CN104913880B - A bridge-type concentric water distributor performance testing device - Google Patents

Abstract

The invention provides a performance detection device for a bridge type concentric water distributor, which comprises a sleeve, wherein the lower end of the sleeve is connected with a blind sleeve plug, the upper end of the sleeve is connected with an upper connector, the upper end of the upper connector is connected with a support table, the top end of the support table is connected with a torquemeter, a concentric testing and adjusting instrument is arranged in the sleeve, and a connecting rod at the top end of the concentric testing and adjusting instrument penetrates through the upper connector to be connected with the torquemeter; a supporting bearing is arranged between the upper joint and the supporting platform, an upper bearing is arranged between the connecting rod and the upper joint, and a lower bearing is arranged between the connecting rod and the upper joint; the side wall of the upper joint is provided with an inner pressure interface, and the side wall of the lower end of the sleeve is provided with an outer pressure interface. The performance detection device for the bridge concentric water distributor can be used for rapidly detecting the internal pressure bearing and external pressure bearing tightness of the bridge concentric water distributor, detecting the torque of the bridge concentric water distributor and the like under the conditions of normal pressure and pressure, is simple and convenient in test process, can simulate the performance detection process of the underground actual pressure environment, ensures the truth and reliability of test results, and is low in test cost.

Description

A bridge-type concentric water distributor performance testing device

technical field

The invention belongs to the technical field of oilfield water injection, and in particular relates to a bridge-type concentric water distributor performance detection device.

Background technique

In recent years, through the continuous improvement of the separate injection process, some domestic oilfields have carried out bridge-type concentric separate injection process tests, and gradually popularized and applied it. The success rate and efficiency of separate injection measurement and adjustment have been significantly improved, and better separate injection results have been achieved. The bridge-type concentric water distributor is the key downhole water injection tool of this process and the basis for the implementation of water injection technology. Its quality and performance play a decisive role in the development of water injection technology. At present, the performance testing of bridge-type concentric water distributors all use general-purpose downhole tool testing devices. The test process of water distributor sealing and pressure torque is complicated to operate, the test results have large errors, and the test costs are high.

Contents of the invention

The purpose of the present invention is to solve the problems of complex operation process, large test result error and high test cost of the existing performance test device applied to the bridge-type concentric water distributor.

For this reason, the present invention provides a bridge-type concentric water distributor performance detection device, which includes a sleeve, the lower end of the inner wall of the sleeve is connected with a sleeve blind plug, the upper end of the inner wall of the sleeve is connected with an upper joint, and the upper end of the outer wall of the upper joint is Connected with a support platform, the top of the support platform is connected with a torque meter with a screw thread, a concentric measuring and adjusting instrument is arranged in the casing, and the connecting rod at the top of the concentric measuring and adjusting instrument passes through the upper joint to connect with the torque meter;

A support bearing sleeved on the outer wall of the top end of the upper joint is provided between the upper joint and the support platform, and an upper bearing sleeved on the connecting rod is provided between the connecting rod of the concentric measuring and adjusting instrument and the top outer surface of the upper joint. There is a lower bearing sleeved on the connecting rod between the inner surface of the top joint and the upper joint;

The side wall of the upper joint is provided with an internal pressure interface which can be connected with the pressure test pump, and the side wall of the lower end of the casing is provided with an external pressure interface which can be connected with the pressure test pump.

The casing is provided with an oil pipe coaxial with the casing, and the bottom end of the oil pipe is connected with an oil pipe blind plug.

The internal pressure interface is arranged between the top end of the casing and the bottom end of the support platform, and the external pressure interface is arranged between the oil pipe blind plug and the casing blind plug.

The side wall of the upper joint is provided with a first channel, the central axis of the first channel is perpendicular to the central axis of the upper joint, one end of the first channel communicates with the hollow cavity of the upper joint, and the other end communicates with an internal pressure port;

A second channel is opened on the side wall of the lower end of the sleeve. The centerline axis of the second channel is perpendicular to the central axis of the sleeve. One end of the second channel communicates with the central cavity of the sleeve, and the other end communicates with the external pressure port.

A protrusion is arranged at the center of the bottom end of the torque meter, and the protrusion is located in the hollow cavity of the supporting platform, and the protrusion is connected with the connecting rod of the concentric measuring and adjusting instrument.

The torque meter, the protrusion, the supporting platform, the measuring and adjusting instrument, and the casing are all arranged coaxially.

