CN213215375U - Heatable suit - Google Patents

Abstract

The utility model discloses a heatable suit, including the suit body, heating system, the suit body includes the clothing body, correspond and set up in the coat-sleeve of clothing body both sides, heating system includes the heating unit, a microprocessor, a temperature sensor for detecting clothing body temperature, wherein, clothing body both sides have the clothing body thermal-insulated subassembly that extends to the waist by armpit portion, the thermal-insulated subassembly of coat-sleeve internal configuration coat-sleeve, the heating unit is including setting up in the first heating element of clothing body thermal-insulated subassembly, set up in the second heating element of the thermal-insulated subassembly of coat-sleeve, and with first heating element, the heating switch that the second heating element is connected, microprocessor and temperature sensor, the heating unit is connected. The first heating assembly and the second heating assembly are controlled to heat by the microprocessor according to the temperature of the suit body obtained by the temperature sensor, so that the suit body is uniformly heated, and the suit body heat insulation assembly and the sleeve heat insulation assembly have a warm keeping effect and are used for solving the problem of poor warm keeping performance of the suit.

Description

Heatable suit

Technical Field

The utility model relates to the technical field of clothing, concretely relates to heatable suit.

Background

Because the temperature is lower in winter, generally wear sweater in the suit, match the overcoat outside the suit, or choose suit that the warm keeping performance such as cashmere is better to reach the effect of keeping warm. However, the suit fabric is suitable for being worn in winter, and is high in price; however, the sweater worn in the suit or the coat worn outside the suit cannot be applied to business places, and the suit is too bulky to wear, which not only affects the image of the wearer, but also causes inconvenience in movement. Most of the existing western-style clothes do not have a heating function, and even if the existing western-style clothes are matched with other heating devices suitable for being additionally arranged inside the clothes, the existing western-style clothes are poor in heat preservation performance because the heating devices cannot be assembled in combination with the overall structure of the western-style clothes, and the situation that the heating is uneven or the western-style clothes are too abrupt in appearance occurs.

Disclosure of Invention

An object of the utility model is to provide a heatable suit sets up the heating system who is used for heating for the suit body, detects clothing body temperature through temperature sensor, heats according to the first heating element of clothing body temperature control, second heating element by microprocessor, and then carries out the even heating to the clothing body, and clothing body thermal-insulated subassembly, coat-sleeve thermal-insulated subassembly have thermal-insulated cold-proof effect for solve the relatively poor problem of thermal insulation performance.

In order to achieve the above purpose, the utility model adopts the following technical means to implement:

a heatable suit comprises a suit body, the suit body comprises a suit body and sleeves correspondingly arranged on two sides of the suit body through sleeve sewing lines, the suit also comprises a heating system for heating the suit body, the heating system comprises a heating unit, a microprocessor and a temperature sensor for detecting the temperature of the suit body, wherein,

the clothes comprise a clothes body and sleeves, wherein the clothes body and sleeves are arranged on two sides of the clothes body and extend to the waist from the armpit parts, the sleeves are internally provided with the sleeve heat insulation assemblies, the heating unit comprises a first heating assembly arranged on the clothes body heat insulation assemblies, a second heating assembly arranged on the sleeve heat insulation assemblies and a heating switch connected with the first heating assembly and the second heating assembly, and the microprocessor is connected with the temperature sensor and the heating unit.

The heating system is arranged in the suit body to heat the suit body, so that the heating and cold-resisting effects are achieved, and the problem that the overall image is affected due to improper matching caused by the fact that a sweater needs to be worn in the suit or a jacket needs to be matched outside the suit when the temperature is low is solved; the heating system comprises a temperature sensor, a heating unit and a microprocessor, the temperature sensor is used for detecting the temperature of the clothes body in real time and transmitting the acquired temperature of the clothes body to the microprocessor, and the microprocessor controls the on-off of a heating switch according to the acquired temperature of the clothes body, so that the heating assembly is controlled to start heating or stop heating, and the automatic adjustment of the temperature of the clothes body is realized; the first heating component and the second heating component are respectively arranged on the suit body and the suit sleeves, and the suit body and the suit sleeves are heated separately, so that the suit body is heated uniformly, and the phenomenon of nonuniform heating is avoided; the first heating component is arranged to correspond to the clothes body heat insulation component and extends from the armpit part to the waist part, and the second heating component is arranged in the sleeves to effectively heat the suit body and reduce the use of the heating components; first heating element, second heating element are installed at clothing body, coat-sleeve through the thermal-insulated subassembly of clothing body, the thermal-insulated subassembly of coat-sleeve respectively, avoid heating element long-time direct contact suit body in the heating process, influence suit life.

