DE1203065B - Spring-loaded tube suspension with constant support force - Google Patents

Description

Spring-loaded tube suspension with constant support force The invention refers to a resilient pipe suspension to support pipelines, the vertical, z. B. movements of the pipeline caused by thermal expansion exerts an approximately constant supporting force.

A resilient tube suspension is known in which the compression springs are arranged transversely to the load direction and pivotable. With only two slanted Spring working device in which the load is at the hinge point of the inclined Attacks springs, there is no constant force effect. This drops the permissible The way to adjust the hanging load is relatively small. The vertical The force component depends on the angular position of the springs acting against one another another.

'There is also a resilient tube suspension known in which the The pull rod carrying the weight of the pipe on a vertically arranged compression spring attacks and also connected to compression springs running transversely to the load direction is. These compression springs can be pivoted in both directions relative to the horizontal arranged. The pipe suspension is designed so that an adjustment the supporting force is possible through vertical displacement of the load application point, however, the design allows only relatively small vertical movements. There are the points of support of the lateral springs outside the central axis, d. H. the axis of symmetry of the whole system, which means that the path of the load is relatively large is low. The adjustability of the point of application of the transverse compression springs on the pull rod is used in the known design essentially for adjustment the supporting force. With this device, you only go with a load known value and has therefore only provided small compensation options. In addition, the device is designed so that the main spring is always under tension is held.

The invention is based on such a pipe suspension in which a The pull rod carrying the weight of the pipe on a vertically arranged compression spring attacks and also connected to compression springs running transversely to the load direction which are arranged to be pivotable in both directions to the horizontal, whereby the point of application of the transverse compression springs on the pull rod is pivotable is. In contrast, it is proposed according to the invention that all three springs be the same Away- ; have measurements and the two lateral springs in a well-known Way to engage the pull rod via a hinge, the hinge on the pull rod can be determined by means of clamping screws. The invention consists in the common Application of the proposed features.

With a tube suspension designed in this way, an adjustment from zero to the predetermined weight. Due to the adjustability the point of application of the lateral springs on the tie rod and by the equality The three springs can be used to adjust the load range from zero to Maximum load, whereby the force effect is practical for the particular case set remains constant. The device according to the invention can be used for any load can be set and used for a load from zero up to the maximum value given by the dimensions of the springs. It is also possible, switch off the transverse compression springs by loosening the clamping screw, see above that the device only works with the vertically arranged spring. While at the known resilient tube suspension for small load areas each one designed for this purpose Device must be used, the pipe suspension according to the invention is essential for one larger load range from zero to maximum load applicable. Furthermore, a is proportionate long load path permitted on both sides of the neutral line. The inventive The device is also characterized by a simple structure and easy adjustability the end.

In the drawing, the invention is shown in one embodiment. It shows F i g. 1 and 2 show a resilient pipe suspension according to the invention in a front view and in the side view, partly in section, FIG. 3 and 4 diagrams of forces.

The resilient tube suspension shown has a housing 1 with a bolt 2 for suspending the device and an abutment 3 for a vertical compression spring 4 attached to the housing 1. In addition, two counter-pressure springs 5 are rotatably mounted on two bolts 6 in the housing 1. A pull rod 7 is firmly connected to a spring sleeve 8, which is seated over the compression spring 4. At the lower end of the tie rod, which is guided through the abutment 3 and the housing 1, a pipe clamp 9 for fastening the pipeline hangs.

The counter-pressure springs 5 are on the one hand placed over spring guides 10 and on the other hand are seated in spring sleeves 11. The spring guides 10 are connected to one another by a joint 12. The counter-pressure springs 5 are fastened in their set position to the tie rod 7 by two clamping screws 13. If the counter-pressure springs are in a horizontal position, they do not transfer any resulting force to the pull rod 7 in this position. In this position, the clamping screws 13 can be tightened with a socket wrench through holes 14 provided on both sides in the housing 1. All springs, ie the vertical spring 4 and the counter-pressure springs 5, are cylindrical helical springs with the same dimensions. The counter-pressure springs 5 are pretensioned in their horizontal starting position by 90 to 9519 / o of their total spring travel. After the compression spring 4 is loaded with the total load of the pipeline, the clamping screws 13 are tightened so that a firm connection between tension and counter-pressure springs is established. When the total load is moved up or down by the thermal expansion of the pipeline, the counter-pressure springs 5 replace the force by which the force of the vertical spring increases or decreases. In the case of the counter-pressure springs, the resultant force R arises, which is dependent on the distances B, C and H and is composed of the spring forces P i vectorially (FIG. 4). As the deflection B increases, the force P3 also changes. Expediently, the deflection B should not be greater than a third of the distance A between the points of articulation. The values A, E and O do not change for a given suspension.

Claims (1)

Claim: Spring-loaded pipe suspension with a supporting force that remains approximately the same during vertical movements of the pipe load, in which a tie rod carrying the pipe weight engages a vertically arranged compression spring and is also connected to compression springs extending transversely to the load direction, which are arranged pivotably in both directions to the horizontal, the point of application of the transverse compression springs on the pull rod being adjustable, characterized in that all three springs (4, 5) have the same dimensions and the two lateral springs (5) are connected in a manner known per se via a joint (12) attack the pull-pull rod (7), the joint being displaceable on the pull rod and lockable by means of clamping screws (13). Documents considered: German Patent No. 682 732; French Patent No. 1137 338; U.S. Patent Nos. 1612 163, 2,391,467, 2,395,730, 2,421,822, 2,709,057.