OIL SEPARATION DEVICE

Abstract

This device is intended to separate oil droplets from a gas stream and comprises an inlet wall (2) having at least one inlet opening in which there is disposed a propeller for accelerating and radially orienting the gas stream and at least one retaining wall (3) having at least one retaining medium disposed facing a propeller (8). Advantageously, the inlet wall (2) and the retaining wall (3) are linked by a hinge allowing the retaining wall (3) to be folded against the inlet wall from an unfolded production configuration to a folded use configuration.

Claims

1. An oil separation device intended to separate oil droplets from a gas flow, the device comprising an inlet wall having at least one inlet orifice in which is disposed a helix allowing accelerating and orienting radially the gas flow and at least one retention wall having at least one retention media disposed opposite to a helix, the inlet wall comprising a cylindrical wall, delimiting an inlet orifice in which a helix is disposed, said helix having a central cone from which blades extend, the blades joining the cylindrical wall.

2. The separation device according to claim 1, wherein the inlet wall and the retention wall are linked by a hinge allowing the retention wall to be folded over the inlet wall from an unfolded configuration of production to a folded configuration of use.

3. The separation device according to claim 1, wherein the device comprises an intermediate wall interposed between the inlet wall and the retention wall, the intermediate wall having openings intended to be in alignment with at least one helix to direct the gas flow towards the retention media.

4. The separation device according to claim 1, wherein the intermediate wall is linked to the inlet wall by a hinge.

5. The separation device 1 according to claim 1, wherein the retention wall is solid.

6. The separation device according to claim 1, wherein the retention wall has a recess.

7. The separation device according to claim 1, wherein a retention media panel is disposed in the vicinity of the retention wall.

8. The separation device according to claim 2, wherein the retention wall has at least one cage into which a retention media is inserted, said cage being disposed in the axis of a helix when the device is in the folded configuration of use.

9. The separation device according to claim 7, wherein a the retention media has the shape of a cylinder of radial retention media inserted into the cage.

10. The separation device according to claim 2, wherein the device comprises an intermediate wall interposed between the inlet wall and the retention wall, the intermediate wall having openings (16) intended to be in alignment with at least one helix to direct the gas flow towards the retention media.

11. The separation device according to claim 2, wherein the intermediate wall is linked to the inlet wall by a hinge.

12. The separation device according to claim 3, wherein the intermediate wall is linked to the inlet wall by a hinge.

13. The separation device according to claim 2, wherein the retention wall is solid.

14. The separation device according to claim 3, wherein the retention wall is solid.

15. The separation device according to claim 2, wherein the retention wall has a recess.

16. The separation device according to claim 3, wherein the retention wall has a recess.

17. The separation device according to claim 2, wherein a retention media panel is disposed in the vicinity of the retention wall.

18. The separation device according to claim 17, wherein the retention wall has at least one cage into which a retention media is inserted, said cage being disposed in the axis of a helix when the device is in the folded configuration of use.

19. The separation device according to claim 18, wherein the retention media has the shape of a cylinder of radial retention media inserted into the cage.

20. The separation device according to claim 2, wherein the device comprises an intermediate wall interposed between the inlet wall and the retention wall, the intermediate wall having openings intended to be in alignment with at least one helix to direct the gas flow towards the retention media, wherein the intermediate wall is linked to the inlet wall by a hinge and wherein the retention wall is solid and wherein the retention wall has a recess and wherein a retention media panel is disposed in the vicinity of the retention wall and wherein the retention wall has at least one cage into which a retention media is inserted, said cage being disposed in the axis of a helix when the device is in the folded configuration of use and wherein the retention media has the shape of a cylinder of radial retention media inserted into the cage.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0021] For its good understanding, the invention is described with reference to the appended drawings showing, by way of non-limiting examples, several embodiments of oil separation devices according to the invention.

[0022] FIG. 1, shows in perspective a first embodiment of an oil separation device prior to its shaping

[0023] FIGS. 2 and 3 show in perspective the separation device of FIG. 1 in the configuration of use

[0024] FIG. 4 shows in perspective a variant of an oil separation device 1 with oil prior to its shaping,

[0025] FIG. 5 shows a variant of an oil separation device in the configuration of use,

[0026] FIGS. 6 to 11 show in cross-section another embodiment of the invention in several variants.

[0027] By convention, the elements of the invention which are found in different embodiments bear the same numerical references.

DETAILED DESCRIPTION

[0028] FIG. 1 shows in its unfolded configuration of production an oil separation device 1.

[0029] As visible in this figure, the separation device 1 according to the invention is in the shape of a unitary plastic element and includes essentially three portions linked in pairs.

[0030] In practice, the separation device 1 is made of molded plastic and can be obtained in a single molding operation.

[0031] At the center of the separation device 1 is located an inlet wall 2. On the other side of the inlet wall 2, the separation device 1 is equipped with a retention wall 3 and an intermediate wall 4. The retention 3 and intermediate 4 walls are linked to the inlet wall 2 by film hinges that is to say a bridge made of thinned material which allows the intermediate wall 4 and the retention wall 3 to pivot relative to the inlet wall 2. It should be noted that the retention wall 3 is linked to the inlet wall 2 by a strip made of material 5 itself linked to the retention wall 3 and to the inlet wall 2 by film hinges made of thinned material. As visible in FIGS. 1 to 5, the retention wall 3 is further provided with a material return 6.

[0032] The structural characteristics and functions of the different portions will appear below.

[0033] It can be perceived in FIGS. 1 to 5 that the inlet wall 2 is provided with nine helices 8 disposed, in this embodiment, in rows of three.

