RU2564508C1 - Device for roof bolting monitoring - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: device for roof bolting monitoring contains check points, each of them is connected by flexible link with the appropriate indicator, and estuarine tube. At that the indicators are secured on the flexible links by the clamps, and are located one in another or are independent from each other. Besides the device for roof bolting monitoring has: the check point is made as spring with unbend ends; the indicators on the external surface have horizontal three-colour marking, it is applied using the paint, or is made out of straps separate or combined on the plate or shell. The indicators have additional shell out of the polymer material; flexible links are made out of stainless steel rope or out of the polymer or composite materials. The estuarine tube is made out of the metal or polymer, or composite materials.

EFFECT: simplified installation, increased informativeness and reliability of state monitoring of the roof bolting and displacements of the enclosing rocks of the horizontal and inclined underground mine tunnels.

6 cl, 9 dwg

Description

The technical solution relates to mining, in particular to means for monitoring the condition of the anchor support and the displacements of the enclosing rocks of horizontal and inclined underground mine workings, secured with anchor support.

A device for observing the movement of rocks using deep benchmarks (A.S. No. 859815, IPC G01C 15/04, publ. 08/30/1981) containing metal racks connecting their axis with the blocks through which the wires are thrown, each of which is fixed at one end on a deep benchmark, and the other is connected to the load, as well as a reference scale. In this case, the axis is made of composite arcs connected by their ends to each other, forming a ring on which the blocks are radially located, and at the connection points it is installed on additional racks.

The disadvantages of the device include its complexity and bulkiness, for increased reliability of observations, a large number of benchmarks is necessary.

The closest in technical essence is the device for controlling the stratification of the near-edge array of mine workings (patent for the invention of the Russian Federation No. 2206740, IPC E21C 39/00, G01C 15/04, publ. 06/20/2003), including a flexible suspension mounted on a reference frame at the bottom of the well in the mountain range, the mouth of which is fixed by a guide, the end of which protrudes into the mine and through which a flexible suspension passes, the free end of which in the mine is fixed on the reference indicator with colored stripes on the outer surface, the reference indicator is covered by concent adic control light, placed in the end of the rail and connected by a flexible suspension to the control datum. To control the depth distribution of the delamination maxima in the gaps between the reference and control reference points and the guide in the well, intermediate frames are installed that are connected by flexible suspensions to intermediate indicators.

The disadvantages of the known device are the complexity of the installation due to inconvenience during installation of the device associated with the design of the wellhead tube and the fixation of indicators. The disadvantages also include the low life of the indicators, leading to the inability to take readings. The dimensions of the indicators require drilling wells, not holes for installation.

The technical result consists in increasing the information content and reliability of monitoring the condition of the anchor support and displacements of the enclosing rocks of horizontal and inclined underground mine workings, simplifying the installation of the device, and also increasing its service life.

The technical result is achieved by the fact that the control device for the anchor support, containing frames, each of which is connected by a flexible connection to its corresponding indicator, and the wellhead pipe, according to the invention, the indicators are fixed on flexible connections by clamps, located one in another or independently from each other, made with longitudinal groove or have holes for flexible connection, the wellhead tube is made in the form of a hollow open cylinder.

The technical result is also achieved by the fact that in the control device anchor lining, according to the invention:

- the benchmark is made in the form of a spring with bent ends,

- indicators on the external surface have a horizontal three-color marking, which is applied with paint or made of separate or combined strips on a sheet or shell,

- indicators have an additional shell made of polymer material,

- flexible connections are made of stainless steel cable or of polymer or composite materials,

- wellhead tube is made of metal, or polymeric, or composite materials.

The claimed technical solution is illustrated by drawings, where in FIG. 1 shows a control device for a single-level anchor support; FIG. 2 is a control device for a two-level anchor support, in FIG. 3 - indicator with a groove, in FIG. 4 is a view A of FIG. 3, in FIG. 5 - indicator with holes, in FIG. 6 is a view B of FIG. 5, in FIG. 7 is a control device for a two-level anchor support with an independent arrangement of indicators, in FIG. 8 - wellhead pipe, in FIG. 9 is a view B of FIG. 8.

An anchor lining control device is placed in the hole, for example, in a hole 1, and at its mouth, drilled in the roof or side of the excavation, the contour of which is fixed by a single-level or two-level anchor lining. The device allows you to control the displacement of the rocks of the near-edge massif of the mine working secured with anchor support.

The control device for anchor support contains frames (in Fig. 1, 7 - position 2, in Fig. 2 - position a , b, c), each of which is connected by a flexible connection 3 with its corresponding indicator (in Fig. 1, 3, 5 , 6, 7 - position 4, in Fig. 2 - positions a ′, b ′, c ′), and wellhead pipe 5. The control device for a single-level anchor support includes two depth reference points (Fig. 1), for a two-level anchor, three ( Fig. 2). The benchmark 2 can be made in the form of a spring with bent ends that abut against the walls of the hole 1, fixing the benchmark 2 at a given depth.

