CN106894143A

CN106894143A - Heat fabric, heating textile system, its heating means is controlled based on physiological data

Info

Publication number: CN106894143A
Application number: CN201510946462.7A
Authority: CN
Inventors: 陈利军; 艾方
Original assignee: Beijing Chuangxin Aishangjia Technology Co Ltd
Current assignee: Beijing Chuangxin Aishangjia Technology Co Ltd
Priority date: 2015-12-18
Filing date: 2015-12-18
Publication date: 2017-06-27
Anticipated expiration: 2035-12-18
Also published as: CN106894143B

Abstract

The present invention discloses a kind of heating fabric, mainly for providing a kind of heating fabric rational in infrastructure, being capable of subregion quantitative heating.Present invention heating fabric, including three layers of textile structural, subregion or Zone Full are functional areas on the fabric, the first textile structural layer of the functional areas is radially provided with many graphene conductive singles, the second textile structural layer broadwise of the functional areas is provided with many graphene conductive singles, middle textile structural layer is provided between first textile structural layer and the second textile structural layer, the middle textile structural layer makes the graphene conductive single mutually insulated on the first textile structural layer and the second textile structural layer.Heating fabric of the present invention, can as needed cause that the different zones of heating fabric export different temperatures as tippet, waistband.

Description

Heat fabric, heating textile system, its heating means is controlled based on physiological data

Technical field

The present invention relates to dress sensor technical field, and in particular to a kind of heating textile system, the method that wear heated condition is controlled based on physiological data.

Background technology

Cold winter, people need a series of heating product, tippet of for example warming oneself, heating woollen blanket etc, press from both sides heating between the heating product sold currently on the market, typically all two-layer empire cloth, the purpose of heating is reached by heating, unitary function does not have any intellectuality to say.In addition, the heating element on existing market is generally metallic resistance silk, metallic resistance silk heats up, and weight weight.With intelligent, the lightening new direction for having become development of wearable device, existing heating product is well suited for being applied to the heat producing element of heating product far from this requirement, Graphene is met as most thin material, most tough material.

The content of the invention

Regarding to the issue above, the present invention provides a kind of rational in infrastructure, heat production fireballing heating fabric.Multi-functional heating textile system and the intelligence degree method that wear heated condition is controlled based on physiological data high.

To reach above-mentioned purpose, present invention heating fabric, the heating fabric includes three layers of textile structural, subregion or Zone Full are functional areas on the fabric, the first textile structural layer of the functional areas is radially provided with many graphene conductive singles, the second textile structural layer broadwise of the functional areas is provided with many graphene conductive singles, middle textile structural layer is provided between first textile structural layer and the second textile structural layer, the middle textile structural layer makes the graphene conductive single mutually insulated on the first textile structural layer and the second textile structural layer.

Present invention heating textile system, including above-mentioned heating fabric, time-sharing multiplex switch, controller and the temperature setting module being wirelessly or non-wirelessly connected with the controller, heartbeat acquisition module, body temperature acquisition module, first pressure acquisition module, second pressure acquisition module and/or humidity collection module；

The time-sharing multiplex switch, each graphene conductive single of each textile structural layer of instruction control according to controller is switched on or switched off power supply；

Temperature setting module, the graphene conductive single with described the first textile structural layer, the second textile structural layer is connected, the first textile structural of setting layer, the magnitude of voltage of the graphene conductive single of the second textile structural layer；

Heartbeat acquisition module, at least one set of heartbeat gathering line group with the first textile structural layer and/or the second textile structural layer is connected, each group heartbeat gathering line group is made up of any two Graphenes conductive fiber line on same textile structural layer, heartbeat acquisition module, receive the instruction of controller, gather the first resistor value between the jump gathering line in fundamental disagreement of each group heartbeat gathering line group

If first resistor value, drying in the range of resistance threshold, then gathering the voltage between jump gathering line in fundamental disagreement,

If the magnitude of voltage is 0, alert；

If the magnitude of voltage is then exported to controller the magnitude of voltage in first voltage threshold range (a, b)；

If the magnitude of voltage is less than second voltage threshold value, controller sends unlatching and carries out the first textile structural layer and/or the heating of the second textile structural layer until magnitude of voltage is 0 or magnitude of voltage is in first voltage threshold range (a, b)；

If first resistor value, in moist resistance range, then controller sends unlatching and carries out the first textile structural layer and/or the layer heating of the second textile structural, until the first resistor value between two strips temperature gathering line is being dried in the range of resistance threshold；

The controller calculates human heartbeat according to the magnitude of voltage for receiving；

Body temperature acquisition module, at least one set of body temperature gathering line group with the first textile structural layer and/or the second textile structural layer is connected, each group body temperature gathering line group is made up of any two Graphenes conductive fiber line on same textile structural layer, the second resistance value between collection two strips temperature gathering line

If second resistance value is being dried in the range of resistance threshold, alert；

If second resistance value is then exported to controller the second resistance value in the first electricity group threshold range (c, d)；

If the magnitude of voltage is in moist resistance threshold, then controller sends unlatching and carries out the first textile structural layer and/or the layer heating of the second textile structural, until the second resistance value between two strips temperature gathering line is more than first threshold or in the second electricity group threshold range (c, d)；

The controller calculates body temperature according to the second resistance value for receiving；

First pressure acquisition module, graphene conductive single by many first row data wires respectively with the first textile structural layer is connected, graphene conductive single by many first column data lines respectively with the 3rd textile structural layer is connected, the first row data wire forms checkerboard configuration with first column data line, the intersection point positioning of described the first textile structural layer, the graphene conductive single of the 3rd textile structural layer is carried out, the intersection point that will be navigated to is sent to controller；

Second pressure acquisition module, graphene conductive single by many second row data wires respectively with the 4th textile structural layer is connected, graphene conductive single by many second column data lines respectively with the 5th textile structural layer is connected, the second row data wire forms checkerboard configuration with second column data line, the intersection point positioning of described the 4th textile structural layer, the graphene conductive single of the 5th textile structural layer is carried out, the intersection point that will be navigated to is sent to controller；

Humidity collection module, at least one set of humidity collection line group with the first textile structural layer, the second textile structural layer, the 3rd textile structural layer, the 4th textile structural layer and/or the 5th textile structural layer is connected, each group humidity collection line group is made up of any two articles of Graphenes conductive fiber line of the first textile structural layer, the second textile structural layer, the 3rd textile structural layer, the 4th textile structural layer and/or the 5th textile structural layer, 3rd resistor value between two humidity collection lines of collection

If 3rd resistor value is being dried in threshold range, do not deal with；

If 3rd resistor value is in moist threshold range, 3rd resistor value is sent to controller, the controller calculates the humidity of heating fabric according to 3rd resistor value.

