FR2894011A1 - Fluid transfer channel`s flexible pipe end and rigid tube end connecting system for automobile field, has tooth presenting right section for opposing rotation between rigid tube and flexible pipe after being assembled with each other - Google Patents

Abstract

The system has a nozzle (5) with retention teeth (7), which is machined towards the end of a rigid metallic tube (1) and on which an end of a flexible pipe is fitted with force. A tooth (7a) of the nozzle presents a non circular right section for opposing relative rotation between the tube and the pipe after being assembled with each other. The tooth has a right section in the shape of frustum of cone with an edge (10) at a hexagonal base.

Description

SEALED CONNECTION SYSTEM BETWEEN AN END OF A RIGID TUBE AND

  AN END OF A FLEXIBLE PIPE OF A FLUID TRANSFER PIPE.

  The invention relates to a sealing connection system between one end of a rigid tube and one end of a hose of a pipe or a fluid transfer conduit. In general, particularly in the field of the automotive industry, fluid transfer lines are used which comprise rigid parts and flexible parts depending in particular on the temperature of the engine compartment which may vary along the path followed by the pipeline. The rigid parts are most often metallic when the pipe is in the immediate vicinity of engine members having high operating temperatures, and the flexible parts are made of plastic or rubber when the operating temperatures of neighboring members are lower. , knowing that these flexible parts promote ray catches and especially have a manufacturing cost significantly lower than that of the rigid parts. Under these conditions, a fluid transfer line comprises at least one connection system for connecting together and sealingly an end of a rigid portion and an end of a flexible portion of the pipe. When the pressure of the fluids is not high, up to about 6 bars, we can use simple connection systems with a machined tail end machined at the end of the rigid tube and on which we force-fit it. end of the hose. However, these connection systems have a particular disadvantage that there can be a relative rotation between the rigid tube and the hose. Indeed, a fluid transfer line is generally not rectilinear and has at least one or more elbows, so that its connection ends have a well-defined position in space. If a relative rotation occurs between a rigid portion and a flexible portion of the pipe, it follows a change in the space of the position of the two connecting ends of the pipe. In other words, the geometrical configuration of the pipeline has changed in space without being able to return to its initial geometric configuration. This relative rotation between a rigid part and a flexible part can intervene during the storage of the pipes in the containers envisaged to convey them from the place of manufacture to the place of assembly, during the destocking of the pipes out of their containers on the place of assembly, and / or when an operator installs pipes on motor vehicles. This results in the occurrence of mechanical stresses on the pipe once mounted, these stresses can cause a flexible portion of the pipe in contact with a hot engine member and cause its deterioration.

  An object of the invention is to overcome this drawback of the aforementioned connection systems and this, in a simple manner and without increasing the cost of manufacture.

  For this purpose, the invention proposes a system for sealing connection between one end of a rigid tube and one end of a flexible hose, this device comprising a tip with retaining teeth forming a fir tail with a circular cross section, which is machined towards the end of the rigid tube and on which is adapted to be force-fitted by the end of the flexible hose, which is characterized in that at least one of the teeth of the tip of the rigid tube has a non-circular straight section to oppose a relative rotation between the rigid tube and the flexible pipe once assembled to one another.

  In general, the non-circular straight section tooth has a cross-section of polygonal shape, in particular a shape that can be hexagonal.

  According to other features of the invention, the tip of the rigid tube is made by stamping the end of the rigid tube, the rigid tube is generally metallic, and the hose is made of plastic (PA11 or PAl2) or rubber for example.

  A connection system according to the invention has the advantage of opposing a relative rotation between the rigid part and the flexible part of the pipe, the non-circular straight section of one of the teeth of the tip of the part. rigid having edges that form anchoring lines in the inner surface of the flexible portion that oppose this relative rotation.

  The invention also relates to a channelization of

  fluid transfer comprising at least one rigid tube and a hose, which

  is characterized in that the tube and the pipe are connected to one another by a connection device as defined above.

  Other advantages, characteristics and details of the invention will emerge from the additional description which will follow with reference to the accompanying drawings, given solely by way of example and in which:

  - Figure 1 is a perspective view of a tip of a rigid tube on which is adapted to be forced to force one end of a flexible pipe, according to a connection system according to the prior art mentioned in the preamble ;

  - Figure 2 is a sectional view along the line II-II of Figure 1; FIG 3 is a perspective view of a tip of a rigid tube on which is adapted to be forced by one end of a flexible pipe, according to a connection system according to the invention; and

  FIG. 4 is a sectional view along line IV - IV of FIG. 3.

