CN215303158U - Intelligent constant temperature vest - Google Patents

Abstract

The utility model discloses an intelligent constant-temperature waistcoat which comprises a waistcoat body and a heating device, wherein the waistcoat body is composed of a waistcoat outer layer and a waistcoat inner layer, the waistcoat outer layer is formed by sewing diving fabric, and the waistcoat inner layer is formed by sewing graphene fabric; heating device locates between outer and the vest inlayer of vest and wholly is located the back of vest body, heating device includes several carbon fiber graphite alkene piece that generates heat, carbon fiber graphite alkene generates heat the piece through first wire and locate the thermostatic control ware electricity of vest body chest position and be connected, thermostatic control ware draws forth the second wire again and extends to the pocket that is located vest body abdomen one side position, a portable power source can be put into in this pocket in the adaptation, the end connection of second wire can with portable power source adaptation connection. The utility model can ensure that the inside of the waistcoat is basically constant in temperature, improve the comfort level of wearing personnel, and simultaneously has the health care functions of promoting the metabolism of a human body, regulating the channels and collaterals and improving the microcirculation of the human body.

Description

Intelligent constant temperature vest

Technical Field

The utility model relates to the technical field of garment design, in particular to an intelligent constant-temperature waistcoat.

Background

The vest is a collar-free, sleeveless and short coat. The main functions are to keep the temperature of the front and back chest areas and facilitate the activities of both hands. It can be worn inside the outer garment or outside the inner garment. The main varieties include western-style clothes waistcoats, down jackets, fur jackets and the like with various shapes. The modern waistcoat is in a pullover type and open front type according to a wearing method; the waist-tightening type, the straight waist type and the like are arranged according to the appearance of the clothes body; the collar-pressing type has a collar, a stand collar, a turn collar, a lapel and the like.

In winter, particularly in winter in northern or severe cold areas, people need to wrap thick cotton clothes or down coats to resist severe cold, but too thick clothes severely limit various activities of people, and the bloated and swollen appearance is very subject to the problem of scaling of beauty-lovers, and especially in some formal outdoor occasions, people need to wear a single thin garment to keep the beautiful and dry and exercise image of the clothes, and at the moment, the clothes are very needed, so that the clothes are not thick, and the cold-proof requirements of people can be met. And the vest can just meet this requirement. However, the existing waistcoat is only formed by processing fabric, can only be worn as common clothes, has single function, cannot realize the effects of self-heating and constant temperature keeping, does not have any health care function, and is difficult to meet the requirements of people.

Therefore, providing an intelligent constant temperature vest to overcome the above-mentioned drawbacks of the prior art becomes a problem that needs to be solved by those skilled in the art.

SUMMERY OF THE UTILITY MODEL

In view of the above, the utility model provides an intelligent constant-temperature waistcoat, which has the following specific technical scheme:

an intelligent constant-temperature waistcoat comprises a waistcoat body and a heating device, wherein the waistcoat body is composed of a waistcoat outer layer and a waistcoat inner layer, the waistcoat outer layer is formed by sewing a diving fabric, and the waistcoat inner layer is formed by sewing a graphene fabric; the heating device is arranged between the waistcoat outer layer and the waistcoat inner layer and is integrally positioned at the back of the waistcoat body, the heating device comprises a plurality of carbon fiber graphene heating sheets, the carbon fiber graphene heating sheets are electrically connected with a constant temperature controller arranged at the chest position of the waistcoat body through a first lead, a second lead is led out from the constant temperature controller and extends into a pocket positioned at one side of the waist and abdomen of the waistcoat body, a mobile power supply can be placed in the pocket in a matched mode, and the end connector of the second lead can be connected with the mobile power supply in a matched mode; the constant temperature controller is electrically connected with a control button, and the control button is exposed outside the chest of the vest body; the first lead and the second lead are both arranged between the outer waistcoat layer and the inner waistcoat layer.