To achieve the above object of the invention, the method that the present invention controls wear heated condition based on physiological data, methods described includes：

The wear prepared using the heating textile system described in above-mentioned heating fabric or claim 6 to 9；

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

Under the standard state of wear,

The graphene conductive single of the textile structural layer contacted with skin with wear, every two is one group, gather the magnitude of voltage of human body different parts skin, pulse rate is gathered simultaneously, sets up the magnitude of voltage database corresponding with pulse rate of human body skin, corresponding normalization voltage range (the a1 when database includes that human heartbeat is normal, b1), and the corresponding voltage range of rapid heart beat (a, a1), heartbeat slow corresponding voltage range excessively (b1, b)；

The graphene conductive single of the textile structural layer contacted with skin with wear, every two is one group, gather the resistance value of human body different parts skin, acquisition volume temperature value, sets up the resistance value database corresponding with body temperature value of human body skin, corresponding normalization voltage range (the c1 when database includes that body temperature is normal simultaneously, d1), and the corresponding voltage range of hypothermia (c, c1), the corresponding voltage range of hyperpyrexia (c1, d)；

It is heartbeat gathering line with two Graphene conductive fiber lines on same textile structural layer, gathers the first resistor value jumped between gathering line in fundamental disagreement,

If the magnitude of voltage is 0, alert；

If the magnitude of voltage is less than second voltage threshold value, sending unlatching carries out the first textile structural layer and/or the heating of the second textile structural layer until magnitude of voltage is 0 or magnitude of voltage is in first voltage threshold range (a, b)；

If first resistor value, in moist resistance range, then sending unlatching carries out the first textile structural layer and/or the layer heating of the second textile structural, until the first resistor value between two strips temperature gathering line is being dried in the range of resistance threshold；

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

If the magnitude of voltage is in standard voltage value scope (a1, b1), then maintain the voltage of the graphene conductive single of the first textile structural layer and/or the second textile structural layer constant；

If the magnitude of voltage is less than a1 more than a, then subscribing the voltage that frequency increases the graphene conductive single of described the first textile structural layer and/or the second textile structural layer, until the voltage that the magnitude of voltage that the controller is obtained reaches the graphene conductive single of interior or described the first textile structural layer of standard voltage value scope (a1, b1) and/or the second textile structural layer reaches maximum；

If the magnitude of voltage is less than b more than b1, then subscribing the voltage that frequency reduces the graphene conductive single of described the first textile structural layer and/or the second textile structural layer, until the voltage that the magnitude of voltage that the controller is obtained reaches the graphene conductive single of interior or described the first textile structural layer of standard voltage value scope (a1, b1) and/or the second textile structural layer reaches minimum value；

Human heartbeat is calculated according to the magnitude of voltage for receiving；

It is body temperature gathering line with two Graphene conductive fiber lines on same textile structural layer, the second resistance value between collection two strips temperature gathering line,

If second resistance value is in the first electricity group threshold range (c, d), then the second resistance value will be exported；

If the magnitude of voltage is in moist resistance threshold, unlatching carries out the first textile structural layer and/or the layer heating of the second textile structural, until the second resistance value between two strips temperature gathering line is more than first threshold or in the second electricity group threshold range (c, d)；

Obtain first electric class value is compared with standard electric Standard resistance range (c1, d1),

If the second resistance value is in standard electric Standard resistance range (c1, d1), then maintain the voltage of the graphene conductive single of the first textile structural layer and/or the second textile structural layer constant；

If the second resistance value is less than c1 more than c, then subscribing the voltage that frequency increases the graphene conductive single of described the first textile structural layer and/or the second textile structural layer, until the voltage that the second resistance value that the controller is obtained reaches the graphene conductive single of interior or described the first textile structural layer of standard electric Standard resistance range (c1, d1) and/or the second textile structural layer reaches maximum；

If the second resistance value is less than d more than d1, then subscribing the voltage that frequency reduces the graphene conductive single of described the first textile structural layer and/or the second textile structural layer, until the voltage that the second resistance value that the controller is obtained reaches the graphene conductive single of interior or described the first textile structural layer of standard electric Standard resistance range (c1, d1) and/or the second textile structural layer reaches minimum value；

Graphene conductive single by many first row data wires respectively with the first textile structural layer is connected, graphene conductive single by many first column data lines respectively with the 3rd textile structural layer is connected, the first row data wire forms checkerboard configuration with first column data line, carries out the intersection point positioning of described the first textile structural layer, the graphene conductive single of the 3rd textile structural layer；

The first textile structural layer, the intersection point of the 3rd textile structural layer positioning are obtained, the graphene conductive single of corresponding second textile structural layer is heated or increased the graphene conductive fiber line voltage of corresponding second textile structural layer between anchor point between connection anchor point；

Or, graphene conductive single by many second row data wires respectively with the 4th textile structural layer is connected, graphene conductive single by many second column data lines respectively with the 5th textile structural layer is connected, the second row data wire forms checkerboard configuration with second column data line, the intersection point positioning of described the 4th textile structural layer, the graphene conductive single of the 5th textile structural layer is carried out, the intersection point that will be navigated to is sent to controller；

The 4th textile structural layer, the intersection point of the 5th textile structural layer positioning are obtained, the graphene conductive single of corresponding first textile structural layer and/or the second textile structural layer is heated between connection anchor point；Or increase the graphene conductive fiber line voltage of fixed the first textile structural layer corresponding between points and/or the second textile structural layer；

Any two bars of Graphene conductive fiber lines with the first textile structural layer, the second textile structural layer, the 3rd textile structural layer, the 4th textile structural layer and/or the 5th textile structural layer gather the 3rd resistor value between two humidity collection lines as humidity collection line,

If 3rd resistor value is more than first threshold, do not deal with；

If in 3rd resistor value humidity threshold value, judge humidity collection line whether be the first textile structural layer or the second textile structural layer graphene conductive fiber,

If humidity collection line is the graphene conductive fiber of the first textile structural layer or the second textile structural layer, then by the humidity collection line and with humidity collection line same textile structural layer, and the Graphene conductive fiber electrified regulation of the humidity collection line both sides at least 1, until 3rd resistor value is more than first threshold；

If humidity collection line is the graphene conductive fiber of the 3rd textile structural layer, the 4th textile structural layer or the 5th textile structural layer, then by the graphene conductive single electrified regulation of the first textile structural layer and/or second textile structural layer vertical with the humidity collection line, until 3rd resistor value is more than first threshold；

According to 3rd resistor value, the humidity of wear is calculated.

Present invention heating fabric, intersected setting by the graphene conductive single of the first textile structural layer and the second textile structural layer, in crosspoint, temperature is double, so that the on/off of the graphene conductive single by controlling the first textile structural layer and the second textile structural layer, corresponding region is controlled to export double temperature so that the different zones of heating fabric export different temperatures.

Present invention heating textile system, to the first textile structural layer and the second textile structural layer graphene conductive single heated, heartbeat data collection, temperature data collection, pressure data collection, humidity data collection carry out time-sharing multiplex, realize heating fabric various functions.

The method that the present invention controls wear heated condition based on physiological data, human parameter data is obtained by heating fabric, and according to the heated condition of human parameters feedback data control heating fabric so that the heated condition of wear most agrees with human parameters, and human body obtains the comfort level of maximum.

Brief description of the drawings

Fig. 1 is a kind of cross section structure schematic diagram of the textile structural layer of present invention heating fabric；

Fig. 2 is a kind of cross section structure schematic diagram of the textile structural layer of present invention heating fabric；

Fig. 3 is a kind of cross section structure schematic diagram of the textile structural layer of present invention heating fabric；

Fig. 4 is that the present invention heats the structural representation that first tissue layer and the second tissue layer of fabric are stacked；

Fig. 5 is the first textile structural layer of the invention, the schematic diagram of the whole graphene conductive singles connection heating of the second textile structural layer；

Fig. 6 is the first textile structural layer of the invention, the schematic diagram of the second textile structural layer segment graphene conductive single connection heating.

Specific embodiment

With reference to Figure of description, the present invention will be further described.

Following examples are applied to tippet, blanket with by heating fabric of the present invention.

Embodiment 1

The present embodiment heats fabric, the heating fabric includes three layers of textile structural, subregion or Zone Full are functional areas on the fabric, the first textile structural layer of the functional areas is radially provided with many graphene conductive singles, the second textile structural layer broadwise of the functional areas is provided with many graphene conductive singles, middle textile structural layer is provided between first textile structural layer and the second textile structural layer, the middle textile structural layer makes the graphene conductive single mutually insulated on the first textile structural layer and the second textile structural layer.

On described the first textile structural layer of control, the second textile structural layer power supply is switched on or switched off per one or a few graphene conductive single, so can accurately control that a piece of heating of functional areas on fabric, first textile structural layer, the graphene conductive single of the second textile structural layer have crosspoint, such as 103 parts that circle in Fig. 5,7 draws, the temperature in crosspoint has superposition, so can accurately control function area that it is a piece of heated, or double heating.

