LU102737B1 - Method of supporting a roadway along the Goaf with a ∏-type self-lifting concrete-filled tubular steel support system - Google Patents

Abstract

This patent discloses a method of supporting the roadway along the Goaf with a self-lifting concrete-filled tubular steel ?-type support system, belonging to the field of roadway support. The main steps include: first, an asymmetric anchor power cord support is used in tunneling under this section; Second, during the retreating and dismantling process of the working surface, the blocks are built at the position of 1000mm to 1200mm under the goaf of the working surface along the groove to form a block wall, and then the steel fiber concrete sprayed layer is sprayed on the block wall; Finally, the ?-type concrete-filled steel pipe support is laid on the inside of the block wall, after the jointing and column raising, and concrete solidification, the ?-type concrete-filled steel pipe support, the block wall and the original anchor power cord support form the support system for holding a roadway along the Goaf.

Description

description

Method of supporting a roadway along the Goaf with a ]|-type self-lifting concrete-filled tubular steel support system Technical Sections

The invention belongs to the field of supporting the coal mine roadway and relates in particular to a method of supporting the roadway along the Goaf with a self-lifting concrete-filled tubular steel support system of the ]| type.

Technical background

At present, the state is promoting pillarless mining technology to reduce the occurrence of disasters such as rockfalls.

Holding a lane along the Goaf serves to keep the transport or return air slot behind the mined work surface along the Goaf in a specific way as the slot of the next work surface.

The introduction of the technology of keeping a roadway along the Goaf will bring the following advantages: the rate of recovery of coal resources will be increased and the mine service life will be extended; less roadway is dug, the mine excavation rate is reduced, and the excavation replacement stress is reduced; the adverse effects of the stress concentration of the coal column on mining will be eliminated when the coal column protects the roadway; the Y-shaped ventilation of the work surface is realized and the gas accumulation in the corner is solved. These advantages make the technology for holding a roadway along the Goaf favored by some coal mining companies. At present, the methods commonly used in China to hold a roadway along the Goaf are filler tapes, dense columns, wood piles, vermiculite bags, blocks, etc.

Roadways maintained along roadways generally undergo the high stress caused by mining twice, resulting in severe stress distribution and strong mine pressure of the roadway surrounding rock, deterioration of the roadway surrounding rock conditions, and a wide range of breakage and plastic zones. Especially after the previous work surface was dismantled, during the rotation and sinking of the ground top into the Goaf, holding a roadway along the Goaf not only caused the upper plate to sink sharply, but also the solid carbon body bulged out and the lower drum was serious , resulting in a significant increase in the range of fracture and plastic zones of the surrounding rock of the roadway, and the deformation of the surrounding rock of the roadway is large and maintenance is very difficult.

When the coal mine keep the roadway along the Goaf, and use the infill belts or the like, the infill belt is passively loaded and cannot play the role of cutting the top plate. The force of the movement of the upper plate is transmitted to the lower plate through the infill belt, resulting in a bottom drum, which has a great impact on coal mining. SUMMARY OF THE INVENTION In view of the above-mentioned shortcomings of the above prior art, the object of the present invention is to provide methods for supporting a roadway along the Goaf with a Type II self-lifting concrete-filled tubular steel support system. This holding a roadway along the goaf is easy to operate and has a good roof cutting effect under the action of the high-strength "asymmetric step-type" anchor cable support and the high-strength supporting force of the concrete-filled steel pipe; Under the protection of the block wall and steel fiber concrete sprayed layer, the gas in the goaf does not enter the bottom groove, and the safety is good; The use of high-strength concrete columns, "asymmetric step-type" anchor power cord support and block walls to hold the roadway along the Goaf has a good effect, and can solve the current technical problems currently encountered in holding the roadway along the Goaf.

