JP2009174749A - Composition for clay target and clay target - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a composition for a clay target and the clay target using the composition, capable of satisfying basic characteristics of the target, that is, the combination of strength and crushing performance while having a composition of a low environment load in comparison with a conventional composition for the target of clay shooting, and further improving productivity which has not been considered previously. <P>SOLUTION: This composition includes an inorganic filler of 75-89 mass%, a polystyrene of 5-10 mass%, an aliphatic aromatic hydrocarbon resin of 2-4 mass%, an amorphous olefin resin of 2-5 mass%, and a stabilizer/lubricant of 2-7 mass%, and having heat plasticity. The inorganic filler preferably has a specific gravity of 2-3 g/cm<SP>3</SP>, and is preferably calcium carbonate. This clay target is obtained by injection-molding the composition. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a target used for clay shooting, and specifically to a target (clay target) used for clay shooting and a composition therefor.

  One of the competitions for shooting at the Olympics and other competitions is clay shooting competition. The clay shooting is a competition in which a target launched at a certain height from the target discharge machine is shot with a gun from a shooting position at a predetermined distance. Note that “shooting down a target” means that when a bullet fired from a gun hits the launched target, the target is crushed, specifically, broken into five or more pieces.

Therefore, the performance required for the target is as follows:
(1) When the target is launched from the target discharge machine, it has a strength capable of withstanding the mechanical blow.
(2) When a bullet hits a target, the target can be easily broken apart (more than 5),
(3) The color of the target is a color that is easy for the competitor to distinguish, such as white,
(4) The size is within a predetermined range.
(5) The weight is within a predetermined range.

The target performance and size shown above are set by the clay shooting competition group as follows:
Diameter: 110 ± 1mm
Height: 25-26mm
Weight: 105 ± 5g
Color: Visible clearly against the background of the shooting range under normal rays.
Destruction: Easily destroyed by standard skeet trap loadings within a specified range, with strength to withstand a distance of 80m

Traditionally, targets that have been widely used in clay shooting have been mainly produced from petroleum pitch and the like. However, since pitch is a material that affects the environment, targets that do not use pitch have been proposed. For example, as disclosed in Patent Document 1 and Patent Document 2, non-metallic minerals such as fly ash, gypsum, and limestone are proposed. Is disclosed.
JP-A-11-351800 JP 2006-266531 A

  However, as described above, as a result of replacing the petroleum pitch with an inorganic material, both the strength to withstand the launch force of the discharge machine, which is a basic characteristic as a target for clay shooting, and the friability when hit by a bullet are achieved. The targeting compositions disclosed in the above references must contain large amounts of sulfur and sulfur modifiers and fibrous materials.

  It is clear that sulfur easily produces sulfur oxides such as sulfuric acid by oxidation, and if this diffuses into the mountains, it is not preferable for plants and animals. Therefore, if such substances are included, it cannot be said that the original purpose of excluding environmentally hazardous substances has been achieved. Similarly, since sulfur oxides are generated in the manufacturing process, the environmental load at the production stage is large.

  In addition, if the fibrous material is scattered in the air due to cracking of the clay, there is a concern that it may adhere to the athlete's own body surface or the animal's body surface and give a stimulus, or it may be sucked and damage the respiratory organs. After all, it is not preferable from the viewpoint of mitigating environmental load.

That is, the target composition disclosed so far has not been satisfactory from the viewpoint of mitigating environmental burden.
In addition, the composition for clay targets, which has been disclosed so far as being “environmentally friendly”, has been too much to produce both the basic properties required for clay targets such as cracking and environmental compatibility. Little attention was paid to sex. For this reason, as a manufacturing method, it was only possible to manufacture by press molding, which is not necessarily high in productivity.

  The present invention satisfies the basic target characteristics of both strength and friability while having a composition with less environmental impact than the conventionally proposed clay shooting target composition, and has been studied so far. A target composition for clay shooting (hereinafter referred to as “clay target composition”) and a target for clay shooting using the composition (hereinafter referred to as “clay target”). ")").

In order to solve the above-described problems, the present inventors have focused on injection molding with the highest productivity as a method for creating a shape of a resin-based material. However, as is apparent from the principle of injection molding, the composition of interest is required to be thermoplastic. Specifically, the actual injection molding temperature determined by the composition, for example, 130 ° C. to In the range of about 250 ° C., it must have high fluidity such that it is injected into the mold at a pressure of several t / cm ² from an injection hole with a diameter of several mm.