Beneficial effects of the present invention: The bridge-type concentric water distributor performance detection device provided by the present invention can quickly detect the sealing performance of the bridge-type concentric water distributor under internal pressure and external pressure. The test process is simple and convenient, and it can simulate the performance test process of the actual pressured environment in the well to ensure the authenticity and reliability of the test results and the test cost is low.

The present invention will be described in further detail below in conjunction with the accompanying drawings.

Description of drawings

Fig. 1 is a structural schematic diagram of a bridge-type concentric water distributor performance testing device.

Fig. 2 is a partially enlarged view of A in Fig. 1 .

Fig. 3 is a partially enlarged view of B in Fig. 1 .

Explanation of reference signs: 1, torque meter; 101, protrusion; 2, support platform; 3, support bearing; 4, upper bearing; 5, lower bearing, 6, upper joint; 7, internal pressure interface; 8, casing ;9. External pressure interface; 10. Concentric measuring and adjusting instrument; 11. Casing blind plugging; 12. Bridge concentric water distributor; 13. Oil pipe blind plugging; 14. Connecting rod; 15. First channel; 16. Two channels; 17, oil pipe.

detailed description

The detailed description of the bridge-type concentric water distributor performance detection device will be further described below in conjunction with the accompanying drawings.

Example 1:

As shown in Figure 1, the present invention provides a bridge-type concentric water distributor 12 performance testing device, including a casing 8, the lower end of the inner wall of the casing 8 is connected with a casing blind plug 11, and the upper end of the inner wall of the casing 8 is connected with a The upper joint 6, the upper end of the outer wall of the upper joint 6 is connected with the support platform 2, the top screw of the support platform 2 is connected with the torque meter 1, the casing 8 is provided with a concentric measuring and adjusting instrument 10, and the connecting rod at the top of the concentric measuring and adjusting instrument 10 14 is connected to the torque meter 1 through the upper joint 6; between the upper joint 6 and the support platform 2, there is a supporting bearing 3 sleeved on the outer wall of the top end of the upper joint 6, and the connecting rod 14 of the concentric measuring and adjusting instrument 10 and the upper joint 6 An upper bearing 4 sleeved on the connecting rod 14 is provided between the outer surface of the top, and a lower bearing 5 sleeved on the connecting rod 14 is provided between the connecting rod 14 and the top inner surface of the upper joint 6; the side of the upper joint 6 The wall is provided with an internal pressure interface 7 which can be connected with a pressure test pump, and the lower end side wall of the casing 8 is provided with an external pressure interface 9 which can be connected with a pressure test pump.

The torque meter 1 drives the concentric measuring and adjusting instrument 10 to rotate to realize the measuring and adjusting torque test, as follows,

(1) Sealing performance test of bridge concentric water distributor:

Close the movable nozzle of the bridge-type concentric water distributor 12 to be tested, connect the pressure test pump to the internal pressure port 7 through a high-pressure hose, start the pressure test pump, gradually increase the pressure to 5MPa, 10MPa, 15MPa and 20MPa, and stabilize the pressure at regular intervals , the external pressure interface 9 does not leak as qualified.

The pressure test pump stops boosting, and after reducing the system pressure to 0MPa, connect the high-pressure hose to the external pressure port 9, start the pressure test pump, gradually increase the pressure to 5MPa, 10MPa, 15MPa and 20MPa, and stabilize the pressure at regular intervals, and the internal pressure port 7 No leakage is qualified.

(2) Torque test of bridge concentric water distributor under pressure:

After closing the active taps of the bridge-type concentric water distributor 12 to be tested, the normal pressure torque test: start the torque meter 1, and the torque meter 1 drives the concentric measuring and adjusting device 10 to perform the process of opening and closing the water nozzles of the bridge-type concentric water distributor 12, and the torque meter 1 Record the torque value when opening and closing the faucet;

Connect the pressure test pump to the internal pressure port 7 of the test device with a high-pressure hose, start the pressure test pump, gradually increase the pressure to 5MPa, 10MPa, 15MPa and 20MPa, and stabilize the pressure regularly without leakage. Start the torque meter 1, and the torque meter 1 drives the analog concentric measuring and adjusting device 10 to perform the process of switching the water nozzle of the bridge-type concentric water distributor 12, and the torque meter 1 records the torque value when the water nozzle is turned on and off.

Connect the two pressure test pumps to the internal pressure port 7 and the external pressure port 9 respectively with high-pressure hoses, start the pressure test pump, the internal pressure gradually increases to 20MPa, and the external pressure gradually increases to 18MPa, and the pressure is stabilized at regular intervals without pressure drop or The phenomenon of rising, and then start the torque meter 1, the torque meter 1 drives the concentric measuring and adjusting device 10 to perform the process of switching the water nozzle of the bridge concentric water distributor 12, and the torque meter 1 records the torque value when the water nozzle is opened and closed.

