CN113273745A

CN113273745A - Protective intelligent garment with built-in automatic temperature control mechanism

Info

Publication number: CN113273745A
Application number: CN202110595759.9A
Authority: CN
Inventors: 唐柏佳; 唐贤军
Original assignee: Shenzhen Fashion Lumisonata Technology Co ltd
Current assignee: Shenzhen Kangcheng Century Technology Co ltd
Priority date: 2021-05-29
Filing date: 2021-05-29
Publication date: 2021-08-20
Anticipated expiration: 2041-05-29
Also published as: CN113273745B

Abstract

The invention discloses a protective intelligent garment with a built-in self-temperature-control mechanism, which comprises a garment body and an inner container, wherein the inner container is positioned in the garment body, zippers are sewn at the middle parts of the front surfaces of the garment body and the inner container, an inner-layer high-temperature area and an outer-layer low-temperature area are arranged between the garment body and the inner container, the inner-layer high-temperature area and the outer-layer low-temperature area are used for separately placing a carbon fiber heating module and a grid battery pack, the upper end of the back surface of the garment body is provided with an air outlet for quickly controlling temperature, and a ventilation fan module is embedded in the air outlet. This built-in self control temperature mechanism's protective type intelligent clothing, accessible user's shoulder that contracts is embraced the chest and humanized operation such as pulling zip fastener, the activity adjustment of the movable electrode structure of tensile elastic surface department of cooperation air exit and the movable laminating piece structure of zip fastener department, when the user dresses, can carry out nimble autonomic accuse temperature adjustment according to the demand of feeling body, simple operation and hommization.

Description

Protective intelligent garment with built-in automatic temperature control mechanism

Technical Field

The invention relates to the technical field of clothes correlation, in particular to a protective intelligent garment with a built-in automatic temperature control mechanism.

Background

The temperature control clothes are provided with a corresponding temperature active adjusting device for self-temperature control adjustment besides the heat insulation structure of common clothes, common temperature control measures comprise chemical heating of a warmer, heating wire heating and the like, and parts of the temperature control clothes also adopt new materials such as a solar heating technology and a carbon fiber heating wire, so that the relatively high temperature state in the clothes can be kept through the self-heating units, and the temperature control clothes have a good warm-keeping effect.

The existing temperature control clothes, such as self-control temperature electrical heating clothes with Chinese patent publication No. CN206238527U, are heated and warmed up through an internal electric heating sheet structure, when the clothes temperature control device is used, the temperature is set according to fixed parameters, the body feeling difference of different users is large, the application occasions are also greatly different, the set parameters are inconvenient to carry out humanized temporary adjustment, if a wearer just wears clothes to feel cold, the temperature needs to be quickly raised, or when the clothes are transferred between environments with large indoor and outdoor temperature difference, the temporary humanized adjustment is inconvenient to carry out according to the requirements of the user, and the simple closed heating can easily cause stuffiness, the ventilation and the proper heat dissipation can not be flexibly controlled, and the wearing comfort of the clothes can also be influenced.

Aiming at the problems, the innovative design is carried out on the basis of the original temperature control warm-keeping clothes.

Disclosure of Invention

The invention aims to provide protective intelligent clothes with a built-in self-temperature-control mechanism, and aims to solve the problems that most of temperature-control warm-keeping clothes in the background art are only subjected to temperature rise control through a temperature-control mechanism, autonomous temporary adjustment is inconvenient to carry out according to the somatosensory requirements of users, meanwhile, simple temperature rise warm-keeping is inconvenient to carry out certain cooling ventilation control, stuffiness is easy to feel, and too high temperature is inconvenient to carry out rapid cooling.

In order to achieve the purpose, the invention provides the following technical scheme: a protective intelligent garment with a built-in temperature self-control mechanism comprises: the clothes comprise a clothes body and an inner container positioned inside the clothes body, wherein zippers are sewn in the middle of the front sides of the clothes body and the inner container;

an inner high-temperature area and an outer low-temperature area are arranged between the clothes body and the inner container;

the inner-layer high-temperature area and the outer-layer low-temperature area are used for separately placing the carbon fiber heating module and the grid battery pack;

an air outlet for rapid temperature control is formed in the upper end of the back of the clothes body, and a ventilation fan module is embedded in the air outlet.

