DE3116570A1 - Fixed point of large pipelines which become hot - Google Patents

Abstract

A fixed point for large pipelines which become hot, in particular a fixed point within the pipeline run of lines which convey long-distance energy. An intermediate member is connected into the fixed-point construction. This intermediate member permits restricted capacity for the pipe to move from the zero position of the fixed point in the axial direction and, with this movement, simultaneously triggers a restoring force in the opposite direction to the direction of movement out of the zero position in order to restore the pipe to said zero position. <IMAGE>

Description

The invention relates to the fixed point for warm-up

Large pipelines, especially fixed points within the pipeline of district heating transmission lines.

Pipe supports are used to transfer the weight of the Lines, that of the transported medium and, if necessary, the thermal insulation load-bearing system parts or foundations and at the same time the interception of forces and moments from operating pressure, thermal expansion or from kinetic energy. With overhead lines In addition to these loads, there are those from snow and wind. It will differentiated between movable and fixed point supports.

The movable supports only take the weight, but otherwise allow the pipeline to be moved as freely as possible Via sliding surfaces, rollers or balls (running path on the pipe or running shoe on the pipe) or roller bearings (half of the path on the supporting structure and half on the pipe side) in one or several spatial directions or a twisting.

These movable supports also include stilt bearings and the hangers, which are more reliable and therefore more common than the latter. The hangers with vertical mobility must also be used when the altitude is changed of the support point remain fully effective. The support surfaces of the support elements are used for this purpose automatically adjusted in a suitable manner. This is done by switching on caused by compression or tension springs. A distinction is made between spring constructions, where the reaction forces are variable or constant along a work path are. The first group includes the frequently used spring bearings and baskets, second the constant hangers. The hangers can be fitted with plain bearings, holding points and pipe suspensions can be combined. In many cases there will be some Deviation of the reaction force of the spring construction from the calculated nominal value of the allowed tracking force to be recorded without causing tension problems for the Pipeline result. For calculating the installation height or the installation reaction force from Spring constructions of the first group with one along one The working path of the variable reaction force must be the vertical movement of the support point from the thermal expansion and the pre-tensioning of the pipeline system must be taken into account. For static reasons, it may be necessary to use the The entire vertical force is always applied to the pipeline system, even in the event of vertical displacements to be compensated by constant hangers. With these constant hangers, for one certain stroke range equilibrium between load torque from the support force and the moment of force from the reaction force in the constant hanger. In practice deviations of up to 10% from the target value are permitted for a larger stroke range.

The influence of the internal friction in the constant hanger must also be taken into account, which leads to further deviations. These constant hangers are used for large vertical movements used at heavily loaded bearings.

Spring constructions are used in all of these supports, so that the support force remains effective even with vertical changes in position, without inadmissible additional stresses on the lines, for example indentations on the pipe wall, the hangers and the supporting structures, if necessary, also reliefs neighboring camps arise.

It is essential that the pipeline can move horizontally is restricted as little as possible in such constructions.

In contrast, fixed points have the task of connecting the pipelines to certain to fix selected points of the pipeline so that they cannot be moved. This is required for hot pipes to avoid the temperature changes Clearly specify pipe movement in terms of size and direction and thus an uncontrolled one Exclude migration of the pipeline. Furthermore, fixed points are used, machines and to keep apparatus free from loads of the pipeline, The fixed points must therefore all forces effective in the pipeline via corresponding constructions in the foundations derive. These Forces are made up of elastic forces of the piping system and the expansion joints, the forces of the internal pressure and the Frictional forces that take effect on the movable supports. While the The latter forces are only of minor importance in the case of small pipeline diameters Have meaning, they form the determining point size for large diameters Load share. For this reason, cables with large diameters become movable Supports with particularly low frictional forces are used, for example PTFE plain bearings or roller bearings.

For the dimensioning of the fixed points, the on both sides of the Fixed point effective axial forces of the line are determined, and whichever is greater The dimensioning is based on axial force. Although the frictional forces are usually directed in opposite directions on both sides of the fixed point and thus compensate each other in their effect on the fixed point, this can relieve the burden Effect cannot be taken into account, as there are also situations in rare operating cases occur where these frictional forces are not balanced. This is for example given when the pipeline is heated, at which the temperature change occurs only slowly continues in the longitudinal direction of the pipeline, as is the case, for example a slow flow of a medium at a higher temperature into a pipeline that is still cold is present. In such a case, on one side of the fixed point can already the movement-related frictional forces occur while on the other side of the fixed point the pipeline remains immobile and therefore free of frictional forces. There are even operating cases are conceivable in which the frictional forces are on both sides of the fixed point are in the same direction and add up in their effect. For large district heating pipelines the fixed point forces can be well over 1000 KN.

The training of these fixed point supports is different, For example, little clamping points with clamps for horizontal lines tempered flow media with medium diameter, or also directly the pipeline Welded feet or claws for larger cables Diameter. To avoid bulging and bulging of thin-walled pipes for the most even distribution of loads and fixed point forces from the pipe Ring bandages or saddle structures with two or four force introduction points for the support foot used. The transfer of the fixed point forces into the ground requires accordingly dimensioned concrete foundations.

The invention has the task of a considerably more cost-effective Execution of the fixed point, especially the foundations of the fixed point construction.

To solve this problem, the anchor point according to the invention is marked by means of an intermediate link which is included in the fixed point construction and which restricts one Mobility of the pipe from the zero position of the fixed point in the axial direction allows and triggers a restoring force in the opposite direction.

