FR3012849A1 - DAMPING DEVICE FOR PULSATIONS. - Google Patents

Abstract

The invention relates to a pulsation damping device for a fuel supply circuit, the device comprising a housing (1) which comprises an upper portion (2) and a lower portion (3), an elastically deformable membrane (4) which is arranged between the lower portion and the upper portion so that the membrane delimits with the upper portion a sealed chamber (6) to the fuel, and a spring (10) arranged in the sealed chamber so as to exert a force on the membrane in direction of the lower portion. According to the invention, the lower portion comprises a first orifice (20) and a second orifice (21) which is distinct from the first orifice, the device being intended to be connected to the fuel supply circuit via its two ports so that the two orifices define a fuel flow path through the lower portion.

Description

The invention relates to a pulsation damping device for a fuel supply circuit. BACKGROUND OF THE INVENTION is known to implement pulsation damping devices in the fuel supply circuits of motor vehicles in particular to allow damping pulsations generated at the feed ramp by the successive activations of fuel injectors of said ramp.

The document US Pat. No. 6,230,685 describes such a damping device which comprises: a housing which comprises an upper portion and a lower portion, the lower portion being intended to be in contact with the fuel; an elastically deformable membrane which is arranged between the lower portion and the upper portion so that the membrane delimits with the upper portion a fuel-tight chamber, and a spring arranged in the sealed chamber so as to exert a force on the membrane towards the lower portion. The device of US Pat. No. 6,230,685 is conventionally integrated directly into the feed ramp. For this purpose, said device comprises means for attachment to a receptacle itself attached to the feed ramp, a seal being arranged between the lower portion of the device and the receptacle. It is therefore not practical to install the device of document US Pat. No. 6,230,685. OBJECT OF THE INVENTION An object of the invention is to propose a pulsation damping device that can be arranged more easily in a circuit. fuel supply. BRIEF DESCRIPTION OF THE INVENTION With a view to achieving this object, a pulsation damping device for a fuel supply circuit is provided, the device comprising: a housing which comprises an upper portion and a lower portion; lower portion being intended to be in contact with the fuel, - an elastically deformable membrane which is arranged between the lower portion and the upper portion so that the membrane delimits with the upper portion a fuel-tight chamber, and - a bowl of spring and a spring mounted on the spring bowl, the spring bowl and the spring being arranged in the sealed chamber so that the spring exerts a force on the diaphragm towards the lower portion through the bowl of the spring. According to the invention, the lower portion comprises a first orifice and a second orifice which is distinct from the first orifice, the di The spositive is intended to be connected to the fuel supply circuit through its two orifices so that the two orifices define a fuel flow path through the lower portion. Thus, it is very simple to arrange the device of the invention in the fuel supply circuit by simply connecting the orifices of said device to two corresponding conduits of the fuel supply circuit. Advantageously, the device according to the invention can be freely arranged at different points of the supply circuit. In addition, the device according to the invention comprises a limited number of parts which facilitates its manufacture and assembly. In particular, fastening means, a dedicated receptacle and a seal of the devices of the prior art are dispensed with. According to a particular embodiment, the casing is made of plastic.

In particular, the plastics material comprises polyamide. According to a particular embodiment, the upper portion comprises a lid comprising a bottom and opposite an edge delimiting an open end towards the lower portion, the lid having a flange extending from the edge towards the bottom. In particular, the lower portion comprises a body comprising a base and opposite an open end portion to the upper portion, the end portion surrounding the outer edge of the lid. BRIEF DESCRIPTION OF THE DRAWINGS The invention will be better understood in the light of the following description of modes of implementation. Reference will be made to the attached figures, among which: FIG. 1 is a sectional view of a device According to the invention, FIG. 2 shows the pulsation device illustrated in FIG. 1 when the membrane is deformed. DETAILED DESCRIPTION OF THE INVENTION With reference to the figures, the pulsation damping device according to the invention comprises a housing 1 which comprises an upper portion 2 and a lower portion 3. The upper portion 2 and the lower portion 3 are separated by a membrane 4 elastically deformable. The upper portion 2 here comprises a lid 5 of substantially cylindrical shape extending along a first axis X, which defines with the membrane 4 a particular non-limiting chamber of the invention. superior 6 fuel-tight. The cover 5 comprises a bottom 7 and opposite an open end delimited by an annular edge 8, the cover 5 further comprising a side wall connecting the bottom 7 to the annular edge 8. The cover 5 further comprises a flange 9 s extending from said edge 8. Specifically, the flange 9 has a first side wall 9a extending from the annular edge 8 along the first axis X towards the bottom 7, the first side wall 9a being coaxial with the wall 5. The flange 9 further comprises an annular wall 9b which extends from the first side wall 9a away from the lid 5, the annular wall 9b being coaxial with the side wall of the lid 5. The rim 9 further comprises a second side wall 9c extending from the annular wall 9b along the first axis X towards the lower portion 3, the second side wall 9c being coaxial with the side wall The second side wall 9c is shaped so as not to extend to the annular edge 8. The device further comprises a spring 10 and a spring bowl 11 on which the spring 10 is mounted. spring 11 and the spring 10 are arranged in the upper chamber 6 so that a flat main face 12 of the spring bowl 11 rests against the membrane 4 and the spring 10 extends along the first axis X between the bowl of 11 and the bottom 7 of the lid 5. The spring cup 11 and the spring 10 are configured so that the spring 10 naturally tends to exert a force, via the spring cup 11, on the membrane 4 towards the portion The lower portion 3 here comprises a substantially cylindrical body 13 extending along the first axis X, which defines with the membrane 4 a lower chamber 14 in which the fuel is intended to circulate. The body 13 has a face forming a base 15 of the body and at the opposite an open end portion 16 delimited by an annular edge 17.

