CN201915932U - Downhole hydraulic cutting tool - Google Patents

Abstract

The utility model discloses a water conservancy slotting tool in pit belongs to coal gas layer development field. The tool comprises a moving device, a restorer and a nozzle, the moving device is driven to move downwards through a hydraulic driving device, the nozzle is driven to move downwards, the nozzle is enabled to perforate and fracture the coal bed under the action of high-pressure water force at a specified depth, a plurality of artificial cracks are formed in the original coal bed, a coal bed gas rushing channel is formed, the air permeability of the coal bed is increased, therefore, large-area pressure reduction is generated around a well hole when air is pumped in a well, the surface area of gas desorption generated by the coal bed is increased, the coal bed gas is guaranteed to be rapidly and relatively durably discharged, and the tool enables the moving device to. Therefore, the utility model has the advantages of simple structure, convenient operation and maintenance.

Description

Downhole hydraulic cutting tool

technical field

The utility model relates to coal bed gas development engineering machinery, in particular to an underground hydraulic cutting tool.

Background technique

Coalbed methane is a high-quality and clean energy source, which mainly exists in the coal seam in an adsorbed state, and a small amount exists in pores and cracks in a free state. From the perspective of national economic development, due to the development and utilization of coalbed methane, a large amount of high-quality clean energy that is likely to be wasted has been recovered, which has played a positive role in alleviating energy shortages and promoting national economic development.

Although my country's coalbed methane resources are very rich, the permeability of coal seams in coal mines is generally low, and there is currently a lack of a tool that can improve the permeability of coal seams, so the development capacity of coalbed methane is insufficient.

Contents of the invention

In order to solve the problems in the prior art, the embodiment of the utility model provides an underground hydraulic slotting tool, which has the characteristics of simple structure, convenient and reliable operation and maintenance, and can effectively improve the permeability of coal seams in coal mines. Described technical scheme is as follows:

A downhole hydraulic slotting tool, comprising a mover, a resetter and a nozzle connected in sequence;

The mover includes a mover inner tube and a mover outer tube connected inside and outside, and the mover inner tube can slide relative to the mover outer tube through a hydraulic drive device;

The resetter includes an inner tube of the resetter and an outer tube of the resetter connected inside and outside, the inner tube of the resetter is fixedly connected with the inner tube of the mover, and the outer tube of the resetter is fixedly connected with the outer tube of the mover , the inner tube of the reset device can slide along the outer tube of the reset device under the drive of the inner tube of the mover, and a return spring is arranged between the inner tube of the reset device and the outer tube of the reset device. The return spring is used for the reset of the inner tube of the mover;

Sealing devices are respectively provided at the contact points between the inner tube of the mover and the outer tube of the mover, and at the contact points between the outer tube of the resetter and the inner tube of the mover, and the nozzle is fixed to the inner tube of the resetter connected, the spray head is a hollow cylinder.

Specifically, the hydraulic drive device includes an upper hydraulic chamber and a lower hydraulic chamber formed by the inner pipe of the mover and the outer pipe of the mover, which are respectively arranged in the inner pipe of the mover and communicate with the upper hydraulic chamber And the restricting hole and return hole of the lower hydraulic chamber, a relief valve is arranged near the restricting hole of the lower hydraulic chamber, and a check valve is arranged near the return hole of the upper hydraulic chamber , the outer pipe of the mover corresponding to the upper hydraulic chamber is provided with an oil injection hole, and a sealing screw is installed on the oil injection hole, and the upper hydraulic chamber and the lower hydraulic chamber are filled with hydraulic oil, wherein the The flow-limiting hole is a fine hole, and the return hole is a hole with a larger diameter.

Specifically, the nozzles are arranged symmetrically in the radial direction of the spray head, and the nozzles include a jet hole, and the jet hole is divided into three sections, a tapered constriction section at the front end, a cylindrical section in the middle and an expansion section at the rear end.

Further, a lower joint of the reset device is set between the outer tube of the reset device and the nozzle, the lower joint of the reset device is fixedly connected to the outer tube of the reset device, and a filter is provided at the lower joint of the reset device near the return spring. net.

