, what so shoes just needed to do is more warming, but hooligan warms up and easily to perspire, foot is very uncomfortable in a humid environment.For another example a body shaping underwear is example, and the difference between individual stature determines the underwear that different people is applicable to different structure, but the acquisition of these parameters is not by simply measuring and can obtaining.

In sum, need a kind of can based on the human parameters data of individual, obtain the wear with the human parameters information match of individual, the developing direction that becoming after, wear customizes.

Summary of the invention

For the problems referred to above, the invention provides a kind of rational in infrastructure, data acquisition wear test macro and method accurately

For achieving the above object, wear comfort test system of the present invention, comprises

Gather the test wear of the physiological data of human body, described test wear is partly or entirely prepared from by wear comfort test system;

The physiological data collected is transferred to the transport module of server by wired or wireless mode;

Compare with standard database, export the data processing module of comparative result;

Described data processing module at least comprises:

Store by human body with the difference of physiological characteristic, be divided into some classifications, human body of all categories feels the standard database between comfortable human body physiological data standard regions when dressing described test wear; And

By the physiological data described in collecting and the comparing unit that compares between the described physiological data standard regions in described standard database,

If the human body physiological data described in each all between corresponding standard regions within, then described test wear is comfortable wear;

If the described human body physiological data of at least one item between described standard regions outside, then described test wear is non-comfortable wear.

For achieving the above object, the method for testing of wear comfort test system of the present invention, according to human body physiological characteristics data creating or selection test wear, the shoe-pad of described test footwear is prepared from by wear comfort test system;

Gather this test wear be worn after human body physiological data;

Image data is transferred to server by wired or wireless mode;

Compare with standard database, export comparative result;

Described compares with standard database, and output comparative result or correction result specifically comprise:

Criterion database, human body is divided into some classifications with the difference of physiological characteristic by described normal data library storage, and human body of all categories is felt between comfortable human body physiological data standard regions when dressing described test wear;

Compare by the human body physiological data described in collecting and between the described human body physiological data standard regions in described standard database,

If the human body physiological data described in each all between corresponding standard regions within, then described test wear is comfortable wear;

If the described human body physiological data of at least one item between described standard regions outside, then described test wear is non-comfortable wear.

The present invention utilizes the difference along with pressure, wear comfort test system can export this feature of the different signals of telecommunication, wear comfort test system is made into test wear, human body collects the physiological data of human body by dressing described test wear, and then utilizes this physiological data to design the wear being applicable to individuality.

Accompanying drawing explanation

Fig. 1 is the flow chart of steps of wear comfort test method of the present invention;

Fig. 2 is a kind of cross section structure schematic diagram of the tissue layer of wear comfort test system of the present invention;

Fig. 3 is a kind of cross section structure schematic diagram of the tissue layer of wear comfort test system of the present invention;

Fig. 4 is a kind of cross section structure schematic diagram of the tissue layer of wear comfort test system of the present invention;

Fig. 5 is the structural representation of the tissue layer of wear comfort test system of the present invention.

Detailed description of the invention

Below in conjunction with Figure of description, the present invention will be further described.

Embodiment 1

The present embodiment is specifically described to be applied on shoes.

The present embodiment wear comfort test system, comprise shoes body, the shoe-pad of shoes is prepared from by wear comfort test system, described wear comfort test system can record human body and step down in force value in wear comfort test system, is provided with temperature, the temperature sensor of humidity, humidity sensor in monitoring shoes in described shoes.In different environments, time user puts on the test footwear described in the present embodiment, under different states of ground, carry out in different motion processes, some physiological datas of foot, physiological parameter is temperature, the humidity in the pressure data of sole each several part, shoes particularly.

In embody rule process, first based on the test shoes that the physiological characteristic information of user selects it suitable, the concrete physiological characteristic of user will determine as the case may be, and such as, described physiological characteristic can comprise: sex, age, height, body weight.Specific practice is in the present embodiment: after first application infrared-ray scan technique instrument carries out omnidirectional shooting to client foot information, obtain the threedimensional model of client foot, then select according to described threedimensional model or make and test footwear that client foot threedimensional model is suitable.

Below enumerate several different user and dress the instantiation that the described test footwear described in embodiment one carry out foot test.

Example 1, height 170, the first female user of body weight 60 kilograms needs a pair of to be applicable to the shoes of oneself dress when running.

First, Mrs first wears suitable test footwear, in pre-set environment, run 2 hours in highway bottom surface, within these two hours, the pressure of the collection Mrs first foot that wear comfort test system is real-time, every the temperature and humidity data of the test footwear inside that 10 minutes temperature sensors and humidity sensor collection Mrs first are worn.

Secondly, by the height that stores in the data collected and standard database 170 to 175, body weight is the women of 60 kilograms to 65 kilograms when wearing shoes and running, and when human body sensory is comfortable, the pressure data of sole is interval and shoe temperature is interval, between humidity province;

Finally, compare the pressure physiological data of Mrs first, shoe temperature data, humidity data whether between described pressure data interval, temperature range, humidity province within.

The test result obtained is, the physiological data of Mrs first all in the data interval of described database purchase, then illustrates that every design parameter of test footwear is the shoes that a pair of is comfortable for Mrs first.

Example 2, height 185, the second man user at body weight 80 kilograms, 35 years old age needs a pair of to be applicable to the shoes of oneself dress when climbing the mountain.

First, second man wears suitable test footwear, in pre-set environment, swash in hill path and go up a hill and climb down 6 hours, mountain, within these 6 hours, the pressure of the collection second man foot that wear comfort test system is real-time, every temperature sensor and humidity sensor collection second man temperature and humidity data of test footwear inside of wearing half an hour.

Secondly, by the height that stores in the data collected and standard database 185 to 190, body weight is the male sex of 80 kilograms to 85 kilograms when wearing shoes and climbing the mountain, and when human body sensory is comfortable, the pressure data of sole is interval and shoe temperature is interval, between humidity province;

Finally, compare the pressure physiological data of second man, shoe temperature data, humidity data whether between described pressure data interval, temperature range, humidity province within.

The test result obtained is, the humidity physiological data of second man is not in the data interval of described database purchase, and humidity data is greater than the maximum between humidity province, then this design parameter of the gas permeability of explanation test footwear is the non-comfortable shoes of a pair of for second scholar, but other design parameters are comfortable shoes.

Example 3, height 165, body weight 50 kilograms, 15 years old age, the third Ms user need a pair of be applicable to oneself walk time dress shoes.

First, third Ms wears suitable test footwear, in pre-set environment, walk 1 hour on the ground, within this 1 hour, the pressure of the collection third Ms foot that wear comfort test system is real-time, every the temperature and humidity data of the test footwear inside that 2 minutes temperature sensors and humidity sensor collection third Ms are worn.

Secondly, by the height that stores in the data collected and standard database 165, body weight the women of 50 kilograms when walking, when human body sensory is comfortable, the pressure data interval of sole and shoe temperature is interval, between humidity province;

Finally, the pressure physiological data of the third Ms is compared and shoe temperature data are interval at described pressure data, within temperature range.

The test result obtained is, warmth retention property and these two design parameters of sole of test footwear are the non-comfortable shoes of a pair of for the third scholar, but other design parameters are comfortable shoes.

The further Application Example of the present embodiment 1, if described test wear is comfortable wear, then makes described special wear according to described test wear;

If described test wear is non-comfortable wear, then the data of described test wear are revised, based on the special wear of amended data creating.

The pressure condition of the shoe-pad testing human be made by wear comfort test system sole each several part in the process of walking.Whether described temperature sensor, humidity sensor are used for testing human foot and easily perspire, and shoes at different air permeabilities, protect under state of temperature, the temperature of foot and humidity condition in shoes.Such as some people easily grinds left side or the sole of some when walking, at this moment illustrate that this Ren You foot is firmly uneven.The now making of sole needs corrects this firmly uneven situation targetedly, helps individual to change this custom of walking by the design of sole.The easy smelly pin of such as some people, this is because foot's sweat gland prosperity, now what temperature temperature sensor and humidity sensor just can collect at, human foot has easily perspired, after obtaining above data, described sensor exports these data to data analysis module, data analysis module carries out process to described human parameters data and mates with the data in described wear model database, if there is occurrence, then exporting corresponding wear model in described wear model database, is also the model of shoes.In this comparison process, each item number certificate may not can find corresponding occurrence, if now there is part to find the words of occurrence, only need to export the part not finding occurrence, bamboo product is carried out to not finding the part of occurrence, such as in the present embodiment, human parameters data as the wear comfort test system acquisition of shoe-pad have corresponding matched data to described wear model database, now export corresponding shoe-pad model, other design element such as, air permeability, thermal ressistance then need according to actual acquisition to human parameters carry out bamboo product, then upgrade and wear crop modeling database.

