CN211467683U

CN211467683U - Graphene composite heating cloth

Info

Publication number: CN211467683U
Application number: CN201921898363.6U
Authority: CN
Inventors: 毛庆宝
Original assignee: Tianjin Lidaifu M&h Products Co ltd
Current assignee: Tianjin Lidaifu M&h Products Co ltd
Priority date: 2019-11-05
Filing date: 2019-11-05
Publication date: 2020-09-11
Anticipated expiration: 2029-11-05

Abstract

The utility model discloses a compound cloth that generates heat of graphite alkene, including cloth body, overheat protector, power cord, monitoring casing and the exothermic cloth of graphite alkene, the inside central point of cloth body puts the department and is equipped with the exothermic cloth of graphite alkene, and one side on the exothermic cloth surface of graphite alkene is fixed with the monitoring casing to the inside central point of monitoring casing puts the department and is equipped with overheat protector, is equipped with the power cord on the outer wall of overheat protector one side, and the power cord is kept away from overheat protector's one end and is extended to the outside of cloth body, the inside of cloth body is equipped with insulation system, and the inside profiled fiber elasticity cloth that is equipped with of the exothermic cloth body of graphite alkene one side, and the inside of profiled fiber elasticity cloth is equipped with elastic. The utility model discloses not only improved the effect of generating heat when the cloth that generates heat uses, improved the security when the cloth that generates heat uses, improved the travelling comfort when the cloth that generates heat uses moreover.

Description

Graphene composite heating cloth

Technical Field

The utility model relates to a cloth technical field that generates heat specifically is graphite alkene complex cloth that generates heat.

Background

Along with the continuous improvement of living standard of people, the traditional cloth is difficult to meet the requirements of people gradually, and under the severe cold climate, the heating cloth becomes a cloth which is sought after by people, and the heating cloth is deeply loved by people due to good comprehensive performance.

The cloth that generates heat on the market at present is various, but the functionality is comparatively single, still has certain problem, can't satisfy people's demand gradually, and concrete problem has following several:

(1) the heating performance of the existing heating cloth is general, so that the expectation of people is difficult to meet, and the improvement is needed;

(2) the existing heating cloth has common insulating property, certain potential safety hazard exists, and the safety performance is difficult to guarantee;

(3) the existing heating cloth has general flexibility and lower comfort in use, which often troubles people.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide the compound cloth that generates heat of graphite alkene to the general problem of the performance that generates heat that proposes the cloth that generates heat in solving above-mentioned background art, insulating properties is general and pliable and tough performance is general.

In order to achieve the above object, the utility model provides a following technical scheme: graphite alkene complex cloth that generates heat, including cloth body, overheat protector, power cord, monitoring casing and the graphite alkene cloth that releases heat, the inside central point of cloth body puts the department and is equipped with the graphite alkene cloth that releases heat, and one side on the graphite alkene cloth surface that releases heat is fixed with the monitoring casing to the inside central point of monitoring casing puts the department and is equipped with overheat protector, is equipped with the power cord on the outer wall of overheat protector one side, and overheat protector's one end is kept away from to the power cord extends to the outside of cloth body, the inside of cloth body is equipped with insulation system, and the inside pressfitting of the cloth body that graphite alkene released heat cloth one side has profiled fiber elasticity cloth to the inside of profiled fiber elasticity cloth is fixed with elastic.

Preferably, insulation system's inside is equipped with fire prevention fibre insulating cloth piece, adhesive and the cotton piece of glass in proper order, the inside border position department of cloth body is filled with the adhesive, and the inside border position department of cloth body of adhesive one side pastes and has fire prevention fibre insulating cloth piece to the inside border position department of cloth body that fire prevention fibre insulating cloth piece one side was kept away from to the adhesive is pasted and is had the cotton piece of glass.

Preferably, a thermistor is arranged on the outer wall of the overheat protector on the side far away from the power line, and one end of the thermistor extends to the outside of the monitoring shell.

Preferably, the graphene heat release cloth surface on one side of the monitoring shell is respectively provided with longitudinal conductive fiber strip bodies and transverse carbon fiber strip bodies which are arranged at equal intervals, and the longitudinal conductive fiber strip bodies and the transverse carbon fiber strip bodies are staggered with each other.