The beneficial effects brought by the technical solution provided by the embodiment of the utility model are: the downhole hydraulic slitting tool described in the embodiment of the utility model includes a mover, a resetter and a nozzle, and the whole has the characteristics of simple structure, convenient operation and maintenance, through The hydraulic drive device drives the mover to move down, and drives the nozzle to move down, so that the nozzle can perforate and fracture the coal seam at a specified depth through high-pressure hydraulic action, so that many artificial cracks appear in the original coal seam, forming coalbed gas gushing channels, Increase the air permeability of the coal seam, so that when the gas is pumped in the well, a large area of pressure drops around the well hole, which increases the surface area for the gas desorption of the coal seam to ensure the rapid and relatively long-lasting release of the coal seam gas. The mover is reset by the return spring . Therefore, the tool described in the embodiment of the utility model has the advantages of simple and convenient construction, one-time completion of multi-layer slits, and the like.

Description of drawings

Fig. 1 is a sectional view of the overall structure of the downhole hydraulic slotting tool provided in the embodiment of the present invention;

Figure 2 is an enlarged view of A in Figure 1;

Fig. 3 is an enlarged view of B in Fig. 1 .

In the figure: 1 outer tube of mover, 2 inner tube of mover, 3 first sealing device, 4 sealing screw, 5 one-way valve, 6 second sealing device, 7 overflow valve, 8 hydraulic oil, 9 third sealing device , 10 resetter outer tube, 11 resetter inner tube, 12 return spring, 13 filter screen, 14 resetter lower joint, 15 nozzle, 16 nozzle, 17 oil injection hole, 18 restrictor hole, 19 jet hole, 20 return hole.

Detailed ways

In order to make the purpose, technical solutions and advantages of the present utility model clearer, the implementation of the present utility model will be further described in detail below in conjunction with the accompanying drawings.

As shown in Fig. 1, a kind of downhole hydraulic cutting tool described in the embodiment of the utility model includes a mover, a resetter and a nozzle 16 connected in sequence; And the outer tube 1 of the mover, the inner tube of the mover can slide relative to the outer tube of the mover through a hydraulic drive device; The inner tube 11 of the resetter is fixedly connected with the inner tube 2 of the mover, the outer tube 10 of the resetter is fixedly connected with the outer tube 1 of the mover, and the inner tube 11 of the resetter is at the center of the inner tube 2 of the mover. Driven, it can slide along the outer tube 10 of the reset device, and a return spring 12 is arranged between the inner tube 11 of the reset device and the outer tube 10 of the reset device, and the return spring 12 is used for the inner tube of the mover. 2 reset; the spray head 16 is fixedly connected with the inner pipe 11 of the reset device, and the spray head 16 is a hollow cylinder inside.

Furthermore, the hydraulic cavity in the entire tool needs to be specially sealed to prevent the loss of hydraulic oil and affect the normal working process of the tool. Specifically, as shown in FIG. 1, a first sealing device 3 and a second sealing device 6 are provided at the contact between the inner tube 2 of the mover and the outer tube 1 of the mover, and the outer tube 10 of the resetter is in contact with the outer tube 1 of the mover. A third sealing device 9 is provided at the contact position of the inner tubes 2 of the mover. In this example, the first sealing device 3 , the second sealing device 6 and the third sealing device 9 all adopt multi-stage combined sealing to maximize the sealing effect of the hydraulic chamber. In this example, three levels of sealing are used.

In this example, the combined sealing device is composed of a built-in and an outer preferably a nitrile sealing ring and a polytetrafluoroethylene sealing ring. Among them, polytetrachlorethylene has an extremely low coefficient of friction and good wear resistance, but poor elasticity. Nitrile rubber is very elastic. Therefore, fill the O-shaped sealing ring made of nitrile rubber in the sealing groove, and at the same time press the polytetrachlorethylene sealing ring on the O-shaped sealing ring, and contact the surface of the tool through the polytetrachloroethylene sealing ring, and the nitrile rubber will Increase the elastic force, so this sealing structure can withstand high pressure, and the friction is very small. In the embodiment of the utility model, many fissures extending far away appear in the coal seam through hydraulic fracturing, and a large area of pressure drops around the well hole when the well is pumped, so that the surface area of the gas desorption in the coal seam is increased, and the coal seam gas is guaranteed to be rapid. And the relatively long-lasting discharge can effectively improve the permeability of coal seams in coal mines.

