CN205674626U - Intelligent temperature control Graphene yarn fabric - Google Patents

Abstract

The open a kind of intelligent temperature control Graphene yarn fabric of the utility model, the problem being unsuitable for providing heat for clothes mainly for existing heating, propose a kind of intelligent temperature control Graphene yarn fabric, including the first insulating barrier setting gradually, conductive layer, the second insulating barrier, thermometric layer, fixed bed and cover layer；The conductive warp yarn of conductive layer and conductive warp yarns are conductive graphene fiber；Conductive graphene fiber includes strand and strand conductive coating；Strand includes the conductive graphene monofilament of two or more than two, and conductive graphene monofilament includes monofilament long fibre and monofilament conductive coating；If thermometric layer is the dry temperature sensor that array is arranged；Fixed bed includes stationary warp and fixing weft yarn；Temperature sensor lead as warp thread or weft yarns in fixed bed.First insulating barrier, conductive layer, the second insulating barrier, thermometric layer, fixed bed are together with cover bonding.The utility model heating is uniformly, conductive capability is strong, soft pliable is folded, comfortableness is good.

Description

Intelligent temperature control Graphene yarn fabric

Technical field

The utility model relates to a kind of electrical heating yarn fabric, specifically a kind of intelligent temperature control Graphene yarn fabric.

Background technology

The winter of northern China is very cold, and in cold winter, warming clothes are the indispensable article of people.Traditional Insulation garment be fill in clothes heat insulating material formed, such as cotton, eider down etc..This insulation garment is to reduce in clothes and clothes Outer air flowing, say, that decrease the thermal loss of human body, thus enable a person to keep out the cold.If at a temperature of but Dropping to a certain degree, this insulation garment cannot fully ensure that the temperature of human body.Later, the heating article of electric heating occurred in that, People add resistance wire in clothes, produce heat by resistance wire, thus, it is ensured that the temperature in clothes is maintained at certain temperature In the range of degree, but, resistance wire is arranged in clothes, can be substantially reduced the comfortableness of clothes, in addition, arrange resistance in clothes After Si, folding that clothes can not be random, it is very inconvenient to use.

Utility model content

For the problems referred to above, the utility model provides the intelligent temperature control Graphene that a kind of comfortableness is high, soft pliable is folded to spin Fabric.

For reaching above-mentioned purpose, the utility model intelligent temperature control Graphene yarn fabric, it is characterised in that: include setting gradually The first insulating barrier, conductive layer, the second insulating barrier, thermometric layer, fixed bed and cover layer；Wherein,

Described conductive layer includes conductive warp yarn and conductive warp yarns；Described conductive warp yarn and conductive warp yarns are conductive graphene Fiber；Described conductive graphene fiber includes strand and is wrapped in the strand conductive coating of strand outer surface；Described strand includes The conductive graphene monofilament of two or more than two, described conductive graphene monofilament includes monofilament long fibre and to be wrapped in monofilament long The monofilament conductive coating of fibrous outer surfaces；Described monofilament conductive coating and described strand conductive coating all include some sheet Graphene, the some granular conductive black being embedded between the lamella of Graphene and for bond Graphene and conduction charcoal Black acrylic resin；

If described thermometric layer is the dry temperature sensor that array is arranged；

Described fixed bed includes stationary warp and fixing weft yarn；Wherein, described stationary warp includes the temperature being arranged alternately Sensor conductor and non-conductive fibre, described fixing weft yarn is non-conductive fibre；Or, described stationary warp is non-conductive fibre, described Fixing weft yarn is the temperature sensor lead and non-conductive fibre being arranged alternately；

Described first insulating barrier, conductive layer, the second insulating barrier, thermometric layer, fixed bed are together with cover bonding.

Further, warp thread or the weft yarn of described conductive layer also includes some electrode wires, described electrode wires and described conduction Graphene fiber is arranged alternately.

Further, described temperature sensor is electrically connected with the controller, and controller, power supply and conductive layer are connected into and close back Road.

