JP3125789U - Accessories such as necklaces, earrings, and bracelets that emit far-infrared rays and negative ions. - Google Patents

Abstract

[PROBLEMS] To improve the beauty and health of a wearer and to improve the physical health and beauty of the body with physical effects in addition to the mental effects as decoration effects of the accessories such as those that fulfill the purpose of treating diseases, etc. Try to improve.
SOLUTION: A raw silica powder having a particle diameter of 0.1 to 50 μm and a thermosetting resin are mixed at a weight ratio of 1: 2 to 1: 5 in a recess of a jewelry main body, and a heat of about 50 ° C. is applied. In addition, it has a silica sintered body that is made by pouring while stirring in order to soften the resin and remove bubbles from this mixture, and this accessory body is baked at 120 to 200 ° C. for 20 to 30 minutes. It was provided with a sintering type such as an electric furnace to be hardened and a polisher for polishing the silica sintered body.
[Selection] Figure 1

Description

  The present invention relates to improvement of accessories such as necklaces, earrings, and bracelets that are in contact with the body, and more particularly to accessories that can generate far-infrared rays and negative ions.

Now, the above-mentioned ordinary accessories have only had a value as a decoration, but the inventor of the present application naturally generates far-infrared rays and negative ions by using the value as a decoration, and the human body uses it. He devised a method of manufacturing jewelry that adds value to promoting health. (See Patent Document 1)
JP 2003-135115 A

  The present invention is a further improvement of the above-described invention, in addition to a physical effect in addition to a mental effect as a decorative effect by the accessory, such as those for the purpose of promoting the beauty and health of the wearer and treating diseases. In order to improve the health and beauty of the user's body.

  Thus, the main feature of the present invention is the use of a powdered siliceous raw stone containing black silica that emits far-infrared rays and negative ions. This graphite silica (black silica) is produced in Hokkaido, Japan. It is produced only in the upper part of Amanogawa, Kaminokuni-cho, Ulsan-gun. It is a natural ore that has been estimated to have been deposited on the surface of the sea for several hundred million years, and has abundant natural minerals. It is known to radiate and diverge various active waves including the first, and it absorbs solar energy with the power of several times the material born on the surface, and radiates semipermanently repeatedly.

  The far-infrared rays have a strong wavelength of 4 microns to 14 miku, which activates living cells at room temperature, and far-infrared rays of this wavelength are said to be growth rays and resonate with biological cell molecules. , Activates blood and cells themselves. This promotes systemic metabolism and increases life. ) Is a natural ore that radiates 98% and has a strong sterilizing effect and deionizing effect, resulting in a deodorizing effect, especially in contact with human skin with moderate temperature such as necklaces, earrings and bracelets It will be expensive.

  In addition, negative ions are generated by the movement of people such as necklaces, bracelets, and earrings, and so many negative ions are emitted, so that the mind of those who wear them is so-called “softening”, improving the living environment. In other words, it will help to relieve lifestyle-related illnesses, and will also show how it excels in health.

  That is, an ion is a small substance that is charged with electricity, and its size is 1/1000 mm. It is a fine particle that cannot be seen with the naked eye even with a general microscope.

  And there are two kinds of these very small substances, those with positive electricity (positive ions) and those with negative electricity (negative ions).

  In addition, humans maintain their lives through cell metabolism, and have the function of ingesting ions through respiration. Since the ingested ions are transported to the cells, ion exchange is performed through the cell membrane. is there.

  This ion exchange is a system that takes out waste and carbon dioxide in cells and takes in necessary oxygen and nutrients, and the condition of the body is greatly influenced by the balance of the ions, but in modern society there are various In this way, we have created an environment with a lot of positive ions.

  Specifically, exhaust gas scattered every day by car is a representative example, which is the best way to propagate positive ions.

