RU204380U1 - Device for the formation of dispersed charging cavities in blast holes - Google Patents

Abstract

The utility model relates to the field of development of minerals with the use of blasting by the method of borehole charges and can be used, for example, when carrying out stripping operations in open mining fields. More specifically, the invention relates to the design of a device for the formation of dispersed charging cavities in blast holes. the upper base of which, exceeding the borehole diameter, is equipped with a rigid ring. On the side surface of the funnel, near the rigid ring, there is at least one hole reinforced with a metal eyelet. The sleeve is connected to the funnel by means of a seam formed with a fold of elastic material, the seam being located on the outer surface of the device. Preferably, the sleeve and funnel are made of woven polypropylene. The technical result is to increase the reliability of the device. 2 c.p. f-ly, 3 dwg

Description

The utility model relates to the field of development of minerals with the use of blasting by the method of borehole charges and can be used, for example, when carrying out stripping operations in open mining fields. More specifically, the utility model relates to the design of a device for forming dispersed charging cavities in blast holes.

A device for attaching a polymer sleeve at the wellhead is known (utility model patent No. 122438 RU, publ. 11/27/2012). The device consists of a rigid plastic funnel, a conical plastic stopper with a latch, and a polymer sleeve. The polymer sleeve is passed from the inside through a funnel and a conical stopper, while the sleeve is twisted 10-15 cm out of the conical stopper, tucked into the funnel hole and latched. sleeves 15-30 mm, while the polymer sleeve is folded like an "accordion", laid inside the funnel.

The disadvantages of this analogue are the low reliability of the plastic funnel, which tends to deform under various climatic conditions, for example, melt under the influence of sunlight in hot weather, and becomes fragile at high negative ambient temperatures.

Another charger is known for creating air gaps in wells (utility model patent No. 142427 RU, publ. 06/27/2014). The device includes a rigid ring and a sleeve, additionally contains a second sleeve and a cargo pocket. The sleeves are made in the form of inverted truncated cones, and the pocket is in the form of a cylinder and made of polypropylene material, while the ring is mounted in the upper base of the first sleeve, the lower base of which is connected to the upper base of the second sleeve, the lower base of which communicates with the pocket, the diameter of the ring is larger than the diameter borehole and is larger than the diameter of the lower base of the first sleeve, the diameter of which is less than the borehole diameter.

The disadvantages of such a device are the uneven distribution of the volume of the explosive in the sleeve, due to the execution of the sleeves in the form of inverted cones with a gradual decrease in diameter towards the bottom, which leads to uneven crushing of the rock mass.

The closest analogue (prototype) to the claimed utility model, in terms of its essential features, is a known device for creating dispersed charges and forming air gaps in wells (utility model patent No. 46299 RU, publ. 27.06.2005). The device includes a sleeve made of elastic material with a weight, closed from the lower end, equipped with a funnel made of elastic material and a rigid ring, the lower base of the funnel being connected to the upper end of the sleeve, and a ring is mounted in the upper base. The diameters of the sleeve and the ring are made, respectively, 10-20 mm and 150-250 mm larger than the borehole diameter. The sleeve and funnel can be made of woven polypropylene. The device may contain at least two sleeves made of elastic material of different lengths with funnels and rings placed one in the other.

The disadvantages of the prototype are the low reliability of joint operation of the device with elements of the initiation system (waveguides of non-electric initiation systems, as well as wires of electronic detonators and electric detonators), which consists in the absence of devices to prevent the free end of the waveguide or electric wires from falling into the charged well.

The technical problem to be solved by the claimed utility model is the development of a new device for the creation of dispersed charges and the formation of air gaps in wells, a simple design and easy to complete, easy to manufacture, providing an increase in operational reliability.

The designated problem is successfully solved due to the proposed utility model, according to which the device for creating dispersed charges and forming air gaps in wells includes a closed, at the lower end, a sleeve made of elastic material and connected to a funnel made in the form of a truncated cone in the upper base of which, exceeding the borehole diameter, a rigid ring is installed. Distinctive features of the utility model are that on the side surface of the funnel made in the form of a truncated cone, near the rigid ring, there is at least one hole reinforced with a metal eyelet.