Preferably, the both ends on graphite alkene heat release cloth surface all are equipped with equidistant electrically conductive copper wire, and the graphite alkene heat release cloth surface cover of electrically conductive copper wire one side is equipped with the location cover frame to the one end of location cover frame is equipped with the heat source wire, and the one end that the heat source wire kept away from the location cover frame extends to the inside of monitoring casing and with overheat protector's outer wall fixed connection.

Preferably, the inside of elastic construction is equipped with sponge fibre lamellar body, polyurethane design cloth piece and soft little silk screen body in proper order, the inside central point department of putting of dysmorphism fibre elasticity cloth is equipped with polyurethane design cloth piece, and the inside sponge fibre lamellar body that is equipped with of dysmorphism fibre elasticity cloth of polyurethane design cloth piece one side to polyurethane design cloth piece keeps away from the inside soft little silk screen body that is equipped with of dysmorphism fibre elasticity cloth of sponge fibre lamellar body one side.

Compared with the prior art, the beneficial effects of the utility model are that: the graphene composite heating cloth not only improves the heating effect of the heating cloth when in use, improves the safety of the heating cloth when in use, but also improves the comfort of the heating cloth when in use;

(1) the graphene heat-release cloth, the longitudinal conductive fiber strip bodies and the transverse carbon fiber strip bodies are arranged on the surface of the graphene heat-release cloth, so that the heating performance of the heat-release cloth is improved due to the good heat conduction performance of the longitudinal conductive fiber strip bodies and the transverse carbon fiber strip bodies and the good heat release performance of the graphene heat-release cloth, and the heating effect of the heat-release cloth in use is improved;

(2) the fireproof fiber insulating cloth piece, the adhesive and the glass wool piece are arranged in the cloth body, and the fireproof fiber insulating cloth piece and the glass wool piece are arranged in the cloth body through the adhesive, so that the fireproof fiber insulating cloth piece has good insulating property, the phenomenon of electric leakage is avoided, potential safety hazards existing in the fireproof fiber insulating cloth piece are eliminated, meanwhile, the glass wool piece has good toughness and strength, the fireproof fiber insulating cloth piece is prevented from being damaged due to abrasion, the insulating property of the fireproof fiber insulating cloth piece is ensured, and the safety of the heating cloth material in use is improved;

(3) through being provided with sponge fibre lamellar body, polyurethane design cloth piece and soft little screen cloth body, through the good pliability of sponge fibre lamellar body, polyurethane design cloth piece and soft little screen cloth body self, the elasticity that makes the cloth that generates heat obtains promoting, has strengthened the feel of the cloth that generates heat to the travelling comfort when the cloth that generates heat uses has been improved.

Drawings

Fig. 1 is a schematic view of the front cross-sectional structure of the present invention;

FIG. 2 is a schematic view of the insulation structure of the present invention in cross section and enlarged structure;

FIG. 3 is a schematic side view of the cross-sectional structure of the present invention;

fig. 4 is a schematic view of the elastic structure of the present invention with a sectional view and an enlarged structure.

In the figure: 1. a cloth body; 2. a longitudinal conductive fiber strip body; 3. a thermistor; 4. a transverse carbon fiber strip body; 5. an insulating structure; 501. a fire-proof fiber insulating cloth sheet; 502. a binder; 503. a glass wool sheet; 6. an overheat protector; 7. a power line; 8. monitoring the housing; 9. a heat source wire; 10. positioning a sleeve frame; 11. graphene heat release cloth; 12. a conductive copper wire; 13. profiled fiber elastic cloth; 14. an elastic structure; 1401. a sponge fibrous sheet; 1402. polyurethane sizing cloth pieces; 1403. a soft microfilament mesh body.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides an embodiment: graphene composite heating cloth, which comprises a cloth body 1, an overheat protector 6, a power line 7, a monitoring shell 8 and graphene heat-releasing cloth 11, wherein the graphene heat-releasing cloth 11 is arranged at the central position inside the cloth body 1, two ends of the surface of the graphene heat-releasing cloth 11 are respectively provided with conductive copper wires 12 at equal intervals, a positioning sleeve frame 10 is sleeved on the surface of the graphene heat-releasing cloth 11 on one side of each conductive copper wire 12, a heat source wire 9 is arranged at one end of each positioning sleeve frame 10, and one end, far away from the positioning sleeve frame 10, of each heat source wire 9 extends into the monitoring shell 8 and is fixedly connected with the outer wall of the overheat protector 6, so that heat-generating treatment can be conveniently carried out;