[0034] Within the meaning of the present document, helix means a fixed member allowing accelerating axially and radially an air flow of oil droplets with the aim of centrifuging the oil particles and causing their coalescence.

[0035] The inlet wall 2 is provided with inlet orifices 9 delimited by a cylindrical wall 10 within which a helix 8 is positioned. The helix 8 has a central cone 12 from which blades 13 extend, which join the cylindrical wall 10.

[0036] The intermediate wall 4 is provided with openings 16 which are disposed in the extension of the inlet orifices 9. The retention wall 3 is in the shape of a wall having a recess 15 (see FIGS. 1 to 3) or a solid wall (see FIGS. 4 and 5) on which a retention media panel 14 is disposed. The retention media is, for example, a media called coalescent media, that is to say it allows collecting oil droplets being suspended in an air flow. The retention media can comprise in particular a fiber-based porous material.

[0037] In practice, the separation device 1 is made by molding, the inlet wall 2, the retention wall 3 and the intermediate wall 4 being substantially in the extension of each other.

[0038] The retention media panel 14 is attached on the retention wall 3.

[0039] FIGS. 2 and 3 show the separation device 1 in its folded configuration of use. In this configuration, the intermediate wall 4 is folded over the inlet wall 2 and the retention wall 3 is folded over the intermediate wall 4. It is possible to expect that one of the walls is provided with pins 17 which are inserted into bores 18 formed in an adjacent wall to manage the proper positioning of the walls relative to each other.

[0040] It will thus be understood that the separation device 1 is assembled in an extremely simple manner. The assembly can be performed in a manual or robotic manner without requiring expensive installation.

[0041] The separation device 1 can be inserted into a heat engine to trap the oil droplets present in an air flow such as for example in a crankcase gas flow.

[0042] FIGS. 6 to 11 partially show another embodiment of a separation device 1 with an inlet wall 2 and a retention wall 3.

[0043] The inlet wall 2 is therefore equipped with a helix 8.

[0044] The inlet wall 2 is provided with inlet orifices 9 delimited by a cylindrical wall 10 within which is a helix 8 positioned. The helix 8 has a central cone 12 from which blades 13 extend.

[0045] The retention wall 3 is folded and is pressed against the inlet wall 2. The function of the retention wall 3 is to trap the oil droplets present in the gas flow.

[0046] The retention wall 3 has an opening 16 possibly bordered by a rib 17 and topped by a cage 19. As it will appear, the function of the cage 19 is to receive a retention media. For this, the cage 19 comprises spacers 21 which support a posterior face.

[0047] In the embodiments of FIGS. 6 and 7, the retention media is in the shape of a disk 22 positioned in a plane normal to the turbine axis.

[0048] In the embodiment of FIG. 6, the posterior face of the cage is constituted by a spider 23. The axial retention media disk 22 is accordingly blocked against the spider 23. The axial retention media disk 22 can be equipped, at its periphery with notches 24 in which the spacers 21 are engaged.

[0049] FIG. 7 shows a variant of the separation device 1 illustrated in FIG. 6 in which the axial retention media disk 22 is held by a wall 26 which forms the posterior wall of the cage 19. The wall 19 forms a bearing surface for the axial retention media disk 22.

[0050] FIGS. 8 and 9 illustrate two variants in which the separation device 1 is equipped with a radial retention media.

[0051] As shown in these Figures, the separation device 1 is equipped with a cylinder of radial retention media 27. The cylinder of radial retention media 27 is interposed between the inlet wall 2 and the retention wall 3. In practice, the cylinder of radial retention media 27 is clamped between a rib 29 coming from the inlet wall 2 and the rib 17 of the retention wall 3. The cylinder of radial retention media 27 has a height substantially equal to the height of the spacers 21 of the intermediate wall 4.

[0052] In a variant illustrated in FIG. 9, the cylinder of radial retention media 27 is encapsulated in a cylinder 29 made of plastic which comes from the intermediate wall 4. In this variant, the cylinder 19 made of plastic material delimits a posterior opening through which flows the air flow cleared of its oil droplets.

[0053] FIGS. 10 and 11 show two variants in which the separation device 1 combines an axial retention media disk 22 and a cylinder of radial retention media 27.

[0054] As shown in these figures, the separation device 1 comprises an inlet wall 2 equipped with a helix 8 allowing accelerating and orientating radially the air flow charged with oil droplets.

[0055] The retention wall 4 is equipped with an axial retention media disk 22 and a cylinder of radial retention media 27. The cylinder of radial retention media 27 is clamped between a rib coming from the inlet wall 2 and a rib coming from the intermediate wall 4. The axial retention media disk 22 is held at the bottom of the cage 19.

[0056] The length of the cylinder of radial retention media 27 is such that a space 30 is formed between the cylinder of radial retention media 27 and the axial retention media disk 22. This space 30 allows the air flow cleared of its oil droplets to escape from the separation device 1.

[0057] This embodiment of the invention carries out a combination of a radial retention of the oil droplets which are orientated radially upon leaving the helix 8 and an axial retention of the oil droplets which are accelerated upon leaving the helix.

[0058] FIG. 11 is a variant of the separation device 1 of FIG. 9 in which the cage 19 into which the retention media is inserted, is solid and in which the posterior face of the cage is also solid.

[0059] The invention is not limited to the embodiments described above by way of non-limiting examples, but it encompasses all embodiments thereof. Thus, it is considered to produce the inlet wall, the retention wall and the intermediate wall separately and to assemble them in a subsequent operation.