FR2892492A1 - Valve and corrugated stainless steel tube or pipe e.g. gas pipe, connection securing device for fluid circuit, has valve connector element with housing receiving magnetic pistons, and keys releasing pistons from housing - Google Patents

Abstract

The device has magnetic pistons (5) housed, until the end of intervention and under elastic thrust constraint, in a connector element (3) of a pipe or corrugated stainless steel tube (1). A connector element (4) of a valve includes a housing (6) for receiving the pistons partially after the intervention. A key includes magnets for releasing the pistons from the housing in order to intervene on a fluid circuit unit. The pistons include springs (52) for ensuring the elastic thrust constraint of the pistons. Independent claims are also included for the following: (1) a secured pipe fitting comprising a securing device (2) a secured valve comprising a securing device.

Description

The invention relates to a device for securing an organ of a

  circuit such as a pipe coupling and a valve, and a conduit connector and a valve comprising such a device.

  For the connection of two metal pipes or ducts, essentially the welding technique and the screwing technique are used. For the connection of non-metallic ducts, bayonet connections are also used in addition to gluing and screwing. The choice of techniques for connecting metallic or non-metallic pipes depends, among other things, on the nature of the installation, namely permanent installation or temporary installation. The present invention relates to both permanent installations and temporary installations, made by screw connections or by bayonet connections. The screw connection and the connection by means of bayonet connections are both based on bringing together, maintaining or blocking two opposing elements by screwing or, more generally, by a rotational movement of one of the two connections relative to each other or two connections relative to each other. Depending on the fluid to be transported through the conduit, it may be interesting, if not necessary, to be able to prevent unauthorized persons from handling certain connections sensitive to safety. As examples, it may be gas conduits or ducts for conveying a fluid at high pressure or at high temperature. Other examples may be found in ducts supplying appliances having vital or other very important functions such as medical oxygen ducts in a hospital. Whatever the nature of the conduit, rigid or flexible, metallic or nonmetallic, and whatever the fluid it carries, it may be important not only to make disassembling a connection difficult or even impossible for people not authorized, but also to control the interventions on certain connections even if they are carried out by authorized persons, and thus to document precisely each intervention according to the precise nature of the intervention and the speaker. A comparable need for limiting the circle of persons authorized to carry out certain manipulations may arise in relation to valves or taps placed, for example, at the inlet of a conduit branch or forming a draw point for the fluid transported in the conduit. The object of the invention is thus to propose means making it possible to prevent unauthorized persons from intervening on certain members of a circuit, in particular on the connection between conduits of this circuit and on valves or taps (called -after uniformly valves) of this circuit, and open the possibility of manipulation control on circuit elements such as connections and valves. The object of the invention is achieved with a securing device for preventing an unauthorized intervention on a member of a fluid circuit such as a pipe coupling previously closed or a valve previously opened or closed by a movement at least partially in rotation of a first element with respect to a second element, around a common axis of the two elements. According to the invention, the device comprises at least one magnetic piston intended to be housed, until the end of the intervention, entirely and under elastic pressure stress, in one of the two elements of the organ, the other the element being provided with a housing for receiving the piston partially after the end of the intervention, and an at least partially magnetic key for pulling the piston out of the housing in order to intervene on the circuit member. According to the provisions of the invention, when the circuit member is a pipe coupling, the coupling therefore does not comprise only a means for locking or blocking one of the two connection elements with respect to the other element. but also involves the use of a not only mechanical key adapted to the shape of the connection elements, but especially magnetic, since the locking element, a magnetic piston, is not accessible from the outside when the two connecting elements are brought close to one another and locked with bayonet or screwed. The magnetic key is essential to unlock the two connecting elements. And when the circuit member is a valve, the integral axis of the shutter (two-way valve) or deviating wall (three-way valve) is provided with a body large enough to form one of the two elements in which respectively is housed the magnetic piston or is provided a receiving housing for the piston, the other element then being constituted by the body of the valve. The device of the invention can also be adapted to all types of mountable connectors, removable, and shapes and diameters different. The device of the invention may also have at least one of the following features, considered individually or in any technically possible combination: the device comprises, for calibrated spring intended to ensure the piston's thrust; the or each of the pistons and opposite magnetic polarities; -the or each of the pistons and magnetic polarities equal; each piston, a constraint in

