The present invention relates to the field of products or articles of complex shape produced by assembling a plurality of basic parts or pieces, and more particularly relates to an intake manifold or distributor for the thermal engine of a vehicle and a production process for a manifold or distributor of this type.
Intake manifolds or distributors constitute closed or hollow pieces with complex and multi-compartmented shapes, not generally allowing production in one piece.
Generally, articles of this type are obtained by mutual assembly of a plurality of distinct parts produced separately by moulding, while seeking divisions generating a minimum number of, preferably two, basic parts which are easy to assemble and allow good sealing of the whole to be obtained.
Intake pipes generally consist, owing to their tubular, elongated and curved structure, of elements which are difficult to obtain from one piece by moulding and, therefore, the assembly plane of the manifold or distributor often crosses them or even follows their longitudinal axis.
U.S. Pat. No. 5,636,605 discloses a composite intake manifold including two parts made from thermoplastic material and assembled together, and an additional attached piece positioned within one of the parts prior to assembly of the two parts. The attached piece defines a plurality of pipe portions which cooperate with complementary portions formed in the part housing the attached piece so as to define inlet pipes of the manifold. The pipe portions of the attached piece define longitudinal halves of the respective pipes, and therefore are joined to the complementary portions by longitudinal weldings extending along their whole length.
However, providing assembly joint segments for the manifold in the region of the pipes weakens the constitution of the latter by directly subjecting them to tensions which can occur between the constituent parts of the manifold and does not allow precise local and therefore reliably sealed assembly, the very long assembly joint also extending to other parts or locations of the manifold.
Moreover, when assembly is carried out by a process which generates mould seams (vibration moulding for example), projections or which does not ensure physical continuity of the internal wall of the pipes, the result is a disturbance of the gaseous flow traversing them.
The main object of the present invention is to overcome the above-mentioned drawbacks and limitations.
The object is also to reduce the complexity of shape of the parts to be assembled, in particular the part incorporating said pipes, either totally or partially.
The object is finally to provide a manifold, the seal of which is reinforced between the pipes, in particular on the plenum chamber side and which allows a tight seal of each of the pipes.
For this purpose, the present invention relates to an intake manifold for a thermal engine constituted by at least two parts and assembled together and an additional attached piece made from thermoplastic material said manifold comprising an intake chamber connected, for fluidic communication, to intake pipes opening into the intake chamber, characterised in that it comprises an additional attached piece composed of a main body forming a support and fitting plate and of pipe portions produced in one piece with said main body and comprising sleeves defining at least the inlet orifices of said intake pipes opening onto said intake chamber positioned prior to assembly of said at least two parts forming said manifold on or in one of these parts.
The invention will be better understood with the aid of the description hereinafter which relates to a preferred embodiment given by way of non limiting example and explained with reference to the accompanying schematic drawings, in which:
As shown in
According to the invention and as shown in
According to a characteristic of the invention the intake pipe portions 6, 6′ comprise, apart from the sleeves 6 forming or extending the inlet orifices of said pipes 3 opening onto the plenum chamber 2, conduit parts or conduit segments 6′ extending said inlet orifices 6 and forming portions with a substantially semi-circular section, at least partially constituting said pipes 3.
The conduit segments 6′ may extend, for example as shown in
With the attached piece 4 incorporating the pipe portions 3 it is possible to produce the constituent parts 1, 1′ of the manifold more easily and, if applicable, to produce intake pipes 3 of complex shape without the necessity for a mould of complicated shape, complex moulding operations and/or a constituent part to be assembled with other additional parts, by appropriately selecting the division of said pipes 3 into portions 6′ and 6″.
Moreover, the attached piece 4 does not as such form a constituent part of the intake manifold, in particular of the external shell of the latter, but is an insert thereof or a cartridge which is not directly subjected to the load which can be applied between said constituent parts 1, 1′.
Finally, in the case of parts 1, 1″ made from thermoplastic material assembled by vibration welding, the use of an attached piece 4 as mentioned above prevents the welding plane passing through the pipes 3 and therefore the formation of welding seams in the region thereof.
