RU174493U1 - Device for hydraulic testing of bends - Google Patents

Abstract

The device for hydraulic testing of bends includes a housing (1), including plates (2) with grooves, a pusher (3) with a retractable stem (4) and end elements (6) with an elastic seal (7). The pusher (3) is made with the possibility of impact on the Central part of the branch (9). At the end of the rod (4) of the pusher (3), facing the branch, a support platform (5) with an arcuate recess is installed. The test branch (9) is located between the clamping elements (6) and the support platform (5) of the pusher (3). The clamping elements (6) for fixing the ends of the branches are movably fixed in the grooves of the plates (2) of the housing (1). The clamping elements (6) are made with a through hole and a spherical surface and include elastic seals. The edge of the groove (11) of the plate (2) of the housing (1) from the side facing the clamping element (6) contains a chamfer. The use of such a device allows to reduce time and labor costs during hydraulic tests, operational flexibility and improve the quality of tests. 4 s.p. f-ly, 2 ill.

Description

The claimed technical solution relates to devices for checking for leaks and can be used for hydraulic testing of bends.

In the prior art, a solution is known which is a device for pressure testing of ductile iron taps. The known solution contains a housing and end elements with elastic seals. The end elements are made according to the size of the tested branch and can be fixed at the ends of the branch by connecting with its structural elements, namely with sockets and fixing eyes. The end elements are made with the possibility of connecting a supply hydraulic station and a locking element (utility model patent CN205483833, IPC G01N3 / 12, G01N3 / 02 published on 08/17/2016).

Common signs of the proposed solution and the known analogue are:

- housing

- end elements with the ability to connect a supply hydraulic station and a locking element,

- elastic seals.

Distinctive features of the proposed solutions are:

- a pusher with a retractable rod with the possibility of impact on the Central part of the branch,

- a support platform with an arcuate recess mounted at the end of the pusher,

- the housing design contains plates with grooves with the possibility of mounting the end clamping elements,

- end clamping elements contain spherical surfaces for self-centering when fixing bends,

- the execution of the pusher hydraulic,

- controllers and a control unit that regulate the operation of the pusher in accordance with the readings of the instrumentation of the device.

The scope of the known technical solution is limited only by testing bends, the form of execution of which provides for connecting elements, namely sockets and fixing eyes. Only the presence of such connecting elements on the branches themselves allows you to attach the end elements of the device for testing. In addition, for each diameter of the tested bends, a separate set of end elements is required.

The prior art solution is selected as the closest analogue (prototype), which is a holding device for testing the elbow pressure of a plastic pipe, which contains a housing designed to fix the test elbow of the pipe, as well as a pusher with a retractable rod, on the end of which is installed a guide arcuate area. The housing contains mounting plates, as well as mounting and mounting beams connected by hinges. The connecting elements of the housing correspond to the size of the tested branch. The rod of the pusher is made with the possibility of acting on the central part of the tap for fixing during the test (patent for utility model CN204756151, IPC F16L3 / 00; G01N3 / 12, published 11.11.2015).

Common signs of the proposed solution and the known analogue are:

- housing

- a pusher with a retractable rod, with the possibility of impact on the Central part of the branch,

- a support platform with an arcuate recess mounted at the end of the pusher.

Distinctive features of the proposed solutions are:

- end clamping elements, made with the possibility of connecting a supplying hydraulic station and a locking element,

- end clamping elements contain spherical surfaces for self-centering with an elastic seal for fixing bends,

- the housing design contains plates with grooves with the possibility of mounting the end clamping elements,

- the execution of the pusher hydraulic,

- controllers and a control unit that regulate the operation of the pusher in accordance with the readings of the instrumentation of the device.

The design of the known holding device does not provide end clamping elements that would provide the necessary tightness when securing the test bend to prevent leaks during the test, and would allow testing bends that have deviations from the shape and geometrical parameters within acceptable limits caused by technological processes. In addition, in the known solution for branches of different diameters, different elements for securing the branch in the device are used, which makes it necessary to have a set of elements for each possible diameter during testing, increases the time for securing the branch in the device, and requires additional material means.

The objective of the proposed solution is to create a device for hydraulic testing of bends, which allows to test bends, including those having deviations from the shape and geometric parameters within acceptable limits, ensuring tightness of fastening without additional processing of the tested bends with the least expenditure of time and effort.