Preferably, the temperature sensor, the heating switch and the microprocessor are integrated on the circuit board, the outer shell is sleeved outside the circuit board, the end part of the outer shell is provided with a charging interface suitable for being electrically connected with the circuit board, and the outer shell is installed in a pocket in the suit body. With temperature sensor, heating switch, microprocessor integration on the circuit board, reduce the volume, the installation of being convenient for, the supporting shell body outside the circuit board protects the circuit board, and the shell body sets up the interface that charges to realize the power supply, the shell body is installed in this internal pocket of suit, and the operation of being convenient for, and avoid influencing the outward appearance.

Preferably, the body insulation assembly is formed between the underarm part and the waist part from the center line of the sleeve sewing line downwards. The overall structure who combines the suit body sets up clothing body thermal-insulated subassembly, effectively heats, keeps warm to the clothing body, and the processing of being convenient for just avoids setting up improper influence the wearer's activity because of the heat insulating sheet, optimizes the comfort level.

Preferably, the sleeve heat insulation assembly is composed of a plurality of heat insulation sheets which are movably connected with each other, the second heating assembly adopts a heating sheet, and the heating sheet is installed on one side face, far away from the sleeves, of the heat insulation sheets. The cooperation person of wearing's activity sets up a plurality of mutual swing joint's heat insulating sheet along coat-sleeve side line, and the position cooperation person of wearing activity between the heat insulating sheet carries out the adjustment of certain range, avoids influencing the person of wearing activity when heating, further optimizes the comfort level.

Preferably, the back of the clothes body is provided with a spine protection area, and the spine protection area is provided with a spine protection component. The back of the clothes body is provided with a spine protection area, and the back of a wearer is protected by the spine protection component.

Preferably, the spine protection area is provided with an installation cavity suitable for the spine protection assembly, the installation cavity is opened and closed through a zipper at the bottom of the suit body, and the spine protection assembly is detachably installed in the installation cavity. The zipper is arranged at the bottom of the suit body, the installation cavity is opened and closed through the zipper, the spine protection component is detachably installed in the installation cavity, the spine protection component is convenient to detach and install, and the spine protection component is effectively prevented from sliding down.

Preferably, the spine protection assembly comprises two supporting pieces extending along the inner side edge of the mounting cavity, and a plurality of mutually parallel elastic reinforcing ribs are arranged between the two supporting pieces. The overall structure who combines the suit body sets support piece to along the inboard side extension of installation cavity, and the elasticity stiffening rib cooperation wearer's activity of parallel arrangement each other carries out the deformation of certain range, avoids restricting the wearer's activity, optimizes the comfort level.

Preferably, the two sides of the spine protection area are provided with arc-shaped mounting grooves, two support pieces of the spine protection assembly are detachably mounted on the two sides of the spine protection area through the arc-shaped mounting grooves, and the middle of the spine protection area is provided with an inflatable air bag. The supporting pieces are arranged on two sides of the spine protection area through the arc-shaped mounting grooves so as to support and protect the back of a wearer; inflatable gasbag installs between two arc mounting grooves, carries on spacingly by two support pieces to inflatable gasbag, through aerifing the gasbag, makes spine region volume grow, and then adjusts the corresponding deflection of protecting the spine region of suit body, plays support, guard action to the wearer's back, optimizes cold-proof effect through inflatable gasbag to effectively avoid the heat to scatter and disappear.

