UA124837U - METHOD OF BELL CHARGING - Google Patents

Abstract

A method of loading a blasting well involves drilling a well, placing it in the well of explosive and initiation means, filling the space above the explosive with a crushed rock mass. After placing the explosive and the means of initiation in the cavity of the well is lowered to a predetermined level of a watertight container in the form of a sleeve of polymeric or organic material, the bottom of which is pre-bandaged and partially filled with material stuffing, with the diameter of the sleeve is performed exceeding the diameter of the hole, after drilling the sleeves in the well fill it with the stuffing material to the surface level of the ledge.

Description

The useful model belongs to the mining industry and can be used in the open-pit development of mineral deposits and the associated explosive destruction of rocks using drilling machines, such as core drilling.

A useful model can be used in the development of both ore and non-ore deposits under unlimited mining conditions. A particularly useful model can be used for the destruction of rocks of medium and high strength where significant energy indicators of the explosion are required to obtain a given granulometric composition of the mining mass.

There is a known method of filling explosive wells, which consists in the fact that a warhead is lowered into the well on the conductor of the initiating impulse, for example, a detonating cord, and a charge is formed from an explosive substance. Then the expansion valve is lowered into the well, made of plastic mass in the form of a container with a thickened bottom, biconical shape, fixed with a bracket on a cord, lowered into the well to a given depth and filled with crushed stone fractions of 10-20 mm to the height of the expansion valve. Crushed stone fills both the inner cavity of the expansion valve and the narrowed part outside the expansion valve. The upper part of the narrowing has the shape of an inverted cone and due to this, it wedges the expansion valve into the walls of the well, transferring the expansion force to them, and the lower part of the narrowing prevents the rubble from spilling below the expansion valve. After that, the cavity of the well to the mouth is filled with backfill, for example, drilling mud (Russian Patent No. 2444696 for the invention).

The disadvantage of the known method is its non-technological nature when destroying rock mass in significant volumes. To implement the method, the following are required: a specified granulometric composition of the filler and a container of a complex geometric shape, which is filled with the filler material. These factors negatively affect the cost of drilling and blasting and, accordingly, the cost of the finished product for the mining and processing industry.

The effectiveness of blocking the explosive substance, when implementing the known method, is also insufficiently effective due to the fact that the container with the stuffing is inside the well and is also surrounded by the stuffing material. Such a position of the container, in which it does not interact with the walls of the well, does not allow the formation of a bursting effect under the influence of a blast wave that occurs when the explosive is initiated.

З During the implementation of the method, reliable blocking of the explosive substance is not ensured, which does not allow to achieve the specified granulometric composition of the destroyed rocks and a low level of dust emissions into the atmosphere.

There is a well-known method of charging a well, which is implemented in the following way. After the drilling work is done on the block, the wells are charged, the detonating chain is installed, then a cylinder made of, for example, wood, beveled with the upper end facing upwards, is lowered into the well to the depth of the massif, holding it by ropes so that the walls of the cylinder are parallel to the walls of the well. Having removed the cylinder, to the required depth, the lower edge of the beveled end with the help of a rope is attached to the crossbar located above the mouth of the well, and then the cylinder will be jammed in the well in the working position, and the rope is released freely. Between the charge of the explosive substance and the suspended packing, there is an unfilled space of the well.

To seal the gaps, increase the area of friction between the cylinder and the well wall, and increase the resistance to the ejection of the suspended wellhead from the well during the explosion of the charge, drilling fines are poured onto the upper beveled end of the cylinder, which, under the action of its weight, expands the suspended wellhead in the well, bringing it in working order. At the moment of the explosion, the gaseous products of the explosion fill the entire free space of the well and reach the cylinder, resting on the cylinder, which gets stuck in the well, blocking the exit of the gaseous products of the explosion, which is facilitated by the beveled upper and lower ends of the cylinder (Patent

Russia MO 2419063 for the invention).

The disadvantage of the known method is that its implementation is connected with the need for preliminary manufacturing of a complex structure, which increases the cost of drilling and blasting operations.

Well-known well plugging does not allow predicting the quality of the explosion due to the fact that the well plugging is significantly influenced by the mining technical conditions of the explosion. Implementation of the method requires considerable time for preparatory work, which increases the deadline for handing over the block for the mass explosion

The closest solution, chosen as the closest analogue, is the method of charging explosive wells, in the implementation of which the body of the ram is placed above the air gap installed above the explosive charge. The lower backfilling part of the ram is made of inert loose material with a size of less than 5 mm, the first section of the upper combined part of the ram is placed above it, made of elements of stone material in the form of large stones with a size of 0.5-0.6 of the diameter of the well mixed with stones of medium size 0.2-0.3 the diameter of the well. The voids between the stones are filled with inert loose material. The second segment of the upper combined part of the ram to the top of the well is filled with the same inert loose material.

