阅读说明：本技术 介质服装材料 (Medium clothing material ) 是由 赵爱梅 于 2017-08-08 设计创作，主要内容包括：介质服装材料。目的是提供一种可以主动供热的服装材料。服装材料由贮存有介质的管道制成。或服装材料由贮存有介质的管道与其它服装料子组合制成；或服装材料是贮存有介质的管道制成的服装的衬；等都可以在采用热介质时作为热量的载体。两种或两种以上的物质相结合,可以配出热容高的介质。增设可以对介质加热或循环或推动介质运动的装置,可以快速供热。增设控制装置,可实现恒温给热。用介质服装材料制成服装给人类供热,比烤火与电暖器快而贴身,不干燥且安全。几千年人类服装可以贴身主动持续供热的梦想实现了。介质换为冷介质,可以使热天穿衣凉爽,人类有可能热天喜爱穿衣,西装革履不热而是更凉爽。一个新的穿衣时代有可能到来。(A dielectric garment material. Aims to provide a clothing material capable of actively supplying heat. The garment material is made of a tube in which the medium is stored. Or the clothing material is made by combining the pipeline with the stored medium and other clothing materials; or the clothing material is a lining of the clothing made of the pipeline storing the medium; etc. may be used as a carrier of heat when a thermal medium is used. Two or more substances are combined to prepare a medium having a high heat capacity. The device which can heat or circulate the medium or push the medium to move is additionally arranged, so that heat can be rapidly supplied. The control device is additionally arranged, so that constant-temperature heat supply can be realized. The clothes made of the medium clothes material can supply heat to human beings, is quicker than a fire-heating device and an electric heater, is close to the skin, is not dry and is safe. The dream that human clothes can continuously supply heat in close contact with skin for thousands of years is realized. The medium is changed into the cold medium, so that the suit can be cool in hot days, people can love the suit in hot days, and the suit leather is not hot but is cool. A new era of dressing is likely to come.)

1. The medium clothing material is characterized in that: the garment material is made of a tube in which the medium is stored.

2. The garment material of claim 1, wherein: the clothing material is made by combining a pipeline with stored media and other clothing materials.

3. The garment material of claim 1, wherein: the garment material is a lining for the garment made of a conduit in which the medium is stored.

4. The garment material of claim 1, wherein: the storage medium is a combination of two different substances.

5. The garment material of claim 1, wherein: the storage medium is a combination of a plurality of different substances.

6. The garment material of claim 1, wherein: the clothing material is equipped with means for heating the medium.

7. The garment material of claim 1, wherein: the garment material incorporates means for moving the media.

8. The garment material of claim 1, wherein: the clothing material is equipped with means for cooling the medium.

9. The garment material of claim 1, wherein: the stored medium is a thermal medium.

10. The garment material of claim 1, wherein: the stored medium is a cold medium.

Technical Field

The present invention relates to a clothing material.

Background

The existing clothing materials can not actively supply heat. In cold, people who feel cold are changing warm clothes or adding more clothes to keep off cold. Clothes can keep off cold but can not give heat. The clothes can be worn after being heated on a stove fire, and the clothes body can store heat; the clothes can be soaked with cold water and worn on the clothes to heat the clothes on the stove, but no additional storage device is arranged, the heat is dissipated quickly, and the clothes soaked with cold water and worn on the clothes continuously drop due to gravity and cannot be worn normally. The design of the inflatable clothes is simple, so that the wearer is bloated and is not accepted by the public. People who need to be heated eat hot rice and sun-shine the hot rice; for the heating depending on the fire or the electric heater of the hot water bag, the heating can not be carried out next to the skin, and the factors of dryness or unsafe property and the like exist.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides a garment material capable of actively supplying heat.

The technical scheme adopted by the invention for solving the problems is as follows: the garment material is made of a tube in which the medium is stored.

The "medium-storing pipe" referred to herein may be a general pipe, that is, a device in which a pipe stores a medium; or a tube-like bag for storing the medium.

The "medium" referred to herein may be a liquid medium, a gas medium, a powder, a solid particulate, or the like.

The "medium" referred to herein may be a heat medium or a cold medium.

