UA142554U - WELL CHARGE - Google Patents

Abstract

The downhole charge contains a well, inside which is a charge of granular ammonium nitrate with means of initiation in the form of action checkers, as well as driving from crushed rock, which is placed above the downhole charge. The mass of the charge of ammonium nitrate in the well corresponds to the conditions of destruction of rocks, and between the granules of ammonium nitrate evenly distributed unbound organic or mineral particles in the form of wood chips or sawdust, or shredded wood waste, or concentrate of metal ores, or iron ore pellets, or iron ores , while unbound organic or mineral particles are pre-impregnated with hydrocarbon fuel in the amount of 5-15% by weight of the charge of ammonium nitrate. In the well there is a shell made of a polymer membrane, made with the possibility of passing air molecules and delaying water molecules. In this shell is placed a charge of granular ammonium nitrate, the mass of which corresponds to the conditions of destruction of rocks, and between the granules of ammonium nitrate evenly distributed unbound organic or mineral particles in the form of wood chips or sawdust, or crushed wood waste, or metal ore concentrate, or metal ore concentrate, or pellets, or mixtures thereof. Unbound organic or mineral particles are pre-impregnated with hydrocarbon fuel in the amount of 5-15% by weight of the charge of ammonium nitrate. Unbound organic particles are made with the possibility of preliminary thermo-vacuum action and pre-impregnated with hydrocarbon fuel in the amount of 5-15% by weight of the charge of granular ammonium nitrate.

Description

The useful model belongs to the mining business and can be used as a design of a well charge for the explosive destruction of a rock massif in the open development of ore and non-ore deposits.

A useful model is designed to increase the efficiency of the explosion and, accordingly, regulated destruction due to the growth of the energy potential of the explosive substance, as such ammonium nitrate is used.

The useful model is intended for the destruction of rocks with the placement of explosives in both dry and flooded wells, regardless of the water level and the degree of water inflow.

Well-known well charge for the open development of mineral deposits, in which ammonium nitrate treated with petroleum products (AS) is used as an explosive

USSR Mo 1826695).

According to the known solution, in order to obtain the explosive substance placed in the well, the ammonium nitrate granules are loosened by cyclic vacuum action with the formation of cracks in them.

Then the loosened specified granules of saltpeter are treated with diesel fuel and after the indicated treatment are placed in the well with means of initiation.

The disadvantage of the known technical solution is that the explosive substance in the well charge does not have high energy properties due to the fact that the loose saltpeter granules are destroyed when hydrocarbon fuel is absorbed and turn the explosive substance into a loosely bound mass. The crystalline component of the specified mass does not retain on the surface of the particles oil products that flow into the lower part of the well, thereby causing an uneven dynamic effect on the destroyed rock massif, which leads to its uneven crushing.

In addition, the preparation of an explosive substance for a well-known well charge requires special technological equipment, which leads to the cyclical pneumatic processing of ammonium nitrate at different pressure levels, to create zones of cracking in the nitrate granules, which significantly increases the cost of blasting.

Well-known well charge using an explosive substance in the form of ammonium nitrate treated with petroleum products (Patent of Ukraine No. 33544 for the invention).

For the destruction of rocks, the explosive substance is placed with means of initiation in the well and isolated by plugging.

To obtain an explosive substance, ammonium nitrate is subjected to cyclic heating and cooling, as a result of which cracks are formed on the nitrate granules, which are filled with petroleum products. To increase the saturation of saltpetre, it is additionally exposed to high air pressure.

The formed explosive substance is placed in the well with means of initiation in the form of checkers, as well as a plug made of crushed rock mass.

The disadvantage of the known solution is that the formation of an explosive substance requires a multi-stage technological cycle of action on saltpeter granules: heating - cooling - treatment with petroleum products - action with compressed air.

Such a technological cycle requires complex equipment, which increases the cost of blasting.

As in the previous technical solution, the formation of cracks on the granules of ammonium nitrate leads to the destruction of its crystalline structure, as a result of which oil products flow to the bottom of the well, which leads to an uneven effect on the rock mass, increasing the yield of oversize, which requires additional costs for secondary crushing.

The task of the useful model is to improve the well charge due to the fact that: unbound organic and inorganic particles are used to fix hydrocarbon fuel in the well charge; unbound organic and inorganic particles saturated with hydrocarbon fuel and evenly distributed between ammonium nitrate granules; unbound organic and inorganic particles are regulated saturated with hydrocarbon fuel depending on the mass of the explosive substance in the well.

The task is solved by the fact that the well charge contains a well, inside which is placed a charge of granular ammonium nitrate with means of initiation in the form of warheads, as well as a plug made of crushed rock mass, which is placed above the well charge.

According to a useful model, the mass of ammonium nitrate charge in the well corresponds to the conditions of rock destruction. Unbound organic or mineral particles are evenly distributed between the ammonium nitrate granules. Wood shavings or sawdust, or shredded wood waste, or metal ore concentrate, or iron ore pellets, or their mixtures are used as unbound organic and mineral particles. Unbound organic or mineral particles are pre-saturated with hydrocarbon fuel in the amount of (5-15) 9o from the weight of the charge of ammonium nitrate.

