BE1029024B1 - Crushed rock grain and method for its manufacture - Google Patents

Abstract

The present invention provides a rock crushing aggregate comprising a cracking agent, an expanding agent and an electrolyte solution, wherein the cracking agent consists of an oxidizer, a fuel and a binder; wherein the expansion agent is a swelling agent or a metal compound; the electrolytic solution is one of or a mixed solution of two or more of the sodium chloride solution, the calcium hydroxide solution, the sodium sulfate solution and the sodium hydroxide solution. The rock crushing grain of this invention can be widely used in urban blasting projects without harming human and animal health, causing low blasting vibration, and not contaminating the environment, production, transportation and safety of use. In addition, it has advantages over other non-explosive explosives in that it is environmentally friendly, provides much more convenience of use, has a relatively high blast equivalent, is relatively stable, and the like. The present invention also provides a method for manufacturing the above-mentioned crushed rock grain, wherein the hazard coefficient of the manufacturing method is small, environmentally friendly and easy to handle.

Description

Crushed rock grain and method for its manufacture

TECHNICAL FIELD The invention belongs to the technical field of blasting technology and relates in particular to a rock crushing grain and a method for its manufacture.

BACKGROUND ART In modern blasting projects, most of them still use explosives as energy sources. There are certain advantages to using explosives, but there are the usual problems, such as excessive blasting vibration, toxic gases, dust, pollution, and unsafe production and transportation. Especially in city blasting and demolition, bridge and road construction, using explosives for blasting is extremely unsafe and will also cause urban pollution. For this reason, non-explosive blasting tests have been carried out at home and abroad, with the plasma blasting technique being representative, but it has disadvantages that the device is too heavy and that one-time blasting has only a small blasting equivalent and it is not suitable for large-scale use is unsuitable. Therefore, it is an urgent problem to develop a bursting agent which is safe, environmentally friendly, easy to use and suitable for use in cities and special cases.

SUMMARY OF THE PRESENT INVENTION In view of the above problems, an object of the present invention is to provide a rock crushing grain to solve the problems that in cities, vibration at blasting work is too large, poisonous gas is generated, dust is generated, the environment is polluted and production, transport and use are unsafe. The technical solution used by the present invention is:

a crushed rock grain consists of a cracking agent, an expander and an electrolyte solution, the cracking agent consisting of an oxidizer, a fuel and a binder; wherein the expanding agent is a swelling agent or a metal compound used in the market, wherein the metal oxide is one or more metal oxides of aluminum oxide, magnesium oxide, calcium oxide and iron trioxide; the electrolytic solution is one of or a mixed solution of two or more of the sodium chloride solution, the calcium hydroxide solution, the sodium sulfate solution and the sodium hydroxide solution.

In the rock crushing grain of the present invention, it is specified that the cracking agent is 30% to 50% by mass percentage, the expanding agent is 35% to 50%, the electrolytic solution is 15% to 20%.

In the rock crushing grain of the present invention, it is specified that the mass percentage of the oxidizer is 65% to 85% of the cracking agent, the mass percentage of the fuel is 14% to 34% of the cracking agent, the mass percentage of the binder is 0.5% to 5% of the cracking agent In the rock crushing grain of the present invention, it is specified that the oxidizer is one of or a mixture of two or more of potassium nitrate, sodium nitrate, calcium nitrate, barium nitrate, zinc nitrate, barium peroxide, manganese dioxide, potassium chlorate and potassium perchlorate.

In the rock crushing grain of the present invention, it is specified that the fuel is one of or a mixture of two or more of powdered coal, charcoal, diesel, powdered aluminum and powdered magnesium.

In the rock crushing grain of the present invention, it is specified that, as the binder, an inorganic salt binder, synthetic binder or natural binder is used, wherein the inorganic salt binder is one of a silicate, a phosphate and a borate; the natural binder is one of starch, dextrin, gelatin and peach gum; the synthetic binder is one of terminal hydroxypolybutadiene, polyvinyl alcohol, polyvinyl acetate and phenolic resin.