The method of "storing the thermal medium" is various. But originally or after-added, and the after-added method comprises pipeline transmission, manual injection, expansion and pressing, and the like. The addition is different from the original. The device for adding the heat medium can also be provided with a device capable of heating the medium; a device for realizing medium circulation operation can also be arranged; a device for pushing the medium to operate can also be arranged; means for remotely adding the medium may also be provided. The 'containing medium' can also be detected by the control device and added into the heat medium for storage in time.

The micro-pipeline capable of storing hot and cold substances is buried or woven in the material of the clothing body. Also can be combined into a new clothing material.

The invention has the beneficial effects that: the dielectric garment material can act as a heat carrier when a thermal medium is used. The heat storage capacity of the liquid medium is high; the powder and the solid are easy to combine with liquid and gas media. Two or more substances are combined to prepare a medium having a high heat capacity. The device which can heat or circulate or push the medium is additionally arranged, so that heat can be rapidly supplied. The control device is additionally arranged, so that constant-temperature heat supply can be realized. The clothes made of the medium clothes material can supply heat to human beings, is quicker than a fire-heating device and an electric heater, is close to the skin, is not dry and is safe. The dream that human clothes can continuously supply heat in close contact with skin for thousands of years is realized. The medium is changed into cold medium, so that the clothes can be worn cool in hot days, and people can love wearing the clothes in hot days. A new era of dressing is likely to come.

Drawings

FIG. 1 is a heat-donating garment having a garment body combined with a device for storing a thermal medium in a conduit;

FIG. 2 is a block diagram of the fittings 2 and 5 of FIGS. 1 and 3; v. of

FIG. 3 is a heat-donating garment having a garment body in combination with a means for storing a thermal medium in a bag;

FIG. 4 is a block diagram of the plugging portion of the connectors 2 and 5 of FIGS. 1 and 3;

FIG. 5 is a simple circuit diagram; FIG. 6 is a circuit diagram of a control device;

fig. 7 is a control main flow chart of the control section; FIG. 8 is an interrupt sub-flowchart of the control section

Fig. 9 is a heating sub-flowchart of the control section.

The drawing adopts a simplified drawing method; the existing devices are all expressed simply; the wiring of the circuit and the plug and socket switch are also omitted.

Detailed Description

The invention is further described with reference to the following figures and examples.

Example 1: a garment material for use as a garment liner.

Both fig. 1 and 3 show a conventional upper garment body 4, the garment body 4 is shown as an inner surface of the garment body 4, and the surface of the garment body 4 is turned inside. The inner surface of the clothes body 4 in fig. 1 is fixed with a pipeline 1, the inner surface of the clothes body 4 in fig. 3 is fixed with a water bag 2, a funnel 6, a pipe 10 and a joint 5 are arranged beside the two, and the funnel 6 for hot water in a thermos bottle or a thermos bottle is manually heated to the pipeline 1 or the water bag 2 fixed on the inner surface of the clothes body 4 through the pipe 10 and the joint 5. The temperature of the water is subject to the requirements of the user. The hot warm liquid hot water reaching the pipe 1 or the water bag 2 is a hot medium. The pipe 1 or the water bag 2 stores the heat medium, and is a device for storing the heat medium. Namely, the heat-supply garment comprises a garment body 4 and a device pipeline 1 or a water bag 2 for storing heat medium. (the medium-storing pipe 1 or the water bag 2 is a clothing material as a lining of clothing)

The heat supply principle is as follows: the pipe or water bag for storing the heat medium, which is used as the lining of the garment, provides heat to the person wearing the heat-providing garment next to the skin.

A thermometer can be additionally arranged to tell the temperature, so that the temperature can be guaranteed not to be high, the temperature can be told to be reduced, a cooling medium can be discharged, and a heat medium can be added.

Instead of using the tube 10, only the funnel 6 heats the water via the connector 5. The bag or pipe may have an inner ring and the hot water may be injected into the leak-free container between the inner and outer rings.