Specifically, the feature of the present invention is that a prototype of a jewelry accessory body in which a desired sculpture is engraved on the exterior using an appropriate material such as metal, and one or more depressions are formed on the surface, is created. Is completely completely covered with raw rubber or synthetic rubber, etc., then the rubber is divided into two parts, the original is taken out, and then overlapped again to create a cavity equivalent to the original in the rubber, and silicon resin in this cavity Pour a fluid, etc., wait for it to harden and take it out to make a resin mold for jewelry, pour a heat-resistant gypsum solution around this resin mold, wait for it to harden, add heat and add silicone resin, etc. By liquefying and pouring the gypsum mold, a gypsum mold having a cavity equivalent to the original mold is made, and 18 gold, platinum, silver or other liquid noble metal material is poured into the gypsum mold cavity, and one or more The depression A shaped jewelry body is made, and in the hollow part of the jewelry body, a silica raw material with a particle diameter of 0.1 to 50 μm and a thermosetting resin are mixed in a weight ratio of 1: 2 to 1: 5, In order to soften the resin by adding about 50 ° C. and remove bubbles in the mixture, a silica sintered body is provided which is made by pouring and stirring while stirring, and the main body of this accessory is a sintered mold such as an electric furnace. A necklace, earring, or bracelet that emits far-infrared rays or negative ions, which has a silica sintered body that has been baked and hardened at 20 ° C. to 200 ° C. for 20 to 30 minutes and polished with a leuter.

  In general, the effect of the present invention is to provide an accessory such as a necklace, an earring, or a bracelet that emits far-infrared rays or negative ions, and is a simple process that does not cause so-called loss.

  Next, in order to better understand the jewelery of the present invention, an example of a necklace manufacturing method shown in Example 2 of FIG. 6 will be described.

  This manufacturing method is to complete the necklace (1) as shown in the rear view of FIG. 1 and the front view of FIG. 2, and in particular, this includes two pieces in the horizontal direction as shown in enlarged views in FIGS. The pieces (2) and the pieces (3) arranged side by side are alternately arranged and formed.

  Therefore, if one piece (3) is made now, this will be described as follows. As shown in FIG. 6 (a), an appropriate metal is cut into a “boat shape”, and in particular, the upper surface (4) is cut downward to form a hollow. Part (5) is formed.

  In this case, the recess (5) may be one recess or a plurality of recesses as shown. In addition to simply polishing the side surface of the piece (3), it is also possible to sculpt the sculpture of the author's free pattern and shape such as corrugations and diamond cuts.

  In the figure, (6) is a projecting portion provided outwardly at both ends of the axis of the piece (3). A through-hole, which will be described later, is formed in this, so that the pieces (2) and (3) can be connected. It has become.

  As shown in FIG. 6B, the completed piece (3) is provided with a support rod (7) in the outer direction by means such as welding, and the original shape (8) of the piece (3) is completed.

  Next, a plastic material such as raw rubber or synthetic rubber (10) is laid in a mold (9) slightly larger than the piece original (8), and the piece original (8) is placed on the piece original (8) with a fingertip or the like. So that it cannot be seen from the outside and is tightly wrapped so as to be in close contact with the outer periphery.

  Subsequently, after the rubber or synthetic rubber is solidified to some extent, the rubber or synthetic rubber (10) is superposed on the original state. As a result, in the rubber or synthetic rubber (10), a hollow (11) that is in the shape of the original piece (8) and a runner (12) made of the support rod (7) are formed.

  On the other hand, a fluid (13) such as a liquid silicone resin is prepared, poured into the cavity (11) formed in the rubber or synthetic rubber (10) from the above-mentioned runner (12), and waited for curing to wait for the rubber or synthetic rubber. The rubber (10) is removed to form a resin mold (14) as shown in FIG. 6 (e).

  Next, a gypsum outer frame (15) as shown in FIG. 6 (f) is prepared, and while the fluid gypsum (16) is poured, the resin mold (14) is put in the center portion. It is natural to make a resin runner (17) as shown in 6 (f).

