RU238672U1 - A device for holding and positioning a reflector during geodetic surveys on a pipeline - Google Patents

Abstract

The utility model relates to the field of geodetic and engineering survey work, in particular to means for holding and positioning geodetic reflectors. The essence of the claimed device, comprising a leg, a rod, and a holder, consists in that a handle is fixed to the lower part of the rod, and two horizontal pipes, fixed at a distance from each other, are rigidly fixed at one end to the upper part of the rod, and one pipe clamp is rigidly fixed to the other end of each horizontal pipe, configured to fix a telescopic section, wherein the telescopic section is configured to be extended from the leg, which contains a holder in its upper part, configured to reliably fix the telescopic section at the required height above the leg, and a rubber heel is fixed to the lower part of the leg, configured to be installed on a gas pipeline, wherein a base is rigidly fixed to the upper part of the telescopic section, configured to be capable of installing a reflector thereon. The technical result consists in increasing safety during geodetic surveys on a gas pipeline. 2 ill.

Description

The utility model relates to the field of geodetic and engineering survey work, in particular to means for holding and positioning geodetic reflectors used in conducting tacheometric surveys and monitoring linear objects, primarily main and industrial pipelines, in areas subjected to elastic-plastic bending, with the aim of ensuring high accuracy of geodetic measurements and eliminating the displacement of the reflector during operation.

When conducting geodetic and engineering survey measurements of gas pipeline sections subject to elastic-plastic bending, a reflector must be installed directly on the pipe surface in the pit for tacheometric surveying. Currently, the reflector is mounted on a mini-tripod, secured to the pipeline with special holding devices or improvised means. This requires the operator to climb directly onto the pipeline, which carries the risk of falling, especially in winter when there is ice or snow. Furthermore, tacheometric surveying requires step-by-step movement of the reflector along the pipeline in increments of at least half the pipe diameter, requiring the operator to climb back onto the pipeline, thereby increasing the risk of falling. To address these shortcomings, the following technical solution is proposed.

A mini-tripod for mounting a reflector is known, selected by the applicant as a prototype, comprising a head to which three legs are fastened, with a hook in the center of the lower surface of the head, a rod in the center of the upper surface of the head, three holders fixed in 120 degree increments to the side edge of the head, with the head having the shape of a cylinder, and the bases of the legs fixed in the holders with clamping screws [Patent of the Russian Federation No. 229251, IPC G01C 15/08, G12B 9/10, F16M 11/00, published 09/30/2024, Bulletin No. 28].

The disadvantages of the prototype include the need to lift the operator onto the gas pipeline to install the reflector, which entails the risk of falling, especially in adverse weather conditions, as well as slow movement along the pipeline, since repositioning requires the operator to be lifted onto the gas pipeline multiple times and manually reposition the device.

The technical challenge is to create a device for holding and positioning a reflector during geodetic surveys on a pipeline, which would improve operator safety when installing the reflector on the surface of the gas pipeline.

The technical result consists in increasing safety during geodetic surveys on a gas pipeline.

The technical result in a device for holding and positioning a reflector during geodetic surveys on a pipeline, comprising a leg, a rod, a holder, is achieved in that a handle is secured in the lower part of the rod, and two horizontal pipes are rigidly secured at one end in the upper part of the rod, fixed at a distance from each other, and at the other end of each horizontal pipe one pipe clamp is rigidly secured, configured to fix a telescopic section, wherein the telescopic section is configured to slide out of the leg, which contains a holder in the upper part, configured to reliably fix the telescopic section at the required height above the leg, and a rubber heel is secured in the lower part of the leg, configured to be installed on a gas pipeline, wherein a base is rigidly secured in the upper part of the telescopic section, configured to be able to install a reflector on it.

The proposed utility model is illustrated by drawings.

Fig. 1 shows the main view, Fig. 2 shows an example of a specific implementation.

