RU1800013C - Device for performance of round trips of downhole instruments - Google Patents

Abstract

Usage: a technique for servicing pressurized oil and gas wells with instruments and tools lowered on a geophysical cable. The goal is to increase performance by automatically opening traps before lowering the cable. SUMMARY OF THE INVENTION: In a device for lowering and raising downhole tools, the drive of the trap 23 of the lubricator 17 is made in the form of a hydraulic cylinder 25 with a piston 26 spring-loaded towards the closing side of the trap 23 and installed in a hydraulic line connecting through the holes in the body of the hydraulic cylinder 25, a hydraulic line being cable descent 16, and a brake control valve for the brake cylinder 9. The hole in the housing on the side of the valve with the closed position of the trap 23 is blocked by the piston 26. The stiffness of the springs 29 of the hydraulic cylinder 25 of the trap 23 is less than the stiffness of the springs 7 of the hydraulic cylinder 9 of the brake. 2 ill. 4j w fe

Description

The invention relates to techniques for oil and gas production, in particular to processes for servicing oil and gas wells under pressure, instruments and tools lowered on a geophysical cable.

An object of the invention is to increase operational performance by automatically opening the trap before lowering the cable.

This goal is achieved by the fact that in a device for lowering and lifting downhole tools, containing a base on which a tripping mechanism is mounted with a drive, a geophysical cable, a brake pivotally connected to the hydraulic cylinder rod, spring-loaded to the side of braking, mounted on wellhead, a lubricator containing a trap with a drive made in the form of a hydraulic cylinder, and a hydraulic system containing a hydraulic pump connected by two hydraulic lines and a hydraulic drive motor for a hoisting mechanism, parallel With which the brake control valve is installed, the trap hydraulic cylinder is made with a piston spring-loaded towards its closing side and is installed in the hydraulic line connecting through the openings in the hydraulic cylinder body, which is the pressure valve when lowering the cable, and the brake hydraulic control valve, with an opening in the housing with the sides of the hydraulic line are located under the piston on the other side of the spring, and the hole on the side of the control valve when the trap is closed It is covered by a piston, while the spring stiffness of the trap hydraulic cylinder is less than the spring stiffness of the brake hydraulic cylinder.

In Fig, 1 presents the proposed device; in FIG. 2 is a hydraulic diagram of a device.

A device for lowering and lifting downhole tools, comprises a vehicle 1 (see Fig. 1) with a base 2. On the base 2, a trigger-3 mechanism with a drive 4, a drum 5 and a brake made in the form of a brake band b is installed, one horse1., which is rigidly connected to the base 2, and the other pivotally connected to the spring-loaded spring 7 by the rod 8 of the hydraulic cylinder 9, pivotally mounted on the base 2. In addition, on the base 2 are mounted front 10 and rear 11 of the mast support 12, which is connected connected with the rear support 11. On the rear support 11 on the bracket On day 13 a retractor roller 14 is installed, and a guide rail is installed on the mast 12

roller 15. A geophysical cable 16 is wound on the drum 5, passing through a drain 14, guiding 15 rollers and entering the lubricator 17, installed

5 at the wellhead 18 with a valve 19 through the adapter pipe 20. The lubricator 17 consists of a seal 21, receiving sections 22, a trap 23 and a preventer 24. The trap 23 is driven in the form of a hydraulic cylinder

0 25, the piston 26 of which is pivotally coupled to a lever 27, allowing the trap 23 to be set to the open or closed position. The hydraulic cylinder 25 is pivotally connected to an arm 28 rigidly connected to the trap 23. The piston 26 is spring-loaded with a spring 29, the rigidity of which is less than the stiffness of the spring 7, in the direction of closing the trap 23. The hydraulic drive of the device for lowering and lifting downhole tools (see

0 FIG. 2) consists of a hydraulic pump 30 and a hydraulic motor 31 of the actuator 4 of the trigger mechanism 3. The hydraulic motor 31 is connected by hydraulic lines 32 and 33 to the hydraulic lines 34 and 35, and the hydraulic pump 30 is also connected to

5 with hydraulic lines 34 and 35, respectively, with hydraulic lines 36 and 37. Parallel to hydraulic pump 30 and hydraulic motor 31, a normally open hydraulic control valve 38 with hydraulic control, safety valves 39 and 40 are installed. Hydraulic control valve 38 is connected to hydraulic lines 34 and 35, respectively, with hydraulic lines 41 and 42 Relief valve 39 is associated with hydraulic lines 34 and 35, respectively.

