CN210714663U - Device for testing gas flow while drilling - Google Patents

Abstract

The utility model relates to the field of coal measure stratum gas disaster prevention and control, and discloses a device for testing gas flow while drilling, which comprises a soft bag, a gas drainage tube, and a filling tube communicated with the soft bag, wherein the soft bag is filled with gas or liquid; the soft bag is annular, at least one opening is formed in the soft bag, the inner side of the annular shape is matched with the drill rod, the outer side of the annular shape is matched with the drill hole, and the soft bag is used for surrounding the drill rod; one end of the gas drainage tube is communicated with the space to be measured after the soft bag is drilled in a closed mode, and the other end of the gas drainage tube is connected with a gas flow measuring device. Based on the device, the soft bag is surrounded on the drill rod, when the drill bit is driven to the target position, the filler is injected into the soft bag through the injection pipe, and the soft bag is used for sealing a gap between the drill rod and the drill hole; the gas drainage pipe connecting the inside and the outside of the drill hole leads out gas for measurement, so that the integration of drilling and measurement is realized, and the gas flow can be measured under the condition of not withdrawing the drill bit.

Description

Device for testing gas flow while drilling

Technical Field

The utility model relates to a coal measure stratum gas disaster prevention and control field, in particular to while drilling test gas flow's device.

Background

In the process of coal mining and railway tunnel construction of coal-series strata, disastrous accidents such as gas outburst and gas explosion are frequently caused, and negative influences are brought to enterprises and the society. In the gas disaster prevention and control, the flow of the drilling gas is one of important parameters for predicting the coal and gas outburst risk, the accuracy of the flow value of the drilling gas not only restricts the reliability of the prediction of the mine gas risk degree, but also influences the effectiveness and the economy of gas prevention and control measures made based on the prediction of the gas risk degree, and even possibly endangers the safe production of the mine.

At present, in the drilling process, if the gas flow in a drill hole needs to be measured, a drill bit needs to be withdrawn firstly, then the drill hole is sealed by using a hole packer in the prior art, and a flow measuring device such as a hole plate flowmeter is connected with a pipeline of the hole packer for measurement. If the length of the drilled hole is long and the flow needs to be measured for many times, the drill bit needs to be taken out to measure once again when the drill bit drills for a certain distance, which wastes time and labor; in addition, after the drilling device drills, the gas flow is in a continuous attenuation state, and if the gas flow is measured after the drilling is stopped, the flow value is much smaller than the initial flow, so that the measured result is large in deviation and inaccurate. It is therefore not advisable to withdraw the drilling device in order to obtain accurate measurements.

Therefore, it is necessary to provide a device and a method for testing gas flow without exiting the drilling device, which have simple structure and easy testing method, and facilitate the measurement of gas flow at any time during the drilling process, thereby creating conditions for accurately judging the coal and gas outburst risk and providing basis for gas disaster prevention and control measures.

SUMMERY OF THE UTILITY MODEL

The utility model discloses in to prior art: the problem that the time and the labor are wasted when the drill is withdrawn and then the gas flow is measured, and the result deviation is large is solved.

In order to realize the purpose of the utility model, the utility model provides a following technical scheme:

the utility model discloses a device for testing gas flow while drilling, which comprises a soft bag, a gas drainage tube and an injection tube communicated with the soft bag, wherein the soft bag is filled with a filler which can be air or water; the soft bag is annular, at least one opening is formed in the soft bag, the inner side of the soft bag is matched with the drill rod, the outer side of the soft bag is matched with the drill hole, and the soft bag is used for surrounding the drill rod; one end of the gas drainage tube is communicated with the space to be measured after the soft bag is drilled in a closed mode, and the other end of the gas drainage tube is connected with a gas flow measuring device. Filling a gap between the drill rod and the hole wall by using a soft bag filled with filler, and sealing the drilled hole; the gas drainage pipe connecting the inside and the outside of the drill hole leads out gas for measurement, so that the integration of drilling and measurement is realized, and the gas flow can be measured under the condition of not withdrawing the drill bit.