In the rock crushing aggregate of the present invention, it is specified that the binder is one of silicate, peach gum and polyvinyl alcohol. The method for producing a rock crushing grain of the present invention comprises the following steps: (1) production of a cracking agent: a raw material is provided in a ratio to obtain powdery cracking agent by the chemical co-precipitation method or physical mixing; (2) introducing the powdery cracking agent prepared in step (1) into a granulator for granulation, and to facilitate granulation, an appropriate amount of ethanol may be injected for automatic granulation, followed by drying and sieving to obtain the granulated cracking agent; (3) Preparing the raw material in a proportion, and packing the particulate cracking agent, expanding agent and electrolytic solution produced in step (2) in three parts combined into one granule.

In the method for producing a crushed rock grain of the present invention, it is specified that in step (1), when the cracking agent is produced by the chemical co-precipitation method, the fuel is added in the process of chemically producing the oxidizer to produce the required cracking agent, which then mixed with the binder; in preparing the cracking agent by physical mixing, the oxidizing agent and the fuel are mixed with the binder under agitation by a mixer, the agitation time being 20 to 60 minutes.

In the method for producing a rock crushing grain of the present invention, the stirring time is specified to be 30 minutes. Advantageous Effects of the Invention: the rock crushing grain of the present invention is a combination blasting grain which is safe, environmentally friendly and easy to use, and not prone to explosion and combustion accidents; there is no toxic gas, no throwing, which prevents damage to the building, and it can be widely used in urban blasting projects, without harming human and animal health, causing low blasting vibration, and the environment, production, transportation and not to contaminate the safety of use. In addition, it has the advantage over other non-explosive explosives that it is environmentally friendly, provides much more convenient use, has a relatively high explosive equivalent, is relatively stable and the like, and the material sources are wide, the grain structure is simple, and the dispersibility is good , and it can be used for safe production in normal factories. In the rock crushing grain of the present invention, the binder is specified to be any one of silicate, peach gum and polyvinyl alcohol, and the produced rock breaking grains are easy to dry, have smaller particles and have better blasting performance. The method for producing the crushed rock grain according to the present invention has a low risk coefficient, environmental friendliness and easy handling.

DETAILED DESCRIPTION Exemplary Embodiment 1 A rock crushed grain consists of a cracking agent, an expanding agent and an electrolyte solution, the cracking agent being 30% by mass, the expanding agent being 50%, the electrolytic solution being 20%; wherein the cracking agent consists of an oxidizer, a fuel and a binder, wherein the oxidizer is potassium nitrate, wherein the fuel is powdered charcoal, wherein the binder is peach gum, by weight ratio: potassium nitrate is 80 parts, powdered charcoal is 15 parts and peach gum is 5 parts; wherein the expanding agent is a swelling agent used in the market, the expanding agent can interact with the electrolyte solution and absorb toxic gases to produce a substance having a swelling effect; the electrolyte solution is a sodium chloride solution. The method for producing a rock crushing grain of the present embodiment includes the following steps:

> BE2021/5589 (1) Production of a cracking agent: preparing raw material in ratio, producing cracking agent by a chemical co-precipitation process, which requires pulverizing and refining carbon powder in a ball mill; when the cracking agent is produced by the chemical co-precipitation method, the fuel is added in the process of chemically producing the oxidizer, which is then mixed with the binder to obtain a powdery cracking agent; (2) Putting the powdery cracking agent prepared in step (1) into a granulator for granulation, and to facilitate granulation, an appropriate amount of ethanol can be injected to wet the cracking agent, which is suitable for automatic granulation, followed drying and sieving to obtain the granulated cracking agent; (3) Packing the particulate cracking agent with expanding agent prepared in step (2) and the electrolytic solution, which were prepared proportionally, in three parts combined into one granule.

Embodiment 2 A rock crushed grain consists of a cracking agent, an expanding agent and an electrolyte solution, the cracking agent being 45% by mass percentage, the expanding agent being 40%, the electrolytic solution being 15%; wherein the cracking agent consists of an oxidizer, a fuel and a binder, wherein the oxidizer is potassium nitrate, wherein the fuel is carbon powder and aluminum powder, wherein the binder is peach gum, by weight ratio: potassium nitrate is 75 parts, carbon powder is 15 parts, aluminum powder is 5 parts and peach gum is 5 parts; wherein the expanding agent is a metal compound, wherein the metal compound is a mixture of alumina and magnesium oxide, wherein the expanding agent is capable of interacting with the electrolyte solution and absorbing toxic gases to produce a substance having a swelling effect; the electrolyte solution is a calcium hydroxide solution.