Embodiment 2

The present embodiment is specifically described to be applied on underwear.

The present embodiment wear comfort test system, comprise wear body, underwear, described underwear body is made up of wear comfort test system, human parameters sensor group is provided with in described underwear, described human parameters sensor group is connected with data processor, and described data processor comprises wears model database, data analysis module, stores the underwear model that a large amount of different human body parameters is corresponding in described model database.Described human parameters sensor group comprises temperature sensor, humidity sensor, the moisture degree sensor of skin, subcutaneous fat content measuring sensor.Can also according to the sensor of different increase in demand some other in actual application.

The pressure condition of the underwear testing human each several part that wear comfort test system is made.Described temperature sensor, humidity sensor are used for the temperature of testing human in different temperatures environment, described humidity sensor is used for testing human perspiration situation in different environments, to design the underwear of suitable air permeability, the moisture degree sensor of skin is used for the drying regime of testing human skin to determine the material of underwear, and described subcutaneous fat content measuring sensor is used for the telescopic elastic force space of testing human skin to design the elastic force density of underwear.

Described various sensors gather the various human parameters data of human body, and export described human parameters to data processor, described data analysis module is compared to described human parameters data and the data of wearing in model database, in this comparison process, each item number certificate may not can find corresponding occurrence, if now there is part to find the words of occurrence, only need to export the part not finding occurrence, design according to the human parameters data collected not finding the part of occurrence, then upgrade and wear crop modeling database.

Comprise wear model training module in the present embodiment, for generating human body wear model based on the training of described somatic data.

Following embodiment describes the sensor body structure preparing the fabric construction of wear in the various embodiments described above.

As shown in Fig. 2 to 5, be respectively the schematic cross-section of three kinds of different structures of the tissue layer of the sensor of fabric construction of the present invention, wherein, in Fig. 2, graphene conductive single 22 spacing in described tissue layer is arranged, and is provided with non-conductive fibre line 11 between adjoining graphite alkene conductive fiber line.The diameter of the graphene conductive single in Fig. 2 is less than the diameter of non-conductive fibre line, and so after intertexture is for tissue layer, on the surface of tissue layer, non-conductive fibre line is standing shape, and described graphene conductive single is recessed.In Fig. 3, graphene conductive single 22 spacing in described tissue layer is arranged, and is provided with non-conductive fibre line 11 between adjoining graphite alkene conductive fiber line.The diameter of the graphene conductive single in Fig. 3 equals the diameter of non-conductive fibre line, and so after intertexture is for tissue layer, on the surface of tissue layer, non-conductive fibre line and described graphene conductive single are in same plane.The diameter of the graphene conductive single in Fig. 4 is greater than the diameter of non-conductive fibre line, and so after intertexture is for tissue layer, on the surface of tissue layer, graphene conductive single is standing shape, and described non-conductive fibre line is recessed.As shown in Figure 5, be the structural representation of tissue layer.

Embodiment 1.1

The present embodiment wear comfort test system, the wherein sensor of fabric construction, on it at least partly or Zone Full be sensing unit, comprise the first tissue layer and second tissue layer of stacked setting, wherein the first tissue layer and the second tissue layer are respectively equipped with the graphene conductive single that many spacing are arranged, do not contact with each other between wire single in same tissue layer like this, described graphene conductive single is linear structure, described graphene conductive single is with parallel, the uniform arrangement mode of spacing is arranged in described tissue layer, the mutual cross arrangement of graphene conductive single in described first tissue layer and described second tissue layer, graphene conductive single in first tissue layer and the graphene conductive single cross arrangement in the second tissue layer form chessboard-like structure, perfect condition is, each graphene conductive single in first tissue layer in each graphene conductive single and the second tissue layer has unique intersection point, but may be difficult in a practical situation accomplish, but the first tissue layer, most of wire single in second tissue layer is arranged in a crossed manner.Spacer structure is provided with between the first tissue layer and the second tissue layer, spacer structure described is in the present embodiment be separately positioned on the elastomer line in the first tissue layer and the second tissue layer, the thickness of described elastomer line is greater than the diameter of described graphene conductive single, also namely described wire single is embedded in described elastomer line, and the diameter of the graphene conductive single in first and second tissue layer described is less than the thickness of first and second tissue layer.Said structure: when not having external force to put on the first tissue layer, the second tissue layer, graphene conductive single gap under the support of elastomer line of described first tissue layer, the second tissue layer arranges and does not contact away from each other, the first tissue layer is put on there being external force, when the second tissue layer, described first tissue layer, graphene conductive single gap under the support of elastomer line of the second tissue layer arranges and does not contact away from each other, the first tissue layer is put on when there being external force, when the second tissue layer, be arranged on described first tissue layer, elastomer line in second tissue layer is squeezed, now described graphene conductive single stretches out described elastomer line, the wire single of the first tissue layer and the second tissue layer contacts conduction, two graphene conductive singles intersect at a point, the column data line that the row data wire now connected by the wire single in the first tissue layer is connected with the graphene conductive single in described second tissue layer carries out coordinate setting, just can know force value and the position of pressure spot.

In the present embodiment, the graphene conductive single that same row data wire or column data line connect is fewer, also the row data wire namely arranged and column data line more, then positioning precision is higher, but from the situation of manufacture craft and reality, same row data wire or column data line can connect the graphene conductive single of more than two.

Embodiment 1.2

The present embodiment wear comfort test system, be same the first tissue layer and the second tissue layer that comprise stacked setting with the sensor something in common of the fabric construction introduced in embodiment 1, wherein the first tissue layer and the second tissue layer be respectively equipped with the graphene conductive single that many spacing are arranged.The principle of the sensor of fabric construction and preparation technology are also roughly the same, do not repeat them here, the sensor of the fabric construction described in the present embodiment is the different of the spacer structure arranged between the first tissue layer and the second tissue layer from the difference described in embodiment.

Spacer structure described in the present embodiment is the elastomer line arranged in the first tissue layer, second tissue layer is not provided with elastomer line, namely also the diameter of graphene conductive single is less than the thickness that the first fabric just crosses in the first tissue layer, wire single in described first tissue layer embeds in described first tissue layer, and the diameter of described second tissue layer upper conductor single is identical with the thickness of the second tissue layer.Said structure: when not having external force to put on the first tissue layer, the second tissue layer, graphene conductive single gap under the support of elastomer line of described first tissue layer, the second tissue layer arranges and does not contact away from each other, the first tissue layer is put on when there being external force, when the second tissue layer, the elastomer line be arranged in described first tissue layer is squeezed, the elastomer line described in graphene conductive single now in described first tissue layer, the wire single of the first tissue layer and the second tissue layer contacts conduction, two graphene conductive singles intersect at a point, the column data line that the row data wire now connected by the graphene conductive single in the first tissue layer is connected with the graphene conductive single in described second tissue layer carries out coordinate setting, just can know force value and the position of pressure spot.

Embodiment 1.3

The present embodiment wear comfort test system, be same the first tissue layer and the second tissue layer that comprise stacked setting with the sensor something in common of the fabric construction introduced in embodiment 1.2, wherein the first tissue layer and the second tissue layer be respectively equipped with the graphene conductive single that many spacing are arranged.The principle of the sensor of fabric construction and preparation technology are also roughly the same, do not repeat them here, and it is different that sensor and the difference of embodiment 1.2 of the fabric construction described in the present embodiment are at the second textile matte structure.

The diameter of the graphene conductive single in the second tissue layer described in the present embodiment is greater than described second tissue layer, also the wire namely in described second tissue layer stretches out described second tissue layer, and the thickness of the elastomer line simultaneously in the first tissue layer should be the diameter addition result being not less than the graphene conductive single in the first tissue layer and the graphene conductive single in the second tissue layer.

