JP4681282B2 - Heating agents, igniting agents and smoke cylinders - Google Patents

Description

  The present invention relates to a heating agent, an ignition agent, and a smoke cylinder, and more particularly, a heating agent and an ignition agent that are used as a smoke cylinder, a smoke bomb, a fireworks, a blast, etc. and are as harmless as possible to the environment and human livestock. In addition, the present invention relates to a smoke cylinder having the above-described heating agent and ignition agent and having excellent smoke generation properties.

  In addition to being used as an abnormality notification means, smoke cylinders are used for pseudo fire occurrence notification means during disaster prevention drills, distress relief signal means during mountain climbing, or special effects during various airtight tests, plays, movies or photography. It is used for various purposes as a means of use.

  Smoke cylinders used under such circumstances generally have a cylindrical form of ignition means including a smoke generator, a heating agent for heating the smoke generator, and an ignition agent for igniting the heating agent. It is configured to be stored in a container.

  Conventionally, a mixture containing paraffin as a main component has been used as a smoke generating agent. In addition, as a heating agent, lead trioxide, silicon powder, manganese dioxide, cupric oxide, a mixture containing dextrin as an organic fuel, and as an ignition agent, lead trioxide, silicon powder, Admixtures containing cupric oxide are each used.

  In recent years, the smoke cylinders have been developed for disaster prevention training and for disaster relief during mountain climbing. Such a smoke cylinder is required to be harmless to the environment and human livestock in addition to being small and light.

  Since the conventional smoke cylinder described above contains a lead compound having toxicity as a component of a heating agent and an ignition agent, it is suitable for portable use as well as in a large-scale use situation such as disaster prevention training. It was a hard to say smoke cylinder. Further, the conventional smoke cylinder has a problem that soot and irritating odors are generated when smoke is emitted.

  The present invention solves such problems, and provides heating agents and ignition agents that are used for smoke cylinders, smoke bombs, fireworks, blasting, etc. and are as harmless as possible to the environment and human livestock. The present invention provides a smoke bomb that has a heating agent and an ignition agent, maintains smoke emission equivalent to a smoke bomb containing a conventional lead compound, is non-toxic, and prevents generation of soot and irritating odors. Let it be an issue.

  In order to solve the above-mentioned problems, the present inventors have made various studies. As a result, instead of a heating agent containing a toxic lead oxide, it contains no lead oxide and contains silicon and a metal oxide. In place of the igniting agent containing the toxic lead oxide, the mixture comprising the alkali metal nitrate, silicon and metal oxide is used instead of the igniting agent containing the toxic lead oxide. It has been found that the above-mentioned problems can be solved by using an ignition powder, and the present invention has been completed based on this finding.

The first means for solving the problems of the present invention is as follows:
(1) Lead oxide-free, comprising potassium nitrate , silicon and copper oxide , the silicon having an average particle size of at most 100 μm, and the potassium nitrate , silicon and copper oxide When the total mass is 100 parts by mass, the mixing ratio of the potassium nitrate is 5 to 20 parts by mass, the mixing ratio of the silicon is 50 to 80 parts by mass, and the mixing ratio of the copper oxide is 10 to 10 parts by mass. An ignition powder characterized by being 40 parts by mass.

The second means for solving the above-mentioned problem of the present invention is as follows:
( 2 ) comprising a smoke generating agent formed in a cylinder containing paraffin, a heating agent loaded in an inner space of the cylinder, and an ignition means including an ignition agent for igniting the heating agent. In the smoke cylinder
The heating agent contains no lead oxide and no organic fuel, and contains a silicon and metal oxide, or contains no lead oxide and no organic fuel, and includes silicon and metal oxides. The silicon has an average particle size of at most 100 μm, and the metal oxide is selected from iron oxide, copper oxide, zinc oxide, nickel oxide, tin oxide and magnesium oxide A heating agent that is at least one kind of
The smoke igniter is the above-mentioned ( 1 ) ignition agent.

  According to the present invention, instead of a heating agent containing a toxic lead oxide, a lead acid compound containing no lead oxide and containing silicon and a metal oxide is used as a heating agent. Instead of lead-containing igniting agents, lead oxide-free mixtures containing alkali metal nitrates, silicon and copper oxides are used as igniting agents, so smoke cylinders, smoke bombs, fireworks, A heating agent and an igniting agent that are used for blasting and the like and are as harmless as possible to the environment and human livestock are provided, and a conventional smoke cylinder containing these heating and igniting agents and containing a lead compound, There is provided a smoke cylinder that maintains the same smoke generation property, is non-toxic, and prevents generation of soot and irritating odors, and contributes greatly to the design and production field of smoke cylinders and the like.