Specifically, as shown in FIG. 1 , and also refer to FIG. 2 , in this example, the hydraulic drive device includes an upper hydraulic chamber and a lower hydraulic chamber formed by the inner tube 2 of the mover and the outer tube 1 of the mover. , are respectively arranged in the inner pipe 2 of the mover, and communicate with the restricting hole 18 and the return hole 20 of the upper hydraulic chamber and the lower hydraulic chamber, and are close to the restricting hole 18 of the lower hydraulic chamber An overflow valve 7 is provided, and a check valve 5 is provided near the return hole 20 of the upper hydraulic chamber. Wherein, both the upper hydraulic chamber and the lower hydraulic chamber are filled with hydraulic oil 8 . An oil injection hole 17 is provided on the outer tube 1 of the mover corresponding to the upper hydraulic chamber, which facilitates the injection of hydraulic oil 8 . A sealing screw 4 is installed on the oil filling hole 17 to realize sealing. Wherein, the restricting hole 18 is a fine hole, and the return hole 20 is a hole with a larger diameter (compared with the restricting hole 18).

As shown in FIG. 2 , the downward movement and upward reset action of the mover are realized by the restrictor hole 18 , the overflow valve 7 , the return hole 20 , and the one-way valve 5 . Flow limiting hole 18 is a micropore with a diameter of 0.25mm. An overflow valve 7 is installed on the bottom of flow limiting hole 18, and the valve is designed to open when the operating pressure is greater than or equal to a certain pressure. When the operating pressure is lower than this pressure, the force of the return spring 12 cannot be offset, the overflow valve 7 is also in the closed state, the hydraulic oil 8 cannot flow from the upper hydraulic chamber to the lower hydraulic chamber, and the inner tube 2 of the mover does not move. Fixed-point injection can ensure that the cutting depth meets the predetermined requirements.

Referring to Fig. 1, when the operating pressure is greater than the given pressure, the overflow valve 7 opens, and at the same time the pressure is greater than the force of the return spring 12, the pressure of the upper hydraulic chamber is greater than the pressure of the lower hydraulic chamber, and the hydraulic oil 8 passes through the flow limiting hole 18 from the upper The hydraulic chamber flows into the lower hydraulic chamber, and the inner tube 2 of the mover moves downward at a constant speed to ensure the cutting height and cutting quality. The backflow hole 20 is a hole with a larger diameter, and a check valve 5 is arranged above it. This valve is in a closed state when carrying out normal slitting operations. When the tool goes down to the maximum stroke or the slitting operation is completed, The hydraulic drive device starts to release pressure, and the pressure in the lower hydraulic chamber is greater than the pressure in the upper hydraulic chamber. At this time, the one-way valve 5 is opened, and the hydraulic oil 8 flows from the lower hydraulic chamber to the upper hydraulic chamber through the return hole 20. Under the action of the return spring 12 , the inner tube 11 of the reset device moves upward, and the tool resets. Then, the ground adjusts the nozzle 15 position by adjusting the depth of the oil pipe, and the nozzle 15 is adjusted to the next position to carry out the cutting operation, and the above work is repeated.

Specifically, in this example, as shown in FIG. 1 , trapezoidal thread connections are used for the fixed connections between the pipes to ensure airtightness.

Specifically, as shown in FIG. 3 , the nozzles 15 are arranged symmetrically in the radial direction of the spray head 16 , and the number of nozzles 15 may be one or more according to actual conditions. The nozzle 15 includes a jet hole 19, the surface of which is specially hardened, and the jet hole 19 is divided into three sections, including a tapered constriction section at the front end, a cylindrical section in the middle and an expansion section at the rear end. Among them, the contraction section can make the jet flow change smoothly and reduce energy loss; the cylindrical section can stabilize the jet flow and improve the jet flow efficiency; the expansion section can stabilize the formed jet flow.

