Ground wellhole dedicated protective pipe for gas extraction of mining-induced area

Abstract

A ground wellhole dedicated protective pipe, disposed inside a ground wellhole for gas extraction of a mining-induced area, includes a casing, and a chain inside the casing and slidable relative to the casing. The chain includes a chain formed by a plurality of chain drums through serial connection, and a detachable connecting piece connecting between chains. A plurality of air holes is opened in the chain drum along an axial direction of the chain drum.

Claims

1. A ground wellhole dedicated protective pipe for gas extraction of a mining-induced area, wherein the ground wellhole dedicated protective pipe for gas extraction of the mining-induced area is disposed inside a ground wellhole for gas extraction of the mining-induced area, the ground wellhole dedicated protective pipe for gas extraction of the mining-induced area comprising: a casing; and a chain that is disposed inside the casing and slidable relative to the casing, the chain comprising a plurality of chain drums, and connecting pieces, wherein a plurality of air holes are opened in the chain drum along an axial direction of the chain drum, the connecting piece is a connection ring, the connection ring comprises a closed connection ring, and an open-closed connection ring, the plurality of chain drums are connected through the closed connection rings, and the adjacent chains are connected through the open-closed connection rings.

2. The ground wellhole dedicated protective pipe for gas extraction of the mining-induced area according to claim 1, wherein an upper end and a lower end of the chain drum are both provided with a lug hole, and the connection ring connects the lug holes of the adjacent chain drums respectively.

3. The ground wellhole dedicated protective pipe for gas extraction of the mining-induced area according to claim 2, wherein one end of open-closed ends of the open-closed connection ring is provided with a thread insert, and the other end is provided with a screw thread-connected with the thread insert.

4. The ground wellhole dedicated protective pipe for gas extraction of the mining-induced area according to claim 1, wherein a lower end of the casing is provided with a porous mesh plate, and the porous mesh plate supports the chain.

5. The ground wellhole dedicated protective pipe for gas extraction of the mining-induced area according to claim 1, wherein a center axis of the air hole is parallel to a center axis of the chain drum.

6. The ground wellhole dedicated protective pipe for gas extraction of the mining-induced area according to claim 1, wherein the casing is made of stainless steel.

7. The ground wellhole dedicated protective pipe for gas extraction of the mining-induced area according to claim 1, wherein the chain drum is made of stainless steel.

8. The ground wellhole dedicated protective pipe for gas extraction of the mining-induced area according to claim 1, wherein the connecting piece is made of stainless steel.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) To describe the technical solutions in the examples of the present disclosure or in the prior art more clearly, the accompanying drawings required in descriptions of the examples of the present disclosure or the prior art will be briefly introduced below. It is apparent that the accompanying drawings described below are some examples of the present disclosure and other drawings may be obtained by those of ordinary skill in the art based on these drawings without paying creative work.

(2) FIG. 1 is a schematic diagram illustrating a structure of a ground wellhole dedicated protective pipe for gas extraction of a mining-induced area according to an example of the present disclosure.

(3) FIG. 2 is a schematic diagram illustrating structures of a casing and a porous mesh plate in a ground wellhole dedicated protective pipe for gas extraction of a mining-induced area according to an example of the present disclosure.

(4) FIG. 3 is a front view of a chain drum in a ground wellhole dedicated protective pipe for gas extraction of a mining-induced area according to an example of the present disclosure.

(5) FIG. 4 is a section view of a chain drum in a ground wellhole dedicated protective pipe for gas extraction of a mining-induced area according to an example of the present disclosure.

(6) FIG. 5 is a schematic diagram illustrating a structure of a closed connection ring in a ground wellhole dedicated protective pipe for gas extraction of a mining-induced area according to an example of the present disclosure.

(7) FIG. 6 is a schematic diagram illustrating a structure of an open-closed connection ring in a ground wellhole dedicated protective pipe for gas extraction of a mining-induced area according to an example of the present disclosure.