The utility model discloses at least, have following useful part:

the temperature sensor of the heating system is used for detecting the temperature of the clothes body, the microprocessor controls the on-off of the heating switch according to the obtained temperature of the clothes body, and then the first heating assembly and the second heating assembly are controlled to start or stop heating, so that the heating effect is prevented from being influenced by overhigh and overlow temperature caused by overlong or overlong heating time; the suit body is heated by the first heating assemblies correspondingly arranged on two sides of the suit body and the sleeves are heated by the second heating assemblies correspondingly arranged in the two sleeves in cooperation with the overall structure of the suit body, so that uniform heating is realized, and the heating effect and the overall image are prevented from being influenced due to improper arrangement of the heating assemblies; set up first heating element and correspond the thermal-insulated subassembly of clothing body and extend to the waist by armpit portion, set up the second heating element and dispose in the coat-sleeve through the thermal-insulated subassembly of coat-sleeve, reduce heating element's use, carry out the even heating to the suit body, play cold-proof effect of keeping warm, and prevent that the heat direct transmission that first heating element, second heating element heating produced from to the suit body, influence suit body life.

Drawings

Fig. 1 is a schematic block diagram of a heating system according to a preferred embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a preferred embodiment of the present invention;

fig. 3 is a schematic structural view of a rear garment panel according to a preferred embodiment of the present invention;

fig. 4 is a schematic structural view of a rear panel according to a second preferred embodiment of the present invention;

in the figure: 100. a business suit body; 101. a coat body; 1011. front cut pieces; 1012. rear cut pieces; 1013. a collar portion; 1014. the underarm part; 1015. a waist part; 102. sleeves; 1021. sewing lines of sleeves; 1022. a cuff; 1023. an outer side edge; 103. a spine protection zone; 1031. a mounting cavity; 1032. a zipper; 104. an inner pocket; 200. a body insulating assembly; 300. a sleeve insulation assembly; 301. a heat insulating sheet; 400. an outer housing; 500. a spine protection assembly; 501. a support member; 5011. an arc-shaped mounting groove; 502. elastic reinforcing ribs; 503. an air bag.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention easier to understand, the present invention will be described in further detail with reference to the following embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

Examples

Referring to fig. 1-4, a heatable suit comprises a suit body 100 and a heating system for heating the suit body 100, wherein the suit body 100 comprises a body 101 and sleeves 102, the body 101 is composed of a front body 1011 and a rear body 1012, the sleeves 102 are correspondingly arranged on two sides of the body 101 through sleeve sewing lines 1021, and one side of each sleeve 102 far away from the body is used as an outer side 1023 of each sleeve 102.

As a preferred example, the heating system comprises a heating unit, a microprocessor, a temperature sensor for detecting the temperature of the body of the garment.

Wherein, the heating unit includes first heating element, second heating element, heating switch, and the preferred relay of this department heating switch, for avoiding appearing heating uneven condition, first heating element is installed in clothing 101 both sides through clothing body thermal-insulated subassembly 200, and second heating element is installed in coat-sleeve 102 through the thermal-insulated subassembly 300 of coat-sleeve to the realization is wholly carrying out the even heating to the suit body, and first heating element, second heating element are connected with heating switch.

The microprocessor is connected with the temperature sensor and the heating unit, the temperature sensor of the heating system is used for detecting the temperature of the clothes body, the microprocessor controls the on-off of the heating switch according to the acquired temperature of the clothes body, and then controls the first heating assembly and the second heating assembly to start or stop heating so as to realize the regulation and control of the temperature of the clothes body. The microprocessor here is of the STM32 family.

As an example, when the microprocessor presets the heating temperature, the heating time and the power-off temperature, the microprocessor controls heating according to the acquired temperature of the clothes body, heating is not started when the temperature is lower than the lowest heating temperature, the problem that sensitivity is low due to too low temperature is prevented, the heating effect and the service life of a heating system are prevented from being influenced, heating is not started when the temperature is higher than the power-off temperature, the phenomenon that the temperature is too high, the wearing comfort is influenced, and even potential safety hazards are caused.

