CN217738623U - Vertical test equipment for full-closed-loop indoor petroleum hydraulic fluid tool - Google Patents

Abstract

The utility model provides a perpendicular test equipment of indoor petroleum hydraulic fluid instrument of full cut-off ring, include: test platform mud tank and perpendicular test jig, the perpendicular test jig sets up on the top surface of test platform mud tank, one side of test platform mud tank is provided with the ladder, the perpendicular test jig includes support post, sleeve pipe and presss from both sides tight hydro-cylinder, two the support post is parallel and install vertically on the top surface of test platform mud tank, the sleeve pipe inserts in the test platform mud tank, the sleeve pipe is located between two support posts. The utility model discloses having possessed multi-functional usage, being equivalent to the experimental well worker field of indoor miniature oil drilling platform, can being used to research and development and production of horizontal thruster instrument, RSS rotatory steering tool, torsion impacter instrument etc. and torque and vibration of test under different work condition are favorable to improving research and development efficiency, shorten the research and development cycle, obtain more accurate technical parameter.

Description

Vertical test equipment for full-closed-loop indoor petroleum hydraulic fluid tool

Technical Field

The utility model relates to the field of petroleum technology, in particular to full cut-off ring indoor oil hydraulic fluid instrument vertical test equipment.

Background

Among the various petroleum fluid tool testing devices, the most common petroleum screw drill tool testing device is only used for testing a tool with a screw drill structure, so that various tools used in the vertical direction are inconvenient to test in the vertical direction, the testing of relevant power parameters of the petroleum downhole tool in the research and development stage of a manufacturer is inconvenient, the detection of the service life of the testing tool, the abrasion of components and the like is inconvenient, and the like.

SUMMERY OF THE UTILITY MODEL

The utility model provides a perpendicular test equipment of indoor oil hydraulic fluid instrument of full cut-off ring to solve at least one above-mentioned technical problem.

To solve the above problem, as an aspect of the present invention, there is provided a full-closed loop indoor petroleum hydraulic fluid tool vertical test device, comprising: test platform mud tank and perpendicular test jig, perpendicular test jig sets up on the top surface of test platform mud tank, one side of test platform mud tank is provided with the ladder, perpendicular test jig includes support post, sleeve pipe and clamping cylinder, two the support post is parallelly and vertically installed on the top surface of test platform mud tank, the bushing inserts in the test platform mud tank, the sleeve pipe is located between two support posts, every the downside of support post is provided with one clamping cylinder, the upper end of testing tool urceolus is connected by arbitrary joint, the top detachably of two support posts installs and is used for the installation by the hoist and mount fixing device who connects at arbitrary joint, install power tool in the testing tool urceolus, power tool lower extreme installation moment of torsion drive axle, the externally mounted of moment of torsion drive axle has the moment of torsion drive urceolus, the moment of torsion drive urceolus with the testing tool urceolus is connected, the outside of moment of torsion drive urceolus is provided with the solid fixed ring of moment of torsion drive axle, be provided with torque sensor on the solid fixed ring of moment of torsion drive, the testing tool urceolus is provided with vibration sensor, clamping device is installed to the tip of the piston rod of clamping cylinder.

Preferably, sheathed tube top has set gradually backup pad and fixed plate from top to bottom, the support post with backup pad, fixed plate are connected, press from both sides tight hydro-cylinder and install in the backup pad.

Preferably, the supporting upright post is detachably connected with the hoisting fixing device through a bolt shaft.

Preferably, a hose is connected to the upper end of the union.

Preferably, the power tool is threadedly connected to the torque drive shaft.

Preferably, the torque driving outer cylinder is connected with the testing tool outer cylinder in a screwing and sealing mode through a fixing flange.

Preferably, the top of the mud tank of the test platform is provided with a guard rail.

Preferably, the test platform mud tank comprises a hexahedral frame consisting of a cross beam and a vertical column, and steel plates are arranged on six surfaces of the hexahedral frame.

Preferably, the upper surface of the hexahedral frame is provided with supporting square steel.

Preferably, the cross beam on the top surface of the mud tank of the test platform is connected with the vertical test rack through a support rod.

Since the technical scheme is used, the utility model discloses having possessed multi-functional use, being equivalent to the experimental well worker field of indoor miniature oil drilling platform, can being used to the research and development and the production of horizontal propeller instrument, RSS rotatory steering tool, torsion impacter instrument etc. the moment of torsion and vibration of test under different operating modes are favorable to improving research and development efficiency, shorten the research and development cycle, obtain more accurate technical parameter, can be with torsion impact tool's defective rate control below 3%.

Drawings

Fig. 1 schematically shows a perspective view of the present invention;

FIG. 2 schematically shows a perspective view of a vertical test stand;

figure 3 schematically shows a cross-sectional view of a vertical test stand.

