FR2997472A1 - Tubular connection unit, has locking spacer comprising abutment portion that is arranged against leg, and exerting support by abutment portion against leg to hold fastening units when bearing surface is subjected to pressurize fluid - Google Patents

Abstract

The connection unit (1) has a tubular base plate (5) comprising a fastening unit (14) i.e. groove (15), and a tubular body (3) comprising another fastening unit (42) i.e. pin (43), which co-acts with the former fastening unit so as to block an axial relative movement of the body in the plate. A locking spacer (7) is movable in relation to the body and/or the plate. The spacer has an abutment portion arranged against a deformable leg (33), and exerts a support by the abutment portion against the leg to hold the fastening units when a bearing surface (64) is subjected to pressurize fluid.

Description

The present invention relates to a coupling comprising a base and a body, the body being intended to be received in the base. In a manner known in such a type of connection, the base comprises a first fixing member and the body comprises a second member. 5, the first fixing member and the second fixing member cooperating so as to block the axial relative movement of the body in the base. A service position of the coupling is defined by the positioning of the body in the base. In the operating position, a fluid can for example flow in the connection: for optimal operation, the cooperation between the body and the base must not stop. In other words, the body must not withdraw from the base. The cooperation of the body and the base can stop by a user intervention to manually separate the body and the base. The cooperation may also cease due to a separation of the base and the involuntary body by an external interference element. The present invention aims to solve all or some of the disadvantages mentioned above. To this end, the present invention relates to a tubular connector having a tubular base having a first fixing member, and a tubular body intended to be received in the base and comprising a second fixing member intended to cooperate with the first member of the tube. fixing the base so as to block the axial relative movement of the body in the base. The coupling is characterized in that the first fixing member 25 or the second fixing member is included on a deformable tab, the fitting comprises a locking spacer of the body in the base, the spacer being movable relative to the body tubular and / or at the base and comprising: - a bearing surface for a fluid under pressure, and 30 - a stop portion against the deformable tab, the spacer being arranged to exert support by its abutment portion against the deformable tab so as to maintain the cooperation of the first and second fixing member when the bearing surface is subjected to the pressure of the fluid. The deformable tab is disposed on the body or respectively on the base. The spacer locks the body to the base when the bearing surface is subjected to the fluid under pressure. The fluid under pressure is the triggering element of the lock. It should be noted that pressurized fluid is understood to mean a fluid that is subjected to a pressure greater than the ambient pressure outside the fitting. According to one aspect of the invention, the body is orientable radially relative to the base. According to one aspect of the invention, the fluid under pressure is a fluid flowing in the connection. According to one aspect of the invention, the abutment portion has an abutment surface arranged to allow displacement of the spacer by pressing the deformable tab against said surface in the absence of fluid pressure. In the absence of fluid pressure, the spacer is able to move under the action of the deformable tab so as to allow separation of the first fixing member and the second fixing member. Thus, an operator wishing to separate the base of the body may exert a force to axially separate the base of the body. This force is transmitted at the first and second members which are driven in a disengagement movement which causes a deformation of the deformable tab, the deformable tab pushing the spacer by pressing, preferably by a sliding support, on the surface stop. According to one aspect of the invention, the abutment surface is oriented obliquely with respect to an extension direction of the deformable tab. The oblique orientation facilitates the displacement of the spacer by pressing the deformable tab against the abutment surface in the absence of fluid pressure. According to one aspect of the invention, the abutment portion comprises a stop surface intended to limit the relative axial movement between the spacer and the deformable tab. When the spacer is subjected to the pressure forces of the fluid, the stop surface abuts against the deformable tab: the displacement of the spacer under the effect of the pressure forces stops. According to one aspect of the invention, the bearing surface is oriented transversely to a flow direction of the fluid in the fitting.

According to one aspect of the invention, the tubular body comprises a tubular frame and the body comprises the deformable tab comprising a first end secured to the frame and a second end having the second fixing member.

The body has a free space between the deformable tab and the frame, the spacer being at least partially inserted into the free space when the bearing surface is subjected to the pressure of the fluid. When the body is inserted into the base, the tab deforms towards the inside of the free space and then reaches a locking position when the body is in the base and the first and second fastening members are in take. When removing the body of the base, the tab deforms and then returns to its original shape once the body outside the base. The tab deforms while moving towards the frame and penetrating the free space during the insertion and the withdrawal. The deformation can take place only in the absence of pressure forces. In the presence of pressure forces, the spacer prevents penetration of the tab within the space. According to one aspect of the invention, the lug is provided with at least one longitudinal slot from the first end to the second end, the longitudinal slot being open between the free space and the outside of the body in the radial direction. The slot creates an additional available volume for deformation of the tab during insertion and removal of the body into the base. According to one aspect of the invention, the first fixing member is a groove, respectively a lug and the second fixing member is a lug, respectively a groove, the cooperation of the first and second fixing member being defined by a stop of the lug on a wall of the groove. According to one aspect of the invention, the spacer is annular and surrounds the tubular frame. The spacer is movable along the outer surface of the frame. According to one aspect of the invention, the spacer is symmetrical with respect to a radial plane. When fitting the fitting, the direction of insertion of the spacer around the frame does not matter. According to one aspect of the invention, the tab and the free space are annular, the free space surrounding the frame and the tab surrounding the free space.

