Guiding and injecting integrated mechanism for continuous conduit

Abstract

Disclosed is a guiding and injecting integrated mechanism for continuous conduit, belonging to underground exploration technical field. The mechanism comprises a pair of chain wheel and chain clamping assemblies used for clamping conduit and pulling conduit to go down or out of well. A conduit guiding channel for conduit to pass through is formed between the pair of chain wheel and chain clamping assemblies, and an inlet and an outlet of the conduit guiding channel are not situated in line. The conduit guiding channel is arc-shaped and each of the two chain wheel and chain clamping assemblies comprises a chain wheel set, chains, clamping blocks mounted on the chain, and a pushing plate for pressing the clamping blocks. Further, clamping surfaces of the clamping blocks have a certain curvature with respect to guiding direction.

Description

CROSS-REFERENCES TO RELATED APPLICATIONS

This application is a national stage application of PCT Patent Application No. PCT/CN2020/133473, filed on Dec. 3, 2020, which claims priority to Chinese Patent Application No. 202010738391.2, filed on Jul. 28, 2020, the content of all of which is incorporated herein by reference.

FIELD OF THE INVENTION

The present application relates to the technical field of underground exploration, in particular to a guiding and injecting integrated mechanism for a continuous conduit.

BACKGROUND

Shown as FIG. 1, an existing continuous tubing work equipment typically comprises a guiding gooseneck (100) and an injector head (200), the guiding gooseneck is applied to guiding a continuous conduit to go into the injector head. A plurality of main functions of the injector head comprises:

• • (1) applying axial force to the continuous conduit to overcome the dead weight of the continuous conduit, as well as the buoyancy and the friction of the continuous conduit, providing sufficient pushing or pulling force to control well exiting or well entering movement of the continuous conduit;
  • (2) bearing the suspension weight of an entire continuous conduit when the continuous conduit is stationary;
  • (3) providing sufficient clamping force to prevent a relative sliding between the continuous conduit and a clamping block;
  • (4) controlling the lifting and lowering speed of the continuous conduit in a plurality of different conditions
  • (5) providing a working platform for the weight sensor and the encoder;
  • (6) bearing the dead weight and an additional load of the entire continuous conduit.

In the prior art, an inlet of the injector head of a continuous conduit is locating directly above an outlet, the injector head itself has a certain height, together with a height of the guiding gooseneck, resulting in a height of an overall equipment very high, which is not suitable for a working environment with a limited space height (including a coal mine laneway having a typical height no more than 3 m).

BRIEF SUMMARY OF THE DISCLOSURE

According to the defects in the prior art described above, the present application provides a guiding and injecting integrated mechanism for a continuous conduit.

The technical solution of the present application to solve the technical problems is as follows:

• • a guiding and injecting integrated mechanism for a continuous conduit, which comprises a pair of sprocket and chain clamping assemblies applied to clamping the conduit and pulling the conduit to go downwards a well or upwards a lifting direction; between the pair of sprocket and chain clamping assemblies, a conduit guiding channel applied for the conduit to passing through is formed; an inlet and an outlet of the conduit guiding channel are not situated in a straight line.

Further, the conduit guiding channel is arc-shaped.

Further, each of the two sprocket and chain clamping assemblies comprises a sprocket set, a chain, a plurality of clamping blocks mounted on the chain, and a pushing plate applied to pressing the clamping blocks;

• • the pushing plate is an arc-shaped plate, both pushing plates of the two sprocket and chain clamping assemblies are concentrically arranged; and the pushing plate of at least one sprocket and chain clamping assembly has a clamping driving device connected applied to driving the pushing plate to move in a radial direction;
  • the pushing plates of the two sprocket and chain clamping assemblies are applied to forming the conduit guiding channel between a certain number of the clamping blocks of the two sprocket and chain clamping assemblies, and making the certain number of the clamping blocks of the two sprocket and chain clamping assemblies clamp the conduit.