  When the gypsum (16) is completely agglomerated and the gypsum is warmed to about 50 ° C., the fluid (13) such as the silicone resin is liquefied, and the state shown in FIG. 6 (f) is reversed. For example, if the resin runner (17) is set downward, the fluid (13) flows down, and as a result, a hollow mold (18) is formed in the gypsum (16).

  Here, 18 gold, platinum, silver, and other precious metals are appropriately selected, and heat is applied to them to liquefy them. The liquefied precious metals are poured into the hollow mold (18) of the gypsum (16) and solidified. This is taken out and one piece (3) as shown in FIG. 6 (a) or two pieces (2) manufactured by the same manufacturing means as described above are obtained.

  In addition, the specific structure of the apparatus is not shown, but the main point is that the raw silica powder having a particle diameter of about 3.5 μm and the thermosetting resin as shown in FIG. The epoxy compounded resin (20) is mixed with a suitable apparatus or tank at a weight ratio of 1: 2, heat (about 50 ° C.) is added to the mixture to soften the resin, and the mixture is mixed with the pieces (2) and ( Pour in the recess (5) of 3) in order with a nozzle (not shown) or the like, and vibrate and stir to remove bubbles during the pouring.

  Then, although not shown in the figure, put it in an electric furnace and heat it at 170 ° C for 20 to 30 minutes. After natural cooling, it is polished with a reuter, polished with a puff, and finished with other pieces (2) and connecting bridge ( 19) A silica sintered body is provided in the groove (5) of the pieces (3) connected in 19) to complete the process. In addition, the particle diameter of the silica raw material powder body can be selected from 0.1 to 50 μm.

  Moreover, as an example of a thermosetting resin, a phenol-type resin etc. other than the said epoxy resin can be used. In addition, the weight ratio of the powdered silica raw material and the thermosetting resin can be selected from 1: 2 to 1: 5.

  Further, the portion into which the mixture is poured or injected is not limited to the recess (5) of the pieces (2) and (3), but may be a notch that is not shown but similar to the recess.

  Although the said Example demonstrated by the piece (2) and (3) for necklaces (1) as an example of accessories, it is not limited to 18 gold | metal | money, Platinum, silver, etc. It ’s good. Moreover, it can perform also about a shape, a surface pattern, surface jewelry decoration, and noble metal decoration, and is not limited to the external appearance of the said Example.

  Thus, in order to make the pieces (2) and (3) of this embodiment into the necklace (1), a small hole (22) is made in the protruding portion (6) of the pieces (2) and (3) in advance. The protrusion (6) at one end of the piece (3) is placed between the two pieces (2).

  Then, a thin pin (23) made of a metal material as seen in FIG. 1 is passed through the small hole (22) of the protrusion (6) of the two pieces (2) and then one piece (3). Through the small hole (22) of the projecting portion (6) of this, and repeating these in order to form a ring (24), part of which has a known hook (25) to obtain a necklace (1) It is.

  Subsequently, in order to use this necklace (1), it is important to wear the silica sintered body so as to be in direct contact with the body as much as possible.

  That is, the accessory member thus completed is attached to the appropriate place according to the decorative use of various base materials such as earrings, bracelets, anklets, earrings, etc., by attaching, welding, inserting, etc. However, in this case, if such an accessory member is used, if it is configured to touch the body directly, the excellent effect of the silica (silica stone) and black silica (graphite silica) will act on the body. However, as shown in FIGS. 9 to 10, it is of course possible to further increase the effect by fitting two or more stages on the arm or neck into which the ornament is fitted.

  Thus, in FIG. 9, (D1) is a thermographic photograph before wearing the bracelet (G) which is the accessory obtained by the method of the present invention, and (D2) to (D8) are respectively It is a thermographic photograph which showed the condition of progress for every 10 minutes wearing this bracelet (G).

