RU124784U1 - POLYPROPYLENE SLEEVE FOR DISTRIBUTION OF WELL CHARGES - Google Patents

Abstract

1. A polypropylene sleeve for dispersal of borehole charges, characterized in that it is a cross-linked product consisting of a metal ring placed in the neck of a polypropylene funnel turning into a polypropylene shell ending in a cargo pocket made by folding diagonally over the bottom of the polypropylene shell. 2 . The sleeve according to claim 1, characterized in that the cargo pocket is stitched with a single-line chain seam. 3. The sleeve according to claim 1, characterized in that it is made of a seamless fabric. The sleeve according to claim 1, characterized in that the polypropylene funnel is made of a single-woven polypropylene shell. The sleeve according to claim 1, characterized in that the metal ring is made of steel wire with a diameter of 4 mm, the ends of which are connected by welding. The sleeve according to claim 5, characterized in that the outer diameter of the metal ring is made less than the diameter of the polypropylene funnel by at least 4-5 mm. The sleeve according to claim 6, characterized in that the metal ring is sewn into the neck of the polypropylene funnel.

Description

The utility model relates to the mining industry, in particular to polypropylene hoses for dispersing borehole charges (PRZ sleeve), and is intended to create air gaps in borehole charges and create an air gap between the borehole charge and the bottom hole. Using PRZ Sleeves, both manual and mechanized loading of dry and flooded wells is allowed.

A liner for exploding wells is known from the prior art, consisting of one length of a waterproof, flattened, longitudinal pipe with an open upper part and a lower part ending in a lower edge by combining in the middle of the halves of the edge to form a pocket. The insert is equipped with a transverse seam above the pocket (US 4250811, 02.17.1981).

Known insulating sleeve, made with a muffled bottom, filled with water or an aqueous solution of a surfactant. The upper part of the sleeve in the area of the wellhead is performed with a varying cross section, which increases towards the wellhead (UA 46549, 05/15/2002).

Known polyethylene sleeve, which has a punching device on a twine installed at the end of the polyethylene sleeve (UA 65045, 03/15/2004).

Known assembled charging sleeve, placed in a conical shell. One end of the sleeve is sealed, for example, tied in a “forelock” and is located on the side of the slots of the shell, and a funnel for the charging hose is placed at the other end (RU 96945, 08.20.2010).

A sleeve is known made with a diameter larger than the diameter of the well, the lower end of which is sealed and provided with a load for immersing the lower end to the bottom, and its upper end is straightened at the upper cut of the pipe segment and, covering it, is clamped through the gaskets by means of clamps. The material of the sleeve is resistant to water and explosives and has the flexibility to form folds on the walls of the sleeve with a bend of 180 ° without destroying the integrity of the material. Examples of materials that meet these requirements are common in the technique of polyethylene and polypropylene (RU 2232372, 07/10/2004).

The closest analogue of the claimed utility model is a polypropylene sleeve for dispersing borehole charges, which is a cross-linked product consisting of a metal ring, a polypropylene funnel, a polypropylene sleeve (http://unikor.net/products/9/92/).

The disadvantages of this design is the high labor costs in the manufacture and operation.

The problem to which the proposed utility model is directed is to create a polypropylene sleeve for dispersing borehole charges, which would eliminate the above disadvantages.

The technical result achieved by the implementation of this utility model is to reduce labor costs in the manufacture and operation of the sleeve.

The specified technical result is achieved in a polypropylene sleeve for dispersal of borehole charges, which is a crosslinked product consisting of a metal ring, placed in the neck of a polypropylene funnel, turning into a polypropylene shell, ending in a cargo pocket made by bending along the diagonal of the bottom of the polypropylene shell.

The cargo pocket is stitched with a single-line chain seam.

The polypropylene sleeve for dispersal of borehole charges is made of one-piece fabric.

Polypropylene funnel made of a single-woven polypropylene shell.

The metal ring is sewn into the neck of a polypropylene funnel and made of steel wire with a diameter of 4 mm, the ends of which are connected by welding, while the outer diameter of the metal ring is made less than the diameter of the polypropylene funnel by at least 4-5 mm.

The essence of the utility model is illustrated by drawings, where in Fig.1 shows a General view of the sleeve PRZ; figure 2, 4 - design of well charges using a sleeve PRZ; figure 3 - design of borehole charges using multiple sleeves PRZ.

PRZ sleeves are a cross-linked product consisting of a metal ring 1, a polypropylene funnel 2, a polypropylene shell 3 and a cargo pocket.

The diameter d ₂ of the PRZ sleeve must be at least 10 mm larger than the diameter of the well into which the PRZ sleeve is placed, and the diameter of the polypropylene funnel must be at least 90 mm larger than the diameter of the well.

The metal ring should be made of steel wire with a diameter of d ₁ - 4 mm, the ends of which are connected by welding. In this case, welding is allowed to be done with seams with an overlay of no more than 10 mm in length.

Sewing PRZ sleeves is carried out with synthetic threads, which provide requirements for the breaking load of the seam and the quality of the sewing of the bag, on sewing machines with a single-line chain seam. The width of the seam should be 8-12 mm. 9. The number of stitches per 100 mm of the chain seam can be from 8 to 13, depending on the type of thread used.

The length L of the PRZ sleeve from the metal ring to the bottom of the PRZ sleeve can be 2 meters or more.

The dispersion of the charge in the well using the PRZ sleeve is as follows.

For uniform loading of the PRZ sleeve into the well, it is necessary to place the load (a piece of rock or casing material) in the cargo pocket.

After the formation of a charge of 5 explosives (BB) in the well (figure 2), lower the sleeve PRZ 7, which is held on the surface using a metal ring 1 located above the wellhead. Next, the second charge BB 8 is formed directly into the PRZ sleeve. Between the explosive charge 5 and the sleeve PRZ 7, an air gap 6 is created.

When charging deep wells, it is allowed to use two or more PRZ arms, by placing each subsequent PRZ arm in the previous one (Fig. 3).

To create air space between the explosive charge 5 and the stem 9 (figure 4), the stemming material is placed directly in the sleeve PRZ.

Unlike analogues (with the use of an additional sinker), the claimed utility model is more technological both in manufacturing and in application, namely:

- the pocket is made without additional labor, i.e. the bottom is stitched with the sleeve hem not diagonally, but diagonally. The number of operations does not increase;

- there is no need to produce individual goods, transport and fasten to bags. At the mouth of the wells there is always a rock, which acts as a load if it is placed in a pocket.

Claims (7)

1. A polypropylene sleeve for dispersal of borehole charges, characterized in that it is a cross-linked product consisting of a metal ring placed in the neck of a polypropylene funnel turning into a polypropylene shell ending in a cargo pocket made by folding diagonally over the bottom of the polypropylene shell. 2. The sleeve according to claim 1, characterized in that the cargo pocket is stitched with a single-line chain seam. 3. The sleeve according to claim 1, characterized in that it is made of one-piece fabric. 4. The sleeve according to claim 1, characterized in that the polypropylene funnel is made of a one-piece polypropylene shell. 5. The sleeve according to claim 1, characterized in that the metal ring is made of steel wire with a diameter of 4 mm, the ends of which are connected by welding. 6. The sleeve according to claim 5, characterized in that the outer diameter of the metal ring is less than the diameter of the polypropylene funnel by at least 4-5 mm. 7. The sleeve according to claim 6, characterized in that the metal ring is sewn into the neck of the polypropylene funnel.

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