Wherein, the soft bag is composed of at least two soft bag units, each soft bag unit is combined to form a ring structure, and each soft bag unit is provided with an injection pipe, so the combination is simple and easy. The annular shape is not limited to a circular ring, and when the section of the drill rod is rectangular or triangular, the section of the inner side of the annular soft bag is correspondingly rectangular or triangular. Preferably, the soft bag is composed of two soft bag units with semicircular cross section shapes.

Further, the gas drainage tube can be arranged between the drill hole and the soft bag to communicate the space to be measured with the outside of the drill hole; preferably through one of the bladder units so that the bladder seals better against the gap between the drill stem and the borehole.

Furthermore, the device also comprises a dimension-shaped element, each soft bag unit is covered on the surface of the corresponding dimension-shaped element, the shape of the dimension-shaped element is preferably the same as that of the corresponding soft bag unit, and can also be different, and the dimension-shaped element is used for supporting and maintaining the shape and the shaping positioning of the soft bag, so that the operation is convenient.

Furthermore, the maintenance-shaped part is provided with a hollow part for communicating the inside of the drill hole with the outside of the drill hole, the end surface of the hollow part, which is positioned in the drill hole, is open, and the end surface, which faces the outside of the drill hole, is closed, the soft bag units are coated on the side surfaces of the corresponding maintenance-shaped part, and a gas drainage tube is led out from the end surface, which faces the outside of the drill hole, of the maintenance-shaped part in one of the; or the hollow part of the dimension-shaped part can be designed to be open at two ends, each soft bag unit covers the side surface of each corresponding dimension-shaped part and also covers the end surface of the corresponding dimension-shaped part facing the outside of the drill hole, and the gas drainage tube is led out of the hollow part of the corresponding dimension-shaped part by one soft bag unit.

The utility model also discloses a gas flow test while drilling method based on above-mentioned device, the step is:

step1, after the drill bit is drilled to a target position to be measured, surrounding a soft bag on the drill rod, and injecting filler into the soft bag through an injection pipe to enable the soft bag to seal a gap between the drill rod and a drill hole;

step2, connecting the gas drainage tube with a gas flow measuring device to measure the gas flow;

and Step3, when drilling is to be continued, leading out the filler, and taking down the soft bag.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the device provides a drilling and testing integrated device and method, the gas flow can be tested at any time without withdrawing the drill, the structure is simple, and the testing method is simple and easy to implement.

2. The device is formed by combining a plurality of units, is sleeved on the drill rod, is suitable for testing the flow in the drill holes with different sizes, and has strong adaptability.

3. The device is provided with a rigid groove block for plasticity, is easy to hold by hands and is accurately combined and positioned.

4. The device can assist in accurately judging safety risks, is low in economic cost and has popularization.

Description of the drawings:

FIG. 1 is a cross-sectional view of an integral bladder (with the injection tube and gas drainage tube not cut away).

Fig. 2 is a schematic longitudinal sectional view of fig. 1 wrapping a drill rod.

FIG. 3 is a cross-sectional view of the combined bladder (the injection tube and the gas drainage tube are not cut away).

Figure 4 is a schematic longitudinal section of figure 3 wrapped around a drill pipe.

Fig. 5 is a perspective view of a wiener.

Fig. 6 is a schematic structural view of fig. 5 from another view angle.

Fig. 7 is a perspective view of another wiener.

FIG. 8 is a cross-sectional view of the combined bladder (the injection tube and the gas drainage tube are not cut away).

FIG. 9 is a cross-sectional view of the combined bladder (the injection tube and the gas drainage tube are not cut away).

The labels in the figure are: 1-a soft bag, 11-a first soft bag, 12-a second soft bag, 2-an injection pipe, 3-a gas drainage pipe, 4-a dimensional element and 5-a drill rod.

Detailed Description

The present invention will be described in further detail with reference to test examples and specific embodiments. However, it should not be understood that the scope of the above-mentioned subject matter is limited to the following embodiments, and all the technologies realized based on the present invention are within the scope of the present invention.