(1) The heating agent of the present invention contains no lead oxide and no organic fuel, and contains silicon and a metal oxide.

  Since the heating agent of this invention does not contain lead oxide, for example, lead trioxide that has been conventionally used, it does not generate lead and lead oxide during use, and has no environmental impact. Become. Moreover, there is an advantage that it is harmless to humans and has high safety. Furthermore, since the organic fuel such as dextrin contained in the conventional heating chemical is not contained, the effect of suppressing generation of soot and carbon dioxide gas is also achieved.

  The silicon used preferably has a small particle size. In particular, the average particle size is preferably at most 100 μm, and the lower limit is preferably in the range of 1 to 2 μm. When silicon having a large particle size is increased, the sensitivity is lowered and the combustion rate is also lowered, so that ignition may not occur.

In addition, there is no particular limitation on the metal oxide to be used, but at least one metal oxide selected from iron oxide, copper oxide, zinc oxide, nickel oxide, tin oxide and magnesium oxide can be mentioned. it can. Among these metal oxides, iron oxide and copper oxide are preferable. Examples of the iron oxide include iron monoxide (FeO), ferric trioxide (Fe ₂ O ₃ ), and diiron oxide (Fe ₃ O ₄ ). Iron (FeO) is preferred. At this time, as long as iron monoxide (FeO) is a main component, it does not prevent the mixture of ferric trioxide (Fe ₂ O ₃ ) and / or diiron oxide (Fe ₃ O ₄ ).

The copper oxide may be cuprous oxide (Cu ₂ O) or cupric oxide (CuO), but cupric oxide (CuO) is preferred from the oxygen content. . The heating agent of the present invention may contain other components such as alkali metal nitrate and / or iron powder as desired, as long as it contains silicon and a metal oxide.

  In the heating agent of this invention, the mixing ratio of silicon and metal oxide to be used is not particularly limited, but when the total mass of both is 100 parts by mass, silicon is usually 20 to 70 parts by mass, preferably Is 30-60 parts by mass. If the mixing ratio of silicon is less than 20 parts by mass or exceeds 70 parts by mass, the amount of generated heat is insufficient and ignition may not occur.

  Examples of the alkali metal nitrate include sodium nitrate and potassium nitrate, and potassium nitrate is particularly preferable. Iron powder has the effect | action which adjusts a heating chemical to predetermined temperature, and, for example, the paraffin in a smoke generating agent can maintain a fuming for a predetermined time by keeping a molten state at predetermined temperature.

  The mixing ratio of the alkali metal nitrate and / or iron powder is not particularly limited, but the alkali metal nitrate is usually 0 to 30 parts by mass with respect to 100 parts by mass in total of the silicon and the metal oxide. Yes, preferably 10 to 20 parts by mass. Moreover, iron powder is 0-60 mass parts normally with respect to a total of 100 mass parts of the said silicon and a metal oxide, Preferably, it is 30-40 mass parts.

  The heating agent of this invention can be prepared by mixing each component of the heating agent in a predetermined ratio, adding water or a solvent to the resulting mixture, kneading, molding and drying. It can also be prepared by packing the mixture as it is in a bag or directly.

(2) The ignition agent of the present invention is free of lead oxide and contains alkali metal nitrate, silicon and metal oxide.

  Like the heating agent, the igniting agent of the present invention does not contain lead oxide, for example, lead trioxide that has been conventionally used, and therefore has no environmental impact and is harmless to humans.

  The alkali metal nitrate used is not different from the alkali metal nitrate used as desired in the heating agent, and silicon and metal oxides are also used as essential components in the heating agent. There is no difference from things.

  In the ignition agent of the present invention, the mixing ratio of the alkali metal nitrate, silicon and metal oxide to be used is not particularly limited, but when the total mass of the three is 100 parts by mass, the alkali metal nitrate is usually 5 It is -20 mass parts, Preferably, it is 10-15 mass parts. When the mixing ratio of the alkali metal nitrate is less than 5 parts by mass, ignition may not occur, and when it exceeds 20 parts by mass, flame may be generated, which is not preferable.

  In addition, when the total mass of the three parties is 100 parts by mass, silicon is usually 50 to 80 parts by mass, and preferably 60 to 70 parts by mass. When the mixing ratio of silicon is less than 50 parts by mass, or when it exceeds 80 parts by mass, the amount of generated heat is insufficient and ignition may not occur.

  Furthermore, when the total mass of the three is 100 parts by mass, the metal oxide is usually 10 to 40 parts by mass, and preferably 20 to 30 parts by mass. If the mixing ratio of the metal oxide is less than 10 parts by mass, ignition may not occur, and if it exceeds 40 parts by mass, flame may be generated, which is not preferable.