The body 13 here comprises a shoulder 18 so that the end portion 16 has a larger section than the base 15 of the body 13. The body 13 is shaped so that the shoulder 18 is facing the edge 17 of the lid 5 and in abutment against said edge 17. The body 13 is further shaped so that the end portion 16 extends coaxially with the side walls 9a and 9c of the flange 9 between the side wall 9c and the side wall 9a. The body 13 is further shaped so that the annular edge 17 of the end portion 16 rests on the annular wall 9b of the flange 9. According to a particular embodiment, the membrane 4 is pinched between the edge 8 of the lid 5 and the shoulder 18 of the body 13 so as to be held between the upper portion 2 and the lower portion 3. Thus maintained between the upper portion 2 and the lower portion 3, the membrane 4 seals the upper chamber 6 The device further comprises a spacer 19 which is arranged in the lower chamber 14 so as to extend along the first axis X between the base 15 of the body 13 and the membrane 4. Preferably, the spacer 19 is 1 part with the base 15 of the body 13. The number of elements forming the device according to the invention is reduced. According to a particular embodiment, the spacer 19 comprises a plurality of lugs extending axially between the membrane 4 and the base 15 of the body 13 so as to allow the circulation of the fuel inside the lower chamber 14 while by limiting a deformation of the membrane 4 in the direction of the lower portion 3. The tabs thus define a stop for the membrane 4. According to the invention, the lower portion 3 further comprises a first orifice 22 and a second orifice 23 5 distinct from the first orifice 22. More precisely here, the lower portion 3 comprises a first nozzle 20 in which is formed the first orifice 22 and a second nozzle 21 in which is formed the second orifice 23. The device according to the invention is here connected to the fuel supply circuit 10 (not shown here) via said tips and thus said tips. The first nozzle 20 and the second nozzle 21 are integral with the body 13. Again, the number of elements forming the device according to the invention is particularly reduced. The first endpiece 20 has a substantially cylindrical shape and extends along a second axis Y perpendicular to the first axis X. The first endpiece 20 thus extends radially to the body 13. The first orifice 22 extends between the outside of the device and the lower chamber 14 in the first nozzle 20. The first orifice 22 opens directly into the lower chamber 14. The second nozzle 21 is substantially cylindrical in shape and also extends along the second axis Y radially to the body 13. The second orifice 23 has a first portion 23a extending in the second nozzle 21 along the second axis Y between the outside of the device and a second portion 23b of the second orifice 23. The second portion 23b extends axially in the second endpiece 23b 21 and opens into the lower chamber 14. The second portion 23b extends along the first axis X of the first portion 23a to the lower chamber 14. More specifically, the second part part 23b opens into the lower chamber 14 between the legs of the spacer 19.

The two ends, via the two orifices 22 and 23, thus define a fuel flow path through the lower portion 3. The fuel flows in an upstream portion of the feed circuit before entering the lower chamber 14 by the intermediate of the first nozzle 20 and the first orifice 22. Then the fuel flows in the lower chamber 14 until reaching the second portion 23b of the second orifice 23 and then flows to the downstream portion of the feed circuit via of the second portion 23b and the first portion 23a of the second orifice 23. The first orifice 22 thus defines a fuel inlet in the lower portion 3 and the second orifice 23 a fuel outlet of the lower portion 3. The device is shaped to trigger at a pressure Po prevailing in the lower chamber. In the rest position, as illustrated in FIG. 1, when the pressure in the lower chamber 14 is less than Po, the spring cup 11 and the spring 10 hold the membrane 4 glued against the legs of the spacer 19. damping position, as illustrated in Figure 2, when the pressure in the lower chamber 14 25 becomes greater than Po, the membrane 4 is deformed towards the upper chamber 6 causing a displacement of the spring bowl 11 towards the bottom 7 of the cover 5 and a compression of the spring 10. This increases the volume of the lower chamber 14 which allows to lower the pressure in the lower chamber 14 and therefore in the supply circuit. Preferably, apart from the spring 10 and the membrane 4, the various elements of the device, and in particular the lid 5 and the body 13, are made of optionally filled plastics material. Said elements are for example based on polyamide such as PA66 or PA610 or PPA (Polyphthalamide). The device is thus very light. device is also insensitive to oxidation.