Specifically, when the ambient temperature is 5-15 ℃, the suit needs to be heated to keep out the cold due to the cold. The heating threshold value of the clothes body temperature is set according to the environment temperature, the preset heating temperature is 5-15 ℃, the heating time is 10-20 minutes, the human body comfort level requirement and the heat preservation effect of the suit body are combined, the preset power-off temperature is 45-55 ℃, when the clothes body temperature detected by the temperature sensor is within the preset heating temperature range, the microprocessor starts heating, the microprocessor controls the heating switch to be communicated, the first heating assembly and the second heating assembly are further started to heat, the temperature sensor acquires the clothes body temperature in real time, the microprocessor automatically adjusts the heating time according to the clothes body temperature, the heating temperature is prevented from being too high and too low, when the clothes body temperature is heated to reach the power-off temperature, the heating switch is disconnected, and heating is stopped. Preferably, in a preferred embodiment of the present invention, the power cut-off temperature is preferably 50 ℃.

Preferably, in order to reduce the size and facilitate the installation, the temperature sensor, the heating switch and the microprocessor are integrated on a circuit board (not shown), the circuit board is sheathed with the outer shell 400, the circuit board is protected by the outer shell, the outer shell 400 is provided with a charging interface suitable for being electrically connected with the microprocessor, and the heating system is charged through the charging interface. Specifically, an opening suitable for a charging interface can be formed in the outer shell 400, and the charging interface is led out of the outer shell 400 through the opening of the outer shell 400 and connected with an external power supply device to supply power. For ease of operation, the outer housing 400 is mounted within the inner pocket 104 of the suit body. The wearer takes out the outer case 400 through the inner pocket to perform the charging heating operation, and installs the outer case 400 back into the inner pocket 104 after the charging is finished.

Certainly, it is not right the utility model discloses under the condition that causes the restriction, can set up temperature sensor in the shell body middle part, directly detect wearer's chest temperature under the wearing state, under the non-wearing state, detect ambient temperature to and acquire clothing body temperature in time.

For reducing heating element's use, material saving's use combines suit body 100 structure, sets up clothing body thermal-insulated subassembly 200 respectively in clothing body 101 both sides to correspond the first heating element of clothing body thermal-insulated subassembly configuration, heat clothing body 101, for preventing that the heat that the heating produced directly transmits to the suit body, first heating element installs in the side that the suit body was kept away from to the clothing body thermal-insulated subassembly. Preferably, the body insulation assembly 200 is configured to extend from the underarm 1014 to the waist 1015, and in particular, to prevent the body insulation assembly 200 from limiting the range of motion of the wearer for ease of manufacture, and in combination with the overall configuration, the body insulation assembly 200 is configured to extend down from the centerline of the sleeve seam 1021 between the underarm 1014 and the waist 1015. It should be noted that, in order to avoid uneven heating, the body insulation assembly 200 is formed on both sides of the suit body, extending from the front body 101 to the rear body 101, in cooperation with the sleeve seam. Of course, according to different requirements of actual use, the heat insulation assembly 200 can be detachably mounted in the body 101 by fastening members such as hook and loop fasteners, and the like. It is not right the utility model discloses cause the condition of restriction under, here first heating element can adopt the silica gel heating plate, heats the clothing body through the heating plate.

The sleeve heat insulating assembly 300 is provided at one side of the inside of the two sleeves 102 corresponding to the body, that is, corresponding to the sleeve outer side 1023, and the second heating assembly is provided corresponding to the sleeve heat insulating assembly to heat the sleeves, and the sleeve heat insulating assembly 300 is arranged from the sleeve sewing thread 1021 toward the sleeve cuffs 1022. Preferably, to reduce the use of the heating assembly, to effectively heat the sleeve, and to prevent the sleeve heat insulating assembly 300 from restricting the movement of the wearer, the sleeve heat insulating assembly 300 is disposed between the shoulder and the elbow, i.e., the sleeve heat insulating assembly 300 is disposed to extend from the sleeve seam to the middle of the sleeve. Specifically, the sleeve heat insulation assembly 300 is arranged 0-10cm away from the sleeve sewing line, and the length of the sleeve heat insulation assembly is 15-25 cm. Of course, the sleeve heat insulation assembly 300 can be detachably mounted in the sleeve by hook and loop fasteners, connecting fasteners, etc. according to different requirements of actual use. In order to prevent the heat generated by heating from being directly transferred to the suit body, the second heating assembly is arranged on one side surface of the sleeve heat insulation assembly, which is far away from the suit body.