The method for producing a crushed rock grain of the present embodiment includes the following steps: (1) production of a cracking agent: preparing raw material in proportion, producing cracking agent by the physical mixing method, wherein carbon powder needs to be pulverized and refined in a ball mill; in preparing the cracking agent by physical mixing, the oxidizing agent and the fuel are mixed with the binder with stirring by a mixer, the stirring time being 30 minutes, to obtain the powdery cracking agent; (2) Putting the powdery cracking agent prepared in step (1) into a granulator for granulation, and to facilitate granulation, an appropriate amount of ethanol can be injected to wet the cracking agent, which is suitable for automatic granulation, followed drying and sieving to obtain the granulated cracking agent; (3) Packing the particulate cracking agent with expanding agent prepared in step (2) and the electrolytic solution, which were prepared proportionally, in three parts combined into one granule.

Embodiment 3 A rock crushing grain consists of a cracking agent, an expanding agent and an electrolytic solution, the cracking agent being 32% by mass percentage, the expanding agent being 50%, the electrolytic solution being 18%; wherein the cracking agent consists of an oxidizer, a fuel and a binder, wherein the oxidizer is potassium nitrate and barium nitrate, wherein the fuel is aluminum powder, wherein the binder is peach gum, by weight ratio: potassium nitrate is 35 parts, barium nitrate is 35 parts, aluminum powder is 25 parts and peach gum is 5 parts; wherein the expansion agent is a metal compound, the metal compound being a mixture of calcium oxide and iron trioxide, the expansion agent being able to interact with the electrolyte solution and absorb toxic gases to produce a substance having a swelling effect; the electrolyte solution is a sodium sulfate solution.

The method for producing the crushed rock grains according to this embodiment is the same as embodiment 2, except that the stirring time in step (1) is 20 minutes.

Embodiment 4 A rock crushing grain consists of a cracking agent, an expanding agent and an electrolytic solution, the cracking agent being 35% by mass percentage, the expanding agent being 45%, the electrolytic solution being 20%; wherein the cracking agent consists of an oxidizer, a fuel and a binder, wherein the oxidizer is sodium nitrate, wherein the fuel is aluminum powder, wherein the binder is peach gum, by weight ratio: sodium nitrate is 65 parts, aluminum powder is 33 parts and peach gum is 2 parts; wherein the expanding agent is a metal compound, wherein the metal compound is alumina, wherein the expanding agent can interact with the electrolyte solution and absorb toxic gases to produce a substance with a swelling effect; the electrolyte solution is a sodium hydroxide solution.

The method for producing the crushed rock grains according to this embodiment is the same as embodiment 2 except that the stirring time in step (1) is 60 minutes.

Embodiment 5 A rock crushing grain consists of a cracking agent, an expanding agent and an electrolytic solution, the cracking agent being 40% by mass percentage, the expanding agent being 40%, the electrolytic solution being 20%; wherein the cracking agent consists of an oxidizer, a fuel and a binder, wherein the oxidizer is potassium nitrate, wherein the fuel is aluminum powder, wherein the binder is peach gum, by weight ratio: potassium nitrate is 67 parts, aluminum powder is 28 parts and peach gum is 5 parts; wherein the expanding agent is a metal compound, wherein the metal compound is magnesium oxide, wherein the expanding agent can interact with the electrolyte solution and absorb toxic gases to produce a substance with a swelling effect; the electrolytic solution is a mixed solution of a sodium chloride solution and a calcium hydroxide solution. This embodiment shows the same method for producing the crushed rock grain as in embodiment 1.