Example 1

A device for testing gas flow while drilling comprises a soft bag 1, a gas drainage tube 3 and an injection tube 2 communicated with the soft bag 1, wherein after the soft bag 1 is sleeved on a drill rod 5, the soft bag 1 is filled with air or water to seal a gap between the drill rod 5 and a drill hole; the soft bag 1 is annular, two ends of the soft bag 1 are not completely communicated, and the soft bag 1 is provided with an opening, so that the soft bag 1 can be sleeved on the drill rod 5 under the condition that a drill is not withdrawn, the inner side shape of the soft bag 1 is matched with the drill rod 5 with a circular section, the outer side shape of the soft bag 1 is matched with a drill hole, and the soft bag 1 integrally surrounds the drill rod 5; one end of the gas drainage tube 3 is communicated with the space to be measured after the drilling is closed by the soft bag 1, and the other end of the gas drainage tube is used for being connected with the orifice plate flowmeter to measure the gas flow. The soft bag 1 filled with the filler fills the gap between the drill rod 5 and the hole wall, and seals the drill hole.

Example 2

The present embodiment provides a better way, as shown in fig. 3 and 4, a device for measuring gas flow while drilling, comprising a soft bag 1, a gas drainage tube 3; the soft bag 1 is annular and is formed by splicing two soft bag units, namely a first soft bag 11 and a second soft bag 12, the inner side of the soft bag 1 is matched with the drill rod 5, the outer side of the soft bag is matched with a drill hole, and the soft bag 1 is used for surrounding the drill rod 5; the two soft bag units are respectively provided with an injection pipe 2 communicated with the corresponding soft bag unit, and the corresponding soft bag units are filled with air or water; one end of the gas drainage tube 3 is communicated with the space to be measured after the drilling hole is sealed by the soft bag 1, the other end of the gas drainage tube is connected with a gas flow measuring device, the gas flow measuring device preferably penetrates through the soft bag 1, and the sealing performance is better. The combination mode is more beneficial to installation and easier to manufacture, saves production materials and is suitable for more drill rods 5 with different sizes and drilling environments.

Further, as shown in fig. 3 and 4, the utility model discloses be provided with dimension piece 4 in first soft bag 11, second soft bag 12 respectively, two soft bag unit cladding are in corresponding dimension 4 surfaces of piece, and the shape of dimension piece 4 can be the same with the shape that corresponds soft bag unit, also can be different, and dimension 4 is used for supporting the shape and the moulding location of keeping the soft bag, the operation of being convenient for.

The maintenance-shaped part 4 can be provided with a hollow part for communicating the inside of the drill hole with the outside of the drill hole, the end surface of the hollow part in the drill hole is open, the end surface facing the outside of the drill hole is closed, the soft bag unit is coated on the side surface of each corresponding maintenance-shaped part 4, the gas drainage tube 3 is led out of the end surface of the maintenance-shaped part 4 facing the outside of the drill hole in the first soft bag 11, wherein the three-dimensional schematic diagram of the maintenance-shaped part is shown in fig. 5 and; as shown in fig. 7, the hollow portions of the corresponding dimension-shaped member 4 in the first and second bladder bags 11 and 12 may be designed to be open at both ends, the two bladder bag units cover both the side surface of the respective dimension-shaped member 4 and the end surface of the dimension-shaped member 4 facing the borehole, and the gas drainage tube 3 is led out from the hollow portion of the dimension-shaped member 4 by one of the bladder bag units, such as the first bladder bag 11.

The preferred cross-sectional shapes of the first bladder 11 and the second bladder 12 are semicircular rings corresponding to the drill rod 5 having a circular cross-section.

When the gas flow is tested, after the drilling of the drilling device is stopped, the first soft bag 11 and the second soft bag 12 are combined and wrapped on the drill rod 5, and then gas or liquid, which can be air or water, is filled into the first soft bag 11 and the second soft bag 12; the two bladder units will expand to fill the gap between the drill pipe 5 and the borehole. The gas in the drill hole is subjected to flow rate test through the gas flow pipe 3 by an external device orifice plate flowmeter. When drilling is to be continued, a part of the gas or liquid in the bladder 1 is released so as not to cause abrasion on the surface of the bladder 1, and the bladder 1 can be easily removed for the next operation.

Example 3

In addition, the number of the soft bag bags 1 in the utility model is not limited, and the soft bag bags can be composed of a plurality of soft bag units; the elastic material which is light, easy to expand and contract and good in flexibility can be selected, and sealing between the drill rod 5 and the drilled hole after the soft bag 1 is filled is facilitated; the annular structure of the bladder 1 is not limited to a circular ring, and when the section of the drill rod 5 is rectangular or triangular, correspondingly, the section of the inner side of the annular bladder 1 is correspondingly rectangular or triangular, and the variation forms are various, as shown in fig. 5 and 6.