In the preferred embodiment of the present invention, the sleeve heat insulation assembly 300 is configured to be composed of 2-5 heat insulation sheets 301 stacked on each other, and any two heat insulation sheets 301 are movably connected by hinges, so that the position of the heat insulation sheets can be adjusted to a certain extent according to the movement of the wearer, thereby optimizing the comfort. Specifically, the heat insulation sheets are arranged along the side lines of the sleeves, in order to avoid limiting the movement of a wearer, the heat insulation sheets are set to be in any shapes suitable for practical production and use, such as a circle, an ellipse and the like, and the center of any heat insulation sheet is hinged with the end point of the adjacent heat insulation sheet. In order to avoid the rigid connection of the heater to limit the movement of the wearer, the second heating component is preferably made of soft materials such as silica gel heating sheets, and in order to avoid the excessive number of heating sheets, which results in too high heating temperature and increased processing cost, 2-3 heating sheets are preferably arranged, and are correspondingly arranged in the middle of the heat insulation sheets to heat the sleeves 102.

It should be noted that, in order to avoid the discomfort of the wearer caused by the overhigh heating temperatures of the first heating assembly and the second heating assembly, a layer of thickened non-woven fabric material (not shown) is respectively configured on one side of the first heating assembly, which is far away from the heat insulation assembly of the suit body, and one side of the second heating assembly, which is far away from the heat insulation sheet of the sleeves, so as to realize uniform heat dissipation, so that the overall temperature of the suit body is raised along with the heating of the heating assemblies, and the warm-keeping effect is improved. The periphery of the non-woven fabric material is provided with the heat dissipation holes, heat is dissipated timely through the heat dissipation holes, and uneven temperature inside the business suit body is avoided.

Preferably, the back of the clothes body is matched with the spine of the human body to form a spine protection area 103, so that the spine protection area is formed in the middle of the rear cut piece 1012, a mounting cavity 1031 is reserved in the middle of the spine protection area 103, and a spine protection assembly 500 is arranged in the mounting cavity 1031. Specifically, a mounting cavity 1031 suitable for the spine protection component is reserved in the middle of the spine protection zone 103 to mount the spine protection component 500, and the spine protection component 500 protects the back of the wearer. The body insulation assemblies 200 are correspondingly mounted on both sides of the spine region 103, the spine region 103 extends from the body neck 1013 to the bottom of the body 101, and the width of the spine region is 1/4-3/5 of the width of the rear panel.

As one of the preferred embodiments of the present invention, as shown in fig. 3, the spine protection component 500 is detachably mounted on the spine protection zone mounting chamber 1031, specifically, the mounting chamber 1031 opening is provided at the bottom of the suit body 100, and the opening is provided with a zipper 1032, so that the mounting chamber 1031 can be opened and closed via the zipper 1032 at the bottom of the suit body 101. The spine protection assembly 500 comprises a support member 501 and an elastic reinforcing rib 502, wherein the support member 501 has two positions and is respectively disposed at two sides of the spine protection assembly 500, and the support member 501 is arranged to extend along the inner side edge of the mounting chamber 1031, so that the middle parts of the two support members 501 corresponding to the spine protection region are oppositely bent into an arc shape. It should be noted that the curvature of the supporting member 501 may be slightly different according to different requirements of actual use. As a preferred example, a plurality of mutually parallel elastic reinforcing ribs 502 are arranged between the two supporting members 501 at equal or unequal intervals. When the wearer bends over, leans back, etc., the elastic reinforcement rib 502 deforms to a certain extent along with the movement of the wearer, and the elastic reinforcement rib 502 drives the support member 501 to bend inward and outward at a certain angle, thereby avoiding restricting the movement of the wearer. Preferably, in a preferred embodiment of the present invention, the supporting member 501 is made of nitinol, and the elastic reinforcing rib 502 is preferably made of nitinol or fluorosilicone rubber.