According to a particular embodiment, the lower portion 3 (body 13, first nozzle 20, second nozzle 21 and spacer 19) is integrally molded. Similarly, the upper portion 2 (cover 5) is integrally molded and the spring cup 11 is integrally molded. The device according to the invention thus comprises a small number of parts. The molding of the various elements of the device of the invention also makes it possible to have a good guiding of the spring 10 in the upper chamber 6. When mounting the device, it suffices to simply integrate the spring 10 and the spring bowl 11 with the upper portion 2 before fixing the upper portion 2 to the lower portion 3 by trapping the membrane 4 between the two portions. Preferably, the lower portion 3 and the upper portion 2 are then welded to each other for example by laser welding. The upper portion 2 and the lower portion 3 are welded here at the edge 17 of the body 13 and the rim 9 of the cover 5. The particular shape of the open end of the upper portion 2, in particular its edge 8 and its rim 9, and the end portion 16 of the lower portion 3, advantageously facilitates the welding of the lower portion 3 to the upper portion 2. The manufacture of the device according to the invention is thus particularly simple and fast. Naturally, the invention is not limited to the embodiment described and alternative embodiments can be made without departing from the scope of the invention as defined by the claims. In particular, the membrane may be maintained between the upper portion and the lower portion 5 otherwise than by being pressed between the upper portion and the lower portion, for example by being held by means of a retaining ring. The upper portion and / or the lower portion may include areas with a particular coating or surface condition that will be in contact with the membrane to maintain the membrane in place between the upper portion and the lower portion. In the case where the upper portion and the lower portion are injected plastic material, said areas will have a particular grain different from the rest of the corresponding portion. The upper portion and / or the lower portion may include areas of particular shapes adapted to maintain the membrane in place between the upper portion and the lower portion. Although here the first port and the second port are provided in the tips of the pulsation damping device, the device may not have end caps. The orifices may then be for example formed in a side wall of the body of the lower portion. The device can then be connected to the supply circuit by welding the lower portion at its corresponding two-port openings of the supply circuit. The tips may have a shape different from that illustrated. In particular, at least one of the end pieces 30 can be bent. When the device comprises end pieces, it may be connected to the supply circuit by fitting the end pieces to corresponding conduits of the supply circuit or by welding the end pieces to corresponding conduits of the supply circuit if the shape of the end pieces allows. Although here the lower portion and the upper portion are welded together by laser welding, the two portions may be assembled by any other known means such as for example by ultrasonic welding, rotational welding ... Although it has been indicated that the spacer was formed of independent legs, the spacer may have a different shape. In particular the spacer may comprise a flat surface connecting the different legs together. The legs may have a different configuration than those described. The legs may extend from the base of the body to the level of the shoulder, below the shoulder or above the shoulder.

Claims (9)

REVENDICATIONS1. Pulsating damper device for a fuel, the device (2) being - one and the upper so that the diaphragm delimits upper portion a sealed chamber (6) to the fuel, and - a spring bowl (11) and a spring ( 10) mounted on the spring cup, the spring cup and the spring being arranged in the sealed chamber so that the spring exerts a force on the diaphragm towards the lower portion via the spring cup, the device being characterized in that the lower portion has a first port (20) and a second port (21) which is distinct from the first port, the device being adapted to be connected to the fuel supply circuit via its two orifices so that the two orifices define a fuel flow path through the lower portion. 2. Device according to claim 1, wherein the lower portion comprises a first nozzle inside which is formed the first orifice and a second end inside which is formed the second orifice, the two ends being of a room with the lower portion. 3. Device according to claim 1, wherein the lower portion limiting a deformation of the diaphragm arranged between which is portion with the device comprises a spacer (19) arranged in the (4) towards the lower portion (3), the spacer being in one piece with the lower portion. 4. Device according to claim 1, wherein minus the housing (1) is plastic. 5. Device according to claim 4, wherein plastic material comprises polyamide. 6.Dispositif according to claim 1, wherein the lower portion (3) and the upper portion (2) are welded to each other. to the la 7. Device according to the upper portion (2) comprising a bottom (7) and claim 1, wherein comprises a cover (5) opposite an edge (8) defining the lower portion (3), the open end to a lid having a flange (9) extending from the edge to the bottom. 8. Device according to claim 7, wherein the lower portion (3) comprises a body (13) comprising a base (15) and opposite an end portion (16) open towards the upper portion, the portion of end externally surrounding the flange (9) of the lid. 9. Device according to claim 8, wherein the membrane (4) is clamped between the edge (8) of the cover (5) and a shoulder (18) of the body (13).