  the key are of the key are de - the device comprises, for each piston, a retaining means for retaining the piston entirely in the corresponding element of the connection until the end of the closing of the connection; the device comprises at least two pistons and the pistons all have the same shape and the same dimensions; the device comprises at least two pistons and the pistons have different shapes; the mechanical strength of the piston or of each of the pistons is greater than the mechanical strength of each of the two elements of the coupling. The object of the invention is also achieved with a secure connection of two ducts and with a valve, and which comprises a securing device as described above. The connector of the invention may furthermore have at least one of the following characteristics, considered individually or in any technically possible combination: the connector comprises a first coupling element in which at least one piston is housed; second coupling member which is provided with at least one housing for partially receiving the piston or pistons after the end of the closing of the connector, the number of housing being at least equal to that of the pistons; - The connector comprises, for each piston, a clip forming a retaining means for retaining the piston entirely in the corresponding element of the connection until the end of the closing of the connection; the number of housings is greater than that of the pistons and the housings and the pistons are arranged irregularly around the ducts to be connected. Other features and advantages of the present invention will emerge from the following description of an embodiment of the invention and its variants, description made with reference to the drawings in which: - Figures 1 to 4 show some steps the establishment and securing of a connection of two pipes or ducts, - Figure 5 shows the first phase of the opening of the secure connection, - Figures 6 to 12 show different shapes and locations of the Securing element of the device 10 of the invention, and - Figures 13A, 13B, 13C and 14 show two tools for mounting and in particular the disassembly of a connector comprising the device of the invention. FIG. 1 shows a securing device 15 according to the invention applied to the connection of a corrugated stainless steel tube (CSST) 1 with, for example, the outlet 2 of a valve or of another tube. The tube 1 is provided with a connecting element 3 and the outlet 2 is provided with a connecting element 4. According to the representation of FIG. 1 and the other figures of the drawings, the connecting element 3 is designed to be screwed on the outlet 2 of a valve or other conduit and maintain, at the end of the screwing, the support on the connecting element 4 of the outlet 2. It is however recalled that the invention also applies to bayonet closures, this type of closure involving rotation of a part of a turn about a common axis of rotation A of the two elements to be connected, and valves whose actuation opening and closing involves either a screwing movement or part of a turn around an axis. Because of the similarity of the provisions of the invention between application to a conduit connection and valve application, the following description of the invention is made solely with the aid of the example of a duct connection.

  FIG. 1 further shows that the device of the invention comprises at least one magnetic piston 5, here two magnetic pistons 5, housed entirely in a suitable housing 51 and under the elastic thrust stress of a spring 52, in the first The second coupling element 4 is, in counterpart, provided with a housing 6 for receiving the magnetic piston 5 partially after the end of the closing of the coupling.