(8) FIG. 7 is a top view of a porous mesh plate in a ground wellhole dedicated protective pipe for gas extraction of a mining-induced area according to an example of the present disclosure.

(9) FIG. 8 is a comparison diagram of effects of applying a ground wellhole dedicated protective pipe for gas extraction of a mining-induced area and a traditional protective pipe to gas extraction of a mining-induced area respectively according to an example of the present disclosure.

(10) Numerals of the drawings are described as follows: 1a casing, 2a chain drum, 21an lug hole, 22an air hole, 3a porous mesh plate, 41a closed connection ring, 42an open-closed connection ring, and 421a thread insert.

DETAILED DESCRIPTION OF THE EMBODIMENTS

(11) As shown in FIGS. 1-7, an example of the present disclosure provides a ground wellhole dedicated protective pipe for gas extraction of a mining-induced area, which is disposed inside a ground wellhole for gas extraction of the mining-induced area. During gas extraction of the mining- induced area, a stainless-steel casing 1 with particular flexibility is disposed at a position of a rock stratum to which a transverse movement, up and down expansion stretching, transverse squeezing, longitudinal squeezing, and the like easily occur in a ground drilling (well) hole. The stainless-steel casing 1 may realize flexible deformation to some extent. A chain is disposed inside the casing 1, and may slide relative to the casing 1. The chain includes a plurality of chain drums 2 and connecting pieces movably connecting the adjacent chain drums 2. The chain may be bent along with bending of the casing 1 and automatically slide along with longitudinal stretch or compression of the casing 1. But the chain will not be obviously deformed along with squeeze of the casing 1. A bending angle between two chain drums 2 is not less than 45 degrees, and a bending angle of three chain drums 2 is not less than 90 degrees.

(12) In the example, the chain drum 2 is a cylinder made of stainless steel, an upper end and a lower end of the chain drum 2 are both provided with an lug hole 21. The connecting piece in the present example preferably is a connection ring, and the connection ring is connected to the lug holes of the adjacent chain drums 2 respectively. The connection ring includes a closed connection ring 41 and an open-closed connection ring 42, which are both made of stainless steel. One end of open-closed ends of the open-closed connection ring 42 is provided with a thread insert 421, and the other end of open-closed ends of the open-closed connection ring 42 is provided with a screw thread-connected with the thread insert 421. In a production process, a plurality of chain drums 2 are connected into one chain through the closed connection rings 41. For example, in FIG. 1, four chain drums 2 are serially connected into one chain through the closed connection rings 41. In engineering operations, operation personnel serially connect different chains into one whole long chain through the open-closed connection rings 42. A plurality of air holes 22 are opened in the chain drum 2 along an axial direction of the chain drum 2, so that gas in the casing 1 may smoothly pass through the air holes 22. It is noted that a design air permeability is not less than 50%. In the example, a center axis of the air hole 22 is parallel to a center axis of the chain drum 2 to reduce air passing resistance.

(13) Before the drilling operation of the mining-induced area is completed without obvious deformation, regions of different rock strata liable to deformation, displacement and squeeze are pre-determined according to geological data and a detection situation obtained during drilling, and a chain is disposed at the position of the region where the casing 1 is located. If an operation manner of drilling and disposing the casing 1 from top to bottom is adopted, a connection buckle, for example, a hook, is disposed at an upper end of the casing 1, the connection buckle is connected to the chain with a particular length through a cable, and the chain is hung inside the casing 1, where the length of the chain goes beyond the above region. If an operation manner of drilling and disposing the casing 1 from bottom to top is adopted, a porous mesh plate 3 is disposed at a lower end of the casing 1, the porous mesh plate 3 supports the chain, where the length of the chain goes beyond the above region. Of course, no matter which of the above operation manners is adopted, the chain may also be disposed over the whole length of the casing 1.

