CN212642762U - Water-flowing large-channel water-inrush drilling net rack, air bag and grouting integrated plugging device - Google Patents

Abstract

The utility model discloses a move big passageway gushing water drilling rack, gasbag, slip casting integration plugging device moves water compares in traditional shutoff technique, adopts rack-gasbag-slip casting integration plugging technique can strengthen the stability of shutoff body to adopt the gas-solid replacement to improve the stability in moving water. When water inrush occurs at a certain position in a roadway, firstly, a drill rod is inserted into the bottom of a water inrush channel through a ground drilling hole. Then, the telescopic net frame in the drill rod is opened to form a net-shaped longitudinal and transverse support, namely a net frame, in the water inrush channel. And secondly, opening the air bag in the drill rod in an inflation mode to enable the air bag to expand to be matched with the section of the water bursting channel, so that the water bursting channel plugging air bag attached to the net rack is formed. And finally, by utilizing a gas-solid replacement structure, injecting cement mortar into the plugging air bag through the drill rod to replace gas in the air bag, and finally forming a filling wall body for plugging the water inrush channel after the cement mortar is solidified to generate stone solids, so that the water inrush of the large channel is controlled in a local range.

Description

Water-flowing large-channel water-inrush drilling net rack, air bag and grouting integrated plugging device

Technical Field

The utility model relates to a move big passageway gushing water drilling rack, gasbag, slip casting integration plugging device, the administration of big passageway, large-traffic, the high water pressure water evil that produces in its mainly used mine, railway, highway, the water conservancy production process.

Background

Mine flood is one of five safety disasters in the mine construction and production process, and particularly, the mine water inrush often causes huge casualties and property loss. In 2019, 1401 happened in China together with a coal mine flood accident, and 5480 people died. Wherein, the number of the 2010 dead people and the 112 initial serious flood accident account for 7.99 percent and 36.68 percent of the total number of the initial flood accident and the total number of the dead people respectively. Researchers find that the occurrence trend of the coal mine serious accidents in China is basically consistent with the general trend of the coal mine accidents in 2000-2019, but the number of the accidents of the serious flood and death people is increased year by year in the proportion of the serious accidents, and the average proportion reaches 21.05%. A large amount of fact data indicate that mine water inrush often causes cluster death and cluster injury.

Aiming at coal mine water inrush accidents, the current common solution in China is to simultaneously implement mine drainage and grouting water shutoff, wherein the grouting water shutoff is generally carried out in two stages, namely, a water passing roadway is firstly plugged, the moving water is changed into static water, and the water passing roadway is treated in the second stage, so that flood disasters are thoroughly eradicated. The first-stage blocking of the water passing roadway is usually that the water passing roadway is directly drilled on the ground, aggregate and other auxiliary materials are put into the water passing roadway to fill the water passing roadway, the underground water flow state in the roadway is changed into seepage flow from pipeline flow, and then grouting consolidation treatment is carried out. When the water-passing roadway is faced with a water-passing roadway with a high water flow speed, aggregates filled in the drilled holes are easy to disperse, are not easy to condense, and the success rate is low; in addition, the whole treatment process needs to be changed into seepage and then grouting, so that the engineering quantity is large, and the treatment period is long. The grouting range is not limited during grouting, and the grouting liquid is easy to waste. Therefore, the traditional grouting water plugging technology has poor stability, low plugging success rate and poor stability when facing high water pressure, large flow and large channel flowing water.

Aiming at the problems, in the key technology and equipment [ J ] for controlling grouting and efficiently plugging in water bursting drill holes of a large channel for flowing water and the Zhumingcheng, coal field geology and exploration, 2015 and 43 (4): 55-58 "describes a new method, which utilizes a special control grouting drilling tool to send a slurry retaining bag into a water tunnel, then carries out grouting on the slurry retaining bag in the water tunnel, and leads the slurry retaining bag to be separated from the control grouting drilling tool by the pressure generated by grouting so as to lead the slurry retaining bag to be retained in the water tunnel. Compared with the method, the method avoids the situation that the slurry is dispersed without solidification in a certain range, and improves the success rate to a certain extent. However, for high water pressure, large flow and large channel running water, the method also has the same problem that the high-speed water flow washes away the pulp retention bag, and the problem is not solved fundamentally.