Embodiment 2

The present embodiment heats fabric, on the basis of embodiment 1, the middle textile structural layer is that broadwise is provided with many 3rd textile structurals layers of graphene conductive single thereon, the graphene conductive single of the 3rd textile structural layer and the graphene conductive single insulation set of second textile structural layer, the first spacer structure is provided between the 3rd textile structural layer and first textile structural layer, first spacer structure causes the graphene conductive single of the graphene fiber line of described the first textile structural layer and the 3rd textile structural layer when not having ambient pressure, gap is set, contacted with each other when there is ambient pressure.

In the present embodiment, the first textile structural layer is a multiplex layer, and in this embodiment, if when there is pressure to press on heating fabric, the graphene conductive single of the first textile structural layer and the 3rd textile structural layer realizes contact positioning function.In the absence of stress, the graphene conductive single of the first textile structural layer switches on power and can heat.

In the present embodiment, first spacer structure is the spacer being arranged on the first textile structural layer and/or the 3rd textile structural layer facing surfaces；

Or, first spacer structure is the middle spring textile structural layer being arranged between the first textile structural layer and the 3rd textile structural layer, wherein the weaving mesh number of the middle textile structural layer is 2 to 10 times of the diameter of described conductive fiber；

Or, some eradication fibrae marginataes are provided between described the first textile structural layer, adjacent two conductive fiber of the 3rd textile structural layer, the bearing of trend of the non-conductive fibre is identical with the bearing of trend of the conductive fiber, the diameter of the non-conductive fibre is 2 to 10 times of described conductive fiber diameter, the conductive fiber is embedded in the non-conductive fibre, and described the first textile structural layer, the non-conductive fibre of the 3rd textile structural layer form first spacer structure.

Embodiment 3

The present embodiment heats fabric,On the basis of embodiment 1,The middle textile structural layer includes being radially provided with many 4th textile structural layers of graphene conductive single,Broadwise is provided with many 5th textile structurals of graphene conductive single layer and is arranged on the 4th textile structural layer,The second spacer structure between 5th textile structural layer,The graphene conductive single of the 4th textile structural layer and the graphene conductive single insulation set of the ground floor textile structural,The graphene conductive single of the 5th textile structural layer and the graphene conductive single insulation set of second textile structural layer,Second spacer structure causes the graphene conductive single of the graphene fiber line of described the 4th textile structural layer and the 5th textile structural layer when not having ambient pressure,Gap is set,Contacted with each other when there is ambient pressure.

In the present embodiment, second spacer structure is the spacer being arranged on the 4th textile structural layer and/or the 5th textile structural layer facing surfaces；

Or, second spacer structure is the middle spring textile structural layer being arranged between the 4th textile structural layer and the 5th textile structural layer, wherein the weaving mesh number of the middle textile structural layer is 2 to 10 times of the diameter of described conductive fiber；

Or, some eradication fibrae marginataes are provided between described the 4th textile structural layer, adjacent two conductive fiber of the 5th textile structural layer, the bearing of trend of the non-conductive fibre is identical with the bearing of trend of the conductive fiber, the diameter of the non-conductive fibre is 2 to 10 times of described conductive fiber diameter, the conductive fiber is embedded in the non-conductive fibre, and described the 4th textile structural layer, the non-conductive fibre of the 5th textile structural layer form second spacer structure.

In the various embodiments described above, described first textile structural layer, the second textile structural upper spacing per adjacent two conductive fibers of layer are equal, and the spacing of adjacent two conductive fiber is 1mm to 10mm.

In the various embodiments described above, the spacing of described adjacent two conductive fiber of the 3rd textile structural layer is 1um to 10um.

In the various embodiments described above, described 4th textile structural layer, the 5th textile structural upper spacing per adjacent two conductive fibers of layer are equal, and the spacing of adjacent two conductive fiber is 1um to 10um.

Embodiment 4

The present embodiment heats textile system, including heating fabric described in above-described embodiment, time-sharing multiplex switch, controller and the temperature setting module being wirelessly or non-wirelessly connected with the controller, heartbeat acquisition module, body temperature acquisition module, first pressure acquisition module, second pressure acquisition module and/or humidity collection module；

If first resistor value, drying in the range of resistance threshold, then gather the voltage between jump gathering line in fundamental disagreement, dry the resistance range that resistance threshold is under drying regime for the textile structural of user's setting, this is specifically set according to actual conditions, namely preliminary treatment was carried out to heating fabric before collection voltages, will also heat fabric and be adjusted to a state set in advance, namely collection voltages value is all under equal conditions carried out every time.

If the magnitude of voltage is 0, alert；Magnitude of voltage is that 0 explanation skin does not stick heartbeat gathering line, and at this moment alert reminds user.

If the magnitude of voltage is then exported to controller the magnitude of voltage in first voltage threshold range (a, b)；First voltage threshold range (a, b) be human heartbeat 40 to 90 under/S when, the corresponding skin voltage threshold range for measuring.

If the magnitude of voltage is less than second voltage threshold value, controller sends unlatching and carries out the first textile structural layer and/or the heating of the second textile structural layer until magnitude of voltage is 0 or magnitude of voltage is in first voltage threshold range (a, b)；Second voltage threshold value namely the voltage threshold that correspondence is measured when yarn fabric is in moist, the value set according to the demand of user,

If second resistance value is being dried in the range of resistance threshold, alert；Illustrate that skin does not stick heartbeat gathering line, at this moment alert reminds user.

If second resistance value is then exported to controller the second resistance value in the first electricity group threshold range (c, d)；During for 34 DEG C to 40 DEG C of human body, the corresponding dermatopolyneuritis threshold range for measuring.

If 3rd resistor value is being dried in threshold range, do not deal with；

Embodiment 5

On the basis of embodiment 1, the controller also includes that timesharing circulates operational module to the present embodiment, and the timesharing circulation operational module includes：Select unit and operating time setup unit, wherein,

The select unit, the described temperature computation module of selection, heartbeat computing module, body temperature computing module and/or calculation of pressure module are circulated work；

The operating time setup unit, for setting described temperature setting module, heartbeat computing module, body temperature computing module and/or the operating time of each module of calculation of pressure module.

Embodiment 6

The present embodiment heats textile system, on the basis of a upper embodiment, the controller also includes physiology heating control module, and the data for being gathered according to heartbeat acquisition module, body temperature acquisition module, first pressure acquisition module, second pressure acquisition module and/or humidity collection module control the heated condition of the graphene conductive single of the first textile structural layer and/or the second textile structural layer；

Wherein, physiology heating control module includes：Heartbeat heat control unit, body temperature heat control unit, first pressure heat control unit, second pressure heat control unit, humidity heat control unit；

The heartbeat heat control unit, the magnitude of voltage for obtaining and standard voltage value scope (a1, b1) are compared, the skin voltage threshold range that standard voltage value scope (a1, b1) is obtained when being correspondence human normal palmic rate.

The body temperature heat control unit, the obtain first electric class value is compared with standard electric Standard resistance range (c1, d1), the dermatopolyneuritis threshold range that standard electric Standard resistance range (c1, d1) is obtained when being correspondence normal body temperature's frequency.

The first pressure heat control unit, the first textile structural layer, the intersection point of the 3rd textile structural layer positioning are obtained, the graphene conductive single of corresponding second textile structural layer is heated or increased the graphene conductive fiber line voltage of corresponding second textile structural layer between anchor point between connection anchor point；

The first pressure heat control unit, obtains the 4th textile structural layer, the intersection point of the 5th textile structural layer positioning, and the graphene conductive single of corresponding first textile structural layer and/or the second textile structural layer is heated between connection anchor point；Or increase the graphene conductive fiber line voltage of corresponding first textile structural layer and/or the second textile structural layer between anchor point；

The humidity heat control unit, judge humidity collection line whether be the first textile structural layer or the second textile structural layer graphene conductive fiber,

If humidity collection line is the graphene conductive fiber of the 3rd textile structural layer, the 4th textile structural layer or the 5th textile structural layer, then by the graphene conductive single electrified regulation of the first textile structural layer and/or second textile structural layer vertical with the humidity collection line, until 3rd resistor value is more than first threshold.