The beneficial effect of adopting above-mentioned technical scheme is: according to the utility model, the carbon fiber graphene heating sheets are arranged between the outer layer and the inner layer of the waistcoat, so that safe and uniform heating can be realized, the temperature inside the waistcoat is basically constant, the comfort level of a wearer is improved, and meanwhile, the carbon fiber graphene heating sheets can generate far infrared photon energy of 5-15 microns, so that an 'internal heat effect' is formed, the blood circulation of the back and the waist is accelerated, the metabolism is promoted, the channels and collaterals are regulated, and the health care effects of improving the microcirculation of a human body, conditioning the deficiency of the kidney, regulating the intestines and stomach, moving and preserving heat and the like are realized.

In addition, the fabric of the outer layer of the waistcoat is designed into the diving fabric, so that the waistcoat has the characteristics of water resistance, heat preservation, shock resistance and falling resistance; by designing the fabric of the inner layer of the waistcoat into the graphene fabric, the waistcoat has outstanding anti-static performance, extremely strong stretching degree and strength, and good antibacterial property and health care effect.

Preferably, the diving fabric is an inner punching environment-friendly diving fabric. The fabric has the characteristics of strong air permeability, light weight, complete surface, high firmness, pressure resistance, shock resistance and heat preservation.

Preferably, a terahertz energy chip is further arranged at the position of the back vest between the waistcoat outer layer and the waistcoat inner layer.

The terahertz energy chip is made of nanoparticles capable of releasing terahertz waves, the wavelength of terahertz waves emitted by the nanoparticles is 4-20 um, and the terahertz waves in the wavelength range are suitable for a human body and are easily absorbed by the human body so as to rapidly promote blood circulation and get through channels and collaterals. The terahertz energy chip can stably, durably and effectively radiate terahertz waves suitable for human body wavelength to achieve the purpose of health care.

Preferably, the plurality of carbon fiber graphene heating sheets comprise a carbon fiber graphene heating sheet positioned above the rear vest and two carbon fiber graphene heating sheets positioned at the back waist position.

Preferably, the thermostatic controller comprises a single-chip microcomputer module and a temperature measuring module electrically connected with the single-chip microcomputer module, the temperature measuring module is arranged between the outer layer of the waistcoat and the inner layer of the waistcoat, the temperature measuring module feeds back the temperature inside the waistcoat body to the single-chip microcomputer module, and the single-chip microcomputer module automatically controls the carbon fiber graphene heating sheet to be opened or closed.

Preferably, still include in the thermostatic control ware with the wireless module that the single chip module electricity is connected, wireless module includes one or more combination in bluetooth module, wiFi module and the mobile communication module to APP on the cell-phone carries out remote intelligent control to it.

Preferably, the control button can control the thermostatic controller to switch different thermostatic modes.

Preferably, the constant temperature mode comprises four temperature modes of 40 ℃, 45 ℃, 50 ℃ and 55 ℃.

Preferably, the thermostatic controller, the first lead and the second lead are all wrapped by waterproof materials. The waterproof material can realize effective waterproof protection to thermostatic control ware and wire, can avoid the water in the environment to cause destruction to its inner structure, has effectively guaranteed its stability in practical application.

The intelligent constant-temperature waistcoat has the effects of constant-temperature comfort, warm keeping, health care and health preservation, can be heated at any time and any place, is convenient to use and wear, and is suitable for being used in multiple occasions such as daily wearing in winter or long-time outdoor work.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

Fig. 1 is a schematic front structure view of the intelligent constant-temperature vest of the utility model.

Fig. 2 is a schematic diagram of the back structure of the intelligent constant-temperature vest.

Fig. 3 is a back overall view of the intelligent constant temperature vest of the present invention.

Wherein, in the figure,

the device comprises a vest outer layer 1, a vest inner layer 2, a carbon fiber graphene heating sheet 3, a first lead 4, a second lead 5, a pocket 6, a mobile power supply 7, a control button 8 and a terahertz energy chip 9.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The intelligent thermostatic vest in the embodiment of the present invention is described in detail below with reference to fig. 1-3.

Example (b):

as shown in fig. 1-3, the intelligent constant-temperature vest provided by the embodiment of the utility model comprises a vest body and a heating device, wherein the vest body is composed of a vest outer layer 1 and a vest inner layer 2, the vest outer layer 1 is made of diving fabric by sewing, and the vest inner layer 2 is made of graphene fabric by sewing.