The hot water clothes are the hot water clothes like a hot water bag worn on the body. The material for the water-containing part inside the water-containing part can be the material for manufacturing a hot water bag or other materials for manufacturing a water bag or a water pipe. The duct 1 in fig. 1 is sewn with a thread pressed on the inner surface of the garment body 4. The middle part or the edge part of the water bag 2 in the figure 3 is provided with a preset small hole which is beneficial to butt joint of the clothes body for sewing. If a large water bag is used, the middle part is provided with a solid part, and the solid part can be provided with small holes or the edge part is provided with small holes, so that the large water bag is favorable for being used as a lining to be butted with the surface of the outer layer garment body and is waterproof to drop. Of course, the pipe and the water bag can be connected by bonding or butt-jointing.

If hot gas is added to the tube 1 of fig. 1 and the water bag 2 of fig. 3, the bulkiness is prevented, and the garment body can be compressed or limited in size when the garment body is combined with the garment body. The duct 1 in fig. 1 is pressed against the inner surface of the garment body 4 with a sewn thread or the duct 1 is wrapped with a cloth, and then pressed against the inner surface of the garment body 4 with a sewn thread. The cloth-wrapped tube 1 allows the tube to be inflated with high pressure gas, but is not bulky in shape. The water bag in fig. 3 is provided with a pressing plate with holes, and the pressing plate is sewed on the inner surface of the clothing body 4 by sewing threads through the holes on the pressing plate to press the air bag. The shape is limited and the device is not bloated. Namely: by using the clothes body as a support, the inflatable shape is not too bloated. The manual hot gas adding method is various, and can be that the water in the kettle with a nozzle is boiled, a longer pipe is used, one end of the pipe is connected with the pipeline 10 (the funnel 6 is taken down at the moment), the other end of the pipe is connected with the kettle nozzle, and an air outlet hole in the middle of the cover of the pressure cooker can be connected with the pipeline. The steam-burning small boiler can also adopt a controllable high-pressure gas outlet valve.

The powder or granules are generally charged with hot liquid or gas, or may be placed or filled first and then the hot gas is forced in, with slow manual speeds, or by mechanical or other means.

The device for storing hot material, such as water bag and water tube, is schematically shown in the figure, and the actual device for storing hot material can be various because the combined clothing body is various, and the bag and tube for storing hot material or other storage devices are also evolved, such as woolen coat, thin and fine nylon water bag, fine nylon tube or silicone tube, etc. are fixed inside;

the method of combining the bag and tube or other storage device with the garment body is also various, one can be used as the lining of the garment, and the lining is fixed inside; the liner may also be secured to an external, thin bag, such as the external surface of a vest or vest. The lining of the garment with the hat can be arranged inside or outside the hat. The liner can be thick or thin, and the shape is determined according to the requirement. The other is a weaving combination, the actual heat and substance storage device is also diversified, and the pipeline woven into the garment body has the selection of size, color and the like. (woven into a composite to form a piping garment material having a stored media.)

The actual means of storing the thermal mass may also vary in shape and arrangement. For example, the inner portion of sleeve 3 in fig. 1 may be fixed to the inner portion of a pipe, and may be arranged in a circular or straight line. Can be inserted and pulled out, or can be a movable liner, a zipper or a button for connection, and can be taken down and replaced. And so on.

For pants, clogs, windcoats, etc., whatever the nationality and style, the same as the upper garment of fig. 1 can be combined with means for storing a thermal medium to produce a thermal garment. (Combined as a garment Material, making garments.)

Fig. 2 is a structural view of the joint 2 in fig. 1. Hatching for expressing the grip ring 19 is omitted from the drawing. The locking ring 18 moves leftwards, the internal thread of the locking ring is butted with the external thread of the joint center 17, the locking ring 18 is rotated to press the ring 19 to move leftwards, and if the right pipeline 20 is sleeved at the right conical end of the joint center 17 in a left-going mode, the locking ring is squeezed leftwards by the ring 19 and cannot fall off. The circulating heat medium pipe 15 below the joint 2 in fig. 1 may be the pipe 20 in fig. 2. For manual injection of a heat medium, the pipeline 15 is not used, the soft rubber plug 21 shown in the figure 4 is used instead, the soft rubber plug 21 is bent and placed into the locking ring 18 of the joint 2, the locking ring 18 moves leftwards, the internal thread of the locking ring is in butt joint with the external thread of the center 17 of the joint, the locking ring 18 is rotated, and the soft rubber plug 21 can be pressed to block the medium outlet of the taper end on the right side of the center 17 of the joint. The locking ring 18 can be unscrewed, the soft rubber plug 21 can not be pressed, so that the medium flows out through the joint center 17, new medium is added into the pipeline conveniently, and the hand-feeling heat medium reaches, namely the locking ring 18 is rotated, and the pressing plug 21 blocks the conical end on the right side of the joint center 17.