Embodiment 6 A rock crushing grain consists of a cracking agent, an expanding agent and an electrolytic solution, the cracking agent being 45% by mass percentage, the expanding agent being 35%, the electrolytic solution being 20%; wherein the cracking agent consists of an oxidizer, a fuel and a binder, wherein the oxidizer is potassium nitrate and a barium peroxide, wherein the fuel is aluminum powder, wherein the binder is peach gum, by weight ratio: potassium nitrate is 38 parts, barium peroxide is 33 parts, aluminum powder is 24 parts and peach gum is 5 parts; wherein the expanding agent is a metal compound, wherein the metal compound is magnesium oxide, wherein the expanding agent can interact with the electrolyte solution and absorb toxic gases to produce a substance with a swelling effect; the electrolytic solution is a mixed solution of a sodium sulfate solution and a sodium hydroxide solution.

This embodiment shows the same method for producing the crushed rock grain as in embodiment 2.

Embodiment 7 A rock crushing grain consists of a cracking agent, an expanding agent and an electrolytic solution, the cracking agent being 45% by mass percentage, the expanding agent being 40%, the electrolytic solution being 15%; wherein the cracking agent consists of an oxidizer, a fuel and a binder, wherein the oxidizer is potassium nitrate and sodium nitrate, wherein the fuel is diesel, wherein the binder is silicate, by weight ratio: potassium nitrate is 40

parts, sodium nitrate is 32 parts, diesel is 25 parts and silicate is 3 parts.

The expansion agent is a metal compound, the metal compound being calcium oxide, the expansion agent can interact with the electrolyte solution and absorb toxic gases to produce a substance with a swelling effect; the electrolytic solution is a mixed solution of a sodium chloride solution and a sodium hydroxide solution.

This working example shows the same method for producing the crushed rock as in working example 1. Working example 8 A crushed rock consists of a cracking agent, an expanding agent and an electrolytic solution, wherein the cracking agent is 40% in mass percentage, the expanding agent is 45%, the electrolytic solution is 15 % amounts to; wherein the cracking agent consists of an oxidizer, a fuel and a binder, wherein the oxidizer is potassium perchlorate and manganese dioxide, wherein the fuel is aluminum powder and magnesium powder, wherein the binder is polyvinyl alcohol, by weight ratio: potassium perchlorate is 50 parts, manganese dioxide is 19.5 parts , aluminum powder is 15 parts, magnesium powder is 15 parts, and polyvinyl alcohol is 0.5 parts.

The expansion agent is a metal compound, the metal compound being iron oxide, the expansion agent can interact with the electrolytic solution and absorb toxic gases to produce a substance with a swelling effect; the electrolytic solution is a mixed solution of a calcium hydroxide solution and a sodium sulfate solution.

This working example shows the same method for producing the crushed rock as in working example 2. Working example 9 A crushed rock consists of a cracking agent, an expanding agent and an electrolytic solution, the cracking agent being 50% in mass percentage, the expanding agent being 35%, the electrolytic solution being 15 % amounts to;

wherein the cracking agent consists of an oxidizer, a fuel and a binder, wherein the oxidizers are potassium nitrate and zinc nitrate, wherein the fuel is charcoal, wherein the binder is polyvinyl alcohol, by weight ratio: potassium nitrate is 34 parts, zinc nitrate is 34 parts, charcoal is 30 parts, polyvinyl alcohol is 2 parts.

The expansion agent is a metal compound, the metal compound being a mixture of iron trioxide, aluminum oxide and magnesium oxide, the expansion agent can interact with the electrolyte solution and absorb toxic gases to produce a substance with a swelling effect; the electrolytic solution is a mixed solution of a sodium chloride solution, a sodium sulfate solution and a sodium hydroxide solution.

This working example shows the same method for producing the crushed rock grain as in working example 1. Working example 10 A crushed rock grain consists of a cracking agent, an expanding agent and an electrolytic solution, wherein the cracking agent is 30% in mass percentage, the expanding agent is 50%, the electrolytic solution is 20 % amounts to; wherein the cracking agent consists of an oxidizer, a fuel and a binder, wherein the oxidizers are potassium nitrate and zinc nitrate, wherein the fuel is charcoal, wherein the binder is polyvinyl alcohol, by weight ratio: lead nitrate is 80 parts, carbon powder is 15 parts and peach gum is 5 parts .