The bridge-type concentric water distributor performance detection device provided by the invention can quickly detect the sealing performance of the bridge-type concentric water distributor under internal pressure and external pressure, and the torque of the bridge-type concentric water distributor under normal pressure and pressure conditions. Testing, etc. The testing process is simple and convenient, and can simulate the performance testing process of the actual downhole pressure environment to ensure the authenticity and reliability of the test results, and the test cost is low.

Example 2:

On the basis of Embodiment 1, in order to enable the bridge-type concentric water distributor 12 performance detection device to accurately realize the performance detection of the bridge-type concentric water distributor 12, the sleeve 8 is provided with a coaxial Oil pipe 17, the bottom end of oil pipe 17 is connected with oil pipe blind plug 13. The internal pressure port 7 is set between the top end of the casing 8 and the bottom end of the support platform 2 , and the external pressure port 9 is set between the oil pipe blind plug 13 and the casing blind plug 11 .

Therefore, under the above conditions, the detailed process of the bridge-type concentric water distributor 12 performance detection device to achieve performance detection is as follows,

(1) Sealing performance test of bridge concentric water distributor:

Close the movable faucet of the bridge-type concentric water distributor 12 to be tested, connect the oil pipe blind plug 13 at the lower end of the oil pipe 17, and connect the upper end of the concentric measuring and adjusting instrument 10 with the upper joint 6 of the testing device. Connect the pressure test pump to the internal pressure interface 7 through a high-pressure hose, start the pressure test pump, gradually increase the pressure to 5MPa, 10MPa, 15MPa and 20MPa, stabilize the pressure regularly, and the external pressure interface 9 does not leak.

The pressure test pump stops boosting, and after reducing the system pressure to 0MPa, connect the high-pressure hose to the external pressure port 9, start the pressure test pump, gradually increase the pressure to 5MPa, 10MPa, 15MPa and 20MPa, and stabilize the pressure at regular intervals, and the internal pressure port 7 No leakage is qualified.

(2) Torque test of bridge concentric water distributor under pressure:

After closing the movable nozzle of the bridge-type concentric water distributor 12 to be tested, the lower end of the oil pipe 17 is connected to the blind plug 13 of the oil pipe, and the upper end of the concentric measuring and adjusting instrument 10 is connected to the upper joint 6 of the test device. Atmospheric pressure torque test: start the torque meter 1, and the torque meter 1 drives the concentric measuring and adjusting device 10 to perform the process of opening and closing the water nozzle of the bridge-type concentric water distributor 12, and the torque meter 1 records the torque value when the water nozzle is opened and closed;

Connect the pressure test pump to the internal pressure port 7 of the test device with a high-pressure hose, start the pressure test pump, gradually increase the pressure to 5MPa, 10MPa, 15MPa and 20MPa, and stabilize the pressure regularly without leakage. Start the torque meter 1, and the torque meter 1 drives the analog concentric measuring and adjusting device 10 to perform the process of switching the water nozzle of the bridge-type concentric water distributor 12, and the torque meter 1 records the torque value when the water nozzle is turned on and off.

Connect the two pressure test pumps to the internal pressure port 7 and the external pressure port 9 respectively with high-pressure hoses, start the pressure test pump, the internal pressure gradually increases to 20MPa, and the external pressure gradually increases to 18MPa, and the pressure is stabilized at regular intervals without pressure drop or The phenomenon of rising, and then start the torque meter 1, the torque meter 1 drives the concentric measuring and adjusting device 10 to perform the process of switching the water nozzle of the bridge concentric water distributor 12, and the torque meter 1 records the torque value when the water nozzle is opened and closed.

Example 3:

On the basis of Embodiment 1 or Embodiment 2, in order to connect the internal pressure port 7 and the external pressure port 9 to the pressure test pump, the performance test under pressure increase or decrease can be realized smoothly and accurately, as shown in Figure 2 and Figure 2. 3, the side wall of the upper joint 6 is provided with a first channel 15, the central axis of the first channel 15 is perpendicular to the central axis of the upper joint 6, and one end of the first channel 15 communicates with the hollow cavity of the upper joint 6, and in addition One end communicates with the internal pressure port 7; the lower side wall of the casing 8 is provided with a second channel 16, the centerline axis of the second channel 16 is perpendicular to the central axis of the casing 8, and one end of the second channel 16 is connected to the center of the casing 8. The cavity is connected, and the other end is connected with the external pressure port 9.