Backfilling of blasting wells with elements of stone material, shortened to the diameters of the well, is formed in the following way. An air gap is formed in the well above the explosive charge in a known way, the height of which is equal to the difference between the depth of the well and the total length of the explosive charge and the packing. Above the air gap at a given height, the lower backfill part is formed with loose inert material, for example, drilling mud. After that, the first section of the upper combined part of the ram is formed, large stones of 0.5-0.6 diameter of the well are placed in layers, interspersed with medium-sized stones of 0.2-0.3 of the diameter of the well. To increase the gas tightness of the filling, the spaces between the large and medium-sized stones of each layer are filled with inert loose material, for example, drilling mud. The dimensions of the lower backfill part and the first segment of the upper combined part of the filling are selected experimentally. The second segment of the upper combined part of the rammer is filled with inert bulk material (Russian Patent No. 2526950 for the invention).

The disadvantage of the known technical solution is that in order to fill wells, it is necessary to solve the problem of manufacturing and delivering the stuffing, which has a different granulometric composition. The technology is complicated due to the need to mix the filling components and distribute individual fractions along the height of the filling. All of the above increases the cost of drilling and blasting.

A significant disadvantage is that large pieces of stuffing are placed in an environment of small pieces of stuffing, which minimizes the positive effect of the destruction of the rock massif.

The purpose of the useful model is to improve the method of charging a blasting well due to the fact that a sleeve made of water-impregnated polymer or organic material is used for filling the explosive, which is expediently made of woven polypropylene.

Such a sleeve provides sufficient strength when filling with stuffing material. A high degree of interaction of the plug with the surface of the well is additionally ensured by the fact that

The sleeve is made in such dimensions that the diameter of the sleeve exceeds the diameter of the borehole.

In addition, by changing the parameters of the bottom part, it is possible to reliably fix the position of the bit in the well.

According to the solution of the task, the method of charging a blasting well includes drilling a well, placing an explosive substance and means of initiation in the well, filling the space above the explosive substance with packing material made of crushed rock mass.

According to the useful model, after placing the explosive substance and means of initiation in the cavity of the well, a water-permeable container in the form of a sleeve made of polymer or organic material is lowered to a given level. The bottom part of the sleeve is pre-tied and partially filled with stuffing material. The diameter of the sleeve is greater than the diameter of the well. After placing the sleeve in the well, it is filled with stuffing to the level of the surface of the ledge.

For reliable fixation of the sleeve when an air gap is formed in the well charge, prior to lowering the sleeve into the well, a cord or cable is attached to the bandaged place of the sleeve, and the sleeve itself is then turned inside out, lowered into the well and partially filled with punching material, after which it is raised by with the help of a cable or cord, the bottom part of the sleeve to a height of 0.5-1.5 of the diameter of the well and fix the cable or cord on the surface of the ledge and fill the sleeve with stuffing to the level of the surface of the ledge.

To increase the efficiency of the interaction of the stuffing with the walls of the well and ensure reliable isolation of the explosive substance, the upper mouth of the sleeve filled with crushed mining mass can be tied with a cord.

To keep the sleeves in a fixed position when drilling wells on the working block, after the sleeve is partially filled with stuffing, a cable or cord from adjacently located blasting wells is connected to each other.

In order to ensure the high strength of the sleeve when filled with stuffing material, as well as its sufficient water permeability when locating wells on a block with watered rocks, the sleeve filled with stuffing is made of woven fabric made of polypropylene.

When drilling separately located wells on the block, as well as to increase the productivity of charging and filling wells, the mouth of the sleeve is fixed to the unloading unit of the dispenser of the filling machine.

The technical result of the implementation of a useful model is that: - high efficiency of drilling wells and, accordingly, high quality of rock crushing is ensured; - the method allows to ensure the specified destruction of rocks while minimizing the energy indicators during the initiation of the explosive substance; - the method allows to ensure high productivity of charging works and, accordingly, speeds up the terms of delivery of the block for the production of blasting works; - the specific consumption of the explosive in a wide range of physical and mechanical properties decreases; - the method makes it possible to ensure effective locking of the explosive substance in the well, preventing the breakthrough of gases, and thus allows to reduce the emission of dust and gases into the atmosphere to a minimum; - the method can be implemented in the development of ore and non-ore deposits of mineral deposits by an open method; - the method makes it possible to reliably fix the stuffing in the space of the well above the level of the explosive substance, which ensures the formation of an air gap with the specified parameters; - the method does not require significant capital investments and does not require special equipment for implementation; - the method can be implemented in relation to any types of chargers and diameters of blasting wells.

The method is implemented as follows.

When mineral deposits are worked out in an open way, the destruction of rocks in the contours of the block is carried out at the expense of drilling and blasting.

After drilling wells, they are charged with explosives.

Explosives are charged in the volume specified in the drilling and blasting passport, based on mining technical conditions and physical and mechanical properties of rocks.