The waistcoat outer layer 1 and the waistcoat inner layer 2 are both formed by cutting and sewing four pieces of cloth, and have the characteristics of body shaping, comfort, attractiveness and elegant appearance.

The diving fabric adopted by the waistcoat outer layer 1 has the characteristics of water resistance, wear resistance, good elasticity, difficult deformation, dust prevention, static prevention and scratch prevention. The graphene fabric adopted by the vest inner layer 2 has outstanding antistatic performance, extremely strong stretching degree and strength, and good elasticity; the graphene fabric has good antibacterial and bacteriostatic properties, is free from toxicity, and has excellent wearing experience in skin-friendly and comfortable feeling after being made into clothes; the graphene fabric can be worn next to the skin, and has a good health-care effect.

Heating device locates between outer 1 of vest and the vest inlayer 2 and wholly is located the back of vest body, heating device includes several carbon fiber graphite alkene piece 3 that generates heat, these carbon fiber graphite alkene generate heat piece 3 through first wire 4 with locate the thermostatic control ware electricity of vest body chest position and be connected, thermostatic control ware draws forth second wire 5 again and extends to the pocket 6 that is located vest body abdomen one side position, a portable power source 7 can be put into to the adaptation in this pocket 6, the end connection of second wire 5 can with portable power source 7 adaptation connection.

The mobile power supply 7 in the embodiment is a special power supply for a 7.4V heating garment, is a high-density lithium battery, has the advantages of fast heat supply, sufficient capacity, low internal resistance and stable voltage, and can be recycled for 500 times. This portable power source 7 is inside still to be provided with the protection shield, has overcharge overdischarge protection, ensures the power safe handling. The mobile power supply 7 can be wrapped by soft cloth and is comfortable and portable.

Still can further design the interface that charges of other forms among the above-mentioned portable power source 7 to other mobile terminals such as cell-phone are charged as charging the treasured conveniently.

The thermostatic controller is electrically connected with a control button 8, and the control button 8 is exposed outside the front chest of the vest body, so that the operation of people is facilitated; the first conducting wire 4 and the second conducting wire 5 are hidden between the waistcoat outer layer 1 and the waistcoat inner layer 2.

Furthermore, a terahertz energy chip 9 is arranged at the back center position between the waistcoat outer layer 1 and the waistcoat inner layer 2, and the terahertz energy chip 9 can stably, durably and effectively radiate terahertz waves suitable for human body wavelength without power supply, so that the health-care effects of promoting blood circulation and getting through meridians are achieved.

In order to further optimize the technical scheme, the inner punching environmental protection level diving fabric is preferably used as the diving fabric, and the fabric has the characteristics of strong air permeability, light weight, complete surface, high firmness, pressure resistance, shock resistance and heat preservation.

In order to further optimize the technical scheme, the plurality of carbon fiber graphene heating sheets 3 comprise a carbon fiber graphene heating sheet 3 positioned above the rear vest and two carbon fiber graphene heating sheets 3 positioned at the back waist position, so that the uniformity of heating of all parts of the body of people is ensured, and the effects of comfort, heat preservation and health care are achieved.

In order to further optimize the technical scheme, the thermostatic controller comprises a single-chip microcomputer module and a temperature measuring module electrically connected with the single-chip microcomputer module, the temperature measuring module is arranged between the outer layer 1 of the waistcoat and the inner layer 2 of the waistcoat, the temperature inside the waistcoat body is fed back to the single-chip microcomputer module by the temperature measuring module, and the single-chip microcomputer module automatically controls the opening and closing of the carbon fiber graphene heating sheet 3.

In order to further optimize the technical scheme, the thermostatic controller further comprises a wireless module electrically connected with the single chip microcomputer module, and the wireless module comprises one or more combinations of a Bluetooth module, a WiFi module and a mobile communication module and is convenient to connect with a mobile phone APP.

