RU85974U1 - ADJUSTABLE SCREW POWER SUPPLY SUPPORT - Google Patents

Abstract

1. An adjustable helical load-measuring support of the pipeline, containing a lodgement, connected by nuts through movable-force weighing mechanisms in racks on the base and adjusting devices made in the form of screw-threaded connections, characterized in that the movable-force mechanisms are made in the form of screw jacks, regulating devices - in the form of jack lifting screws, and force measuring sensors with an analog output installed under the jack base are used as load measuring devices comrade ! 2. The adjustable helical load bearing support according to claim 1, characterized in that it further comprises gearboxes mounted on the top of the jack lifting screws. ! 3. The adjustable helical load bearing support according to claim 1, characterized in that the connection of the lodgement with the support nuts is made sliding.

Description

The utility model relates to the transportation of gas and oil and can be used as an adjustable load-bearing support for pipelines in permafrost.

Known adjustable screw load bearing, adopted for the prototype, containing a lodgement secured with nuts through the movable-power mechanisms in the racks on the base, and control devices made in the form of screw-threaded connections, / RF Patent No. 2124668, CL F16L 3/205, 1999 /.

In the prototype, the movable-power mechanisms are made in the form of springs, and the load-measuring devices are in the form of a measuring bar with a sighting device forming a dynamometer.

The disadvantages of the prototype is the low range of height adjustment of the movable-power mechanism, the low accuracy of visual measurements of force interaction, and the lack of the possibility of remote measurements.

The technical result obtained from the implementation of the utility model is to expand the operating range of regulation of the height of the cradle of the support relative to the base and increase the accuracy of measurements of force interaction, as well as the possibility of remote measurements.

This technical result is achieved due to the fact that in an adjustable helical load-bearing support containing a lodgement, connected by nuts through movable-power mechanisms in racks on the base, and control devices made in the form of screw-threaded joints, movable-power mechanisms are made in the form of screw jacks, as force measuring devices use force measuring sensors with an analog output, installed under the bases of the jacks.

The adjustable helical load bearing support may further comprise gears mounted on top of the jack jack lifting screws.

The lodgement connection with the nuts is made sliding.

The utility model is illustrated in the drawing, which shows a diagram of an adjustable helical load-bearing support of the pipeline.

The support contains a lodgement 1, connected to the nuts 2 and the adjusting screws 3 of the jacks 4 installed on the base 5.

There are load measuring devices in the form of load measuring sensors 6 with an analog output, for example, strain gauges. Sensors 6 are installed under the bases of the jacks 4.

On the upper part of the adjusting screws 3 of the jacks 4, reducers controlled by manual or electric drives (not shown) can be installed.

The connection of the lodgement 1 with the nut 2 is made sliding in order to compensate for the inaccuracy of the installation of the lodgement 1 relative to the pipeline (not shown in the drawing).

Adjustable support pipe works as follows.

Under the influence of external factors, for example, climatic conditions, the design height of one or more pipeline supports can change. This will lead to a change in power loads on the load-bearing support devices.

In this case, the output signals from the load sensors 6 supports will be different. The output signals from the load sensors 6 are fed to a recording device (not shown in the drawing). Then the differential output signal is transmitted to the control input of the regulating device.

In the simplest case, the achievement of the design height of the support is achieved as in the prototype manually.

Thus, the significant height of the adjusting screws 3 of the jacks 4 allows you to expand the operating range of adjusting the height of the cradle 1 of the support relative to the base 5. The presence of an analog output signal from the force measuring devices allows to increase the accuracy of measuring the magnitude of the force interaction between the support and the pipeline, as well as the ability to conduct remote measurements and indication force interaction, as well as the opportunity to use control devices that are controlled remotely.

This achieves the set technical result.

Claims (3)

1. An adjustable helical load-measuring support of the pipeline, containing a lodgement, connected by nuts through movable-force weighing mechanisms in racks on the base and adjusting devices made in the form of screw-threaded connections, characterized in that the movable-force mechanisms are made in the form of screw jacks, regulating devices - in the form of jack lifting screws, and force measuring sensors with an analog output installed under the jack base are used as load measuring devices comrade 2. Adjustable screw load bearing according to claim 1, characterized in that it further comprises gears mounted on the top of the jack lifting screws. 3. The adjustable helical load bearing support according to claim 1, characterized in that the connection of the lodgement with the support nuts is made sliding.