The device for holding and positioning a reflector during geodetic surveys on a pipeline contains the following structural elements: 1 - rod, 2 - handle, 3 - horizontal pipes, 4 - pipe clamp, 5 - telescopic section, 6 - holder, 7 - leg, 8 - rubber heel, 9 - base, 10 - reflector, 11 - gas pipeline.

A device for holding and positioning a reflector during geodetic surveys on a pipeline comprises a rod 1 made of aluminum, for example, 2000 mm long and 20 mm in diameter, in the lower part of which a handle is rigidly fixed, and in the upper part of the rod 1 two horizontal pipes 3 are rigidly fixed at one end, located at a small distance from each other, made, for example, of aluminum, for example, 800 mm long and 20 mm in diameter, and at the other end of each horizontal pipe 3 one pipe clamp 4 is rigidly fixed, made with the possibility of fixing a telescopic section 5 made of aluminum, for example, 2000 mm long and 20 mm in diameter, wherein the telescopic section 5 is made with the possibility of sliding out of a leg 7 made of a hollow segment of an aluminum pipe, for example, 1000 mm long and 25 mm in diameter, containing in the upper part a holder 6 made with the possibility of reliably fixing the telescopic section 5 at the required height above the leg 7, and in the lower part of the leg 7 a rubber heel 8 is fixed, made with the possibility of installation on the gas pipeline 11, while in the upper part of the telescopic section 5 a base 9 is rigidly fixed, made with the possibility of installation of a reflector 10 on it.

All elements of the claimed technical solution are rigidly fixed together and represent a single structure.

Let's consider a device for holding and positioning a reflector during geodetic surveys on a pipeline in use.

Before commencing work, the device for holding and positioning the reflector during geodetic surveys on the pipeline is transported in a disassembled state to the work site and adjusted to the required size.

To do this, the device is placed on the ground and, by extending the telescopic section 5 from the leg 7, it is adjusted to the required height and fixed with the holder 6.

Next, the telescopic section 5 is installed in the pipe clamps 4, secured to the horizontal pipes 3, and is fixed using the pipe clamps 4, ensuring the rigidity of the structure and eliminating play during operation.

After this, the device is moved to a vertical position using handle 2, orienting it so that the rubber heel 8, fixed to the lower end of leg 7, rests tightly against the surface of gas pipeline 11.

The device is ready for operation. To conduct a tacheometric survey, reflector 10, mounted on base 9, is positioned at the desired point above the pipeline axis 11. If necessary, move the device along the pipeline using handle 2 at the desired increment, securing reflector 10 at each measurement point.

Once the work is completed, the device is disassembled in reverse order. Once completely disassembled, the structure is packed and transported to its storage location or next use.

Thus, the technical problem has been solved and the technical result has been achieved.

An analysis of known technical solutions, conducted using scientific, technical and patent documentation, showed that the set of essential features of the claimed technical solution is not known from the state of the art, therefore, it meets the patentability conditions of a utility model of novelty.

The claimed technical solution is industrially applicable, manufactured on standard equipment using modern materials and technologies, and is used in the geotechnical monitoring service, the service for managing the technical condition and integrity of the gas transportation system, and the engineering and technical center of Gazprom Transgaz Kazan LLC during geodetic surveys on the pipeline.

Claims (1)

A device for holding and positioning a reflector during geodetic surveys on a pipeline, comprising a leg, a rod, a holder, characterized in that a handle is secured in the lower part of the rod, and two horizontal pipes are rigidly secured at one end of the rod, fixed at a distance from each other, and at the other end of each horizontal pipe one pipe clamp is rigidly secured, configured to fix a telescopic section, wherein the telescopic section is configured to slide out of the leg, which contains a holder in the upper part, configured to reliably fix the telescopic section at the required height above the leg, and a rubber heel is secured in the lower part of the leg, configured to be installed on a gas pipeline, wherein a base is rigidly secured in the upper part of the telescopic section, configured to be able to install a reflector on it.