JPH0545475Y2 - - Google Patents

Description

[Detailed description of the invention] (Field of industrial application) This invention is a technology that improves the physical strength, especially its water resistance, of thin paper-like sheets made of heat-resistant alumina-silica fibers that efficiently radiate far-infrared rays. Regarding.

(Prior Art) Far-infrared ceramic paper has been proposed in which heat-resistant alumina-silica fibers are sandwiched between inorganic fibers and bonded together in a sheet form. FIG. 2 is a perspective view showing the structure of a conventional far-infrared ceramic paper. 1 is a ceramic body made of heat-resistant alumina silica fiber, and 2 is a paper-like covering sheet made of inorganic fibers, which is hardened with adhesive and dried to form a flexible sheet with a thickness of 0.3 mm.
It is made into a thin paper-like sheet.

This far-infrared ceramic paper constantly emits infrared rays at room temperature, and its wavelengths include many wavelengths in the range of 7 to 14 microns that are particularly effective for heating organic matter. This effect has the potential for a wide range of applications, including medical use, treatment, food fermentation promotion, food processing, cooking, sterilization, heat preservation, and heating.

In addition, since this ceramic paper is in the form of a thin sheet, it has excellent flexibility, electrical insulation properties, and
It has the advantages of high heat insulation, light weight, and easy processing.
On the other hand, like ordinary paper, it has high water absorption, and when it is soaked in water, capillary action between the fibers causes the sheet to absorb water.
Water penetrates not only into the surface coating sheet but also into the ceramic body 1, and the entanglement resistance between the fibers becomes extremely weak, resulting in an extremely low tensile strength.

(Problems to be solved by the invention) The purpose of the invention is to prevent water absorption and increase water resistance without impairing the far-infrared radiation performance of this ceramic paper. The goal is to increase the effectiveness of far-infrared ceramic paper and expand the scope of use of far-infrared ceramic paper.

(Means for solving the problem) In order to achieve the above purpose, in this invention,
A fabric made of highly water-absorbent fibers such as gauze is placed on the surface of the far-infrared ceramic paper, and the water-absorbing properties of both fibers are used to penetrate and harden the liquid plastic, preventing the far-infrared ceramic paper from absorbing water. Moreover, it has added the strength of cloth and the strength of plastic.

(Example) The present invention will be explained in more detail below using the drawings.

FIG. 1 is a perspective view showing an embodiment of the plastic-penetrating far-infrared ceramic paper according to the present invention. According to the present invention, instead of the paper-like covering sheet 2 of dry far-infrared ceramic paper shown in FIG. Plastic is infiltrated between the fibers of the ceramic paper body 1.

Next, when it is removed from the high-temperature liquid plastic and cooled, the plastic that has permeated the gauze 3 and the inner ceramic paper body 1 hardens.

The heat resistance temperature of the ceramic body 1 made of internal alumina-silica fibers is as high as 1000°C to 1300°C, whereas the liquid plastic to be infiltrated can have a low melting point of, for example, 125°C to 150°C. has no adverse effect on the alumina-silica fiber.

The plastic to be infiltrated should of course be solid at room temperature, but the hardness of the plastic can range from soft vinyl chloride to relatively hard polyethylene or polypropylene resin, depending on the purpose of use. Can be done.

As a method for liquefying permeable plastics, not only heating and melting, but also the same effect can be obtained by infiltrating a material dissolved in a solvent and then evaporating and fermenting the solvent.

FIGS. 3 and 4 are perspective views showing examples in which the upholstered plastic-penetrating far-infrared ceramic paper according to the present invention is used as a pillow and a pillow cover, respectively. In FIG. 3, the upholstered ceramic paper according to the present invention is used for the lining of the pillow. 4 is the outer material of the pillow. Ceramic paper is sewn together with the outer material. In the pillowcase shown in FIG. 4, the upholstered ceramic paper according to the present invention is used for the inner lining.

By curing liquid plastic without exposing it to the atmosphere, oxidation of the plastic can also be prevented.

(Effects of the invention) The cloth-covered plastic-penetrating far-infrared ceramic paper obtained in this way can be made into flexible products or hard and stronger products depending on the selection of the plastic material. In either case, since the plastic is permeated, water will not penetrate inside even if it gets wet, so the cohesion of the internal fibers of the entire far-infrared ceramic paper will not be weakened, and the surface fabric will not be weakened. In addition to the strength, the strength of the plastic itself has been added, and the overall water resistance and wet strength have been significantly improved. Also, since oil does not penetrate, the interior is no longer dirty.

This means that when using the heating effect of plastic penetrating far-infrared ceramic paper for futons, sheets, or duvet covers, or as the lining of bedding such as pillows and pillowcases as shown in the figure, Since water and oil do not penetrate into the interior, far-infrared ceramic paper that penetrates into upholstered plastic prevents stains from sweat, body fluids, and grime from penetrating into the interior.
Since dirt on the surface can be easily removed by washing, it is hygienic and can be used repeatedly. In addition to these bedding, when used as the lining of pajamas, loungewear, and cold-weather clothing,
It has exactly the same effect. Furthermore, when used as an inner lining for clothing or bedding, the surface fabric can be sewn together with the outer fabric, since the surface fabric has increased surface strength due to the impregnated plastic. Conventional paper tends to tear at the seams, but the cloth-covered plastic-penetrated far-infrared ceramic paper of the present invention has the advantage that the surface fabric provides sufficient strength at the seams.

If you choose a soft liquid plastic, it will feel the same when used for clothing and bedding as traditional plastics. It is also washable and can be used repeatedly. In addition, due to the above-mentioned effects, it has become possible to use it as a supporter for local and thermal treatment for medical purposes.

In addition, because it is impermeable to oil and moisture and has high strength, its use has expanded to include food packaging storage bags, liquid food, and paper pack containers.

[Brief explanation of the drawing]

FIG. 1 is a perspective view showing an embodiment of the plastic-penetrating far-infrared ceramic paper according to the present invention. FIG. 2 is a perspective view showing the structure of a conventional far-infrared ceramic paper. Figures 3 and 4
The figure is a perspective view showing an example in which the upholstered plastic-penetrated far-infrared ceramic paper according to the present invention is used as a pillow and a pillow cover, respectively. DESCRIPTION OF SYMBOLS 1...Ceramics body, 2...Paper-like covering sheet, 3...Gauze, 4...Pillow outer material, 5...Pillow cover.

Claims (1)

[Claims for Utility Model Registration] (1) A cloth-covered plastic infiltration characterized in that heated and melted liquid plastic is infiltrated between the fibers of the ceramic paper together with the fabric stretched on the surface of the ceramic paper and then cooled and hardened. Far-infrared ceramic paper. (2) A claim for utility model registration characterized in that liquid plastic melted in a solvent is infiltrated between the fibers of the ceramic paper together with a cloth stretched on the surface of the ceramic paper, and then the solvent is evaporated and hardened. The upholstered plastic-penetrating far-infrared ceramic paper described in scope item (1). (3) The cloth-covered plastic-penetrating far-infrared ceramic paper according to claim (1), wherein the fabric is gauze.