RU2581587C1 - Method of filling hole under anchor, drilled in roof of mine working cartridges with resin - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: invention relates to a method of filling drilled bore pits for anchors installed in the roof of mine with resin cartridges. At the first stage a blast-hole in the roof of mine is made using pneumatic machine for mounting anchor bolting and the drilled bore pit is cleaned by water or by air blowing. Using telescopic tube in combination with multisection casing pipes. Telescopic tube is drawn on the required height in compliance with the depth of hole drilled in the roof; upper hole of the telescopic tube is fitted in drilled bore pit at certain depth, set of cartridges filled with resin is placed in series into telescopic tube through the lower hole of telescopic tube and are pushed up to the deepest position within the drilled hole along the whole of telescopic tube by means of a push rod. Cartridges with resin are pressed upwards and stirred, so that cartridges with resin are get secured by fixing blast hole walls made in rock thickness. Then, push rod is removed from the telescopic tube; telescopic tube is removed from the drilled hole; and finally an anchor is inserted for mixing cartridges.

EFFECT: technical result consists in improvement of efficiency of operation and increasing the drilling rate, thus providing safe and efficient operation in mine workings.

2 cl, 1 dwg

Description

FIELD OF THE INVENTION

The present invention relates to a method for filling with resin cartridges, in particular, to a method for filling drilled holes for anchors in a working roof in places where the rock mass has cracks and the working height is 3.0 meters or more.

BACKGROUND

In China, anchoring methods have been used in rock workings in coal mines for more than 50 years since 1956. The improvement of these methods resulted in the transition from the use of anchoring with low strength to anchoring with high strength, and then to the widespread use of anchoring with high prestressing. For the first time, anchor fastening was successfully used in China in coal mines for workings in rock, while fastening methods based on shotcrete and rock anchors, presented using three small objects (″ three small ’), were widely used and application for rock workings. Anchoring began to be used in mining in the 1960s. Since the surrounding rock formations in the coal seams are relatively loose, have faults and are affected during mining operations, they can have serious deformations; as a result, the requirements for anchoring methods are very strict. The anchoring methods previously used in China had disadvantages such as low strength and low rigidity, and the anchoring principle referred to passive fastening; In addition, the theory of anchoring, the design method, materials for anchoring, construction equipment, monitoring tools, etc., were not sufficiently developed. The consequence of this was a very slow development of anchoring methods for coal mines. In 1990, coal mine anchoring was used for 3% -5% of large state-owned coal mines in China, and interlayers were mainly used for securing coal mines.

During the implementation of the ninth five-year plan, the method of anchoring was indicated as the main subject of research for the former Ministry of Coal Industry, and in-depth, detailed and comprehensive research and development work was carried out. In particular, in 1996-1997, an anchor method was borrowed from Australia, which was presented on the Xingtai Bureau of Mines website. At the same time, in China, thanks to the joint efforts of research institutes, higher educational institutions and coal mining enterprises, the method of anchoring coal mines has been significantly improved. New methods, new materials and new methods, such as the use of high-strength deformed steel rods fastened with resin to an extended or full length, a design method based on dynamic fastening and the use of small holes with anchors, resin and prestressed anchor ropes, etc. ., were adopted and are widely used in harsh conditions, for example, in coal mines above and mine workings with a complex and faulty roof, and allowed to achieve a good fixing e Fecteau, technical and economic advantages.

Since the beginning of the 21st century, in connection with the rapid development and application of the fully mechanized method of coal collapse from above with the formation of voids and the method of extraction with excavation of the seam immediately at full capacity for powerful seams, higher demands are placed on the methods of anchoring coal mines. In fully mechanized faces of coal collapse from above with the formation of voids and in faces for mining with a seam excavation at once at full capacity, mining during mining operations should usually be conducted along the bottom of the seam, since the roof of the mine is a broken coal seam; sometimes mining during mining also represents coal mining with mining immediately at full capacity. In addition, with a significant increase in the intensity of coal mining and its output, the cross-section of the output should be significantly increased. To reduce coal losses, gob-side entry is being used more and more widely. All this greatly complicates the creation of fasteners for development. To solve this problem, research, testing, implementation and application of methods for full anchoring of coal openings in mining areas such as Yanzhou (Yanzhou), Luan (Luan), Jincheng (Jincheng), Xishan (Xishan), Huainan (Huainan) , Huaibei, Xinwen, Longkou, Kailuan, Tiefa, Xuzhou, Huating, etc. It turned out that anchor fastening is successfully used in difficult conditions, for example, in large-section workings, workings during production from above or with a recess of the formation immediately to the full capacity, workings when driving with an entrance on the obstructed side and workings with loose and faulty surrounding rocks, etc. ., which can significantly improve the efficiency of fastening for production, reduce the cost of fastening, as well as create favorable conditions for the rapid advancement of the working face and efficient production in coal mines.

