JP2003062124A - Smoke ball - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a smoke ball containing an ignition agent similar in a calorific value to that of the conventional trilead tetraoxide/silicon without toxicity and without the generation of gas at ignition by taking place of the conventional trilead tetraoxide/silicon. SOLUTION: This smoke ball has an outer shell which constitutes the shape of a ball, the ignition agent which is arranged in an internal space formed by this outer shell and is ignited by the impact exerted to the outer shell, a smoke-producing agent which is made to emit smoke by the ignition of the ignition agent and a fuming aperture which is disposed on the outer shell. The ignition agent has a metal/PTFE-base pyrolant containing metal and polytetrafluoroethylene and a binder component.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a smoke-producing ball, and more particularly to a smoke-producing ball used in golf ceremonies, for example, which emits smoke by external impact.

[0002]

2. Description of the Related Art A fuming golf ball is used as a starting ball type in a golf competition ceremony or the like. A conventional fuming golf ball has a golf ball-shaped outer shell provided with a smoke ejection opening, and an igniting agent and a fuming agent disposed in an inner space formed by the outer shell. The pyrotechnic agent is attached to the fine stones filled in the internal space. When you hit this fuming golf ball with a golf club, the impact causes the small stones in the fuming ball to collide with each other, causing the pyrotechnic agent to ignite. Gush out. As a result, the fuming ball flies while ejecting smoke.

In conventional fuming golf balls, trilead tetroxide / silicon was used as an ignition agent. However, trilead tetroxide is toxic, and if the fuming ball released at the ceremony remains undiscovered and uncollected, the trilead tetraoxide contained in the fuming golf ball left on the golf course will remain. It may elute and may have an adverse effect on the environment. Therefore, it is highly likely that trilead tetroxide will not be used in the future. Therefore, it is desired to develop an ignition agent that replaces trilead tetraoxide / silicon.

Since trilead tetroxide and silicon cause an exothermic reaction represented by the following formula 1, it has a feature that the surrounding smoke generating agent can be heated without generating gas at the time of ignition.

[0005]

## EQU1 ## Pb ₃ O ₄ + 1 / 2Si → 3PbO + 1 / 2SiO ₂ Formula (1) Therefore, a smoke-generating ball using an ignition agent that does not generate gas during ignition and generates heat equivalent to that of trilead tetroxide / silicon. Is desired.

[0006]

Therefore, the present invention aims to solve the above problems. That is, the present invention is
To provide a fuming ball containing, instead of conventional trilead tetroxide / silicon, a non-toxic gas that does not generate gas when ignited, and an ignition agent having a calorific value similar to that of conventional trilead tetroxide / silicon. With the goal.

[0007]

Means for Solving the Problems The means of the present invention for solving the above problems are arranged in an outer shell having a shape of a ball and an inner space formed by the outer shell and added to the outer shell. A metal having a igniting agent ignited by impact and a smoke emitting agent that emits smoke by igniting the igniting agent, and a fumes opening provided in the outer shell, wherein the igniting agent contains a metal, polytetrafluoroethylene, and a binder component. / PTFE-based pyrolant is a fuming ball,
The metal in the metal / PTFE-based pyrolant is M
It is at least one metal that can be selected from the group consisting of g, Mg / Al alloy, Ti, Zr, B, and Li.

[0008]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of a smoke-producing ball according to the present invention will be described below with reference to the drawings. FIG. 1 is a schematic sectional view showing an embodiment of the smoke-producing ball of the present invention.
The fuming ball 1 has an outer shell 10, a firing agent 13, a fuming agent 14, and a fumes opening 11. The outer shell 10 is a ball-shaped member. The ball in this example is a grand golf ball. The outer shell 10 is formed of hemispheres 10a and 10b. Each of the hemispheres 10a and 10b has a shape obtained by cutting a ground golf ball in half, and has a spherical concave portion. A fitting portion 10c that can be fitted is formed on each cut surface. Hemisphere 10
On the outer peripheral surfaces of a and 10b, two smoke emission openings 11 are formed. The plume opening 11 is a hemisphere 10.
It penetrates the outer peripheral surface and the inner peripheral surface of a and 10b. The diameter of the plume opening 11 is usually 3 to 7 mm, preferably 4 to 5 mm. There is no limit to the number of smoke emission openings, and they are provided as needed. The plume opening may or may not be closed with a membrane. The material of the blocking film is not particularly limited as long as it is a material that is easily destroyed by the combustion gas pressure, and usually aluminum foil, gun leather or the like is used. The inner space 12 formed by the outer shell 10 has a spherical shape.
And a smoke generating agent 14 formed by spherically covering the periphery of the.