The technical result is to improve the operational properties of the device. The use of such a device allows to reduce time and labor costs during hydraulic tests, operational flexibility and improve the quality of tests.

The claimed technical result is achieved by the fact that the device for hydraulic testing of the bends includes a housing, a pusher with a retractable rod, made with the possibility of influencing the Central part of the branch, while the housing of the device additionally contains plates with grooves in which the clamping elements are movably fixed to fix the ends of the branches, made with a through hole and a spherical surface and including elastic seals. The edge of the groove of the plate of the housing from the side facing the clamping element contains a chamfer. At the end of the pusher rod facing the tap, a support platform with an arcuate recess is installed. The pusher of the device for hydraulic testing of bent branches can be made hydraulic. A device for hydraulic testing of bends may additionally contain controllers and a control unit that regulate the operation of the pusher in accordance with the testimony.

Bend - a part designed to smoothly change the direction of fluid flow (gas) in the pipeline. Also for such a part, the terms elbow and angle can be used. It is possible to manufacture and use bends of various diameters and angles, in particular, from Ø15 to Ø600 mm, with angles of 30^about, 45^about, 60^about and 90^about.

Each of the two clamping elements is a part consisting of a disk with a through hole and hollow cylinders of different diameters located on the same axis, the junction of the disk with the cylinders is made in the form of a spherical surface. The hollow hole formed by the parts allows you to supply water to the outlet from the hydroelectric station. The external hollow cylinder of each clamping element contains an external thread (fitting) for fixing the high pressure sleeve on the outside of one clamping element for supplying from the hydraulic station / pump, on the outside of the other clamping element for discharge, equipped with shutoff valves to block the flow during the test and liquid discharge at the end of the test.

The clamping elements are fixed in the grooves of the body plates with the help of fixing nuts and are made with the possibility of connecting a hydraulic station and a locking element, which provides a quick and simple procedure for connecting external equipment for testing.

The fixing nut for fixing the clamping elements is a nut screwed onto the fitting of the clamping element.

A device for hydraulic testing of bends comprises a housing, including plates with grooves, in which clamping elements are movably fixed with clamping nuts, and a pusher with a retractable rod, including a supporting platform with an arcuate recess. Such a device has improved operational characteristics, in comparison with the known solutions, since it takes less time and labor to fix the test bend due to placing it on the support platform of the pusher and feeding it to the pressing elements by extending the rod.

The edge of the groove of the plate of the housing from the side facing the clamping element contains a chamfer, forming a recess in the form of a truncated cone. The clamping elements of the device are made with spherical surfaces and are fixed in the grooves of the body plates in such a way that they can move both along the groove and radially due to the movement of the spherical surfaces in the groove of the groove. Thanks to this device design, operational flexibility is increased, since self-centering is provided when fixing the tested bend without additional processing, including bends having deviations from the shape and geometric parameters within acceptable limits, uniform load distribution on both ends, excluding skew and uneven loading. The use of elastic seals on the clamping elements allows to achieve tightness of fastening of the bends and additional adaptability when fastening the bends with deviations from the shape.

With the help of a pusher with a retractable stem, the retraction is pressed during the test during injection to eliminate leaks. This design allows you to securely test the tested branch and test bends having different shapes of the ends, depending on the various regulatory documents by which they are made.

In one embodiment, the pusher can be made hydraulic, which facilitates the process of securing the test bend and allows you to automate tests. The control of the pusher, in particular, the regulation of the clamping force, is carried out by a control unit that can change the pressure applied to the sliding rod of the pusher depending on the readings of control and measuring instruments that measure pressure in the branch during the test.

Figure 1 shows a device for hydraulic testing of bends. The device comprises a housing (1), including plates (2) with grooves, a pusher (3) with a retractable rod (4), a support platform with an arcuate recess (5) and clamping elements (6) with an elastic seal (7). The end clamping elements (6) are fixed with the help of fixing nuts (8). The test branch (9) is located between the clamping elements (6) and the support platform (5) of the pusher (3). Between the clamping elements (6) and the plates (2) of the housing (1), a sealing gasket (10) is placed. Figure 2 shows a longitudinal section of the end clamping element (6), where the groove (11) with a beveled edge in the plate (2) of the housing (1) and the spherical surface (12) of the clamping element (6) are reflected.

