SU1753243A1 - Device for metering relative displacement of aboveground pipeline - Google Patents

Abstract

The invention relates to a measurement technique and is intended to measure the movement of aboveground pipelines. The purpose of the invention is to improve the measurement accuracy. The device is mounted on the base of the pipeline, where the contact sensor 5 and the bracket 1 are installed to be fixed at one fixed point at the pipeline, and the other end carries a spring-loaded probe 4. interacting with the sensor 5. The movement of the pipeline in the horizontal plane is measured by means of the probe 4. The DLR of measuring the displacement of the pipeline in the vertical plane is served by the second probe, which is spring-loaded to the sensor, mechanically connected by means of a pull 12, a sherring-lever mechanism 13, a telescopic support 8 with a fixed point of the pipeline. When this rack 8 is in contact with the surface of the earth. Sensor 5 is made in the form of a tablet with a conductive surface and insulated from each other by tires 2 h along its perimeter. apt. 5 il. t w 5 x | SL A Y 4b W

Description

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The invention relates to a measurement technique and is intended to measure the movement of aboveground pipelines.

A device for indicating the plane of the bend of a pipeline in two planes is known with the help of three indicators mounted on a benchmark 1. However, the use of these devices, especially when measured on an overhead pipeline, requires the construction of many benchmarks, which significantly increases costs.

The closest to the proposed is a device for measuring the relative displacement of an aboveground pipeline, comprising a base, a contact sensor disposed thereon and a bracket for fixing one end at a fixed point of the pipeline, the other end of which is carried by a spring-loaded probe interacting with sensor 2 However, this device has the same disadvantages as the first.

The purpose of the invention is to improve the measurement accuracy.

The goal is achieved in that a device for measuring relative mixing of an above-ground pipeline, comprising a base, a contact sensor disposed thereon and a bracket for fixing one end at a fixed point of the pipeline, the other end of which is carried by a spring-loaded probe interacting with the sensor to the sensor probe, telescopic stand, one end of which is designed to interact with the pipeline, and the other for grounding, and the means of converting axial p The movement of the rack to the axial movement of the second probe, moreover, it is made in the form of a hinged-lever mechanism associated with the rack, on the free end of one of the levers of which the second probe is fixed.

The contact sensor is made in the form of a tablet installed with the possibility of rotation with a conductive surface and tires mounted along its perimeter, isolated from each other, and the probes are placed between the base and the tablet.

FIG. 1 is a schematic diagram of the measurement of the relative displacement of an above-ground pipeline; On fi 2 - the device, a general view; in fig. 3 - tablet section; in fig. 4 - tablet bottom view; in fig. 5 - spring-loaded probe in the section.

The device contains a bracket 1, one end of which is fixed on the piped pipe 2 with the help of a collar 3, and the other carries a spring-loaded probe 4. The probe 4 contacts the bottom with the tablet 5 fixed on the base 6, which is

supporting pipeline 2, tablet 5 has a hinge 7 that allows the tablet to move in a vertical plane. An additional telescopic column 8 is installed on the pipeline 2 with a spring-loaded rod 9 supported on the plate 10 by means of a ball bearing 11. The rack 8 by means of the rod 12 through a pivot-lever mechanism 13 converts the transm; pipeline opening 2

5 in the vertical plane in the horizontal. These movements of the pipeline 2 are fixed on the tablet 5 by means of an additional spring-loaded probe 14 placed at the end of the string 12. The plan0 5 has an insulated current-carrying layer 15 on the inner surface, and insulated tires 16 along the perimeter 16. Spring-loaded probes 4, 14 electrically isolated from the bracket

5 1, ti gi 12 and spring loaded. Clamp 17 serves to connect to a recording system (not shown in the figures). The relative displacement of the above-ground pipeline is measured as follows.

0 way.

On the pipeline 2 and the base 6 install the developed device. When the pipeline 2 moves in the horizontal plane, this movement transmits 5 seconds through the collar 3, bracket 1 to the probe 4, It also moves, slides across the field of the tablet 5. Since tablet 5 has a hinge 7, it weighs on the spring-loaded probe 4 with its mass allows you to get reliable

0 an electrical contact between them and accordingly a reliable measurement of the magnitude of the displacement. When the pipeline 2 is moved in the vertical plane, this movement is transmitted through the collar 3 to 5 of the extension telescopic rack 8, which is mechanically connected to the spring-loaded rod 9 and the pivot-lever mechanism 13. Moreover, the rod 9 is also connected to the pivot-lever mechanism 13

0 and is supported through the ball bearing 11 and the plate 10 (grounded). The movement of the telescopic column 8 is transmitted through the mechanism 13, the tu 12 of the spring-loaded probe 14. The mechanism 13 converts the vertical movement

5 stbika 8 a horizontal. The probe 14 slides over the field of the tablet 5, and the coordinate of its point of movement is determined by the ohmic resistance of the conductive surface 15 and the busbar 16. The measured signals are transmitted remotely to the recording system (not shown in the figures).

Claims (3)

Claim 1. A device for measuring the relative displacement of an aboveground pipeline, comprising a base, a contact sensor disposed thereon and a bracket for fixing one end at a fixed point of the pipeline, the other end of which is carried by a spring-loaded probe interacting with the sensor. In order to improve measurement accuracy, it is equipped with a second probe which is spring-loaded to the sensor, a telescopic stand, one end of which is designed to interact with the pipeline, and 0 the other is for grounding, and means for converting the axial movement of the rack into the axial movement of the second probe. 2 The device according to claim 1, characterized in that the means for converting the axial movement of the rack are made in the form of a pivot-lever mechanism associated with the rack, on the free end of one of the levers of which the second probe is fixed 3. Device pop. 1, characterized in that the contact sensor is made in the form of a tablet mounted with the possibility of rotation with a conductive surface and tires mounted around its perimeter and isolated from each other, and the probes are placed between the base and the tablet. Fi & 2 1B 16 7