The igniting agent 13 has an igniting agent, fine stones 15 or sand, and a binder component. As the ignition powder, a metal containing a metal and polytetrafluoroethylene (PTFE) /
A PTFE-based pyrolant can be exemplified. The metal / PTFE-based pyrorants are preferable since they are non-toxic, generate heat as much as conventional trilead tetroxide / silicon, and do not generate gas when heat is generated. Further, the metal / PTFE type pyrolant is easily ignited when the temperature is set to 700 ° C. or more, and the hammer sensitivity is about the same as that of the conventional trilead tetroxide / silicon. Metal / P in Metal / PTFE Pyrorant
The compounding ratio with TFE is not particularly limited, but metal and PTFE
When the content of PTFE is in the range of at most 47% by weight with respect to the total amount of the above, the pyrollant is in a solid state and exhibits properties equivalent to those of trilead tetroxide / silicon, which is desirable. Metal / P
Examples of the metal used for the TFE-based pyrorant include M
g, Mg / Al alloy, Ti, Zr, B, and Li may be mentioned. Among them, Ti is preferable.

Viton (polyvinylidene fluoride), for example, can be used as the binder component. By mixing polyvinylidene fluoride, the pyrotechnic powder becomes a mud and is easily attached to the surface of the fine stone 15. The compounding ratio of the metal / PTFE-based pyrolant and the binder component in the ignition agent is not particularly limited, but considering the adhesion of the pyrotechnic agent to the surface of the fine stones, the total amount of the metal / PTFE-based pyrolant and the binder component is It is desirable that the binder component is in the range of 3 to 45% by weight. Further, other components may be added to the ignition agent 13 if necessary. For example, carbon powder or the like can be added.

The ignition agent 13 is prepared by appropriately mixing 50 to 90% by weight of metal, 47% by weight or less of PTFE, and 3 to 45% by weight of a binder component such as polyvinylidene fluoride so that the total amount becomes 100% by weight. After gently mixing with a bamboo spatula or the like, this mixture is added to 20 to 80% by weight of fine stones or sand with respect to the mixture and gently mixed to uniformly adhere to the surface of the fine stones, and then dried. To do.

The igniting agent 13 is filled in the igniting agent bag 13a. The shape of the igniting agent 13 is spherical, but the shape is not particularly limited, and the size, shape and the like can be selected according to the purpose. The ignition bag 13a may be made of synthetic resin, cloth, paper or the like.

The smoke producing agent 14 is not particularly limited and may be appropriately selected depending on the purpose. From the viewpoint of ease of preparation, cost, and the like, the combination of potassium chlorate, midine powder, starch, and colorant is advantageous.

In the case of red smoke, examples of the colorant include Pigment Red-1, Beige Violet-10, Para Red, Oil Red, Rhodamine and the like. Among these, the combination of Pigment Red 1 and Beige Violet 10 is preferable. Pigment Blue 15, as a coloring agent that emits blue smoke,
Vat blue, phthalocyanine blue, indigo, etc. can be mentioned. Among these, the combination of Pigment Blue 15 and Bat Blue is preferable. Colorants that emit yellow smoke are oil yellow and yellow M
SC etc. can be mentioned. In the case of green smoke, green 533 or the like can be given. In the case of black smoke, anthracene, potassium perchlorate, etc. can be mentioned. The above colorants may be used in combination of two or more types depending on the purpose.

The fuming agent 14 is potassium chlorate 23-33.
% By weight, 3 to 7% by weight of ginseng powder, and 9 to 15 starch
%, 45 to 55% by weight of colorant, and a small amount of water are added and kneaded. This preparation is passed through a suitably selected sieve and granulated. For example, after passing through a sieve of about 8 mesh, it is passed through a sieve of 20 mesh, and the particulate matter remaining on the sieve is used as the smoke generating agent 14.

A smoldering agent bag 13a loaded with a smoldering agent 13 is embedded in the smoke generating agent 14, and the smoke generating agent 14 in a state where the smoldering agent bag 13a is contained is filled in the smoke generating agent bag 14a. The smoke producing bag 14a is appropriately formed by using the same material as that of the ignition agent 13a.