The igniting agent of the present invention can be prepared by mixing each component of the igniting agent in a predetermined ratio, adding water or a solvent to the obtained mixture, kneading, molding and drying. It can also be prepared by packing the mixture as it is in a bag or directly.

  The heating agent of (1) and the ignition agent of (2) according to the present invention are useful as heating agents and ignition agents used for smoke cylinders, smoke bombs, fireworks, blasting, etc. A heating agent and an ignition agent suitable for smoke cylinders used as a means for notifying outbreaks, as a means for notifying a pseudo fire during disaster prevention drills, or as a means for special effects during various airtight tests, plays, movies or photography. is there.

(3) The smoke cylinder of the present invention includes a smoke generator formed in a cylinder containing paraffin, a heating agent loaded in an inner space of the cylinder, and an ignition agent for igniting the heating agent. In the smoke cylinder comprising the ignition means provided, the heating agent is the heating agent of (1), and the ignition agent is the ignition agent of (2).

  The smoke generating agent used in the smoke cylinder of the present invention contains paraffin as a main component. The paraffin is preferably a solid paraffin having 18 or more carbon atoms. Moreover, the smoke generating agent may contain gel oil components, such as gel light oil and gel kerosene, as another component. Further, it preferably contains an alkali metal carbonate such as sodium bicarbonate. Furthermore, you may contain the various coloring agent for coloring fuming as needed.

  When the smoke generating agent contains a component other than paraffin, for example, sodium bicarbonate, the total mass of the paraffin and sodium bicarbonate is 100 parts by mass. Part, preferably 40 to 50 parts by weight.

An example of the smoke cylinder of the present invention will be described with reference to FIG. The smoke generating cylinder 1 is composed of a cylindrical body 2 and an inner cylinder 3, and a moisture-proof, for example, pull-top type outer lid 4 is formed at an upper opening edge of the cylindrical body 2. An inner lid 5 having a hole is joined to the cylindrical body 2. The inner cylinder 3 is usually made of paper.

  The upper space of the cylindrical body 2 is formed to prevent the flame from being exposed to the outside from the cylindrical body 2 when a flame is generated during ignition. Agent 12 is placed. A wire mesh 6 is provided to fix the heat reducing agent 12 and also serve as a flameproof. The wire mesh presser 7 fixes the wire mesh 6 and forms the upper space. Examples of the heat reducing agent 12 include sodium bicarbonate particles.

  8 represents a holding spacer, 9 represents a spacer, 10 represents an ignition star, 11 represents a fast firing line, 13 represents an ignition agent, 14 represents a heating agent, and 15 represents a fuming agent. In the smoke cylinder of the present invention, the heating agent (1) of the present invention is used as the heating agent 14, and the ignition agent (2) of the present invention is used as the ignition agent 13.

  The inner cylinder 3 stores a cylindrical smoke generating agent 15, and a cylindrical heating agent 14 is loaded in the space of the cylindrical smoke generating agent 15. An igniting agent 13 is arranged in a space surrounded by the upper surface of the heating agent 14 and the upper inner wall of the smoke generating agent 15. In addition, a spacer 9 may be inserted between the inner bottom surface of the cylinder 2 and the inner cylinder 3 as necessary in order to prevent the cylinder 2 from becoming excessively hot.

  One end of the fast firing wire 11 is inserted into or installed in the upper part of the ignition powder 13, and the other end of the fast firing wire 11 is a hole in the holding spacer 8 disposed on the top surface of the ignition powder 13 and a hole in the wire mesh 6. It is coupled to an ignition star 10 that is passed through and locked to the inner lid 5. That is, the ignition means is constituted by the ignition powder 13, the fast firing wire 11 and the ignition star 10. The ignition star 10 can be replaced with an electric igniter or a friction igniter.

  In FIG. 1, a cylindrical shape is shown as the cylindrical body 2. However, the cylindrical shape is not necessarily required, and may be a rectangular cylindrical shape. Moreover, although the cylinder 2 is represented as a single cylinder in FIG. 1, a plurality of cylinders 2 may be integrally bundled. The cylinder 2 is usually made of metal.

  The smoke cylinder 1 configured as described above is used as follows. That is, when the outer lid 4 is removed and the ignition star 10 is used, when the ignition star 10 is ignited by a sliding plate or the like, the igniting agent 13 is ignited via the fast firing line 11.