To solve the above problems, the solution of the present invention includes: A method of supporting a roadway along the Goaf with a ]|-type self-lifting concrete-filled tubular steel support system, includes the following steps: a: During the process of feeding the roadway along the groove in this section, the top plate and the two sides of the bottom groove are each supported by the anchor net. In order to better cut the top plate, the top plate anchor cable is supported by "asymmetric steps type".

b: Before advancing the work surface, the anchor net is removed along the groove near the side of the goaf in this section, and then the scissors cut the coal. As the coal mining area advances gradually, the hydraulic prop moves forward accordingly to form a goaf.

c: The blocks are built at the position of 1000mm to 1200mm under the goaf of the work surface along the groove, the width of the block is 500mm to 600mm, and the height is to reach the direct top to form a block wall.

d: The steel fiber concrete sprayed layer is sprayed on the block wall with a thickness of 100mm to prevent harmful gas inside the goaf from entering the bottom groove. The log wall can also play the role of supporting the top plate to some extent.

e: The [[-type self-lifting concrete-filled steel pipe support system is placed on the ground inside the log wall, and pouring concrete is prepared to lift the girder. The distance between ZWel adjacent concrete-filled tubular steel support systems is 800 mm to 1000 mm.

f: The pouring switch is turned on, and the concrete enters the pipe cavity from the concrete outlet one-way valve. After the pipe cavity is filled, the [][-type outer steel pipe slowly rises under pressure, while the excess inner gas is discharged through the exhaust valve with waterproof and breathable film and high-density barbed wire. Until the beam of the |]-type outer steel pipe reaches the direct top and has a certain initial supporting force, the pouring switch is turned off, the injection of concrete is stopped to form a concrete-filled steel pipe support.

g: After concrete solidification, the [[-type concrete-filled steel pipe support, the block wall and the original anchor power cord support form the support of a roadway along the goaf.

h: Under the action of the support system of the [[-type concrete-filled steel pipe bracket, the block wall and the original anchor power cord support, after the working surface is pushed, a roadway is formed along the groove behind the working surface.

For the anchor net cord support described in step a, the two sides are supported by anchor nets, and the top plate is supported by anchor net cords. The anchor rod spacing is 800mm, the row spacing is 800mm, the anchor cable spacing is 800mm, and the row spacing is 1600mm. The anchor cables are supported simultaneously with the two-hole steel strap support, and the anchor cable is supported by "asymmetrical steps type".

For the "asymmetric step-type" brace described, "asymmetric" means that the anchor cables are biased to the side of the Goaf and are not symmetrically located along the centerline of the groove below. The "step type" refers to the two anchor cables connected to the two-hole steel strap and the other two associated anchor cables being arranged similarly to walking with human legs. This layout facilitates cutting of the top plate and maintains roadway stability.

The [[-type self-lifting concrete-filled steel pipe support system described in step e comprises an inner steel pipe, a circular base, a one-way valve, a sealing ring, a concrete grouting pump, a sealing ring snap ring, an outlet valve, an outer ]]-type steel pipe, and the Ring rib portion of outer steel tube.

The described outer steel tube is [] type and can be gradually raised under the pressure of the filling pump. The horizontal part of the ]]-shaped outer steel tube can exert an adjustment force of 100 kN to 150 kN on the top plate.

The diameter of the described annular rib part of the ]|-type outer steel tube is 25 mm, the pitch is 200 mm, and are evenly welded on the ]|-shaped outer steel tubes. The circular steel bars are mainly used to increase the strength of the concrete-filled steel pipe support.

In the described one-way valve there is a spring and a ball structure. When pouring concrete, the spring can shrink and push the ball open. Once the concrete injection is stopped, the ball returns to its original position under the action of the spring, so the concrete can only be injected in one direction without the inner concrete being able to flow out.

Inside the exhaust valve described, there is a high-density barbed wire and a waterproof and breathable film, which can ensure that the slurry will not flow out under ventilation conditions.

The support system described consists of the [[-type concrete-filled tubular steel bracket, the log wall and the original anchor power cord support.

This patent discloses a method of supporting a roadway along the Goaf with a self-lifting concrete-filled tubular steel support system from | | type, and the concrete is injected into the inner steel pipe mainly through a fin-way valve. After the tube cavity is filled, the ]]-type outer steel tube gradually rises. Under the high pressure of the concrete pump, the horizontal beam of the II-shaped outer steel tube plays an active supporting role for the upper slab; After the concrete is solidified, the total strength of the formed concrete-filled steel pipe bracket can reach 1400kN to 1600kN. The [[-type concrete-filled tubular steel support, log wall and original anchor power cord support form the support system for holding a roadway along the Goaf.