Embodiment 7

The present embodiment heats textile system, on the basis of above-described embodiment, further,

The heartbeat acquisition module：Choose the first textile structural layer or second knit any one graphene conductive single of structure sheaf as the first heartbeat gathering line, other graphene conductive singles of same textile structural layer are gradually chosen respectively as the second heartbeat gathering line, the first described heartbeat gathering line and the second heartbeat gathering line are constituted into heartbeat gathering line group；Namely first heartbeat gathering line and the second heartbeat gathering line be arranged on same textile structural layer.The all graphene conductive singles pairing removed outside the first heartbeat gathering line in the present embodiment the first heartbeat gathering line and one layer of textile structural layer carries out skin magnitude of voltage collection, on the one hand can so improve the degree of accuracy of the data of collection, on the other hand each several part of textle layers can be traveled through, textle layers to drying regime can be adjusted.

The heartbeat heat control unit, the magnitude of voltage between the jump gathering line in fundamental disagreement of acquisition each group heartbeat gathering line group, and the average value of described magnitude of voltage is taken, human body current heartbeat data are calculated according to the average voltage level；

The body temperature acquisition module：Choose the first textile structural layer or second knit any one graphene conductive single of structure sheaf as the first body temperature gathering line, other graphene conductive singles of same textile structural layer are gradually chosen respectively as the second body temperature gathering line, the first described body temperature gathering line and the second body temperature gathering line are constituted into body temperature gathering line group；Namely first body temperature gathering line and the second body temperature gathering line be arranged on same textile structural layer.The all graphene conductive singles pairing removed outside the first heartbeat gathering line in the present embodiment the first heartbeat gathering line and one layer of textile structural layer carries out skin resistance collection, on the one hand can so improve the degree of accuracy of the data of collection, on the other hand each several part of textle layers can be traveled through, textle layers to drying regime can be adjusted.

The body temperature heat control unit, the magnitude of voltage between the two strips temperature gathering line of acquisition each group body temperature gathering line group, and the average value of described magnitude of voltage is taken, the current temperature data of human body is calculated according to the average voltage level；

Humidity collection module：Choose the first textile structural layer, second knit structure sheaf, the 3rd textile structural layer, the 4th textile structural layer or the 5th textile structural layer any one graphene conductive single as the first body temperature gathering line；Other graphene conductive singles of same textile structural layer are gradually chosen respectively as the second humidity collection line, by the first described humidity collection line and the second humidity collection line composition humidity collection line group；Namely first humidity collection line and the second humidity collection line on same textile structural layer.

Or gradually choose whole graphene conductive singles not on same textile structural layer and, respectively as the second humidity collection line, the first described humidity collection line and the second humidity collection line are constituted into humidity collection line group；Namely first humidity collection line and the second humidity collection line not on same textile structural layer, such as the first humidity collector the first textile structural layer on, the second humidity collector the second textile structural layer on, the 3rd humidity collector the 4th textile structural layer on, the 5th humidity collector the second textile structural layer on.The degree of accuracy of the data of collection on the one hand can be so improved, each several part of textle layers on the other hand can be traveled through, textle layers to drying regime can be adjusted.

The humidity heat control unit, the resistance value between two humidity collection lines of acquisition each group humidity collection line group, and the average value of described resistance value is taken, fabric current humidity data are calculated according to the average resistance.

Embodiment 8

The present embodiment heats textile system, on the basis of the various embodiments described above, the controller is mobile terminal, the heating textile system also includes wireless communication module, and described heartbeat acquisition module, body temperature acquisition module, first pressure acquisition module, second pressure acquisition module and/or humidity collection module are by wireless communication module upload data to mobile terminal；

Wireless communication module includes saving electric unit, and province's electric unit includes uplink time setting module, upload frequencies setting module；Uplink time setting module, upload the time period of data for setting heartbeat acquisition module, body temperature acquisition module, first pressure acquisition module, second pressure acquisition module and/or humidity collection module, described uplink time section is divided into idle time period, busy time period；Upload frequencies setting module, for setting the upload frequencies in each time period of heartbeat acquisition module, body temperature acquisition module, first pressure acquisition module, second pressure acquisition module and/or humidity collection module to mobile terminal upload data, the data upload frequencies of upload frequencies setting module setting busy time period are more than the data upload frequencies of idle time period；

Wireless communication module also includes that upload frequencies change module, for whether detecting the first textile structural layer or the first textile structural layer being heated,

If within the idle time period, detecting textile structural layer and being heated, then the frequency for uploading data is updated to the data upload frequencies of busy time period；

If within the busy time period, not detecting textile structural layer and being heated, then the frequency for uploading data is updated to the data upload frequencies of idle time period.

Embodiment 9

The present embodiment is based on the method that physiological data controls wear heated condition, and methods described includes：

The wear prepared using the heating textile system described in any described heating fabric of claim 1 to 5 or claim 6 to 9；

Under the standard state of wear,

If the magnitude of voltage is 0, alert；

The 4th textile structural layer, the intersection point of the 5th textile structural layer positioning are obtained, the graphene conductive single of corresponding first textile structural layer and/or the second textile structural layer is heated between connection anchor point；Or increase the graphene conductive fiber line voltage of corresponding first textile structural layer and/or the second textile structural layer between anchor point；

If 3rd resistor value is more than first threshold, do not deal with；

According to 3rd resistor value, the humidity of wear is calculated.

In the present embodiment, choose the first textile structural layer or second knit any one graphene conductive single of structure sheaf as the first heartbeat gathering line, other graphene conductive singles of same textile structural layer are gradually chosen respectively as the second heartbeat gathering line, the first described heartbeat gathering line and the second heartbeat gathering line are constituted into heartbeat gathering line group；Namely first heartbeat gathering line and the second heartbeat gathering line be arranged on same textile structural layer.The all graphene conductive singles pairing removed outside the first heartbeat gathering line in the present embodiment the first heartbeat gathering line and one layer of textile structural layer carries out skin magnitude of voltage collection, on the one hand can so improve the degree of accuracy of the data of collection, on the other hand each several part of textle layers can be traveled through, textle layers to drying regime can be adjusted.

Magnitude of voltage between the jump gathering line in fundamental disagreement of acquisition each group heartbeat gathering line group, and the average value of described magnitude of voltage is taken, human body current heartbeat data are calculated according to the average voltage level；

Choose the first textile structural layer or second knit any one graphene conductive single of structure sheaf as the first body temperature gathering line, other graphene conductive singles of same textile structural layer are gradually chosen respectively as the second body temperature gathering line, the first described body temperature gathering line and the second body temperature gathering line are constituted into body temperature gathering line group；Namely first body temperature gathering line and the second body temperature gathering line be arranged on same textile structural layer.The all graphene conductive singles pairing removed outside the first body temperature gathering line in the present embodiment the first body temperature gathering line and one layer of textile structural layer carries out skin resistance collection, on the one hand can so improve the degree of accuracy of the data of collection, on the other hand each several part of textle layers can be traveled through, textle layers to drying regime can be adjusted.

Magnitude of voltage between the two strips temperature gathering line of acquisition each group body temperature gathering line group, and the average value of described magnitude of voltage is taken, the current temperature data of human body is calculated according to the average voltage level；

Choose the first textile structural layer, second knit structure sheaf, the 3rd textile structural layer, the 4th textile structural layer or the 5th textile structural layer any one graphene conductive single as the first body temperature gathering line；Other graphene conductive singles of same textile structural layer are gradually chosen respectively as the second humidity collection line, by the first described humidity collection line and the second humidity collection line composition humidity collection line group；Namely first humidity collection line and the second humidity collection line on same textile structural layer.

