JPH01215755A - Molding containing farinfrared emitter - Google Patents

Abstract

PURPOSE:To easily and inexpensively obtain a molded product containing farinfrared emitter by mixing natural rocks mainly composed of silicic acid with trace amounts of heavy metals and rare earth elements, crushing and molding. CONSTITUTION:Natural rock mainly consisting of silicic acid is mixed with trace amounts of heavy metals and rare earth elements, then, crushed into a powder, granules or slurry, and molded, directly or after mixed with the main feedstock. The molded product is used as a ceramic whitewares, enameled products, or glass wares or demonstrate effectiveness in farinfrared heaters, improvement of water in its taste by dechlorination and increase in molecular energy, and cups and dishes keeping freshness of meat, fish and vegetables.

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Application Field] The present invention relates to a molded body containing a far-infrared radiator used for tableware, cooking containers, flower vases, heating bodies, and the like.

[Prior Art] Recently, many benefits of far infrared rays have been announced, and products that benefit some aspects of life in terms of taste and health have appeared, such as far infrared heaters, far infrared saunas, far infrared cups, Far-infrared skin or far-infrared futons are used. However, since fine ceramics containing rare earth elements are used as far-infrared emitting objects, special manufacturing equipment is required, and expensive porcelain clay is used as the raw material. Furthermore, when it is necessary to process fine ceramics into powder or granules, a special device is required to crush the hard fine ceramics.

[Object of the Invention] An object of the present invention is to provide a molded body containing a far-infrared radiator that can be supplied more easily and at a lower cost than before by using natural rock with high far-infrared radiation efficiency.

[Summary of the Invention] The gist of the present invention for achieving the above-mentioned object is to use natural rock containing silicic acid as a main component and containing trace amounts of heavy metals and rare earths.
This is a molded product containing a far-infrared radiator characterized by being crushed into powder, granules, or mud and molded into a molded product, or mixed with a main raw material and molded into a molded product.

[Embodiments of the invention] The present invention will be explained in detail based on illustrated embodiments.

Figure 1 shows a vase made by mixing quartz porphyry powder, which is mainly composed of silicic acid, which emits far infrared rays, with trace amounts of heavy metals and rare earth elements, mixed into china clay and then fired.

This vase 1 emits far infrared rays both inside and outside, so for example, when a flower is arranged, the water inside is excited by the far infrared rays emitted from the vase 1, making it difficult to rot, and the excited water activates the flower. This has the effect of making the flowers last longer.

As shown in Table 1 below, quartz porphyry is a very old volcanic rock with a chemical and mineral composition similar to granite, and contains small phenocrysts of quartz and a small amount of colored minerals.

However, there are slight differences in the ingredients depending on the production area,
It contains trace amounts of heavy metals and rare earths, and due to these heavy metals and rare earths, this quartz porphyry has extremely high far-infrared emissivity as shown in Figure 2, and even when crushed into powder, granules, or mud. Its characteristics can be maintained.

Table 1 5i02 73.7% Ata203 13.5% 20 5.4% Na2O3,0% Fe2O31,3% CaO1,1% H2O0,78% FeOO,75% MgO0,32% P2O50,07% M n O0, 03% Thus, quartz porphyry is 5i02: about 75%, Ag2O
3: Because it has a chemical composition of about 13%, it mixes extremely well even when mixed with china clay, glass, etc., and when handling only the powder, it can be processed using special processing similar to that of china clay. In addition, natural minerals are not toxic to living organisms and are harmless even if they come into contact with food, and can be produced at an extremely low cost.

In this case, the granular material obtained by crushing the quartz porphyry may be directly molded, or it may be mixed with about 5 to 50% by weight of china clay, kneaded, further molded, and fired, using the same manufacturing method as before. You can make ceramics with it. In addition, when applying a glaze, quartz porphyry can also be added to the glaze.

In the case of glassware, the weight ratio is 5 to 50 at the raw material stage before melting.
% of quartz porphyry is mixed in, and the subsequent steps can be manufactured using normal manufacturing methods.

Ceramics, glassware, etc. manufactured in this manner emit far-infrared light even at room temperature.

[Effects of the Invention] As explained above, the molded body containing the far-infrared radiator according to the present invention can be used as ceramics, enamel products, glassware, or far-infrared heaters to improve drinking water by dechlorination, increase in molecular energy, etc. It can be used for cups, plates, etc. that improve the taste of meat, fresh fish, vegetables, etc. and retain the freshness of meat, fresh fish, vegetables, etc., and can effectively demonstrate the effects of far infrared rays.

[Brief explanation of the drawing]

The drawings show an embodiment of a molded article containing a far-infrared radiator according to the present invention, and FIG. 1 is a perspective view of the molded article applied to a flower vase, and FIG. 2 is an infrared radiation characteristic diagram of quartz porphyry. The code l is a vase.

Claims (1)

[Claims] 1. It is characterized by a natural rock containing silicic acid as the main component and mixed with trace amounts of heavy metals and rare earths, crushed into powder, granules, or mud and molded into a molded body, or mixed with the main raw material and molded into a molded body. A molded body containing a far-infrared radiator.