RU39398U1 - BEND FOR HYDROTESTING OF BENT PIPES - Google Patents

Abstract

The invention relates to power engineering and can be used, in particular, when conducting hydraulic testing of pipes of heat exchangers for leaks. New is that the stand for hydraulic testing of bent pipes contains a frame with a support platform on which a fixed stand and a drive movable in the transverse direction relative to the longitudinal axis of the stand are mounted, on which another stand is rigidly mounted, which is installed with an offset in the longitudinal and transverse directions relative to central vertical longitudinal and transverse planes of the movable platform, and on the racks tiers are fixed with hydraulic clamps for the end sections of also located the mustache of the pipes to be tested, while at least two hydraulic clamps on a fixed stand are connected to the nozzles for connection to the hydraulic system, and the drive of the movable platform is made in the form of a screw pair, the nut of which is rigidly eccentrically attached to the lower surface of the platform with an offset in plan relative to it the central vertical longitudinal plane parallel to the central vertical longitudinal plane of the stand in the direction opposite to the side to which relative to the same plane of the platform is offset the rack is fixed on the platform, and the screw interacting with the nut is fixed on the stand frame or its supporting platform, the screw pair screw length being taken from the condition that the racks are extended to distances in the range from minimum to maximum distances between the end sections of pipes to be tested. The technical result provided by the invention consists in reducing the complexity of testing bent pipes of heat exchangers by increasing the reliability of the equipment used and making it possible to test bent pipes with different distances between their end sections without significant readjustment of the equipment.

Description

The invention relates to power engineering and can be used, in particular, when conducting hydraulic testing of pipes of heat exchangers for leaks.

The prior art device for testing pipes for leaks, including a base in the form of a box-section tank, consisting of three sections, the last of which are interconnected and are a catchment. On the base there is a fixed crosshead of the column support, a movable slider, a carriage, and sealing heads are installed on the latter. The columns are fixed on one side motionlessly on the traverse, and on the supports - on the landing movement. The pipe is installed in lunettes with interchangeable support and clamping inserts aligned with the sealing heads. The axis of the pipes, columns and sealing heads lie in the same plane at an angle of 1 ° 30 'to the horizontal. On the ends of the columns, on one side, there are collars for fixing the rear sealing head, which has support rollers and guides. The device has planetary pipe transfer mechanisms mounted on columns with the possibility of rotation around the axes of the latter and sensors for regulating the preliminary compression force of the pipe with sealing heads and monitoring the measurement of pipe length during the test. Lunettes are mounted on spring-loaded platforms with the ability to move along the axis of the pipe (see RU 2182700, G 01 M 3/00, G 01 M 3/08).

Also known stand for hydraulic testing of bent pipes for leaks. The device comprises a base, sealing heads, pipe supports made in the form of lunettes having adjustable supporting and clamping surfaces connected to hydraulic cylinders operating in a single hydraulic system, which is controlled by a pressure control sensor, which in turn is controlled by the signals of the linear end position sensor of the subject a pipe connected to a test pressure supply switch, which is triggered when the pipe end reaches the position corresponding to the beginning of the plastic defect rmatsii in any of its sections.

The stand for hydraulic testing of bent pipes for leaks is configured to test a specific size. The pipe on the live roll serves on

the starting position, the repacker is placed on the supports. Using the drive, the sealing head, moving, installs the pipe in the sealing head. The pipe is sealed. The lunettes are closed and the clamping surfaces are mounted on the surface of the pipe. The working pressure is supplied to the pipe. Under the influence of increasing pressure, the test pipe increases in diameter and shortens. So for a steel pipe at P = 32 MPa, the shortening is 0.328 cm, at P = 70 MPa -0.831 cm, at P = 360 MPa-4.25 (see RU 2184946, G 01 M 3/08).

The objective of the present invention is to reduce the complexity of conducting hydraulic tests and increasing the reliability of the stand while expanding its capabilities.

The problem is solved due to the fact that the stand for hydraulic testing of bent pipes, according to the invention, contains a frame with a support platform on which a stationary stand and a drive movable in the transverse direction relative to the longitudinal axis of the stand are mounted on a platform on which another stand is rigidly fixed, which is installed with displacement in the longitudinal and transverse directions relative to the Central vertical longitudinal and transverse planes of the movable platform, and on the racks tier fixed hydraulic we are at the end sections of the pipes to be tested, also tiered, with at least two hydraulic clamps on a fixed rack connected to the nozzles for connection to the hydraulic system, and the drive of the movable platform is made in the form of a screw pair, the nut of which is rigidly eccentrically attached to the lower surface of the platform with a shift in the plan relative to its central vertical longitudinal plane parallel to the central vertical longitudinal plane of the stand in the direction opposite to the side to which relative to the same plane of the platform, the stand fixed on the platform is displaced, and the screw interacting with the nut is fixed on the stand frame or its supporting platform, and the screw pair screw length is adopted from the condition that the racks are extended to distances ranging from minimum to maximum distances between the pipe ends to be tests.