The expansion agent is a metal compound, the metal compound being a mixture of iron trioxide, aluminum oxide and magnesium oxide, the expansion agent can interact with the electrolyte solution and absorb toxic gases to produce a substance with a swelling effect; the electrolyte solution is a sodium chloride solution.

This exemplary embodiment shows the same method for producing the crushed rock grain as in exemplary embodiment 1. In the present exemplary embodiment, it is provided that as the oxidizing agent only

Lead nitrate is used and the effect is best when the mass percentage is 80%.

When the rock crushing grain of these Working Examples 1-10 is used, any combination packing structure can be used, the expanding agent and the electrolytic solution can be separated by intermediate separation even when packed together, and arc excitation is used when the cracking agent is intensified.

The risk of explosion can be reduced and the environment protected by choosing suitable stirring times and suitable charge quantities.

According to on-site observations, the blasting stone is thrown less than a meter, and the noise and vibrations are much lower than with ordinary blasting.

The above-mentioned embodiments only describe preferred embodiments of the present invention and do not limit the scope of the present invention, and various modifications and changes that can be made to the invention by those skilled in the art without departing from the gist of the invention are intended fall within the scope of the appended claims.

Claims (6)

patent claims 1. Rock crushing aggregate characterized in that the rock crushing aggregate consists of a cracking agent, an expanding agent and an electrolyte solution, the cracking agent consisting of an oxidizing agent, a fuel and a binder; wherein the expanding agent is a swelling agent or a metal compound used in the market, the metal compound being one or more metal oxides of alumina, magnesia, calcium oxide and iron trioxide; the electrolytic solution is one of or a mixed solution of two or more of the sodium chloride solution, the calcium hydroxide solution, the sodium sulfate solution and the sodium hydroxide solution; wherein the cracking agent is 30% to 50% by mass, the expanding agent is 35% to 50%, the electrolyte solution is 15% to 20%; wherein the mass percentage of oxidizer is from 65% to 85% of cracking agent, wherein the mass percentage of fuel is from 14% to 34% of cracking agent, wherein the mass percentage of binder is from 0.5% to 5% of cracking agent, wherein the fuel is one of or is a mixture of two or more of powdered coal, charcoal, diesel, powdered aluminum and powdered magnesium; wherein the oxidizing agent is one or a mixture of two or more of potassium nitrate, sodium nitrate, calcium nitrate, barium nitrate, zinc nitrate, barium peroxide, manganese dioxide, potassium chlorate and potassium perchlorate. 2. Rock crushing aggregate according to claim 1, characterized in that an inorganic salt binder, synthetic binder or natural binder is used as the binder, the inorganic salt binder being one of a silicate, a phosphate and a borate; the natural binder is one of starch, dextrin, gelatin and peach gum; the synthetic binder is one of terminal hydroxypolybutadiene, polyvinyl alcohol, polyvinyl acetate and phenolic resin. 3. Rock crushing aggregate according to claim 1, characterized in that the binder is one of silicate, peach gum and polyvinyl alcohol. 4. A method for producing a crushed rock grain according to any one of claims 1 to 3, characterized in that the following steps are included: (1) Preparation of a cracking agent: a raw material is provided in a ratio to form powdered cracking agent by the chemical co-precipitation method or physical mixing to obtain; if the cracking agent is produced by the chemical co-precipitation process, the fuel is added in the process of chemically producing the oxidizer to produce the required cracking agent, which is then mixed with the binder; (2) Introducing the powdery cracking agent prepared in step (1) into a granulator for granulation, and in order to facilitate granulation, an appropriate amount of ethanol can be injected for automatic granulation, followed by drying and sieving to obtain the granulated cracking agent receive; (3) Preparing the raw material in a proportion, and packing the particulate cracking agent, expanding agent and electrolytic solution produced in step (2) in three parts combined into one granule. 5. A method for producing a crushed rock grain according to claim 4, characterized in that in the production of the cracking agent by physical mixing in step (1), the oxidizing agent and the fuel agent are mixed with the binder with stirring by a mixer, the stirring time being 20 to 60 minutes. 6. A method for producing a crushed rock grain according to claim 5, characterized in that the stirring time is 30 minutes