  However, since conventional clay target compositions contain a large amount of inorganic material (for example, non-metallic mineral in Patent Document 1) in order to ensure the strength and friability required as a clay target, It was extremely difficult to reduce the resin fluidity.

  As a result of various studies using materials having a relatively low environmental load compared to pitch and the like, the present inventor solves the above-mentioned problems by blending a plurality of types of specific organic materials at a specific content. The knowledge that it was possible was obtained.

  The invention completed based on this knowledge is as follows.

  (1)% by weight, 75-89% inorganic filler, 5-10% polystyrene, 2-4% aliphatic aromatic hydrocarbon resin, 2-5% amorphous olefin resin, and stabilizer / lubricant 2-7%, and a clay target composition characterized by being thermoplastic.

(2) The clay target composition according to (1), wherein the inorganic filler has a specific gravity of 2 to ³ g / cm ³ .

  (3) The composition for clay targets according to the above (1), wherein the inorganic filler is calcium carbonate.

  (4) A clay target composition comprising 10 parts by mass or less of a colorant with respect to 100 parts by mass of the clay target composition described in (1) to (3) above.

  (5) A clay target obtained by injection molding the composition for clay target described in (1) to (4) above.

  The composition according to the present invention realizes strength and friability that are comparable to conventional targets without using not only pitch but also sulfur and the like. Moreover, since it is thermoplastic, it is possible to mold a clay target by injection molding with the highest productivity as a method for creating a shape of a resin material.

  For this reason, a clay shooting target using such a composition, using a conventional release machine, gives the user a shooting sensation similar to that of a conventional target, while reducing the environmental load more than ever. be able to. Therefore, post-processing is easy and processing costs at the shooting range can be greatly reduced. Moreover, since it is produced by injection molding, production efficiency has been dramatically increased. Moreover, since the clay target after use is also a thermoplastic material, if it is pulverized, it can be made into an injection molding material again. By doing so, the productivity efficiency is further improved and the environmental load is reduced. Is realized.

  The present invention will be specifically described below with a focus on the best mode. In this specification, “%” means mass% unless otherwise specified.

1. Composition (1) Outline The composition for clay target according to the present invention comprises 75 to 89% inorganic filler, 5 to 10% polystyrene, 2 to 4% aliphatic aromatic hydrocarbon resin, and amorphous olefin resin. Contains 2-5%, and 2-7% stabilizer / lubricant.
Each component will be described below.

(2) Inorganic filler The inorganic filler that is one of the components of the clay target composition according to the present invention is a material that is not an organic material, that is, a metal, a metal-containing inorganic compound, a nonmetallic compound, or a composite thereof. An aggregate of a product or a mixture having a spherical equivalent diameter of 3 mm or less. This inorganic filler is for making specific gravity of the whole composition into a predetermined range (about 1.7-2.5 g / cm < ³ >). Accordingly, the specific gravity is preferably 2 to ³ g / cm ³ , that is, 1.5 g / cm ³ or more and less than 3.5 g / cm ³ , and can easily satisfy the weight range required as the basic characteristics of the clay target. it can. In this respect, the inorganic filler is particularly preferably 1.7 to 3.0 g / cm ³ .

  Specific examples of the inorganic filler include iron powder, aluminum powder, and zinc powder as inorganic fillers made of metal. Examples of the inorganic filler made of a metal-containing inorganic compound include calcium carbonate, precipitated barium sulfate (barite), calcium sulfate (gypsum), aluminum hydroxide, magnesium carbonate, magnesium hydroxide, magnesium oxide, and titanium oxide. Examples of the inorganic filler made of a nonmetallic compound include glass, glass fiber, diatomaceous earth, and carbon black. Examples of these composites include talc, kaolin clay, feldspar powder, acid clay, mica, wax stone clay, and sericite. It is good also as an inorganic filler which has predetermined | prescribed specific gravity by selecting multiple from these and mix | blending an appropriate amount of each.

Of these inorganic fillers, it is preferable to contain calcium carbonate.
In the present invention, the inorganic filler is preferably used in the form of powder or particles. The particle size distribution is preferably 0.1 μm to 1.0 mm. A range of 0.1 μm to 0.5 mm is more preferable, and a range of 0.1 μm to 100 μm is most preferable. If the particle size is less than 0.1 μm, there is a concern that the particles are not uniformly dispersed due to aggregation. If the particle size exceeds 1.0 mm, it is difficult to uniformly disperse, which may cause variations in product quality. When the shape of the inorganic filler is fibrous, there is a high possibility that the mold will be damaged in the injection molding process and the mold life will be significantly reduced. Therefore, the shape of the inorganic filler is preferably not fibrous.

