RU214622U9 - Emulsion Action Agent Protection Container - Google Patents

Abstract

The utility model relates to the mining industry and can be used to fix the emulsion action agent in wells during blasting at mining sites. The container for protection of the emulsion action agent contains a protective body in the form of a hollow cylinder, protrusions located at the ends of the hollow cylinder and directed perpendicular to the axis of the protective body inside the hollow cylinder, centering elements located on the outer side of the protective body at the location of the protrusions. The protective body is made up of two vertical parts, each of the vertical parts at the location of the protrusions is made with elements of a smaller radius of the protective body than the vertical parts of the protective body. The vertical parts of the protective housing are interconnected by means of elastic elements when mating with elements of a smaller radius of the protective housing. The centering elements are made in the form of discs with holes and grooves made along the perimeter of the discs. The thickness of the walls of the protective housing and the rigidity of the material from which the protective housing is made provide a stable connection of the vertical parts of the protective housing during assembly, after placing an emulsion action agent with a shock wave tube in it. The technical result is to increase the safety of the emulsion action agent by protecting it from possible damage during the formation of the downhole charge. 3 ill.

Description

The utility model relates to the mining industry and can be used to fix the emulsion action agent in wells during blasting at mining sites.

A container is known for fixing and installing cartridges-fighters and intermediate detonators in blast holes, containing a cylindrical body made in the form of a dimensional insert with grooves, and equipped with a stop for the shank made in the form of a guide cone with a cylindrical transition to the body. The cover is made in the form of a centering cartridge, petals are rigidly fixed on the base, truncated hollow cones of different diameters with cylindrical grooves inside are located on one axis [1].

The disadvantages of this utility model are the technological unreliability during operation, determined by insufficiently rigid fastening of the components, as well as the exclusion of interchangeability of parts in case of breakage.

A device for fixing a charge in a well is known, containing a cylindrical body and a locking mechanism consisting of two spring-loaded petals, the inner ends of which are connected by a common axis. The locking mechanism is made in the form of symmetrically arranged petals spring-loaded by means of a multi-turn rigid steel spring wound on a common axis, which, when folded, are diametrically located parts of the walls of the cylindrical body, and the base of the cylindrical body is made in the form of a tetrahedral figure with a truncated top [2].

The disadvantage of this utility model is the low reliability and the inability to quickly replace failed parts and connections, due to the technical complexity of the device.

The closest technical solution is a container for fixing and installing cartridges-fighters and intermediate detonators. The container is made of polyethylene, contains a body in the form of a hollow cylinder, protrusions located perpendicular to the axis, centering elements in the form of elastic petals located on the outer side of the protective body, at the location of the protrusions. Flat protrusions are located inside along the body perpendicular to the axis in the amount of at least three. The lid of the container is made in the form of a hollow cylinder and has a domed bottom [3].

The disadvantage of this method is the complexity of the design and the presence of a large number of connecting elements, which leads to a decrease in the reliability of the device.

The technical result of the proposed device is to improve the safety of the emulsion action agent by protecting it from possible damage during the formation of a downhole charge.

The technical result is achieved by the fact that the container for protecting the emulsion action agent, containing a protective body in the form of a hollow cylinder, protrusions located at the ends of the hollow cylinder and directed perpendicular to the axis of the protective body inside the hollow cylinder, centering elements located on the outer side of the protective body at the location protrusions that the protective housing is made of two vertical parts, each of the vertical parts at the location of the protrusions is made with elements of a smaller radius of the protective housing than the vertical parts of the protective housing, the vertical parts of the protective housing are connected to each other by means of elastic elements when paired with elements of a smaller radius protective housing, while the centering elements are made in the form of disks with holes and grooves made along the perimeter of the disks, and the thickness of the walls of the protective housing and the rigidity of the material from which the protective housing is made provide a stable connection between the tical parts of the protective housing during assembly, after placing an emulsion action agent with a shock wave tube in it.

The possibility of forming the required sequence of actions performed by the proposed means allows us to solve the problem, determines the novelty, industrial applicability.

In FIG. 1 is a general view of a container for protecting an emulsion action agent; in fig. 2 - View A in Fig. 1 shows a centering element; in fig. 3 - section B-B in Fig. 1 shows the wall thickness of the protective housing.