Said structure: when not having external force to put on the first tissue layer, the second tissue layer, graphene conductive single gap under the support of elastomer line of described first tissue layer, the second tissue layer arranges and does not contact away from each other, the first tissue layer is put on when there being external force, when the second tissue layer, the elastomer line be arranged in described first tissue layer is squeezed, graphene conductive single in second tissue layer stretches in the elastomer line in described first tissue layer, now the wire single of the first tissue layer and the second tissue layer contacts conduction, two graphene conductive singles intersect at a point, the column data line that the row data wire now connected by the graphene conductive single in the first tissue layer is connected with the graphene conductive single in described second tissue layer carries out coordinate setting, just can know force value and the position of pressure spot.

Embodiment 1.4

The present embodiment wear comfort test system, the spacer structure comprising the first tissue layer of stacked setting, the second tissue layer and be arranged between the first tissue layer and the second tissue layer, the structure of the first tissue layer described in the present embodiment and described second tissue layer is the graphene conductive single which is provided with the linear structure that many spacing are arranged, and described graphene conductive single is arranged in described tissue layer with parallel, the uniform arrangement mode of spacing.First tissue layer is identical with above-mentioned several embodiment with the operation principle of the second tissue layer, do not repeat them here, only specifically introduce the present embodiment and above-mentioned several embodiment difference is spacer structure at this, spacer structure in the present embodiment is be arranged on the middle fabric layer between the first tissue layer and the second tissue layer, the weaving order number of wherein said middle fabric layer is greater than the diameter of described graphene conductive single, also namely the textile density of middle fabric layer will lower than first, two tissue layer, described middle fabric layer will have in each weaving gap at least one first, the crosspoint of the graphene conductive single in two tissue layer is passed through.The diameter of the graphene conductive single in the present embodiment in described first tissue layer, the second tissue layer is identical with the thickness of described first tissue layer.

Said structure: when not having external force to put on the first tissue layer, the second tissue layer, graphene conductive single gap under the support of middle fabric layer of described first tissue layer, the second tissue layer arranges and does not contact away from each other, the first tissue layer is put on when there being external force, when the second tissue layer, described first tissue layer, graphene conductive single in second tissue layer is squeezed, now described first, graphene conductive single in two tissue layer to contact conduction through the weaving gap of described middle fabric layer, two graphene conductive singles intersect at a point, the column data line that the row data wire now connected by the graphene conductive single in the first tissue layer is connected with the graphene conductive single in described second tissue layer carries out coordinate setting, just can know force value and the position of pressure spot.

Embodiment 1.5

The present embodiment wear comfort test system, first tissue layer, second tissue layer and the spacer structure that be arranged on first tissue layer and second tissue layer between that comprise stacked setting identical with embodiment 1.4.The difference of the present embodiment and embodiment 1.4 is, the diameter of the graphene conductive single in the first tissue layer in the present embodiment equals described first tissue layer, the thickness of the graphene conductive single in described second tissue layer is greater than described second tissue layer, and also namely described graphene conductive single stretches out described second tissue layer.Namely in the structure of the present embodiment, have certain requirement to the thickness of middle fabric layer, also the thickness of middle fabric layer is greater than graphene conductive single in the second tissue layer and stretches out the thickness of the second tissue layer.

Said structure: when not having external force to put on the first tissue layer, the second tissue layer, graphene conductive single gap under the support of middle fabric layer of described first tissue layer, the second tissue layer arranges and does not contact away from each other, the first tissue layer is put on when there being external force, when the second tissue layer, described first tissue layer, graphene conductive single in second tissue layer is squeezed, now described first, graphene conductive single in two tissue layer to contact conduction through the weaving gap of described middle fabric layer, two graphene conductive singles intersect at a point, the column data line that the row data wire now connected by the graphene conductive single in the first tissue layer is connected with the graphene conductive single in described second tissue layer carries out coordinate setting, just can know force value and the position of pressure spot.

Embodiment 1.6

The sensor of the present embodiment fabric construction, first tissue layer, second tissue layer and the spacer structure that be arranged on first tissue layer and second tissue layer between that comprise stacked setting identical with embodiment 5.Difference from Example 5 is, the thickness of the graphene conductive single in described first tissue layer is greater than described first tissue layer, and also namely described graphene conductive single stretches out described first tissue layer.Namely in the structure of the present embodiment, also have certain requirement to the thickness of middle fabric layer, also the thickness of middle fabric layer is greater than graphene conductive single in the first tissue layer and stretches out graphene conductive single in the thickness of the first tissue layer and the second tissue layer and stretch out the thickness sum of the second tissue layer.

Said structure: when not having external force to put on the first tissue layer, the second tissue layer, graphene conductive single gap under the support of middle fabric layer of described first tissue layer, the second tissue layer arranges and does not contact away from each other, the first tissue layer is put on when there being external force, when the second tissue layer, described first tissue layer, graphene conductive single in second tissue layer is squeezed, now described first, graphene conductive single in two tissue layer to contact conduction through the weaving gap of described middle fabric layer, two graphene conductive singles intersect at a point, the column data line that the row data wire now connected by the graphene conductive single in the first tissue layer is connected with the graphene conductive single in described second tissue layer carries out coordinate setting, just can know force value and the position of pressure spot.

The cooperatively interact embodiment of setting and the spacer structure of different structure of the first tissue layer of different structure, the second tissue layer, supporting construction is sets forth in above-described embodiment 1.1 to 1.6, the no matter setting in what manner of spacer structure, the object that described spacer structure is arranged be all in order to the graphene conductive single in the first tissue layer, the second tissue layer in the absence of external forces, gap arranges and does not contact, can not form conductive structure between the two, when there being external force, graphene conductive single contacts formation conductive path.

Embodiment 1.7

The present embodiment wear comfort test system, be with the various embodiments described above difference, the difference of the structure of the graphene conductive single in the first described tissue layer, the second tissue layer, the graphene conductive single in the present embodiment in first and second tissue layer described is circular arc line.In first and second tissue layer described, the operation principle of graphene conductive single is identical, does not repeat them here.

Embodiment 1.8

The present embodiment wear comfort test system, be with the various embodiments described above difference, the difference of the structure of the graphene conductive single in the first described tissue layer, the second tissue layer, the graphene conductive single in the present embodiment in first and second tissue layer described is meander line.

Embodiment 1.9

The present embodiment wear comfort test system, be with the various embodiments described above difference, the difference of the structure of the graphene conductive single in the first described tissue layer, the second tissue layer, graphene conductive single in the present embodiment in first and second tissue layer described is straight line, and but the wire single in first and second tissue layer described intersects out of plumb.

Wear comfort test system described in the various embodiments described above, can compare accurate location to the point of application, but manufacture craft relative complex, and cost of manufacture is also relatively high.Following embodiment describes a kind of locating effect not as above-described embodiment, but manufacture craft is relatively simple, the wear comfort test system that cost is also low.

Embodiment 1.10

The present embodiment wear comfort test system, at least comprise partially conductive tissue layer and the conductive textile layer of stacked setting, wherein said partially conductive tissue layer is provided with the graphene conductive single that many spacing are arranged, intermediate layer is provided with between described partially conductive tissue layer and described conductive textile layer, graphene conductive single in described partially conductive tissue layer and the described conductive textile layer gap when not having ambient pressure being arranged, contacting when there being external force; Graphene conductive single in described conductive textile layer is connected with many locator data lines.Described second tissue layer is metallic plate.

Intermediate structure described in the present embodiment is the elastomer line be arranged in the first tissue layer, identical with the structure of the first tissue layer described in above-described embodiment 1.1 to 1.9, has the structure described in above-described embodiment to change.

Said structure, when not applying external force, the graphene conductive single of the first tissue layer and described metallic plate under the support of intermediate structure between gap arrange; When applying external force, the graphene conductive single of the first tissue layer and described metallic plate are in the intermediate structure elastic compression under pressure that is squeezed, and now graphene conductive single contacts with described metallic plate and conducts electricity.

Embodiment 1.11

The present embodiment wear comfort test system, the partially conductive tissue layer and the conductive textile layer that at least comprise stacked setting identical with embodiment 1.11, wherein said partially conductive tissue layer is provided with the graphene conductive single that many spacing are arranged, intermediate layer is provided with between described partially conductive tissue layer and described conductive textile layer, graphene conductive single in described partially conductive tissue layer and the described conductive textile layer gap when not having ambient pressure being arranged, contacting when there being external force; Graphene conductive single in described conductive textile layer is connected with many locator data lines.Described second tissue layer is metallic plate.