Further, the opposite sides of described conductive layer is connected with wire, or the electrode wires of described conductive layer and wire Connect.

Further, arrange in order with the temperature sensor lead of a line or same row, adjacent two temperature sensors Minimum interval 15 eradication fibrae marginatae between wire.

Further, described cover layer includes covering warp thread and covers weft yarn, described covering warp thread and described covering weft yarn It is non-conductive fibre.

Further, warp thread and the weft yarn of described first insulating barrier, the second insulating barrier, fixed bed and cover layer is abnormity Fiber.

Further, described first insulating barrier, conductive layer, the second insulating barrier, thermometric layer, fixed bed and cover layer are by leading Water cellulose runs through, and described water-release fibre is C-shaped fiber, and described water-release fibre is non-conductive fibre.

Further, also including humidity sensor, described humidity sensor is that array is arranged, described humidity sensor overlying It is stamped skin-friendly layer.

Further, described skin-friendly layer is woven from by pure cotton fiber.

The conductive layer of the utility model intelligent temperature control Graphene yarn fabric uses graphene fiber to weave, and ratio is existing Produce the yarn fabric soft comfortable of heat with resistance wire, can be folding and be not damaged, service life is long.In addition, this The monofilament conductive coating of utility model and strand conductive coating are all to use flake graphite alkene as skeleton, at flake graphite alkene bone Conductive black particle is filled, thus, it is possible to formed with flake graphite alkene as conducting matrix grain, with conductive black particle for leading between frame The conducting matrix grain of electrical nodes, thus, its conductive capability is much stronger than the conductive capability of the resistance wire of prior art, and therefore, it produces The ability of heat amount is better than far away existing resistance wire.Further, since its conductive capability is better than the conductive capability of existing resistance wire, Therefore, the utility model is compared with existing resistance wire, also has energy-conservation effect.

Brief description

Fig. 1 is the layer structure of the utility model intelligent temperature control Graphene yarn fabric.

Detailed description of the invention

Below in conjunction with Figure of description, the utility model is further described.

Embodiment 1

As it is shown in figure 1, the intelligent temperature control Graphene yarn fabric of the present embodiment, including the 6th, the first insulating barrier setting gradually leads Electric layer the 5th, the second insulating barrier the 4th, thermometric layer, fixed bed 2 and cover layer 1；Wherein,

Described conductive layer 5 includes conductive warp yarn and conductive warp yarns；Described conductive warp yarn and conductive warp yarns are electrically conductive graphite Alkene fiber；Described conductive graphene fiber includes strand and is wrapped in the strand conductive coating of strand outer surface；Described strand bag Including the conductive graphene monofilament of two or more than two, described conductive graphene monofilament includes monofilament long fibre and is wrapped in monofilament The monofilament conductive coating of long fibre outer surface；Described monofilament conductive coating and described strand conductive coating all include some sheet Graphene, the some granular conductive black being embedded between the lamella of Graphene and for Graphene and the conduction of boning The acrylic resin of carbon black；

If described thermometric layer is the dry temperature sensor 3 that array is arranged；

Described fixed bed 2 includes stationary warp and fixing weft yarn；Wherein, described stationary warp includes the temperature being arranged alternately Sensor 3 wire and non-conductive fibre, described fixing weft yarn is non-conductive fibre；Or, described stationary warp is non-conductive fibre, described Fixing weft yarn is temperature sensor 3 wire and non-conductive fibre being arranged alternately；

Described first insulating barrier the 6th, conductive layer the 5th, the second insulating barrier the 4th, thermometric layer, fixed bed 2 and cover layer 1 are bonded in one Rise.The opposite sides of described conductive layer 5 is connected with wire.Described cover layer 1 includes covering warp thread and covers weft yarn, described covering Warp thread and described covering weft yarn are non-conductive fibre.