  FIG. 10 is a thermographic photograph of the jewelry obtained by the method of the present invention processed into the necklace (1) as described above and attached to the neck. (F1) is not attached. , (F2) to (F8) are thermographic photographs showing the progress of every 10 minutes as described above, and as is clear from the results, the superiority of the accessory according to the present invention was proved. .

  In other words, as you can see from this picture, when wearing the bracelet or necklace of the present invention, the black silica adjusts the user's autonomic nerves, promotes reactivation, and activates metabolism. Was demonstrated.

  For reference, in the above blending / molding method, a resin kneaded and molded with a weight ratio of unsaturated polyester resin and silica powder such as black silica of 99: 1, 95: 5, 90:10, 67:33. The results of measuring the negative ion emissivity at 39.9 ° C. with a measuring device (JEOL Ltd. FT-IR6500) for the plate (length 5 cm × width 5 cm × thickness 0.5 cm) are as shown in FIG. is there. Thus, it was confirmed that a plate formed by converting graphite silica into a resin radiates negative ions at room temperature.

Further, the results of measuring the negative ion emissivity are as shown in Table 1 and FIG. Thus, it was confirmed that a plate formed by converting graphite silica into a resin radiates negative ions at room temperature.

  Generally, the jewelry according to the present invention is blended with silica powder containing natural graphite silica that has a far-infrared radiation function at room temperature, so that negative ions are radiated from the earrings and the like at room temperature by the far-infrared radiation function of this rough silica stone. It was possible to easily enjoy the effects of negative ions and far-infrared rays in a general usage mode at room temperature.

The front view of the necklace provided with the silica sintered compact which is one example of the present invention Rear view Same front view Same rear view AA line sectional view of FIG. Illustration of an example showing the flow of the manufacturing method Far-infrared radiation function graph Graph showing the function of generating negative ions It is a thermographic photograph that shows the positive effect on the body when the bracelet, which is the jewelry of the present invention, is fitted. It is a thermographic photograph that shows the positive effect on the body when the bracelet, which is the jewelry of the present invention, is fitted.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Necklace 2 Two pieces arranged 3 One piece 4 Upper surface 5 Recessed part 6 Protruding part 7 Supporting rod 8 Original form 9 Large mold 10 Synthetic rubber 11 Cavity 12 Runway 13 Fluid 14 Resin mold 15 Plaster outer frame 16 Gypsum 17 Resin runner 18 Cavity type 19 Connecting bridge 20 One-component epoxy compound resin 21 Silica sintered body 22 Small hole 23 Thin pin 24 Ring 25 Hanging fixture D Thermographics picture F Thermographics picture

Claims (1)

A process of making a prototype of an accessory body in which a desired sculpture is engraved on the exterior using an appropriate material such as metal, and one or more depressions are formed on the surface, and this prototype is made of raw rubber or synthetic rubber Substantially completely envelop, then divide the rubber etc. into two parts, take out the original, and then superimpose again to create a cavity equivalent to the original in the rubber, and fluid such as silicon resin in this cavity Pour, wait for it to harden and take it out to make a resin mold for jewelry, pour a heat-resistant gypsum solution around this resin mold, wait for it to harden and apply heat to create a gypsum mold such as silicone resin A process of making a gypsum mold having a cavity equivalent to the original mold by liquefying and pouring, and pouring a liquid noble metal material such as 18 gold, platinum, silver, or other liquid into the gypsum mold cavity, and one or more depressions on the surface Part Consists of a process to create a form the accessory main body,
In the hollow part of the jewelry body, a silica raw material with a particle diameter of 0.1 to 50 μm and a thermosetting resin are mixed in a weight ratio of 1: 2 to 1: 5, and the resin is softened by adding heat of about 50 ° C. An electric furnace having a silica sintered body made by pouring while stirring to remove bubbles from the mixture and baking the jewelry body at 120 to 200 ° C. for 20 to 30 minutes An accessory such as a necklace, an earring, or a bracelet that emits far-infrared rays or negative ions, comprising a sintered mold and polishing such as a leuter for polishing the silica sintered body.

Images