Further, the pushing plate presses the clamping blocks through a bearing roller.

Further, a sprocket set of a sprocket and chain clamping assembly located at a periphery comprises a driving wheel, a tensioning wheel, and a driven wheel; a sprocket set of a sprocket and chain clamping assembly located in an inlier comprises a driving wheel and a driven wheel.

Alternatively, each of the sprocket sets of the two sprocket and chain clamping assemblies comprises a driving wheel, a tensioning wheel, and a driven wheel.

Further, the clamping driving device is a hydraulic cylinder.

Further, a clamping surface of the clamping block has a certain radian at a guiding direction.

Further, the inlet of the conduit guiding channel has an arc-shaped guide short section arranged.

Compared with the prior art, the present application has a plurality of following beneficial effects:

• • the present application integrates a function of guidance and a function of injection together, being able to omit a gooseneck, being able to reduce a height of a device effectively; especially being suitable for a working environment having a limited space height.

BRIEF DESCRIPTION OF THE DRAWINGS

The drawings described herein are applied to providing a further understanding of the embodiments of the present application, constituting a part of the present application, instead of a limitation to the embodiments of the present application.

FIG. 1 illustrates a schematic structural diagram on the prior art;

FIG. 2 illustrates a schematic structural diagram on a first embodiment;

FIG. 3 illustrates a schematic diagram on a local position when a clamping block is clamping a conduit;

FIG. 4 illustrates a cross-sectional view at A-A of FIG. 3;

FIG. 5 illustrates a schematic diagram on a local portion of a conduit guiding channel;

FIG. 6 illustrates a schematic structural diagram on a second embodiment;

FIG. 7 illustrates a schematic structural diagram on a third embodiment.

DETAILED DESCRIPTION OF EMBODIMENTS

In order to make the purpose, technical solution and the advantages of the present application clearer and more explicit, further detailed descriptions of the present application are stated herein, referencing to the attached drawings and some embodiments of the present application. It should be understood that the detailed embodiments of the application described here are used to explain the present application only, instead of limiting the present application.

Embodiment I

Shown as FIG. 2, the present embodiment discloses a guiding and injecting integrated mechanism for a continuous conduit, comprising a first sprocket and chain clamping assembly 1 and a second sprocket and chain clamping assembly 2, applied to clamping a conduit 7 and pulling the conduit 7 to go downwards a well or outwards a lifting direction; between the first sprocket and chain clamping assembly 1 and the second sprocket and chain clamping assembly 2, a conduit guiding channel for the conduit 7 to pass through is constructed; an inlet and an outlet of the conduit guiding channel are not situated in a straight line.

In order to make a deformation of the conduit smoother, the conduit guiding channel is arc-shaped.

The first sprocket and chain clamping assembly 1 locates outside of the second sprocket and chain clamping assembly 2. The first sprocket and chain clamping assembly 1 comprises a first driving wheel 11, a first tensioning wheel 14, a first driven wheel 12, a first chain 13, two first pushing plates 15 and a plurality of clamping blocks 3 arranged on the first chain 13; the first driving wheel 11, the first tensioning wheel 14 and the first driven wheel 12 are not situated in a straight line; the first chain 13 is engaged with the first driving wheel 11, the first tensioning wheel 14 and the first driven wheel 12.

The second sprocket and chain clamping assembly 2 comprises a second driving wheel 21, a second driven wheel 22, a second chain 23, a second pushing plate 25 and a plurality of clamping blocks 3 arranged on the second chain 23; the second chain 23 is engaged with the second driving wheel 21 and the second driven wheel 22.

Both the first pushing plates 15 and the second pushing plate 25 are arc-shaped plates, the first pushing plates 15 and the second pushing plate 25 are arranged concentrically, a radius of the first pushing plates 15 is larger than that of the second pushing plate 25.

