RU132883U1 - EXPLOSIVES CARTRIDGE FOR WATERFILLED WELLS - Google Patents

Abstract

Explosive cartridge for waterlogged wells, consisting of a non-water-resistant ammonium nitrate explosive, placed in two polyamide sleeves inserted into each other, characterized in that the cartridge contains two polyethylene sleeves, the upper end of the inner sleeve and the lower end of the outer sleeve are welded, the lower end of the inner sleeve, directed when loading towards the bottom of the flooded well, is assembled into a “forelock” and clipped, the upper end of the outer sleeve is assembled into a “forelock” and clipped or welded.

Description

The utility model relates to the production of explosive cartridges for blasting in flooded wells.

The cost of blasting in waterlogged wells can be significantly reduced through the use of cheap ammonium nitrate explosives. However, ammonium nitrate explosives are not widely used for loading flooded wells due to the high solubility of ammonium nitrate in well water. One way to solve the problem of loading flooded wells with non-water-resistant ammonia-nitrate explosives is to waterproof them by using cartridges in shells made of waterproof polymeric materials (1-10).

The closest known technical solutions to the claimed utility model and adopted by the authors as a prototype is an explosive cartridge including a non-waterproof ammonia nitrate explosive placed in two polyamide sleeves inserted into each other, the lower ends of each sleeve are assembled from the inside into a “forelock” and are clipped, the upper end face of the inner polyamide sleeve is assembled into a “forelock” and clipped above the explosive placement level, the clamping unit is tucked under the outer polyamide shell piece, the upper end of which is clipped above the level of placement of the inner polyamide shell, then inserted into a plastic bag or plastic sleeve with a welded bottom end, a length equal to the height of the cartridge (11).

The disadvantage of the prototype cartridge is the low water resistance of the cartridge in the places of fixing the “forelock” of the sleeve with a metal clip. An outer plastic bag or sleeve with a welded bottom end, a length equal to the height of the cartridge, with an open top end does not protect the explosive from well water entering the bag during immersion and when the cartridges are in a flooded well, it only protects the polyamide shells from ruptures in contact cartridges with uneven borehole walls during loading.

The cartridge charges of explosives in flooded wells are hydrostatically pressured for a certain time until they are blown up. The sealing of the end face of the polymer sleeve assembled into a “forelock” with a metal clip does not provide complete tightness of the waterproof polymer sleeves and the protection of ammonium nitrate of the explosive contained in the volume of the inner polymer shell between the end faces from well water. In the process of pinching the end face of the polymer sleeve assembled into the “forelock”, there always remain gaps between the walls of the end face of the sleeve assembled into the “forelock”, along which water from the well penetrates into the cartridge. The gaps in the embedded “forelock” are reduced if the polymeric material is characterized by high tensile strength, high elongation, elasticity, low friction. Such polymeric materials include a polyamide film, the disadvantage of which is its high melting point, which does not allow safe and reliable welding of its ends at blasting sites. Full sealing of the explosive in the polymer sleeve can only be achieved when creating an integral connection of the surfaces of the end face of the sleeve by welding (brewing). Polyamide and polypropylene cartridge sleeves filled with explosives cannot be welded safely due to the high melting point of the polymer material. The ends of the polyethylene sleeve can be safely sealed by welding at the places of manufacture of explosive cartridges due to the relatively low melting point of polyethylene.

The technical task of creating a utility model is to increase the efficiency of drilling and blasting operations in flooded wells due to the complete waterproofing of ammonium nitrate explosives in the shell, maintaining the consistency of the explosive component composition along the height of the column of the borehole charge formed from cartridges, and the reliability and completeness of detonation of cartridges and the charge from them.

The technical problem was solved by the development of an explosive cartridge for waterlogged wells, consisting of a non-waterproof ammonia-nitrate explosive, placed in two polyamide sleeves inserted into each other, which contains two polyethylene sleeves as a sleeve, the upper end of the inner sleeve and the lower end of the outer sleeve are welded , the lower end of the inner sleeve, directed when loading towards the bottom of the flooded well, is assembled into a “forelock” and clipped, the upper end of the outer sleeve is assembled into a “forelock” and pissed or brewed.

Before placing the inner polyethylene sleeve with explosives in the outer polyethylene sleeve, a bend of the “sleeve” of the inner sleeve by 180 ° is allowed.