The pipe to the left of the joint center 17 in fig. 2 can be adhesively fitted right over the step to the left of the joint center 17. The pipe to the left of the joint center 17 may be the pipe where pipe 1 meets joint 2 in fig. 1.

The linker 5 in fig. 1 also takes the same configuration as the linker 2 in fig. 1. Only the left and right directions are reversed. No additional figures are given.

Joints 2 and 5 in fig. 3 are both identical to joints 2 and 5 in fig. 1. No additional figures are given.

When the hot clothes in fig. 1 and 3 are filled with medium, the locking ring 18 in the joint 2 is unscrewed, and the plug 21 is pulled out, so that the cooled medium can flow out. Then the locking ring 18 above the joint 5 is unscrewed to pull out the plug 21. The filling pipe connected with the funnel is inserted into the locking ring 18, the internal thread of the locking ring 18 is in butt joint with the external thread of the joint center 17, the locking ring 18 and the pressing ring 19 are rotated, the pipeline sleeved on the conical end of the joint center 17 is squeezed tightly and cannot fall off, and then the filling of media into the hot clothes can be started. When the heat medium reaches the joint 2, namely after the heat medium is filled, the pipeline at the joint 2 is bent, so that the filled medium cannot flow out from the lower part. The plug 21 is then placed in the locking ring 18 in the joint 2 and the locking ring 18 in the joint 2 is tightened so that the injected medium cannot flow out from below. Then the locking ring 18 at the upper part in the connector 5 is unscrewed, and the funnel and the injection pipe are taken down. The plug is then placed in and the locking ring 18 is tightened to close the outlet at the centre 17 of the joint 5. So that the injected medium cannot flow out from above. .

The cooled medium can be discharged by being pushed by the added heat medium, and a pipeline can be attached to the cooled medium, so that the cooled medium is extruded by inflating and pressing hot air into the cooled medium like a bicycle. It is also preferable that the lower part of the cooling device is communicated with a pipeline, the cover of the lower pipeline is easily unscrewed, and the cooled medium is quickly discharged by gravity.

The joints 2 and 5 can be arranged at the same upper part, so that the operation of adding and discharging media is convenient. An elastic clamp can be arranged at the position of the medium outlet to clamp the tail end of the pipeline, and then the sealing plug is placed into the contraction ring. U-shaped tube structures can also be adopted. The handle of the soft sealing plug can also be used as a plug to plug the outlet.

Example 1 is a manual injection of a thermal medium. The clothes can be used for externally supplying heat to patients needing heat supply by a method of exchanging hot water in places without electricity supply, such as remote places and mountain areas. The electric drier can be used in places where electricity is supplied, can reduce the dry feeling of people, and is safe.

Example 2: garment material equipped with a medium heating and propulsion device.

Both fig. 1 and 3 have a heating chamber 12 in the upper part, in which an electric heater 13 is provided, which can be either dry or wet, instead of a dry or wet heater. Heating air by electric heating capable of dry burning; the liquid is heated by electrical heating that cannot be dry-fired, for example with a waterproof embedded heating tube. For the hot air generated by heating air or liquid, the pipeline at the left side of the box 12 can be transmitted to the pipeline or bag at the lower garment body 4, and the plastic pipe can also be used for insulating isolation. The heat medium delivered to the garment body 4 is heated. The device is provided with a heat medium adding device, and can add a heated medium at any time. (heated air is passed into the tube or bag essentially to heat the gaseous medium inside the lining which is the material of the garment.)

The electric heater 13 of the heating part in the figure can be directly fixed in the heating box 12 by using a household hair drier. Or a hot air fan, only the fan blades are reduced, and the rotating speed is adjustable. Other similar heating means are possible.