This arrangement is of major importance considering the reduction in free space around the engine and the increase in the density of auxiliary devices around the latter (for example injector passage and connection thereof between the pipes on direct injection vehicles).
Moreover, this arrangement avoids the presence of rough areas on the internal walls of the pipes which are likely to disturb good air flow (by burbling) through the latter.
According to a preferred embodiment of the invention shown in
In an advantageous manner said wall portion 7 will have a plane structure, like the main body 5 of the attached piece 4, this latter preferably consisting of two parallel plates 5′ 5″ connected together by crossmembers consisting of sleeves 6 forming or extending inlet orifices of the pipe portions 6, 6′, the intake pipes 3 preferably being aligned with one another in a parallel arrangement (
The attached piece 4 can be locked in position on the constituent part 1 and assembled in a sealed manner with the latter in various ways.
The wall portion 7 is preferably provided with a plurality of positioning and/or fixing sites 8 for the main body 5 of the attached piece 4, for example with pins or lugs which cooperate with complementary sites 8′, such as orifices or through passages, for example, produced or formed on the main body 5 of the attached piece 4 and this takes place while fitting the latter on said wall portion 7.
The fitting of the attached piece 4 on the part 1 can be locked and secured by screwing, by clipping, by retention by compression by the other constituent part 1′ after assembly thereof with the part 1, by adhesion or otherwise the cooperating sites 8 and 8′ possibly present having only a relative positioning and/or temporary holding function.
However, fitting and assembly of said piece 4 on said part 1 can also be carried out simultaneously by mechanical and functional cooperation of said sites 8 and 8′, for example by carrying out shaping of the ends of the lugs extending beyond the orifices 8′ after assembly of the piece 4 on the part 1.
To ensure a good sealing of the pipes 3 in the region of the junction interfaces between the portions 6 and 6′ and the portions 6″, the pipe portions 6, 6′ are provided in the region of their edges intended to come into contact with the mating edges of the complementary portions 6″ of said pipes 3 integrated into one 1 of said parts 1, 1′ constituting the manifold with a covering 9 which seals by compression, such as an elastomer material attached by duplicate moulding or co-injection on said contact edges of said pipe portions 6, 6′ (see
According to an advantageous variation of the invention allowing the flow in the pipes 3 to be regulated, as shown in
Preferably, the flaps or shutters 10 are produced by moulding in situ on the control shaft 11, this latter having a non-circular, preferably polygonal, section at least in the region of its segments receiving the flaps 10 by duplicate moulding.
To ensure a good seal in the region of the fitting orifices 12 and at the same time simple production of the support bearings of the unit comprising flaps 10/shaft 11, it can be provided that the body of each flap or shutter 10 is extended laterally on the control shaft 11, by sleeves of material 10′ which extend at least partially in the two opposed fitting orifices 12 produced in the sleeve 6 of the pipe portion receiving said pivoting flap or shutter 10 and forming rotational guide bearings (see in particular
The shaft 11 is not therefore directly required for the rotational guidance of the abovementioned assembly, but is only used for the positioning and simultaneous rotational displacement of the flaps 10.
Since the axis of rotation and control 11 is placed between the body of flaps and the pipes, when the piece 4 is in place, the shaft 11 is thus invisible for the internal flux and this ensures protection of this shaft with respect to the intake air (mixture of air, oil, REG (recycled exhaust gas) with oxides which may damage a metal shaft).
Moreover, there are no rough areas in the plenum chamber since the shaft, the rotational guides and the stops are masked by the walls of the bodies of the flaps 10. Furthermore, since the bodies of the flaps are produced from plastics materials, it is possible to produce a shape, in the region of the apertures 6′″ of the inlet orifices 6 of a trumpet or symmetrical or asymmetrical tulip type allowing the flow of air to be encouraged.