Or gradually choose whole graphene conductive singles not on same textile structural layer and, respectively as the second humidity collection line, the first described humidity collection line and the second humidity collection line are constituted into humidity collection line group；Namely first humidity collection line and the second humidity collection line not on same textile structural layer, such as the first humidity collection line the first textile structural layer on, the second humidity collection line the second textile structural layer on, the 3rd humidity collection line the 4th textile structural layer on, the 5th humidity collection line the second textile structural layer on.The degree of accuracy of the data of collection on the one hand can be so improved, each several part of textle layers on the other hand can be traveled through, textle layers to drying regime can be adjusted.

The first textile structural layer is combined with the 3rd textile structural layer below by way of several specific embodiments combines the specific embodiment as pressure sensor with the 5th textile structural layer as pressure sensor or the 4th textile structural layer.In the examples below, introduce for convenience and the first textile structural layer, the layer unification of the 4th textile structural are equal to referred to as the first tissue layer, 3rd textile structural layer, the layer unification of the 5th textile structural are equal to referred to as the first tissue layer, and the first spacer structure, the unification of the second spacer structure are equal to spacer structure.Fabric pressure sensor structure of the invention is introduced in detail below, and specific embodiment is described below：

As shown in Fig. 1 to 5, three kinds of schematic cross-sections of different structure of tissue layer respectively of the present invention, wherein, in Fig. 1, the spacing of conductive fiber 22 in the tissue layer is set, and non-conductive fibre 11 is provided between adjacent conductive fibres.Less than the diameter of non-conductive fibre, so after interweaving for tissue layer, non-conductive fibre is in standing shape to the diameter of the conductive fiber in Fig. 1 on the surface of tissue layer, and the conductive fiber is recessed.In Fig. 2, the spacing of conductive fiber 22 in the tissue layer is set, and non-conductive fibre 11 is provided between adjacent conductive fibres.The diameter of the conductive fiber in Fig. 2 is equal to the diameter of non-conductive fibre, and so after interweaving for tissue layer, non-conductive fibre and the conductive fiber are in approximately the same plane on the surface of tissue layer.The diameter with diameter greater than non-conductive fibre of the conductive fiber in Fig. 3, so after interweaving for tissue layer, conductive fiber is in standing shape on the surface of tissue layer, and the non-conductive fibre is recessed.Fig. 4 is the structural representation that the first tissue layer and the second tissue layer are stacked, the intersection point that conductive fiber 22a in first tissue layer intersects with the conductive fiber 22b in the second tissue layer is 12c, non-conductive fibre 11a, 11b are respectively equipped between first conductive fiber and the second conductive fiber.

Embodiment 1

The present embodiment heats fabric,Heating textile system,The method that wear heated condition is controlled based on physiological data,Including the first tissue layer and the second tissue layer that are stacked,The conductive fiber that many spacing are set is respectively equipped with wherein the first tissue layer and the second tissue layer,Do not contacted with each other between wire fiber in such same tissue layer,The conductive fiber is linear structure,The conductive fiber is with parallel,The uniform arrangement mode of spacing is arranged in described tissue layer,Conductive fiber in first tissue layer and second tissue layer intersects arrangement,Conductive fiber cross arrangement on conductive fiber and the second tissue layer in first tissue layer forms chessboard-like structure,Perfect condition is,Each conductive fiber in first tissue layer on each conductive fiber and the second tissue layer has unique intersection point,But may be difficult to accomplish in a practical situation,But the first tissue layer,Most of wire fiber in second tissue layer is arranged in a crossed manner.Spacer structure is provided between the first tissue layer and the second tissue layer, spacer structure described in the present embodiment is the elastomer being separately positioned in the first tissue layer and the second tissue layer, diameter of the thickness of the elastomer more than the conductive fiber, namely the wire fiber is embedded in the elastomer, the thickness of the diameter less than first and second tissue layer of the conductive fiber in first and second tissue layer.Said structure：In the case where no external force puts on the first tissue layer, the second tissue layer, first tissue layer, the second tissue layer conductive fiber under the support of elastomer gap set do not contact away from each other；The first tissue layer is put on there is external force, in the case of second tissue layer, first tissue layer, the conductive fiber of the second tissue layer gap under the support of elastomer sets and does not contact away from each other, the first tissue layer is put on when there is external force, in the case of second tissue layer, it is arranged on first tissue layer, elastomer in second tissue layer is squeezed, now described conductive fiber stretches out described elastomer, the wire fiber of the first tissue layer and the second tissue layer is in contact conduction, two conductive fibers intersect at a point, the column data line for now being connected by the conductive fiber on the row data wire and second tissue layer of the wire fiber connection in the first tissue layer carries out coordinate setting, it is known that the pressure value of pressure spot and position.

In the present embodiment, same row data wire or the conductive fiber of column data line connection are fewer, namely the row data wire and column data line of setting are more, then positioning precision is higher, but from manufacture craft and the situation of reality, same row data wire or column data line can connect the conductive fiber of more than two.

Embodiment 2

The present embodiment heating fabric, heating textile system, the method that wear heated condition is controlled based on physiological data, it is same the first tissue layer and the second tissue layer including being stacked with the sensor something in common of the fabric construction described in embodiment 1, wherein being respectively equipped with the conductive fiber that many spacing are set in the first tissue layer and the second tissue layer.The principle and preparation technology of the sensor of fabric construction are also roughly the same, will not be repeated here, the difference described in the sensor and embodiment of the fabric construction described in the present embodiment is the difference of the spacer structure set between the first tissue layer and the second tissue layer.

Spacer structure described in the present embodiment is the elastomer set in the first tissue layer, elastomer is not provided with second tissue layer, namely first conductive fiber in tissue layer diameter less than the thickness that the first fabric is just crossed, wire fiber in first tissue layer is embedded in first tissue layer, and the diameter of wire fiber is identical with the thickness of the second tissue layer in second tissue layer.Said structure：In the case that no external force puts on the first tissue layer, the second tissue layer, first tissue layer, the second tissue layer conductive fiber under the support of elastomer gap set do not contact away from each other；In the case of thering is external force to put on the first tissue layer, the second tissue layer, the elastomer being arranged in first tissue layer is squeezed, the now elastomer described in the conductive fiber in first tissue layer, the wire fiber of the first tissue layer and the second tissue layer is in contact conduction, two conductive fibers intersect at a point, the column data line for now being connected by the conductive fiber on the row data wire and second tissue layer of the conductive fiber connection in the first tissue layer carries out coordinate setting, it is possible to know pressure value and the position of pressure spot.

Embodiment 3

The present embodiment heating fabric, heating textile system, the method that wear heated condition is controlled based on physiological data, it is same the first tissue layer and the second tissue layer including being stacked with the sensor something in common of the fabric construction described in embodiment 2, wherein being respectively equipped with the conductive fiber that many spacing are set in the first tissue layer and the second tissue layer.The principle and preparation technology of the sensor of fabric construction are also roughly the same, will not be repeated here, and the sensor of the fabric construction described in the present embodiment and the difference of embodiment 2 are the difference in the second textile matte structure.

Conductive fiber described in the present embodiment in the second tissue layer with diameter greater than second tissue layer, namely the wire in second tissue layer stretches out second tissue layer, while the thickness of the elastomer in the first tissue layer should be no less than the diameter addition result of the conductive fiber on the conductive fiber in the first tissue layer and the second tissue layer.

Said structure：In the case that no external force puts on the first tissue layer, the second tissue layer, first tissue layer, the second tissue layer conductive fiber under the support of elastomer gap set do not contact away from each other；In the case of thering is external force to put on the first tissue layer, the second tissue layer, the elastomer being arranged in first tissue layer is squeezed, conductive fiber in second tissue layer is stretched into the elastomer in first tissue layer, now the wire fiber of the first tissue layer and the second tissue layer is in contact conduction, two conductive fibers intersect at a point, the column data line for now being connected by the conductive fiber on the row data wire and second tissue layer of the conductive fiber connection in the first tissue layer carries out coordinate setting, it is possible to know pressure value and the position of pressure spot.