Aiming at the problems, the research of developing a novel rapid plugging device under the conditions of high water pressure, large flow and large channel flowing water is imperative.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a quick plugging device of net rack-gasbag-slip casting integration mass channel flowing water, the device can be fast with high water pressure, large-traffic, the mass channel flowing water control in the water channel local scope suddenly, provides a brand-new thinking and method for colliery and underground works water damage prevention and cure.

In order to realize the technical purpose, the utility model discloses a technical scheme as follows:

the integrated plugging device for the water inrush drilling net rack, the air bag and the grouting of the flowing water large channel comprises a drill rod and a drill bit connected with the drill rod, net rack outlets are respectively arranged on two sides of the drill rod, and an air bag outlet is arranged on the front surface of the drill rod; the device also comprises a telescopic net rack, an air bag and a gas-liquid replacement structure which are arranged in the drill rod, wherein the net rack can extend out of the drill rod through an outlet of the net rack to form a net rack together with the drill rod; the gas-liquid replacement structure can inflate, inject and exhaust the air bag; the air bag is opened from the air bag outlet under the inflating action of the gas-liquid replacement structure and is expanded to be matched with the cross section of the water inrush channel to form the inflated air bag attached to the net rack, and the inflated air bag replaces gas in the air bag with cement mortar under the grouting and exhausting actions of the gas-liquid replacement structure.

As the utility model discloses move a preference of big passageway gushing water drilling rack, gasbag, slip casting integration plugging device of water, flexible rack includes dead lever, branch, control structure, the dead lever is fixed to be set up inside the drilling rod, branch passes through torsional spring pivoted setting and is in the dead lever both sides, be connected with the net between the adjacent branch, start control structure, branch is outside the drilling rod is stretched out through the rack export under torsional spring and control structure's effect, and branch is opened and is formed the rack.

As another preferred option of the water inrush drilling rack, the air bag and the grouting integrated plugging device for the large flowing water channel of the utility model, the control structure comprises a push rod, a traction rod and a clamping groove, the push rod is arranged inside the fixed rod, one end of the traction rod is rotatably connected with the push rod, and the other end of the traction rod is rotatably and slidably connected with the support rod; the clamping groove is arranged on the fixed rod and used for fixing the push rod after the support rod extends out of the drill rod; when the push rod is pushed downwards, one end of the traction rod rotates around the push rod, and the other end of the traction rod slides along the support rod to prop open the support rod together with the torsion spring.

As another preferred choice of the water-flowing large-channel water-inrush drilling net rack, the air bag and the grouting integrated plugging device of the utility model, the telescopic net rack comprises a push rod and a support rod, the push rod is arranged inside the drill rod, the support rod is rotationally connected to two sides of the push rod through the torsion spring, and a net is connected between the adjacent support rods; branch is in compression state under the effect of drilling rod inner wall, when pushing away the push rod downwards along the drilling rod, pushes away branch extremely when the rack export, branch is opened and is formed the rack.

As the utility model discloses move water big passageway gushing water drilling rack, gasbag, slip casting integration plugging device's another preferred, branch is the telescopic link, and its tip is the arrow point form.

As the utility model discloses move water big passageway gushing water drilling rack, gasbag, slip casting integration plugging device's another preferred, the gas-liquid replacement structure include respectively with the gas-filled slip casting pipe, the exhaust back flow pipe that the gasbag is connected.