In order to prevent the explosive substance from being washed out when charging a watered well and to prevent the formation of air jams when the explosive substance is fed into the casing, a casing made of a polymer membrane can be placed in the well, made with the possibility of passing air molecules and delaying water molecules. A charge of granular ammonium nitrate is placed in the indicated shell. The mass of the charge corresponds to the conditions of destruction of rocks.

Unbound organic or mineral particles in the form of wood shavings or sawdust, or shredded wood waste, or metal ore concentrate, or iron ore pellets, or their mixture are evenly distributed between the ammonium nitrate granules. Unbound organic or mineral particles are pre-impregnated with hydrocarbon fuel in the amount (5-15) 96 of the weight of the charge of ammonium nitrate.

To increase the degree of absorption by organic particles of hydrocarbon fuel, unbound organic particles are previously subjected to thermo-vacuum treatment and pre-impregnated with hydrocarbon fuel in the amount (5-15) 90 of the weight of the charge of granular ammonium nitrate.

The technical result of using a useful model is that: significant energy indicators of the explosion are provided, which allow to increase the efficiency of the explosive substance based on ammonium nitrate; the productivity of the explosion increases, which allows you to destroy strong and especially strong rocks; the explosive substance can be prepared both in the stationary conditions of the enterprise that performs explosive works, and directly on the block that is working; hydrocarbon fuel, being in the pores of organic or mineral particles, does not flow into the lower part of the well, thereby ensuring the design energy effect of the explosion on the rock massif; a well charge can be effectively implemented in watered wells by placing an explosive substance in a shell made of a polymer membrane, which, while passing air molecules, does not pass water molecules; well charge can be implemented in relation to any diameters of wells which

They are used in open mining operations.

The well charge contains a well 1, inside which is placed a charge of explosive substance 2 - ammonium nitrate. Unbound organic or mineral particles 3, which are impregnated with hydrocarbon fuel, are distributed between the ammonium nitrate granules 2. To produce an explosion, the means of initiation are placed in the explosive substance - warheads 4. The borehole charge is isolated by plugging 5.

In the well 1, a shell 6 for the well charge made of a polymer membrane can be placed, which is made with the possibility of passing air molecules and delaying water molecules.

The borehole charge is implemented as follows.

Wells 1 are drilled on the ore or rock block, which is destroyed during the open mining of mineral deposits, according to the passport of drilling and blasting works.

After drilling wells 1, they are charged. Ammonium nitrate 2 is used as an explosive for charging wells.

To prepare the charge, unbound organic or mineral particles 3 are used in advance. The main criterion for choosing these particles is their high porosity and the ability to absorb liquids of a wide range of densities.

Studies have shown that increasing the energy parameters of the explosion can be achieved by using, together with explosives, liquid hydrocarbon fuel. In order to evenly distribute the hydrocarbon fuel over the entire volume of the well charge 2 and prevent it from flowing into the bottom part of the well 1, it is proposed to pre-saturate the porous material from organic or mineral particles З and evenly distribute it over the entire volume of the explosive substance 2.

As a result of research and industrial research, it was established that both organic and mineral particles 3 can be used as an active porous material. As such particles, it is advisable to use wood shavings or sawdust, or shredded wood waste, or metal ore concentrate, or iron ore pellets. or a mixture thereof.

It has been established that the above-mentioned materials have a high absorption capacity, while ensuring the retention of liquid hydrocarbon fuel in the body for a long period of time.

Research and industrial tests have shown that the optimal energy characteristics of the explosion are achieved when the amount of hydrocarbon fuel is (5.0-15.0)95 of the mass of the explosive substance 2 in the well. With a decrease in the amount of hydrocarbon fuel, there is less

595 does not provide the necessary increase in energy indicators of the explosion. When the amount of hydrocarbon fuel is increased by more than 15 95 from the mass of the explosive substance 2, an increase in the energy indicators of the explosion is not ensured, which means an improvement in the indicators of rock destruction.

After saturation of organic or inorganic particles with hydrocarbon fuel, they are loaded together with ammonium nitrate 2 into a mixer, in which, by stirring, the mixture is brought to a uniform distribution of nitrate particles and particles 3 saturated with hydrocarbon fuel.

The resulting mixture is filled with wells 1, in which the means of initiation - fighters 4 are placed in advance. The equipped wells 1 are filled with plug 5, the explosive network is switched and a mass explosion is made.

Depending on the rock-geological conditions of the ore body, blast wells 1 can be dry and filled with water.

In the case when wells 1 are watered, hydrocarbon fuel is washed out and ammonium nitrate 2 dissolves. With a long charging time of the block being developed, this negatively affects the quality of the destruction of the rock massif.

To prevent the negative impact of watering wells 1 before their charging, a shell b made of a polymer membrane, made with the possibility of passing air molecules and delaying water molecules, is placed in them.

The use of a similar polymer membrane 6 allows you to eliminate the piston effect when the explosive substance is introduced into the shell. Entering the shell 6, the explosive substance displaces air through the pores of the membrane b, which prevents the emergence of unregulated air "bubbles" in the well charge.