(14) As shown in FIG. 8, the ground wellhole dedicated protective pipe for gas extraction of a mining-induced area in the present example is applied to gas extraction of the mining-induced area, and an operation effect thereof is illustrated in three pictures on the first row. As a comparison, only a traditional protective pipe is applied to the gas extraction of the mining-induced area, and an operation effect thereof is illustrated in three pictures on the second row. It can be seen from the comparison of two protective pipes that the traditional protective pipe is deformed significantly and the gas inside the pipe cannot pass smoothly, but the ground wellhole dedicated protective pipe for gas extraction of a mining-induced area in the present example is not deformed significantly and the gas inside the pipe can still pass smoothly.

(15) The ground wellhole dedicated protective pipe for gas extraction of a mining-induced area in the present example can resist the change and the failure of the casing 1 caused by the shearing force, the squeezing force and the stretching force generated by the displacement of the rock stratum simultaneously, and ensure the gas passes under one or more forces no matter what displacement or force occurs in a protection region in the ground wellhole for gas extraction of the mining-induced area. Therefore, the protective pipe has versatility, economy and applicability compared with traditional protection methods and apparatuses. Specific effects are described below.

(16) 1. Since the chain disposed inside the casing 1 has a particular length, a protective scope of the casing is substantially same or slightly smaller than the chain length. Thus, protection of linear length may be performed without accurately determining a position of displacement of the rock stratum. However, since the position of one point is protected by the traditional method and protective apparatus, it is required to accurately determine the easily-displaced position of the rock stratum. However, it is very difficult to accurately determine the easily-displaced position of the rock stratum. When the protective apparatus is disposed inside the casing 1, it is also very difficult to align the position of the protective apparatus with the easily-displaced position of the rock stratum.

(17) 2. As long as the chain is not broken or crushed, no matter what stress acts on the casing 1, it can be effectively ensured that an inner diameter of the casing 1 is not changed greatly, that is, a gas passing capability is not changed obviously. However, the traditional method and protective apparatus can only resist or eliminate the change of one acting force, for example, the deflecting protective apparatus can only have an effect on the shearing action, without obvious protective effect on the squeezing and stretching forces. For example, if the casing 1 is made flexible, the pipe has the protective effect on stretch without protective effect on squeezing and shearing actions.

(18) From the perspective of a single action effect, the ground wellhole dedicated protective pipe for gas extraction of a mining-induced area in the present example has superiority. From the perspective of an anti-squeezing force, to prevent the casing 1 from being broken due to squeeze or prevent the casing 1 from being closed and air-blocked due to squeeze, a solution is generally adopted to thicken a pipe wall of the casing 1 to increase a pressure bearing capability. However, the thickness of the pipe wall is limited, and therefore a pressure bearing capability thereof is also limited. From the perspective of anti-stretching and anti-shearing forces, since it is not required to give a special consideration to the anti-squeezing capability of the casing 1 during an application of the ground wellhole dedicated protective pipe for gas extraction of a mining-induced area in the present example, a material with good plasticity may be selected for the casing 1. However, in other methods and protective apparatuses, contradiction exists when the material of the casing 1 is selected, that is, when a soft material or a plastic material is selected, the material does not have anti-squeeze capability, and when an anti-squeezing hard material is selected, the material does not have anti-stretching and anti-shearing capabilities.

(19) 4. When the ground wellhole dedicated protective pipe for gas extraction of a mining- induced area in the present example is adopted, the inner diameter of the casing 1 remains basically unchanged at any time. Therefore, the gas passing capability inside the casing 1 also remains stable, which has a positive significance on stability and economy of an extraction system. Further a surplus design coefficient is reduced during system design.

(20) Of course, the above descriptions are not intended to limit the present disclosure, and the present disclosure is also not limited to the above examples. Changes, modifications, additions or substitutions made by persons skilled in the art shall also be encompassed in the scope of protection of the present disclosure.