Intermediate structure described in the present embodiment and embodiment 1.10 different are is the elastomer line be arranged in the second tissue layer, and the part beyond the wire single in the second tissue layer in corresponding described first tissue layer is provided with elastomer line.

Said structure, when not applying external force, the graphene conductive single of the first tissue layer and described metallic plate under the support of elastomer line between gap arrange; When applying external force, the graphene conductive single of the first tissue layer contacts with described metallic plate and conducts electricity.

In above-described embodiment 1.10 and 1.11, the graphene conductive single in described conductive textile layer is linear structure, and the arrangement of described graphene conductive single uniform rectilinear.

The first tissue layer in the various embodiments described above and the structure of the second tissue layer can also for be interwoven by many plaits, the structure of wherein said plait is, on a conductor wire, spacing is provided with some clads, and described plait is interconnected to form the first tissue layer or the second tissue layer by described clad.

Embodiment 1.12

The present embodiment wear comfort test system, the sensor of fabric construction, comprise two layers of tissue layer, described fabric upper part region or Zone Full are sensing unit, spacer structure is provided with between the multiplexing tissue layer of described sensing unit and pressure tissue layer, described multiplexing tissue layer is laterally provided with many conductive fiber lines, pressure tissue layer is longitudinally provided with many conductive fiber lines, described spacer structure makes the wire single of multiplexing tissue layer, pressure tissue layer gap when not having ambient pressure arrange, and contacts with each other when there being ambient pressure.

Described fabric also comprises the first test fabric layer being arranged on pressure tissue layer side, described first test fabric layer laterally or is longitudinally provided with many conductive fiber lines, and the described conductive fiber line of the first test fabric layer nitride layer and the conductive fiber line of multiplexing tissue layer insulate and to arrange or the described conductive fiber line of the first test fabric layer nitride layer and the conductive fiber line of pressure tissue layer insulate and arrange.

In the present embodiment, also comprise one deck zone of heating, when the wire single of multiplexing tissue layer, pressure tissue layer contacts with each other when there being ambient pressure, the conductive fiber line connecting the first test fabric layer heats.

Embodiment 1.13

The present embodiment wear comfort test system, the sensor of fabric construction, comprise two layers of tissue layer, described fabric upper part region or Zone Full are sensing unit, spacer structure is provided with between the multiplexing tissue layer of described sensing unit and pressure tissue layer, described multiplexing tissue layer is laterally provided with many conductive fiber lines, pressure tissue layer is longitudinally provided with many conductive fiber lines, described spacer structure makes the wire single of multiplexing tissue layer, pressure tissue layer gap when not having ambient pressure arrange, and contacts with each other when there being ambient pressure.

On the basis of above-described embodiment, described fabric also comprises the first test fabric layer being arranged on pressure tissue layer side and the second test fabric layer being arranged on multiplexing tissue layer side, and described 3rd tissue layer, described 4th tissue layer respectively transverse direction, longitudinal direction or longitudinal direction, transverse direction are provided with many conductive fiber lines.

The present embodiment is on the basis of the various embodiments described above, described first test fabric layer, on second test fabric layer, conductive fiber line is for horizontal respectively, longitudinally arrange, structure like this, the first described test fabric layer, one or a few graphene conductive single every on second test fabric layer is switched on or switched off power supply, so can control that a slice of functional areas heating on fabric accurately, first test fabric layer, the graphene conductive single of the second test fabric layer has crosspoint, the temperature in crosspoint has superposition, so can that a slice of controlling functions district heat accurately, or doublely to heat.

Embodiment 3

The present embodiment wear comfort test system, comprises

Gather the test wear of the physiological data of human body, described test wear is partly or entirely prepared from by wear comfort test system;

The physiological data collected is transferred to the transport module of server by wired or wireless mode;

Compare with standard database, export the data processing module of comparative result;

Described data processing module at least comprises:

Store by human body with the difference of physiological characteristic, be divided into some classifications, human body of all categories feels the standard database between comfortable human body physiological data standard regions when dressing described test wear; And

By the physiological data described in collecting and the comparing unit that compares between the described physiological data standard regions in described standard database,

If the human body physiological data described in each all between corresponding standard regions within, then described test wear is comfortable wear;

If the described human body physiological data of at least one item between described standard regions outside, then described test wear is non-comfortable wear.

The present embodiment, described system also comprises cyclelog, the time-sharing multiplex switch, temperature setting module, body temperature acquisition module, pressure acquisition module and/or the heartbeat acquisition module that are connected wired or wireless with described cyclelog,

Described time-sharing multiplex switch, each graphene conductive single controlling each tissue layer according to the instruction of cyclelog is switched on or switched off power supply;

Temperature setting module, be connected with the graphene conductive single of described multiplexing tissue layer, the first test fabric layer, the second test fabric layer, set the magnitude of voltage of graphene conductive single of multiplexing tissue layer, the first test fabric layer, the second test fabric layer;

Heartbeat acquisition module, be connected with at least one group of graphene conductive single of multiplexing tissue layer, the first test fabric layer and/or the second test fabric layer, one group of described graphene wire single is two Graphene conductive fiber lines in same tissue layer, these two Graphene conductive fiber lines are heartbeat gathering line, heartbeat acquisition module, the instruction of reception program controller, gathers the first resistance value between jumping gathering line in fundamental disagreement

If the first resistance value, within the scope of dry resistance threshold, then gather the voltage between jumping gathering line in fundamental disagreement,

If this magnitude of voltage is 0, then send warning message; Magnitude of voltage is 0 and illustrates that skin does not stick heartbeat gathering line, at this moment sends warning message reminding user.

If this magnitude of voltage in the first voltage threshold scope (a, b), then exports this magnitude of voltage to controller; When first voltage threshold scope (a, b) is for human heartbeat 40 to 90 times/S, the corresponding skin voltage threshold range recorded.

If this magnitude of voltage in the first voltage threshold scope (a, b), then exports this magnitude of voltage to cyclelog; The second voltage threshold also i.e. corresponding voltage threshold recorded when yarn fabric is in humidity, this value according to the requirements set of user,

If this magnitude of voltage is less than the second voltage threshold, then cyclelog send unlatching carry out the first test fabric layer, the second heated web and/or multiplexing tissue layer heating until magnitude of voltage be 0 or magnitude of voltage in the first voltage threshold scope (a, b);

If the first resistance value, in moist resistance range, then cyclelog send unlatching carry out the first test fabric layer, the second heated web and/or multiplexing tissue layer heating, until the first resistance value between two strips temperature gathering line is within the scope of dry resistance threshold;

Described cyclelog calculates human heartbeat according to the magnitude of voltage received;

Body temperature acquisition module, be connected with at least one group of graphene conductive single of multiplexing tissue layer, the first test fabric layer and/or the second test fabric layer, one group of described graphene wire single is two Graphene conductive fiber lines on same textile structure layers, these two Graphene conductive fiber lines are body temperature gathering line, gather the second resistance value between two strips temperature gathering line

If the second resistance value within the scope of dry resistance threshold, then sends warning message; Illustrate that skin does not stick heartbeat gathering line, at this moment send warning message reminding user.

If the second resistance value in the first electricity group threshold range (c, d), then exports this second resistance value to cyclelog; During for human body 34 DEG C to 40 DEG C, the corresponding dermatopolyneuritis threshold range recorded.

If this magnitude of voltage is in moist resistance threshold, then cyclelog send unlatching carry out the first test fabric layer, the second heated web and/or multiplexing tissue layer heating, until the second resistance value between two strips temperature gathering line is greater than first threshold or organizes in threshold range (c, d) at the second electricity;

Described cyclelog calculates body temperature according to the second resistance value received;

Pressure acquisition module, be connected with the graphene conductive single of multiplexing tissue layer respectively by many row data wires, be connected with the graphene conductive single of pressure tissue layer respectively by many column data lines, described row data wire and described column data line form checkerboard configuration, carry out described multiplexing tissue layer, pressure tissue layer graphene conductive single intersection point location, the intersection point navigated to is sent to cyclelog;

Humidity collection module, be connected with at least one group of graphene conductive single of the first test fabric layer, the second test fabric layer, multiplexing tissue layer and/or pressure tissue layer, these two Graphene conductive fiber lines are humidity collection line, gather the 3rd resistance value between two bars of humidity collection lines

If the 3rd resistance value in dry threshold range, does not then deal with;

If the 3rd resistance value is in moist threshold range, then the 3rd resistance value is sent to cyclelog, described cyclelog, according to the 3rd resistance value, calculates the humidity of wear comfort test system.