Based on the device, the utility model also provides a method for utilizing the device to carry out drilling rack, gasbag, the shutoff of slip casting integration to the big passageway gushing water of flowing water, including following step:

(1) drilling a hole on the ground, and inserting the device into the bottom of the water inrush channel;

(2) opening the telescopic net racks through the net rack outlets on the two sides of the drill rod so as to form a net-shaped longitudinal and transverse support, namely a net rack, in the water inrush channel;

(3) inflating the air bag through the air-liquid replacement structure, and opening the air bag through an air bag outlet to enable the air bag to expand to be matched with the section of the water inrush channel, so that the water inrush channel plugging air bag attached to the net rack is formed;

(4) and (3) injecting cement mortar into the plugging air bag by using the gas-liquid replacement structure to replace gas in the air bag, and finally forming a filling wall body for plugging the water inrush channel after the cement mortar is solidified to generate a stone solid, so that the water inrush of the large channel is controlled in a local range.

Preferably, the method further comprises the step (5) of performing secondary plugging on the side with the water flow, inserting the grouting drill rod into the water bursting channel through surface drilling, and then directly performing grouting.

As another preferable mode of the method, in the step (2), when the push rod is pushed vertically downward and the struts on both sides of the push rod are pushed out to the rack outlet, the struts are opened to form the rack.

As another preferable mode of the method, in the step (3), the air exhaust slurry return pipe is closed, the air inflation grouting pipe is opened, the air bag is inflated, and the air bag is opened through the air bag outlet under the action of air pressure; when the air bag expands to be matched with the water bursting channel, grouting the air bag by using the inflatable grouting pipe, and simultaneously opening the exhaust grout returning pipe to replace the gas in the air bag; and stopping grouting when the slurry is discharged from the exhaust slurry return pipe.

Compared with the prior art the utility model discloses possess following beneficial effect:

(1) the device fixes the air bag in the water bursting channel by utilizing the net rack, and the air bag after grouting is prevented from being washed away by high-pressure water, so that the success rate of grouting and water plugging is improved, and the stability of the device is improved;

(2) the device firstly utilizes the gas-liquid replacement structure to inflate the air bag, so that the air bag is matched with the section of the water inrush channel, and then the gas is replaced by cement mortar through the gas-liquid replacement structure, so that the air bag after grouting can be matched with the section of the water inrush channel, the water in the water inrush channel can be completely plugged at one time, the success rate is improved, and the operation is simplified;

(3) the method is simple to operate, high in success rate and flexibility, and suitable for quickly plugging a large channel with high water pressure, large flow and large flowing water.

Drawings

The present invention can be further illustrated by the non-limiting examples given in the accompanying drawings;

fig. 1 is a front view of the present invention;

FIG. 2 is a right side view of FIG. 1;

FIG. 3 is a cross-sectional view taken along line A-A of FIG. 1 (a first embodiment of the present apparatus);

FIG. 4 is a view of the telescopic net mount of FIG. 3 in an open state;

FIG. 5 is a cross-sectional view taken along line B-B of FIG. 3;

FIG. 6 is a cross-sectional view A-A of FIG. 1 (another embodiment of the present apparatus);

FIG. 7 is a view of the telescopic rack of FIG. 6 in an open position;

FIG. 8 is a first state diagram of the apparatus in use;

FIG. 9 is a schematic view of the telescopic net mount of FIG. 8 in a state;

FIG. 10 is a second state of the device in use;

FIG. 11 is a schematic structural view of the telescopic net frame and the air bag when the air bag is gradually opened;

FIG. 12 is a third state diagram of the device in use;

FIG. 13 is a schematic structural view of the air bag after cement mortar is injected;

FIG. 14 is a schematic view of the structure after secondary plugging;

the main element symbols are as follows:

the drilling rod 1, the net rack outlet 11, the air bag outlet 12, the drilling bit 2, the telescopic net rack 3, the push rod 31, the support rod 32, the fixing structure 33, the fixing rod 34, the traction rod 35, the clamping groove 36, the air bag 4, the gas-liquid replacement structure 5, the inflatable grouting pipe 51, the exhaust and back grouting pipe 52, the water inrush channel 6, the cement mortar 7 and the rock wall 8.

