FR2973095A1 - NOISE MITIGATION DEVICE OF A FLUID CIRCUIT CIRCUIT, AND FLUID CIRCUIT CIRCUIT INCORPORATING SUCH A NOISE MITIGATION DEVICE - Google Patents

Abstract

Apparatus for attenuating the noise of a fluid circulation circuit, in the form of a pipe (1) comprising a main pipe section (4) delimiting an axial fluid passage connecting the fluid inlet (2) and the fluid outlet (3), said main pipe section (4) communicating through at least one opening with at least one noise attenuation chamber (6) and disposed in the manner of a wart or a boss on the periphery of the main pipe section (4), the or each chamber (6) formed in one piece with the main pipe section (4) being delimited by a bottom (7) and a wall (8). ) a device connecting the bottom (7) to the main pipe section (4). The peripheral wall (8) of the or each noise attenuation chamber (6) is a folded wall (8) forming a bellows of transverse longitudinal axis, preferably substantially perpendicular to the mean longitudinal line of the driving section. main.

Description

The present invention relates to a device for attenuating the noise of a fluid circulation circuit, in particular for an internal combustion engine, and a fluid circulation circuit incorporating such a device for attenuating noise.

It relates more particularly to a noise attenuation device in the form of a pipe connectable to the circulation circuit by each of its ends respectively forming an inlet and a fluid outlet, this pipe comprising a main pipe section defining a axial fluid passage connecting the fluid inlet and the fluid outlet, said main pipe section communicating through at least one opening with at least one noise attenuation chamber, said external device, and disposed in the manner of a wart or boss, around the perimeter of the main pipe section, the or each noise attenuation chamber made in one piece with the main pipe section being delimited by a bottom and a peripheral wall connecting the bottom to the main pipe section.

Many fluid circulation circuits, such as the fuel return circuit to the fuel tank in the case of an engine, need to be equipped with a noise attenuation device which may be of the aforementioned type. In such devices, the or each noise attenuation chamber is an indeformable chamber so that the attenuation of noise is imperfect. There is also the possibility of integrating on such circuits a deformable rubber line. However, the rubber does not allow the circulation of any type of fluid and is an expensive material. In addition, the elongation that can result from the deformation of a rubber conduit 30 is often undesirable. Finally, the deformation of a rubber duct is difficult to control.

An object of the present invention is to provide a noise attenuation device of the aforementioned type whose design allows easy deformation of a portion of the device in spite of a constituent material Young's modulus higher than that of the rubber.

Another object of the present invention is to provide a noise attenuation device of the aforementioned type whose design allows an easy and controlled deformation without risk of stray elongation of said io conduit.

For this purpose, the subject of the invention is a device for attenuating the noise of a fluid circulation circuit, in particular for an internal combustion engine, this noise attenuation device being in the form of a connectable pipe. to the circulation circuit by each of its ends respectively forming an inlet and a fluid outlet, this pipe comprising a main pipe section delimiting an axial fluid passage connecting the fluid inlet and the fluid outlet, this main pipe section communicating through at least one opening with at least one noise attenuation chamber, said external device, and arranged, in the manner of a wart or a boss, around the perimeter of the main pipe section, the each noise attenuation chamber being delimited by a bottom and a peripheral wall connecting the bottom to the main pipe section, bottom and peripheral wall being r arranged in one piece with the main pipe section, characterized in that the peripheral wall of the or each noise attenuation chamber is a folded wall forming a bellows of transverse longitudinal axis, preferably substantially perpendicular, to the mean longitudinal line of the main pipe section, said pleated wall 30 of the or each noise attenuation chamber being, under the action of the fluid able to flow inside the main pipe section, deformable between a retracted position of the bellows corresponding to the smaller volume configuration of the noise attenuation chamber and an expanded position of the bellows corresponding to the larger volume configuration of the noise attenuation chamber. The realization of the or each noise attenuation chamber using a bellows wall allows the use of weakly elastic material, so mechanically resistant, for the manufacture of the device, without affecting the deformation of the assembly . Preferably, the pleated peripheral wall of the or each noise attenuation chamber is a folded wall with annular folds organized around the longitudinal axis of said bellows.

The peripheral wall of the or each noise attenuation chamber has a succession of waves alternating peak and trough, or, in other words, the peripheral wall of the or each noise attenuation chamber has a succession of folds alternating hollow folds and prominent folds in the manner of a folding accordion. Preferably, the pleated peripheral wall of the or at least one of the noise attenuation chambers has a general frustoconical shape, the large base of the cone being disposed in the connection zone of the or each noise attenuation chamber at the main pipe section.

This conformation facilitates the manufacture of the whole.