The human body physiological data that the present embodiment obtains, comprises heartbeat, body temperature, pressure, humidity (skin perspiration amount).

Embodiment 4

The present embodiment wear comfort test system, the method that the described heartbeat acquisition module in above-described embodiment, described body temperature acquisition module, humidity collection module specifically gather physiological data is as follows:

Described heartbeat acquisition module: choose any graphene conductive single of the first test fabric layer, the second test fabric layer or multiplexing tissue layer as the first heartbeat gathering line, the first described heartbeat gathering line and the second heartbeat gathering line, respectively as the second heartbeat gathering line, are formed heartbeat gathering line group by other graphene conductive singles successively choosing same textile structure layers;

Also namely the first heartbeat gathering line and the second heartbeat gathering line are arranged on same textile structural layer.All graphene conductive singles on the present embodiment first heartbeat gathering line and one deck textile structural layer outside removing first heartbeat gathering line match and carry out the collection of skin magnitude of voltage, one side like this can improve the degree of accuracy of the data of collection, the each several part of textle layers can be traveled through on the other hand, textle layers can be adjusted to drying regime.

Magnitude of voltage between the jumping gathering line in fundamental disagreement obtaining each group of heartbeat gathering line group, and get the mean value of described magnitude of voltage, calculate human body current heartbeat data according to this average voltage level;

Described body temperature acquisition module: choose any graphene conductive single of the first test fabric layer, the second test fabric layer or multiplexing tissue layer as the first body temperature gathering line, the first described body temperature gathering line and the second body temperature gathering line, respectively as the second body temperature gathering line, are formed body temperature gathering line group by other graphene conductive singles successively choosing same textile structure layers;

Also namely the first body temperature gathering line and the second body temperature gathering line are arranged on same textile structural layer.All graphene conductive singles on the present embodiment first heartbeat gathering line and one deck textile structural layer outside removing first heartbeat gathering line match and carry out skin resistance collection, one side like this can improve the degree of accuracy of the data of collection, the each several part of textle layers can be traveled through on the other hand, textle layers can be adjusted to drying regime.

The first magnitude of voltage between the two strips temperature gathering line obtaining each group of body temperature gathering line group, and get the mean value of the first described resistance value, according to the current temperature data of this mean value calculation human body;

Humidity collection module: choose any graphene conductive single of the first test fabric layer, the second test fabric layer, multiplexing tissue layer or pressure tissue layer as the first body temperature gathering line; The first described humidity collection line and the second humidity collection line, respectively as the second humidity collection line, are formed humidity collection line group by other graphene conductive singles successively choosing same textile structure layers; Also namely the first humidity collection line and the second humidity collection line on same textile structural layer.

Or successively choose not on same textile structure layers whole graphene conductive single respectively as the second humidity collection line, the first described humidity collection line and the second humidity collection line are formed humidity collection line group;

The second resistance value between the two humidity collection lines obtaining each group of humidity collection line group, and get the mean value of the second described resistance value, according to these mean value calculation fabric current humidity data.

Also namely the first humidity collection line and the second humidity collection line be not on same textile structure layers, and such as the first humidity collection line is on the first test fabric layer, and the second humidity collection line is on the second test fabric layer, in multiplexing tissue layer, pressure tissue layer.One side like this can improve the degree of accuracy of the data of collection, can travel through each several part of tissue layer on the other hand, can adjust tissue layer to drying regime.

Embodiment 5

The present embodiment wear comfort test system, on the basis of above-described embodiment, described transport module comprises bluetooth unit, SIM, and described transport module comprises first province's electric unit, second province's electric unit,

Described first province's electric unit, whether monitoring wear is connected with server Bluetooth,

If wear is connected with server Bluetooth, then starts bluetooth module and carry out physiological data transmission;

If wearable device and server do not have bluetooth to be connected, then start bluetooth module and send connection enabling signal to server,

If wearable device is connected with server Bluetooth, then starts bluetooth module and carry out physiological data transmission;

If wearable device and server do not have bluetooth to be connected, then start SIM and carry out physiological data transmission to server;

Described second province's electric unit comprises uplink time setting module, upload frequencies setting module; Uplink time setting module, carry out for setting heartbeat acquisition module, body temperature acquisition module, pressure acquisition module and/or humidity collection module the time period that physiological data uploads, described uplink time section is divided into idle time period, busy time period; Upload frequencies setting module, for setting heartbeat acquisition module, body temperature acquisition module, pressure acquisition module and/or humidity collection module to the upload frequencies in each time period of server uploading data, the data upload frequencies of upload frequencies setting module setting busy time period is greater than the data upload frequencies of idle time period;

Transport module also comprises upload frequencies change module, for detecting multiplexing tissue layer and whether pressure tissue layer has point of contact,

If within the idle time period, detect that multiplexing tissue layer and pressure tissue layer have point of contact, then the frequency of uploading data is updated to the data upload frequencies of busy time period;

If within the busy time period, do not detect that multiplexing tissue layer and pressure tissue layer have point of contact, then the frequency of uploading data is updated to the data upload frequencies of idle time period.

Embodiment 6

The present embodiment wear comfort test system, on the basis of the various embodiments described above, also comprise wear temperature adjusting module, for the heated condition of the graphene conductive single of the multiplexing tissue layer of Data Control according to heartbeat acquisition module, body temperature acquisition module, pressure acquisition module and/or humidity collection module acquires, the first test fabric layer and/or the second test fabric layer;

The magnitude of voltage obtained and standard voltage value scope (a1, b1) are compared, the skin voltage threshold range of standard voltage value scope (a1, b1) for obtaining during corresponding human normal palmic rate.

Described magnitude of voltage is in standard voltage value scope (a1, b1), then the voltage maintaining the graphene conductive single of multiplexing tissue layer, the first test fabric layer, the second test fabric layer and/or multiplexing tissue layer is constant;

If described magnitude of voltage is greater than a and is less than a1, then to subscribe the voltage of the graphene conductive single of multiplexing tissue layer, the first test fabric layer and/or the second test fabric layer described in frequency increase, until the magnitude of voltage that described controller obtains reaches in standard voltage value scope (a1, b1) or the voltage of the graphene conductive single of multiplexing tissue layer, the first test fabric layer and/or the second test fabric layer reaches maximum;

If described magnitude of voltage is greater than b1 and is less than b, then to subscribe the voltage of the graphene conductive single of multiplexing tissue layer, the first test fabric layer and/or the second test fabric layer described in frequency minimizing, until the voltage that the magnitude of voltage that described controller obtains reaches the graphene conductive single of in standard voltage value scope (a1, b1) or described multiplexing tissue layer, the first test fabric layer and/or the second test fabric layer reaches minimum of a value;

The the first electric class value obtained and standard second resistance value scope (c1, d1) are compared, the dermatopolyneuritis threshold range of standard electric Standard resistance range (c1, d1) for obtaining during corresponding normal body temperature's frequency.