Detailed Description

In order to make the present invention better understood by those skilled in the art, the technical solutions of the present invention are further described below with reference to the accompanying drawings and examples.

Example 1

As shown in fig. 1 to 5, the movable water large channel water inrush drilling net rack, the air bag and the grouting integrated plugging device comprises a drill rod, a drill bit connected with the drill rod, a telescopic net rack arranged inside the drill rod, the air bag and a gas-liquid replacement structure. As shown in fig. 1 and 2, net rack outlets are respectively arranged on two sides of the drill rod, and an air bag outlet is arranged on the front surface of the drill rod.

As shown in fig. 3 and 4, the retractable net rack comprises a push rod and a support rod, the push rod is arranged inside the drill rod, the support rod is connected to two sides of the push rod through a torsion spring in a rotating manner, and the support rod is in a compressed state under the action of the inner wall of the drill rod (as shown in fig. 3). In this embodiment, the number of the supporting rods is 6, the supporting rods are respectively and symmetrically arranged on two sides of the push rod, and an iron net is connected between adjacent supporting rods on the same side. As shown in figure 4, when the push rod is pushed downwards to push the support rod to the outlet of the net rack, the limit of the inner wall of the drill rod is eliminated, and the support rod is opened under the action of the torsion spring to form the net rack. In this embodiment, set up branch into the telescopic link that the tip is the arrow point form, the rock wall that the branch tip of being convenient for can insert water channel suddenly further improves the stability of rack under high water pressure. Of course, the device also comprises a fixing structure for fixing the push rod, so that the telescopic net rack can be in a stable state when being closed and opened.

The air bag is folded inside the drill rod, the position relation between the air bag and the telescopic net rack is shown in figure 5, the telescopic net rack is positioned in the middle of the drill rod, and the air bag is positioned on one side of the telescopic net rack and is close to the outlet of the air bag.

The gas-liquid replacement structure comprises an inflatable grouting pipe and an exhaust slurry return pipe which are connected with the air bag. The device inflates the air bag through the inflating grouting pipe, and the air bag ejects the drill rod from the air bag outlet under the action of air pressure and rapidly expands to a shape matched with the cross section of the water inrush channel. And then grouting the air bag by using the inflatable grouting pipe, and discharging the gas in the air bag by using the exhaust slurry return pipe to finally form a plugging wall body matched with the section of the water inrush channel.

According to the embodiment of the device, a specific method for applying the device to water inrush of a flowing water large channel is also introduced, and the specific method comprises the following steps:

(1) as shown in fig. 8, the device is inserted into the bottom of the water inrush channel by drilling the hole on the ground;

(2) as shown in fig. 8 and 9, the push rod is pushed downwards, the support rods on the two sides of the push rod are pushed out to the net rack outlet, the support rods are opened, the arrow parts of the support rods are inserted into the rock wall of the water inrush channel, and a stable net rack is formed in the water inrush channel;

(3) as shown in fig. 10 and 11, the exhaust slurry return pipe is closed, the inflation grouting pipe is opened, the air bag is inflated, the air bag is opened through the air bag outlet under the action of air pressure, so that the air bag is expanded to be matched with the water inrush channel, and the water inrush channel plugging air bag attached to the net rack is formed;

(4) as shown in fig. 12 and 13, grouting the air bag by using the inflatable grouting pipe, simultaneously opening the exhaust grout return pipe, replacing the gas in the air bag with cement mortar, and stopping grouting when grout is discharged from the exhaust grout return pipe; when cement mortar is solidified to generate a stone solid, a filling wall for plugging a water inrush channel is finally formed, and the water inrush of the large channel is controlled within a local range;

(5) as shown in fig. 14, secondary plugging may be adopted depending on the plugging condition. And (4) directly using a common grouting drill rod for secondary plugging, inserting the grouting drill rod into the water inrush channel through ground drilling, and then directly grouting.

