RU2773126C9 - Shelter for explosion sites - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: shelter for explosion sites relates to the field of mining, in particular, to open development of mineral deposits, in the course of blasting operations during construction and reconstruction of buildings and structures, in conditions requiring elimination of scattering of separate rock pieces and reduction in the level of dust formation during blasting. The proposed shelter can also be applicable in underground mines without gas and dust hazard in order to eliminate ore spreading. The shelter is made in the form of a non-woven covering material. A reinforcing element is secured in the area of the wellheads, with a covering non-woven material located on top of said element, with weights sewn along the perimeter, made of strips of a non-woven material with a density of at least 600 g per m². The strips of covering non-woven material are placed so as to overlap. The overlap should be at least

of the width of the strip.

EFFECT: increase in the safety of blasting operations with a reduction in the labour costs for covering the of explosion site areas regardless of the area thereof.

3 cl, 3 dwg

Description

Shelter of explosion sites refers to the field of mining, in particular to the development of mineral deposits in an open way, during blasting during the construction and reconstruction of buildings and structures, in conditions where it is necessary to exclude the spread of individual pieces of rock mass, as well as to reduce the level of dust formation during explosion. The proposed shelter can also be applicable in underground mines that are not hazardous in terms of gas and dust, in order to prevent the spread of ore.

From the method it is known to shelter explosion sites (patent No. 2265799 "Method of blasting ledges under chain mats" dated 06/07/2004), which involves covering the entire area of the ledge and its slope with mats from anchor chains. Mats are fixed on the ledge and slope area for specially installed fastening anchors. After loading the blast holes, the shelter of the explosion sites is placed on the surface to be blasted, and the installation of the surface explosive network is carried out after the installation of the shelter is completed.

The disadvantages of the analogue are: the need for heavy equipment for the installation of shelters and the delivery of anchor chains, the equipment must be approved for work on a rechargeable unit, equipped with spark arresters and have industrial safety expertise. The installation of a surface explosive network over the shelter mats is very laborious (a large mass of the shelter) and the ability to control the installation of a surface explosive network is difficult. The low manufacturability of this shelter leads to high labor costs and the total cost of blasting.

And also a disadvantage is the impossibility in a relatively short time (about 3 hours) to produce shelters of areas up to 1.5 thousand square meters.

Also known is the shelter of explosion sites used for the surface of a rock mass (patent No. 2405125 "Shelter of explosion sites from car tires" dated 10.08.2009), made in the form of a covering non-woven material, which is used as worn-out automobile tires that are connected each other, and tires of different sizes are used. Smaller tires, however, are placed in the gaps between the larger tires. The shelter is fixed above the wellheads with ropes or chains for anchors installed in shallow wells outside the block to be blasted. The tires are connected to each other with the help of clamps made of a metal strip, fixed on diametrically opposite parts of the tires and equipped with connecting elements, and inside the tires there are replaceable nets of chains or lattices of rods with different window sizes, freely hanging on the clamps.

However, the disadvantages of the prototype are: the need for heavy equipment (crane, trucks delivering tires), which must be allowed to work on a chargeable unit, equipped with spark arresters and have industrial safety expertise. The installation of a surface explosive network over the shelter mats made of tires is very laborious (a large mass of the shelter) and the ability to control the installation of a surface explosive network is difficult. The low manufacturability of this shelter leads to high labor costs and the total cost of blasting.

In addition, it is possible to eject individual pieces of rock through the joints of car tires, which does not ensure safe blasting, in terms of scattering of individual pieces of rock, that is, it does not exclude their scattering outside the sheltered area of the explosion site. And also the disadvantage of the prototype is the impossibility in a relatively short time (about 3 hours) to produce shelter areas up to 1.5 thousand square meters.

The task (technical result) of the proposed shelter of explosion sites is to increase the safety of blasting, as well as to reduce labor costs for sheltering areas of explosion sites, regardless of their area.