  It is easy to understand that the arrangement of the magnetic piston 5 and the receiving housing 6 can be inverted, that the magnetic piston 5 is then disposed in the second connecting element 4 and that the receiving housing 6 is disposed in the first connecting element 3. It is also conceivable that, without departing from the principle of the present invention, the magnetic piston 5 and the housing 6 are respectively disposed in the first and second connecting element so that the piston makes a movement radially, inwards or outwards, when the two coupling elements together must not exceed a predetermined axial length which would not leave enough room for an axial arrangement according to FIG. 1. FIG. magnetic piston 5 is held in the connecting element 3, until the end of the closing of the coupling, by a retaining element 9 in the form of a lip shaped to be removed from the connecting member 3 just before the end of the relative rotational movement between the two connecting members 3, 4, as will be explained in detail later. FIG. 2 shows the connection of FIG. 1 in an intermediate step of placing the closure of the coupling, the pipe 2 being placed in abutment on the threaded portion of the outlet 1 and the second connecting element 4, under the form of a nut having two housings 6 for receiving the magnetic pistons 5 of the first element 3. The second coupling element 4 is shown in approach movement towards the first coupling element 3, this approach being symbolized in FIG. by two arrows oriented parallel to the common axis of rotation A and two arrows indicating a rotation clockwise from above. FIG. 3 shows approximately the end of the fitting of the connection fitting with the two coupling elements 3, 4 of the conduits 1 and 2. FIG. 3 shows in particular that the second coupling element 4 is almost resting on the first coupling member 3 and that the retaining means 8 is always in place to retain the magnetic pistons 5, against the thrust of the spring or elastic body 52, in the housing 51. FIG. 4 shows the arrangement of FIG. the difference being that the retaining means 8 have just been withdrawn between the two coupling elements 3, 4, which frees the path to the magnetic piston 5 and allows it, under the pressure of the spring elastic elements 52, to penetrate in the housing 6 of the second coupling element 4. In particular, FIG. 4 shows that, independently of the housing dimensions 6 in the second coupling element 4, the pistons 5 do not extend completely out of their housing. s initial 51 but enter the housing 6 partially only to be housed, in the blocking position, partly in their initial housing 51 and partly in the receiving housing 6 to thereby block any rotation (in case of screwing ) or partial rotation (in the case of bayonet locking) between the two elements of the coupling 3, 4. FIG. 5 shows the beginning of dismantling of a coupling comprising a securing device according to the invention, in an outlet 1 of a duct or a valve to which a duct 2 is connected. The two connecting elements 3, 4 bear against each other, as is the result of the screwing of the second element of connection 4 on the threaded portion of the outlet 1. Figure 5 also shows the presence of a key 7 having two magnets 9, or more precisely a magnet 9 by magnetic piston 5 on which it is necessary to act to unlock the connection.

  When the key 7 is put in place, each of the magnets 9 is aligned axially with respect to a corresponding magnetic piston 5 and attracts it towards it. This action on the magnetic pistons 5 out of their seats 6 of the second connecting element 4 and thus unlocks the latter, to open the connection by unscrewing the second element 4. The provisions shown in Figure 5 assume that the magnets 9 and the magnetic pistons 5 have opposite magnetic polarities. In the opposite case, when the magnets and the pistons have the same magnetic polarity, they repel each other, and the key 7 must be positioned above the connecting element 4. For the proper functioning of the device of the invention it is therefore Important to conform the two coupling elements 3, 4 so that, in the closed connection position, the housing or the housing 6 of the second connecting element 4 are aligned with the corresponding recesses 51 of the piston or pistons 5. The shape and the distribution of the housings 6 and 51 around the axis A of the two coupling elements 3, 4 can be chosen freely. Thus, by way of non-limiting example, FIG. 6 shows the arrangement of four magnetic pistons 5 at four of the eight corners of a first connecting element 3A, whereas FIG. 7 shows the arrangement of four magnetic pistons 5 distributed over four of the eight sections of a connecting element 3B.

  Figures 8 and 9 show, to fully demonstrate the independence of the principle of the present invention of any particular shape or any particular arrangement the pistons 5 about the axis A, different sections of a magnetic piston 5 on the same connection: a round cylindrical piston 5, an octagonal piston 5A, a square piston 5B with rounded corners, a hexagonal piston 5C and a square piston 5D with non-rounded corners. Figure 10 shows a first coupling member 3A with four pistons with a curved section. Figures 11 and 12 show magnetic pistons 5 in an asymmetrical arrangement respectively of eight or two pistons in the first connecting element 3F or 3G.

  The regular arrangement of the magnetic pistons 5 and the corresponding housings 6 in the connecting elements 3, 4 can be chosen more particularly for connections that can be disassembled by any specially authorized persons having access to a particular key 7. In other cases, that is to say when the number of persons authorized to dismount a certain type of connection must be limited, it is conceivable to use connectors according to FIGS. 8 to 10 on which the arrangement and possibly also the shape of the pistons and housing is irregular and requires a specific key to which predetermined persons have access only, for example, after signing a record of monitoring operations of assembly and disassembly of a fitting in question.

