FR3030635A1 - VALVE COMPRISING MEANS FOR ACTUATION BETWEEN TWO INPUT DUCTS - Google Patents

Abstract

The present invention relates to a valve (1) comprising a body (2) delimiting two fluid inlet ducts (3, 4) opening into an outlet duct (5) of the fluid forming an intersection (6) in which is mounted a throttle valve (10) connected to a throttle actuating motor (9) between a first end position in which the throttle valve (10) allows the entry of air and directs the air mainly to the outlet pipe (5) in the direction of the motor (9), and a second end position in which the throttle valve (10) allows air and recirculation gas entry and directs the fluid mainly to the outlet duct (5).

Description

The present invention relates to a valve for an internal combustion engine, and more particularly to a valve comprising two inlets and a fluid outlet. Currently, in order to manage the engine gases of motor vehicles, many bypass valve type valves (bypass in English terminology), metering each having a function are used. Their purpose is to manage the flow of fluids circulating in the conduits supplying the engine, or at the output of the engine. For example, the exhaust gas recirculation and back-pressure functions are performed with two separate valves or with a valve with two flaps. In this case, the valve or valves are disposed downstream of the combustion engine. It is thus possible to allow the recirculation of a certain amount of exhaust gas upstream of the engine. A difficulty with this type of valves lies in the cost and bulk. In addition being out of the engine where the temperatures are very high requires the use of specific materials which further increases the cost and complexity of architectures using such valves. Indeed, it is also necessary to use a cooling circuit. The present invention therefore aims to overcome one or more of the disadvantages of valves and architecture of the prior art by providing an improved valve. For this, the present invention proposes a valve comprising a body delimiting two fluid inlet ducts opening into an outlet duct of the fluid forming an intersection in which is mounted a throttle connected to a throttle actuating motor between a first position. extreme in which the throttle allows the entry of air and directs the air mainly to the outlet duct, towards the engine, and a second extreme position in which the throttle allows an intake of air and recirculation gas and directs the fluid mainly to the outlet duct. Such a valve has several advantages. It makes it possible to regulate the rate of recirculated gases. It allows to be positioned upstream of the engine and thus to be exposed to lower temperatures than the prior art. It is thus possible to use less noble materials and avoids thermal stresses with respect to the valves arranged at the output of the motor as in the prior art. Such a valve avoids the use of a cooling circuit. According to one embodiment, in its first extreme position, the butterfly has a portion for closing the inlet duct of the recirculation gas and a portion partially closing the fluid outlet duct. According to one embodiment, in its second extreme position, the butterfly has a portion positioned to allow the recirculation gases to enter via the fluid inlet duct and a portion positioned to admit a certain amount of air via the fluid inlet duct. According to one embodiment, the part has a free edge bearing against a wall common to the two inlet ducts. According to one embodiment, the part has an edge bearing against a wall common to the inlet duct of the recirculation gas and the fluid outlet duct. The invention also relates to an engine assembly comprising at least one intake duct, a combustion engine and a valve according to the invention, disposed on the intake duct upstream of the engine. Such an assembly has the same advantages as those described for the valve. According to one embodiment, the engine assembly comprises an exhaust system at the output of the engine and an exhaust gas recirculation loop, the recirculation loop allowing a part of the exhaust gas circulating in the exhaust circuit. exhaust to be reinjected upstream of the engine. According to one embodiment, the recirculation loop comprises an outlet opening into a second fluid inlet duct of the valve.

According to one embodiment, a first inlet duct of the valve is connected to the part of the intake duct situated upstream of the valve and an outlet duct is connected to the part of the intake duct downstream of the valve. valve. The invention also relates to a motor vehicle equipped with an engine assembly according to the invention.

Other objects, features and advantages of the invention will be better understood and will appear more clearly on reading the description given hereinafter with reference to the appended figures given by way of example and in which: Figure 1 is a schematic representation of an engine assembly incorporating a valve according to the invention, - Figure 2 is a sectional view of the valve according to the invention. With reference to FIGS. 1 and 2, the valve 1 is intended to be disposed upstream of the combustion engine 9. The invention thus relates to a valve 1 and a motor assembly 100 comprising a valve according to the invention. The valve 1 used in the context of the invention comprises a body 2 delimiting two fluid inlet ducts 3, 4 opening into a fluid outlet duct 5 forming an intersection 6. According to one embodiment of the invention , the body 2 is made in one or more parts.

According to one embodiment, the valve is made of aluminum. According to one embodiment, the valve is made of stainless steel. A first fluid inlet duct 4 is configured to receive the air coming from the air intake duct 101, represented by the arrow El. A second fluid inlet duct 3 is configured to receive the gases of FIG. exhaust from the engine 9, represented by the arrow E2. This second inlet conduit 3 allows, in combination with a recirculating gas circulation duct, the recirculation of the exhaust gas. The fluid outlet duct 5 opens upstream of the engine 9. This fluid outlet duct 5 is configured to allow air or a mixture of air and recirculation gas to be introduced into the engine 9. represented by the arrow E3. According to one embodiment of the invention, these three ducts 3, 4, 5 each comprise fixing means on the air intake duct 101 of the engine 9.