a monitoring shell 8 is fixed on one side of the surface of the graphene heat release cloth 11, the surface of the graphene heat release cloth 11 on one side of the monitoring shell 8 is respectively provided with longitudinal conductive fiber strip bodies 2 and transverse carbon fiber strip bodies 4 which are equidistant, and the longitudinal conductive fiber strip bodies 2 and the transverse carbon fiber strip bodies 4 are staggered with each other, so that the heating effect of the heat release cloth is improved;

an overheating protector 6 is arranged at the center position inside the monitoring shell 8, the type of the overheating protector 6 can be 17AM-K, a thermistor 3 is arranged on the outer wall of the overheating protector 6, which is far away from one side of the power line 7, and one end of the thermistor 3 extends to the outside of the monitoring shell 8, so that the current can be automatically adjusted;

a power line 7 is arranged on the outer wall of one side of the overheat protector 6, one end, far away from the overheat protector 6, of the power line 7 extends to the outside of the cloth body 1, an insulating structure 5 is arranged inside the cloth body 1, a fireproof fiber insulating cloth piece 501, an adhesive 502 and a glass wool piece 503 are sequentially arranged inside the insulating structure 5, the adhesive 502 is filled at the edge position inside the cloth body 1, the fireproof fiber insulating cloth piece 501 is pasted at the edge position inside the cloth body 1 on one side of the adhesive 502, and the glass wool piece 503 is pasted at the edge position inside the cloth body 1 on one side, far away from the fireproof fiber insulating cloth piece 501, of the adhesive 502;

the fireproof fiber insulating cloth piece 501 and the glass wool piece 503 are arranged inside the cloth body 1 through the adhesive 502, so that the fireproof fiber insulating cloth piece 501 has good insulating performance, the phenomenon of electric leakage is avoided, potential safety hazards existing in the fireproof fiber insulating cloth piece are eliminated, meanwhile, the glass wool piece 503 has good toughness strength, the fireproof fiber insulating cloth piece 501 is prevented from being damaged due to abrasion, the insulating performance of the fireproof fiber insulating cloth piece is ensured, and the safety of the heating cloth when in use is improved;

the profiled fiber elastic cloth 13 is pressed inside the cloth body 1 on one side of the graphene heat-releasing cloth 11, an elastic structure 14 is fixed inside the profiled fiber elastic cloth 13, a sponge fiber sheet 1401, a polyurethane shaping cloth 1402 and a soft micro-wire net body 1403 are sequentially arranged inside the elastic structure 14, the polyurethane shaping cloth 1402 is arranged at the central position inside the profiled fiber elastic cloth 13, the sponge fiber 1401 sheet is arranged inside the profiled fiber elastic cloth 13 on one side of the polyurethane shaping cloth 1402, and the soft micro-wire net body 1403 is arranged inside the profiled fiber elastic cloth 13 on one side, away from the sponge fiber sheet 1401, of the polyurethane shaping cloth 1402;

through the good pliability of sponge fibre lamellar body 1401, polyurethane design cloth piece 1402 and soft little screen cloth body 1403 self, the elasticity that makes the cloth that generates heat obtains promoting, has strengthened the feel of the cloth that generates heat, improves the travelling comfort when the cloth that generates heat uses.