Obviously, either of the first driving wheel 11 and the second wheel 21 has a traction motor connected. The first driving wheel 11, the first tensioning wheel 14, the first driven wheel 12, the second driving wheel 21, the second driven wheel 22 and the second chain 23 are all arranged on a rack. Either the traction motor or the rack is shown in the FIG, which is a conventional technique in the art and no more details are stated herein.

The second pushing plate 25 in the present embodiment has a clamping driving device 4 connected, the clamping driving device 4 is applied to driving the pushing plate to move in a radial direction; the clamping driving device 4 is a hydraulic cylinder.

The first pushing plates 15 and the second pushing plate 25 are applied to constructing a conduit guiding channel between a certain number of the clamping blocks 3 on the first chain 13 and a certain number of the clamping blocks 3 on the second chain 23, and making the certain number of the clamping blocks 3 on the first chain 13 and the second chain 23 clamp the conduit 7.

Both an inner edge and an outer edge of the first tensioning wheel 14 in the present embodiment are engaged with the first chain 13. There is a first pushing plate 15 arranged between the first driving wheel 11 and the first tensioning wheel 14, as well as a first pushing plate 15 arranged between the first tensioning wheel 14 and the first driven wheel 12.

One end of the second pushing plate 25 starts from the second driving wheel 21, another end of the second pushing plate 25 extends to the second driven wheel 22. Since the second pushing plate 25 has a longer arc, the second pushing plate 25 has at least two clamping driving devices 4 connected, to ensure a sufficient clamping strength.

As shown in FIGS. 3,4,5, the clamping blocks 3 are arranged on the chain one block by one block. There is a gap 31 between two adjacent clamping blocks 3. The first pushing plate 15 and the second pushing plate 25 make a plurality of the clamping blocks 3 be arranged along an arc direction, to form a guiding conduit guide channel 6, so as to achieve a guidance for the conduit 7.

A plurality of clamping surfaces of the clamping blocks 3 on the first chain 13 and the second chain 23 have a certain radian at the guiding direction, so as to ensure the clamping blocks to be in surface contact with the conduit 7, thereby increasing a clamping force and making a deformation of the conduit 7 smoother.

Shown as FIG. 3, the clamping block 3 has a bearing roller 16 arranged, the first pushing plate 15 presses the bearing roller 16 of the clamping block 3 on the first chain 13, and the second pushing plate 25 presses the bearing roller 16 of the clamping block 3 on the second chain 23.

Obviously, the bearing roller 16 is also able to be mounted on a pushing plate.

A working principle of the present application is as follows:

• • a free end of the conduit 7 passes through between the clamping blocks 3 on the first chain 13 and the second chain 23;
  • the first pushing plate 15 and the second pushing plate 25 press the clamping blocks 3 on the first chain 13 and the second chain 23, so that the clamping blocks 3 clamp the conduit 7;
  • the first driving wheel 11 and the second driving wheel 21 rotate to drive the first chain 13 and the second chain 23 to move, and then drive the clamping block 3 to move, so that the conduit 7 clamped by the clamping blocks 3 moves downwards a well or upwards a lifting direction.

Embodiment II

A difference between the present embodiment and the embodiment I is: shown as FIG. 6, the second sprocket and chain clamping assembly 2 in the present embodiment further comprises a second tensioning wheel 24 engaged with the second chain 23, while the second driving wheel 21, the second tensioning wheel 24 and the second driven wheel 22 are not in a straight line.

The present embodiment arranges an arc-shaped guide short section 5 at an inlet of the conduit guiding channel, while the arc-shaped guide short section 5 is applied to guiding the conduit 7 to enter the conduit guiding channel more smoothly. The arc-shaped guide short section 5 is concentric with the conduit guiding channel and having a radius equal.

The arc-shaped guide short section 5 locates below the inlet of the conduit guiding channel, having a certain supporting action to the conduit 7.

Embodiment III

A difference between the present embodiment and the embodiment I or the embodiment II is: shown as FIG. 7, each of the first pushing plates 15 in the present application has a clamping driving device 4 arranged, applied to driving the first pushing plate 15 to move in a radial direction.