Preferably, the noise attenuation device is made of an elastomeric thermoplastic material, said material preferably being selected from the family of copolyester-ether materials. The subject of the invention is also a fluid circulation circuit, in particular for an internal combustion engine, said circuit comprising a device for attenuation of noise, characterized in that the noise attenuation device is in accordance with that described herein. -above.

The invention will be better understood on reading the following description of exemplary embodiments, with reference to the appended drawings in which: FIG. 1 represents a perspective view of a noise attenuation device according to the invention in retracted position of the bellows;

Figure 2 shows a perspective view, taken from another angle, of the noise attenuation device of Figure 1; 3 shows a perspective view of a noise attenuation device according to the invention in the deployed position of the bellows;

Figure 4 shows a partial view of a half of the attenuation device 20 noises in the retracted position of the bellows;

Figure 5 shows a partial view of a half of the noise attenuation device in the deployed position of the bellows.

As mentioned above, the noise attenuation device, object of the invention, is more particularly intended to be positioned on the so-called fuel return circuit arranged between an internal combustion engine of a vehicle and the reservoir. fuel of said vehicle, this circuit for the return of fuel not used by the engine to the fuel tank. The amount and rate of fuel returned to the tank may vary depending on a large number of parameters. Such power surges generate significant noise that should be mitigated or suppressed. This is the purpose of the noise attenuation device object of the invention.

Obviously, such a noise attenuation device may be disposed on any other type of liquid or gaseous fluid circulation circuit.

This noise attenuation device is in the form of a pipe 1 connectable by each of its ends respectively forming an inlet 2 and a fluid outlet 3 to the fluid circulation circuit to be equipped.

This pipe 1 comprises a main pipe section 4 defining an axial fluid passage connecting the fluid inlet 2 and the fluid outlet 3. This main pipe section 4 communicates through at least one opening 15 with at least one noise attenuation chamber 6, called an external device, and arranged in the manner of a wart or a boss 11 on the periphery of the section 4 of main pipe.

The or each noise attenuation chamber 6 is delimited by a bottom 7 and a peripheral wall 8 connecting the bottom 7 to the main pipe section 4. Bottom 7 and peripheral wall 8 are made in one piece with the main pipe section 4.

Characteristically to the invention, the peripheral wall 8 of the or each noise attenuation chamber 6 is a pleated wall 8 forming a transverse longitudinal axis bellows, preferably substantially perpendicular, to the longitudinal line or to the average longitudinal axis of the main pipe section.

Said pleated wall 8 of the or each noise attenuation chamber 6 is, under the action of the fluid able to flow inside the main pipe section 4, deformable between a retracted position of the bellows corresponding to the configuration of smaller volume of the noise attenuation chamber 6, and an expanded position of the bellows corresponding to the larger volume configuration of the noise attenuation chamber 6. Generally, in the absence of fluid circulation inside the device, the bellows of each of the chambers occupies a retracted position.

In the examples shown, the main pipe section 4 is a substantially cylindrical pipe section. The or each noise attenuation chamber is a chamber disposed on the circumference or around and protruding from the main pipe section 4.

In the examples shown, the main pipe section 4 has two outer perimetral circumferential noise attenuation chambers 6 with a bellows folded peripheral wall 8, said chambers 6 being arranged diametrically opposite on the main pipe section 4.

The pleated peripheral wall 8 of the or each noise attenuation chamber 6 is a folded wall with annular folds 8A organized around the longitudinal axis of said bellows.

The main pipe section 4 is, in its zone separating the two diametrically opposed noise attenuation chambers 6, delimited by means of a pleated wall 9 whose folds extend parallel to the folds of the bellows formed by the 8 peripheral wall of the or each room 6 noise attenuation.

Said wrinkled wall 9 of the main pipe section 4 comprises at least one bellows fold formed of two diametrically opposed fold portions 10 disposed symmetrically on either side of the plane passing through the longitudinal axis of the bellows formed by the peripheral wall 8 of the or each noise attenuation chamber 6 and the average longitudinal line of the main pipe section 4.

These folds of the main pipe section 4 visually ensure continuity of the bellows with the noise attenuation chamber (s). They form an additional volume of fluid reception but do not generally allow the deformation of the main pipe section 4.

In the examples shown, the pleated peripheral wall 8 of each noise attenuation chamber 6 has a generally frustoconical shape, the large base of the cone being disposed in the connection zone of the or each attenuation chamber 6. Noise in Section 4 of the main pipe. Preferably, the pleated peripheral wall 8 of the or at least one of the noise attenuation chambers 6 is formed of at least three successive annular fold lines. As a result, the pleated peripheral wall 8 of the or at least one of the noise attenuation chambers 6 is formed of at least one and a half fold.