The working principle is as follows: when the heating cloth is used, firstly, an external power supply is led in through a power line 7, the external power supply is transmitted to a positioning sleeve frame 10 through a heat source lead 9 and is received by a conductive copper wire 12 so as to be subjected to heating treatment, then, the heating temperature of the heating cloth is monitored through a thermal protector 6, the current of the heating cloth is automatically adjusted through a thermistor 3 so as to avoid the phenomenon of overhigh heating, then, the longitudinal conductive fiber strip body 2 and the transverse carbon fiber strip body 4 are arranged on the surface of the graphene heat-releasing cloth 11, the heating performance of the heating cloth is improved due to the good heat-conducting performance of the longitudinal conductive fiber strip body and the transverse carbon fiber strip body 4 and matched with the good heat-releasing performance of the graphene heat-releasing cloth 11, the heating effect of the heating cloth is improved when the heating cloth is used, then, the fireproof fiber insulating cloth piece 501 and the glass wool piece 503 are arranged inside the cloth body 1 through the adhesive, in order to avoid its phenomenon that the electric leakage appears, eliminate the potential safety hazard that its exists, the cotton piece of glass 503 has good toughness strength simultaneously, in order to avoid fire prevention fibre insulating cloth piece 501 to damage because of wearing and tearing, ensure its insulating properties, the security when the cloth use of generating heat is improved, at last through sponge fibre lamellar body 1401, polyurethane design cloth piece 1402 and the good pliability of soft little silk screen body 1403 self, the elasticity that makes the cloth that generates heat obtains promoting, the feel of the cloth that generates heat has been strengthened, the travelling comfort when the cloth use of generating heat is improved, thereby the use of the cloth that generates heat is accomplished.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. Graphite alkene complex cloth that generates heat, including cloth body (1), overheat protector (6), power cord (7), monitoring casing (8) and graphite alkene cloth (11) that release heat, its characterized in that: the utility model discloses a heat-insulating cloth, including cloth body (1), the inside central point of cloth body (1) puts the department and is equipped with graphite alkene heat release cloth (11), and the graphite alkene heat release cloth (11) one side on surface is fixed with monitoring casing (8) to the inside central point of monitoring casing (8) puts the department and is equipped with overheat protector (6), is equipped with power cord (7) on the outer wall of overheat protector (6) one side, and the one end that overheat protector (6) were kept away from in power cord (7) extends to the outside of cloth body (1), the inside of cloth body (1) is equipped with insulation system (5), and the inside pressfitting of the cloth body (1) of graphite alkene heat release cloth (11) one side has profiled fiber elastic cloth (13), and the inside of profiled fiber elastic cloth (13).

2. The graphene composite heating cloth according to claim 1, characterized in that: the inside of insulation system (5) is equipped with fire prevention fibre insulating cloth piece (501), adhesive (502) and glass wool piece (503) in proper order, the inside border position department of cloth body (1) is filled with adhesive (502), and the inside border position department of cloth body (1) of adhesive (502) one side pastes and has fire prevention fibre insulating cloth piece (501) to adhesive (502) are kept away from the inside border position department of cloth body (1) of fire prevention fibre insulating cloth piece (501) one side and are pasted and have glass wool piece (503).

3. The graphene composite heating cloth according to claim 1, characterized in that: the outer wall of one side, far away from the power line (7), of the overheating protector (6) is provided with the thermistor (3), and one end of the thermistor (3) extends to the outside of the monitoring shell (8).

4. The graphene composite heating cloth according to claim 1, characterized in that: the graphene heat release cloth (11) on one side of the monitoring shell (8) is provided with longitudinal conductive fiber strip bodies (2) and transverse carbon fiber strip bodies (4) which are arranged at equal intervals on the surface, and the longitudinal conductive fiber strip bodies (2) and the transverse carbon fiber strip bodies (4) are staggered with each other.

5. The graphene composite heating cloth according to claim 1, characterized in that: the utility model discloses a monitoring shell, including graphite alkene heat release cloth (11), graphite alkene heat release cloth (11) surface, graphite alkene heat release cloth (11) both ends on surface all are equipped with equidistant electrically conductive copper wire (12), and graphite alkene heat release cloth (11) surface cover of electrically conductive copper wire (12) one side is equipped with location cover frame (10) to the one end of location cover frame (10) is equipped with heat source wire (9), and the one end that location cover frame (10) were kept away from in heat source wire (9) extends to the inside of monitoring shell (8) and with the outer wall fixed connection of overheat protector (6).

6. The graphene composite heating cloth according to claim 1, characterized in that: the novel elastic fabric is characterized in that a sponge fiber sheet body (1401), a polyurethane shaping cloth sheet (1402) and a soft micro-wire net body (1403) are sequentially arranged inside the elastic structure (14), the polyurethane shaping cloth sheet (1402) is arranged at the center position inside the profiled fiber elastic cloth (13), the sponge fiber sheet body (1401) is arranged inside the profiled fiber elastic cloth (13) on one side of the polyurethane shaping cloth sheet (1402), and the soft micro-wire net body (1403) is arranged inside the profiled fiber elastic cloth (13) on one side of the sponge fiber sheet body (1401) away from the polyurethane shaping cloth sheet (1402).