от ширины полосы.The task is achieved by the fact that in the well-known shelter of the explosion sites, made in the form of a covering non-woven material, an amplifier is additionally fixed in the area of the wellheads, on top of which the specified covering non-woven material is located in layers with sewn-in weighting agents along the perimeter, made of strips of non-woven material with a density of at least 600 g per m ² , moreover, the strips of covering non-woven material are located with an overlap on each other, the value of which should be at least

from the bandwidth.

In addition, the task is achieved by the fact that the specified covering non-woven material is located on top of the amplifier, the strips of which are fastened to each other by lacing through the eyelets located along the edges of the strips.

от ширины полосы.In addition, the task is achieved by the fact that the specified covering non-woven material is located in three layers with sewn-in weighting agents around the perimeter, made of strips of non-woven material with a density of at least 600 g per m ² , and the strips of covering non-woven material are located overlapping each other, the value which must be at least

from the bandwidth.

In FIG. 1, fig. 2 and FIG. 3 shows schemes for sheltering explosion sites.

Sheltering explosion sites works effectively only when using non-electric and electronic initiation systems. The use of detonating cords of all types for the installation of explosive nets is not allowed.

The proposed shelter of the explosion sites contains:

- covering non-woven material of the explosion site. Strips of non-woven material are used, for example, Dornit, Geotex, Geotek or other non-woven material (non-combustible) with a density of 400 g per m ² or more;

- amplifiers for sheltering the explosion site, which are installed in the area of wellheads (zones of maximum escape velocity of individual pieces of rock). Felt plates, rubber sheets (thickness from 8 to 16 mm), four-fold stitched non-woven fabrics (materials with a high breaking force (at least 2200 kgf / m) and with an elongation at break of at least 100%) are used as amplifiers.

For all three options for sheltering explosive blocks, general preparatory work is carried out:

- first of all, the well charging parameters are calculated, taking as a basis the following formula (FNPPB "Safety Rules for Explosive Operations" (Approved by Order of Rostekhnadzor dated 12/16/2013 - No. 605)):

;

;

- the height of the stemming must correspond to the calculation for the expansion equal to 300 meters. At the same time, the height of the stemming and the specific consumption of explosives make it possible to achieve a satisfactory degree of crushing of the rock mass and the quality of preparing the rock mass for excavation;

- boreholes are loaded, charge height is monitored, boreholes are driven and explosive network surfaces are mounted.

Option 1. Covering the area of the explosion site with strips of non-woven material in several layers with amplifiers in the area of wellheads.

This option, which completely excludes the scattering of individual pieces of rock outside the explosion site.

- after the completion of loading and production of stemming of wells, amplifiers are placed on the wellheads, which have a significant mass and do not require any fastening. At the end of the placement of amplifiers, a surface explosive network is mounted;

от ширины полосы нетканого материала;- it is necessary to pre-prepare the strips in order to avoid tearing off the non-woven material web by strong wind during laying. The preparation consists in sewing around the perimeter of the strips of covering non-woven material of weighting agents, for example, a metal chain weighing 0.3 kg / m .; strips of non-woven covering material, with sewn-in weights around the perimeter, are laid in 3 layers, and the strips are overlapped on each other, the overlap must be at least

from the width of the strip of non-woven material;

- each subsequent layer of strips of non-woven material is located across the previous layer. Such a number and arrangement of layers practically excludes the possibility of the appearance of open areas during an explosion.

The cover scheme is shown in Fig. 1, where 1 - shelter reinforcements in the area of wellheads, 2 - covering strips

Thus, this shelter option is applicable when the areas of the explosion site are up to 1.5 thousand square meters and when protected objects (OO) are located at distances up to 50 m. work excludes damage to the TOE and allows you to cover large areas.

Option 2. Covering the explosion site with strips of non-woven material in one layer, sewn together with lacing and reinforcements in the area of wellheads.

After the completion of loading and production of stemming of wells, amplifiers are laid on the wellheads, then a surface explosive network is mounted. The dimensions of the shelter amplifiers can be less than the drilling grid by 20-30%.