Preferably, the inner layer and the outer layer of the inner-layer high-temperature area and the outer-layer low-temperature area are respectively a garment inner liner layer and a garment outer protective layer, the inner-layer high-temperature area and the outer-layer low-temperature area are mutually separated through a garment inner interlayer, and the surfaces of the garment inner liner layer and the garment inner interlayer are respectively provided with a ventilation hole.

Preferably, the garment lining layer is woven by cotton yarns, and the garment outer protective layer and the garment inner interlayer are made of polyethylene material blended polyurethane serving as protective fabrics.

Preferably, the upper end of the air outlet is sewed with a movable windproof surface, the left side and the right side of the movable windproof surface are sewed with the air outlet through a stretching elastic surface, and the heights of the air outlet and the movable windproof surface are equal to the height of the joint of sleeves of the clothes body.

Preferably, the carbon fiber heating module comprises a heating carbon fiber wire, an overheat protection switch, a movable electrode, a connecting rod, a fitting resistor, a positive connector and a negative connector, and the heating carbon fiber wire is distributed in a snake shape in an inner-layer high-temperature area.

Preferably, the movable electrode forms a sliding structure at the side of the attaching resistor, the movable electrode and the attaching resistor are respectively connected to the left end and the right end of the stretching elastic surface, and a connecting rod is connected between the side end of the stretching elastic surface and the movable electrode.

Preferably, the positive electrode joint and the negative electrode joint are respectively and electrically connected with the movable electrode and the laminating resistor, meanwhile, the positive electrode joint, the negative electrode joint and the heating carbon fiber integrally form a current path, and an overheating protection switch is further arranged among the positive electrode joint, the negative electrode joint and the grid battery pack.

Preferably, the grid battery pack comprises a square battery panel and a double-sided sewing protective layer, the double-sided sewing protective layer is made of high molecular weight polyethylene plain cloth, two sides of the double-sided sewing protective layer are sewn in a grid shape, the square battery panel is correspondingly arranged in a grid structure of the double-sided sewing protective layer, and circuits among the square battery panels are connected in parallel to form the high-capacity battery pack.

Preferably, the scavenger fan module includes small-size fan, contact control switch, activity spacing groove, activity laminating piece, activity spout and supporting spring, and constitutes circuit connection through contact control switch between small-size fan and the net group battery, and contact control switch's two poles of the earth contact paster is located the side of activity laminating piece and activity spout respectively, and the inboard of activity laminating piece at the activity spout constitutes sliding structure simultaneously, and laminates each other through supporting spring between the side of activity laminating piece and activity spout.

Preferably, the movable limiting groove is positioned at the upper half section of the whole zipper, a clamping limiting structure is formed between the movable limiting groove and the pull buckle of the zipper, and the movable limiting groove and the movable attaching piece are pushed in a limiting mode to integrally and synchronously break the contact control switch.

Compared with the prior art, the invention has the beneficial effects that: the protective intelligent garment with the built-in self-temperature-control mechanism,

1. the device can synchronously regulate and control the rapid temperature rise of the carbon fiber heating module through the humanized action of shoulder contraction and chest holding caused by the fact that a user feels cold, can elastically stretch along with the stretching action of the shoulder of the user by arranging the movable windproof surface with the stretching elastic surface at the air outlet, avoids tightening during large-amplitude movement, simultaneously straightens the movable windproof surface to synchronously attach and seal the air outlet, can synchronously drive the two sides of the stretching elastic surface to generate relative displacement along with the elastic stretching deformation of the stretching elastic surface, pulls the sliding displacement of the movable electrode at the attachment resistor through the connecting rod, enables the effect of variable resistance to be achieved between the movable electrode and the attachment resistor, and synchronously adjusts the series resistance of the carbon fiber heating module, thereby flexibly controlling the heating power of the heating carbon fiber wire and facilitating the temperature control adjustment of the wearable humanized action;