The present application integrates a function of guidance and a function of injection together, being able to omit a gooseneck, being able to reduce a height of a device effectively; especially being suitable for a working environment having a limited space height, including working in a mineral hallway.

It should be understood that, the application of the present application is not limited to the above examples listed. Ordinary technical personnel in this field can improve or change the applications according to the above descriptions, all of these improvements and transforms should belong to the scope of protection in the appended claims of the present application.

Claims

1. A guiding and injecting integrated mechanism for a continuous conduit, comprising a pair of sprocket and chain clamping assemblies, the pair of sprocket and chain clamping assemblies are configured to clamp the conduit and pull the conduit to go downwards in a well or upwards in a lifting direction; between the pair of sprocket and chain clamping assemblies, a conduit guiding channel applied for the conduit to pass through is formed; an inlet and an outlet of the conduit guiding channel are not situated in a straight line; wherein each of the pair of sprocket and chain clamping assemblies comprises a sprocket set, a chain, and a plurality of clamping blocks mounted on the chain and a pushing plate configured to press the clamping blocks to form the conduit guiding channel and clamp the conduit.

2. The guiding and injecting integrated mechanism for the continuous conduit according to claim 1, wherein the conduit guiding channel is arc-shaped.

3. The guiding and injecting integrated mechanism for the continuous conduit according to claim 1, wherein the pushing plate is an arc-shaped plate, both pushing plates of the pair of sprocket and chain clamping assemblies are concentrically arranged; the pushing plate of at least one of the pair of sprocket and chain clamping assemblies has a clamping driving device connected, the clamping driving device is configured to drive the pushing plate to move in a radial direction;the pushing plates of the pair of sprocket and chain clamping assemblies are configured to form the conduit guiding channel between a certain number of the clamping blocks of the pair of sprocket and chain clamping assemblies, and make the certain number of the clamping blocks of the pair of sprocket and chain clamping assemblies clamp the conduit.

4. The guiding and injecting integrated mechanism for the continuous conduit according to claim 3, wherein the pushing plate presses the clamping blocks through a bearing roller.

5. The guiding and injecting integrated mechanism for the continuous conduit according to claim 3, wherein the sprocket set of one of the pair of sprocket and chain clamping assemblies located at periphery comprises a driving wheel, a tensioning wheel, and a driven wheel; the sprocket set of the other one of the pair of sprocket and chain clamping assemblies located in inlier comprises a driving wheel and a driven wheel.

6. The guiding and injecting integrated mechanism for the continuous conduit according to claim 3, wherein each of the sprocket sets of the pair of sprocket and chain clamping assemblies comprises a driving wheel, a tensioning wheel, and a driven wheel.

7. The guiding and injecting integrated mechanism for the continuous conduit according to claim 3, wherein the clamping driving device is a hydraulic cylinder.

8. The guiding and injecting integrated mechanism for the continuous conduit according to claim 3, wherein a clamping surface of the clamping block has a certain radian at a guiding direction.

9. The guiding and injecting integrated mechanism for the continuous conduit according to claim 1, wherein the inlet of the conduit guiding channel has an arc-shaped guide short section arranged.

10. The guiding and injecting integrated mechanism for the continuous conduit according to claim 2, wherein the pushing plate is an arc-shaped plate, both pushing plates of the pair of sprocket and chain clamping assemblies are concentrically arranged; the pushing plate of at least one of the pair of sprocket and chain clamping assemblies has a clamping driving device connected, the clamping driving device is configured to drive the pushing plate to move in a radial direction;the pushing plates of the pair of sprocket and chain clamping assemblies are configured to form the conduit guiding channel between a certain number of the clamping blocks of the pair of sprocket and chain clamping assemblies, and make the certain number of the clamping blocks of the pair of sprocket and chain clamping assemblies clamp the conduit.