If described second resistance value is in standard second resistance value scope (c1, d1), then the voltage maintaining the graphene conductive single of described multiplexing tissue layer, the first test fabric layer and/or the second test fabric layer is constant;

If described second resistance value is greater than c and is less than c1, then to subscribe the voltage of the graphene conductive single of multiplexing tissue layer, the first test fabric layer and/or the second test fabric layer described in frequency increase, until the voltage that the second resistance value that described controller obtains reaches the graphene conductive single of in standard second resistance value scope (c1, d1) or described multiplexing tissue layer, the first test fabric layer and/or the second test fabric layer reaches maximum;

If described second resistance value is greater than d1 and is less than d, then to subscribe the voltage of the graphene conductive single of multiplexing tissue layer, the first test fabric layer and/or the second test fabric layer described in frequency minimizing, until the voltage that the second resistance value that described controller obtains reaches the graphene conductive single of in standard second resistance value scope (c1, d1) or described the first test fabric layer, the second heated web and/or multiplexing tissue layer reaches minimum of a value;

The intersection point of the multiplexing tissue layer described in acquisition, pressure tissue layer location, the graphene conductive single connecting the first described test fabric layer corresponding between anchor point and/or the second test fabric layer carries out heating or strengthen the first described test fabric layer corresponding between anchor point and/or the graphene conductive single voltage of the second test fabric layer;

Judge that whether humidity collection line is the graphene conductive single of described multiplexing tissue layer, the first test fabric layer or the second test fabric layer,

If humidity collection line is the graphene conductive single of the first test fabric layer, the second test fabric layer or multiplexing tissue layer, then by this humidity collection line and with the same textile structure layers of humidity collection line, and at least 1, these humidity collection line both sides Graphene conductive fiber line electrified regulation, until the 3rd resistance value is greater than first threshold;

If humidity collection line is the graphene conductive single of pressure tissue layer, then by the graphene conductive single electrified regulation of the first test fabric layer vertical with this humidity collection line, the second test fabric layer and/or multiplexing tissue layer, until the 3rd resistance value is greater than first threshold.

Embodiment 7

The present embodiment wear comfort test method, adopt above-mentioned wear comfort test system to test, described method specifically comprises as follows:

According to human body physiological characteristics data creating or selection test wear, the shoe-pad of described test footwear is prepared from by wear comfort test system;

Gather this test wear be worn after human body physiological data;

Image data is transferred to server by wired or wireless mode;

Compare with standard database, export comparative result;

Described compares with standard database, and output comparative result or correction result specifically comprise:

Criterion database, human body is divided into some classifications with the difference of physiological characteristic by described normal data library storage, and human body of all categories is felt between comfortable human body physiological data standard regions when dressing described test wear;

Compare by the human body physiological data described in collecting and between the described human body physiological data standard regions in described standard database,

If the human body physiological data described in each all between corresponding standard regions within, then described test wear is comfortable wear;

If the described human body physiological data of at least one item between described standard regions outside, then described test wear is non-comfortable wear.

Also comprise and make special wear according to described comparative result, the method for the special wear of described making specifically comprises:

If described test wear is comfortable wear, then make described special wear according to described test wear;

If described test wear is non-comfortable wear, then the data of described test wear are revised, based on the special wear of amended data creating.

Embodiment 8

The present embodiment utilizes wear comfort test system to obtain the method for human body physiological data, comprising:

Adopt wear prepared by above-mentioned wear comfort test system or above-mentioned wear comfort test system;

With the resistance value on wear between two graphene conductive singles in dry threshold range, be the standard state of wear;

Under the standard state of wear,

With the graphene conductive single of the textile structure layers of wear and skin contact, every two is one group, gather the magnitude of voltage of human body different parts skin, gather heartbeat value simultaneously, set up the database that the magnitude of voltage of human body skin is corresponding with heartbeat value, described database comprise human heartbeat normal time corresponding normalization voltage range (a1, b1), and slow corresponding voltage range (b1, b) is crossed in voltage range (a, a1) corresponding to rapid heart beat, heartbeat;

With the graphene conductive single of the textile structure layers of wear and skin contact, every two is one group, gather the resistance value of human body different parts skin, simultaneously acquisition volume temperature value, sets up the database that the resistance value of human body skin is corresponding with body temperature value, described database comprise body temperature normal time corresponding normalization voltage range (c1, d1), and voltage range (c, c1) corresponding to hypothermia, voltage range (c1, d) that hyperpyrexia is corresponding;

With the Graphene conductive fiber line of two on same textile structure layers for heartbeat gathering line, gather the first resistance value between jumping gathering line in fundamental disagreement,

If the first resistance value, within the scope of dry resistance threshold, then gather the voltage between jumping gathering line in fundamental disagreement,

If this magnitude of voltage is 0, then send warning message;

If this magnitude of voltage in the first voltage threshold scope (a, b), then exports this magnitude of voltage to controller;

If this magnitude of voltage is less than the second voltage threshold, then send unlatching carry out the first test fabric layer, the second heated web and/or multiplexing tissue layer heating until magnitude of voltage be 0 or magnitude of voltage in the first voltage threshold scope (a, b);

If the first resistance value, in moist resistance range, then send unlatching and carry out the heating of the first test fabric layer, the second heated web and/or multiplexing tissue layer, until the first resistance value between two strips temperature gathering line is within the scope of dry resistance threshold;

The magnitude of voltage obtained and standard voltage value scope (a1, b1) are compared,

If described magnitude of voltage is in standard voltage value scope (a1, b1), then the voltage maintaining the graphene conductive single of the first test fabric layer, the second heated web and/or multiplexing tissue layer is constant;

If described magnitude of voltage is greater than a and is less than a1, then to subscribe the voltage of the graphene conductive single of the first test fabric layer, the second heated web and/or multiplexing tissue layer described in frequency increase, until the voltage that the magnitude of voltage that described controller obtains reaches the graphene conductive single of in standard voltage value scope (a1, b1) or described the first test fabric layer, the second heated web and/or multiplexing tissue layer reaches maximum;

If described magnitude of voltage is greater than b1 and is less than b, then to subscribe the voltage of the graphene conductive single of the first test fabric layer, the second heated web and/or multiplexing tissue layer described in frequency minimizing, until the voltage that the magnitude of voltage that described controller obtains reaches the graphene conductive single of in standard voltage value scope (a1, b1) or described the first test fabric layer, the second heated web and/or multiplexing tissue layer reaches minimum of a value;

Human heartbeat is calculated according to the magnitude of voltage received;

With the Graphene conductive fiber line of two on same textile structure layers for body temperature gathering line, gather the second resistance value between two strips temperature gathering line,

If the second resistance value within the scope of dry resistance threshold, then sends warning message;

If the second resistance value is in the first electricity group threshold range (c, d), then by this second resistance value of output;

If this magnitude of voltage is in moist resistance threshold, then open and carry out the heating of the first test fabric layer, the second heated web and/or multiplexing tissue layer, until the second resistance value between two strips temperature gathering line is greater than first threshold or organizes in threshold range (c, d) at the second electricity;

The the first electric class value obtained and standard second resistance value scope (c1, d1) are compared,

If described second resistance value is in standard second resistance value scope (c1, d1), then the voltage maintaining the graphene conductive single of the first test fabric layer, the second heated web and/or multiplexing tissue layer is constant;

If described second resistance value is greater than c and is less than c1, then to subscribe the voltage of the graphene conductive single of the first test fabric layer, the second heated web and/or multiplexing tissue layer described in frequency increase, until the voltage that the second resistance value that described controller obtains reaches the graphene conductive single of in standard second resistance value scope (c1, d1) or described the first test fabric layer, the second heated web and/or multiplexing tissue layer reaches maximum;

If described second resistance value is greater than d1 and is less than d, then to subscribe the voltage of the graphene conductive single of the first test fabric layer, the second heated web and/or multiplexing tissue layer described in frequency minimizing, until the voltage that the second resistance value that described controller obtains reaches the graphene conductive single of in standard second resistance value scope (c1, d1) or described the first test fabric layer, the second heated web and/or multiplexing tissue layer reaches minimum of a value;

Described controller calculates body temperature according to the second resistance value received;

Be connected with the graphene conductive single of multiplexing tissue layer respectively by many row data wires, be connected with the graphene conductive single of pressure tissue layer respectively by many column data lines, described row data wire and described column data line form checkerboard configuration, carry out described multiplexing tissue layer, pressure tissue layer graphene conductive single intersection point location;

The intersection point of the multiplexing tissue layer described in acquisition, pressure tissue layer location, the graphene conductive single connecting the first described test fabric layer corresponding between anchor point and/or the second test fabric layer carries out heating or strengthen the first described test fabric layer corresponding between anchor point and/or the graphene conductive single voltage of the second test fabric layer;

Judge that whether humidity collection line is the graphene conductive single of described multiplexing tissue layer, the first test fabric layer or the second test fabric layer,

If humidity collection line is the graphene conductive single of the first test fabric layer, the second test fabric layer or multiplexing tissue layer, then by this humidity collection line and with the same textile structure layers of humidity collection line, and at least 1, these humidity collection line both sides Graphene conductive fiber line electrified regulation, until the 3rd resistance value is greater than first threshold;

If humidity collection line is the graphene conductive single of pressure tissue layer, then by the graphene conductive single electrified regulation of the first test fabric layer vertical with this humidity collection line, the second test fabric layer and/or multiplexing tissue layer, until the 3rd resistance value is greater than first threshold.

