SU502176A1 - Linear displacement compensator of suspended load - Google Patents

Description

one

The invention relates to devices for the above-ground laying of heavy hot pipelines having high flow and, as a result, significant temperature movements.

Known compensators for linear displacements of a suspended load, containing interconnected by means of power elements, a movable and motionless cage.

However, the known compensators are difficult to install and unreliable.

The purpose of the invention is to facilitate installation and increase reliability in operation.

For this, in the proposed compensator, the power elements are made in the form of equal-arm levers in the amount of 2p-1, freely set on shafts mounted on the cages, while the shoulders of each of the n - 1 levers of the fixed cage and each of the n levers, except the extreme, mobile clips are made with displacement one relative to the other along the axis of rotation of the levers, and opposite shoulders of the levers of both clips are interconnected by means of t.

FIG. 1 shows the proposed axonometric compensator; in fig. 2-4 are diagrams of successively increasing the movement of the ends of the compensator arms; in fig. 5 is a section according to FIG. one; in fig. 6 is a general view of a support with two compensators for a point.

securing a horizontal pipeline rising when it is heated; in fig. 7 - the same for the point of attachment of a horizontal pipe that descends when it is heated;

in fig. 8 is a section along BB in FIG. 6

The compensator contains a movable yoke 1 and a fixed yoke 2, interconnected by rigid dovetail guides, which allow

relative displacement of the cages along the X axis. Both cages are provided with shafts 3 and 4 rigidly fixed in them, carrying arms with equal arms and arms 5-9 freely on the sleeves. Opposite shoulders of the levers of both clips pivotally

connected to each other t gami 10-15.

The movable sleeve 1 can be displaced relative to the stationary sleeve 2 by an amount a. FIG. Figures 2-4 illustrate how, as a result of this bias, the magnitude of the movement of the ends of r g 10-15 increases sequentially from zero to 6 a. In order for all the pulls to be parallel to the X axis of the compensator, the upper arms of the levers 6, 8 and 9 are offset along the axis with respect to the lower arms of the same levers.

The compensator works as follows.

T ha 16, stretched pipeline weight,

causes the tendency of gi 12 compensator

shift to the left since both of these

pivotally connected to the ends of the angle lever 17.

The direction of movement of all the compensator r g relative to its center must be one - clockwise or opposite to it (Fig. 2-4). Consequently, the ha ha 13 tends to shift to the right, but this is hampered by its connection with the cord of the clamps 18 through the tr 19. The clamps, however, abut against the sheets 20 welded to the pipeline.

There is a stretching of all the t of r by the force of P. The stretched thrusts tend to bring together the clamps of the compensator. This approach is prevented by the connection of the cage 1 with the rightmost collar 18, KOTOgbm abuts against the sheet 20 (right) welded to the pipeline and the connection of the cage 2 through the expandable pipe 21 to the left pair of collars, which abuts against the sheet 20 (left).

Suppose that when the pipeline is heated, the left sheet 20 is stationary and the right one is mixed to the right. Under this condition, the three left straps 18, the pipe 21 and the plugs 19 and 13 will be fixed (if the influence of heating this system with a pipeline is not taken into account).

The lever 5, which is shown in FIG. 8 by a dotted line, refers to a fixed cage 1. As a result of movement of this cage to the right, it should turn counterclockwise, since its end is pivotally connected to the fixed thrust 13. This causes all the compensator levers to turn counterclockwise, including lever 17. But such a turn is prevented by ha 16, oiirayush, and with

on the overlap. Consequently, the pipeline must rise.

A ha of 16 (Fig. 7), stretched by the weight of the pipeline, causes compression of the compensator g and its connecting rod 13 and the associated pipe 22 hingedly with it. Aspiration of the compensator m of its expansion leads in this case to compression of the pipe 21.

When the pipeline is cooled, the sheets 20 come together. This causes the lever 5 to turn counterclockwise, which leads to the lifting of the pipeline. Consequently, the pipeline is lowered.

Claims (1)

Invention Formula Linear displacement compensator of suspended load, mainly above-ground hot piping, containing movable and fixed cages interconnected by means of power elements, characterized in that, in order to facilitate installation and increase reliability of operation, power elements are made in the form of equal-leverage in the amount of 2 / g-1, loosely seated on shafts fixed in cages, while the shoulders of each of the p-1 levers. The fixed casing and each of the n levers, except the extreme, movable casing, are made with an offset of yn relative to the other arm of the pivot axis, and the opposite lever arm of the two yokes are interconnected together by means of T -