JP3222832U - Filling material structure - Google Patents

Abstract

[PROBLEMS] To provide a filling material structure that has a high heat generation, improves a heat retention effect, has health benefits beneficial to health, is simple and convenient to load, and can reduce manufacturing costs. The filling material structure includes a filling material substrate 10, a fiber layer 11 on the filling material substrate is dried by spray coating, and then a protective layer 12 is formed. Fine particles are distributed, and by resonating far-infrared nano-particles with water molecules on the human skin surface, it generates heat and improves the heat retention effect, and can exhibit health benefits beneficial to human health. In addition, after the protective layer and far-infrared nanoparticles are dried on the filling material substrate, the bag body is loaded through the packaging equipment, and the bag body is filled with clothes, comforters, gloves, or filling spaces. By stuffing in-house products with materials, loading can be done easily and conveniently, and the manufacturing cost can be reduced. [Selection] Figure 1

Description

  The present invention relates to a filling material structure.

  In recent years, due to sudden global climate change, the temperature in high latitude areas is always kept between 30 and 60 ° C below zero, so if you go out without wearing a more warm outerwear, The warming effect cannot be obtained.

  In mid-latitude areas, the temperature difference between day and night is large, so it is easy for people who go out to catch a cold if they are not careful. In order to avoid the above-mentioned problems, an increasing product development trend is aimed at improving the warming effect of the wear. Up to now, several cold protection heat generation wears such as infrared heat insulation wear, down wear, fleece wear and moisture absorption heat generation wear have already been developed. Of these, downwear is the most common, and its warming effect increases as the thickness of the thermal insulation layer increases, but the thickening of the thermal insulation layer often adds to the discomfort of wearing and the appearance is so beautiful That's not true.

  However, the trend of hygroscopic heat generation wear in recent years can improve the disadvantage of heavy downweight and heavy weight, but since it is a simple single layer design, it still does not provide a sustained heat retention effect, and the moisture absorption heat generation wear Costs are still higher than other commonly used thermal insulation materials. Therefore, increasing the thickness of the single structure of the moisture-absorbing and heating ware increases the cost and thus has no economic benefit.

  The present invention was made to solve the above-mentioned problems of the prior art, and its purpose is to provide a high fever and improve the heat retention effect, and has a beneficial health effect on human health, It is another object of the present invention to provide a filling material structure that can be loaded easily and conveniently and can relatively reduce the manufacturing cost.

  In order to achieve the above-mentioned object, the filling material structure provided by the present invention comprises a filling material substrate, has a plurality of fiber layers on the filling material substrate, and is protected on the plurality of fiber layers. A plurality of far-infrared nanoparticles are attached to the protective layer.

  Preferably, it is further provided with a bag for loading the filler material substrate.

  Suitably, the filler material substrate may be cocoons, feathers, wool, cotton, wood chips, plastic or paper.

  Preferably, the material of the bag is cloth, plastic or non-woven fabric.

  Specifically, the filling material structure is for loading clothes, comforters, gloves, or an internal product with a filling material, the filling material structure comprising a filling material substrate, and spray coating. After being provided to place the filling material substrate inside through the equipment, the filling material substrate is subjected to an operation process of spraying a protective layer, and has a plurality of far-infrared nanoparticles on the protective layer. After the spray coating is completed, the filling material substrate is provided by a drying facility to place a filling material substrate having a plurality of far-infrared nanoparticles and a protective layer therein, and then a drying operation process is performed. After drying, a protective layer is attached to the top, and a number of nanoparticles that generate far-infrared rays are distributed on the protective layer, and by resonating the far-infrared nanoparticles with water molecules on the human skin surface, Heating can be achieved, and the thermal effect is improved, and can exhibit human health beneficial health efficacy.

  Also, spray coating can be applied to the filling material substrate, and after the protective layer and far-infrared nanoparticles are dried and formed, the loading operation can be performed directly on the bag body via the packaging equipment. After that, the bag body with the filling material base material is directly packed into the clothes having the accommodation space, the comforter, the glove, or the inner product with the filling material, and modularization of the loading can be easily and conveniently performed. And the objective which can reduce manufacturing cost relatively can be achieved.

   The far-infrared nanoparticle has a wavelength that absorbs a radiation spectrum at 2 to 22 μm.

  The material of the bag may be a cloth fabric, a plastic bag, a nonwoven fabric, a woven fabric, paper, or a rubberized fabric.