In the various embodiments described above, on described multiplexing tissue layer, the first test fabric layer, the second test fabric layer, often the spacing of adjacent two conductive fiber lines is equal, and the spacing of adjacent two conductive fiber lines is 1mm to 10mm.

In the various embodiments described above, described conductive fiber line is graphene conductive single.

In the various embodiments described above, described test wear is test footwear, and the shoe-pad of at least described test footwear is prepared from by wear comfort test system, is provided with temperature sensor, appropriate sensor in described test footwear;

Human body dresses described test footwear, and described test footwear are by the pressure data of wear comfort test system testing human foot different parts, and described temperature sensor, humidity sensor gather the temperature and humidity data in footwear with predetermined time interval.

In the various embodiments described above, described test wear is test underwear, described test underwear portions or be all prepared from by the wear comfort test system of test pressure.

In the various embodiments described above of the present invention, the sensing unit of the sensor of described fabric construction is a slice cloth structure, and other non-conductive fibre lines on conductive fiber line and fabric cloth are woven in together by textile technology.

Above; be only preferred embodiment of the present invention, but protection scope of the present invention is not limited thereto, is anyly familiar with those skilled in the art in the technical scope that the present invention discloses; the change that can expect easily or replacement, all should be encompassed within protection scope of the present invention.Therefore, the protection domain that protection scope of the present invention should define with claim is as the criterion.

Claims (10)

1. a wear comfort test system, is characterized in that, comprises

Gather the test wear of the physiological data of human body, described test wear is partly or entirely prepared from by wear comfort test system;

The physiological data collected is transferred to the transport module of server by wired or wireless mode;

Compare with standard database, export the data processing module of comparative result;

Described data processing module at least comprises:

Store by human body with the difference of physiological characteristic, be divided into some classifications, human body of all categories feels the standard database between comfortable human body physiological data standard regions when dressing described test wear; And

By the physiological data described in collecting and the comparing unit that compares between the described physiological data standard regions in described standard database,

If the human body physiological data described in each all between corresponding standard regions within, then described test wear is comfortable wear;

If the described human body physiological data of at least one item between described standard regions outside, then described test wear is non-comfortable wear.

2. wear comfort test system according to claim 1, it is characterized in that, described wear adopts the sensor of fabric construction to be prepared from, the sensor upper part region of described fabric construction or Zone Full are sensing unit, spacer structure is provided with between the multiplexing tissue layer of described sensing unit and pressure tissue layer, described multiplexing tissue layer is laterally provided with many graphene conductive singles, pressure tissue layer is longitudinally provided with many graphene conductive singles, described spacer structure makes multiplexing tissue layer, wire single gap when not having ambient pressure of pressure tissue layer is arranged, contact with each other when there being ambient pressure.

3. wear comfort test system according to claim 2, is characterized in that, described spacer structure is be arranged on the spacer line on multiplexing tissue layer and/or pressure tissue layer facing surfaces;

Or described spacer structure is the middle spring tissue layer be arranged between multiplexing tissue layer and pressure tissue layer, the fabric order number of wherein said middle fabric layer is 2 to 10 times of the diameter of described graphene conductive single.

Or, described multiplexing tissue layer, pressure tissue layer are provided with some eradication fibrae marginatae lines between adjacent two graphene conductive singles, the bearing of trend of described non-conductive fibre line is identical with the bearing of trend of described graphene conductive single, the diameter of described non-conductive fibre line is 2 to 10 times of described graphene conductive single diameter, described graphene conductive single embeds in described non-conductive fibre line, and the non-conductive fibre line in the first described tissue layer, the second tissue layer forms described spacer structure.

4. wear comfort test system according to claim 1, it is characterized in that, described wear comfort test system also comprises the first test fabric layer being arranged on pressure tissue layer side, described first test fabric layer laterally or is longitudinally provided with many graphene conductive singles, and the described graphene conductive single of the first test fabric layer nitride layer and the graphene conductive single of multiplexing tissue layer insulate and to arrange or the described graphene conductive single of the first test fabric layer nitride layer and the graphene conductive single of pressure tissue layer insulate and arrange;

Or, described fabric also comprises the first test fabric layer being arranged on pressure tissue layer side and the second test fabric layer being arranged on multiplexing tissue layer side, and the first described test fabric layer, the second test fabric layer respectively transverse direction, longitudinal direction or longitudinal direction, transverse direction are provided with many graphene conductive singles.

5. wear comfort test system according to claim 3, it is characterized in that, also comprise cyclelog, the time-sharing multiplex switch, temperature setting module, body temperature acquisition module, pressure acquisition module and/or the heartbeat acquisition module that are connected wired or wireless with described cyclelog

Described time-sharing multiplex switch, each graphene conductive single controlling each tissue layer according to the instruction of cyclelog is switched on or switched off power supply;

Temperature setting module, be connected with the graphene conductive single of described multiplexing tissue layer, the first test fabric layer, the second test fabric layer, set the magnitude of voltage of graphene conductive single of multiplexing tissue layer, the first test fabric layer, the second test fabric layer;

Heartbeat acquisition module, be connected with at least one group of graphene conductive single of multiplexing tissue layer, the first test fabric layer and/or the second test fabric layer, one group of described graphene wire single is two Graphene conductive fiber lines in same tissue layer, these two Graphene conductive fiber lines are heartbeat gathering line, heartbeat acquisition module, the instruction of reception program controller, gathers the first resistance value between jumping gathering line in fundamental disagreement

If the first resistance value, within the scope of dry resistance threshold, then gather the voltage between jumping gathering line in fundamental disagreement,

If this magnitude of voltage is 0, then send warning message;

If this magnitude of voltage in the first voltage threshold scope (a, b), then exports this magnitude of voltage to cyclelog;

If this magnitude of voltage is less than the second voltage threshold, then cyclelog send unlatching carry out the first test fabric layer, the second heated web and/or multiplexing tissue layer heating until magnitude of voltage be 0 or magnitude of voltage in the first voltage threshold scope (a, b);

If the first resistance value, in moist resistance range, then cyclelog send unlatching carry out the first test fabric layer, the second heated web and/or multiplexing tissue layer heating, until the first resistance value between two strips temperature gathering line is within the scope of dry resistance threshold;

Described cyclelog calculates human heartbeat according to the magnitude of voltage received;

Body temperature acquisition module, be connected with at least one group of graphene conductive single of multiplexing tissue layer, the first test fabric layer and/or the second test fabric layer, one group of described graphene wire single is two Graphene conductive fiber lines on same textile structure layers, these two Graphene conductive fiber lines are body temperature gathering line, gather the second resistance value between two strips temperature gathering line

If the second resistance value within the scope of dry resistance threshold, then sends warning message;

If the second resistance value in the first electricity group threshold range (c, d), then exports this second resistance value to cyclelog;

If this magnitude of voltage is in moist resistance threshold, then cyclelog send unlatching carry out the first test fabric layer, the second heated web and/or multiplexing tissue layer heating, until the second resistance value between two strips temperature gathering line is greater than first threshold or organizes in threshold range (c, d) at the second electricity;

Described cyclelog calculates body temperature according to the second resistance value received;

Pressure acquisition module, be connected with the graphene conductive single of multiplexing tissue layer respectively by many row data wires, be connected with the graphene conductive single of pressure tissue layer respectively by many column data lines, described row data wire and described column data line form checkerboard configuration, carry out described multiplexing tissue layer, pressure tissue layer graphene conductive single intersection point location, the intersection point navigated to is sent to cyclelog;

Humidity collection module, be connected with at least one group of graphene conductive single of the first test fabric layer, the second test fabric layer, multiplexing tissue layer and/or pressure tissue layer, these two Graphene conductive fiber lines are humidity collection line, gather the 3rd resistance value between two bars of humidity collection lines

If the 3rd resistance value in dry threshold range, does not then deal with;

If the 3rd resistance value is in moist threshold range, then the 3rd resistance value is sent to cyclelog, described cyclelog, according to the 3rd resistance value, calculates the humidity of wear comfort test system.