At the intersection 6 is mounted a throttle valve 10. According to one embodiment of the invention, this throttle is actuated by an actuating motor 7 arranged in a housing 8. The engine 7 is a DC electric motor . The butterfly 10 is rotated about an axis 11. The shaft 11 is connected to the output shaft of the actuating motor 7 by transmission means of conventional type, and for example gears or at least one cam , mounted on the housing 8. The throttle valve 10 is arranged and configured to be movable between a first end position in which the throttle valve 10 only allows the entry of air and directs the air mainly to the outlet pipe 5, towards the engine 9, and a second extreme position in which the throttle valve 10 allows an air inlet and recirculation gas and directs the recirculating air / gas mixture mainly to the outlet duct 5. In its first extreme position, the butterfly valve 10 has a portion 10.1 for closing the inlet duct 3 of the recirculation gas and a portion 10.2 for the passage of air via the fluid inlet duct 4. Part 10.2 has a free edge resting against a wall 14 common to the two ducts 3, 4. Part 10.1 has an edge bearing against a wall 12 common to the inlet duct 3 of the recirculation gases and to the outlet duct 5 air or mixture. In its second extreme position, the throttle valve 10 has its part 10.1 positioned so as to let the recirculation gases enter via the fluid inlet duct 3 and its portion 10.2 positioned so as to allow a certain quantity of air to enter via the fluid inlet duct 4. Thus the valve 1 according to the invention makes it possible to circulate the air admitted to the engine, mixed or not with recirculated exhaust gas.

According to one embodiment of the invention, the valve 1 comprises an element 13 for recovering oil vapors from a crankcase. According to one embodiment of the invention, this element 13 is a recovery conduit 13 opening into the fluid outlet duct 5. More precisely, this recovery duct 13 opens upstream of the outlet 51 of the outlet duct 5.

The motor assembly 100 concerned by the present invention, one embodiment of which is illustrated in FIG. 1, comprises at least one intake duct 101, 101 ', a motor vehicle internal combustion heat engine 9 and a valve 1 according to FIG. invention. This engine 9 comprises a combustion chamber 39 comprising a plurality of cylinders, not illustrated, for example four in number, intended to receive a mixture of oxidant and fuel, and for example gasoline or diesel fuel and fuel. clean air or a recirculating air / gas mixture as an oxidizer. The combustion in the cylinders generates the work of the engine 9. The operation of the engine 9 is conventional: the gases are admitted into the combustion chamber, are compressed, burned and expelled in the form of exhaust gas. This engine 9 has an inlet 91 connected to the intake duct 101 and an outlet 92 connected to a gas exhaust circuit 102.

By intake duct 101, 101 'is meant the inlet duct for the intake gases, whose flow is represented by the arrow F1, this duct being situated upstream of the engine 9.

The output of the engine 2 is formed by a manifold 93 of the exhaust gas. The latter is connected to the gas exhaust circuit 102 whose flow is shown schematically by the arrow F2. The assembly 1 comprises, according to one embodiment, a recirculation loop 103 of the exhaust gas, allowing part of the exhaust gas flowing in the exhaust circuit 102 to be reinjected upstream of the engine 9. The recirculation loop 103 comprises an outlet opening into the valve according to the invention. More specifically, the recirculation loop 103 opens into the second conduit 3 of fluid inlet. The valve 1 is thus arranged upstream of the engine 9. The first inlet duct 4 is connected to the portion of the intake duct 101 upstream of the valve 1 and the outlet duct is connected to the portion of the duct 101 ' intake valve downstream of the valve 1. Such a valve position allows the use of less noble materials and avoids thermal stresses relative to the valves arranged at the output of the engine. The scope of the present invention is not limited to the details given above and allows embodiments in many other specific forms without departing from the scope of the invention. Therefore, the present embodiments should be considered by way of illustration, and may be modified without departing from the scope defined by the claims.

Claims (10)

CLAIMS1 .. Valve (1) comprising a body (2) defining two fluid inlet ducts (3, 4) opening into an outlet duct (5) of the fluid forming an intersection (6) in which is mounted a butterfly (10) connected to a throttle actuating motor (9) between a first end position in which the throttle valve (10) allows the entry of air and directs the air mainly to the outlet pipe (5), direction of the motor (9), and a second end position in which the throttle (10) allows an air inlet and recirculation gas and directs the fluid mainly to the outlet duct (5). 2. Valve (1) according to claim 1, wherein in its first extreme position, the butterfly (10) has a portion (10.1) for closing the inlet duct (3) of the recirculating gases and a part ( 10.2) allowing the passage of air via the inlet conduit 4 of fluid. 3. Valve (1) according to claim 1, wherein in its second extreme position, the butterfly (10) has a portion (10.1) positioned to let the recirculation gases through the inlet duct (3). fluid and a portion (10.2) positioned to allow a certain amount of air to enter via the fluid inlet duct (4). 4. Valve (1) according to claim 2 or 3, wherein the portion (10.2) has a free edge bearing against a wall (14) common to the two ducts (3, 4) input. 5. Valve (1) according to one of claims 2 to 4, wherein the portion (10.1) has an edge bearing against a wall (12) common to the inlet duct (3) of the recirculation gas and the outlet duct (5) fluid. Motor assembly (100) comprising at least one intake duct (101), a combustion engine (9) and a valve (1) according to one of claims 1 to 5, arranged on the intake duct (101). upstream of the engine (9). 7. Motor assembly (100) according to claim 6, comprising an exhaust circuit at the output of the engine (9) and an exhaust gas recirculation loop (103), the recirculation loop (103) allowing a portion of the exhaust gas flowing in the exhaust circuit (102) to be reinjected upstream of the engine (9). 8. Motor assembly (100) according to claim 7, wherein the recirculation loop (103) comprises an outlet opening into a second conduit (3) fluid inlet of the valve (1). 9. Engine assembly (100) according to one of claims 7 to 8, wherein a first inlet duct (4) of the valve is connected to the portion of the intake duct (101) located upstream of the valve (1). ) and an outlet duct (5) is connected to the portion of the intake duct (101 ') downstream of the valve (1). 10. Motor vehicle equipped with a motor assembly according to one of claims 6 to 9.