  The content of the inorganic filler is in the range of 75 to 90%. If it is less than 75%, the clay target does not fall apart when hit with a bullet, that is, there is a high possibility that the crushability will be unsatisfactory, and if it exceeds 90%, the clay target will have a satisfactory strength. There is a risk of not. In this respect, the content of the inorganic filler is particularly preferably 75% to 85%.

(3) Polystyrene Polystyrene, one of the components of the clay target composition according to the present invention, is an amorphous thermoplastic resin and can be injection-molded. In addition, from the viewpoint of mechanical properties, general-purpose polystyrene (General Purpose Poly-Styrene: GPPS) may be used. It may be used.

  By containing 5 to 10% of polystyrene, it is realized that the surface hardness of the clay target made of the composition according to the present invention is in an appropriate range, and therefore, the strength and the friability are balanced. A preferable content rate is 6 to 8% from the viewpoint of making this balance highly compatible.

(4) Amorphous olefin polymer An amorphous olefin polymer, which is one of the components of the clay target composition according to the present invention, is an unsaturated hydrocarbon having one or more carbon double bonds. Among the polymer compounds obtained by polymerization, it means an amorphous compound.

  The amorphous olefin polymer serves as a binder for bonding and fixing the inorganic filler. In addition, since it is not crystalline, the volume shrinkage during cooling is relatively small when injection molding is performed, and the shape of the clay target as a product hardly changes. This means that the flight path after the clay target is launched is stable. The range of the content for appropriately fulfilling such a function is 2 to 5%, and 3 to 4% is particularly preferable.

(5) Aliphatic aromatic hydrocarbon resin The aliphatic aromatic hydrocarbon resin which is one of the components of the composition for clay targets according to the present invention is a synthetic polymer material composed of a compound comprising carbon and hydrogen. In addition, a residue of a compound in which all carbon molecules are connected in a single chain, or a residue of a compound that does not contain a cyclic structure even if the chain of carbon atoms has a branched structure is part of the main skeleton. And / or a residue of a compound containing a benzene ring as a part of the main skeleton.

  The aliphatic aromatic hydrocarbon resin according to the present invention is for bonding other inorganic components / organic components such as calcium carbonate, polystyrene, and amorphous olefin polymers in the composition according to the present invention to each other. is there. Therefore, among aliphatic aromatic hydrocarbon resins, it exhibits tackiness and / or adhesiveness at room temperature, and is used as a pressure-sensitive adhesive or an adhesive, particularly a hot-melt adhesive, having an average molecular weight of 100 to 10,000, preferably It is preferable to use an aliphatic or aromatic hydrocarbon resin having a softening point of 300 to 3000 and a softening point of 70 to 150 ° C, preferably 80 to 120 ° C.

  The content of the aliphatic aromatic hydrocarbon resin is 2 to 4%, preferably 2 to 3.5%, particularly preferably 2 to 3.0%. Since it functions as a binder as described above, if it is out of this range, it will be out of the strength range and / or friability range required when it is used as a clay target. Moreover, when it contains excessively, the viscosity in injection molding temperature will become high and a moldability will fall.

(6) Stabilizer / Lubricant The stabilizer / lubricant, which is one of the components of the clay target composition according to the present invention, promotes uniform dispersion of each component in the composition, and in the mold when injection molded. It is for improving fluidity. Any compound may be used as long as it fulfills this function, but fatty acids and / or fatty acid salts are preferably used.

  The content of the stabilizer / lubricant according to the present invention is 2 to 7% in order to perform the above-described function. When the content rate is lower than this range, there is a concern about a decrease in dispersibility and a decrease in injection moldability. Moreover, when content rate is higher than this range, there exists a concern about the fall of intensity | strength. The range of a preferable content rate is 4 to 7%, and if it is 6 to 7%, it is especially preferable.

(7) Other components The clay target composition according to the present invention may contain a colorant as the other components. The clay target is required to be entirely black, white, yellow, orange, or the entire dome part painted in white, yellow, orange. Therefore, it is necessary to add a colorant to the composition as necessary to obtain a desired color. The colorant for this purpose may be titanium oxide if it is white, an organic or inorganic pigment for yellow or orange, and a known colorant such as carbon black for black. In the case of a material that can be a component of the above-mentioned inorganic filler such as titanium oxide or carbon black, it may be added as a part of the inorganic filler. Otherwise, the composition 100 other than the colorant is used. What is necessary is just to make it contain a suitable quantity according to a desired color tone at 10 mass parts or less with respect to a mass part. When the amount exceeds 10 parts by mass, there is a concern that the material may affect mechanical properties and injection moldability.