After charging with an explosive substance, the charge of the explosive substance is rammed to isolate it from the day surface.

The sleeve can be made of water-permeable polymer or organic woven or perforated material.

The main condition of the used material should be its high water permeability.

This is due to the fact that when drilling wells in flooded rocks, it is quite difficult to place a waterproof sleeve in a flooded well without weighting.

Before filling the well, the capacity of the sleeve for filling is prepared. These sleeves can be prepared in advance depending on the length of the casing in the wells on the particular block being developed. For this, the sleeve is cut with a length not less than the length of the punch in the well, taking into account the required length of the sleeve on the day surface.

One of the ends of each prepared sleeve, which is lowered into the well, is firmly tied with a rope or cord, thereby isolating the lower part, which must withstand the weight of the ram. For effective movement of the sleeve in the well, a small amount of stuffing is placed in it, which acts as a load.

The prepared sleeve is lowered to the specified level and filled with stuffing to the level of the surface of the ledge.

Due to the fact that the sleeve is made with a diameter that exceeds the diameter of the well, as the sleeve is filled with stuffing, its surface tightly adheres to the uneven walls of the well without shifting after filling to the day surface.

The location of the charge level may be different from the level of the explosive substance. If the ram is above the explosive, an air gap is formed between them.

The parameters of the air gap are determined depending on the physical and mechanical properties of the rocks, the mining technical conditions of the development of the block, the passport of drilling and blasting operations and the explosive used.

If, according to the drilling and blasting passport, it is necessary to create an air gap for equipping the well charge, then a cord or cable is tied to the bandaged part of the sleeve, the length of which must be at least the length of the sleeve. After that, the sleeve is turned inside out and lowered into the well to the specified level.

After lowering the sleeve, if necessary, partially sprinkle the bottom of the sleeve with the crushed rock mass of the rammer with the help of a cord, raise the bottom of the sleeve up to a height equal to 0.5-1.5 of the diameter of the well, with the formation of a conical shape at the end of the sleeve. After that, the cord is fixed and the stuffing is gradually poured into the sleeve. Due to the fact that a conical shape is formed in the end part of the sleeve, the bottom part of the sleeve expands and keeps it at a given level.

Studies have shown that moving the central bottom part of the sleeve to the above-mentioned height using a cord or cable is optimal, because moving it to a height less than 0.5 of the well diameter and more than 1.5 of the well diameter does not provide the necessary effect of spreading the bottom part of the sleeve and fixing it in given position.

Fixing the cord or cable on the surface can be done by using various devices. Studies have shown that as an option for fixing the cord or cable, after the sleeve is partially filled with stuffing, cords or cables from adjacently located blasting wells can be connected to each other.

Studies have shown that increasing the efficiency of the interaction of the plug with the walls of the well and ensuring reliable isolation of the explosive substance can be achieved by tying the upper mouth of the sleeve filled with crushed mining mass with a cord.

Research and industrial tests have shown that as a variant implementation of the method, to fix the sleeve, its mouth can be fixed to the unloading unit of the filling machine dispenser. This ensures reliable retention of the sleeve during the filling process, as well as reduction of dust emission into the atmosphere of the quarry.

Studies have shown the high efficiency of the method under various mining conditions for working out ore and non-ore deposits. The method can be used when using any drilling equipment and any type of industrial explosive.

Claims (6)

USEFUL MODEL FORMULA 1. The method of charging a blasting well, which includes drilling a well, placing an explosive substance and means of initiation in the well, filling the space above the explosive substance with a filler made of crushed rock mass, which differs in that after placing the explosive substance and means of initiation in the cavity of the well, it is lowered to of a given level, a water-permeable container in the form of a sleeve made of polymer or organic material, the bottom part of which is pre-tied and partially filled with stuffing material, while the diameter of the sleeve is larger than the diameter of the well, and after placing the sleeve in the well, it is filled with stuffing material up to the level of the surface of the ledge. 2. The method according to claim 1, which differs in that, before lowering the sleeve into the well, a cord or cable is attached to the bandaged place of the sleeve, and the sleeve itself is then turned inside out, lowered into the well and partially filled with stuffing material, after which it is raised with the help of a cable or cord, the bottom part of the sleeve is raised to a height of 0.5-1.5 of the diameter of the well and the cable or cord is fixed on the surface of the ledge and the sleeve is filled with filling material up to the level of the surface of the ledge. 3. The method according to claim 1, which differs in that after the sleeve is partially filled with the stuffing material, cords or cables from adjacent blasting wells are connected together. 4. The method according to claim 1, which differs in that the upper mouth of the sleeve filled with crushed mining mass is tied with a cord. 5. The method according to claim 1, which differs in that the sleeve is made of woven polypropylene. 6. The method according to claim 1, which differs in that the mouth of the sleeve is fixed to the unloading unit of the dispenser of the filling machine.