FR2860550A1 - Intake module for internal combustion engine, has aerodynamic flaps rotating around respective axles that are parallel to each other, and inlet lines with oval section so that flaps present less width and large axial length - Google Patents

Abstract

The module has a manifold (11) with four inlet lines (13-16). The lines are equipped with corresponding flaps (18-21) whose opening and closing are controlled by respective actuators (22-25). The flaps are aerodynamic and rotate around their respective axles that are parallel with each other.. The lines have an oval section so that the flaps present less width and large axial length.

Description

Field of the invention

  The present invention relates to an intake module, in particular for internal combustion engines, comprising an intake duct with at least two intake ducts and each closure means for influencing its passage section, each means of shutter being controlled by an actuating means. State of the art Such an intake module is for example known from document US Pat. No. 4,823,748. This document describes a device for suctioning or admitting an internal combustion engine having at least two intake channels equipped with them. each of a sealing means for influencing the passage section. These shutter means are controlled by a common actuating means via a means of liai-son. The compensation of the tolerances between the actuating means and the sealing means is effected by an elastic zone. The elasticity results from components having a particular elasticity. The use of elastic components has the disadvantage of causing additional construction and assembly costs which is to the detriment of the economy of the proposed solution.

  According to EP 968 360 there is known an intake module of which at least two closure means are actuated by common actuating means via coupling means; these coupling means have at least one elastic zone to compensate for the tolerances between the actuating means and the sealing means. The elastic zone corresponds for example to a weakening-ment of the material and in particular a reduction in thickness of the material. These means make it possible to compensate the tolerances between the different actuating means but for this it is necessary a linkage.

  OBJECT OF THE INVENTION The present invention aims to develop an intake module comprising a closure means in each intake channel, and the closure means can be controlled independently of each other and even so tolerant of their position.

  DESCRIPTION OF THE INVENTION To this end, the invention relates to an intake module of the type defined above, characterized in that the closure means can rotate each about an axis and at least two axes of rotation. rotation of the shutter means being parallel.

  The essential advantage of the invention is to be able to control the shutter means independently of one another and to install the axes of rotation so that the actuating means do not interfere with one another, particularly if the installation is done in a different manner. conditions of reduced size, but on the contrary that they can be provided above each intake channel.

  According to an advantageous development of the invention, each actuating means comprises its own actuator which can be an electric motor, a stepping motor, a pneumatic or hydraulic drive means. However, precisely when switching a shutter or a shutter means, fast switching stepper motors have proved to be particularly interesting.

  According to a development of the invention, the intake channel section is given a particularly narrow shape at the closure means so that the closure means has a low moment of inertia. For this, define a section for example oval and place the axis of rotation of the closure means in the direction of this oval section. But it is also possible to choose a rectangular section with the axis of rotation along the long side of the rectangle or centrally. This construction also has a low moment of inertia. In the case of an intake module of an internal combustion engine, the channels are closed or opened in parallel, and it is therefore advantageous and advantageous for the closure means to take essentially the same position, channels preferably being open or closed. But it is also possible that the channels are in intermediate positions.

  Drawings The present invention will be described below in more detail with the aid of the accompanying drawings, in which: FIG. 1 is a schematic perspective view of an intake module of an internal combustion engine, FIG. is a detail view of an intake pipe, FIG. 3 is another detail view of an intake pipe, FIG. 4 is an inside view of the intake pipe of FIG. switching being open.

  Description of embodiments

  According to Figure 1, the intake module 10 schematically corresponds to the intake ducts of an internal combustion engine. several cylinders; these intake ducts are equipped with shutters to adjust the air flow. These are fast-switching shutters for impulse boosting. This intake module 10 consists of a manifold 11 provided with an orifice 12 and four intake ducts 13, 14, 15, 16 terminating in a cylinder head 17 also shown in a schematic manner only of a combustion engine internal. The intake ducts 13-16 are essentially parallel; each pipe is equipped with a switching flap 18, 19, 20, 21 and these switching flaps 18-21 are controlled at the opening and closing each by an actuator 22, 23, 24, 25. Each actuator forms a module with the switching flap and the flap axis; this module is fixed flange on each intake pipe. The intake air entering through the orifice 12 is distributed in the manifold 11 and feeds, on demand, the various cylinders of the internal combustion engine via the intake ducts 13-16. For the pulse boost of the internal combustion engine is closed or opens the switching flaps 18, 21 cyclically and in synchronism with the speed of rotation of the internal combustion engine. The level of the switching speed is defined by the corresponding actuators. In the case where an electric motor is used as an actuator, the control is done by the internal combustion engine management unit. The structure presented is particularly advantageous if the intake pipes are very closely spaced and if the flap actuators can not be installed in the range of the various intake ducts. In the figure, the actuators are installed above each intake line. But it is also possible to install the actuators under each intake line.

  Figure 2 is a detail view of an intake pipe 13 having an oval section from the manifold 11 not shown; this oval section is thus defined in the area of the cylinder head. At the switching flap 18 fixed by its axis 27 in the intake duct 13, the section is such that the flap has a small width and at the same time a great axial length. This solution has the advantage of giving the switching flap 18 a low moment of inertia. The area of the section available for the passage of air remains unchanged between the inlet 26 in the intake duct and its outlet.

  Figure 3 shows the evolution of the section of an intake pipe 13, the switching flap 18 being closed (as shown in Figure 2). This Figure 3 clearly shows the advantageous section variation for the bending of the respective intake pipe. Figure 4 is a view of the switch flap 18 from the port 28 of the intake duct 13 in the cylinder head. The switching flap is in the open position, carried by its axis 27 which receives an actuator. The switching flap 18 is aerodynamic like the entire intake duct to avoid to a very large extent the pressure drop in the open position.

  It is also possible to install the axes of rotation of the closure means which are substantially parallel in the drawings so that each time two axes of rotation are parallel and the other two axes are at a certain angle with respect to the other two axes or to the different other axes. Certain installation conditions may indeed require such an angular offset.

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Claims (5)

  1) Intake module (10), in particular for internal combustion engines, comprising an intake duct (11) with at least two intake ducts (13, 14, 15, 16) and each a means for shutter (18, 19, 20, 21) for influencing its passage section, each shut-off means being controlled by an actuating means (22, 23, 24, 25), characterized in that the shut-off means ( 18-21) can rotate each about an axis (27) and at least two axes of rotation of the shutter means being parallel.   2) intake module according to claim 1, characterized in that each actuating means (22-25) is an independent actuator installed directly on the axis of rotation (27).   3) intake module according to claim 1, characterized in that the section of the inlet channel (13-16) is formed at the closure means (18-21) so that this means has a low moment of 'inertia.   4) intake module according to claim 3, characterized in that the section at the closure means is oval and the axis of rotation of the closure means is directed along the alignment of the oval shape.   5) Intake module according to claim 1, characterized in that all the closure means (18-21) take in principle the same position, and in particular two positions, in particular an open position and a closed position are each defined by a stop.