RU62152U1 - DEVICE FOR SEALING AND INSULATING CAVITIES AND CRACKS IN A SOLID BREAD MASSAGE AND CREATING AIR SPACES IN A BOREHOLE EXPLOSIVE CHARGE - Google Patents

Abstract

Usage: refers to the field of mining and is designed to seal and isolate cavities and cracks in a solid rock mass and can be used to lock the borehole charge, seal inside the pipe space, seal cavities and cracks in tunnels, boreholes, building structures, and also the expansion of cavities and cracks during emergency rescue operations. Objective: to improve the device for sealing and isolating cavities and cracks in a solid rock mass and creating air gaps in the borehole explosive charge, by changing the structural elements and the relationship between them, to simplify the device. Essence: a device for sealing and isolating cavities and cracks in a solid rock mass and creating air gaps in the borehole explosive charge, contains a tight malleable shell with a suspension element and a source of creating pressure in it for its radial expansion. A pliable hermetic shell is formed by a set of different types of hermetically sealed bags, which are inserted one into the other and rolled into a roll, the source of pressure is placed inside the hermetically sealed bag forming the inner surface of the roll and made in the form of separate sealed bags, each of which is filled with one of the components of the gas generating composition, while the hermetically sealed bag forming the inner cavity of the roll contains valves communicating its cavity with the cavity of the bag surrounding it, and the limit chnosti bag to stretching ((σ _{mesh) was} taken (10-15) σ _pack where (σ _pak) - tensile strength at tensile package bags and packages are made of an elastic transparent material technical result and thereby extend the scope of its application.. .1 n.p.f-ly, 1 z.p. f-ly, 4 ill.

Description

The utility model relates to the field of mining and is designed to seal and isolate cavities and cracks in a solid rock mass and can be used to lock the borehole charge, seal inside the pipe space, seal cavities and cracks in tunnels, boreholes, building structures, and also the expansion of cavities and cracks during emergency rescue operations.

A device for sealing and isolating cavities and cracks in a solid rock mass and creating air gaps in the borehole explosive charge, according to the patent of Russia No. 2187783 from 2001.01.11, IPC 7 F 42 D 1/08, publ. 2002.08.20, comprising a sealing element with a suspension element.

The reason that impedes the achievement of the expected technical result is that the sealing element for the borehole charge is made in the form of a disk made of a material having a shape memory, while the disk is contoured with elastic materials, which complicates, increases the cost of the device and limits its functionality. This is due to the dependence of the sealing element, in the form of a disk, on the shape and diameter of the cavity, i.e. wells.

The closest set of features to the claimed utility model is a method of charge dispersal in a well according to Russian patent No. 2235971 dated 2003.07.25, IPC 7 F 42 D 1/08, publ. 09/10/2004, in which a device for isolating a borehole charge is used, comprising a sealed pliable shell with a suspension element and a source of creating pressure in it for its radial expansion.

The reason that impedes the achievement of the technical result is that a mobile source of compressed air and equipment for its connection are used to create pressure in a sealed malleable shell, which complicates the process of operational use of the device for sealing and creating air gaps in the borehole explosive charge.

The above devices are not suitable for use in hard-to-reach places, as well as in emergency rescue operations, where there is no possibility for connecting and deploying means of supplying compressed air, which limits its use.

The utility model is based on the task of improving the device for sealing and isolating cavities and cracks in a solid rock mass and creating air gaps in the borehole explosive charge by changing structural elements and the relationship

between them, to simplify the device and thereby expand the scope of its application.

The problem is solved in that in a device for sealing and isolating cavities and cracks in a solid rock mass and creating air gaps in a borehole explosive charge, containing a sealed malleable shell with a suspension element and a source of creating pressure in it for its radial expansion, according to a utility model, malleable hermetic shell is formed by a set of different types of hermetically sealed bags, which are inserted one into the other and rolled into a roll, the source of pressure is placed inside hermetically indoor bag forming the inner surface of the roll and made in the form of separate sealed bags, each of which is filled with one of the components of the gas-generating composition, while the hermetically sealed bag forming the inner cavity of the roll contains valves communicating its cavity with the cavity of the bag surrounding it, and tensile strength bag ((σ _mesh ) taken (10-15) σ _Pak , where (σ _Pak ) is the tensile strength of the bag. Bags and bags are made of elastic transparent material.

The implementation of a flexible hermetic shell in the form of a set of different types of hermetically sealed bags that are inserted one into another and rolled into a roll, and a source of pressure for its radial expansion in the form of separate sealed bags, each of which is filled with one of the components of the gas generating composition and its placement inside is hermetically sealed closed bag forming the inner surface of the roll eliminated the time-consuming operations of connecting and deploying means for supplying compressed air, to ensure the process with self-inflating of a malleable airtight shell and due to this simplify and reduce the cost of the device, increase efficiency in its use, and also expand the scope of its application.

