DE1196446B - Flexible suspension device with constant support force for pipelines - Google Patents

Description

Flexible suspension device with constant supporting force for Pipelines The invention relates to a compliant suspension device for pipelines with more or less constant with vertical movements of the lines Supporting force and is based on known devices of this type, which consist of an in consist of a stationary frame pivotably mounted lever on which the pipe load attacks, and from a compression spring, which runs in its interior via a pull rod exerts a force on the lever that keeps the pipe load in balance.

The invention is particularly suitable for the suspension of pipelines In power plants and the like, where a movement of the pipes by expansion or Contraction due to temperature changes in the material of the pipes taken into account must become.

In the past 25 years there has been a lot of spring suspension in the field Much development work done for this purpose, as a result of which a number Suspension devices with constant support force when the pipes move vertically was created. Many of these facilities use coil springs which are subjected to pressure or tension during operation. Coil springs practice on themselves in the case of changes in length, however, there is no constant, but rather a variable spring force the end. You can therefore not do without the task of a constant support force fulfill further. It was for this reason that such springs were used in bearings with constant support force necessary to provide special elements with the load-bearing coil springs work together to reduce changes in the pressure caused by the Springs to more or less balance the force exerted when the load moves.

It is also known that frustoconical disc springs whose Height in the unstressed state is approximately equal to 1.4 times its wall thickness, when Due to its flat position, an approximately constant spring force over a certain distance exhibit.

The main feature of the invention is the use of such disc springs for the compression spring in the suspension device for pipelines mentioned at the beginning in the form of a plate spring assembly, which is supported on an immovable support and that in a manner known per se from several equal ones, one on top of the other supported, frustoconical spring washers, the height of which in the unstressed State is approximately equal to 1.4 times its wall thickness, with between the individual Lock washers or between the end lock washers and the supports of the Disk spring assembly on the inner or outer edge of the spring washer, spacer rings are provided and the disc spring assembly is preloaded so that the spring washers in the longitudinal movements to be expected during operation of the articulated on the movable Support of the spring assembly engaging the pull rod in an approximately symmetrical to their flat position extending area are deformed.

This suspension also has the significant advantage of being a very compact design, which consists of relatively few parts, so that with long Lifetime of the device whose effectiveness is always guaranteed. The minor one The height of the hanging device enables it to be used in low rooms.

An advantageous feature of the invention relates to the formation of the Spring assembly to the effect that the attack on the inner edge of the spring washers inner spacer rings are slidably arranged on a common guide tube, wherein preferably the spacer rings have concave grooves in which support the spring washers.

According to a further feature of the invention, the external one is omitted Spacer rings the wall of each spring washer on its outer edge to one axial protruding collar bent, its convexly curved flange part on the corresponding Flange part of the collar of an adjacent spring washer rests. Embodiments of the invention are described in more detail below with reference to schematic drawings. It shows F i g. 1 the side view of a suspension device according to the invention, in which various parts are shown in section, FIG. 1 a ..partial section . according to FIG. 1 on an enlarged scale, FIG. 2 a section along the line 2-2 of FIG. 1, Fig. 3 shows a section along the line 3-3 of FIGS. 1, F i g. 4th one of the F i g. 1 a corresponding partial section of another embodiment of FIG Invention, F i g. 5 shows a longitudinal section through a spring unit, FIG. 6 is a spring force diagram for the in F i g. 5 disc springs shown, F i g. 7 a graphical representation, which is the load-deflection characteristic of the disc springs used according to the invention shows.

In the drawings, 21 is a means of U-rail 23 and screw connections 25, 26, 27 z. B. denotes a tubular housing attached to a ceiling support, not shown, which is cut out at its front end so that this part forms an arcuate protective hood 22 for the parts below.

A bearing plate 30 with a central opening 31 is firmly inserted into the housing 21. This plate 30 carries on its lower part two arms 38 parallel to one another, each with an axis 86 for mounting an angle lever consisting of two plates 85 parallel to one another, which holds a support rod 91 for the pipe load by means of a pin 90 and on which a further pin 87 a spring device that maintains the balance of the pipe load engages. The pin 87 passes through a hole in a lever 40 which is pivotably mounted on a horizontal axis 39 on arms 37 which are welded to the plate 30 at a distance from one another and to one another running parallel to one another.

The lever 40 receives a pin 60 in a central longitudinal slot 44 which is held in fork arms 62 of a rod 61 which extends freely through the central opening 31 of the plate 30.

The rod 61 forms part of a spring mechanism 65 with a package of disc spring units 75, which is best shown in FIGS. 1 and 3, and is provided at its rear end with a thread 66 and a nut 67 with a rounded front 68. A guide tube 70 is arranged coaxially to the rod 61, the front end of which rests against the bearing plate 30. The guide tube 70 carries a number of sliding sleeves 71, 72, 73 and 74, which serve as spacer rings and are provided with concave grooves 71 ', 72', 73 ' and 74' . The sleeve ring 71 is only half the length of the sleeve rings 72 and 73 and has only one groove 71, while the sleeve rings 72 and 73 are each provided with two grooves 72 ', 73' . The sleeve ring 74 is then again only provided with a single groove 74 ' and is of such a length that it can perform the required movement along the guide tube 70 during operation.

According to FIG. 1, the telescopic spring assembly has three disc spring units 75 on. Each disc spring unit 75 consists of two oppositely arranged -Tapered spring washers 76 of uniform thickness and one each continuous central opening which is coaxial with the guide tube 70. The inside edge each spring washer is supported in an associated groove of the spacer rings away.