In the manufacture of cartridges using two polyethylene sleeves, only one end of the inner polyethylene sleeve can be safely brewed before it can be filled with explosives, the second is sealed by collecting the sleeve in a “forelock” followed by clipping with a metal clip. The second end of the sleeve filled with explosive is not subject to welding due to the increased danger of this operation due to direct contact of the welding tool with the explosive. Both ends of the outer sleeve can be sealed by welding, as however, there is no contact of the welding tool with the explosive. The proposed explosive cartridge, when the clipped ends of the inner and outer polyethylene sleeves are located on opposite ends of the cartridge, has better waterproofing ability and the waterproofness of the “forelock” of the end compared to the prototype cartridge in which the ends of the inner and outer sleeves are clipped.

When explosive cartridges are found in a flooded borehole in the remaining gaps during mechanical filling of the “forelock” of the polymer sleeve, well water penetrates inside the cartridge, which leads to wetting of the explosive layers and dissolution of ammonium nitrate adjacent to the pinch point of the polymer shell. This causes a change in the component composition of the explosive, and as a result leads to failures during initiation of borehole charges or their incomplete detonation.

Between the inner and outer shells of the explosive cartridge, even with approximately equal diameters of the polyethylene sleeves, a free space is formed, filled with air, the so-called compensation volume. When ammonium-nitrate explosive cartridges are found in a flooded well, water penetrates into the free space between the polyethylene sleeves through the micro-gaps of the “forelock” of the upper end of the outer sleeve, which is covered with clipping. Water entering the inter-sleeve volume can penetrate the inner shell with the ammonium-nitrate explosive only through the oppositely located clipped “forelock” of the lower end of the inner sleeve, for which it needs to displace the air enclosed in the volume formed by the polyethylene sleeves, i.e. overcome the backpressure of the air of the compensation space and displace it. The cartridges in the well are installed end-to-end one on another, forming a charge column. The mass of the higher cartridge creates additional pressure on the underlying cartridge, thereby worsening the conditions for air to escape from the sleeve gap. The proposed location of the clipped ends of the inner and outer polyethylene sleeves in the opposite ends of the cartridge provides reliable waterproofing of non-waterproof ammonium nitrate explosive.

The essence of the utility model is illustrated in figure 1, which shows the type of explosive cartridges:

a) a view of the cartridge with stuck opposite ends of the inner and outer polyethylene sleeves;

b) the type of cartridge, the ends of the inner polyethylene sleeve of which are sealed in different ways, the ends of the outer sleeve are sealed by welding. Designations:

1 - non-water resistant explosive;

2 - inner polyethylene sleeve;

3 - forelock of the inner polyethylene sleeve;

4 - outer polyethylene sleeve;

5 - end face of an internal polyethylene sleeve sealed by welding;

6 - lower end of the outer polyethylene sleeve, sealed by welding;

7 - forelock of an outer polyethylene sleeve sealed with clipping;

8 - clip;

9 - the upper end of the outer polyethylene sleeve, sealed by welding;

↓ - the arrow shows the direction of supply of the cartridge in the flooded well.

The cartridge charge (Fig. 1a) consists of a non-water-resistant ammonium nitrate explosive 1 placed in two polyethylene hoses 2, 4 of approximately the same diameter. The upper end 5 of the inner sleeve 2 is sealed by welding, and the lower end is assembled into the forelock 3 and sealed with a metal clip 8. The inner polyethylene sleeve 2 with explosive 1 is inserted into the outer polyethylene sleeve 4 so that under the forelock 3 of the inner sleeve 2, sealed with clipping, is the end face 6 of the outer polyethylene sleeve 4, hermetically sealed by welding.

The cartridge may have an outer polyethylene sleeve 4, in which the upper 9 and lower 6 ends are sealed by brewing (Fig. 16). Before placing the inner sleeve with the explosive in the outer polyethylene sleeve, the “forelock” of the inner sleeve can be bent 180 °.

The main differences of the proposed cartridge:

- a cartridge containing two polyethylene sleeves, one or both ends of which can be safely hermetically connected by welding at the places of manufacture of explosive cartridges;

- placement of the clipped ends of the inner and outer polyethylene sleeves in the opposite ends of the cartridge.