  Figures 1 and 2 illustrate the prior art mentioned in the preamble for a connection system R between a rigid tube 1 and a flexible pipe 3 of a fluid transfer pipe. The end of the rigid tube 1 ends with a tip 5 which has, projecting at its periphery, several retaining teeth 7 forming a fir tail. The hose 3 is force-fitted on the nozzle 5 to come into contact with a peripheral bead 9 forming a stopper.

  Each retaining tooth 7 has in cross section, that is to say in a plane perpendicular to the longitudinal axis of the endpiece 5, a sawtooth profile. All the retaining teeth 7 are generally of the same dimensions, and have the particular feature of presenting along their entire length a cross section of circular shape.

  One embodiment of a connection system according to the invention is illustrated in FIGS. 3 and 4. With respect to the embodiment according to the prior art and as illustrated in FIGS. 1 and 2, the connection system R according to the invention differs in the presence of at least one retaining tooth 7a which does not have a circular cross section in cross section. This cross section is generally of polygonal shape, in particular a hexagonal shape.

  Thus, the non-circular cross section of the retaining tooth 7a of the nozzle 5 defines edges 10 which form anchoring lines in the inner surface of the hose 3 of the pipe, which oppose a rotation Relative between the tube 1 and the pipe 3. Thus, the presence of these edges 10 makes it possible to argue the value of the torque that must be applied to the connection system to obtain a relative rotation between the rigid tube and the hose of the pipeline. According to a cross-sectional view in the axis of the tube 1, the retaining tooth 7a has a hexagonal-shaped truncated cone-shaped cross-section (FIGS. 3 and 4) with its ridges 10. In the example illustrated in FIG. 3, the retaining tooth 7a is the last tooth farthest from the end of the tip 5, but it could just as well be before.

  In general, the rigid tube 1 is metallic, made of stainless steel or aluminum, for example, and the endpiece 5 with its teeth 7 and 7a and the bead 9 are directly obtained by stamping the end of the rigid tube. 1.

  A connection system according to the invention can be used in particular in a fuel transfer pipe, in a water vapor recovery pipe of a cooling circuit or in a control pipe for driving a turbo. compressor, knowing that such a connection system can hold up to fluid pressures of up to 6 bar. Tests were carried out with five metal tubes and five flexible polyamide hoses, these tubes and hoses having dimensions that vary with manufacturing tolerances. Then, using a torque wrench, it was measured the value of the torque to be applied to a connection system according to the prior art and according to the invention to obtain a relative rotation between the tube and the pipe . The table below gives the values of the rotational torques and shows that they are appreciably superior with connection systems according to the invention. prior art (N cm) invention (N cm) 34 48 23 51 32 42 33 54 22 52

Claims (8)

  1. System for sealing connection between one end of a rigid tube (1) and one end of a hose (3) of a fluid transfer line, this device comprising a tip (5) with retaining teeth (7) forming a fir tail with a circular cross-section, which is machined towards the end of the rigid tube (1) and on which is adapted to force-fit the end of the hose (3), characterized in that at least one of the teeth (7a) of the end piece (5) of the rigid tube (1) has a non-circular cross-section to oppose relative rotation between the rigid tube (1) and the flexible tube ( 3) once assembled to each other.   2. Connection system according to claim 1, wherein the tooth (7a) of non-circular cross section has a cross section of polygonal shape.   3. Connecting system according to claim 2, wherein the tooth (7a) of non-circular cross section at a cross section of hexagonal shape.   4. Connecting system according to claim 2 or 3, wherein the tooth (7a) of non-circular cross section has a cross-section of a truncated cone, hexagonal base, with ridges (10).   5. Connecting system according to one of the preceding claims, wherein the tip (5) of the rigid tube (1) is formed by stamping the end of the rigid tube (1).   6. Connection system according to one of the preceding claims, wherein the rigid tube (1) is metallic.   7. Connection system according to one of the preceding claims, wherein the flexible pipe (3) is plastic or rubber.   Fluid channel comprising at least one rigid tube (1) and a hose (3), characterized in that the tube (1) and the pipe (3) are connected to each other by means of a connection as defined by one of the preceding claims.