RU214212U1 - DEVICE FOR FASTENING A FLAT-PANE DIGITAL X-RAY DETECTOR ON A PIPE - Google Patents

Abstract

The utility model is used in radiographic quality control of welded joints. Objective: to improve the convenience, productivity and safety of the detector. SUBSTANCE: device for fastening a flat-panel digital x-ray detector to a pipe contains fastening elements, one of the fastening elements is made in the form of a holder consisting of a clamp with a screw fastening and two corners, one of which is fixed on a clamp, and the other on a screw fastening. The second fastening element is made in the form of a swivel, consisting of two levers connected to each other by a screw. Ball joints are mounted at the ends of the arms, one of the ball joints at the end of one arm is attached to a holder mounted on the pipe, and the second ball joint at the end of the other arm is attached to a flat panel digital x-ray detector. 1 ill.

Description

The proposed utility model - a device for fastening a flat-panel digital x-ray detector on a pipe (hereinafter referred to as the fastening device) relates to radiographic quality control of welded joints and is designed for quick, reliable, convenient installation of a detector for testing pipeline welds, with pipe diameters from 20 to 240 mm.

A flat panel X-ray detector is used to obtain radiographic images of various objects. One of the most common objects of radiographic control is the welded seams of pipes of technological pipelines used in oil refining, petrochemistry, pulp and paper and other industries.

Technological pipelines have a complex and varied shape. Pipes are welded with a transition from one diameter to another, they have turns (bends) at various angles, tees, tie-ins, etc. Sections of technological pipelines can be located in hard-to-reach places, for example, on overpasses, near scaffolding, balconies, at construction sites with unprepared soil.

During radiographic imaging of a weld on a pipe, the detector must be stationary to avoid blurring the radiographic image. The detector must be securely attached to the pipe to prevent it from falling and breaking. In addition, it is not possible to manually hold the detector on the pipe during the acquisition of the radiographic image due to the harmful effects of ionizing radiation. Therefore, a reliable, versatile and easy-to-install detector mount is needed.

A mounting device for mounting a detector on a tripod manufactured by NOVO is known (https://www.novo-dr.com/ndt).

The device has the shape of a frame and is attached to the detector. Mounting hardware is provided on the back of the detector to allow it to be mounted on a standard tripod used for photography or video recording. The tripod is installed next to the pipe and adjusted so that the detector is in the position required for testing.

The disadvantage of this design of the mounting device is that the detector can be installed on a tripod only on a flat and hard surface, in addition, it is allowed to install the detector only at a distance of 0.5 - 1.5 m from the ground, determined by the height of the tripod. This mount allows you to install the detector in a small range of tilt angles to the vertical, determined by the design of the tripod. It is possible that the detector could fall along with the tripod.

The closest analogue to the proposed utility model is the mounting device - a frame with belt fastening to the pipe (https://vidisco.com/products/pipe-mount).

The device is a frame attached to the detector. On both sides, elastic straps are attached to the frame with a fastener - a buckle that regulates the length of the straps. The straps wrap around the pipe on which the detector is to be mounted, tighten on the pipe, and fasten the strap buckles.

The disadvantages include the fact that this device can be used to mount the detector only on a weld connecting two straight sections of two pipes, as well as the fact that this device does not provide reliable fastening due to low friction between the belts and the pipe when manually tightened. .

The main task, which the proposed utility model is aimed at, is to increase the convenience and productivity of work, to ensure the safety of the detector.

The problem is solved with the help of the proposed detector attachment device, which, like the prototype, contains attachment elements.

Unlike the prototype, one of the elements of the fastening device is made in the form of a holder, consisting of a clamp with a screw fastening and two corners, one of which is fixed on a clamp, and the other on a screw fastening, the second fastening element is made in the form of a swivel, consisting of two levers connected by a screw, ball joints are installed at the ends of the levers, one of the ball joints at the end of one lever is attached to the holder, and the second ball joint at the end of the other lever is attached to the detector.

The essence of the proposed mounting device is that it provides fast, reliable, convenient mounting of the detector on pipes of any shape and with any surface quality.

Installation speed is ensured due to the simplicity of the mounting device. The holder is installed on the pipe by tightening the screw fastening. The detector position is adjusted manually with free rotation of the screw and two ball joints. The detector is fixed in the selected position by tightening the screw. The mounting device ensures the installation of the detector in the working position in 30-40 seconds by one operator, while the weight of the device is not more than 1.5 kg.

The reliability of the detector fastening is ensured by the high compressive force of the screw fastening and the mechanical strength of the proposed device. The fastening device does not contain elements that allow spontaneous separation (magnets, latches, etc.). In case of insufficient tightening of the screw fastening of the clamp or the screw connecting the swivel arms or external influences on the detector (wind, accidental jerks of the detector by the wire, etc.), the detector may change its position, but cannot fall. The high clamping force of the screw fastening of the clamp allows the use of the fastening device on wet, icy, dirty surfaces.

The versatility of the mounting device is ensured by the presence of five degrees of freedom for adjusting the swivel joint, as well as the free choice of the place and position of the holder mounting.

The essence of the utility model is illustrated by the drawing, where figure 1 shows the detector mounting device.

The device (Fig. 1) is mounted on the pipe 1 near the place where the detector 2 must be installed by means of a holder 3, consisting of a clamp 4 with a screw fastening 5 and two corners 6.

A swivel 7 is attached to the holder 3 using a detachable or permanent connection, made in the form of two levers 8 and 9, interconnected by a screw 10. At the ends of the levers 8 and 9, ball joints 11 and 12 are installed. The ball joint 11 is attached to the end of the lever 8 to corner 6 of holder 3, and ball joint 12 at the end of lever 9 is attached to detector 2.

The operator installs the holder 3 of the device on the pipe 1 in such a position that the swivel 7 allows the detector 2 to be placed over the controlled area of the welded joint of the pipe.

The operator tightens the screw fastening 5. The corners 6 ensure good grip of the holder 3 with the surface of the pipe 1. The screw fastening 5 has a compression force of up to 550 kg, which guarantees a reliable installation of the holder 3.

By loosening the screw 10, the operator sets the detector 2 to the desired position, freely changing the bending angle between the levers 8 and 9 and the rotation angles of the ball joints 11 and 12 at the ends of the levers 8 and 9.

By tightening the screw 10, the operator fixes the bending angle between the levers 8 and 9 and at the same time blocks the rotation of the ball joints 11 and 12 at the ends of the levers 8 and 9. This allows one operator to simultaneously hold the detector 2 in the right place and fix its position.

If it is necessary to change the position of the detector 2 in order to inspect the next section of the weld or another weld, the operator can completely remove the fastening device from the pipe 1 or change the position of the detector 2 and loosen the screw fastening 5 of the holder 3 or the screw 10 of the swivel joint 7 at his choice.

Thus, the use of the proposed device allows one operator to install a flat-panel digital X-ray detector in the right place in a pipe of any shape quickly and reliably, thereby solving the task, namely, increasing the convenience and productivity of work and ensuring the safety of the detector.

Claims (1)

A device for fastening a flat-panel digital X-ray detector to a pipe, containing fastening elements, characterized in that one of the fastening elements is made in the form of a holder consisting of a clamp with a screw fastening and two corners, one of which is fixed on a clamp, and the other on a screw fastening , the second fastening element is made in the form of a swivel joint, consisting of two levers interconnected by a screw, ball joints are installed at the ends of the levers, one of the ball joints at the end of one lever is attached to a holder mounted on a pipe, and the second ball joint is attached to the end of the other arm attached to a flat panel digital x-ray detector.

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