2. the movable attaching piece is provided with a movable opening and closing adjusting synchronous control ventilation fan module which can be matched with the zipper, in the wearing and using process of clothes, a common user can open or close the zipper according to cold and hot, when the user feels that the temperature is low and pulls the zipper, the zipper can be clamped at the movable limiting groove of the movable attaching piece, so that the movable attaching piece and the supporting spring are pushed, the contact control switch is switched off, the ventilation fan module stops working in time, when the user feels stuffy and needs to ventilate and pull the zipper or actively make the zipper deviate from the movable limiting groove, the contact control switch can keep attaching and electrifying under the action of the supporting spring, the ventilation fan module can ventilate and radiate, and the device is convenient to carry out flexible humanized control.

Drawings

FIG. 1 is a schematic view of a partial cross-sectional structure of a garment body according to the present invention;

FIG. 2 is a schematic front view of the present invention;

FIG. 3 is an enlarged view of a portion a of FIG. 2 according to the present invention;

FIG. 4 is a schematic structural view of the movable limiting groove of the present invention when it is attached to a zipper;

FIG. 5 is a schematic side sectional view of the contact control switch of the present invention when turned on;

FIG. 6 is a schematic side sectional view of the contact control switch of the present invention during breaking;

FIG. 7 is a schematic view of the backside structure of the present invention;

FIG. 8 is a schematic front cross-sectional structural view of a movable electrode and a bonded resistor in accordance with the present invention;

FIG. 9 is a schematic side sectional view of a movable electrode and a bonding resistor according to the present invention.

In the figure: 1. a coat body; 2. an inner container; 3. a zipper; 4. an inner high temperature zone; 5. an outer low temperature zone; 6. a carbon fiber heating module; 61. heating carbon fiber filaments; 62. an overheat protection switch; 63. a movable electrode; 64. a connecting rod; 65. attaching a resistor; 66. a positive electrode tab; 67. a negative terminal; 7. a grid battery pack; 71. a square battery plate; 72. the protective layer is sewn on the two sides; 8. an air outlet; 9. a ventilator module; 91. a small fan; 92. a contact control switch; 93. a movable limiting groove; 94. a movable fitting piece; 95. a movable chute; 96. a support spring; 10. a garment inner liner; 11. an outer protective layer of the garment; 12. an inner garment interlayer; 13. a vent hole; 14. a movable windproof surface; 15. stretching the elastic surface.

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.

Referring to fig. 1-9, the present invention provides a technical solution: a protective intelligent garment with a built-in temperature self-control mechanism comprises: the clothes comprise a clothes body 1 and an inner container 2 positioned inside the clothes body 1, and a zipper 3 is sewn in the middle of the front sides of the clothes body 1 and the inner container 2.

An inner high-temperature area 4 and an outer low-temperature area 5 are arranged between the clothes body 1 and the inner container 2. The carbon fiber heating module 6 and the grid battery pack 7 are separately placed through the inner-layer high-temperature area 4 and the outer-layer low-temperature area 5, and the functions of heat insulation and layered protection are achieved.

An air outlet 8 for quickly controlling the temperature is formed in the upper end of the back of the clothes body 1, and a ventilator module 9 is embedded in the air outlet 8, so that the temperature can be controlled through quick circulation and adjustment of airflow control.

The interior inlayer of inlayer high temperature zone 4 and outer low temperature zone 5 is clothing inner liner 10 and clothing outer protective layer 11 respectively, and separates each other through clothing interlining 12 between inlayer high temperature zone 4 and the outer low temperature zone 5, and ventilation hole 13 has all been seted up on the surface of clothing inner liner 10 and clothing interlining 12, when keeping regionally-separated protective structure, ventilation hole 13 cooperation outside scavenger fan module 9 of clothing inner liner 10 and clothing interlining 12 department, can keep certain ventilation heat transfer when needing.

The garment inner liner layer 10 is woven by cotton yarns, meanwhile, the garment outer protective layer 11 and the garment inner interlayer 12 are made of polyethylene material blended polyurethane serving as protective fabric, the inner cotton fabric layer has good comfort and heat preservation effects, and the outer blended fabric layer can keep a certain memory appearance and simultaneously play protective roles of outer scratch prevention and the like.