As shown in FIG. 3 , the structure of two nozzles 15 arranged symmetrically along the radial direction of the spray head 16 ensures the balance of the jet flow. When the high-pressure sanding water flows into the nozzle 15, since the lower part of the nozzle 15 is sealed by a steel ball (not shown in the figure), the water flow can only be ejected from the nozzles 15 on both sides of the nozzle 16, forming two opposite high-pressure water streams. Jet flow, high-speed water jet enters the perforation channels and fractures, making the cracks expand and extend, increasing the gas permeability of the coal seam, so that the pressure around the well hole decreases when the gas is pumped in the well, and the surface area for gas desorption in the coal seam increases, ensuring that the coal seam gas Rapid and relatively long-lasting release.

Further, the spray head 16 and the nozzle 15 are provided integrally or separately. In this example, the separate configuration is adopted, which makes the parts easy to process, easy to replace and maintain.

In the process of realizing the utility model, the inventors found that the cutting fluid is a sand-containing liquid, and the gravel deposition may scratch the contact surface of the tool, and at the same time, it may be stuck on the moving part of the tool, so that the tool cannot be cut normally. operation, so the filter screen 13 should be secured at the more sensitive parts to reduce the occurrence of stuck and scratched phenomena caused by the deposition of quartz sand or rock formation debris. As shown in Figure 1, in this embodiment, the structure that the lower end joint 14 of the reset device is arranged between the outer tube 10 of the reset device and the nozzle 15 is adopted, and the lower end joint 14 of the reset device is provided near the return spring 12. Filter screen 13 is arranged. Wherein, the lower end joint 14 of the reset device is fixedly connected with the outer tube 10 of the reset device. In this example, the fixed connection is preferably a trapezoidal screw connection.

The installation process of the utility model embodiment:

When the tool is assembled, it is first necessary to clean each mating surface of the tool, and assemble after confirming that it is cleaned. The entire installation process should be carried out in a relatively clean environment to prevent debris from adhering to the tools during the assembly process.

Referring to Fig. 1, after the tool is assembled, the hydraulic oil 8 is injected through the oil filling hole 17 of the outer tube 1 of the mover, and the oil filling hole 17 is sealed with the sealing screw 4 after being filled. In addition to requiring moderate viscosity, the hydraulic oil 8 also requires a high degree of cleanliness, so as to prevent dirt from accumulating and blocking the restrictor hole 18, so that the tool cannot go down. Will check whether the hydraulic oil 8 in the hydraulic chamber is full before carrying out downhole operation at every turn, and filling hydraulic oil 8 in time guarantees that there is sufficient hydraulic oil 8 in the oil chamber.

Referring to Figure 1, run the sand washing string, replace the drilling fluid in the wellbore with clean water and wash the sand to the bottom of the artificial well. Use the high-pressure tubing to run the sandblasting and slotting tools such as the coupling detector, the downhole slotting tool, and the hydraulic centralizer. Go down to the predetermined depth, turn on the pump with clean water, and find the coupling. After the coupling position is determined, check the slotting position again. To throw the ball, inject clean water into the ground pipeline with the fracturing crew, and start adding sand when the displacement reaches the designed displacement, and the sand ratio is kept at 7%-9%. Keep the pressure in the oil pipe slightly lower than the opening pressure of the overflow valve 7, and the fixed-point injection time should be properly controlled according to the hardness of the bottom layer. Increase the flow rate so that the pressure in the oil pipe increases to above the opening pressure of the relief valve 7, the relief valve 7 opens, the inner pipe 2 of the mover drives the inner pipe 11 of the resetter to go down, the pressure is maintained for a certain period of time, and the flow rate is reduced so that The pressure in the pipe column is slightly lower than the opening pressure of the overflow valve 7, at this moment the mover stops moving, and the fixed-point injection is performed again, and the injection time can be slightly shorter than the first fixed-point injection time. Stop ground water injection, and tool mover resets under back-moving spring 12 effects. Adjust the position of the nozzle 15 by adjusting the depth of the oil pipe on the ground, adjust the nozzle 15 to the next position where the slotting operation is to be performed, repeat the fixed-point injection and the downward movement of the mover until the tool goes down to the maximum stroke or reaches the required slotting height, Complete the cutting work.