Also, the technical problem can be eliminated due to the particular form of the constructive implementation of the device, namely:

- preferably, if the sleeve is connected to the funnel by means of a seam formed with a fold of elastic material, the seam being located on the outer surface of the device;

- it is preferable if the sleeve and funnel are made of woven polypropylene.

The technical result obtained from the utility model consists in increasing the reliability of using the device.

The utility model is illustrated in more detail by drawings, which show the following:

fig. 1 is a general view of the device;

fig. 2 - an example of the implementation of the device located in the well;

fig. 3 - an example of the implementation of a device located in a well (large wellhead).

In the drawings, these reference numbers designate the following structural elements.

The device includes sleeve 1, funnel 2, rigid ring 3. Sleeve 1 and funnel 2 are made of elastic material, preferably woven polypropylene. The sleeve 1 is preferably cylindrical in shape, closed (sewn) at the lower end, and at the upper end connected to a funnel 2, which has the shape of a frusto-cone. A rigid ring 3 is mounted (sewn in) into the upper base of the funnel 2, which exceeds the borehole diameter. On the side surface of the funnel 2, near the rigid ring 3, there is at least one hole 4, reinforced with a metal eyelet 5. Such a hole 4 is intended for threading through it the free end of the waveguide or electrical wires 6 and fixing them with a knot, taking into account the slack. The sleeve 1 is connected to the funnel 2 by means of a seam 7 formed with a fold of elastic material. The seam 7 is located on the outer surface of the device, which makes it possible to exclude sticking of the firing cartridge 8 in the device, which is lowered into the well.

The device works as follows.

In the lower part of the well, mechanically or manually, an explosive charge 9 is placed with a cartridge-fighter 8. Then a device is lowered into the well to form dispersed charging cavities in blast holes, which separates the upper and lower parts of the charge with an air gap 10. After that, the upper part of the charge is located in the device. explosive charge 9 with a firing cartridge 8, which communicates with the surface of the borehole with a waveguide or electric wire 6, the free edge of which is threaded into hole 4, located near the rigid ring and reinforced with a metal eyelet 5, and then fixed with a knot, taking into account the remaining slack (as shown in Fig. 3).

During the experiment, the useful properties of the device were noted, consisting in the high reliability of joint operation of the device with waveguides of non-electric initiation systems, which is due to the presence of a device to prevent the free end of the waveguide from falling into the charged well (located near the ring, at least one hole reinforced with a metal eyelet) and a convenient location of the seam on the outer surface of the device, which makes it possible to exclude the firing cartridge from getting stuck in the device, which is lowered into the well.

Woven polypropylene is the most preferred elastic material, as it has good processing properties, in particular, crosslinkability.

An additional advantage of the claimed utility model is the reduction in labor costs in the manufacture and use of the device.

Thus, the device for creating dispersed charges and the formation of air gaps in the wells, according to the utility model, is not a complex design of simple assembly, it is quite technologically advanced in manufacturing, and ensures the achievement of a technical result in terms of increasing the reliability of its operation.

Claims (3)

1. A device for the formation of dispersed charging cavities in blast holes, including a sleeve closed at the lower end, made of an elastic material and connected to a funnel made in the form of a truncated cone, in the upper base of which, exceeding the diameter of the borehole, a rigid ring is mounted, characterized in that, that on the side surface of the funnel, made in the form of a truncated cone, near the rigid ring, there is at least one hole reinforced with a metal eyelet. 2. The device according to claim. 1, characterized in that it is preferable if the sleeve is connected to the funnel by means of a seam formed with a fold of elastic material, while the seam is located on the outer surface of the device. 3. The device according to claim 1, characterized in that it is preferable if the sleeve and funnel are made of woven polypropylene.

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