As a second preferred embodiment of the present invention, as shown in fig. 4, the spine protection component 500 is detachably installed in the spine protection area installation cavity 1031, specifically, the opening of the spine protection area is set on the top of the suit body 100 in cooperation with the collar 1013 of the suit body, and the arc-shaped installation slots 5011 are respectively set on both sides of the spine protection area. The spine protection assembly 500 comprises two supporting members 501 and an inflatable air bag, wherein the two supporting members 501 are respectively arranged at two sides of the spine protection area 103 through arc-shaped mounting slots 5011 so as to protect the back of a wearer. Two openings are respectively arranged on two sides of the mounting cavity 1031 corresponding to the arc mounting grooves, so that the support members 501 can be detachably mounted on two side edges of the mounting cavity 1031, the two support members 501 are respectively arranged to extend along the inner side edge of the mounting cavity 1031, and the middle parts of the corresponding ridge protection areas of the two support members 501 are oppositely bent to form an arc shape. It should be noted that the curvature of the supporting member 501 may be slightly different according to different requirements of actual use. An inflatable air bag 503 is arranged in the middle of the mounting cavity 1031, and the heat preservation effect is optimized through the inflatable air bag 503, so that heat loss is avoided. In a preferred embodiment of the present invention, the inflatable air bag 503 is installed between two arc-shaped mounting grooves, and the arc-shaped mounting grooves limit the position of the inflatable air bag 503. The airbag 503 is configured to be detachably installed in the mounting chamber 1031 or directly fixedly configured in the mounting chamber 1031 according to different requirements of actual use. The inflatable air bag 503 is provided with an air bag inflation port, an external air pump and the like provide the inflation port to inflate the air bag 503, so that the spine protection area 103 is enlarged in size, the stiffness of the suit body corresponding to the spine protection area is further adjusted, and the back is supported and protected by the inflatable air bag. Preferably, the inflation port of the airbag 503 is disposed at the top, and the size and the position of the opening of the mounting chamber 1031 are set corresponding to the inflation port of the airbag 503, so that the inflation port of the airbag 503 completes inflation through the opening at the top of the mounting chamber 1031. Preferably, in a preferred embodiment of the present invention, the supporting member 501 is made of nitinol.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention should be covered by the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (8)

1. A heatable suit comprises a suit body, the suit body comprises a suit body and sleeves correspondingly arranged on two sides of the suit body through sleeve sewing lines, the suit is characterized by further comprising a heating system for heating the suit body, the heating system comprises a heating unit, a microprocessor and a temperature sensor for detecting the temperature of the suit body, wherein,

the clothes comprise a clothes body and sleeves, wherein the clothes body and sleeves are arranged on two sides of the clothes body and extend to the waist from the armpit parts, the sleeves are internally provided with the sleeve heat insulation assemblies, the heating unit comprises a first heating assembly arranged on the clothes body heat insulation assemblies, a second heating assembly arranged on the sleeve heat insulation assemblies and a heating switch connected with the first heating assembly and the second heating assembly, and the microprocessor is connected with the temperature sensor and the heating unit.

2. The heatable suit of claim 1, wherein the temperature sensor, the heating switch and the microprocessor are integrated on a circuit board, an outer shell is sleeved outside the circuit board, the end of the outer shell is provided with a charging interface suitable for being electrically connected with the circuit board, and the outer shell is mounted in a pocket in the suit body.

3. The heatable suit of claim 1, wherein the body insulation assembly is formed between the underarm portions and the waist portion from the centerline of the sleeve seam down.

4. The heatable suit of claim 3, wherein the sleeve insulation assembly is comprised of a plurality of insulation panels that are movably connected to one another, and the second heating assembly is a heating panel mounted on a side of the insulation panels remote from the sleeves.

5. Heatable business suit according to any one of claims 1-4, characterized in that the body back has a spine protection zone provided with a spine protection assembly.

6. The heatable suit of claim 5, wherein the spine protection zone is provided with a mounting cavity for the spine protection assembly, the mounting cavity is opened and closed by a zipper at the bottom of the suit body, and the spine protection assembly is detachably mounted in the mounting cavity.

7. Heatable business suit according to claim 6, wherein the spine assembly comprises two support elements extending along the inner side edge of the mounting cavity, between which are provided a plurality of mutually parallel resilient stiffening ribs.

8. The heatable suit of claim 5, wherein said spine protection zones have arcuate mounting slots on both sides thereof, said two support members of said spine protection assembly being removably mounted on both sides of said spine protection zones via said arcuate mounting slots, said spine protection zones having inflatable bladders in the middle thereof.

Images