The container for protecting the emulsion agent 1 includes a protective body 2 in the form of a hollow cylinder 3, protrusions 4, 5 located at the ends 6 of the hollow cylinder 3 and directed perpendicular to the axis 7 of the protective body 2 inside the hollow cylinder 3. Centering elements 8, 9 are located on the outside 10 of the protective housing 2 at the location of the protrusions 4, 5. The protective housing 2 is made up of two vertical parts 11, 12. Each of the vertical parts 11, 12 at the location of the protrusions 4, 5 is made with elements of a smaller radius 13, 14 than the vertical parts 11, 12 of the protective housing 2. The vertical parts 11, 12 of the protective housing 2 are interconnected by means of elastic elements 15, 16 when mating with elements of a smaller radius 13, 14 of the protective housing 2. Centering elements 8, 9 are made in the form of disks 17, 18 with holes 19 and grooves 20 made around the perimeter 21 of the disks 17, 18. The thickness of the walls 22 of the protective housing 2 and the stiffness of the material from which the protective th body 2, provide a stable connection of the vertical parts 11, 12 of the protective body 2 during assembly, after placing the emulsion fighter 23 with the shock wave tube 24 in it.

Placing emulsion fighter with a shock wave tube in the well by means of a container to protect the emulsion fighter is as follows.

Well 25 is filled with borehole charge 26 and a container is assembled to protect the emulsion action agent 1. Protective housing 2 in the form of a hollow cylinder 3 is made with protrusions 4, 5 located at the ends 6 of the hollow cylinder 3 and directed perpendicular to the axis 7 of the protective housing 2 inside the hollow cylinder 3 Beforehand, in one of the vertical parts 11, 12, an emulsion fighter 23 with a shock wave tube 24 is placed. Then the vertical parts 11, 12 are connected. 13, 14 of the protective housing 2 than the vertical parts 11, 12 of the protective housing 2. From the outer side 10 of the protective housing 2, through interconnected elements of a smaller radius 13, 14, until it stops with the protrusions 4, 5, the centering elements 8, 9 are inserted , made in the form of discs 17, 18 with holes 19 and grooves 20, made around the perimeter 21 of the discs 17, 18. Elements of smaller radius 13, 14 fasteners are elastic elements 15, 16, providing a rigid and stable connection of the vertical parts 11, 12 due to the thickness of the walls 22 of the protective housing 2 is not less than, for example, 1 mm, as well as the rigidity of the material from which the protective housing 2 is made, the elasticity and strength of the elastic elements 15, 16. The placement of the container to protect the emulsion action agent 1 in the well 25 is carried out after filling the well with charge 26. The disks 17, 18 provide not only centering along the well 25 with a uniform radial clearance, but also a decrease in resistance during gravitational movement in the well 25. Through the container to protect the emulsion fighter 1, it is possible to fix the emulsion fighter 23 with the shock wave tube 24 at a given depth, protect against possible damage during the formation of the downhole charge 26 and prevent the rupture of the shock wave tube 24.

The developed experimental design was tested in laboratory conditions using the resources of the Center for the Collective Use of Scientific Equipment "Center for Processing and Storage of Scientific Data of the Far Eastern Branch of the Russian Academy of Sciences."

The proposed device improves the safety of the emulsion action agent by protecting it from possible damage during the formation of a downhole charge.

Sources of information

1. Utility model patent RU 165856 U1, 11/10/2016, F42D 1/08, Bull. No. 31.

2. Utility model patent RU 195593 U1, 01/31/2020, E42D 1/22; F42D1/22, Bull. No. 4.

3. Patent RU 2678280 C1, 01/24/2019, E42D 1/22; F42D 1/22, Bull. Number 3.

Claims (1)

A container for protecting an emulsion action agent, containing a protective body in the form of a hollow cylinder, protrusions located at the ends of the hollow cylinder and directed perpendicular to the axis of the protective body inside the hollow cylinder, centering elements located on the outer side of the protective body at the location of the protrusions, characterized in that the protective the body is made of two vertical parts, each of the vertical parts at the location of the protrusions is made with elements of a smaller radius of the protective body than the vertical parts of the protective body, the vertical parts of the protective body are connected to each other by means of elastic elements when mating with elements of a smaller radius of the protective body, when In this case, the centering elements are made in the form of disks with holes and grooves made along the perimeter of the disks, and the thickness of the walls of the protective housing and the rigidity of the material from which the protective housing is made provide a stable connection of the vertical parts of the protective case during assembly, after placing in it an emulsion fighter with a shock wave tube.