Reference numbers in the figures: 1. testing the platform mud tank; 2. a vertical test frame; 3. a ladder; 4. supporting the upright post; 5. a sleeve; 6. clamping the oil cylinder; 7. hoisting the fixing device; 8. a union joint; 9. a test tool outer cylinder; 10. a power tool; 11. a torque drive shaft; 12. a torque driven outer barrel; 13. a torque drive shaft securing ring; 14. a torque sensor; 15. a vibration sensor; 16. a clamping device; 17. a support plate; 18. a fixing plate; 19. a latch shaft; 20. a hose; 21. fixing the flange to be screwed; 22. a guard rail; 23. a cross beam; 24. a column; 25. a steel plate; 26. supporting square steel; 27. a support bar; 28. a slurry outlet; 29. a slurry inlet.

Detailed Description

The embodiments of the invention are described in detail below, but the invention can be implemented in many different ways, which are defined and covered by the claims.

As an aspect of the present invention, a full-closed loop indoor petroleum hydraulic fluid tool vertical test device is provided, which belongs to a part of a full-closed loop indoor petroleum hydraulic fluid tool vertical test device control system, and can be used for collecting power parameters of relevant hydraulic fluid tools through relevant devices of a simulated petroleum drill floor.

The closed loop indoor petroleum hydraulic fluid tool vertical test equipment comprises: test platform mud tank 1 and perpendicular test jig 2, perpendicular test jig 2 sets up on test platform mud tank 1's the top surface, one side of test platform mud tank 1 is provided with ladder 3 (supplies the tester to pass), perpendicular test jig 2 is including support post 4, sleeve pipe 5 and clamp hydro-cylinder 6, two support post 4 is parallel and installs vertically on test platform mud tank 1's the top surface, sleeve pipe 5 inserts in the test platform mud tank 1, sleeve pipe 5 is located between two support posts 4, every support post 4's downside is provided with one clamp hydro-cylinder 6, and the upper end of test tool urceolus 9 is connected by arbitrary joint 8, the top detachably of two support posts 4 installs and is used for the installation hoist and mount fixing device 7 by arbitrary joint 8, be connected by arbitrary joint 8 and the upper end of test tool urceolus 9 on the hoist and mount fixing device 7, install power tool 10 in the test tool urceolus 9, power tool 10 lower extreme installation moment of torsion drive shaft 11, drive torque drive urceolus 12 is installed to the outside of drive shaft 12, test tool urceolus 9 is connected with the test tool urceolus 13, and the drive shaft 13 is provided with the tight hydro-cylinder 6 of vibration sensor 13, the solid fixed ring 13 that the test tool urceolus 13 is provided with the drive shaft 13, the solid fixed ring of the test torque sensor. Preferably, a hose 20 is connected to the upper end of the union 8.

Preferably, the top of the mud tank 1 of the test platform is provided with a protective barrier 22, so that the test tool needs to be installed manually when being installed, and the high-altitude operation is prevented from falling.

The test platform mud tank 1 is connected with a mud tank pipeline, and mud of a test tool forming a vertical test platform directly flows to the test platform mud tank 1 and then returns to the mud tank, so that the function of testing mud circulation is formed.

Preferably, the top of sleeve pipe 5 has set gradually backup pad 17 and fixed plate 18 from top to bottom, support post 4 with backup pad 17, fixed plate 18 are connected, press from both sides tight hydro-cylinder 6 and install in backup pad 17 is last.

Preferably, the support post 4 is detachably connected to the lifting fixture 7 by means of a latch shaft 19.

Preferably, the power tool 10 is threadedly connected to the torque drive shaft 11. Preferably, the torque driving outer cylinder 12 and the test tool outer cylinder 9 are connected in a sealing manner through a fixed flange rotary buckle 21.

Preferably, the test platform mud tank 1 comprises a hexahedral frame consisting of cross beams 23 and upright columns 24, on six surfaces of which steel plates 25 are arranged. Preferably, the upper surface of the hexahedral frame is provided with supporting square steel 26. Preferably, the cross beam 23 at the top surface of the test platform mud tank 1 is connected with the vertical test jig 2 by a support bar 27.

When the device is used, various power tools 10 to be tested are installed in the test tool outer cylinder, the upper end of the test tool outer cylinder 9 is connected with the optional connector 8, the test tools are connected to the hoisting fixing device 7 and are installed on the supporting upright post 4 in an auxiliary mode through workshop traveling hoisting equipment, and then the plug pin shaft 19 is fixed in the installation hole of the supporting upright post 4 to play a role in hanging the test tools. The test tool is connected by a union 8 and a hose 20 forming a mud inlet conduit to a mud fluid power source of the test tool. A tested power tool 10 is installed in a test tool outer cylinder 9, the power tool 10 is connected with a torque driving shaft 11 through threads, then a torque driving outer cylinder 12 is connected with the test tool outer cylinder 9 in a sealing mode through a fixing flange rotary buckle 21, and a torque sensor 14 is installed on a torque driving shaft fixing ring 13.