  FIGS. 13A, 13B and 13C show a first embodiment of a key necessary for dismounting a connector and comprising a device of the invention. FIG. 13A shows more particularly, in a top view or axial view of the mouth of the key, the arrangement of two magnets 9 for the dismantling of a connection according to FIG. 12. FIG. 13B shows the key 7 in a lateral view and Figure 13C shows the key 7 in a view in the axis of the sleeve of the key 7 with the mouth of the key facing. Figures 13B and 13C show more particularly that the magnets 9 do not occupy the entire thickness of the key 7 because, preferably, the mouth of the key 7 comprises a recessed portion 7A for laying precisely and partially in the cap, the key 7 on the first coupling element 3. The depression 7A is not strictly necessary for the implementation of the invention. However, since it is a question of aligning the magnets 9 on the magnetic pistons 5, it is preferable to create preferred positions, or even marked as such, so that the operator using the key 7 to dismount a fitting according to the Figure 5 should not unnecessarily seek the correct position of the key 7. Furthermore, the key 7 shown in Figures 13A, 13B and 13C is suitable for a specific connection according to its shape and dimensions, as shown in FIG. 13A by the contour 7B of the connector 3. In order to be able to use the same key for connections of different diameters, FIG. 14 shows the design of a key 10 in the form of a pincer or pincers, with magnets 11 housed in the jaws of this key.

Claims (13)

  1. Securing device for preventing an unauthorized intervention on a member of a fluid circuit such as a pipe coupling previously closed or a valve previously opened or closed by a movement at least partially in rotation of a first element (3) with respect to a second element (4), about a common axis of the two elements (3, 4), characterized in that it comprises at least one magnetic piston (5) intended to be housed, until at the end of the intervention, fully and under elastic pressure stress, in one (3) of the two elements (3, 4) of the fitting or the valve, the other element (4) being provided with a housing ( 6) intended to receive the piston (5) partially after the end of the intervention, and a key (7) at least partially magnetic for pulling the piston (5) out of the housing (6) in order to intervene on the circuit organ.   2. Device according to claim 1, characterized in that it comprises, for each piston (5), a calibrated spring (52) for providing the thrust force of the piston (5).   3. Device according to claim 1 or 2, characterized in that the or each of the pistons (5) and the key (7) are of opposite magnetic polarities.   4. Device according to claim 1 or 2, characterized in that the or each of the pistons (5) and the key (7) are of equal magnetic polarities. 30   5. Device according to any one of claims 1 to 4, characterized in that it comprises, for each piston (5), a retaining means (8) for retaining the piston (5) entirely in the element ( 3) corresponding circuit member until the end of the intervention.   6. Device according to any one of claims 1 to 5, characterized in that it comprises at least two pistons (5) and that the pistons (5) all have the same shape and the same dimensions.   7. Device according to any one of claims 1 to 5, characterized in that it comprises at least two pistons (5) and the pistons (5) have different shapes.   8. Device according to any one of claims 1 to 7, characterized in that the mechanical strength of the piston (5) or each of the pistons (5) is greater than the mechanical strength of each of the two elements (3, 4) of the circuit organ.   9. Secure duct connection characterized in that it comprises a securing device according to any one of claims 1 to 8.   10. A coupling according to claim 9, characterized in that it comprises a first connecting element (3) in which is housed at least one piston (5), and a second connecting element (4) which is provided with less a housing (6) for partially receiving the piston or pistons (5) after the end of the closure of the connector, the number of housing (6) being at least equal to that of the pistons (5).   11. A coupling according to claim 9 or 10, characterized in that it comprises, for each piston (5), a clip (8) forming a retaining means for retaining the piston (5) entirely in the element (3). ) of the connection until the end of the closing of the connection.   12. Connection according to any one of claims 9 to 11, characterized in that the number of housing (6) is greater than that of the pistons (5) and in that the housing (6) and the pistons (5) are arranged irregularly around the conduits to be connected.   13. Safety valve characterized in that it comprises a securing device according to any one of claims 1 to 8.