  As a coloring method, instead of mixing a colorant into the composition, a predetermined pigment may be present on the surface after the clay target is formed. The simplest method for this is coating.

2. Method for adjusting composition There is no particular limitation in adjusting the composition according to the present invention. Therefore, what is necessary is just to add said components in arbitrary orders and to mix using a well-known kneading machine.

  Further, since the composition according to the present invention is thermoplastic, if the entire composition is heated to 100 ° C. or higher, preferably 120 ° C. or higher, the fluidity of the entire composition is increased, and the uniformity in kneading is improved. Realized. However, if it is 200 ° C. or higher, decomposition of the organic material becomes remarkable, and it may be difficult to obtain desired mechanical properties, or the target color may not be realized. It is preferable to carry out with.

3. Clay Target Production Method In the present invention, the composition prepared by the above method is used as a clay target by injection molding. For this reason, the once adjusted composition is put into a hopper of a known injection molding machine as pellets (preferably a cylindrical body having a diameter of several mm and a length of about 1 cm) by extrusion molding or the like. Subsequently, the charged pellets are heated to a temperature appropriately determined by the composition of the composition, typically about 130 ° C. to 250 ° C. to reduce the viscosity of the composition, and below the upper limit pressure allowed by the injection molding machine. The pressure is appropriately determined depending on the composition of the composition, specifically, for example, 0.5 to 3 t / cm ² , and the viscosity is set in a mold in which the clay shape is formed into a hollow shape in a clamped state. A composition having a reduced viscosity is injected. The composition in the mold cooled by elapse of a predetermined time is taken out as a clay target by opening the mold.

Thus, since the clay target according to the present invention can be produced by injection molding of the above-described clay target composition, the composition is required to have thermoplasticity.
Here, since the composition according to the present invention has such thermoplasticity, the debris (crushed pieces) formed as a clay target and used for shooting competitions and crushed naturally also has thermoplasticity. . Therefore, if this debris is recovered and pulverized to a size that can be put into an injection molding machine, it is possible to form a clay target again using this as a raw material. In this way, it is possible to minimize the diffusion of synthetic organic compounds that do not exist in nature to the environment, and to significantly reduce the environmental load.

  As described above, the composition according to the present invention is preferably manufactured by injection molding, but may be manufactured by press molding.

  Then, although this invention is further demonstrated using an Example, an Example shows one aspect | mode of this invention and this invention is not limited by the content.

[Example 1]
In mass%, calcium carbonate (calcium bicarbonate BF800 manufactured by Bihoku Flour Industries Co., Ltd., the same shall apply hereinafter) is 82%, polystyrene (PSJ polystyrene 679 manufactured by PS JAPAN, the same applies hereinafter) 6%, resin aromatic 2% of hydrocarbon resin (manufactured by Nippon Zeon Co., Ltd., Quinton U185, the same shall apply hereinafter), 3% of amorphous olefin resin (Evonik Degussa Japan Co., Ltd., VESTOPLAST, the same shall apply hereinafter), stearic acid (stable / lubricant A clay composition for clay target was prepared by mixing ADEKA STAB SA400 manufactured by ADEKA Co., Ltd., 6.4%, and 0.6% orange pigment.

Next, this composition was pelletized and injection molded using an injection molding apparatus to obtain 40 dishes of clay targets. The average product weight was 103 g.
When these clay targets were set on a target release machine and launched, no cracks (outbreaks) occurred when the clay target was launched from the target release machine. In addition, each flight process is almost the same, there is no blur, and as a result of shooting and hitting them, it becomes 6 to 10 large crushed pieces and a small amount of small crushed pieces, and has suitable crushability. It was confirmed.

[Example 2]
By weight, 83% calcium carbonate, 5% polystyrene, 2% resin / aromatic hydrocarbon resin, 3% amorphous olefin resin, 6.4% stearic acid as a stabilizer / sliding material, orange A clay target composition mixed with 0.6% of pigment was prepared. The composition was then injection molded to obtain 20 dishes of clay targets. The average product weight was 105 g.