On the whole, the tool described in the embodiment of the utility model is simple and compact in structure, easy to use and maintain, reliable and safe to work, and easy to process and manufacture because there are no complicated parts. The mover and resetter of the tool described in the embodiment of the utility model adopt hydraulic control and spring control respectively, which greatly improves the precision of tool operation and improves the stability of tool movement. During the normal jet operation of the tool, the pressure fluctuation range is wide, and the requirements for ground control equipment are greatly reduced. At the same time, the slotting operation of the tool can theoretically achieve fixed-point spraying operations at any position, which plays a vital role in ensuring the quality of the slotting. The reset of the tool is realized by the return spring, and the one-way valve in the hydraulic chamber controls the hydraulic oil to flow from the upper hydraulic chamber to the lower hydraulic chamber when the ground stops water injection. Through the simple pressure control on the ground, the operation of the whole cutting process is quite simple, and the requirements for equipment are relatively simple.

The above descriptions are only preferred embodiments of the present utility model, and are not intended to limit the present utility model. Any modifications, equivalent replacements, improvements, etc. made within the spirit and principles of the present utility model shall be included in this utility model. within the scope of protection of utility models.

Claims (4)

1. A downhole hydraulic slotting tool is characterized in that, said tool comprises a mover, resetter and shower nozzle connected in sequence; The mover includes a mover inner tube and a mover outer tube connected inside and outside, and the mover inner tube can slide relative to the mover outer tube through a hydraulic drive device; The resetter includes an inner tube of the resetter and an outer tube of the resetter connected inside and outside, the inner tube of the resetter is fixedly connected with the inner tube of the mover, and the outer tube of the resetter is fixedly connected with the outer tube of the mover , the inner tube of the reset device can slide along the outer tube of the reset device under the drive of the inner tube of the mover, and a return spring is arranged between the inner tube of the reset device and the outer tube of the reset device. The return spring is used for the reset of the inner tube of the mover; Sealing devices are respectively provided at the contact points between the inner tube of the mover and the outer tube of the mover, and at the contact points between the outer tube of the resetter and the inner tube of the mover, and the nozzle is fixed to the inner tube of the resetter connected, the spray head is a hollow cylinder. 2. The downhole hydraulic slotting tool according to claim 1, wherein the hydraulic drive device comprises an upper hydraulic cavity and a lower hydraulic cavity formed by the inner tube of the mover and the outer tube of the mover, respectively It is arranged in the inner pipe of the mover and communicates with the flow restriction hole and the flow return hole of the upper hydraulic chamber and the lower hydraulic chamber, and a relief valve is arranged near the flow restriction hole of the lower hydraulic chamber. The return hole of the upper hydraulic chamber is provided with a check valve, and the outer tube of the mover corresponding to the upper hydraulic chamber is provided with an oil injection hole, and a sealing screw is installed on the oil injection hole, and the upper hydraulic pressure Both the chamber and the lower hydraulic chamber are filled with hydraulic oil, wherein the flow-restricting hole is a fine hole, and the return hole is a hole with a larger diameter. 3. The downhole hydraulic slotting tool according to claim 1 or 2, wherein the nozzles are arranged symmetrically in the radial direction of the spray head, the nozzles include jet holes, and the jet holes are divided into three sections , a tapered contraction section at the front end, a cylindrical section in the middle and an expansion section at the rear end. 4. The downhole hydraulic slotting tool as claimed in claim 3, characterized in that, a resetter lower end joint is set between the resetter outer pipe and the nozzle, and the resetter lower end joint and the resetter outer pipe It is fixedly connected, and the lower end joint of the reset device is provided with a filter net near the return spring. the

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