This patent discloses a method of supporting a roadway along the Goaf with a [[-type self-lifting concrete-filled tubular steel support system.

The most important thing is that the ]]-type self-lifting concrete-filled steel pipe support system is assembled by multiple independent parts, which can realize self-lifting under pressure, convenient operation, low cost, safety and reliability, and lifting multiple concrete-filled steel pipe support systems at the same time, which makes the work efficiency strong improved, and suitable for the promotion and use of keeping a roadway along the goaf in the coal mine.

Description of the drawings

The present invention is provided in connection with the appended

Drawings clearly and fully explained:

Figure 1: Sectional view of the working surface with the method

to hold the roadway along the Goaf with a ]|-type self-lifting concrete-filled tubular steel support system

Figure 2: Top view of the process, the roadway along the

Goaf with a self-lifting concrete-filled

[[-type tubular steel support system

Figure 3: Diagram of the self-lifting concrete-filled

[[-type tubular steel support system

Figure 4: Schematic representation of the one-way valve structure

Figure 5: Schematic representation of the exhaust valve structure

Figure 6: Schematic representation of the roof support of the

Roadway along the Goaf

Of which: 1, base top, 2, direct top, 3, solid coal, 4, goaf, 5, block walls, 6, concrete-filled steel pipe bracket, 7, the bottom groove, 8, driving direction of the work surface, 9, concrete grouting pump, 10, one-way valve, 11 , outlet valve, 12, external ] | type steel pipe, 13, ring rib part of the outer steel pipe, 14, sealing ring, 15, internal steel pipe, 16, base, 17, sealing ring snap ring, 18, concrete pouring switch, 19, one-way valve inlet, 20 , One-way valve outlet, 21, waterproof and breathable film, 22, high-density barbed wire, 23, anchor rod, 24, anchor cable, 25, two-hole steel tape, 26, steel fiber concrete sprayed layer, 27, hydraulic bracket Specific implementation steps This patent discloses a method of holding a roadway along the Goaf with a [[-type self-lifting concrete-filled tubular steel support system. In order to make the advantages and technical solutions of the present invention clearer and more specific, the following will further explain the invention clearly and completely in connection with specific embodiments.

The invention relates to a method for supporting a roadway along the Goaf with a self-lifting concrete-filled tubular steel support system from | | type, and the schematic diagram of the desktop section is shown in Figure 1. The block wall and the steel fiber concrete spray layer 26 sprayed thereon can prevent the gas and other harmful gases in the goaf 4 from entering the lower groove 7 . The II-type self-lifting concrete-filled steel pipe bracket 6 has high initial supporting force and high strength for the direct top 2 and base top 1, and plays the role of cutting the top plate and holding the roadway.

The invention relates to a method of supporting a roadway along the Goaf with a T]-type self-lifting concrete-filled tubular steel support system, and the top plate of the lower groove and the anchor power cable support on the fixed coal side are shown in Figures 1 and 6. The bottom groove 7 is supported by anchor cords as a whole, and the top plate adopts "asymmetric step type" anchor cords 24 to reinforce the support. "Asymmetric" means that the anchor cables 24 are biased to the side of the Goaf and are not symmetrically located along the centerline of the groove 7 below. The "step type" refers to the two anchor cables 24 connected to the two-hole steel strap and the other two associated anchor cables 24 being arranged similar to walking with human legs.

The ]|-type self-lifting concrete-filled tubular steel support system of the present invention is shown in FIG. The base 16 maintains the stability of the concrete-filled tubular steel support system and avoids the occurrence of soil drilling. The ring rib part of the outer steel pipe 13 reinforces the strength of the concrete-filled steel pipe bracket, the position of the sealing ring 14 is below

Sealing ring snap ring 17 fastened when the external steel pipe from the | |-type 12 rises along the inner steel tube 15, the sealing ring 14 remains stationary. The inlet of the check valve 19 is directed outward, which is convenient for connecting the concrete grouting pump 9, and the position of the outlet valve 11 is directed outward. The concrete grouting pump 9 forces the concrete into the pipe cavity through the one-way valve 10, and the air in the pipe cavity is released through the outlet valve 11 during the pouring process. After the pipe cavity is filled, the external [[ type steel pipe 12 gradually rises under the pressure of the concrete grouting pump 9 and supports the top plate.