Example 2

As shown in fig. 1, 2, 6 and 7, the movable water large channel water inrush drilling net rack, the air bag and the grouting integrated plugging device comprises a drill rod, a drill bit connected with the drill rod, a telescopic net rack arranged inside the drill rod, the air bag and a gas-liquid replacement structure. As shown in fig. 1 and 2, net rack outlets are respectively arranged on two sides of the drill rod, and an air bag outlet is arranged on the front surface of the drill rod.

As shown in fig. 6 and 7, the telescopic net rack comprises a fixing rod, supporting rods and a control structure, wherein the fixing rod is fixedly arranged inside the drill rod, the supporting rods are arranged on two sides of the fixing rod through torsional springs in a rotating mode, and an iron net is connected between the adjacent supporting rods on the same side. The control structure comprises a push rod, a traction rod and a clamping groove, the push rod is arranged inside the fixed rod, one end of the traction rod is rotatably connected with the push rod, the other end of the traction rod is rotatably connected with the supporting rod and slidably connected with the supporting rod (the traction rod can slide along the length direction of the supporting rod and can rotate around the supporting rod), the clamping groove is formed in the fixed rod, and after the supporting rod extends out of the drilling rod, the push rod is clamped into the clamping groove to fix the push rod. As shown in fig. 6, in the initial state, under the action of the push rod and the traction rod, the torsion spring is in a compressed state, and the telescopic net rack is in a closed state. When the push rod is pushed downwards, one end of the traction rod rotates around the push rod, the other end of the traction rod slides along the support rod, and the support rod is expanded together with the torsion spring to form the net rack. Similarly, in order to improve the stability of the net rack, the supporting rods can be set to be telescopic rods, and the supporting rods are opened and inserted into the rock wall of the water inrush channel under the triggering of the traction rods.

The air bag is folded inside the drill rod, the position relation between the air bag and the telescopic net rack is shown in figure 5, the telescopic net rack is positioned in the middle of the drill rod, and the air bag is positioned on one side of the telescopic net rack and is close to the outlet of the air bag.

The gas-liquid replacement structure comprises an inflatable grouting pipe and an exhaust slurry return pipe which are connected with the air bag. The device inflates the air bag through the inflating grouting pipe, and the air bag ejects the drill rod from the air bag outlet under the action of air pressure and rapidly expands to a shape matched with the cross section of the water inrush channel. And then grouting the air bag by using the inflatable grouting pipe, and discharging the gas in the air bag by using the exhaust slurry return pipe to finally form a plugging wall body matched with the section of the water inrush channel.

According to the embodiment of the device, a specific method for applying the device to water inrush of a flowing water large channel is also introduced, and the specific method comprises the following steps:

(1) as shown in fig. 8, the device is inserted into the bottom of the water inrush channel by drilling the hole on the ground;

(2) as shown in fig. 8 and 9, the push rod is pushed downwards, the push rod is clamped into the clamping groove, the support rod is opened under the action of the push rod, the traction rod and the torsion spring, the arrow part of the support rod is inserted into the rock wall of the water inrush channel, and a stable net rack is formed in the water inrush channel;

(3) as shown in fig. 10 and 11, the exhaust slurry return pipe is closed, the inflation grouting pipe is opened, the air bag is inflated, the air bag is opened through the air bag outlet under the action of air pressure, so that the air bag is expanded to be matched with the water inrush channel, and the water inrush channel plugging air bag attached to the net rack is formed;

(4) as shown in fig. 12 and 13, grouting the air bag by using the inflatable grouting pipe, simultaneously opening the exhaust grout return pipe, replacing the gas in the air bag with cement mortar, and stopping grouting when grout is discharged from the exhaust grout return pipe; when cement mortar is solidified to generate a stone solid, a filling wall for plugging a water inrush channel is finally formed, and the water inrush of the large channel is controlled within a local range;

as shown in fig. 14, secondary plugging may be adopted depending on the plugging condition. And (4) directly using a common grouting drill rod for secondary plugging, inserting the grouting drill rod into the water inrush channel through ground drilling, and then directly grouting.