Compared to the previously known solutions, which in addition to the movable support insert fixed points with the greatest possible freedom of movement in the horizontal plane, which fix the pipeline invariably, uses the solution according to the invention in addition to the previously known movable supports, fixed points that have a certain Being able to evade the horizontally acting forces, whereby at the same time increasing restoring forces may arise with the distance come, which when the pipeline forces decrease, the return of the pipeline in cause the zero position of the fixed point. For example, the process is as follows: At a heating of the pipeline takes place with increasing heating of a Pipe section on one side of the fixed point due to a change in length the change in temperature of the pipe walls, starting from the fixed point in the opposite direction to the flowing medium passed through. Here are frictional forces in the moving Supports in front of the fixed point to overcome the direction of flow of the means of transport are rectified.

Under the action of these frictional forces, the pipe gives way in the invention Fixed point in the direction of flow of the medium. This pipe movement will be on the other side of the fixed point in the even colder pipeline section, frictional forces awakened, which, however, are directed against the direction of flow of the medium and thus reduce the fixed point load. In this way it will be relieving acting frictional forces also arise in cases in which the pipeline is only heated or cooled on one fixed point side. The required for this The displaceability of the fixed point is on the order of several centimeters and must be determined for each individual case.

However, this effect of a plastically displaceable fixed point would be not long-term usable. Such a fixed point would either harbor the danger in the absence of any limitations in the course of several similar loads walking uncontrollably or walking in the case of limited mobility the load-reducing effect is lost when this limit is applied. Therefore will elastic mobility is provided in the fixed point. Such a benchmark will be the return to the neutral position after each use of the displaceability effect and then use the mobility again when the load is renewed can.

With this solution, the design of the fixed point construction are greater Based on district heating transmission lines reduced forces by up to 90%, whereby wall thicknesses, weight and volume of the fixed point version, especially the Foundations, are considerably reduced. Another advantage is to be seen in that the importance of the frictional forces of the movable supports of the pipeline string is significantly reduced and therefore simple designs can be used.

The fixed point construction according to the invention is not comparable with the previously known hangers or constant hangers, which are vertically flexible Supports have the task of compensating for height differences, as they did with the Diagonal pull from hangers or other connections of a pipe system can occur.

A subsection is shown in the drawing to explain the ideas of the invention of the pipeline in the area of a fixed point shown schematically. Of the The pipeline section 1 shown has a circular arrangement on its circumference Claws 3a, 3b and 5a, 5b horizontally spaced in two planes perpendicular to the axis on both sides of the fixed point support. The claws 3b and 5b are in the representation in each case covered behind the illustrated claws 3a and 5a the other, invisible side of the pipe section. With your free thighs of the spaced-apart claws 3a and 5a of the front side and 3b and 5b of the At the rear of the pipe section, pipe sections 7a and 7b are each firmly connected and on both sides of the fixed point between its frame and the free legs the claws supporting compression springs 9a, 9b and 11a and lib arranged.

The fixed point here provides a frame structure through which the pipeline section reaches through in a freely movable manner.

The frame has stiffeners on its opposite sides 14, 16 through which the pipe sections 7a and 7b are also freely movable within Openings 18a, 20a or

not visible on the back of the pipe section 18b and Reach through 20b. On the underside of the frame there are claws 22,24, which establish the fixed connection to the concrete foundation 30 via screw anchors 26, 28.

With this type of fixed point construction for the pipe section are removed from the zero position with unilaterally effective or unequal effective pipeline forces on both sides the springs 9a, 9b on one Side of the fixed point construction relaxed or stretched on the other side to the pipeline with decreasing pipeline forces in the zero position of the fixed point construction traced back.

The actual support of the pipeline takes place via previously known ones movable supports 50 on the one hand and such 70 on the other the fixed point construction. These mobile supports are in the making with a support saddle 52 on the pipe on the left side of the fixed point construction and 72 of the right side as well as rollers 54 and 74 and supports 56,76 of the profile rollers intended. The carriers of the Rollers are via anchor bolts 58,78 anchored firmly in the channel bottom 90.

Various fixed point constructions are within the scope of the invention. For example, the relationships in the example shown are kinematic reversed two frames on a common concrete foundation possible. The pipeline carries in this case, firmly connected to it, for example welded, a circular ring Flange as a carrier with this firmly connected pipe sections on both sides. These pieces of pipe reach freely through the two frames surrounding the pipeline. Deflections from the zero position of the fixed point construction are released on the pipe sections guided opposite springs opposite effects, namely a relaxation on one side and tensioning on the other side of the annular flange of the pipeline section the end.

Likewise, the fixed point construction according to the invention is not restricted on the separation of the fixed point from the vertical supports on sliding or Roller bearings, rather they can be incorporated into the fixed point construction within the scope of the invention include.

Claims (4)

"Fixed point of large hot-running pipelines" Patent claims fixed point for large pipelines with hot water, especially fixed point within the pipeline of district heating transport lines, not shown by an in the fixed point construction switched-on intermediate link, which results in a restricted mobility of the pipe the zero position of the fixed point in the axial direction and a restoring force in the opposite direction triggers. 2. Fixed point according to claim 1, g e k e n n z e i c h n e t by a or several spring elements as elastic intermediate members such that with the size the removal of the pipe from the zero position results in an increasing restoring force in the opposite direction is triggered. 3. Fixed point according to claim 2, g e k e n n z e i c h n e t through between Claws 3a, 5a on the tube 1 and frame 12,14, 16 of the fixed point switched on spring elements 9a, 11a. 4. Fixed point according to claim 1, g e k e n n z e i c h n e t by a tiltable design of the intermediate member in conjunction with one or more springs and / or counterweights for generating the restoring forces.