The upper end of the air outlet 8 is sewed with a movable windproof surface 14, the left side and the right side of the movable windproof surface 14 are sewed with the air outlet 8 through a stretching elastic surface 15, the heights of the air outlet 8 and the movable windproof surface 14 are equal to the height of the sleeve joint of the clothes body 1, the stretching elastic surface 15 arranged at the height of the shoulder can provide enough stretching deformation quantity in occasions of warming the two arms of a wearer in an encircling mode, the situation that the arms cannot stretch when the clothes are worn is avoided, the comfort of the clothes is improved, and the movable windproof surface 14 is pulled to be attached to the air outlet 8 synchronously by stretching the stretching elastic surface 15, so that the air outlet 8 is attached and sealed, and the outflow of internal hot air is reduced.

The carbon fiber heating module 6 comprises a heating carbon fiber wire 61, an overheating protection switch 62, a movable electrode 63, a connecting rod 64, a fitting resistor 65, an anode connector 66 and a cathode connector 67, the heating carbon fiber wire 61 is distributed in a snake shape in the inner-layer high-temperature area 4, and the inner layer of the clothes can directly serve as a heating source through the heating carbon fiber wire 61 to achieve the effect of rapid heating.

The movable electrode 63 forms a sliding structure at the side of the attaching resistor 65, the movable electrode 63 and the attaching resistor 65 are respectively connected to the left end and the right end of the stretching elastic surface 15, and meanwhile, a connecting rod 64 is further connected between the side end of the stretching elastic surface 15 and the movable electrode 63, so that the connecting rod 64 and the movable electrode 63 can be synchronously pulled when the stretching elastic surface 15 stretches, the movable electrode 63 is adjusted in relative displacement at the attaching resistor 65, and heating of the variable-resistor control heating carbon fiber filament 61 is formed.

The positive electrode connector 66 and the negative electrode connector 67 are respectively electrically connected with the movable electrode 63 and the attaching resistor 65, meanwhile, the positive electrode connector 66, the negative electrode connector 67 and the heating carbon fiber wire 61 integrally form a current path, an overheating protection switch 62 is further installed between the positive electrode connector 66, the negative electrode connector 67 and the grid battery pack 7, the voltage and the power of the heating carbon fiber wire 61 are synchronously adjusted through the variable resistor adjustment of the attaching resistor 65 in the current path which is integrally connected in series, and therefore when a user feels cold and does the holding action of the two hands of the curling shoulder, the heating carbon fiber wire 61 is synchronously controlled to rapidly heat and warm.

The grid battery pack 7 comprises a square battery plate 71 and a double-sided stitching protective layer 72, the double-sided stitching protective layer 72 is made of high molecular weight polyethylene plain cloth, the two sides of the double-sided stitching protective layer 72 are stitched in a latticed manner, the square battery plate 71 is correspondingly arranged in a grid structure of the double-sided stitching protective layer 72, circuits between the square battery plates 71 are connected in parallel to form a high-capacity battery pack, the square battery plates 71 distributed in a latticed manner can be connected in series to supply power to the high-capacity battery pack, and the double-sided stitching protective layer 72 made of a metal structure matched with the high molecular weight polyethylene material of the battery plates can play an effective anti-cutting protective role.

The ventilator module 9 includes a small fan 91, a contact control switch 92, a movable limiting groove 93, a movable fitting piece 94, a movable sliding groove 95 and a support spring 96, and the small fan 91 and the grid battery pack 7 form a circuit connection through the contact control switch 92, and two pole contact patches of the contact control switch 92 are respectively located at the side ends of the movable fitting piece 94 and the movable sliding groove 95, and meanwhile, the movable fitting piece 94 forms a sliding structure at the inner side of the movable sliding groove 95, and the movable fitting piece 94 and the side end of the movable sliding groove 95 are mutually fitted through the support spring 96, and in a natural state, the two pole contact patches of the contact control switch 92 can be kept fitted and powered on under the elastic support of the support spring 96, so that a current path is formed between the ventilator module 9 and the grid battery pack 7 to keep ventilation.

