FR2471544A1 - Flexible connector for fluid pipework - has annular compensating bellows under internal pipework pressure to prevent separation of pipes - Google Patents

Abstract

Two pipes (1,2) are connected by a single flexible bellows (3). An annular bellows chamber (4) is formed by an upper disc (5) connected to the lower pipe (2) and a lower disc (6) suspended from the upper pipe (1) by a conical outer tube (10). The flexible bellows (7,8) form the sides of the chamber whose annular area is substantially equal to the cross sectional area of the main pipe. The inside of the pipework and the chamber (4) are connected by tubes (11). In operation, the internal pressure of the pipework separates the two pipes but as the pressure in the annular chamber (4) is the same as that in the pipework, the forces in the chamber are equal and opposite to those in the pipework.

Description

 The present invention relates to a flexible connection device between two sections of pressurized fluid pipe likely to be subjected to relative movements relative to each other.

There are many situations in which a pipe is connected, on the one hand to a fixed structure in space and, on the other hand, to an element capable of axial and transverse displacements relative to the pipe, for example under the thermal expansion effect. This is in particular the case of the cooling water pipes connected to the inlet and outlet water boxes of steam condensers. To avoid unacceptable stresses developing in the pipe due to these relative movements, it is necessary
to divide it into two sections, one of which is integral with the fixed structure and the other of the movable element and to connect these two sections by one or more flexible connection elements such as bellows.

 However, the pipe is subjected to the effect of the absolute internal pressure of the fluid passing through it, pressure which can be variable along the axis of the pipe so that the two sections of pipe are subjected to forces which tend to cause a relative axial displacement between the two sections. This effect, called bottom effect, must be compensated to prevent the two pipe sections from moving relative to each other along the axis of the pipe under the effect of the internal absolute pressure because the bellows or bellows are not able to oppose these movements, but the device for connecting the two sections must moreover be adapted to avoid transmitting to the surrounding structures the forces necessary to prevent these relative movements (while allowing the relative movements of the two sections which are imposed on them under the effect of thermal expansion or other).

 To solve this problem, it is already known to arrange the two pipe sections perpendicular to one another and to connect them by a bend at 900.

In one of the types of this elbow connection device, a bellows is interposed between each end of the elbow and the adjacent pipe section. In addition, each bellows is associated with a system of articulated rods which prevents any axial movement of the pipe sections relative to the elbow, which ensures compensation for the bottom effect, while allowing their relative transverse movement. thanks to the articulated link system and the flexibility of the bellows. Because the two bellows are arranged in perpendicular planes, this device nevertheless allows one of the pipe sections to move in all directions relative to the other pipe section under the effect of thermal expansion. or others.

 In another type of connection device with two bellows, the two pipe sections are arranged perpendicular to each other and are joined by a T-shaped piece at 900, a first branch of which is fixed directly to one pipe sections, a second branch of which is connected to the other pipe section by a bellows and the third branch of which is closed by a plate with the interposition of a second bellows. This plate is connected to the opposite flange of the bellows of the other pipe section by means of a system of articulated links or the like so as to fix the distance between this flange and the plate. With this arrangement, the relative displacements imposed on the two sections of pipe are authorized in all directions by the fact that the bellows, which are aligned axially, are left free to work both in their plane, and perpendicular thereto, while the connection between the plate and the flange ensures compensation for the background effect. Alternatively, the connection between the plate and the flange can be replaced by direct fixing of the plate to a fixed part of the surrounding structure, but this has the aforementioned drawback that the forces due to the bottom effect are taken up by this surrounding structure.

 Although the connection device with two elbow bellows or T-piece compensates for the bottom effect, it has many disadvantages.

Thus, first of all, it requires having an elbow or T-piece, which complicates the installation of which the pipe is a part and results in a space requirement which can sometimes be too great. On the other hand, there is a limitation on the amplitude of the relative displacements of the two pipe sections in the case of rod systems, the latter being of fixed length. In addition, the systems with rods or the like exhibit friction which causes parasitic forces and, if they are placed inside the pipe, constitute an obstacle to the flow of the fluid or risk deteriorating. in the presence of corrosive fluids. In addition, when the links work in compression, it is necessary to provide buckling gauges and there is a risk of instability of the device. Finally, when the pressure varies along the axis of the pipe due to the difference in height geometrical between the two bellows, which can be important in the case of water boxes of condensers, the exact compensation of the bottom effect can only be achieved for a pressure regime by taulier.