  As the ignition agent 13 burns after ignition, the heating agent 14 ignites. The ignition and combustion of the heating agent 14 heats the surrounding smoke agent 15, and the heated smoke agent 15 does not burn, but the paraffin in the smoke agent 15 and possibly the colorant evaporate at the same time, and the cylinder 2 It is ejected from the upper opening of the water, cooled by the outside air, turned into droplets, and becomes white or colored smoke.

  In this series of combustion reactions, the igniting agent 13 and the heating agent 14 do not contain lead compounds such as lead trioxide, so that lead and lead oxides are not generated during use, and the burden on the environment is reduced. There will be no ignition and heating agents. Moreover, there is an advantage that it is harmless to humans and has high safety. For this reason, it is used for various purposes as a means to notify the occurrence of a simulated fire during disaster prevention training, a means for rescue of distress when climbing, or a special effect means for various airtight tests, plays, movies or photography, etc. It becomes a smoke cylinder that can ensure extremely high safety.

Hereinafter, the present invention will be described in more detail with reference to examples. However, the present invention is not limited to the examples.
Example 1

  The components of the igniting agent, heating agent and smoke agent were mixed at the mixing ratio shown in Table 1, and the mixture was filled to prepare an ignition agent, heating agent and smoke agent.

（実施例２）

(Example 2)

  The igniting agent, heating agent and smoke generator were mixed at the mixing ratio shown in Table 2, and the ignition agent, heating agent and smoke agent were prepared in the same manner as in Example 1.

（比較例１）

(Comparative Example 1)

  The components of the igniting agent, the heating agent and the smoke generating agent were mixed at the mixing ratio shown in Table 3, and the ignition agent, the heating agent and the smoke generating agent were prepared in the same manner as in Example 1.

（実施例３）

(Example 3)

The smoke cylinder shown in FIG. 1 was produced using the ignition agent, heating agent, and smoke generator prepared in Example 1 and subjected to evaluation.
[Evaluation]

  The smoke cylinder (white) was ignited and burned in a sealed test site, and the gas component in the smoke was measured using a gas detector tube (manufactured by Gastec Co., Ltd.). The gas component (ppm) was measured by burning two (one and two times) one by one, measuring the first value and the second value, and obtaining the average value thereof. The results are shown in Table 4.

（比較例２）

(Comparative Example 2)

  1 was prepared using the ignition agent, heating agent and smoke agent prepared in Comparative Example 1, and the same evaluation as in Example 3 was performed. However, there is only one combustion. The results are shown in Table 5.

  From the results shown in Table 4 and Table 5, in the smoke cylinder described in Example 3, the amount of generated carbon dioxide gas is halved and the amount of carbon monoxide gas is reduced compared to the smoke cylinder described in Comparative Example 2. You can see that it is. Therefore, the smoke cylinder of the present invention is extremely useful as a smoke cylinder with a low environmental load.

  In addition, in the heating agent of this invention, when it does not contain nitrate like the heating agent described in Example 1, it is not regarded as an explosive based on the Explosives Control Law, and the total amount of explosive used in the smoke cylinder is 15 g. Since it can be set to the following, it is classified as a toy fireworks, so handling such as transportation, storage, and consumption can be easily performed.

It is a longitudinal cross-sectional view which shows an example of the smoke cylinder of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Smoke cylinder 2 Cylinder 3 Inner cylinder 4 Outer lid 5 Inner lid 6 Wire mesh 7 Wire mesh presser 8 Holding spacer 9 Spacer 10 Ignition star 11 Fast-fire wire 12 Heat-reducing agent 13 Igniter 14 Heating agent 15

Claims (2)

Lead oxide free, comprising potassium nitrate , silicon and copper oxide, the average particle size of the silicon being at most 100 μm, and the total mass of the potassium nitrate , the silicon and the copper oxide The mixing ratio of the potassium nitrate is 5 to 20 parts by mass, the mixing ratio of the silicon is 50 to 80 parts by mass, and the mixing ratio of the copper oxide is 10 to 40 parts by mass. An ignition powder characterized by being. A smoke generator comprising a paraffin and formed in a cylinder, a heating agent loaded in an inner space of the cylinder, and an ignition means including an ignition agent for igniting the heating agent. In the stack
The heating agent contains no lead oxide and no organic fuel, and contains a silicon and metal oxide, or contains no lead oxide and no organic fuel, and includes silicon and metal oxides. The silicon has an average particle size of at most 100 μm, and the metal oxide is selected from iron oxide, copper oxide, zinc oxide, nickel oxide, tin oxide and magnesium oxide A heating agent that is at least one kind of
The smoke cylinder according to claim 1, wherein the ignition agent is the ignition agent according to claim 1 .

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