As two hydraulic clamps on a stationary rack for connecting to the hydraulic system, hydraulic clamps located in the upper and lower tiers can be used.

The supporting platform of the frame designed to interact with the platform of the movable rack, can be made with a sliding surface, a reciprocal sliding surface of the platform, and with a Central longitudinal groove, the length of which corresponds to the distance of movement of the movable rack.

The platform for installing the movable stand can be equipped with sliding hooks located along the transverse central vertical plane of the platform normal to the central vertical longitudinal plane of the stand, while the hooks are engaged in the mating grooves of the frame support platform.

The nut can be attached to the bottom surface of the platform through a rigid connection.

Hydraulic clamps for the end sections of the pipes to be tested on each rack can be paired with each other along the height of the rack by connecting pipes, while the offset of the rack mounted on the platform of the rack relative to its central vertical longitudinal plane parallel to the central longitudinal vertical plane of the stand is at least half of the outlet of the connecting pipe relative to the surface of the rack facing it, and the distance from the axis of attachment of the nut to the platform to the central vertical the native plane of the rack fixed to the platform is (1.6-5.7) d, where d is the outer diameter of the hydraulic clamp.

The stand can be equipped with a supporting support for additional support of the curved end sections of the pipes to be tested, and the supporting support is mounted on the frame of the stand or on the base and is equipped with support elements located in tiers along its height for pipes of the corresponding tier.

The stand can be equipped with a discharge unit connected to the hydraulic system for filling the pipes with working fluid and crimping them.

The technical result provided by the invention is to reduce the complexity of testing bent pipes of heat exchangers by increasing the reliability of the equipment used and making it possible to test bent pipes with different equipment

the distance between their end sections without significant readjustment of equipment.

The invention is illustrated by drawings, where:

figure 1 shows a stand for hydraulic testing of bent pipes, side view;

figure 2 is a side view of the movable and fixed racks, a fragment;

figure 3 - stand in plan, fragment;

figure 4 - hydraulic clamp in the context;

figure 5 - movable rack, end view;

figure 6 - diagram of the hydraulic system.

The stand for hydrotesting of bent pipes 1 contains a frame 2 with a support platform 3 on which a fixed stand 4 and a drive platform 6 movable in the transverse direction relative to the longitudinal axis 5 of the stand are mounted, on which another stand 7 is rigidly mounted, which is mounted with offset in the longitudinal and transverse directions relative to the central vertical longitudinal 8 and transverse 9 planes of the movable platform 6. On racks 4, 7 tiers are fixed hydraulic clamps 10 under the end sections 11 also located in tiers for testing pipes 1. At least two hydraulic clamps 10 on a fixed stand 4 are connected to the nozzles 12 for connection to the hydraulic system 13. The drive 14 of the movable platform 6 is made in the form of a screw pair 15, the nut 16 of which is rigidly eccentrically attached to the lower surface 17 of the platform 6 with a shift in the plan relative to its central vertical longitudinal plane 8, parallel to the Central vertical longitudinal plane 18 of the stand in the direction opposite to the side in which relative to the same plane 8 of the platform 6 is displaced behind the rack fixed on the platform 6 7. The screw 19 interacting with the nut 16 is fixed on the stand frame 2 or its supporting platform 3. The length of the screw 19 of the screw pair 15 is adopted from the condition of the racks 4 and 7 to be breached for distances ranging from the minimum to maximum distances between the end sections 11 pipes 1 to be tested.

As two hydraulic clamps 10 on a stationary rack 4 for connecting to the hydraulic system 13 used hydraulic clamps 20 and 21,

located in the upper and lower tiers.

The supporting platform 3 of the frame 2 designed to interact with the platform 6 of the movable strut 7, is made with a sliding surface 22, a reciprocal sliding surface 23 of the platform 6, and with a central longitudinal groove 24, the length of which corresponds to the distance of movement of the movable strut 7.

The platform 6 for installing the movable stand 7 is provided with sliding hooks (not shown in the drawings) located along the transverse central vertical plane 9 of the platform 6 normal to the central vertical longitudinal plane 18 of the stand, while the hooks (not shown) are inserted into reciprocal slots (not shown) reference area 3 of the frame 2.

The nut 16 is attached to the lower surface 17 of the platform 6 through a rigid connection 25.

Hydraulic clamps 10 for end sections 11 of pipes to be tested 1 on each rack 4, 7 are interconnected in pairs by the height of the rack 4, 7 by connecting pipes 12. The offset of the rack 7 installed on the platform 6 relative to its central vertical longitudinal plane 8 parallel to the central longitudinal vertical plane 18 of the stand, is at least half of the outreach L of the connecting pipe 12 relative to the surface of the rack 4 or 7 facing it, and the distance l from the axis 26 of the mounting of the nut 16 to the platform 6 to the central ikalnoy longitudinal plane 27 fixed to the platform 6, the rack 7 is (1,6-5,7) d, where d - diameter of the external hydraulic dual 10.