Since the membrane 6 does not allow water molecules to pass through, it prevents the explosive substance 2 from being washed out of the well 1.

Studies have shown that when organic particles are heated followed by vacuuming, their densification occurs, which contributes to increasing the absorbent properties of the used material. After processing, organic particles C are impregnated with hydrocarbon fuel in the amount of (5-15)95 of the weight of the charge of granular ammonium nitrate 2 and used for charging explosive wells.

Research has shown the high efficiency of the design of the well charge, which can be used in a wide range of physical and mechanical properties of mining rocks.

The method provides high-quality crushing of mining rocks with a minimum output of oversized.

Claims (2)

USEFUL MODEL FORMULA 1. A well charge containing a well, inside which is placed a charge of granular ammonium nitrate with means of initiation in the form of warheads, as well as a plug made of crushed rock mass, which is placed above the well charge, which differs in that the mass of the charge of ammonium nitrate in the well corresponds to the conditions of destruction of rocks, and unbound organic or mineral particles in the form of wood shavings or sawdust, or shredded wood waste, or metal ore concentrate, or iron ore pellets, or their mixture are evenly distributed between ammonium nitrate granules, and unbound organic or mineral particles pre-impregnated with hydrocarbon fuel in the amount of 5-15 95 from the weight of the charge of ammonium nitrate. 2. The well charge according to claim 1, which differs in that the well is placed in a casing made of a polymer membrane, made with the possibility of passing air molecules and retaining water molecules, and in this casing a charge of granular ammonium nitrate is placed, the mass of which corresponds to the conditions of rock destruction, and unbound organic or mineral particles in the form of wood shavings, BO or sawdust, or shredded wood waste, or metal ore concentrate, or iron ore pellets, or their mixture are evenly distributed between the ammonium nitrate granules, and the unbound organic or mineral particles are pre-impregnated with hydrocarbon fuel in the amount of 5-15 95 from the mass of the charge of ammonium nitrate. C. The well charge according to claim 1, which differs in that the unbound organic particles are made with the possibility of preliminary thermo-vacuum exposure and are pre-impregnated with hydrocarbon fuel in the amount of 5-15 95 of the mass of the charge of granular ammonium nitrate. x KE o E p. Z huya « In i- S In Ko di BK KO: VK o LU, ih he mit? B o i oo skh PK skh o nipple zh HU si still PIV s ha - o o o to U Ko ih Ezhzhn d dya se o Yes s x still o sho KK 0. x p Ku p o o 0 o . o i shcha se i o i i Beh za io M U te xx o y za Noozhe MO YE Beh uva i zh- PO to o; With o ne o gi o as! dec Ko KK" 5 dk I o what o Ks SO p Me and o: o what o Ko ME o more YOU TU Ko po Uzhe - EH Ky: SUA Zh: khy ХЕ o Ek o and p Zh i and p with 0 koh a o y Ah p. oh iya o she still what o heVh -shkh o p ia g claim 4 xx p Ko Kv U S tu u Tl. o You know them. o Ж o p oh their more o s: B 0 U puh p de 0 o o S how o chi o В Ш : 5 sa o щV Ш o o p. s o "o S х Oh else what o 0 k. Z - 6 Z o HO so M SYA 5 s ХХ 1 o i : o riy od ya OV Zo: he DUM o s A 3 o Z yah a i o U SK xx; ik y y 1 s what izhe y: ХХ p y ve 1 sao y TK U. ХЕ is cheek і І І i І хо p же « z so o zhi zh - HO o o KO khveh o o More MUK 5 o o is I AY u what im ss oh still y: . KAH ik ih sk OO ia Ka he zh s kEzhi syn ik S ho t ZD M kh zh sk les s ia a o ho u dity KK: su 0. s t. doc t sce o a u dy se Sa she ze xx MU from west to Uh Kik vv; у Каех VO УКХ хх Nvoe sce KM titi o: lk SKK M TOYU OK nya 7 n iE p Mo Kk he o ih o to OK o S o Kr SCHE o he ov ke U ke ke i KE na U oy B scho che UMM MK Z PI S 5 S I and in still s su i t s 55 soky smtk - MU uhdyky z Du i zh kozh An ho i; SCHE ke M en kh - t kova te Mokh ve koki Okh o KM pk o o ; o o o slo KeKKe o. ke i o o be and s o o. same ZE o i U she Xhe HM skh uh he oh, SO M I i Ky her ih o -I will kill Gay TU SHOK a, zh o se Uh I u, and MU o sem same UMH xx and p oo ke u i i 1 in KZ v oy z p pe s h a kilya o m 0 y o y zhov y Ka s: yakh skh o o Ж I’m still OK what’s in p i. o her g. o: zo YAKU don ne 0 i V u s p i so U p. s I KU OH her I I kh h her same KAH o o so Vo g 3 MU i o OK 8 o her SO o WHAT Ky MO Zk Ka Ko n WHAT I 0; ts po z i as U ka vezhu Noya so dok m zho --V ХЕ p V U shho g zh o МЖХ i S ВХ M Mod ek ХК i what K- RUK MU Fig.