Embodiment 4

The present embodiment heating fabric, heating textile system, the method that wear heated condition is controlled based on physiological data, including the first tissue layer, the second tissue layer and the spacer structure that is arranged between the first tissue layer and the second tissue layer that are stacked, the structure of the first tissue layer described in the present embodiment and second tissue layer is the conductive fiber which is provided with the linear structure that many spacing are set, and the conductive fiber is arranged in described tissue layer with the uniform arrangement mode of parallel, spacing.The operation principle of the first tissue layer and the second tissue layer is identical with above-mentioned several embodiments, will not be repeated here, it is spacer structure that the present embodiment is only specifically introduced herein with above-mentioned several embodiment differences, spacer structure in the present embodiment is the middle fabric layer being arranged between the first tissue layer and the second tissue layer, diameter of the weaving mesh number of wherein described middle fabric layer more than described conductive fiber, namely the textile density of middle fabric layer will be less than first, two tissue layers, to have at least one first in each weaving gap on the middle fabric layer, the crosspoint of the conductive fiber in two tissue layers passes through.The diameter of the conductive fiber in first tissue layer, the second tissue layer is identical with the thickness of first tissue layer in the present embodiment.

Said structure：In the case that no external force puts on the first tissue layer, the second tissue layer, first tissue layer, the second tissue layer conductive fiber under the support of middle fabric layer gap set do not contact away from each other；In the case of thering is external force to put on the first tissue layer, the second tissue layer, conductive fiber in first tissue layer, the second tissue layer is squeezed, now the conductive fiber in first and second tissue layer is in contact conduction through the weaving gap of the middle fabric layer, two conductive fibers intersect at a point, the column data line for now being connected by the conductive fiber on the row data wire and second tissue layer of the conductive fiber connection in the first tissue layer carries out coordinate setting, it is possible to know pressure value and the position of pressure spot.

Embodiment 5

The present embodiment heating fabric, heating textile system, the method that wear heated condition is controlled based on physiological data, the first tissue layer, the second tissue layer and the spacer structure that is arranged between the first tissue layer and the second tissue layer including being stacked same as Example 4.The present embodiment is with the difference of embodiment 4, the diameter of the conductive fiber in the first tissue layer in the present embodiment is equal to first tissue layer, the thickness of the conductive fiber in second tissue layer is more than second tissue layer, namely the conductive fiber stretches out second tissue layer.Thickness to middle fabric layer in the structure of the present embodiment has certain requirement, namely the thickness of middle fabric layer is greater than the thickness that conductive fiber in the second tissue layer stretches out the second tissue layer.

Embodiment 6

The sensor of the present embodiment fabric construction, the first tissue layer, the second tissue layer and the spacer structure that is arranged between the first tissue layer and the second tissue layer including being stacked same as Example 5.Difference from Example 5 is that the thickness of the conductive fiber in first tissue layer is more than first tissue layer, namely the conductive fiber stretches out first tissue layer.Also there is certain requirement to the thickness of middle fabric layer in the structure of the present embodiment, namely the thickness of middle fabric layer is greater than conductive fiber in the first tissue layer and stretches out the thickness sum that conductive fiber on the thickness and the second tissue layer of the first tissue layer stretches out the second tissue layer.

The spacer structure of the first tissue layer, the second tissue layer, the embodiment that the mutual cooperation of supporting construction is set and the different structure of different structure is sets forth in above-described embodiment 1 to 6, no matter the setting in what manner of spacer structure, the purpose that the spacer structure is set is for conductive fiber in the first tissue layer, the second tissue layer in the absence of external forces, gap sets and is not in contact, conductive structure is can not form between the two, in the case where there is external force, conductive fiber is in contact to form conductive path.

Embodiment 7

The present embodiment heating fabric, heating textile system, the method that wear heated condition is controlled based on physiological data, it is with the various embodiments described above difference, the difference of the structure of the conductive fiber in described the first tissue layer, the second tissue layer, the conductive fiber in first and second tissue layer is circular arc line in the present embodiment.The operation principle of conductive fiber is identical in first and second tissue layer, will not be repeated here.

Embodiment 8

The present embodiment heating fabric, heating textile system, the method that wear heated condition is controlled based on physiological data, it is with the various embodiments described above difference, the difference of the structure of the conductive fiber in described the first tissue layer, the second tissue layer, the conductive fiber in first and second tissue layer is meander line in the present embodiment.

Embodiment 9

The present embodiment heating fabric, heating textile system, the method that wear heated condition is controlled based on physiological data, it is with the various embodiments described above difference, the difference of the structure of the conductive fiber in described the first tissue layer, the second tissue layer, the conductive fiber in first and second tissue layer is straight line in the present embodiment, the intersecting still out of plumb of the wire fiber in first and second tissue layer.

Fabric construction sensor described in the various embodiments described above, can be compared to the point of application and be accurately positioned, but manufacture craft is relative complex, and cost of manufacture is also of a relatively high.Following embodiment describes a kind of locating effect not as above-described embodiment, but manufacture craft is relatively easy, the also low fabric construction sensor of cost.

The present invention, the functional areas of described heating fabric are a piece of cloth structure, and graphene conductive single is woven in together with other non-conductive fibres on fabric cloth by textile technology.

More than; only presently preferred embodiments of the present invention, but protection scope of the present invention is not limited thereto, any one skilled in the art the invention discloses technical scope in; the change or replacement that can be readily occurred in, should all be included within the scope of the present invention.Therefore, the protection domain that protection scope of the present invention should be defined by claim is defined.

Claims

1. it is a kind of to heat fabric, it is characterised in that the heating fabric includes three layers of textile structural, described to knit Subregion or Zone Full are functional areas on thing, and the first textile structural layer of the functional areas is radially provided with many Root graphene conductive single, the second textile structural layer broadwise of the functional areas is provided with many graphene conductives Single, is provided with middle textile structural layer between the first textile structural layer and the second textile structural layer, it is described in Between textile structural layer make the first textile structural layer and the second textile structural layer on graphene conductive single it is mutual Insulation.

2. heating fabric according to claim 1, it is characterised in that the middle textile structural layer is Broadwise is provided with many 3rd textile structural layers of graphene conductive single, the 3rd textile structural layer thereon Graphene conductive single and second textile structural layer graphene conductive single insulation set, institute State and be provided with the first spacer structure between the 3rd textile structural layer and first textile structural layer, between described first Every structure so that the Graphene of the graphene fiber line of described the first textile structural layer and the 3rd textile structural layer When not having ambient pressure, gap is set conductive fiber line, is contacted with each other when there is ambient pressure.

3. heating fabric according to claim 2, it is characterised in that first spacer structure is to set Put the spacer on the first textile structural layer and/or the 3rd textile structural layer facing surfaces；

Or, first spacer structure is to be arranged between the first textile structural layer and the 3rd textile structural layer Middle spring textile structural layer, wherein the weaving mesh number of the middle textile structural layer is described conductive fiber 2 to 10 times of diameter；

Or, being provided between described the first textile structural layer, adjacent two conductive fiber of the 3rd textile structural layer Some eradication fibrae marginataes, the bearing of trend of the non-conductive fibre is identical with the bearing of trend of the conductive fiber, The diameter of the non-conductive fibre is 2 to 10 times of described conductive fiber diameter, and the conductive fiber is embedded in institute State in non-conductive fibre, described first textile structural layer, the non-conductive fibre of the 3rd textile structural layer form described First spacer structure.