The stand is equipped with a supporting support 28 for additional support of the curved end sections 29 of the pipes 1 to be tested. The supporting support 28 is mounted on the frame 2 of the stand or on the base 30 and is equipped with support elements 31 arranged in tiers along its height under the pipes 1 of the corresponding tier.

The stand is equipped with a discharge unit 32, 33 connected to the hydraulic system 13 for filling the pipes 1 with a working fluid and crimping them. The order of operation of the stand during hydraulic testing of bent pipes:

As a working fluid, a 2-5% solution of monoethanolamine was used. To fill the pipes 1 with a solution of monoethanolamine open valves 34,

35 and 36. Turn on the centrifugal pump 32 low pressure and make the filling of the internal volume of the working fluid. The degree of filling is monitored by the continuity of the jet from the drain pipe 37.

After filling the pipes with a monoethanolamine solution, the valves 34 and 35 are closed and the low pressure pump 32 is turned off.

Before applying high pressure, open the valve 38. Then turn on the pump 33 high pressure and raise the pressure to the desired value of the test pressure.

Upon reaching the test pressure, the electric contact pressure gauge 39 is triggered, after which the high pressure pump 33 is turned off.

Close the valve 38 and produce the necessary time delay.

Then, using the valve 35, lower the pressure to the worker and examine the test pipes 1.

At the end of the test, the pressure is lowered to zero using valve 35, after which the valves 35 and 40 are opened and the monoethanolamine solution is drained into the tank 41 by gravity. At the end of the drain valve 35 is closed.

Then, with valve 40 open, valves 42 and 43 are opened, as well as a valve 44 of the air line and the system is purged with air.

After blowing pipes 1 with air, all valves and the valve are closed and pipes 1 are removed from the stand for hydraulic testing.

If the monoethanolamine solution is contaminated, it is replaced. To do this, open the valve 45, turn on the low-pressure centrifugal pump 32 and pour the monoethanolamine solution from the tank 41 into a special tank (not shown in the drawings).

After draining the monoethanolamine solution into a special container, the valve 45 is closed, the low pressure pump 32 is turned off, the remaining solution is drained through the drain pipe (not shown conditionally in the drawings) of the tank by unscrewing the plug (not shown in the drawings).

Claims (8)

1. A stand for hydrotesting of bent pipes, characterized in that it contains a frame with a support platform on which a fixed stand and a drive movable in the transverse direction relative to the longitudinal axis of the stand are mounted on a platform on which another stand is rigidly mounted, which is mounted with offset in the longitudinal and transverse directions relative to the central vertical longitudinal and transverse planes of the movable platform, and on the racks tiers are fixed hydraulic clamps under the end sections also located pipes to be tested, at least two hydraulic clamps on a fixed stand are connected to the nozzles for connection to the hydraulic system, and the drive of the movable platform is made in the form of a screw pair, the nut of which is rigidly eccentrically attached to the lower surface of the platform with an offset in plan its central vertical longitudinal plane parallel to the central vertical longitudinal plane of the stand in the direction opposite to the side in which relative to the same plane of the platform s biased rack attached to the platform and cooperating with a nut screw fixed to the frame of the stand or the bearing area, wherein a pair of helical length of the screw from the condition adopted breeding racks distance in the range from minimum to maximum distance between the end portions of the pipes to be tested. 2. The stand according to claim 1, characterized in that as two hydraulic clamps on a fixed rack for connecting to the hydraulic system used hydraulic clamps located in the upper and lower tiers. 3. The stand according to claim 1, characterized in that the supporting platform of the frame, designed to interact with the platform of the movable rack, is made with a sliding surface, a reciprocal sliding surface of the platform, and with a central longitudinal groove, the length of which corresponds to the distance of movement of the movable rack. 4. The stand according to claim 3, characterized in that the platform for installing the movable stand is equipped with sliding hooks located along the transverse central vertical plane of the platform normal to the central vertical longitudinal plane of the stand, while the hooks are engaged in the mating grooves of the frame support platform. 5. The stand according to claim 1, characterized in that the nut is attached to the lower surface of the platform through a rigid connection. 6. The stand according to claim 1, characterized in that the hydraulic clamps for the end sections of the pipes to be tested on each rack are pairwise interconnected by the height of the rack by connecting pipes, while the offset of the rack mounted on the platform relative to its central vertical longitudinal plane parallel to the central longitudinal vertical the plane of the stand, is at least half the departure of the connecting pipe relative to the surface of the rack facing it, and the distance from the axis of attachment of the nut to the platform to the center tral longitudinal vertical plane of the platform attached to strut is (1,6-5,7) d, where d - diameter of the external hydraulic dual. 7. The stand according to claim 1, characterized in that it is provided with a supporting support for additionally supporting the curved end portions of the pipes to be tested, the supporting bearing being mounted on the frame of the stand or on the base and provided with supporting elements arranged in tiers along its height for pipes of the corresponding tier. 8. The stand according to claim 1, characterized in that it is equipped with a discharge unit connected to the hydraulic system for filling the pipes with a working fluid and crimping them.