After the related test tool generates liquid flow velocity to convert mechanical kinetic energy, the related torque value is collected through the torque sensor 14 and is output to the console through a cable to read parameters, and in addition, the console is connected to the vibration sensor 15 through a cable to read vibration data in the tool operation.

After the tested tool is clamped and fixed and the sensor is installed, a mud pump system is started, the mud pump system is butted to the end of the tested tool through the hose 20 to generate certain hydraulic kinetic energy, relevant parameters of the tool can be tested and calibrated through instrument parameters on the console, and tested mud liquid circulates into the mud tank, so that the purpose of tested mud liquid circulation is achieved.

Since the technical scheme is used, the utility model discloses possessed multi-functional use, the laboratory that is equivalent to indoor miniature oil drilling platform's experimental well worker field can be used to research and development and production of horizontal propeller instrument, RSS rotation steering instrument, torque impact ware instrument etc. and the moment of torsion and vibration of test under different work condition are favorable to improving research and development efficiency, shorten the research and development cycle, obtain more accurate technical parameter, can be with the defective rate control of torque impact instrument below 3%.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A full closed-loop indoor petroleum hydraulic fluid tool vertical testing apparatus, comprising: test platform mud tank (1) and perpendicular test jig (2), perpendicular test jig (2) set up on the top surface of test platform mud tank (1), one side of test platform mud tank (1) is provided with ladder (3), perpendicular test jig (2) are including support post (4), sleeve pipe (5) and clamp tight hydro-cylinder (6), two support post (4) are parallel and install vertically on the top surface of test platform mud tank (1), sleeve pipe (5) insert in test platform mud tank (1), sleeve pipe (5) are located between two support posts (4), every the downside of support post (4) is provided with one press from both sides tight hydro-cylinder (6), the upper end of testing tool urceolus (9) is connected by arbitrary joint (8), the top detachably of two support posts (4) is installed and is used for the installation by hoist and mount fixing device (7) of arbitrary joint (8), with power tool (10) is installed in testing tool urceolus (9), power tool (10) lower extreme installation torque (11), drive shaft (12) drive torque drive shaft (12) drive torque drive urceolus (12) drive solid fixed ring (12), urceolus (12) drive torque drive shaft (13) and outer drive shaft (12) The torque sensor (14) is arranged on the torque driving shaft fixing ring (13), the vibration sensor (15) is arranged on the testing tool outer cylinder (9), and the clamping device (16) is installed at the end part of the piston rod of the clamping oil cylinder (6).

2. The full-closed-loop indoor petroleum hydraulic fluid tool vertical testing device as claimed in claim 1, wherein a supporting plate (17) and a fixing plate (18) are sequentially arranged at the top end of the casing (5) from top to bottom, the supporting upright (4) is connected with the supporting plate (17) and the fixing plate (18), and the clamping cylinder (6) is installed on the supporting plate (17).

3. The full closed-loop indoor hydraulic fluid tool vertical test equipment as claimed in claim 1, wherein the support column (4) is detachably connected with the hoisting fixture (7) through a latch shaft (19).

4. The full closed-loop indoor petroleum hydraulic fluid tool vertical testing apparatus according to claim 1, wherein a hose (20) is connected to the upper end of the union (8).

5. The full closed loop indoor petroleum hydraulic fluid tool vertical testing apparatus of claim 1, wherein the power tool (10) is threadedly connected to the torque drive shaft (11).

6. The full closed-loop indoor petroleum hydraulic fluid tool vertical testing device as claimed in claim 1, characterized in that the torque driving outer cylinder (12) and the testing tool outer cylinder (9) are hermetically connected through a fixed flange turnbuckle (21).

7. Full closed-loop indoor hydropetroleum fluid tool vertical test rig according to claim 1, wherein the top of the test platform mud tank (1) is provided with a guard rail (22).

8. Full closed-loop indoor hydropetroleum fluid tool vertical test equipment according to claim 1, characterized in that the test platform mud tank (1) comprises a hexahedral frame made up of cross beams (23) and upright columns (24), on six surfaces of which steel plates (25) are arranged.

9. Full closed-loop indoor petroleum hydraulic fluid tool vertical test equipment according to claim 8, characterized in that the upper surface of the hexahedral frame is provided with supporting square steel (26).

10. Full closed loop indoor hydropetroleum fluid tool vertical test rig according to claim 8, characterized in that the cross beam (23) at the top surface of the test platform mud tank (1) is connected to the vertical test rig (2) by a support bar (27).

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