To reduce leaks in the closed position of the flaps 10, each pipe portion 6, 6′ can be provided on the internal face of the sleeve wall 6 and in the region of the semi-circular strips facing or in contact with the flap or shutter 10 in a position sealing this latter, with a covering 9′ made from a sealing material, in particular an elastomer, attached by duplicate moulding or bi-injection on said wall, said covering 9′ also extending at least partially in the fitting orifices 12 of the control shaft 11 and of the flap or shutter 10 produced in the relevant pipe portion 6, 6′ (
Thus, the seal between the flaps 10 and the internal wall of the pipes 3 is obtained in the periphery by applying an elastomer covering 9′, then in situ injection in the sleeves 6 of the flaps 10 on the elastomer.
In fact, the shape of the flaps 10 intimately matches the internal contour of the pipes 3 defined by the covering 9 in the region of the zone facing the peripheral edge of the flaps 10 when the latter are in the closed position.
The present invention also relates to a process for producing an intake manifold or distributor such as that described above, comprising an intake chamber 2 and a plurality of pipes 3 in fluidic communication with said chamber, characterised in that it consists in providing the different parts 1, 1′ constituting the body of the manifold, and an additional piece 4 comprised at least of a main body 5 forming a support and fitting plate and a plurality of pipe portions 6, 6′, then attaching, by partial interlocking, said additional piece 4 onto the part constituting the manifold 1 incorporating the complementary pipe portions 6′, if applicable fixing it or locking it in position, then assembling the various constituent parts 1, 1′ of said manifold.
As shown in
According to an advantageous variation of the invention, the attached piece 4 is obtained by injection moulding of thermoplastic material and duplicate injection moulding of elastomer material 9, 9′ at given locations of pipe portions 6, 6′ then if necessary, positioning a control shaft 11 and injecting sealing flaps 10 in closed position on this shaft 11 and on said elastomer material 9, 9′, in the various pipe portions 6, 6′, followed by differential contraction of the material constituting the bodies of said flaps 10.
The piece 4 is therefore obtained by successive multi-injections of the thermoplastic material forming, in a single piece, the body 4 and the pipe portions 6 and 6′ then of the coverings 9 and 9′ made from elastomer material, and finally of the thermoplastic material constituting the flaps 10, after positioning of the shaft 11, the flaps 10 being injection-moulded in the closed position to obtain a good peripheral seal.
Rotation of the flaps 10 in the sleeves 6 which form the support and guide body thereof is made possible by the controlled differential contraction of the two thermoplastic materials which form the flaps 10 and the attached piece 4 (body 5+portions 6, 6′).
It should be noted that the invention allows, with two identical parts 1 and 1′, the production of a whole range of different distributors, each of the latter comprising attached pieces or inserts 4 with different shapes, structures and dimensions which can be fitted in an adjusted manner in adapted sites of one of the two parts and constituting with this latter, by complementarity of shape, intake pipes.
These various attached pieces 4 may comprise pipe portions 6, 6′ with or without flaps 10, with different lengths and/or diameters and different or similar aperture configurations.
Obviously, the invention is not limited to the embodiment described and shown in the accompanying drawings, in particular as regards the shape or the manifold and pipes. Modifications remain possible, in particular from the viewpoint of the constitution of the various elements of by substitution of technical equivalents, without departing from the scope of protection of the invention.
Number | Date | Country | Kind |
---|---|---|---|
01 00604 | Jan 2001 | FR | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/EP02/00401 | 1/16/2002 | WO | 00 | 1/13/2004 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO02/057608 | 7/25/2002 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
5636605 | Nomizo et al. | Jun 1997 | A |
5715782 | Elder | Feb 1998 | A |
5813380 | Takahashi et al. | Sep 1998 | A |
5875758 | Fujita | Mar 1999 | A |
5947073 | Chaffin et al. | Sep 1999 | A |
6192849 | Powell | Feb 2001 | B1 |
6267093 | Lohr | Jul 2001 | B1 |
6321718 | Mangold et al. | Nov 2001 | B1 |
6467449 | Brassell et al. | Oct 2002 | B1 |
6581561 | Brodesser et al. | Jun 2003 | B1 |
6666182 | Schermuly et al. | Dec 2003 | B1 |
6679215 | Benson et al. | Jan 2004 | B1 |
6739301 | Brassell et al. | May 2004 | B1 |
Number | Date | Country | |
---|---|---|---|
20040112322 A1 | Jun 2004 | US |