  Subsequently, when these clay targets were set on a target release machine and launched, no cracks (outbreaks) occurred when the clay target was launched from the target release machine. In addition, each flight process is almost the same, there is no blur, and as a result of shooting and hitting them, it becomes 6 to 10 large crushed pieces and a small amount of small crushed pieces, and has suitable crushability. It was confirmed.

[Example 3]
By weight, 85% calcium carbonate, 5% polystyrene, 2% resin / aromatic hydrocarbon resin, 2% amorphous olefin resin, 5.5% stearic acid as a stabilizer / sliding material, orange A clay target composition mixed with 0.5% pigment was prepared. The composition was then injection molded to obtain 20 dishes of clay targets. The average value of the product weight was 107 g.

  Subsequently, when these clay targets were set on a target release machine and launched, no cracks (outbreaks) occurred when the clay target was launched from the target release machine. In addition, each flight process is almost the same, there is no blur, and as a result of shooting and hitting them, it becomes 6 to 10 large crushed pieces and a small amount of small crushed pieces, and has suitable crushability. It was confirmed.

[Example 4]
Mass%, calcium carbonate 80%, polystyrene 6%, resin / aromatic hydrocarbon resin 2%, amorphous olefin resin 4%, stearic acid 7.2% as a stable / sliding material, white A clay target composition mixed with 0.8% of pigment was prepared. The composition was then injection molded to obtain 20 dishes of clay targets. The average product weight was 103 g.

  Subsequently, when these clay targets were set on a target release machine and launched, no cracks (outbreaks) occurred when the clay target was launched from the target release machine. In addition, each flight process is almost the same, there is no blur, and as a result of shooting and hitting them, it becomes 6 to 10 large crushed pieces and a small amount of small crushed pieces, and has suitable crushability. It was confirmed.

[Comparative Example 1]
Clay target mixed with 75% calcium carbonate, 8% polystyrene, 7% resin / aromatic hydrocarbon resin, 8% amorphous olefin resin, and 2% stearic acid as a stabilizer / slider. The composition for preparation was prepared. The composition was then injection molded to obtain 20 dishes of clay targets. The average product weight was 100 g.

  Subsequently, when these clay targets were set on a target discharge machine and launched, no cracks (cracking) occurred when they were launched from the target discharge machine, and all the flight strokes were almost the same, and blurring was not caused. There wasn't. However, as a result of shooting and hitting them, there were 3 to 6 large pieces and a small amount of small pieces, and the size of the large pieces was irregular and varied. Therefore, it was confirmed that it did not have suitable crushability.

[Comparative Example 2]
Clay target mixed with 78% calcium carbonate, 8% polystyrene, 5% resin group / aromatic hydrocarbon resin, 7% amorphous olefin resin, and 2% stearic acid as a stabilizer / sliding material. The composition for preparation was prepared. The composition was then injection molded to obtain 20 dishes of clay targets. The average product weight was 102 g.

  Subsequently, when these clay targets were set on a target discharge machine and launched, no cracks (cracking) occurred when they were launched from the target discharge machine, and all the flight strokes were almost the same, and blurring was not caused. There wasn't. However, as a result of shooting and hitting them, there was a hole in a part of the target, but the target itself did not break. Therefore, it was confirmed that it did not have suitable crushability.

[Comparative Example 3]
Clay target mixed with 80% calcium carbonate, 6% polystyrene, 2% resin / aromatic hydrocarbon resin, 6% amorphous olefin resin, and 6% stearic acid as a stabilizer / sliding material. The composition for preparation was prepared. The composition was then injection molded to obtain 30 dishes of clay targets. The average product weight was 102 g.

  Subsequently, when these clay targets were set on a target release machine and launched, cracks (outbreaks) may occur when they are launched from the target release machine, confirming that they do not have the required strength. It was done.

Claims (5)

  In weight percent, inorganic filler 75-89%, polystyrene 5-10%, aliphatic aromatic hydrocarbon resin 2-4%, amorphous olefin resin 2-5%, and stabilizer / lubricant 2 A clay target composition comprising 7% and being thermoplastic. The clay target composition according to claim 1, wherein the inorganic filler has a specific gravity of 2 to ³ g / cm ³ .   The composition for clay targets according to claim 1, wherein the inorganic filler is calcium carbonate.   A clay target composition comprising 10 parts by mass or less of a colorant with respect to 100 parts by mass of the clay target composition according to claim 1.   A clay target obtained by injection molding the composition for clay target according to claim 1.