The conductive layer 5 of the present embodiment intelligent temperature control Graphene yarn fabric uses graphene fiber to weave, and ratio is existing Produce the yarn fabric soft comfortable of heat with resistance wire, can be folding and be not damaged, service life is long.In addition, this The monofilament conductive coating of utility model and strand conductive coating are all to use flake graphite alkene as skeleton, at flake graphite alkene bone Conductive black particle is filled, thus, it is possible to formed with flake graphite alkene as conducting matrix grain, with conductive black particle for leading between frame The conducting matrix grain of electrical nodes, thus, its conductive capability is much stronger than the conductive capability of the resistance wire of prior art, and therefore, it produces The ability of heat amount is better than far away existing resistance wire.Further, since its conductive capability is better than the conductive capability of existing resistance wire, Therefore, the intelligent temperature control Graphene yarn fabric of the present embodiment is compared with existing resistance wire, also has energy-conservation effect.

Owing to the intelligent temperature control Graphene yarn fabric of the present embodiment is that whole fabric conduction produces heat, therefore, work as energising After, the heat production of fabric is uniform, produces heat in local unlike resistance wire heat production.

Embodiment 2

On the basis of above-described embodiment, the warp thread of described conductive layer 5 or weft yarn also include some electrode wires, described electrode Line is arranged alternately with described conductive graphene fiber.The electrode wires of described conductive layer 5 is connected with wire.

The present embodiment adds electrode wires in the warp thread or weft yarn of conductive layer 5, is needing the intelligent temperature control stone of the present embodiment When ink alkene fabric produces heat, electrode wires is connected with the both positive and negative polarity of power supply, so that it may so that conductive layer 5 produces heat, connection side Just.

Embodiment 3

On the basis of above-described embodiment, described temperature sensor 3 is electrically connected with the controller, controller, power supply and conduction Layer 5 is connected into closed-loop path.

The intelligent temperature control Graphene yarn fabric of the present embodiment utilizes voltage or the electric current of controller control conductive layer 5, from And the heat that conductive layer 5 sends can be controlled, and temperature sensor 3 can measure current temperature such that it is able to for control Device control conductive layer 5 heating provides foundation.

Embodiment 4

On the basis of above-described embodiment, arrange in order with temperature sensor 3 wire of a line or same row, adjacent two Minimum interval 15 eradication fibrae marginatae between root temperature sensor 3 wire.

Temperature sensor 3 wire of same a line or same row is arranged in order, which bar wire can be found accurately The signal transferring out is which sensor is measured, and can grasp the intelligent temperature control Graphene yarn fabric of the present embodiment accurately The temperature regime of each position.Further, since can produce magnetic field when wire has electric current to flow through, and magnetic field can affect wire The flowing of interior electric current.Therefore, adjacent conductor spacing is arranged, weaken influencing each other between adjacent wire.

Embodiment 5

On the basis of above-described embodiment, the warp of described first insulating barrier the 6th, the second insulating barrier the 4th, fixed bed 2 and cover layer 1 Yarn and weft yarn are profiled filament.Described first insulating barrier the 6th, conductive layer the 5th, the second insulating barrier the 4th, thermometric layer, fixed bed 2 and covering Layer 1 is run through by water-release fibre, and described water-release fibre is C-shaped fiber, and described water-release fibre is non-conductive fibre.

The fiber of each layer is all used profiled filament by the present embodiment, and uses C-shaped fiber to run through each layer, can be by people The sweat of surface is derived such that it is able to improve the comfort level of yarn fabric.Under the capillary effect of sweat, C-shaped fiber When deriving sweat through conductive layer 5, sweat will not contact with conductive layer 5, the problem of the conductive layer 5 that also would not occur getting wet.

Embodiment 6

On the basis of above-described embodiment, also including humidity sensor, described humidity sensor is that array is arranged, described wet It is coated with skin-friendly layer on degree sensor.Described skin-friendly layer is woven from by pure cotton fiber.