The device and the method are simple and convenient, have high flexibility, and are suitable for quickly plugging a large channel with high water pressure, large flow and large flowing water.

It is right above that the utility model provides a move big passageway gushing water drilling rack, gasbag, slip casting integration plugging device and method introduce in detail. The description of the specific embodiments is only intended to facilitate an understanding of the method of the invention and its core ideas. It should be noted that, for those skilled in the art, without departing from the principle of the present invention, the present invention can be further modified and modified, and such modifications and modifications also fall within the protection scope of the appended claims.

Claims (6)

1. Move big passageway gushing water drilling rack, gasbag, slip casting integration plugging device, including the drilling rod, with the drill bit that the drilling rod is connected, its characterized in that: net rack outlets are respectively arranged on two sides of the drill rod, and an air bag outlet is arranged on the front surface of the drill rod; the device also comprises a telescopic net rack, an air bag and a gas-liquid replacement structure which are arranged in the drill rod, wherein the net rack can extend out of the drill rod through an outlet of the net rack to form a net rack together with the drill rod; the gas-liquid replacement structure can inflate, inject and exhaust the air bag; the air bag is opened from the air bag outlet under the inflating action of the gas-liquid replacement structure and is expanded to be matched with the cross section of the water inrush channel to form the inflated air bag attached to the net rack, and the inflated air bag replaces gas in the air bag with cement mortar under the grouting and exhausting actions of the gas-liquid replacement structure.

2. The integrated plugging device of the water-moving large-channel water-inrush drilling net rack, the air bag and the grouting according to claim 1, characterized in that: the flexible rack includes dead lever, branch, control structure, the dead lever is fixed to be set up inside the drilling rod, branch passes through torsional spring pivoted setting and is in the dead lever both sides, be connected with the net between the adjacent branch, start control structure, branch is outside stretching out the drilling rod through the rack export under the effect of torsional spring and control structure, and formation rack is opened to branch.

3. The integrated plugging device of the water-moving large-channel water-inrush drilling net rack, the air bag and the grouting according to claim 2, characterized in that: the control structure comprises a push rod, a traction rod and a clamping groove, the push rod is arranged in the fixed rod, one end of the traction rod is rotatably connected with the push rod, and the other end of the traction rod is rotatably and slidably connected with the supporting rod; the clamping groove is arranged on the fixed rod and used for fixing the push rod after the support rod extends out of the drill rod; when the push rod is pushed downwards, one end of the traction rod rotates around the push rod, and the other end of the traction rod slides along the support rod to prop open the support rod together with the torsion spring.

4. The integrated plugging device of the water-moving large-channel water-inrush drilling net rack, the air bag and the grouting according to claim 1, characterized in that: the telescopic net rack comprises a push rod and support rods, the push rod is arranged inside the drill rod, the support rods are rotatably connected to two sides of the push rod through torsion springs, and a net is connected between every two adjacent support rods; branch is in compression state under the effect of drilling rod inner wall, when pushing away the push rod downwards along the drilling rod, pushes away branch extremely when the rack export, branch is opened and is formed the rack.

5. The integrated plugging device of the water-moving large-channel water-inrush drilling net rack, the air bag and the grouting according to claim 4, characterized in that: the supporting rod is a telescopic rod, and the end part of the supporting rod is in an arrow shape.

6. The integrated plugging device of the water-moving large-channel water-bursting drilling net rack, the air bag and the grouting according to any one of claims 1 to 4, characterized in that: the gas-liquid replacement structure comprises an inflatable grouting pipe and an exhaust slurry return pipe which are respectively connected with the air bag.

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