In recent years, for fastening in difficult and difficult conditions, for example, in deep workings experiencing earth stress, workings with very large sections, workings subjected to serious impact during mining operations and workings with gob-side entry etc., in China, an anchoring method has been developed based on the intensive use of high prestressing anchors and fastening ropes, this method allows for active and timely anchoring and allows a function fully utilize fastening anchors. The method provides the opportunity to significantly reduce the deformation and destruction of the surrounding rocks of the mine, when it is used underground, and significantly changes the situation with fastening and safety in the mine. In addition, it implements a modern design concept for anchor fastening, which includes high strength, high rigidity, high reliability and low fastening density (which for simplicity can be expressed as ′ ′ three high elements and one low element (three high and one low)) and provides the ability to significantly increase the speed of penetration and its productivity while ensuring effective fastening.

Years of research and practice have led to the creation of a fully-developed system in China in terms of technology for anchoring coal mines in coal mines in China, and anchoring has become the preferred, safe, effective and prevailing fixing tool for coal mines in coal mines in China. However, when drilling holes in the roof under the anchors, local cavities often arise around the walls of the holes, since damage zones are formed in the rock of the roof, during excavation carried out in the excavation, and vertical cracks develop. The consequence of this is the difficulty of filling the bottoms of the holes with resin cartridges; in addition, in some workings, before anchoring, workers often met with installed metal nets, which made it difficult to deep fill the holes with resin cartridges, since metal nets interfere with this; in addition, the workings in some mines are wide in vertical range, workers must use auxiliary tools, such as step ladders or stools, to place the resin cartridges in the holes in the roof under the anchor, in which case several workers may need to work together to complete the task for filling holes; the consequence of this is a decrease in work efficiency and a decrease in penetration rate. All of the above problems cause serious deviations from the original plan for safe and efficient work in workings.

SUMMARY OF THE INVENTION

Technical problem

The objective of the present invention is to overcome the disadvantages of the prior art and provide a simple, safe, reliable and highly efficient way to fill drilled holes for anchors in the roof of the production of resin cartridges.

Technical solution

The method of filling drilled holes for anchors in the roof of the production with resin cartridges in accordance with the present invention includes the steps of drilling a hole in the production roof using a pneumatic machine for setting the anchor support, cleaning the hole with water or air blowing, using a telescopic pipe in in combination with a multi-section casing, pull the telescopic pipe to the required height in accordance with the depth of the hole drilled in the roof, insert the top its aperture telescopic tube into said hole to a predetermined depth, and then set the resin cartridges are placed sequentially into the telescopic pipe through the bottom opening of the telescopic tube; after that, the pushing rod is inserted into the telescopic tube and the resin cartridges are pushed along the wall of the telescopic tube to the deepest position in the hole and the resin cartridges are pressed up and mixed, so that the resin cartridges are fastened by means of a binder to the walls of the hole in the rock mass; then the push rod is removed from the telescopic pipe, the telescopic pipe is removed and then it is removed from the drilled hole, and at the end, the anchor is inserted and the resin cartridges are mixed.

The diameter a of the upper opening of the telescopic pipe is larger than the diameter from the pushing rod, and the diameter b of the lower end of the telescopic pipe is smaller than the diameter d of the drilled hole.

