CS255445B1 - A device for preventing dust leakage, compressed air and fragment breakage during blasting operations - Google Patents

Abstract

The device solves the problem of capturing dust, air blast and fragments during construction demolition, excavations for engineering structures on the surface and tunneling underground. Its essence lies in the fact that a containment envelope is created above or in front of the destroyed object from one or more layers of textile material, which localizes dust, air blast and fragments to a minimum space in close proximity to the destroyed object and prevents the spread of these undesirable effects accompanying blasting work to the surroundings.

Description

BACKGROUND OF THE INVENTION The present invention relates to a device for preventing dust leakage, compressed air wave and fragments from falling into the environment during blasting operations. The device forms an envelope over the object on which the blasting work is carried out.

Great dustiness is a hallmark of most building demolitions and is one of the most serious effects in their implementation because it extends to the wide surroundings. Until now, as a precautionary measure against dust, mainly the closing and covering of all windows, dormer windows and doors in buildings located in a circuit that can be expected to be hit by a dust cloud. Another anti-dust measure is the application of various types of water curtains or shedding of demolished objects with water or other solutions. In case of an urgent need for dust protection, the surrounding buildings in the vicinity of the blasting site are covered with plastic foils. Sometimes it is also possible to cover particularly sensitive exhibits inside buildings. These measures are very laborious and expensive and cannot be fully applied.

Protective measures are practically non-existent against compressed air waves. Especially large glazed surfaces are at risk from its effects and should not be exposed to the pressure wave frontally and should therefore be opened to the side before blasting. This would be possible with glass panes embedded in swivel frames, but would be in operation with the requirement to protect the interior against dust.

Therefore, only glazing of glazed surfaces with technical tape is carried out, the main purpose of which is, however, to prevent the glass from spilling out of the frame and endangering the environment.

Protection of fragments from the place of stored charges is carried out directly on the objects to be blasted, usually from fence and rabbet mesh, which is laborious and costly.

When performing blasting works on civil engineering structures on the surface, especially in the excavation of foundation pits and trenches for engineering networks, only protection against fragment fragmentation, which consists in the laying of fence mesh, respectively. rubber bands or reinforcement nets at the borehole where the charges are stored. It is often necessary to use a crane to lay it down.

After blasting, it is necessary to remove the take-off protection device first so as not to interfere with mining. The device only prevents take-off, it is expensive ¢ 1 can usually be used only once. Therefore, it is used only when strictly necessary.

When performing blasting works on underground structures, that is, when driving tunnels, tunnels and other spatial works, virtually no active measures to prevent dust leakage, the effects of compressed air waves and the fragments fly off during the actual blasting at the head face. Passive safety measures consist of clearing the danger area from people, machines and equipment. The aforementioned drawbacks are eliminated by the use of the device according to the invention to prevent dust leakage, compressed air waves and fragments from breaking during blasting operations, which consists in forming a continuous package above and in front of the destroyed object, characterized in that the continuous package is formed of one, or more layers of textile material and prevents the spread of dust, greatly reduces the effect of compressed air waves and completely captures fragments from the destroyed object flying after firing charges into the surroundings.

The wrapper consists of strips of textile material with a tensile strength in the longitudinal and transverse directions of more than 80 N / cm joined together to the required size. The strength of the fabric ensures that the package does not rupture by fragments flying from the deposited charges, but does not interfere with unloading. The connection of textile strips allows to create a package of the required size according to the dimensions of the destroyed object.

There is a spacer gap between the container and the destroyed object, which prevents it from bursting when a charge is fired, resulting in a volume change of the destroyed object. The wrapper is fixed around its perimeter and thus creates a catch sheet above or in front of the destroyed object, which locates dustiness, ie airwave and fragments flying into minimal space.

In the accompanying drawings, three embodiments of a protective container according to the invention are shown, in which Figures 1 and 2 show the protective container above the three-storey object in sectional view and view. FIGS. 3 and 4 show a protective cover above the blast holes for the excavation of the foundation pit, and FIGS.

Figures 1 and 2 show an object intended for building destruction 2 · The truss 2 has been exposed along the wall plate. The timber 2 is pulled into the chimney vents on the roof 2 · Wire 4 is placed over it carrying the other part of the wire structure 2 the ground tied to the lifting lugs panels 6, which, together with a layer of bulk material 2 protects the country imposed utilities 2 · Wire structure that ensures a minimum spacing distance of the package 10 from the object 2 s ^e off over the object using wooden beams 9, which are both nailed to the roof truss and, on the other hand, propped up against the roof.

The fabric 10, 3 ^e is pulled over the wire structure and the strips are already joined in the joints 11 ♦ The joint is made by offsetting one part over the other at least 30 cm wide, both jointed in the overlap width and twisted together to secure the joint against stretching.

The fabric is fixed to the ground by overloading the panel 12.

Figures 3 and 4 show a diagram of boreholes 2 for blasting the foundation pit. Outside the contour of the foundation pit, short wells 2 are drilled into which the wooden log 3 is driven. A wire warp 4 is nailed to it. Over it is draped fabric 10, the strips are joined in joints 21 · ^P s is a ground fabric přitržena Ί_ bulk material,

In Figures 5 and 6, the face of the embossed tunnel 2 is drawn into which the boreholes for the placement, the charge 2 and the tybine reinforcement 21 are drilled. ^The fabric 10 is attached ^{to the} last ring of the tybine reinforcement to form a loosely hanging bag. The fastening of the fabric to the reinforcement is carried out by means of wooden chips 2 'which are spread on the sides of the casting by a tybin.

If desired, the device can be used in such a way that the textile wrapper is made in multiple layers, depending on the size of the charges used and the type of fabric used. In building detrusts, the object can be wrapped immediately after the user clears the object and thus acts as a barrier against the entry of unauthorized persons. For buildings that are considerably dilapidated, they can also provide protection against the general threat of dropping plaster, ledges and roofing.

Claims (6)

SUBJECT OF THE INVENTION A device for preventing dust, compressed air wave and fragment fragments while performing blasting operations by means of a package formed above or in front of a destroyed object, characterized in that the continuous package 10 is formed of at least one layer of textile material. Device according to claim 1, characterized in that the package 10 consists of strips of textile material with a tensile strength in the longitudinal and transverse directions of more than 80 N / cm, connected to each other to the required size. 3. Apparatus according to claim 1, characterized in that there is a distance of at least 20 cm between the container 2 ^{and the} object to be destroyed. Device according to one of Claims 1 to 3, characterized in that the package 22 is after - ^? fixed in the circuit. 5. Device according to claims 1 to 4, characterized in that the spacing gap between the container 22 and the object 2 destructured ^te created using round timber 2 ^{and the} beams 9, which is stretched over a warp wire on which the fabric belt is connected in .spojích 11, which are designed so that one web is offset over the other in a width of at least 30 cm, both coiled and twisted together, the lower web of the packaging 10 thus formed is fixed to the ground by loading with panels 12 or with loose material. 6. Device according to claims 1-4, wherein the spacer gap between the container 10 and disengagement of two readings ³ and a given distance d 2 ° face of the reinforcement 21 'of the container 10 which is attached on its circumference and fixed to a support 13 timbers% which are buckled into the reinforcement.