 Another connection device is also known between two sections of pipe aligned along the same axis and comprising a bellows disposed between the two sections and a system of articulated rods, on the one hand, on a flange secured to the first section of pipe and, on the other hand, on a plate itself flashing with a spring at one end thereof, the other end being secured to a second flange secured to the latter of the second pipe section. With this device, the bottom effect is compensated by a prestressing of the springs associated with each link and exerting between one of the ends of these and one of the flanges an effort equal and opposite to that resulting from the internal absolute pressure in the pipe .Thanks to this device, the relative displacements imposed on the pipe sections under the effect of thermal or other expansions are allowed in all directions thanks to the possibility of more or less deformation of the springs in all directions. However, these springs must be tared for a given state of the circuit of which the pipe is a part, namely operation or stopping of this circuit, so that the springs always produce in the other state of the circuit a harmful effect comparable to the effect Therefore, this device only partially reduces the background effect and not completely compensates for it.

 To overcome the drawbacks of the devices mentioned above, the invention aims to provide a flexible connection device between two sections of pipe for pressurized fluid which makes it possible to ensure the automatic and exact oempensaticn of the background effect whatever the operating regime of the circuit of which the pipe is a part and which is of reduced bulk.

 To this end, the subject of the invention is a flexible connection device between a first and a second section of a pressurized fluid pipe, comprising at least one flexible connection element connecting said sections and effect compensation means bottom associated with this element, characterized in that said compensating means comprise an annular chamber with variable volume disposed around said consuit and delimited by a first and second opposite rigid walls extending transversely around the pipe and by two walls annulars surrounding said pipe, the first rigid wall being secured in translation of the first section and the second rigid wall being secured in translation of the second section, said compensation means also comprising at least one duct connecting one of the sections to the chamber for applying internal pressure from the pipe to the chamber.

 According to a characteristic of the invention, the first rigid wall is arranged, in the axial direction of the pipe, on the side opposite to the first section relative to the second rigid wall.

 According to another characteristic of the invention, the section of the chamber perpendicular to the axis of the pipe is substantially equal to the cross section of said pipe sections.

Other features and advantages of the invention will emerge from the description which follows of a particular embodiment of it given solely by way of example and illustrated by the appended drawing in which
Fig. a single is a longitudinal section view of a connection device according to the invention.

Referring to the drawing, there are two aligned sections 1 and 2 of a cylindrical pipe which are connected together by a connecting element 3 constituted, in the example shown, by a bellows. An annular chamber with variable volume 4 is arranged around the section 2 in the immediate vicinity of the bellows 3. The annular chamber 4 is delimited by two opposite rigid walls 5 and 6 extending radially around the section 2 and by two coaxial annular walls 7 and 8. The rigid wall 5 is constituted by an annular disc fixed directly to the section 2 by an internal rim 9 while the rigid wall 6, also constituted by an annular disc, is fixed at its periphery to a ferrule 10 itself integral of the section 1. The wall 6 is disposed on the side opposite to the section 1 relative to the rigid wall 5 so that the annular chamber 4 is enclosed within the volume delimited by the ferrule 10, the rigid wall 6, the section 2, the bellows 3 and the section 1. The two other walls 7 and 8 of annular shape of the chamber 4 are constituted by flexible elements such as bellows
Finally, the internal volume of the annual chamber 4 is placed in communication with the interior of the section 2 via a series of conduits 11. Although the presence of several conduits 11 is preferable, it should be noted that only one of these may be sufficient to allow the connection device which has just been described to fulfill its role of compensating for the background effect.

 In operation, the annular chamber 4 is maintained at the pressure prevailing at the level of the conduits 11 by virtue of the communication which these establish between the chamber 4 and the section 2. In addition, the radial section of the annular chamber 4 is equal to the radial section of sections 1 and 2 so that equal pressures have the same effects in the pipe and the annular chamber. If there is an absolute pressure difference between the inside of the pipe and the external ambient environment, this results in stresses in opposite directions as indicated for example by the arrows F1 and F2. These stresses correspond to the background effect which, in the example shown, tends to separate the sections 1 and 2. However, as there is in the chamber 4 the same pressure as at the bellows 3, this pressure exerts on the walls 5 and 6 of the forces fl and f2 respectively. However, as shown in FIG. , the force f2 exerted on the wall 6, which is integral with the section 1, is in the opposite direction to the stress F1, while the force fi exerted on the wall 5 integral with the section 2 is opposite to the stress F2 so that the forces f2 and fi respectively oppose the stresses FI and F2. Given that, moreover, the radial section of the chamber 4 is approximately equal to the radial section of the sections 1 and 2, with a difference almost necessary to take into account the difference in geometric height and the weight of fluid contained in the chamber, it is understood that the pressure prevailing in the annular chamber 4 exactly compensates for the bottom effect which manifests itself in the sections 1 and 2 of pipe.