The beneficial effects of the present invention are as follows.
1. The filling material structure of the present invention has an effect of improving heat retention as well as an effect of increasing heat generation, and has a health effect on human health.
2. The filling material structure of the present invention can be operated easily and conveniently, and can relatively reduce the manufacturing cost of the filling material.

It is a partial schematic diagram of the filling material structure of the present invention. It is a manufacturing process schematic of the filling material structure of this invention. It is another Example figure of the filling material structure of this invention. It is the schematic which loaded the filling material structure of this invention in the bag.

  As shown in FIGS. 1 to 4, the filling material structure of the present invention is loaded in a storage space where clothes, a comforter, a glove, or a filling product is provided, and the filling material structure is , Comprising a filler material substrate 10, having a plurality of fiber layers 11 on the filler material substrate 10, having a protective layer 12 on the plurality of fiber layers 11, and having a plurality of far infrared rays on the protective layer 12. Nanoparticles 13 are attached, and the far-infrared nanoparticle 13 has a wavelength that absorbs a radiation spectrum at 2 to 22 μm.

  In the above manufacturing process, after the filling material substrate 10 is placed in the space in the spray coating equipment A, the nozzle A1 of the spray coating equipment A has a constant ratio according to the weight of the filling material substrate 10. A protective liquid containing a plurality of far-infrared nano-particles 13 is sprayed, the protective liquid adheres to the plurality of fiber layers 11, passes through the first connecting pipe A2 after the spraying is completed, and the first connecting pipe A2 While communicating with the space in the spray coating equipment A and the space in the drying equipment B, the filling material substrate 10 is transported to the space in the drying equipment B.

  The drying facility B includes a combustor B1, and the combustor B1 provides a heat source up to a space in the drying facility B, and a plurality of far-infrared nanoparticles that are attached to the filler material base 10 The protective liquid containing 13 passes through the combustor B <b> 1 to provide a heat source, so that the protective liquid is dried and solidified so as to closely cover the fiber layer 11 on the filling material substrate 10.

  After the filling material substrate 10 is dried, a protective layer 12 is attached on the plurality of fiber layers 11, and a number of nanoparticles 13 that generate far infrared rays are distributed on the protective layer 12. By causing 13 to resonate with water molecules on the surface of the human skin, heat generation can be achieved, the heat-retaining effect can be improved, and health benefits beneficial to human health can be exhibited.

  In addition, spray coating is performed on the above-described filling material substrate 10, and the plurality of fiber layers 11 are dried to form the protective layer 12 and the far-infrared nanoparticle 13, and then directly pass through the packaging facility C. And the second connecting pipe B2 is provided in the space in the packaging facility C and the space in the drying facility B, and when the loading operation process to the bag body 20 is to be performed, the space in the drying facility B directly. The filling material base material 10 that has been dried from the inside is placed in a bag body 20 in the space inside the packaging facility C (the bag body 20 is made of cloth fabric material, plastic bag material, nonwoven fabric material, woven fabric, paper, or A bag body of the filler material base material 10 (the filler material substrate material 10 may be bag, feather, wool, cotton, wood chip, plastic or paper). 20 is loaded, and the bag 20 is loaded. After the filling material base material 10 is hermetically housed in the interior, the bag body 20 with the filling material base material 10 is directly connected to the clothes, comforter, gloves, or in-product with the filling material having an accommodation space. In addition, it is possible to easily and conveniently modularize the loading and achieve the purpose of relatively reducing the manufacturing cost.

  The above embodiment is merely a preferred embodiment of the present invention, and is not intended to limit the scope of the utility model registration request. Various modifications or equivalent replacements made based on the present invention should all be considered within the protection scope of the present invention.

A: Spray coating equipment A1: Nozzle A2: First connecting pipe B: Drying equipment B1: Combustor B2: Second connecting pipe C: Packaging equipment 10: Filling material substrate 11: Fiber layer 12: Protective layer 13: Far infrared ray Nanoparticle 20: Bag

Claims (4)

A filling material structure comprising a filling material substrate,
The filling material has a plurality of fiber layers on the base material, a protection layer on the plurality of fiber layers, and a plurality of far-infrared nano-particles attached to the protection layer. Material structure.   The filling material structure according to claim 1, wherein the filling material substrate is cocoon, feathers, wool, cotton, wood chips, plastic or paper.   The filling material structure according to claim 1, further comprising a bag body for loading the filling material substrate.   The filling material structure according to claim 3, wherein a material of the bag is cloth, plastic, or nonwoven fabric.

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