Indicators 4 are fixed on flexible connections 3 by clamps 6, are made with a longitudinal groove 7 (Fig. 3, 4) or have holes 8 for flexible connection 3 (Fig. 5, 6), can be made in the form of pipes. The latches 6 can be made, for example, in the form of seals or tubes covering flexible connection 3. Such a design of indicators 4 facilitates their fixation. The indicators are located one in the other (Fig. 1, 2) or independently of each other (Fig. 7). The location and type of indicators may depend on the diameter of the hole (hole, well). On the outer surface, the indicators 4 have a horizontal three-color marking, which can be applied with paint or made of separate or combined strips on a sheet or shell. Indicators 4 can have a scale with a marking, and can also be covered with an additional shell made of a polymeric material (shrink, laminating film, etc.) for reliable isolation from external factors. All this is necessary for accurate control of delamination of the roof rocks, as well as for the protection of indicators 4 from corrosion and moisture, thereby increasing the service life.

Flexible connections 3 can be made of stainless steel cable or polymer or composite materials. Used materials resistant to bending during bending.

The wellhead tube 5 is made in the form of a hollow open cylinder made of metal, or polymeric, or composite materials, for example, of galvanized sheet, rolled in the form of a cylinder or of a polymer pipe having a longitudinal section (Fig. 8, 9). The wellhead tube 5 is fixed at the mouth of the hole 1 and performs the function of a contour reference, flexible connections pass through it 3. Its end protrudes from the mouth of the hole 1. Such a design of the wellhead tube 5 facilitates its installation as well as the installation of an anchor support monitoring device.

A single-level anchor support includes anchors of the first (lower) level 9, fixed in a hole (well), the length of which does not exceed the height of the output (Fig. 1). Two-level anchor support includes anchors of the first level 9 and anchors of the second level 11 (upper level, deep laying), exceeding the length of the anchors of the first level 9 (Fig. 2).

An example of a control device for a two-level anchor support (Fig. 2). In the drilled hole 1, three deep reference points are installed (for example, supporting a , first intermediate b, second intermediate c) in the form of a spring with bent ends that abut against the walls of hole 1, fixing the benchmark at a given depth. Above the fixing sleeve 12 of the anchors of the second level 11 is a reference frame a . The first intermediate benchmark b is located above the fixing sleeve 10 of the first level anchors 9, but below the fixing sleeve 12 of the second level anchors 11. The second intermediate benchmark is located below the fixing sleeve 10 of the first level anchors 9. At the mouth of the hole 1, the wellhead tube 5. is fixed. Each benchmark ( a , b, c) is connected by a flexible connection 3, for example, in the form of a stainless steel cable, with its corresponding indicator ( a , b, c). The indicator has three stripes, for example, blue (top), orange (middle), burgundy (bottom) color, and millimeter longitudinal markings. Blue color corresponds to the beginning of the marking. The indicators are located in each other. The second intermediate benchmark c is connected to the indicator b ′, the beginning of the color marking of which is located at the lower end of the wellhead tube 5. The first intermediate benchmark 6 is connected to the indicator b ′, the beginning of the color marking of which is located at the lower end of the indicator at ′ of the second intermediate frame c, the indicator a ′ of the reference frame a is located below. The reference frame a is connected to the thinnest indicator a ′ located below other indicators and having, for example, a longitudinal groove. The beginning of its color marking is located at the lower end of the indicator b ′ of the first intermediate benchmark b.

The stability of the production rocks and the performance of the anchor support is characterized by the relative position of the indicators. Lowering the wellhead tube 5 to the indicator В ′ characterizes the intensity of the displacement of the rocks in the zone fixed by the first level anchors 9, and, as a result, the load on the first level anchor support. If the displacements stopped on the orange strip, then they are within normal limits.

The shift of the indicator c ′ to the indicator b ′ indicates that the displacements of the rocks in the zone fixed by the first level anchors 9 are approaching critical values and the load on the second level anchor support is increasing. If the displacements stopped on the orange strip, then they are within normal limits. If the indicator registers the displacements on the burgundy strip and the continuation of the displacements is observed, measures must be taken to strengthen the anchor support.

The shift of indicator b ′ to indicator a ′ indicates that the displacements of the rocks in the zone of anchoring of the second level anchors 11 are approaching critical values. If the displacements stopped on the orange strip, then they are within normal limits. If the indicator registers the displacements on the burgundy strip and the continuation of the displacements is observed, measures must be taken to strengthen the anchor support.

The use of the claimed device allows to simplify installation, to increase the information content and reliability of monitoring the condition of the anchor support and the displacements of the enclosing rocks of horizontal and inclined underground mine workings, fixed by the anchor support. The device can be used both in wells and in holes.

Claims (6)

1. An anchor support monitoring device, comprising frames, each of which is connected by a flexible connection to an indicator corresponding to it, and a wellhead pipe, characterized in that the indicators are fixed on flexible connections by clamps, located one in the other or independently of each other, made with a longitudinal groove or have holes for flexible connection, the wellhead tube is made in the form of a hollow open cylinder. 2. The control device anchor lining according to claim 1, characterized in that the benchmark is made in the form of a spring with bent ends. 3. The control device for anchor support according to claim 1, characterized in that the indicators on the external surface have a horizontal three-color marking, which is applied with paint or made of separate or combined strips on a sheet or shell. 4. The control device anchor lining according to claim 1 or 3, characterized in that the indicators have an additional shell of a polymeric material. 5. The control device for anchor support according to claim 1, characterized in that the flexible connections are made of stainless steel cable or of polymer or composite materials. 6. The control device anchor lining according to claim 1, characterized in that the wellhead tube is made of metal, or polymeric, or composite materials.

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