The cover scheme is shown in Fig. 2, where: 1 - shelter reinforcement in the area of wellheads, 2 - strips of non-woven covering material, 3 - lacing of strips with a nylon halyard.

After the installation of the surface explosive network of the non-electric waveguide initiation system and its verification, the strips of non-woven covering material are located over the area of the explosion site. The strips of non-woven covering material are fastened to each other, for example, by lacing. The lacing of the strips of non-woven covering material passes through the eyelets located along the edges of the strips. Shelter work must begin immediately after the installation of the surface explosive network is completed. Strips of non-woven covering material should cover the entire area of the explosion site. The perimeter of the cover with strips of non-woven material should be outside the explosion site by twice the size of the hole grid from the center of the outer holes.

Thus, this shelter option is applicable when the areas of the explosion site are up to 1.5 thousand square meters and when protected objects (OO) are located at distances of up to 150 m. cover large areas of explosion sites.

Option 3. Covering the explosion site with strips of covering non-woven material.

This cover option provides for the arrangement of strips of covering non-woven material in 3 layers as follows:

- it is necessary to pre-prepare the strips in order to avoid tearing off the non-woven material web by strong wind during laying. Preparation consists in sewing around the perimeter of strips of covering non-woven material of weighting agents, for example, a metal chain weighing 0.3 kg / m; further, strips of non-woven covering material, with sewn-in weighting agents around the perimeter, are laid in layers;

- each layer overlaps each other, the amount of overlap must be at least 1L of the width of the strip of material;

- each subsequent layer of strips of non-woven material is located across the previous layer.

The scheme of the proposed shelter is shown in Fig. 3. where 2 is the location of the strips of the covering non-woven material.

Thus, this shelter option is applicable when the areas of the explosion site are up to 1.5 thousand square meters and when protected objects (OO) are located at distances up to 100 m, and with a sufficiently high manufacturability and low cost of materials and work, it excludes damage to the OO and allows covering large areas of explosion sites.

An explosive array is being prepared: blast holes are drilled, holes are charged, stemming is performed, amplifiers are placed on the wellheads, if necessary, depending on the work performed, a surface blast network is mounted. After that, strips of non-woven covering material are spread over the area of the explosion site. Strips of nonwoven material can be sewn together by lacing, or overlapped and across the previous layer.

After mass blasting, the strips of nonwoven fabric are collected and are mostly ready for reuse.

Conducted pilot industrial mass explosions, together with JSC "Vzryvprom of the South of Kuzbass" and LLC "BSK-Vzryvprom", showed the effectiveness of these methods of sheltering areas of explosion sites. The scattering of individual pieces of rock when using the first method of shelter is practically excluded. In addition, the strips of non-woven material remain mostly intact after the explosion, and are allowed to be reused after culling.

Increasing safety in terms of scattering of individual pieces of rock for buildings, structures and mechanisms is achieved due to the gas permeability of the shelter materials, their mass, as well as the high tensile strength of the shelter materials and high elongation at break of the shelter material in the transverse and longitudinal directions up to 85%.

Claims (3)

1. Shelter of explosion sites, made in the form of a covering non-woven material, characterized in that, in addition, an amplifier is fixed in the wellhead area, on top of which the specified covering non-woven material with sewn-in weighting agents around the perimeter is located in layers, made of strips of non-woven material with a density of at least 600 g per m ² , and the strips of covering non-woven material are located with an overlap on each other, the value of which should be at least

from the bandwidth. 2. Shelter of the explosion sites according to claim 1, characterized in that the specified covering non-woven material is located on top of the amplifier, strips overlapping each other, which are fastened to each other by lacing through eyelets located along the edges of the strips. 3. Shelter of the explosion sites according to claim 1, characterized in that the specified covering non-woven material is located in three layers with sewn-in weighting agents around the perimeter, made of strips of non-woven material with a density of at least 600 g per m ² , and the strips of covering non-woven material are overlapped on top of each other, the value of which must be at least

from the bandwidth.

Images