The transfer duct 15, on the upper right side of fig. 1 and 3, can also be used to circulate the hot air exhausted from the garments to the heating box 12. The fan 14 may also push the air flow to speed up the thermal cycle. The addition of the heat transfer medium can be accelerated. The heating chamber 12 may also be provided with closable air inlets. A pressurizing device, such as an inflating device similar to a pressure cooker or a bicycle tire, can be arranged to make the heat medium emit force and also to make the heat medium adding speed high.

The pipes 10 and 15 may also be pipes wrapped with insulation or pipes made of insulation material.

Various heating may also be controlled. Fig. 1 and 3 are both provided with a control device 11 at the top, and fig. 6 is a circuit diagram of a control device. In the circuit shown in fig. 6, the detection means is a temperature detection element (e.g., a thermistor) provided at the heating means. The patient bed can also be provided with a proximity sensor, a microswitch for detecting shaking and other devices which can be detected without vision, and the devices can be purchased on the internet. The detection signal is transmitted to 8155 with extended function through an anti-interference photoelectric coupling element, and is transmitted to the CPU by 8155. The transducer converts the temperature signal into an electrical signal. A/D0809 is used for converting analog electric signals into digital signals. These elements are also commercially available on the internet.

Fig. 7 is a control main program flowchart. The interrupt subroutine flow diagram is shown in FIG. 8: and sampling signals input by a keyboard and a temperature detection numerical value. And comparing the temperature detection value with the temperature value required by keyboard input, and if the temperature value is lower than the required temperature value, heating is required. Otherwise, the process goes to other processes.

Fig. 9 is a flowchart of the heating subroutine. The heating temperature is different for different hot days and cold days and different requirements of each user, so that the keyboard input of different temperatures is given. The temperature numbers 33, 37, 45 and 50 given in the flow chart are simple temperature control. The actual regulating temperature can be set as desired. Can be fine or fine-tuned, and can be widely used

The heater can also be in several power sections, for example, the heating wire is divided into a 500 watt section and a 1000 watt section, the switch is switched to 500 watt and the 500 watt section is electrified, and the switch is switched to 1000 watt and the 1000 watt section is electrified. The rapid heating and heat reduction are easy to realize. The actual temperature adjusting section can be set according to the requirement, and the range can be very wide. The circuit of figure 5 can be used. The simplest power supply means is represented in the circuit diagram of fig. 5. And can also be powered by a rechargeable large-capacity battery. The upper temperature limit can be determined by the cold and hot climate. A constant temperature device can also be arranged to automatically switch on and off.

The heat medium adding and exchanging device can be arranged on the heat supply clothes or can be independently arranged, and one family can be provided with one set and hung on a wall or placed on a table top. It can also be installed in public places such as shop, supermarket, station, etc. and equipped with automatic payment portion to sell heat medium automatically. If a refrigerating device is arranged to produce cold air and cold liquid instead, the cold medium can be added to the hot clothes, and an automatic payment part can be arranged to sell the cold medium automatically. Of course, the utility model can be used for both cold and hot purposes.

The micro-pipeline is woven into the fabric. The micro pipeline capable of storing hot and cold substances is buried or woven in the material of the clothing body, and is also combined into a novel clothing material. (the micro-pipes for storing gas medium are woven into the fabric, the micro-pipes for storing hot and cold substances are buried or woven in the cloth of the clothing body, and the large-scale cuttable clothing material with the same breadth as the common cloth can be manufactured.)

The liquid and gas or powder or solid medium are combined in pairs or a plurality of substances are combined, and a medium with high heat capacity can be prepared. It is possible for humans to differentiate ginned cotton. The time and day for wearing the clothes in winter in the north, such as summer, is possibly not far away. The inherent storage device of the medium clothing material can also store cold medium, warm water or cold water is injected, the electric heater 13 in the upper heating box 12 of fig. 1 and fig. 3 is changed into a refrigerating device, the lining for heating clothing is changed into the lining for cooling clothing, so that the clothing can be cool in hot days, people can love the clothing in hot days, and the suit leather is not hot but is cool.

A new era of dressing is likely to come.