Embodiment 4:

On the basis of Embodiment 1, the specific connection between the concentric measuring and adjusting instrument 10 and the torque meter 1 is as follows, the center of the bottom end of the torque meter 1 is provided with a protrusion 101, and the protrusion 101 is located in the hollow cavity of the support platform 2, And the protrusion 101 is connected with the connecting rod 14 of the concentric measuring and adjusting instrument 10 .

Example 5:

On the basis of Embodiment 4, it should be noted that the torque meter 1 , the protrusion 101 , the support platform 2 , the concentric measuring and adjusting instrument 10 , and the bushing 8 are all arranged coaxially.

The bridge-type concentric water distributor performance detection device provided by the invention can quickly detect the sealing performance of the bridge-type concentric water distributor under internal pressure and external pressure, and the torque of the bridge-type concentric water distributor under normal pressure and pressure conditions. Testing, etc. The testing process is simple and convenient, and can simulate the performance testing process of the actual downhole pressure environment to ensure the authenticity and reliability of the test results, and the test cost is low.

The above examples are only illustrations of the present invention, and do not constitute a limitation to the protection scope of the present invention. All designs that are the same as or similar to the present invention fall within the protection scope of the present invention. The components and structures not described in detail in this embodiment are known components and common structures or common means in this industry, and are not described here one by one.

Claims (6)

1. A bridge-type concentric water distributor performance testing device, including a casing (8), the lower end of the inner wall of the casing (8) is connected with a casing blind plug (11), characterized in that: the inner wall of the casing (8) The upper end is connected with the upper joint (6), the upper end of the outer wall of the upper joint (6) is connected with the support platform (2), the top screw of the support platform (2) is connected with the torque meter (1), and the casing (8) is equipped with The concentric measuring and adjusting instrument (10), the connecting rod (14) at the top of the concentric measuring and adjusting instrument (10) passes through the upper joint (6) and connects with the torque meter (1); Between the upper joint (6) and the support platform (2) there is a supporting bearing (3) sleeved on the outer wall of the top end of the upper joint (6), the connecting rod (14) of the concentric measuring and adjusting instrument (10) and the upper joint ( 6) There is an upper bearing (4) sleeved on the connecting rod (14) between the top outer surface, and a sleeve sleeved on the connecting rod (14) between the connecting rod (14) and the top inner surface of the upper joint (6). ) on the lower bearing (5); The side wall of the upper joint (6) is provided with an internal pressure port (7) that can be connected to the pressure test pump, and the lower end side wall of the casing (8) is provided with an external pressure port (9) that can be connected with the pressure test pump. 2. A bridge-type concentric water distributor performance testing device according to claim 1, characterized in that: the casing (8) is provided with an oil pipe (17) coaxial with the casing (8), and the oil pipe The bottom end of (17) is connected with oil pipe blind plug (13). 3. A bridge-type concentric water distributor performance testing device according to claim 2, characterized in that: the internal pressure interface (7) is set between the top end of the casing (8) and the bottom end of the support platform (2) Between, the external pressure interface (9) is set between the oil pipe blind plug (13) and the casing blind plug (11). 4. A bridge-type concentric water distributor performance testing device according to claim 1 or 3, characterized in that: a first channel (15) is opened on the side wall of the upper joint (6), and the first channel (15) The central axis of the upper joint (6) is perpendicular to the central axis, and one end of the first channel (15) communicates with the hollow cavity of the upper joint (6), and the other end communicates with the internal pressure interface (7); The lower side wall of the sleeve (8) is provided with a second channel (16), the centerline axis of the second channel (16) is perpendicular to the central axis of the sleeve (8), and one end of the second channel (16) is connected to the sleeve ( 8) is connected to the central cavity, and the other end is connected to the external pressure port (9). 5. A bridge-type concentric water distributor performance testing device according to claim 1, characterized in that: a protrusion (101) is provided at the center of the bottom end of the torque meter (1), and the protrusion (101) It is located in the hollow cavity of the support platform (2), and the protrusion (101) is connected with the connecting rod (14) of the concentric measuring and adjusting instrument (10). 6. A bridge-type concentric water distributor performance testing device according to claim 5, characterized in that: the torque meter (1), the protrusion (101), the support platform (2), the concentric measuring and adjusting instrument ( 10), sleeve pipe (8) are coaxially arranged.