For example, in FIG. 1, the smoke generating agent 14
Is filled around the spherical igniting agent 13 such that the spherical igniting agent 13 is located at the center, and is formed into a spherical shape as a whole. However, the overall shape of the smoke generating agent 14 is not particularly limited, and the size, shape, etc. can be selected according to the purpose.

The amounts of the igniting agent 13 and the smoke producing agent 14 used can be appropriately determined according to the purpose. The weight ratio of the igniting agent 13 and the smoke generating agent 14 is, for example, 7: 3 to 7: 5, preferably 7: 4.

The fuming ball 1 is assembled as follows. The spherical smoke generating agent 14 is housed in the spherical concave portion of the hemisphere 10b and lightly bonded with an adhesive. Next, the hemisphere 10a is covered with the smoke generating agent 14, and the joining surfaces 10c of the hemispheres are joined to each other and fixed by an adhesive. The outer shell 10 does not necessarily need to be formed of two members, and may be formed of one member as long as the igniting agent 13 and the smoke generating agent 14 can be fixed as described above, or three or more members. You may form with.

The fuming ball 1 can be used, for example, as follows. Place the smoke ball 1 on the ground or on the tee with the tee up. The direction of the smoke-generating ball 1 at this time does not matter. Hit and fly the fuming ball 1 with a golf club, mainly a No. 1 wood club. The impact by the club causes the fine stones 15 in the smoke-producing ball 1 to collide with each other, and the ignition agent 13 containing the metal / PTFE-based pyrolant attached to the surface of the fine stones 15 is ignited. Due to this ignition, the smoke producing agent 14 adjacent to the ignition agent 13 emits smoke. The interior space 12 formed by the outer shell 10 is filled with smoke, and the pressure of this smoke causes the smoke exhaust opening 1
The film that closes 1 is broken, and smoke is ejected from the plume opening 11. As a result, the fuming ball 1 flies while ejecting smoke.

[0021]

Example (Example) Preparation of ignition agent An ignition agent was prepared by mixing 50% by weight of metal Ti powder, 40% by weight of acetone, 5% by weight of carbon, and 5% by weight of PTFE. A drop hammer sensitivity test was conducted using the prepared ignition agent. The drop hammer sensitivity was measured using a drop hammer sensitivity tester manufactured by Sakashita Seisakusho. Similarly, with respect to the conventional ignition agent, trilead tetroxide / silicon, the hammer sensitivity was used as a comparative example. The results are shown in Table 1. It was found that the falling hammer sensitivity of Ti / PTFE pyrorant was equivalent to that of trilead tetroxide / silicon.

[0022]

[Table 1]

[0023]

EFFECTS OF THE INVENTION According to the present invention, it is possible to provide a smoke-producing ball which is non-toxic, does not generate a gas upon ignition, and contains an ignition agent having a calorific value similar to that of conventional trilead tetroxide / silicon. .

[Brief description of drawings]

FIG. 1 is a cross-sectional view of a smoke-producing ball which is an embodiment of the present invention.

[Explanation of symbols]

10 ... Outer shell, 10a ... Hemisphere, 10b ... Hemisphere, 10c ... Joint, 11 ... Smoke opening, 1
2 ... internal space, 13 ... ignition agent, 13a ... ignition agent bag, 14 ... smoke agent, 14a ... smoke agent bag, 1
5 ... fine stones

   ─────────────────────────────────────────────────── ─── Continued front page    (72) Inventor Tsuyoshi Ogura             1847 Sugo, Akiruno-shi, Tokyo Hosoya Fireworks Co., Ltd.             In the company (72) Inventor Hidefumi Shibamoto             1847 Sugo, Akiruno-shi, Tokyo Hosoya Fireworks Co., Ltd.             In the company

Claims (4)

[Claims] 1. An outer shell in the shape of a ball, an igniting agent disposed in an inner space formed by the outer shell and ignited by an impact applied to the outer shell, and a smoke emitting agent igniting by ignition of the igniting agent. A smoke emitting opening provided in the outer shell, wherein the igniting agent comprises a metal / PTFE-based pyrolant containing a metal and polytetrafluoroethylene, and a binder component. 2. The metal is Mg, Mg / Al alloy, T
A metal that can be selected from the group consisting of i, Zr, B, and Li.
Fume ball described in. 3. The fuming ball according to claim 1, wherein the weight ratio of the metal in the pyrotechnic agent / the metal in the PTFE-based pyrorant and the binder component is 90:10 to 50:50. 4. The smoke-generating ball according to claim 1, wherein the binder component is polyvinylidene fluoride and / or polytetrafluoroethylene.