6. wear comfort test system according to claim 5, it is characterized in that, described heartbeat acquisition module: choose any graphene conductive single of the first test fabric layer, the second test fabric layer or multiplexing tissue layer as the first heartbeat gathering line, the first described heartbeat gathering line and the second heartbeat gathering line, respectively as the second heartbeat gathering line, are formed heartbeat gathering line group by other graphene conductive singles successively choosing same textile structure layers;

Magnitude of voltage between the jumping gathering line in fundamental disagreement obtaining each group of heartbeat gathering line group, and get the mean value of described magnitude of voltage, calculate human body current heartbeat data according to this average voltage level;

Described body temperature acquisition module: choose any graphene conductive single of the first test fabric layer, the second test fabric layer or multiplexing tissue layer as the first body temperature gathering line, the first described body temperature gathering line and the second body temperature gathering line, respectively as the second body temperature gathering line, are formed body temperature gathering line group by other graphene conductive singles successively choosing same textile structure layers;

The first magnitude of voltage between the two strips temperature gathering line obtaining each group of body temperature gathering line group, and get the mean value of the first described resistance value, according to the current temperature data of this mean value calculation human body;

Humidity collection module: choose any graphene conductive single of the first test fabric layer, the second test fabric layer, multiplexing tissue layer or pressure tissue layer as the first body temperature gathering line; The first described humidity collection line and the second humidity collection line, respectively as the second humidity collection line, are formed humidity collection line group by other graphene conductive singles successively choosing same textile structure layers;

Or successively choose not on same textile structure layers whole graphene conductive single respectively as the second humidity collection line, the first described humidity collection line and the second humidity collection line are formed humidity collection line group;

The second resistance value between the two humidity collection lines obtaining each group of humidity collection line group, and get the mean value of the second described resistance value, according to these mean value calculation fabric current humidity data.

7. wear comfort test system according to claim 1, it is characterized in that, described transport module comprises bluetooth unit, SIM, and described transport module comprises first province's electric unit, second province's electric unit,

Described first province's electric unit, whether monitoring wear is connected with server Bluetooth,

If wear is connected with server Bluetooth, then starts bluetooth module and carry out physiological data transmission;

If wearable device and server do not have bluetooth to be connected, then start bluetooth module and send connection enabling signal to server,

If wearable device is connected with server Bluetooth, then starts bluetooth module and carry out physiological data transmission;

If wearable device and server do not have bluetooth to be connected, then start SIM and carry out physiological data transmission to server;

Described second province's electric unit comprises uplink time setting module, upload frequencies setting module; Uplink time setting module, carry out for setting heartbeat acquisition module, body temperature acquisition module, pressure acquisition module and/or humidity collection module the time period that physiological data uploads, described uplink time section is divided into idle time period, busy time period; Upload frequencies setting module, for setting heartbeat acquisition module, body temperature acquisition module, pressure acquisition module and/or humidity collection module to the upload frequencies in each time period of server uploading data, the data upload frequencies of upload frequencies setting module setting busy time period is greater than the data upload frequencies of idle time period;

Transport module also comprises upload frequencies change module, for detecting multiplexing tissue layer and whether pressure tissue layer has point of contact,

If within the idle time period, detect that multiplexing tissue layer and pressure tissue layer have point of contact, then the frequency of uploading data is updated to the data upload frequencies of busy time period;

If within the busy time period, do not detect that multiplexing tissue layer and pressure tissue layer have point of contact, then the frequency of uploading data is updated to the data upload frequencies of idle time period.

8. wear comfort test system according to claim 5, it is characterized in that, also comprise wear temperature adjusting module, for the heated condition of the graphene conductive single of the multiplexing tissue layer of Data Control according to heartbeat acquisition module, body temperature acquisition module, pressure acquisition module and/or humidity collection module acquires, the first test fabric layer and/or the second test fabric layer;

The magnitude of voltage obtained and standard voltage value scope (a1, b1) are compared,

If described magnitude of voltage is in standard voltage value scope (a1, b1), then the voltage maintaining the graphene conductive single of multiplexing tissue layer, the first test fabric layer, the second test fabric layer and/or multiplexing tissue layer is constant;

If described magnitude of voltage is greater than a and is less than a1, then to subscribe the voltage of the graphene conductive single of multiplexing tissue layer, the first test fabric layer and/or the second test fabric layer described in frequency increase, until the magnitude of voltage that described controller obtains reaches in standard voltage value scope (a1, b1) or the voltage of the graphene conductive single of multiplexing tissue layer, the first test fabric layer and/or the second test fabric layer reaches maximum;

If described magnitude of voltage is greater than b1 and is less than b, then to subscribe the voltage of the graphene conductive single of multiplexing tissue layer, the first test fabric layer and/or the second test fabric layer described in frequency minimizing, until the voltage that the magnitude of voltage that described controller obtains reaches the graphene conductive single of in standard voltage value scope (a1, b1) or described multiplexing tissue layer, the first test fabric layer and/or the second test fabric layer reaches minimum of a value;

The the first electric class value obtained and standard second resistance value scope (c1, d1) are compared,

If described second resistance value is in standard second resistance value scope (c1, d1), then the voltage maintaining the graphene conductive single of described multiplexing tissue layer, the first test fabric layer and/or the second test fabric layer is constant;

If described second resistance value is greater than c and is less than c1, then to subscribe the voltage of the graphene conductive single of multiplexing tissue layer, the first test fabric layer and/or the second test fabric layer described in frequency increase, until the voltage that the second resistance value that described controller obtains reaches the graphene conductive single of in standard second resistance value scope (c1, d1) or described multiplexing tissue layer, the first test fabric layer and/or the second test fabric layer reaches maximum;

If described second resistance value is greater than d1 and is less than d, then to subscribe the voltage of the graphene conductive single of multiplexing tissue layer, the first test fabric layer and/or the second test fabric layer described in frequency minimizing, until the voltage that the second resistance value that described controller obtains reaches the graphene conductive single of in standard second resistance value scope (c1, d1) or described the first test fabric layer, the second heated web and/or multiplexing tissue layer reaches minimum of a value;

The intersection point of the multiplexing tissue layer described in acquisition, pressure tissue layer location, the graphene conductive single connecting the first described test fabric layer corresponding between anchor point and/or the second test fabric layer carries out heating or strengthen the first described test fabric layer corresponding between anchor point and/or the graphene conductive single voltage of the second test fabric layer;

Judge that whether humidity collection line is the graphene conductive single of described multiplexing tissue layer, the first test fabric layer or the second test fabric layer,

If humidity collection line is the graphene conductive single of the first test fabric layer, the second test fabric layer or multiplexing tissue layer, then by this humidity collection line and with the same textile structure layers of humidity collection line, and at least 1, these humidity collection line both sides Graphene conductive fiber line electrified regulation, until the 3rd resistance value is greater than first threshold;

If humidity collection line is the graphene conductive single of pressure tissue layer, then by the graphene conductive single electrified regulation of the first test fabric layer vertical with this humidity collection line, the second test fabric layer and/or multiplexing tissue layer, until the 3rd resistance value is greater than first threshold.

9., based on a method of testing for the arbitrary described wear comfort test system of claim 1 to 8, it is characterized in that,

According to human body physiological characteristics data creating or selection test wear, the shoe-pad of described test footwear is prepared from by wear comfort test system;

Gather this test wear be worn after human body physiological data;

Image data is transferred to server by wired or wireless mode;

Compare with standard database, export comparative result;

Described compares with standard database, and output comparative result or correction result specifically comprise:

Criterion database, human body is divided into some classifications with the difference of physiological characteristic by described normal data library storage, and human body of all categories is felt between comfortable human body physiological data standard regions when dressing described test wear;

Compare by the human body physiological data described in collecting and between the described human body physiological data standard regions in described standard database,

If the human body physiological data described in each all between corresponding standard regions within, then described test wear is comfortable wear;

If the described human body physiological data of at least one item between described standard regions outside, then described test wear is non-comfortable wear.

10. wear comfort test method according to claim 9, is characterized in that, also comprise and make special wear according to described comparative result, and the method for the special wear of described making specifically comprises:

If described test wear is comfortable wear, then make described special wear according to described test wear;

If described test wear is non-comfortable wear, then the data of described test wear are revised, based on the special wear of amended data creating.