According to FIG. 1 and 1 a, each disc spring unit 75 also has a spacer ring 77, which is provided with concave grooves 78, in which the outer edges of the spring washers 76 are supported.

In the arrangement shown, deflections of the spring lock washers can occur 76 occur in the area between the in F i g. 5 shown in full or dashed lines Lines lie. The disc springs are already up to the left-hand beginning of the flat Part of the in F i g. 6, which is the one with full lines Drawn position of the spring washers 76 in F i g. 5 corresponds, preloaded, However, they can still go along this flat part of this curve into the one shown in FIG. 5 position drawn with dashed lines can be tightened further, d. H. until to the right end of the flat part of the curve. The context of the F i g. 5 to 7 of the drawings and the explanations given therein of the course of the spring forces and deformations of the springs arise for a person skilled in the art without further information.

A movable support 80 is welded to the rear end of the sliding sleeve 74 and has a central opening 81 through which the rod 61 extends. The rounded front side 68 of the nut 67 rests against that part of the support 80 which limits its breakthrough. The support 80 is provided with two opposite pin-shaped projections 83 (FIG. 3), each of which carries a roller 84, which are guided in diametrically opposite channel-like lateral extensions 28 of the housing 21. This arrangement allows the spacer ring 74 to move axially, but prevents its rotational movement with respect to the housing 20.

In the device shown in FIGS. 1 , 1a, 2 and 3 of the drawings, the parts are in such a position that the spring washers can be opened by turning the nut 67 to the left-hand side of the beginning of the flat part of the in FIG . 6 shown spring force diagram, which the in F i g. 7 corresponds to the graph given, are preloaded.

If the relevant load is now attached to the suspension device set in this way, the plate springs 76 are further tensioned and deformed so that they are given an approximately flat shape. This state then corresponds to the normal operating position of the suspension device. From this normal position, the disc springs 76 can be used to compensate for upward and downward movements of the attached pipe load. 5 occupy positions shown with solid or dashed lines, where they evade the normal operating division xx to the left or right by the amounts y or y '. These movements of the disc springs 76 thus run in the constant load range which is shown in FIG. 6 and 7 is represented by the horizontal part of the curve. It is therefore the desired effect achieved according to the invention that the spring force remains practically unchanged even with possible upward and downward movements of the pipe load, the z. B. from expansion or contraction of attached pipelines due to temperature changes. In order to be able to easily recognize the respective setting of the spring units 75 also from the outside, a pointer device is provided in such a way that plates 32 protruding from the face plate 30 are provided with slots 33 in which bolt-shaped pointers 99 are guided. A scale 34 is located on each outer edge of these slots 33. The pointer pins 99 serve as stops in the slots 33, since they are attached to the plates 85, and also to indicate the respective position of the disc springs 76. In FIG. 1, the setting of the suspension device is indicated by this pointer device, which is present before the load is suspended after the spring units 75 have been preloaded. In the operating state, the pointer 99 will be positioned approximately in the middle of the scale 34. By a downward movement of the load, the angle lever plates 85 are given a corresponding pivoting movement in the counterclockwise direction about the axes 86 and the tie rod 61 is given an essentially axial movement, a slight pivoting movement of this tie rod 61 being possible during operation. The extent of the permissible load movement depends on the number of disc spring units 75 provided in the device.

F i g. 4 shows a further embodiment of the invention in which the means by which the spring washers 100 of each unit are attached to their outer periphery are kept at a distance from each other, are provided on each disc itself. For this purpose, the wall 101 of each spring washer 100 is on its outer edge bent over to form an axially projecting collar 102, whose convexly curved flange part 1103 on the corresponding flange part of the collar of the adjacent spring washer 100 is present. Due to the essentially linear contact caused by this the outer edges, the friction is reduced to the lowest possible level during operation.

Claims (4)

Claims: 1. Resilient suspension device for pipelines with approximately constant support force with vertical movements of the line, consisting of a lever mounted pivotably in a stationary frame, on which the pipe load acts, and a compression spring which is applied to the lever via a pull rod running inside one of the pipe load exerting the equilibrium force, characterized in that the compression spring is designed as a disk spring assembly supported on an immovable support (30) and consists in a known manner of several mutually identical, frustoconical spring washers (76) supported on one another Height in the unstressed state is approximately equal to 1.4 times its wall thickness, with spacer rings (71 to 74 or . 77) are provided and the disk spring assembly is pretensioned so that the spring washers are deformed in an area (y-y ') which extends approximately symmetrically to their flat position during the longitudinal movements of the articulated pull rod (61) which is articulated on the movable support (80) of the spring assembly will. 2. Suspension device according to claim 1, characterized in that the on the inner edge of the spring washers (76) attacking inner spacer rings (71 to 74) on a common guide tube (70) are slidably arranged. 3. Suspension device according to claim 1 or 2, characterized characterized in that the spacer rings (71 to 74 or 77) concave grooves (71 ' to 74 'or 78), in which the spring washers (76) are supported. 4. Suspension device according to claim 1 to 3, characterized in that when the outer spacer rings (77) are omitted, the wall (101) of each spring washer (100) is bent at its outer edge to form an axially projecting collar (102) , the convex flange part ( 103) rests against the corresponding flange part of the collar of the adjacent spring washer. Considered publications: German Patent Specifications No. 812135, 951685; British Patent No. 315,803; U.S. Patent Nos. 2,659,954, 2,709,057, 2713982.