The one-way valve structure of the present invention is shown in FIG. A spring and a ball structure are located in the fin-way valve. When pouring concrete, the spring can shrink and push the ball open. Once the concrete injection is stopped, the ball returns to its original position under the action of the spring. The concrete enters through the inlet of the one-way valve 19 and enters the pipe cavity through the outlet of the one-way valve 20 .

The exhaust valve structure of the present invention is shown in FIG. The inside of the outlet valve contains a high-density barbed wire 22 and a waterproof and breathable film 21, which can ensure that the slurry does not flow out under aeration conditions.

The main steps of the method of holding a roadway along the goaf of the present invention are: a: During the process of feeding the roadway along the groove in this section, the upper plate and both sides of the lower groove 7 are each supported by the anchor net. In order to better cut the direct top 2 and the ground top 1, the top plate anchor cable is supported by "asymmetric steps type".

b: Before advancing the work surface, the anchor net is removed along the lower groove 7 near the side of the Goaf 4 in this section, the fixed coal 3, anchor rod 23 and anchor cable 24 of the upper plates remain unchanged. Then the scissors cut the coal and gradually advance along the driving direction of the working surface 8, the hydraulic supports 27 move forward accordingly to form a goaf.

c: The blocks are built at the position of 1000mm to 1200mm under the Goaf 4 of the working surface along the groove, the width of the block is 500mm to 600mm, and the height is to reach the direct top 2 to form a block wall 5 to build.

d: The steel fiber concrete sprayed layer 26 is sprayed on the block wall 5 in a thickness of 100 mm to prevent harmful gas in the goaf 4 from entering the lower groove 7. The log wall 5 can also play the role of supporting the top plate to some extent.

e: The self-lifting concrete-filled tubular steel support system from

[[ type is placed on the ground inside the block wall 5, and the pouring of concrete is prepared to raise the girder. The distance between ZWel adjacent concrete-filled tubular steel support systems is 800 mm to 1000 mm.

f: The concrete pouring switch 18 is turned on and the concrete enters the pipe cavity from the outlet of the fin-way valve 20. After the pipe cavity is filled, the outer [[-type steel pipe 12 slowly rises under pressure, while the excess inner gas is discharged through the exhaust valve 11 with waterproof and breathable film 21 and high-density barbed wire 22. Until the beam of the ]| type outer steel pipe 12 reaches the direct top 2 and has a certain initial supporting force, the concrete pouring switch 18 is turned off and the injection of concrete is stopped.

g: After concrete solidification, the concrete-filled ]|-type steel pipe support 6, the block wall 5 and the original anchor power cord support form the support of a roadway along the goaf.

h: Under the action of the support system of the concrete-filled [[-type steel pipe bracket 6, the log wall 5 and the original anchor power cord support, after the working surface is pushed, a roadway is formed along the lower groove 7 behind the working surface.

Claims (1)