The present embodiment arranges humidity sensor, can judge whether human body surface perspires by the humidity on fabric top layer, from And be that the regulation of temperature provides another index, humidity sensor arranges the skin-friendly layer that pure cotton fiber is made into, it is possible to increase people Comfort level when body is worn.

Above, preferred embodiment only of the present utility model, but protection domain of the present utility model is not limited thereto, and appoints What those familiar with the art in the technical scope that the utility model discloses, the change that can readily occur in or replace Change, all should cover within protection domain of the present utility model.Therefore, protection domain of the present utility model should be with claim The protection domain being defined is as the criterion.

Claims (10)

1. an intelligent temperature control Graphene yarn fabric, it is characterised in that: the first insulating barrier of including setting gradually, conductive layer, Two insulating barriers, thermometric layer, fixed bed and cover layer；Wherein,

Described conductive layer includes conductive warp yarn and conductive warp yarns；It is fine that described conductive warp yarn and conductive warp yarns are conductive graphene Dimension；Described conductive graphene fiber includes strand and is wrapped in the strand conductive coating of strand outer surface；Described strand includes two The conductive graphene monofilament of root or more than two, described conductive graphene monofilament includes monofilament long fibre and to be wrapped in monofilament length fine The monofilament conductive coating of dimension outer surface；Described monofilament conductive coating and described strand conductive coating all include the stone of some sheet Ink alkene, the some granular conductive black being embedded between the lamella of Graphene and for Graphene and the conductive black of boning Acrylic resin；

If described thermometric layer is the dry temperature sensor that array is arranged；

Described fixed bed includes stationary warp and fixing weft yarn；Wherein, described stationary warp includes the TEMP being arranged alternately Device wire and non-conductive fibre, described fixing weft yarn is non-conductive fibre；Or, described stationary warp is non-conductive fibre, described fixing Weft yarn is the temperature sensor lead and non-conductive fibre being arranged alternately；

Described first insulating barrier, conductive layer, the second insulating barrier, thermometric layer, fixed bed are together with cover bonding.

2. intelligent temperature control Graphene yarn fabric as claimed in claim 1, it is characterised in that: the warp thread of described conductive layer or weft yarn are also Including some electrode wires, described electrode wires is arranged alternately with described conductive graphene fiber.

3. intelligent temperature control Graphene yarn fabric as claimed in claim 1 or 2, it is characterised in that: described temperature sensor and control Device electrically connects, and controller, power supply and conductive layer are connected into closed-loop path.

4. intelligent temperature control Graphene yarn fabric as claimed in claim 3, it is characterised in that: the opposite sides of described conductive layer with lead Line connects, or the electrode wires of described conductive layer is connected with wire.

5. intelligent temperature control Graphene yarn fabric as claimed in claim 1, it is characterised in that: with the TEMP of a line or same row Device wire arranges in order, minimum interval 15 eradication fibrae marginatae between adjacent two temperature sensor lead.

6. intelligent temperature control Graphene yarn fabric as claimed in claim 1, it is characterised in that: described cover layer includes covering warp thread With covering weft yarn, described covering warp thread and described covering weft yarn are non-conductive fibre.

7. intelligent temperature control Graphene yarn fabric as claimed in claim 1, it is characterised in that: described first insulating barrier, the second insulation Warp thread and the weft yarn of layer, fixed bed and cover layer are profiled filament.

8. intelligent temperature control Graphene yarn fabric as claimed in claim 7, it is characterised in that: described first insulating barrier, conductive layer, the Two insulating barriers, thermometric layer, fixed bed and cover layer are run through by water-release fibre, and described water-release fibre is C-shaped fiber, described water guide Fiber is non-conductive fibre.

9. intelligent temperature control Graphene yarn fabric as claimed in claim 1, it is characterised in that: also include humidity sensor, described wet Degree sensor is that array is arranged, and described humidity sensor is coated with skin-friendly layer.

10. intelligent temperature control Graphene yarn fabric as claimed in claim 9, it is characterised in that: described skin-friendly layer is by pure cotton fiber machine Knit and form.