The annular tab allows a good axial alignment during the insertion of the body into the base. The force required for the deformation of the tab is distributed radially, which prevents the body and the base from flexing relative to each other during assembly.

According to one aspect of the invention, the spacer comprises sealing means, preventing any fluid communication, between the inside of the connector and the external medium, the inside of the connection containing the pressurized fluid, the external medium also comprising free space and groove. The spacer prevents any leakage of fluid to the outside. The sealed spacer is ideally suited for applications in which the pressure of the fluid flowing in the fitting is greater than the external pressure. In particular, the fluid pressure may be greater than the external pressure by a value of 0 to 30 bar. In particular, the pressure of the fluid may be between 0 and 15 bar and in particular have a value of the order of 10 bar, for example between 7 and 12 bar. According to another aspect of the invention, a sealed annular seal prevents any fluid communication between the interior of the connector and the external medium, the inside of the connection containing the pressurized fluid, the external medium also comprising the spacer, the Free space and groove, the annular seal transmitting the fluid pressure forces to the spacer by contact. The ring seal prevents fluid leakage to the outside. The ring seal is ideally suited for applications in which the pressure of the fluid flowing in the fitting is high. In particular, the pressure of the fluid may be greater than the external pressure by a value of 0 to 90 bar. In particular, the pressure of the fluid may be between 0 and 50 bar and in particular have a value of the order of 10 bar, for example between 7 and 12 bar. According to one aspect of the invention a socket of the base has an internal thread. According to one aspect of the invention a socket of the base has an external thread and an internal bore. In any case the invention will be better understood with the aid of the following description with reference to the appended diagrammatic drawings showing, by way of non-limiting example, an embodiment of this connection. Figure 1 is an exploded perspective view of a connector according to a first embodiment. Figure 2 is a longitudinal sectional view of the locked connection, according to the first embodiment. Figure 3 is a detail of a longitudinal sectional view of the unlocked connector according to the first embodiment. Figure 4 is a detail of a longitudinal sectional view of the locked connection, according to the first embodiment. Figure 5 is a longitudinal sectional view of the lock fitting according to a second embodiment. Figure 6 is a sealed spacer according to the second embodiment. As illustrated in FIG. 1, a tubular connection 1 comprises a tubular body 3, a tubular base 5 and a locking spacer 7, the body being orientable radially with respect to the base. According to a first embodiment, the connector 1 also comprises an annular seal 9. As illustrated in FIG. 2, the base 5 has an internal wall. A first socket 11, intended to receive the tubular body 3, comprises a first outer portion 13. The radial extent of the first outer portion 13 decreases towards the inside of the base 5. A second portion, located in the extension of the first portion 13 towards the inside of the base, has a first fastener 14 in the form of a groove 15. The groove 15 has a radial wall 17 opposite to the first portion 13, intended to serve as a stop 19. A second socket of the base 5, opposite the first socket 11, has an internal bore 21. As illustrated in FIGS. 1 and 2, the tubular body 3 has a first socket 23 intended to be connected to a tubular pipe 25.

The tubular body 3 has a second socket 29, intended to be secured to the first socket 11 of the base 3. The tubular body 3 comprises a tubular frame 31 and a deformable tab 33 annular. The tab 33 surrounds the frame 31 and has longitudinal slots.

A first end 37 of the deformable tab 33 is integral with the frame 31. A second end 39 of the tab 33 is not in contact with the frame 31. A free space 41 defines an extent between the deformable tab 33 and the frame 31. The second end 39 has a second fixing member 42. The second fixing member 42 is a lug 43 oriented radially outwardly of the body 3. As illustrated in FIG. 2, when the body 3 is in the base 5, the lug 43 is partly inside the groove 15. The base 5 has a second stop 47 limiting the introduction of the body 3 into the base 5.

The spacer 7 is able to move between a position inserted in the free space 41, as shown in FIG. 4 and a position disengaged from the free space 41, as shown in FIG. 3. The inserted position of the spacer 7 corresponds to the locked position and the disengaged position corresponds to the unlocked position.

In the locked position the spacer 7 maintains the lug 43 in the groove 15. The spacer 7 prevents deformation of the lug 33 and thus the removal of the body 3 of the base 5. The spacer 7 also has an inner surface 53 in contact with the frame 31. The spacer 7 comprises an annular abutment portion 57 located within the free space 41 in the inserted position. The spacer 7 comprises an annular central portion 59 integral with the abutment portion 57. The central portion 59 comprises a stop surface 60 abutting against the second end 39 of the deformable tab 33 in the inserted position.