 The connection device according to the invention therefore makes it possible to compensate for the background effect whatever the variation of the pressure in the pipe due to the fact that the pressure prevailing in the chamber 4 is almost that prevailing in the pipe at the level of the bellows 3. On the other hand, this is not the case in the bellows devices of the prior art in which the two bellows are arranged at different heights because this difference in geometric height introduces a constant term which is superimposed on the pressure variation of the liquid in the pipe. The connection device according to the invention therefore makes it possible to compensate for the bottom effect while allowing, by means of a single bellows 3, relative movements of the sections 1 and 2, one relative to each other in all directions since nothing prevents the bellows 3 from working both axially and radially.

 The device according to the invention therefore has 1 advantage of being very compact since it does not require the use of an elbow or part made of ToIl does not introduce any mechanical friction during the displacement of the pipe sections due to thermal expansions. or others and no limitation is imposed on these trips. It also does not require any device for taking up the bottom effect inside the pipe, and the protection of the assembly against corrosion can be easily achieved, this protection not being subjected to any friction.

Finally, this device provides compensation for the background effect at all operating modes of the circuit of which the pipe is a part.

 Of course, numerous modifications can be made to the embodiment described without departing from the scope of the invention. Thus, for example, the bellows 7 and 8 could be replaced by a flexible toric element disposed between the two rigid walls. # 'on the other hand, the rigid wall 6 could be connected to a radial flange of the section 1 by articulated links so as to allow relative radial movement between these elements. The annular chamber could also be produced in the form of a cylinder-piston assembly in which the cylinder defining one of the rigid walls and the annular walls would be integral with one of the two sections and the piston defining the other rigid wall would be connected to the other section by articulated links or equivalent, or vice versa. It will also be noted that the position of the conduits 11 is not critical but that it is desirable for them to open into the conduit as close as possible to the bellows 3. Finally, it should be understood that the invention is also applicable to pipes of non-circular section and that the device does not necessarily have an axial symmetry.

Claims (9)

 1. A flexible connection device between a first and a second section of a pressurized fluid pipe, comprising at least one flexible connection element connecting said sections and background effect compensation means associated with said element, characterized in that that said compensation means comprise an annular chamber with variable volume (4) disposed around said pipe (1,2) and delimited by first and second opposite rigid walls (5,6) extending transversely around the pipe and by two annular walls (7,8) surrounding said pipe, the first rigid wall (6) being integral in translation with the first section (1) and the second rigid wall (5) being integral in translation with the second section (2), thus that at least one conduit (11) connecting one of the sections (2) to the chamber (4) to apply the internal pressure of the conduit to the chamber  2. Device according to claim 1, characterized in that the first rigid wall (6) is arranged, in the axial direction of the pipe, on the side opposite to the first section (1) relative to the second rigid wall (5).  3. Device according to any one of claims 1 and 2, characterized in that the section of the chamber (4) perpendicular to the axis of the pipe is substantially equal to the cross section of said sections (1,2) of pipe .  4. Device according to any one of claims 1 to 3, characterized in that the first and second rigid walls (6,5) are rigidly fixed respectively to the first and second sections (1,2).  5. Device according to claim 4, characterized in that the first rigid wall (6) is an annular disc integral at its periphery with a ferrule (10) fixed to the first section (1) and the second rigid wall (5> is an annular disc fixed directly to the second section (2).  6. Device according to any one of claims 1 to 5, characterized in that said annular walls (7,8) are constituted by flexible elements of the bellows type.  7. Device according to any one of claims 1 to 5, characterized in that the annular chamber is delimited by a cylinder-piston assembly whose cylinder defines one of said wall walls and said annular walls and whose piston defines the another rigid wall.  8. Device according to any one of claims 1 to 5, characterized in that the two annular walls are part of a flexible toric element disposed between said rigid walls.  9. Device according to any one of claims 1 to 8, characterized in that the duct (s) (11) open into the duct in the immediate vicinity of said flexible connection element (3).