FR2500111A1 - COMPENSATION DEVICE FOR TUBULAR PIPE ASSEMBLIES - Google Patents

Abstract

An arrangement for spatial compensation for deviations, alignment errors and deformations in pipeline systems, consists essentially of a flexible bellows, arranged between two pipe sections, and a variable-length anchoring device for absorbing longitudinal forces. The latter consists of two spacer elements which are held on the outside of the two pipe sections, offset through approximately 180 DEG with respect to one another. Furthermore, the spacer elements are held in a universally jointed manner on at least one of the two pipe sections.

Description

 The invention relates to a device for the spatial compensation of deviations, alignment defects and deformations in sets of tubular conduits, with a flexible bellows disposed between two sections of tubes, as well as with a means of anchoring to support the longitudinal forces, anchoring means connected by articulation to the two sections of tubes and comprising at the oins a spacer element which can be modified in length.

 Compensation devices of this type are used, inter alia, in air and space technology. Thanks to them, on the one hand, the fears generated by the heat and the cabin deformations, as well as, on the other hand, the assembly inaccuracies and the manufacturing tolerances, for example in air conditioning and supply, but also in the pipes to draw air from the thrusters, are compensated. Correspondingly to their constitution, these compensation devices then allow both lateral mobility and angular mobility of the two sections of tubes relative to each other, so that the thermal stresses and the deformations are compensated according to two directions of axes.

 The forces exerted from the bellows in the axial direction, due to the internal pressure in the assembly of tubular conduits, and which, in the case of an non-anchored bellows, should be taken into account by the supports , are taken into account, in the case of co = - thinking devices of the type initially mentioned, by means of an anchoring means connected by articulation to the sections of tubes. To allow compensation for fitting inaccuracies or manufacturing tolerances also in the axial direction, the anchoring means is then additionally provided adjustable in length, so that compensation in all three axial directions is possible .

 In a device of the type initially mentioned, already implemented to achieve the above defined purpose, an anchoring means is used, in which between two supports arranged inside the sections of tubes and connected ie ? on removable to them, an adjustable tie length and taking 12 shape of a mower, are i :: re by articution. In this arrangement, it is therefore necessary to consider adjusting the anchoring inside the tube or the bellows. during assembly, or else during maintenance operations, the bellows must therefore first be pushed back onto one of the sections of tubes, before the adjustment of the anchorage, that is to say its adaptation to the set of tubes to be connected, as well as the blocking of the tie rod against possible spontaneous displacement during operation, possible scient. The work can not be donated in this case, be envisaged only on the dismantled compaction device, so that the maintenance, control and possibly adjustment of the anchoring means always require the complete removal of this compensating means.

 The object of the invention is therefore to create a compensation device of the type initially mentioned, such that the adjustment, locking and control of the anchoring means are possible from the outside and that disassembly does not is not necessary. Given the field of application planned for this compensation device, namely air and space technology, this should not however imply a significant increase in weight or volume.

To achieve this object, the invention relates to a device characterized in that the anchoring means are made up of two spacer elements which, being respectively offset from one another, about 180, are held against the outer side of the two sections of tubes, these spacers being articulated on at least one of the two sections of tubes by means of a suspension to the
Cardan relative to the median axis of the tube section.

 the device according to the invention, in addition to an easier and faster assembly and a better possibility of maintenance, with the resulting savings from the financial point of view, also includes a whole series of other advantages. Thus, because the anchoring means is disposed entirely outside the tubular pipe, any obstacle to the flow inside the set of tubular pipelines is avoided. lt is also absolutely excluded, in the event that the anchoring means spontaneously loses during operation, that this anchoring means is entrained by the flow and possibly damages the equipment connected at ava. Finally, in the case of the disspositive according to the invention, the risk of corrosion for the anchoring means is considerably reduced, so that maintenance is not only simplified, but can also be carried out at intervals more important times.

 Other features of the in-rention allow to consider a further increase in the functional efficiency of the device according to this invention, at the same time as a sîmplfié construction to the maximum. By providing that each Cardan suspension consists respectively of a ring of light metal, arranged concentrically around the corresponding section of tube, there is also the advantage that the compensation device according to the invention, as a result of the deformation of the light metal ring (s) has a certain elasticity and is thus able to absorb shocks and vibrations. This is particularly advantageous in the case of an application to airplanes to absorb shocks occurring for example during landing.

The invention will be explained in more detail with reference to an exemplary embodiment shown in the accompanying drawings in which
FIG. i is a partial view of a set of tubular conduits comprising a compensation device according to the invention,
FIG. 2 shows a top view of the device according to FIG. 1,
- Figure 3 is a section along the line
III-III of figure 1.

 FIG. 4 shows on a larger scale a detail IV of FIG. 3.

 In these figures, the identical constituent parts are given the same reference signs.

 In the case of the device shown in Figures 1 to 4, it is a part of an air conditioning installation for an aircraft. As can be seen in the figures, this set of tubular conduits of the air conditioning installation is not arranged in a plane, but extends in space.