5 by hydraulic lines 43 and 44. The safety valve 40 is connected to the hydraulic lines 34 and 35, respectively, by the hydraulic lines 45 and 46. Moreover, the safety valve 39 is arranged with the possibility of skipping the working

0 fluid to the hydraulic line 35, and the safety valve 40 to the hydraulic line 34. On the one hand, the hydraulic line 34 goes to the hole 47 in the housing 48 of the hydraulic cylinder 25, and on the other hand to the check valve 49. The hydraulic line 35, in turn, on the one the side approaches the control valve 50 for controlling the hydraulic cylinder 9, and on the other hand, to the check valve 51. Moreover, the check valves

50 valves 49 and 51 are located with the possibility of passage of the working fluid, respectively, to the hydraulic lines m 34 and 35.

Check valves 49 and 51 are interconnected by a hydraulic line 52, which, in its

55 turn; a hydraulic line 53 is connected to a hydraulic feed pump 54. The pump 54 along the hydraulic line 55 takes the working fluid from the hydraulic tank 56. The second hole 57 in the housing 48 of the hydraulic cylinder 25, blocked by the piston 26 under the action of the spring 29,

the hydraulic line 58 is connected to the hydraulic control valve 50, the hydraulic control lines 59 and 60 of which are respectively connected to the hydraulic lines 58 and 35. The hydraulic control valve 50 is connected to the rodless cavity of the hydraulic cylinder 9 by the hydraulic line 61, which in turn is connected to the hydraulic line 62 through Normally closed directional control valve 63, with hydraulic line 64 connected to hydraulic tank 56.

The highway 34 is pressure when lowering the cable 16, and the highway 35 is pressure when lifting the cable 16. The lever 27 is rigidly connected to the bar 65 mounted inside the housing 66 of the trap 23 with the possibility of rotation around the axis 67 of the lever 27. In the bar 65 there is a groove 68, the width of which is greater than the diameter of the cable 16, but less than the diameter of the geophysical instrument (not shown in FIG.).

A device for lowering and lifting well tools operates as follows.

The base 2 is transported by vehicle 1 to the wellhead 18. The mast 12 rises from the front support 10 and is mounted on the rear support 11. The geophysical cable 16 is threaded through the seal 21, then the head of the device is closed, the device and weights are fastened (not shown). shown). Then the device and weights are threaded into the receiving sections 22. After this, the seal 21, the receiving sections 22, traps 23, the preventer 24 and the lubricator are mounted on the adapter pipe 20.

After that, turn on the hydraulic pump 30 to the position corresponding to the descent of the cable and the recharge pump 54. In this case, the working fluid from the hydraulic tank 56 by hydrolysis 55 by the pump 54 via hydraulic lines 53 and 52 is supplied to the non-return valves 49 and 51. Since during the lowering of the cable 16 the hydraulic line 34 is pressure, the working fluid through the check valve 51 will enter the hydraulic pipe 35, compensating for leaks in the hydraulic pump 30 and the hydraulic motor 31 ..

Since the valve 38 is normally open, the working fluid will circulate along the line: hydraulic pump 30, hydraulic line 36, hydraulic line 34, hydraulic line 41, hydraulic valve 38, hydraulic line 42, hydraulic line 35, hydraulic line 37 and pump 30.

Then open the valve 19, the preventer 24 and at the same time turn on the control valves 38 and 63. In this case, the working fluid from the pump 30 along the hydraulic line 36, hydraulic line 34, through the hole 47 in the housing 48 will enter the rodless cavity

the hydraulic cylinder 25. Under the action of the working fluid, the piston 26, compressing the spring 29, will move together with the rodless cavity of the hydraulic cylinder 25 with the hole 57.

Since the housing 48 of the hydraulic cylinder 25 is pivotally connected to the bracket 28, rigidly connected to the trap 23, and the piston 26 is also pivotally connected to the lever 27, the latter will rotate about the axis 67 and will rotate with it a bar 65 located inside the housing 66 of the trap 23. This will free up space for the passage of the device and cargo - the trap 23 is open ..

Next, the working fluid from the hole 57 in the housing 48 through the hydraulic line 58 will go to the control line 59 and the control valve 50, which, switching, will connect the hydraulic line 58 to the hydraulic line 61, through which the working fluid enters the rodless cavity of the cylinder 9, while the spring 7 is compressed by the rod 8 , which in turn squeezes the brake tape 6 from the drum 5.

Since the stiffness of the spring 7 of the hydraulic cylinder 9 is greater than the stiffness of the spring 29 of the hydraulic cylinder 25, the possibility of closing the traps 23 when lowering the cable 16 is excluded. when the brake 6 is released, the trap 23 will always be open when the cable 16 is released.