Technical Results Achieved:

since the telescopic tube is inserted into the drilled hole in advance before the resin cartridges are placed in the roof, there is a problem in that it is difficult for workers to push the resin cartridges to the bottoms of the drilled holes in the case when cavities are formed in the roof or metal mesh is laid in advance ; in addition, in the case where the working height is more than 3 m, workers do not have to use tools such as stepladders or stools; instead, workers can extend the telescopic tube, respectively, depending on the height of the mine; in this way, the laboriousness of filling with resin can be reduced, work efficiency can be improved and security risks associated with the placement of resin cartridges for anchors in the roof can be eliminated. The proposed method is easy to use, safe, reliable and efficient and has high practicality and wide applicability.

BRIEF DESCRIPTION OF THE DRAWINGS

In FIG. 1 schematically shows the pushing of resin cartridges with a telescopic tube in a tensile state in accordance with the present invention.

In the drawing:

1 - push rod

2 - telescopic pipe,

3 - a cartridge with resin,

4 - rock thickness of the roof,

5 - drilled hole,

a is the diameter of the upper hole,

b is the diameter of the lower hole,

C is the diameter of the pushing rod,

d is the diameter of the drilled hole.

DETAILED DESCRIPTION OF EMBODIMENTS OF THE INVENTION

Further, the present invention will be described in detail by way of example implementation with reference to the accompanying drawings.

The method of filling drilled holes for anchors in the roof of the mine with cartridges with resin in the present invention is as follows: to fix the roof of the mine, drill a hole 5 in the roof of the mine using a pneumatic machine for setting the anchor support, clean the drilled hole 5 by washing with water or blowing air, using telescopic pipe 2 in combination with a multi-section casing, while the telescopic pipe 2 is pulled to the required height in accordance with the depth of the hole drilled in the roof, insert the upper hole of the telescopic pipe 2 into the drilled hole 5 to a certain depth and then a lot of cartridges 3 with resin are placed in the telescopic pipe 2 sequentially through the lower hole of the telescopic pipe 2; thereafter, the pushing rod 1 is inserted into the telescopic tube 2 and the resin cartridges 3 are slowly pushed along the wall of the telescopic tube 2 with the pushing rod 1 to the deepest position in the drilled hole 5, and the resin cartridges 3 are extruded and mixed, so that the resin cartridges 3 are fastened by means of a binder to the walls of the hole in the rock mass 4; then the pushing rod 1 is removed from the telescopic pipe 2, the telescopic pipe 2 is removed and then removed from the drilled hole, and finally the anchor is inserted and the resin cartridges are mixed.

The diameter a of the upper hole of the telescopic pipe 2 is larger than the diameter from the pushing rod 1, and the diameter b of the lower end of the telescopic pipe 2 is smaller than the diameter d of the drilled hole 5.

Claims (2)

1. A method of filling drilled holes for anchors in a roof of a mine with tar cartridges involves the steps of drilling a hole (5) in a roof using a pneumatic machine for setting anchor supports and cleaning the drilled hole (5) by washing it with water or blowing it with air, use a telescopic pipe (2) in combination with a multi-section casing, a telescopic pipe (2) is pulled to the required height in accordance with the depth of the hole (5) drilled in the roof, the upper hole is inserted telescopic pipe (2) into the drilled hole (5) to a certain depth and then a lot of cartridges (3) with resin are placed sequentially into the telescopic pipe (2) through the lower opening of the telescopic pipe (2); after that, the pushing rod (1) is inserted into the telescopic tube (2) and the cartridges (3) with resin are slowly pushed with the pushing rod (1) along the wall of the telescopic pipe (2) to the deepest position in the drilled hole (5), and the cartridges (3 ) with the resin squeezed up and mixed, so that the cartridges (3) with the resin are fastened by means of a binder with the walls of the hole in the rock mass (4); then the pushing rod (1) is removed from the telescopic pipe (2), the telescopic pipe (2) is removed and then removed from the drilled hole and finally the anchor is inserted and the resin cartridges are mixed. 2. A method of filling drilled holes for anchors in the roof of a mine with cartridges of resin according to claim 1, wherein the diameter a of the upper hole of the telescopic pipe (2) is larger than the diameter of the pushing rod (1) and the diameter b of the lower end of the telescopic pipe (2 ) is less than the diameter d of the drilled hole (5).