 To compensate for assembly inaccuracies and manufacturing tolerances for the pipeline assembly, but also for corpensation of thermal stresses and cabin deformations occurring during the commissioning of the aircraft, a horn compersation device! elm to the invention is inserted between two tubes 1 and 2 of the air conditioning system.

 As shown in the partial representation in the figures, this compensation device 3 is cor.s9itué first of two sections of tubes or tubing 4 and 5, on the ends adjacent to each other which is threaded, and fixed by two flanges 9 and 10, a pleated bellows 8 reinforced by metal wire rings 6 and 7, and made of a flexible material, namely in this case, rubber. for the bellows 8, that is to say for taking charge of the longitudinal forces acting on the bellows 8 due to the pressure prevailing inside the pipe assembly, two spacing elements are provided 11 and 12 adjustable in length, for which it is, in the case of an exemplary embodiment of the invention shown here, tensioners provided with adjustment nuts.

 the tensioners 11 and 12, offset respectively from one another by about 1800, are fixed by articulation on the external sides of the two sections of tubes 4 and 5. This fixing is carried out in this case by the intermediary - diary of a gimbal suspension relative to the respective median axes A, A 'of the two sections of tubes 4 and 5, this gimbal suspension being essentially formed by the two rings 13 and 14. These rings, made of titanium in the in this case, are mounted on the respective tube sections 4 or 5 by means of axes 15 and 16 or else 17 and 18, so as to be able to oscillate, the corresponding axes of oscillation B or B 'respectively cutting the central axes A or A 'of the tube sections 4 and 5.

 On the rings 13 and 14 are held by means of axes 19 and 20 or else 21 and 22, the two tensioners 11 and 12. This fixing is carried out in such a way that the tensioners 11 and 12 can, on the one hand , pivot about a pivot axis C to C '' 'coinciding with the longitudinal axes of the respective axes 19 to 22. On the other hand, the ends of the annular shape of the tensioners 11 and 12, engaging around the axes 19 and 22, respectlvement have a rounded cross section as well as an internal diameter which is barely greater than the external diameter of axes 19 to 22. Thus, the tensioners 11 and 12 are also within certain limits (determined by the clearance provided between the axes 19 to 22 and the tensioners 11 and 12) capable of pivoting around any axes perpendicular to the respective pivot axes C to C ',,.

 As can also be seen in the figures, the tensioners 11 and 12 are blocked by metallic blocking members 23 and 24 against unintentional or spontaneous adjustment. Finally, it will be noted that in the case of the exemplary embodiment of the invention described here, the compensation device 3 is welded by one of these tube sections (section 5 on the right in the figure) with the tube 2 next to constitute a construction unit, while the other section of tube 4 is provided with a flange 25 which by means of a sleeve 26 and an O-ring seal 27, is assembled with the tube 1.

 When mounting the construction unit constituted by the tube 2 and the compensation device 3, this construction unit is deformed by adjusting the tensioners 11 and 12 as well as by angular or lateral pivoting of the two sections of tubes 4 and 5 l '' in relation to each other, until any deviations and misalignments are compensated for and the construction unit is inserted into the already installed tubular pipe assembly and can be connected to this together. Then the metallic locking wires 23 and 24 are put in place on the turnbuckles. The tensioners remain freely accessible from the outside even after installation has been completed, so that they can be checked, maintained and, if necessary, adjusted again at any time.

 If, during service, due to heating, stresses or deformations occur, they are eliminated by a deformation of the compensation device, in which the two sections of tubes 4 and 5 and therefore also the two tubes 1 and 2, modify their relative positions.

Simultaneously, a slight deformation of the rings 13 and 14 which allows a certain flexibility, admittedly narrowly limited, in the axial direction. Insofar as it is not sou: itêe, this flexibility can be removed by using rings made of a material of high resisfiarce, such as steel ~.

Claims (5)

R E V E N D I C A T I O N S  1.- Device for the spatial compensation of deviations, alignment defects and deformations in sets of tubular carlizations, with a flexible bellows disposed between two sections of tubes, as well as with an anchoring means for taking loads the longitudinal forces, anchoring means connected by articulation to the two sections of tubes and comprising at least one spacer element which can be modified in length, device characterized in that the anchoring means consists of two spacer elements (11 , 12) which, being respectively offset from one another by about 1800, are held against the external side of the two sections of tubes (4, 5), these spacers (11, 12 ) being articulated on at least one of the two sections of tubes (4, 5) by means of a Cardan suspension (13, 14) relative to the median axis (A, A ') of the section of tube (4, 5).  2.- Device according to claim 1, characterized in that the spacing elements (11, 12) are each respectively maintained on the two sections of tubes (45) by means of a Cardan suspension (13 , 14).  3.- Device according to any one of claims 1 and 2, characterized in that the spacing elements (11, 12) take the form of re-ables tie rods lcr.- gueur.  4.- Device according to revendicatior one characterized in that the spacer elements (11, 12) are cors- titués by tensioners provided with a blocking (23, 24).  5.- Device according to any one of claims 1 to 4, characterized in that each Cardan suspension consists respectively of a ring (13, 14) of a light metal, arranged concentrically around the section of tube (4 , 5) corresponding.