It should be noted that, in general conditions, the invention is suitable for detection environments with small pressure difference (the set pressure difference is less than 2 atmospheric pressures), and the filling degree can be adjusted according to actual conditions by lengthening the length of the soft bag 1, so that the plugging effect can be effectively improved; further, in order to prevent the situation that the pressure difference is relatively large (the set pressure difference is larger than 2 atmospheric pressures), a connecting piece is added between the openings of the soft bag 1, for example, a magic tape is arranged at the combined joint of the openings of the soft bag 1, and the opening of the soft bag 1 is further connected in a sticking mode. If gas blowout occurs, related emergency measures need to be taken by the technicians in the field.

The utility model discloses a bore integration of surveying, simple structure can assist the accurate safe risk of judging, and economic cost is low, has the popularization nature.

Example 4

The embodiment also discloses a method for testing the gas flow while drilling based on the device for testing the gas flow while drilling in the embodiment, which comprises the following steps:

step1, after the drill bit is drilled to a target position to be measured, surrounding the soft bag 1 on the drill rod 5, and injecting fillers into the soft bag 1 through the injection pipe 2 to enable the soft bag 1 to seal a gap between the drill rod 5 and a drill hole;

step2, connecting the gas drainage tube 3 with a gas flow measuring device to measure the gas flow;

and Step3, when drilling is to be continued, the filler is led out, and the soft bag 1 is removed.

The method can test the gas flow at any time under the condition of not withdrawing the drill, and the test method is simple and easy to implement.

Claims (9)

1. A device for testing gas flow while drilling comprises a soft bag (1) and a gas drainage tube (3), and is characterized by further comprising an injection tube (2) communicated with the soft bag (1), wherein the soft bag (1) is annular, at least one opening is formed in the soft bag (1), the inner side of the soft bag (1) is matched with a drill rod (5), and the outer side of the soft bag is matched with a drill hole; one end of the gas drainage tube (3) is communicated with the space to be measured after the drilling hole is sealed in the soft bag (1), and the other end of the gas drainage tube is connected with a gas flow measuring device.

2. The device for testing gas flow while drilling as recited in claim 1, characterized in that the bladder (1) is composed of at least two bladder units, each bladder unit is combined to form a ring structure, and the injection pipe (2) is arranged on each bladder unit.

3. The device for testing gas flow while drilling as recited in claim 2, characterized in that the gas drainage tube (3) penetrates one of the bladder units.

4. The device for testing gas flow while drilling as recited in claim 2, characterized in that the device further comprises a dimensional member (4), and each bladder unit is coated on the surface of the corresponding dimensional member (4).

5. The device for testing gas flow while drilling as recited in claim 4, characterized in that the shape of the wielding member (4) is the same as the shape of the corresponding soft bag unit.

6. The device for testing gas flow while drilling as recited in claim 4, characterized in that the dimensional element (4) is provided with a hollow part for communicating the inside of the drill hole and the outside of the drill hole, the end surface of the hollow part in the drill hole is open, the end surface facing the outside of the drill hole is closed, and the gas drainage tube (3) is led out from the end surface facing the outside of the drill hole of the corresponding dimensional element (4) in one of the soft bag units.

7. The device for testing the gas flow while drilling as recited in claim 4, characterized in that the dimensional element (4) is provided with a hollow part communicating the inside of the drill hole with the outside of the drill hole, and the two ends of the hollow part are open; each bladder unit covers both the side surface of the corresponding service member (4) and the end surface of the corresponding service member (4) facing out of the borehole, and the gas drainage tube (3) is led out from one of the bladder units in the hollow part of the corresponding service member (4).

8. The device for testing gas flow while drilling as recited in any one of claims 1-7, characterized in that the inner side of the soft bag (1) is circular, rectangular or triangular.

9. The device for testing gas flow while drilling as recited in any one of claims 1-7, characterized in that the soft bag (1) is composed of two soft bag units with semicircular cross-sectional shapes.

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