JP3245047U - tabletop buddha rin - Google Patents

Abstract

[Problem] To provide a tabletop type Buddha phosphorus having a characteristic sound. SOLUTION: A small Buddha phosphorus 10 having an opening 11 is characterized by being made of heat-resistant glass, and has an outer diameter of 30 to 70 mm and a height of 10 to 60 mm. [Selection diagram] Figure 1

Description

The present invention relates to Buddha phosphorus used as funeral utensils as one of the Buddhist utensils, and particularly relates to a small glass Buddha phosphorus.

Butsurin is a type of Buddhist utensil that is used during funerals, memorial services, etc. by striking it with a ring stick.
Traditionally, they were made of metal such as copper or iron, but in recent years there has been an increase in the need for small Buddha phosphorus, and there has been a demand for small size Buddha phosphorus with a distinctive tone.

For example, crystal singing bowls made of crystal glass are apparently used in Tibetan Buddhism and the like, and these bowls are of medium or large size and have an outer diameter of 150 mm or more.
The reason for this is that if it is made small, the sound is low and it cannot be used as a Buddha phosphorus.
However, in recent years, Buddhist altars installed in homes have become smaller, and accordingly, the size of the Buddhist altars installed on the altar has also been required to be smaller, just like other Buddhist altar fittings.
Crystal glass is a lead glass made by adding lead oxide to glass main components such as silica sand, potassium, and soda.It has higher transparency and refractive index than soda glass, and is generally called crystal because it is a shining transparent glass. has been done.
Although this crystal glass has a lower melting temperature than soda glass and is easier to mold, it has poor heat resistance with a softening temperature of 700°C or less, and a coefficient of linear expansion of 8.5 to 9.0 × 10 ^{- 6} /K (room temperature to 350 degrees Celsius), the sound is weak, and if it is made smaller, it will not be as phosphorous.
On the other hand, silica glass, which has a high purity of SiO ₂ and is also called quartz glass, has excellent heat resistance and a coefficient of linear thermal expansion of 4.7 to 6.9 × 10 ^-7 /K (30 to 600 °C ) and is smaller than crystal glass, and it is estimated that the sound quality will be better.
Silica glass consisting only of SiO ₂ with impurities of 10 to 100 ppm or less has been used for optical fibers and optical glasses, but there is no example of it being used for Buddhist phosphors.

For example, Patent Document 1 discloses a wind chime made of transparent glass, but although it makes a sound, its purpose is not to make a Buddha bell, but to pass light, so it is not a typical wind chime. It's glass.

Japanese Patent Application Publication No. 2001-158199

The purpose of this invention is to provide a tabletop Buddha phosphorus with a distinctive sound.

The Buddha phosphorus according to the present invention is a small Buddha phosphorus having an opening, and is characterized by being made of heat-resistant glass.
Here, it is preferable that the small Buddha phosphorus has an outer diameter of 30 to 70 mm and a height of 10 to 60 mm.

Here, heat-resistant glass is glass that is made only of silicon dioxide and has very high purity with impurities of 100 ppm or less.
The softening point is well over 1000℃, the heat resistance temperature at which bending strength begins to decrease is 800 to 1000℃, and the coefficient of thermal expansion is small at 4.7 to 6.9×10 ^-7 /K (30 to 600℃). Because it has excellent impact resistance, the sound resonates better than crystal glass.

Therefore, the Buddha phosphorus according to the present invention has better heat resistance than crystal glass and has better sound quality.

In the present invention, the shape of the Buddha phosphorus is not particularly limited, but it may be approximately bowl-shaped or approximately cup-shaped with an open top, for example.
Further, a support member may be provided at the bottom to induce vibrations of the Buddha ring.

Since the Buddha phosphorus according to the present invention is small and transparent, it can fit into a small space such as a small Buddhist altar.
Other Buddhist utensils such as candle holders, flower stands, and incense burners are also placed on the Buddhist altar.
Since the Buddha phosphor according to the present invention is transparent, the surrounding Buddhist utensils can be seen through the Buddha phosphorus, and the flickering of the candle flame is refracted by the Buddha phosphorus, creating a solemn atmosphere. It has the effect of illuminating the

Examples of the shapes of Buddha phosphorus are shown in (a) to (d). Examples of other shapes of Buddha phosphorus are shown in (a) to (d). Examples of other shapes of Buddha phosphorus are shown in (a) to (d). Examples of other shapes of Buddha phosphorus are shown in (a) to (d). Examples of other shapes of Buddha phosphorus are shown in (a) to (d). An example of a phosphorus rod is shown.

The Buddha phosphorus according to the present invention is made of highly pure silica glass (quartz glass) containing only silicon dioxide as a component, and examples of the shapes of the Buddha phosphorus are shown in FIGS. 1 to 5, respectively.
As a representative explanation based on FIG. 1(a), the Buddha phosphorus 10 according to the present invention has a bowl shape with an opening 11 at the top.
It is a rotating body centered on the central axis O, and only a front view is shown.
It is a tabletop Buddha rin with an outside diameter (outside shape) of 30 to 70 mm and a height of 10 to 60 mm.
The thickness T between the outer wall 13 and the inner wall 14 is 1 to 5 mm.
The bottom portion 12 may have a flat portion as shown in FIGS. 1(a) and (b), or may have a gently convex surface as shown in FIGS. It may be possible.
At this time, if support members 20 and 21 are provided at the bottom of the Buddha ring body as shown in Figures 1(b) and (d), the rocking of the Buddha ring body will be induced when the ring rod is struck, causing a large amount of vibration. It sounds long.
The material may be soft small cloth, resin, rubber, etc.

The shapes include a bowl shape as shown in Figure 1(a), a cup shape as shown in Figures 1(b) and 5(a), and as shown in Figures 2(b), 3(c), and 5(b). Examples include the glass shape shown in FIG. 1(c), FIG. 2(c), FIG. 4(b), (c), etc., the bowl shape of tableware shown in FIG. 5(c), etc. .

The Buddha phosphorus according to the present invention makes a sound by, for example, pinching the upper part of the phosphorus rod shown in FIG. 6 with your fingers and lightly hitting the side wall of the Buddha phosphorus.
Buddha phosphorus having the shape shown in FIG. 1(a) was made using lead glass and silica glass according to the present invention, and the rings were compared using the phosphorus rod shown in FIG. 6.
When five monitors separated the Buddha phosphorus so that it could not be seen and compared the sounds of the two, all five answered that the sound of the Buddha phosphorus of this invention was different from that of conventional glass.

10 Buddha Rin 11 Opening 12 Bottom

Claims (5)

A small Buddha phosphor with an opening, characterized in that it is made of heat-resistant glass. The small Buddha phosphorus according to claim 1, wherein the small Buddha phosphorus has an outer diameter of 30 to 70 mm and a height of 10 to 60 mm. The Buddha phosphorus according to claim 2, wherein the heat-resistant glass has better heat resistance than crystal glass. The Buddha phosphorus according to claim 2, characterized in that it is approximately bowl-shaped or approximately cup-shaped with an open top. 5. The Buddha ring according to claim 4, further comprising a support member at the bottom for inducing vibration of the Buddha ring.

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