The technical result can be achieved only by combining all the distinguishing features of a utility model.

The manufacture of cartridges is as follows. A polyethylene sleeve (inner sleeve) 2, the end 5 of which is previously hermetically sealed, is filled with ammonium nitrate explosive 1 of a given weight, the second end of the inner polyethylene sleeve is assembled into a “forelock” 3 and sealed with a metal clip 8. The inner sleeve 2 with explosive 1 is inserted in the outer sleeve 4 so that the lower end 6 of the outer sleeve, previously sealed by welding, is in contact with the clipped end 3 of the inner sleeve 2. The upper end of the outer sleeve 4 is assembled pushed into the “forelock” 7 and terminated by clipping, it contacts the end face 5 of the inner sleeve 2, sealed by welding. The upper 9 and lower 6 ends of the outer sleeve 4 can be sealed by welding (Fig. 1b), since the welding tool will not directly come into contact with the explosive 1 located in the inner sleeve 2. Such a cartridge has higher waterproofing properties.

The manufacturing process for explosive cartridges is safe, as no direct contact of the welding tool with the explosive.

The process of loading wells and the formation of a column of borehole charge is as follows: cartridges with explosive are successively lowered into the well until a column of borehole charge of the required height is formed. In this case, the cartridge is lowered into the flooded well so that the clipped end face of the inner polyethylene sleeve is directed towards the bottom of the water-filled well. Cartridges with explosives are moved in the well through a column of water under the action of its mass and the mass of overlying cartridges. In the process of loading wells in a predetermined location of the borehole charge at the junction of two cartridges, a fighter is installed in a known manner, consisting of an intermediate detonator and initiating means. Clog the upper uncharged part of the well with inert material. Initiation of a borehole charge is carried out in a conventional manner.

The main technical result of the utility model - increasing the efficiency of blasting - is achieved due to the distinguishing features of the design of the inventive explosive cartridge:

- maintaining the constancy of the component composition of explosives through the use of polyethylene sleeves, the ends of which can be welded, the proposed location of the ends of the inner and outer polyethylene sleeves of the cartridge, which ensures the tightness and water tightness of the cartridge, waterproofing a non-waterproof ammonia nitrate explosive;

- reliability and completeness of detonation of the cartridge and the charge of them due to the proposed relative location of the upper and lower ends of the inner and outer sleeves of the cartridge, which provides waterproofing of non-waterproof ammonium nitrate explosive and the constancy of the composition of explosives.

An example implementation of a utility model.

A cartridge with a diameter of 90 mm is formed of their two polyethylene sleeves. One end of the inner sleeve is hermetically sealed by welding, filled with a non-water-resistant explosive - RP granulite based on porous granular and crushed ammonium nitrate. The second end of the inner polyethylene sleeve is assembled into a “forelock” and closed by clipping. The inner sleeve with RP granulite is inserted with a clipped end into the outer polyethylene sleeve, the end of which is pre-welded, i.e. the clipped end of the inner polyethylene sleeve is in contact with the welded end of the outer polyethylene sleeve. The second (upper) end face of the outer polyethylene sleeve is assembled into a “forelock” and clipped or welded.

The proposed cartridge charges were tested when breaking rocks of various degrees of water cut in wells with a diameter of 120 mm. Crushing rocks, working out the bottom of the ledge, the width of the collapse of the rock is within normal limits. Failures and incomplete detonation of charges are not fixed.

Information sources

1 Utility Model No. 56587

2 RF Patent No. 2205168

3 Utility Model No. 115062

4 Utility Model No. 104967

5 Utility Model No. 65206

6 Utility Model No. 69631

7 Utility Model No. 56587

8 Utility Model No. 108129

9 Utility Model No. 105989

10 Utility Model No. 68119

11 Utility Model No. 116696

Claims (1)

Explosive cartridge for waterlogged wells, consisting of a non-water-resistant ammonium nitrate explosive, placed in two polyamide sleeves inserted into each other, characterized in that the cartridge contains two polyethylene sleeves, the upper end of the inner sleeve and the lower end of the outer sleeve are welded, the lower end of the inner sleeve, directed when loading towards the bottom of the flooded well, is assembled into a “forelock” and clipped, the upper end of the outer sleeve is assembled into a “forelock” and clipped or welded.

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