patent claims 1, A method of supporting a roadway along the Goaf with a ]|-type self-lifting concrete-filled tubular steel support system, the features of which mainly include the following steps: a: During the process of feeding the roadway along the groove in this section, the upper plate and the two sides of the lower groove are each supported by the anchor net; in order to cut the top plate better, the top plate anchor cable is supported by "asymmetric steps type"; b: Before advancing the working surface, the anchor net is removed along the groove near the side of the goaf in this section, and then the scissors cut the coal; when the coal mining area gradually advances, the hydraulic support moves forward accordingly to form a goaf; c: The blocks are built at the position of 1000mm to 1200mm under the goaf of the work surface along the groove, the width of the block is 500mm to 600mm, and the height is to reach the direct top to form a block wall; d: The steel fiber concrete sprayed layer is sprayed on the block wall with a thickness of 100mm to prevent harmful gas inside the goaf from entering the bottom groove; the log wall can also play the role of supporting the top plate to some extent; e: The [[-type self-lifting concrete-filled steel pipe support system is placed on the ground inside the log wall, and pouring concrete is prepared to lift the girder. The distance between ZWel adjacent concrete-filled tubular steel support systems is 800 mm to 1000 mm; f: The concrete pouring switch is turned on, and the concrete enters the pipe cavity from the outlet of the one-way valve; after the pipe cavity is filled, the ]|-type outer steel pipe slowly rises under pressure, while the excess inner gas is discharged through the exhaust valve with waterproof and breathable film and high-density barbed wire; until the beam of the |]-type outer steel pipe reaches the direct top and has a certain initial supporting force, the concrete pouring switch is turned off, the injection of concrete is stopped to form a concrete-filled steel pipe support; g: After concrete solidification, the [[-type concrete-filled steel pipe support, the block wall and the original anchor power cord support form the support system for holding a roadway along the Goaf; h: Under the action of the support system of the [[-type concrete-filled steel pipe bracket, the block wall and the original anchor power cord support, after the working surface is pushed, a roadway is formed along the groove behind the working surface. 2, A method of supporting a roadway along the Goaf with a ]|-type self-lifting concrete-filled steel pipe support system according to claim 1, it is characterized by: for the anchor net cable support described in step a, the two sides are supported by anchor nets, and the top plate of Worn anchor power cords, the anchor rod pitch is 800mm, the row pitch is 800mm, the anchor cord pitch is 800mm, and the row pitch is 1600mm; the anchor cables are supported simultaneously with the two-hole steel strap support, and the anchor cable is supported by "asymmetric steps type". 3, Fin method of supporting a roadway along the Goaf with a ]|-type self-lifting concrete-filled tubular steel support system according to claim 2, it is characterized by: for the described "asymmetric step-type" support, "asymmetric" means that the anchor cables to side of the Goaf and not symmetrically located along the centerline of the groove below; the "step type" refers to the two anchor cables connected to the two-hole steel strap and the other two associated anchor cables being similarly located are like walking with human legs; this arrangement facilitates the cutting of the top and maintains the stability of the pavement. 4. A method of supporting a roadway along the Goaf with a ]|-type self-lifting concrete-filled tubular steel support system according to claim 1, characterized by : the self-lifting concrete-filled tubular steel support system described in step e [[ type includes inner steel tube, circular base, one-way valve, sealing ring, concrete grouting pump, sealing ring snap ring, exhaust valve, outer steel tube of | | type, and the ring rib part of the outer steel tube. 5. A method of supporting a roadway along the Goaf with a ]|-type self-lifting concrete-filled tubular steel support system according to claim 4, characterized by: the described outer tubular steel tube of | | type and can be gradually raised under the pressure of the filling pump; the horizontal part of the | |-shaped outer steel tube can exert an adjustment force of 100 kN to 150 kN on the top plate. 6, Fin method for supporting a roadway along the Goaf with a self-lifting concrete-filled steel pipe support system of ] | type according to claim 4, it is characterized by: the diameter of the described annular rib part of the outer steel pipe of ] | type is mm, the pitch is 200 mm, and are evenly welded on the [[ type outer steel tubes; the ring rib member is used to increase the strength of the concrete filled steel pipe support. 7. A method of supporting a roadway along the Goaf with a self-lifting concrete-filled tubular steel support system of the ]|-type according to claim 4, characterized by: the described circular base is a solid structure with a diameter of 300 mm and a thickness of 30 mm , which can ensure that the concrete-filled steel pipe bracket can be compressed without drilling into the floor slab. 8. A method of supporting a roadway along the Goaf with a ]|-type self-lifting concrete-filled tubular steel support system according to claim 4, characterized by : a spring and a ball structure are located in the described one-way valve; when pouring concrete, the spring can shrink and push the ball open; once the concrete injection is stopped, the ball will return to its original position under the action of the spring, so the concrete can only be injected in one direction without the inner concrete being able to flow out; the inside of the exhaust valve contains a high-density barbed wire and a waterproof and breathable film, which can ensure that the slurry does not flow out under ventilation conditions. 9, Fin method of supporting a roadway along the Goaf with a self-lifting concrete-filled tubular steel support system of the ] | type according to claim 1, characterized by: the support system described consists of the concrete-filled tubular steel supports of | | type, the block wall and the original anchor power cord support.