After the hydraulic cylinder 9 of the brake 6 has been activated, the rotation of the shaft of the hydraulic motor 31 of the drive 4 of the lowering and lifting mechanism 3 will begin. The cable from the drum 5 will be lowered into the well through the guide roller 14 through the guide roller 15. In the event of an increase in pressure during the descent, the safety valve 39 will relieve the excess pressure by passing the working fluid through the hydraulic line 34 through the hydraulic line 44 through the hydraulic line 44. When the device reaches the required depth, the control valves 38 and 63 are turned on. In this case, the pressure in the hydraulic pipe 34 drops due to its connection through a hydraulic line 41, a control valve 38 and a hydraulic line 42 with a hydraulic line 35, which, when the hydraulic pump 30 was in the descent mode, was drained. At the same time, the pressure in the hydraulic line 58 and in the hydraulic control line 59 will drop. In this case, under the action of the spring 29, the piston 26 will turn the lever 27 together with the bar 65 relative to the axis 67 to the initial position, respectively. which is in the closed position of the trap 23, and the control valve 50 will take a neutral position. At the same time, the worker

the fluid from the rodless cavity of the hydraulic cylinder 9 through the hydraulic lines 61 and 62 through the valve 63 along the hydraulic line 64 will enter the hydraulic tank 56 and, under the action of the spring 7, the rod 8 will press the brake line 6 to the drum 5. Thus, when the trigger 3 stops after the descent, the trap closes 23.. To lift the device with the cable from the well, switch the hydraulic pump 30 to the lifting mode, while the hydraulic line 35 will be the injection one, and the hydraulic line 34 will be the discharge one. The control valves 38 and 63 are turned on. In this case, the working fluid from the hydraulic pump 30 along the hydraulic line 37 along the hydraulic line 35 will go to the hydraulic distributor 50 and control lines 60, the control valve 50 will switch and the working fluid from the hydraulic line 35 through the control valve 50 through the hydraulic line 61 will enter the rodless cavity of the hydraulic cylinder 9. The rod 8 will release spring 7 and release 6. Thereafter, the brake hydraulic fluid from gidromagistrali 35 by hydraulic lines 33 go to the hydraulic motor 31, and from there on to the hydraulic line 32 gidromagistrali 34 which during lifting of the cable 16 is the drain. The rotation of the drum 5 will begin. Since the hydraulic line 34 is a drain when rising, the pressure of the working fluid in the rodless cavity of the hydraulic cylinder 25 will be equal to the drain pressure. In this case, the spring 29 will not compress, the piston 26 will be in a position in which the trap 23 will be closed. In the event of an increase in pressure during lifting, the safety valve 40 will relieve excess pressure by passing the working fluid through the hydraulic line 34 through the hydraulic line 45 from the hydraulic line 35 and the hydraulic line 46.

When the device approaches the trap 23, it will not pass through groove 68, since its diameter is larger than the width of groove 68. The device will turn the bar 65 relative to axis 67,

the piston 26 will compress the spring 29 and the trap 23 will open. After the device and weights pass through the trap 23 into the receiving sections 22, the bar 65 will return to the position corresponding to the closed position of the trap 23 under the action of the spring 29.

Then the control valves 38 and 63 are turned off. The trigger 3 will stop. In this case, the direction of movement of the working fluid will be similar to the pressure of the working fluid when the trigger is stopped after the trigger.

Dismantling the device is carried out in the reverse order to installation.

Based on the foregoing, it can be concluded that the execution of the trap hydraulic cylinder with the piston spring-loaded towards its closing and the installation of the hydraulic cylinder in the hydraulic line connecting the hydraulic line, which is pressure when the cables are released and the brake control valve with the possibility of connecting them when the trap is open, as well as the execution of the trap hydraulic cylinder spring less rigid compared to the spring

brake cylinder allows for exclusion. read the twisting of the cable in the trap and in the receiving sections at the beginning of the descent, because in: this device, before the descent of the instrument in the well, the trap will always be

is open.

Thus, the device has higher performance due to the automatic opening of the trap before lowering the cable,

Claims (1)

. The claims A device for lowering and lifting downhole tools, comprising a base on which a tripping mechanism is installed with a drive, a geophysical cable and a brake pivotally connected to the hydraulic cylinder rod spring-loaded to the side of braking, a lubricator mounted at the wellhead containing a trap with a drive made in the form of a hydraulic cylinder, and a hydraulic system containing a hydraulic pump connected to two hydraulic lines and a hydraulic motor for the drive of a lifting and lifting mechanism, in parallel with which a hydraulic distribution valve is installed an actuator for controlling the brake hydraulic cylinder, characterized in that, in order to increase operational characteristics due to the automatic opening of the trap before lowering the cable, the hydraulic cylinder of the trap is made with a piston spring-loaded towards its closing and is installed in a hydraulic line connecting through a hole in the hydraulic cylinder body a hydraulic highway, which is pressure with cable descent, and a brake control valve for the brake cylinder, the hole in the housing on the side of the hydraulic line is located under the piston on the back of the spring, and the hole with the valve side when the trap is closed is blocked by a piston, while the spring stiffness of the trap hydraulic cylinder is less than the spring stiffness of the brake hydraulic cylinder.