The movable limiting groove 93 is positioned at the upper half section of the whole zipper 3, a clamping limiting structure is formed between the movable limiting groove 93 and the pull buckle of the zipper 3, the movable limiting groove 93 and the movable attaching piece 94 are pushed in a limiting mode to integrally and synchronously break the contact control switch 92, synchronous control of the movable structure of the zipper 3 is introduced at the position of the contact control switch 92, therefore, when a user is cold and pulls the zipper 3, the zipper 3 is clamped at the position of the contact control switch 92, the current path of the ventilation fan module 9 is broken, the outflow of hot air flow at the inner layer is reduced, the clamping limiting of the zipper 3 is pulled open or withdrawn at the position of the user when the user is hot, the contact control switch 92 is automatically switched on, and the power-on heat dissipation of the ventilation fan module 9 is kept.

The working principle is as follows: when the protective intelligent garment with the built-in self-temperature-control mechanism is used, the whole garment body 1 can be normally worn according to the figures 1-9, the internal carbon fiber heating module 6 and the ventilator module 9 supply energy, work and control temperature through the grid battery pack 7, the cotton garment inner liner layer 10 of the inner liner 2 keeps good wearing comfort, meanwhile, the blended garment outer protective layer 11 of the garment body 1 and the double-sided sewing protective layer 72 made of high polymer materials at the grid battery pack 7 have good anti-cutting protective effects, and sufficient protective effects can be provided under special conditions.

In the wearing process of the clothing, a user can automatically select to open and close the zipper 3 according to the ambient temperature and the cold and hot conditions of the user, when the user opens the zipper 3 to radiate heat in a hot state, the two pole patches of the contact control switch 92 of the ventilator module 9 can be kept attached and conductive under the elastic support of the support spring 96 as shown in fig. 5, so that the hot air flow of the inner high-temperature area 4 can be quickly exhausted and radiated through the vent holes 13 and the exhaust holes 8, when the user pulls the zipper 3, the zipper 3 can be pulled to the position of the movable attaching piece 94 according to the heat radiation or heat preservation use requirements, no additional operation is needed when the ventilation is needed, the zipper 3 can be pulled at will, when the circuit of the ventilator module 9 is needed to be switched off for heat preservation, the zipper 3 can be pulled to the positions such as the movable attaching piece 94 as shown in fig. 4, the support spring 96 is compressed by pulling the movable attaching piece 94, the movable limiting groove 93 keeps the limiting clamping of the zipper 3 puller in a fit mode, meanwhile, the contact control switch 92 in the movable sliding groove 95 keeps circuit disjunction as shown in fig. 6, adaptability adjustment is directly carried out through the zipper 3, and the operation is convenient and humanized.

When a user feels cold and takes heating actions such as curling, shoulder and arm embracing, etc., due to the large-amplitude movement of the shoulder, the clothes body 1 and the stretching elastic surface 15 at the position can be pulled in the direction shown in fig. 7, the adaptive stretching of the stretching elastic surface 15 can avoid the action of comfortable users, meanwhile, the stretching elastic surface 15 can also generate certain deformation to synchronously cause the relative displacement of two sides of the stretching elastic surface 15, the movable electrode 63 at the position of the joint resistor 65 is pulled through the connecting rod 64, because the positive electrode connector 66 and the negative electrode connector 67 are respectively connected with the side end of the joint resistor 65 and the movable electrode 63, the electrified resistance value area of the joint resistor 65 is adjusted through the sliding adjustment of the movable electrode 63 at the position of the joint resistor 65, when the movable electrode 63 slides outwards, the electrified resistance value of the joint resistor 65 is synchronously reduced, so that the resistance value of the heating carbon fiber 61 connected in series is reduced, the power of the heating carbon fiber wire 61 is increased, so that rapid heating and warm keeping are performed, when a user feels warm and loosens two arms, the movable electrode 63 resets, and the garment automatically restores to a normal state, which is the working principle of the protective intelligent garment with the built-in self-temperature-control mechanism, and the content which is not described in detail in the specification belongs to the prior art which is known by professional technicians in the field.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. A protective intelligent garment with a built-in temperature self-control mechanism comprises: the clothing body and the inner bag that is located clothing body inside, and the front middle part of clothing body and inner bag is sewed up there is the zip fastener, its characterized in that:

2. The protective intelligent garment with the built-in self-temperature-control mechanism as claimed in claim 1, wherein: the inner layer and the outer layer of the inner layer high-temperature area and the outer layer low-temperature area are respectively a garment inner liner layer and a garment outer protective layer, the inner layer high-temperature area and the outer layer low-temperature area are mutually separated through a garment inner interlayer, and the surfaces of the garment inner liner layer and the garment inner interlayer are provided with ventilation holes.

3. The protective intelligent garment with the built-in self-temperature-control mechanism as claimed in claim 2, wherein: the inner lining layer of the garment is woven by cotton yarns, and meanwhile, the outer protective layer of the garment and the inner interlayer of the garment both adopt polyethylene material blended polyurethane as protective fabrics.

4. The protective intelligent garment with the built-in self-temperature-control mechanism as claimed in claim 1, wherein: the upper end of the air outlet is sewed with a movable windproof surface, the left side and the right side of the movable windproof surface are sewed with the air outlet through a stretching elastic surface, and the heights of the air outlet and the movable windproof surface are equal to the height of the joint of sleeves of the clothes body.

5. The protective intelligent garment with the built-in self-temperature-control mechanism as claimed in claim 1, wherein: the carbon fiber heating module comprises a heating carbon fiber wire, an overheat protection switch, a movable electrode, a connecting rod, a fitting resistor, an anode joint and a cathode joint, and the heating carbon fiber wire is distributed in a snake shape in an inner-layer high-temperature area.

6. The protective intelligent garment with the built-in self-temperature-control mechanism, according to claim 5, is characterized in that: the movable electrode forms a sliding structure at the side of the attaching resistor, the movable electrode and the attaching resistor are respectively connected to the left end and the right end of the stretching elastic surface, and a connecting rod is connected between the side end of the stretching elastic surface and the movable electrode.

7. The protective intelligent garment with the built-in self-temperature-control mechanism, according to claim 5, is characterized in that: the positive electrode joint and the negative electrode joint are respectively electrically connected with the movable electrode and the laminating resistor, meanwhile, the positive electrode joint, the negative electrode joint and the heating carbon fiber integrally form a current path, and an overheat protection switch is further arranged among the positive electrode joint, the negative electrode joint and the grid battery pack.

8. The protective intelligent garment with the built-in self-temperature-control mechanism as claimed in claim 1, wherein: the grid battery pack comprises a square battery board and a double-sided sewing protective layer, the double-sided sewing protective layer is made of high molecular weight polyethylene plain cloth, two sides of the double-sided sewing protective layer are sewn in a latticed mode, the square battery board is correspondingly arranged in a grid structure of the double-sided sewing protective layer, and meanwhile circuits between the square battery boards are connected in parallel to form the high-capacity battery pack.

9. The protective intelligent garment with the built-in self-temperature-control mechanism as claimed in claim 1, wherein: the scavenger fan module includes small-size fan, contact control switch, activity spacing groove, activity laminating piece, activity spout and supporting spring, and constitutes circuit connection through contact control switch between small-size fan and the net group battery, and contact control switch's two poles of the earth contact paster is located the side of activity laminating piece and activity spout respectively, and the activity laminating piece constitutes sliding structure in the inboard of activity spout simultaneously, and laminates through supporting spring each other between the side of activity laminating piece and activity spout.

10. The protective intelligent garment with the built-in self-temperature-control mechanism as claimed in claim 9, wherein: the movable limiting groove is positioned on the upper half section of the whole zipper, a clamping limiting structure is formed between the movable limiting groove and the pull buckle of the zipper, and the movable limiting groove and the movable attaching piece are pushed in a limiting mode to integrally and synchronously break the contact control switch.