In order to further optimize the above technical solution, the control button 8 can control the thermostat control to switch between different thermostat modes. Specifically, the constant temperature mode includes four temperature modes of 40 ℃, 45 ℃, 50 ℃, 55 ℃, and after vest internal temperature reached preset temperature value, carbon fiber graphite alkene generate heat piece 3 can the automatic shutdown heating to reach the power saving purpose, extension live time.

In order to further optimize the technical scheme, the thermostatic controller, the first lead 4 and the second lead 5 are wrapped by waterproof materials so as to ensure the stable operation of the thermostatic controller.

The specific use method of the utility model is as follows: firstly, the end joint of the second lead 5 is connected with the mobile power supply 7 to realize electrification, and the mobile power supply 7 can be always placed in the pocket 6 at the front end of the waistcoat body to continuously supply power; then the control button 8 that the operation is located vest body chest position starts carbon fiber graphite alkene piece 3 that generates heat, makes it constantly produce the heat, presses control button 8 through the short time and still can realize the switching between the different constant temperature modes to adjust the temperature of vest inside to the degree that wearer self adapted.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (9)

1. The intelligent constant-temperature waistcoat is characterized by comprising a waistcoat body and a heating device, wherein the waistcoat body is composed of a waistcoat outer layer (1) and a waistcoat inner layer (2), the waistcoat outer layer (1) is made of diving fabric, and the waistcoat inner layer (2) is made of graphene fabric; the heating device is arranged between the waistcoat outer layer (1) and the waistcoat inner layer (2) and is integrally positioned at the back of the waistcoat body, the heating device comprises a plurality of carbon fiber graphene heating sheets (3), the carbon fiber graphene heating sheets (3) are electrically connected with a constant temperature controller arranged at the chest front position of the waistcoat body through first wires (4), a second wire (5) is led out from the constant temperature controller and extends into a pocket (6) positioned at one side of the waist and abdomen part of the waistcoat body, a mobile power supply (7) can be placed in the pocket (6) in an adaptive mode, and an end connector of the second wire (5) can be connected with the mobile power supply (7) in an adaptive mode; the thermostatic controller is electrically connected with a control button (8), and the control button (8) is exposed outside the front chest of the vest body; the first lead (4) and the second lead (5) are arranged between the waistcoat outer layer (1) and the waistcoat inner layer (2).

2. The intelligent constant-temperature vest of claim 1, wherein the diving fabric is an inner-punched environment-friendly diving fabric.

3. The intelligent thermostatic waistcoat as claimed in claim 1, characterized in that a terahertz energy chip (9) is further arranged at the position of the back center between the waistcoat outer layer (1) and the waistcoat inner layer (2).

4. The intelligent thermostatic vest of claim 1, wherein the plurality of carbon fiber graphene heating sheets (3) comprise one carbon fiber graphene heating sheet (3) located above the back vest and two carbon fiber graphene heating sheets (3) located at the back waist position.

5. The intelligent constant-temperature waistcoat as claimed in claim 1, wherein a single-chip microcomputer module and a temperature measuring module electrically connected with the single-chip microcomputer module are arranged in the constant-temperature controller, the temperature measuring module is arranged between the outer waistcoat layer (1) and the inner waistcoat layer (2), the temperature measuring module feeds back the temperature inside the waistcoat body to the single-chip microcomputer module, and the single-chip microcomputer module automatically controls the carbon fiber graphene heating sheet (3) to be opened and closed according to the temperature measuring module.

6. The intelligent constant-temperature vest of claim 5, further comprising a wireless module electrically connected with the single-chip microcomputer module, wherein the wireless module comprises one or more of a Bluetooth module, a WiFi module and a mobile communication module.

7. The intelligent thermostatic vest of claim 1 or 5, wherein the control buttons (8) are capable of controlling the thermostatic control to switch between different thermostatic modes.

8. The intelligent thermostatic vest of claim 7, wherein the constant temperature modes include four temperature modes of 40 ℃, 45 ℃, 50 ℃, 55 ℃.

9. The intelligent thermostatic vest of claim 1, wherein the thermostatic control, the first wire (4) and the second wire (5) are all wrapped with waterproof material.

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