4. heating fabric according to claim 1, it is characterised in that the middle textile structural layer bag Include and be radially provided with the 4th textile structural layer of many graphene conductive singles, broadwises and be provided with many Graphenes and lead Electric single the 5th textile structural layer and be arranged on the 4th textile structural layer, the 5th textile structural layer between The second spacer structure, the graphene conductive single of the 4th textile structural layer weaves with the ground floor The graphene conductive single insulation set of structure, the graphene conductive single of the 5th textile structural layer With the graphene conductive single insulation set of second textile structural layer, second spacer structure causes The graphene fiber line of described the 4th textile structural layer and the graphene conductive single of the 5th textile structural layer When not having ambient pressure, gap is set, and is contacted with each other when there is ambient pressure.

5. heating fabric according to claim 4, it is characterised in that second spacer structure is to set Put the spacer on the 4th textile structural layer and/or the 5th textile structural layer facing surfaces；

Or, second spacer structure is to be arranged between the 4th textile structural layer and the 5th textile structural layer Middle spring textile structural layer, wherein the weaving mesh number of the middle textile structural layer is described conductive fiber 2 to 10 times of diameter；

Or, being provided between described the 4th textile structural layer, adjacent two conductive fiber of the 5th textile structural layer Some eradication fibrae marginataes, the bearing of trend of the non-conductive fibre is identical with the bearing of trend of the conductive fiber, The diameter of the non-conductive fibre is 2 to 10 times of described conductive fiber diameter, and the conductive fiber is embedded in institute State in non-conductive fibre, described 4th textile structural layer, the non-conductive fibre of the 5th textile structural layer form described Second spacer structure.

6. it is a kind of to heat textile system, it is characterised in that including any described heating of claim 1 to 5 Fabric, time-sharing multiplex switch, controller and the temperature setting mould being wirelessly or non-wirelessly connected with the controller Block, heartbeat acquisition module, body temperature acquisition module, first pressure acquisition module, second pressure acquisition module and/ Or humidity collection module；

The time-sharing multiplex switch, each graphene conductive of each textile structural layer of instruction control according to controller Single is switched on or switched off power supply；

Temperature setting module, with described the first textile structural layer, the graphene conductive of the second textile structural layer Single is connected, the first textile structural of setting layer, the electricity of the graphene conductive single of the second textile structural layer Pressure value；

Heartbeat acquisition module, at least one set of heartbeat with the first textile structural layer and/or the second textile structural layer is adopted Line concentration group is connected, and each group heartbeat gathering line group is by any two graphene conductive fibres on same textile structural layer Dimension line composition, heartbeat acquisition module receives the instruction of controller, two of collection each group heartbeat gathering line group First resistor value between heartbeat gathering line,

If first resistor value, drying in the range of resistance threshold, then gathering the electricity between jump gathering line in fundamental disagreement Pressure,

If the magnitude of voltage is 0, alert；

If the magnitude of voltage be less than second voltage threshold value, controller send unlatching carry out the first textile structural layer and/ Or second textile structural layer heating until magnitude of voltage be 0 or magnitude of voltage in first voltage threshold range (a, b) It is interior；

If first resistor value, in moist resistance range, then controller sends unlatching and carries out the first textile structural Layer and/or the layer heating of the second textile structural, until the first resistor value between two strips temperature gathering line is drying electricity In resistance threshold range；

Body temperature acquisition module, at least one set of body temperature with the first textile structural layer and/or the second textile structural layer is adopted Line concentration group is connected, and each group body temperature gathering line group is by any two graphene conductive fibres on same textile structural layer Dimension line composition, the second resistance value between collection two strips temperature gathering line,

If second resistance value is in the first electricity group threshold range (c, d), then by the second resistance value export to Controller；

If the magnitude of voltage is in moist resistance threshold, controller send unlatching carry out the first textile structural layer and/ Or the second textile structural layer heating, until second resistance value between two strips temperature gathering line is more than first threshold Or in the second electricity group threshold range (c, d)；

First pressure acquisition module, by many first row data wires respectively with the first textile structural layer graphite Alkene conductive fiber line is connected, and the Graphene by many first column data lines respectively with the 3rd textile structural layer is led Electric single is connected, and the first row data wire forms checkerboard configuration with first column data line, carries out institute The first textile structural layer, the intersection point positioning of the graphene conductive single of the 3rd textile structural layer stated, will be fixed Position to intersection point send to controller；

Second pressure acquisition module, by many second row data wires respectively with the 4th textile structural layer graphite Alkene conductive fiber line is connected, and the Graphene by many second column data lines respectively with the 5th textile structural layer is led Electric single is connected, and the second row data wire forms checkerboard configuration with second column data line, carries out institute The 4th textile structural layer, the intersection point positioning of the graphene conductive single of the 5th textile structural layer stated, will be fixed Position to intersection point send to controller；

Humidity collection module, with the first textile structural layer, the second textile structural layer, the 3rd textile structural layer, At least one set of humidity collection line group connection of the 4th textile structural layer and/or the 5th textile structural layer, each group humidity Gathering line group is by the first textile structural layer, the second textile structural layer, the 3rd textile structural layer, the 4th weaving knot Any two articles of Graphene conductive fibers line composition of structure layer and/or the 5th textile structural layer, two humidity of collection are adopted 3rd resistor value between line concentration,

If 3rd resistor value is being dried in threshold range, do not deal with；

If 3rd resistor value is in moist threshold range, 3rd resistor value is sent to controller, the control Device processed calculates the humidity of heating fabric according to 3rd resistor value.

7. heating textile system according to claim 6, it is characterised in that the controller also includes Timesharing circulates operational module, and the timesharing circulation operational module includes：Select unit and operating time set Unit, wherein,

The select unit, selection described temperature computation module, heartbeat computing module, body temperature computing module And/or calculation of pressure module is circulated work；

The operating time setup unit, for set described temperature setting module, heartbeat computing module, The operating time of body temperature computing module and/or each module of calculation of pressure module.

8. heating textile system according to claim 6, it is characterised in that the controller also includes Physiology heating control module, for according to heartbeat acquisition module, body temperature acquisition module, first pressure collection mould Block, second pressure acquisition module and/or humidity collection module collection data control the first textile structural layer and/or The heated condition of the graphene conductive single of the second textile structural layer；

The heartbeat heat control unit, the magnitude of voltage for obtaining and standard voltage value scope (a1, b1) are entered Row compares,

If the magnitude of voltage in the standard voltage value scope (a1, b1), then maintain the first textile structural layer and/ Or second textile structural layer graphene conductive single voltage it is constant；

If the magnitude of voltage is less than a1 more than a, with subscribe frequency increase described the first textile structural layer and/ Or second textile structural layer graphene conductive single voltage, until the controller obtain magnitude of voltage Reach in standard voltage value scope (a1, b1) or the first described textile structural layer and/or the second textile structural The voltage of the graphene conductive single of layer reaches maximum；

If the magnitude of voltage is less than b more than b1, with subscribe frequency reduce described the first textile structural layer and/ Or second textile structural layer graphene conductive single voltage, until the controller obtain magnitude of voltage Reach in standard voltage value scope (a1, b1) or the first described textile structural layer and/or the second textile structural The voltage of the graphene conductive single of layer reaches minimum value；

The body temperature heat control unit, the first electric class value and standard electric Standard resistance range (c1, d1) that will be obtained It is compared,

If the second resistance value then maintains the first textile structural in standard electric Standard resistance range (c1, d1) The voltage of the graphene conductive single of layer and/or the second textile structural layer is constant；

If the second resistance value is less than c1 more than c, the first described textile structural is increased to subscribe frequency The voltage of the graphene conductive single of layer and/or the second textile structural layer, until the controller obtain the Two resistance values are reached in standard electric Standard resistance range (c1, d1) or the first described textile structural layer and/or second The voltage of the graphene conductive single of textile structural layer reaches maximum；