The implementation of bags and bags of transparent elastic material provides visibility of the condition of the bags in the roll, and control the occurrence of a chemical reaction in the bag.

The tensile strength of the bag (σ _mesh ) taken (10-15) of the tensile strength of the bag is established experimentally. Changing the boundary parameters in the direction of increasing or decreasing makes the device inoperative.

The essence of the utility model is illustrated by drawings, where:

figure 1 - General view of the device;

figure 2 is a General view of the device in cross section aa;

figure 3 - presents the device in expanded form;

figure 4 - the device in cross section BB.

A device for sealing and isolating cavities and cracks in a solid rock mass and creating air gaps in the borehole explosive charge, contains an airtight malleable shell

1 with a suspension element 2 and a source of creating pressure in it for its radial expansion. Compliant hermetic shell 1 is formed by a set of different types of hermetically sealed bags 3, 4, 5 which are inserted one into the other and rolled up. The source of pressure is placed inside a hermetically sealed bag 5, which forms the inner surface of the roll, and is made in the form of separate sealed bags 6, 7 each of which is filled with one of the components 8, 9 of the gas generating composition. In this case, the hermetically sealed bag 5, forming the inner cavity of the roll, contains valves 10 communicating its cavity with the cavity of the surrounding hermetically sealed bag 4. The tensile strength of the bag ((σ _mesh ) is taken (10-15) σ _Pak , where (σ _Pak ) is the tensile strength of the bag. Bags 3, 4, 5 and bags 6, 7 are made of elastic transparent material.

A device for sealing and isolating cavities and cracks in a solid rock mass and creating air gaps in the borehole explosive charge is used as follows.

The devices are preliminarily prepared according to predetermined parameters, in particular, the maximum amount of radial expansion necessary to create a given locking force in the cavity of the borehole charge. The depth of entry of the device into the well or cavity is set by the length of the suspension 2.

To form a cavity in the borehole explosive charge, this device is used as follows.

The suspension device 2 is lowered into the well. Before lowering the device into the well, bending forces are applied to it. This operation is performed manually by grasping the device from the ends with his hands and bending it around the knee of the user's foot or other support. Such an effort is sufficient so that the packages 6, 7 with the components of the gas generating mixture are destroyed. As a result of mixing these components, a chemical reaction with the evolution of gas occurs. Under the pressure of the gas in the hermetically sealed bag 5, the valves 10 forming the inner surface of the roll open, and the gases rush into the cavity of the surrounding hermetically sealed bag 4. As the gas flows into it, the bag 4 inflates. The radial forces arising in this case act on the hermetically sealed bag 3 surrounding it, which unwinds and closes the cavity. For a chemical reaction with evolution of gas, for example, gas generating components such as vinegar and soda are used.

Thus, create air gaps in the formation of the column of the borehole explosive charge. Depending on the parameters of the air gap in the column of the borehole explosive charge or cavity in the borehole, the parameters of the bags and the number of gas generating components are changed.

In the presence of a large air cavity exceeding the maximum dimensions of one swollen device, you can use

several devices by which the remaining air cavity is compensated, thereby achieving reliable locking of large ragged cavities. As a result, these devices are widely used. For example, the inventive devices in the form of self-inflating bags showed themselves well in the construction industry, where they are used to lock cracks and cavities in building structures and buildings, as well as during rescue operations to release objects from under the rubble. When using the inventive device for locking a crack or cavity in a solid rock mass or building structures, an airtight malleable shell 1 is placed directly in the cavity or crack. Simultaneously with its placement in a cavity or crack in it cause a chemical reaction with evolution of gas. For a chemical reaction with evolution of gas, for example, gas generating components such as vinegar and soda are used. As the gas is released, a pressure is created in the sealed malleable shell 1, under the influence of which the shell swells and closes the cavity or crack 4.

The parameters of the locking properties of these shells can be varied depending on the parameters of the shell of its execution form and the number of components emitting an appropriate volume of gases, which makes it possible to use the shells to seal cavities and cracks in waterlogged wells, tunnels and building structures.

Claims (2)

1. A device for sealing and isolating cavities and cracks in a solid rock mass and creating air gaps in the borehole explosive charge containing a sealed malleable shell with a suspension element and a source of pressure in it for its radial expansion, characterized in that a malleable sealed shell is formed a set of different types of hermetically sealed bags, which are inserted one into the other and rolled up into a roll, the source of pressure is placed inside the hermetically sealed bag, forming the inner surface of the roll, and is made in the form of separate sealed bags, each of which is filled with one of the components of the gas generating composition, the hermetically sealed bag forming the inner cavity of the roll contains valves communicating its cavity with the cavity of the bag surrounding it, and the tensile strength of the bag ( (σ _mesh ) taken (10-15) σ _Pak , where (σ _Pak ) is the tensile strength of the package. 2. A device for sealing and isolating cavities and cracks in a solid rock mass and creating air gaps in the borehole explosive charge according to claim 1, characterized in that the bags and bags are made of elastic transparent material.