Preferably, the bottom 7 of the or at least one of the noise attenuation chambers 6 comprises a boss 11 for increasing the volume of said noise attenuation chamber 6. Preferably, the noise attenuation device is made of elastomeric thermoplastic material, said material preferably being chosen from the family of materials composed of copolyester ethers, in particular of the hytrel type. Generally, such a noise attenuation device is a molded part made by extrusion blow molding extrusion suction or injection blow molding.

When such a noise attenuation device is integrated in a fluid circulation circuit, the fluid supply, according to its characteristics, can cause a deformation of the or each noise attenuation chamber and the passage of said chambers of a configuration of lower volume of the chamber, corresponding to a retracted or folded position of the bellows as illustrated in FIGS. 1 and 4, to a configuration of greater volume of the or each noise attenuation chamber, corresponding to an extended position of the bellows as shown in Figures 3 and 5.

As soon as the volume of fluid inside the pipe allows it, the or each chamber returns to a configuration of lower volume. The variation in possible volume of the or each noise attenuation chamber allows a substantial attenuation of the noises.

Claims (10)

REVENDICATIONS1. Device for attenuating the noise of a fluid circulation circuit, particularly for an internal combustion engine, this noise attenuation device being in the form of a pipe (1) connectable to the circulation circuit at each of its ends respectively forming an inlet (2) and a fluid outlet (3), said pipe (1) having a main pipe section (4) delimiting an axial fluid passage connecting the fluid inlet (2) and the outlet ( 3) fluid, this main pipe section (4) communicating through at least one opening (5) with at least one chamber (6) for attenuation of noise, said external device, and disposed in the manner of a wart or a boss, around the perimeter of the main pipe section (4), the or each noise attenuation chamber (6) being delimited by a bottom (7) and a peripheral wall (8) connecting the bottom (7) in section (4) of main pipe, bottom (7) and king (8) device being made in one piece with the main pipe section (4), characterized in that the wall (8) peripheral of the or each noise attenuation chamber (6) is a wall (8). ) pleated forming a transverse longitudinal axis bellows, preferably substantially perpendicular, to the mean longitudinal line of the main pipe section, said pleated wall (8) of the or each noise attenuation chamber (6) being, under the action of the fluid able to circulate within the main pipe section (4), deformable between a retracted position of the bellows corresponding to the smaller volume configuration of the noise attenuation chamber (6) and an expanded position of the bellows corresponding to the larger volume configuration of the noise attenuation chamber. 2. A device for attenuation of noise according to claim 1, characterized in that the wall (8) pleated peripheral of the or each chamber (6) of noise attenuation is a pleated wall annular folds (8A) 9lo organized around the longitudinal axis of said bellows. 3. noise attenuation device according to one of claims 1 or 2, characterized in that the section (4) of the main pipe comprises two chambers (6) outer circumferential noise attenuation wall (8) peripheral pleated forming bellows, said chambers (6) being arranged diametrically opposite on the section (4) of main pipe. 4. A noise attenuation device according to claim 3, characterized in that the main pipe section (4) is, in its zone separating the two chambers (6) attenuation diametrically opposite noise, delimited by means of a pleated wall (9) whose folds extend parallel to the folds of the bellows formed by the peripheral wall (8) of the or each noise attenuation chamber (6). 5. A noise attenuation device according to claim 4, characterized in that said pleated wall (9) of the main pipe section (4) comprises at least one bellows fold formed of two diametrically opposite fold parts (10). arranged symmetrically on either side of the plane passing through the longitudinal axis of the bellows formed by the peripheral wall (8) of the or each noise attenuation chamber (6) and the mean longitudinal line of the section (4) main pipe. 6. A device for attenuation of noise according to one of claims 1 to 5, characterized in that the wall (8) pleated peripheral of the or at least one of the chambers (6) noise attenuation present a frustoconical general shape of shape, the large base of the cone being disposed in the connection zone of the or each noise attenuation chamber (6) at the main pipe section (4). 7. A device for attenuation of noise according to one of claims 1 to 6, characterized in that the wall (8) pleated peripheral of the or at least one of the chambers (6) attenuation of noise is formed of at least three successive annular fold lines. 5 8. A device for attenuation of noise according to one of claims 1 to 7, characterized in that it is made of elastomeric thermoplastic material, said material being preferably selected from the family of materials composed by copolyester-ethers . io 9. A device for attenuation of noise according to one of claims 1 to 8, characterized in that the bottom (7) of the or at least one of the chambers (6) noise attenuation comprises a boss (11) increasing the volume of said noise attenuation chamber (6). 15 10. Fluid circulation circuit, in particular for an internal combustion engine, said duct comprising a device for attenuation of noise, characterized in that the noise attenuation device is in accordance with one of claims 1 to 9.