If the second resistance value is less than d more than d1, the first described textile structural is reduced to subscribe frequency The voltage of the graphene conductive single of layer and/or the second textile structural layer, until the controller obtain the Two resistance values are reached in standard electric Standard resistance range (c1, d1) or the first described textile structural layer and/or second The voltage of the graphene conductive single of textile structural layer reaches minimum value；

The first pressure heat control unit, obtains the first textile structural layer, the 3rd textile structural layer positioning Intersection point, the graphene conductive single for connecting corresponding second textile structural layer between anchor point heated Or increase the graphene conductive fiber line voltage of corresponding second textile structural layer between anchor point；

The first pressure heat control unit, obtains the 4th textile structural layer, the 5th textile structural layer positioning Intersection point, connect the Graphene of corresponding first textile structural layer and/or the second textile structural layer between anchor point Conductive fiber line is heated；Or increase corresponding first textile structural layer and/or the second weaving between anchor point The graphene conductive fiber line voltage of structure sheaf；

The humidity heat control unit, judges whether humidity collection line is that the first textile structural layer or second are spun The graphene conductive fiber of structure sheaf is knitted,

If humidity collection line is the graphene conductive fiber of the first textile structural layer or the second textile structural layer, By the humidity collection line and with humidity collection line same textile structural layer, and the humidity collection line both sides are extremely Few 1 Graphene conductive fiber electrified regulation, until 3rd resistor value is more than first threshold；

If humidity collection line is the stone of the 3rd textile structural layer, the 4th textile structural layer or the 5th textile structural layer Black alkene conductive fiber, then by the first textile structural layer vertical with the humidity collection line and/or the second textile structural The graphene conductive single electrified regulation of layer, until 3rd resistor value is more than first threshold.

9. heating textile system according to claim 6, it is characterised in that

The heartbeat acquisition module：Choose the first textile structural layer or the second any one graphite for knitting structure sheaf Alkene conductive fiber line is led as the first heartbeat gathering line, other Graphenes for gradually choosing same textile structural layer Electric single gathers the first described heartbeat gathering line and the second heartbeat respectively as the second heartbeat gathering line Line constitutes heartbeat gathering line group；

The heartbeat heat control unit, between the jump gathering line in fundamental disagreement of acquisition each group heartbeat gathering line group Magnitude of voltage, and the average value of described magnitude of voltage is taken, human body current heartbeat number is calculated according to the average voltage level According to；

The body temperature acquisition module：Choose the first textile structural layer or the second any one graphite for knitting structure sheaf Alkene conductive fiber line is led as the first body temperature gathering line, other Graphenes for gradually choosing same textile structural layer Electric single gathers the first described body temperature gathering line and the second body temperature respectively as the second body temperature gathering line Line constitutes body temperature gathering line group；

The body temperature heat control unit, between the two strips temperature gathering line of acquisition each group body temperature gathering line group Magnitude of voltage, and the average value of described magnitude of voltage is taken, the current body temperature number of human body is calculated according to the average voltage level According to；

Humidity collection module：Choose the first textile structural layer, second knit structure sheaf, the 3rd textile structural layer, Any one graphene conductive single of the 4th textile structural layer or the 5th textile structural layer is used as the first body temperature Gathering line；Other graphene conductive singles of same textile structural layer are gradually chosen respectively as the second humidity Gathering line, by the first described humidity collection line and the second humidity collection line composition humidity collection line group；

Or gradually choose not that whole graphene conductive singles are wet respectively as second on same textile structural layer Degree gathering line, by the first described humidity collection line and the second humidity collection line composition humidity collection line group；

The humidity heat control unit, between two humidity collection lines of acquisition each group humidity collection line group Resistance value, and the average value of described resistance value is taken, fabric current humidity number is calculated according to the average resistance According to.

10. it is a kind of based on physiological data control wear heated condition method, it is characterised in that the side Method includes：

Knitted using the heating described in any described heating fabric of claim 1 to 5 or claim 6 to 9 Wear prepared by thing system；

Dried in threshold range with the resistance value between two graphene conductive singles on wear, be wearing The standard state of thing；

Under the standard state of wear,

The graphene conductive single of the textile structural layer contacted with skin with wear, every two is one group, Gather the magnitude of voltage of human body different parts skin, while gather pulse rate, set up the magnitude of voltage of human body skin with The corresponding database of pulse rate, corresponding normalization voltage range when the database includes that human heartbeat is normal (a1, b1), and the excessively slow corresponding voltage range of the corresponding voltage range of rapid heart beat (a, a1), heartbeat (b1, b)；

The graphene conductive single of the textile structural layer contacted with skin with wear, every two is one group, Gather the resistance value of human body different parts skin, while acquisition volume temperature value, set up the resistance value of human body skin with The corresponding database of body temperature value, corresponding normalization voltage range when the database includes that body temperature is normal (c1, d1), and the corresponding voltage range of hypothermia (c, c1), the corresponding voltage range of hyperpyrexia (c1, d)；

It is heartbeat gathering line with two Graphene conductive fiber lines on same textile structural layer, gathers in fundamental disagreement The first resistor value between gathering line is jumped,

If the magnitude of voltage is 0, alert；

If the magnitude of voltage is less than second voltage threshold value, sending unlatching carries out the first textile structural layer and/or second The heating of textile structural layer is until magnitude of voltage is 0 or magnitude of voltage is in first voltage threshold range (a, b)；

If first resistor value, in moist resistance range, then send unlatching carry out the first textile structural layer and/or Second textile structural layer heating, until the first resistor value between two strips temperature gathering line is drying resistance threshold In the range of；

It is body temperature gathering line with two Graphene conductive fiber lines on same textile structural layer, gathers two strips Second resistance value between warm gathering line,

If the magnitude of voltage is in moist resistance threshold, unlatching carries out the first textile structural layer and/or the second weaving Structure sheaf is heated, until the second resistance value between two strips temperature gathering line is more than first threshold or in the second electricity In group threshold range (c, d)；

Graphene conductive single by many first row data wires respectively with the first textile structural layer is connected, Graphene conductive single by many first column data lines respectively with the 3rd textile structural layer is connected, described The first row data wire and first column data line form checkerboard configuration, carry out described the first textile structural layer, The intersection point positioning of the graphene conductive single of the 3rd textile structural layer；

The first textile structural layer, the intersection point of the 3rd textile structural layer positioning are obtained, correspondence between anchor point is connected The second textile structural layer graphene conductive single heated or increased corresponding second between anchor point The graphene conductive fiber line voltage of textile structural layer；

Or, by many second row data wires respectively with the 4th textile structural layer graphene conductive single phase Even, the graphene conductive single by many second column data lines respectively with the 5th textile structural layer is connected, The second row data wire forms checkerboard configuration with second column data line, carries out the 4th described weaving knot The intersection point positioning of structure layer, the graphene conductive single of the 5th textile structural layer, the intersection point that will be navigated to sends To controller；

The 4th textile structural layer, the intersection point of the 5th textile structural layer positioning are obtained, correspondence between anchor point is connected The first textile structural layer and/or the second textile structural layer graphene conductive single heated；Or increase The graphene conductive single electricity of corresponding first textile structural layer and/or the second textile structural layer between anchor point Pressure；

With the first textile structural layer, the second textile structural layer, the 3rd textile structural layer, the 4th textile structural layer And/or the 5th textile structural layer any two articles of Graphene conductive fibers line be humidity collection line, collection two it is wet 3rd resistor value between degree gathering line,

If 3rd resistor value is more than first threshold, do not deal with；

If in 3rd resistor value humidity threshold value, judging whether humidity collection line is the first textile structural layer or the The graphene conductive fiber of two textile structurals layer,

If humidity collection line is the stone of the 3rd textile structural layer, the 4th textile structural layer or the 5th textile structural layer Black alkene conductive fiber, then by the first textile structural layer vertical with the humidity collection line and/or the second textile structural The graphene conductive single electrified regulation of layer, until 3rd resistor value is more than first threshold；

According to 3rd resistor value, the humidity of wear is calculated.