The spacer comprises an annular support portion 61, symmetrical with the abutment portion 57 with respect to the radial plane 62. The annular seal 9 surrounds the frame 31 and creates a tight separation, preventing any fluid communication, between the inside 63 of the connection 1 and the external medium 65. The external medium 65 being in fluid communication with the free space 41 and the groove 15.

The spacer 7 is subjected to the pressure forces of a fluid flowing in the fitting 1. The seal 9 moves towards the spacer 7 and pushes the spacer on a bearing surface 64 to the inserted position . The bearing surface 64 is a radial surface of the central portion 59 and the bearing portion 61. The pressure forces hold the spacer 7 in position. When the pressure forces generated by the fluid are too low to maintain the spacer 7 in the inserted position, the spacer 7 is able to move to the disengaged position. An inclined wall or abutment surface 66 facilitates the displacement of the spacer 7 from the inserted position to the disengaged position. According to a second embodiment, the spacer 7 and the annular seal 9 constitute one and the same piece: a sealed spacer 67. The sealed spacer 67 has the same properties as the spacer 7 and the joint 9 joined together. Locking, controlled by the fluid prevents any separation of the connection 1 when the fluid flows or when the pressure of the fluid inside 63 of the connector 1 is substantially greater than the external pressure. In other words, the connector 1 is systematically locked during use. As goes without saying, the invention is not limited to the sole embodiment of this connection, described above as an example, it encompasses all the variants.

Claims (11)

REVENDICATIONS1. Tubular connector (1) comprising a tubular base (5) having a first fixing member (14), and a tubular body (3) intended to be received in the base (5) and comprising a second fixing member (42) intended to to cooperate with the first fastener (14) of the base (5) so as to block the axial relative movement of the body (3) in the base (5), characterized in that the first fastening member (14) ) or respectively the second fastening member (42) is included on a deformable lug (33), the coupling (1) comprises a spacer (7) for locking the body (3) in the base (5), the spacer (7) being movable relative to the tubular body and / or the base (5) and comprising: - a bearing surface (64) for a fluid under pressure, - a stop portion (57) against the deformable tab , The spacer (7) being arranged to exert a support by its abutment (57) against the tab (33) deformable so as to maintain the first and second fastener (42) when the surface is subjected to fluid pressure. 20 2. Fitting (1) according to claim 1, wherein the abutment portion (57) has an abutment surface (66) arranged to allow movement of the spacer (7) by a support of the tab (33) deformable against said surface in the absence of fluid pressure. 25 3. Fitting (1) according to one of the preceding claims, wherein the abutment portion (57) comprises a stop surface (60) for limiting the relative axial movement between the spacer and the deformable tab. 4. Fitting (1) according to one of the preceding claims, wherein the bearing surface (64) is oriented transversely to a flow direction of the fluid in the fitting (1). 5. Fitting (1) according to one of the preceding claims, wherein the tubular body comprises a frame (31) tubular and é and supporting engagement portion (64) the body comprises the tab (33) deformable comprising a first end (37) integral with the frame (31) and a second end .39) comprising the second fixing member (42), the body (3) having a free space (41) between the deformable tab (33) and the frame (31), the spacer (7) being at least partially inserted into the free space (41) when the bearing surface (64) is subjected to the pressure of the fluid. The tubular connector (1) according to claim 5, wherein the tab (33) is provided with at least one longitudinal slit (35) from the first end (37) to the second end (39), the slit (33). 35) being open between the free space (41) and the outside of the body (3) in the radial direction. 7. Fitting (1) according to one of the preceding claims, wherein the first fixing member (14) is a groove (15), respectively a lug (43) and the second fixing member (42) is a lug (43), respectively a groove (15), the cooperation of the first and the second fixing member (42) being defined by a stop (19) of the lug (43) on a wall (17) of the groove (15). ). 20 8. Fitting (1) according to one of the preceding claims, wherein the spacer (7) is annular and surrounds the frame (31) tubular. 9. Connection (1) tubular according to one of the preceding claims, wherein the tab (33) and the free space (41) are annular, the free space (41) surrounding the frame (31) and the leg (33) surrounding the free space (41). 10. The tubular connector (1) according to claim 9, wherein the spacer (67) comprises sealing means, preventing any fluid communication, between the inside (63) of the fitting (1) and the external medium ( 65), the inside (63) of the connector (1) containing the pressurized fluid, the external medium (65) also comprising the free space (41) and the groove (15). 11. A tubular connection (1) according to claim 10, wherein a sealed annular seal (9) prevents any fluid communication between the inside (63) of the connector (1) and the external medium (65), the inside ( 63) of the connector (1) containing the pressurized fluid, the external medium (65) also comprising the spacer (7), the free space (41) and the groove (15), the annular seal (9) transmitting the fluid pressure forces to the spacer (7) by contact.