Further, with reference to FIGS. 1-2, an example is shown of the use of a device for hydraulic testing of bends.

The housing (1) of the device is mounted on a stable, even base. The test branch (9) is placed on a support platform (5) mounted on a retractable rod (4) of the pusher (3), which is in a compressed state.

The clamping elements (6) are positioned opposite the ends of the tested branch (9), by loosening the locking nuts (8) and moving the plates (2) of the housing (1) in the grooves (11). After that, the clamping elements (6) are fixed with fixing nuts (8), for fixing in the required position. Then the rod (4) of the pusher (3) rises, the ends of the tested branch (9) are pressed against the clamping elements (6). The locking nuts (8) loosen and further extension of the rod (4) of the pusher (3) tightly presses the ends of the outlet (9) into the elastic seal (7). The elastic seal (7) can be made, for example, in the form of a polyurethane gasket. The outlet (9) is securely fixed by centering the axes of the clamping elements (6) with the axis of the branch (9), ensuring the tightness of the installation due to the free movement of the clamping elements (6) in the grooves (11) of the housing (1), the spherical surface (12) of the clamping elements (6) adjacent to the truncated edge of the grooves (11) of the plate (2) of the housing (1) and the sealing gasket (10), made, for example, in the form of a polyurethane gasket.

To ensure free sliding of the pressure elements (6) in the grooves (11) of the plates (2) of the housing (1), the contact surfaces of the pressure elements (6), plates (2) and the gasket (10) are lubricated with lithol or similar grease.

After fixing the outlet (9), a high pressure sleeve (not shown in the figures) is screwed onto the fitting of the clamping element (6), on the one hand for feeding from the hydraulic station / pump, on the other hand for discharge, equipped with shut-off valves to block the flow during the test and draining the liquid at the end of the test.

Upon completion of the indicated procedures for installing the test branch (9) and setting up the device, the branch (9) is filled with liquid under low pressure from the hydraulic station / pump (not shown in the figures). Excess air is removed by briefly opening the shutoff valves. In the event of leaks in the places where the ends of the outlet (9) are pressed against the elastic seal (7), they are eliminated by extending the rod (4) of the pusher (3) until they are eliminated.

Tests begin by forcing the required test pressure, but not exceeding 6 MPa. Upon reaching the required pressure, the tested bend (9) is maintained with it for the required amount of time. During this period, a pressure drop is monitored. Upon completion of the tests, the pressure is released and the fluid drains. The outlet (9) is dismantled by lowering the rod (4) of the pusher (3).

In a private embodiment, the pusher (3) can be made hydraulic. The operation of the hydraulic pusher (3), for example, the regulation of the clamping force, is carried out by a control unit that can change the pressure supplied from the hydraulic station to the retractable rod (4) of the pusher (3) depending on the readings of measuring instruments that measure pressure in the branch (9 ) during the test.

The inventive device can be used for hydraulic testing of bends of various diameters and angles, in particular, from Ø15 to Ø600 mm, with angles 30^about, 45^about, 60^about and 90^about, has improved operational properties, manifested in reducing time and labor costs, operational flexibility and improving the quality of tests. Such a device allows testing bends with deviations from the shape and geometric parameters, with finished ends without additional processing, while ensuring uniform load distribution on both ends, eliminating skew and uneven loading. The test process can be automated.

Claims (5)

1. A device for hydraulic testing of bends, comprising a housing, a pusher with a retractable rod, made with the possibility of influencing the Central part of the branch, characterized in that the housing contains plates with grooves in which the clamping elements are movably fixed to fix the ends of the branches, and each of the clamping elements made with a spherical surface and a seal. 2. A device for hydraulic testing of bends according to claim 1, characterized in that the edge of the groove of the housing plate from the side facing the clamping element contains a chamfer. 3. A device for hydraulic testing of bends according to claim 1, characterized in that it further comprises a support pad with an arcuate recess for the branch housing mounted on the end of the plunger rod. 4. A device for hydraulic testing of bends according to claim 1, characterized in that the pusher is made hydraulic. 5. A device for hydraulic testing of bends according to claim 1, characterized in that it contains controllers and a control unit that regulate the operation of the pusher in accordance with the readings of the instrumentation of the device.

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