KR20040015407A - Engine intake/exhaust gas compensation device of vehicle - Google Patents

Abstract

PURPOSE: An engine intake/exhaust compensation apparatus is provided to achieve improved fuel efficiency and intake/exhaust efficiency, while reducing noises and vibrations. CONSTITUTION: An engine intake/exhaust compensation apparatus comprises a connecting pipe(110) mounted between an intake manifold(130) and an exhaust pipe(140) in such a manner that the connecting pipe guides flow of the intake air being supplied from the intake manifold to the exhaust pipe; and an intake control unit(120) coupled between the intake manifold and the connecting pipe, wherein the intake control unit controls flow of the intake air being supplied from the intake manifold to the exhaust pipe in accordance with the pressure of the engine.

Description

ENGINE INTAKE / EXHAUST GAS COMPENSATION DEVICE OF VEHICLE}

The present invention relates to an engine of a vehicle, and more particularly to an engine intake / exhaust compensator of a vehicle.

In general, an intake compensation device has been conventionally used for the purpose of increasing the intake efficiency of the engine.

The variable intake system, which is one of the intake compensation devices, compensates the intake amount of air according to the engine speed and the vehicle speed to increase the engine output.

However, the use of the variable intake system also increases the intake interference due to the increased flow rate of the intake air (collision between the intake air due to the closing of the intake valve), and there is no compensation for the efficiency of the exhaust portion.

When the above method is used, there is a problem in that the exhaust efficiency decreases due to an increase in exhaust pressure due to an increase in exhaust gas.

An object of the present invention is to provide an engine intake / exhaust compensator of a vehicle that can increase the intake / exhaust efficiency of the engine by compensating for the collision of intake / exhaust generated during the intake and exhaust stroke of the engine.

1 is a view showing the configuration of the engine intake / exhaust compensation device of a vehicle according to an embodiment of the present invention.

2 and 3 are views showing the operating state of the engine intake / exhaust compensation device of the vehicle according to an embodiment of the present invention.

In order to achieve the above object, the present invention provides an engine intake / exhaust compensator for a vehicle, which is mounted between an intake manifold and an exhaust pipe to guide the flow of intake air supplied from the intake manifold to the exhaust pipe. Tube; It is coupled between the intake manifold and the connecting pipe, characterized in that it comprises an intake intermittent for regulating the flow of intake air supplied from the intake manifold to the exhaust pipe in accordance with the negative pressure state of the engine.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. While many specific details, such as the following description and the annexed drawings, are shown to provide a more general understanding of the invention, these specific details are illustrated for the purpose of explanation of the invention and are not meant to limit the invention thereto. And a detailed description of known functions and configurations that may unnecessarily obscure the subject matter of the present invention will be omitted.

Referring to Figures 1 to 3 will be described the configuration of the engine intake / exhaust compensation device of the vehicle according to an embodiment of the present invention.

Embodiment of the present invention, the engine intake / exhaust compensation device of the vehicle, includes a connection pipe 110, the intake intermittent portion 120.

The connecting pipe 110 is mounted between the intake manifold 130 and the exhaust pipe 140 as shown in FIG. 1 to guide the flow of intake air supplied from the intake manifold 130 to the exhaust pipe 140. .

Here, the inlet port of the connection pipe 110 is preferably connected to a surge tank (Surge Tank) to mitigate the impact of the intake air.

In addition, the position where the outlet of the connection pipe 110 is connected to the exhaust pipe 140 is preferably at the rear of the mounting position of the oxygen sensor 150 coupled to the exhaust pipe 140.

The reason why the outlet of the connection pipe 110 should be located behind the oxygen sensor 150 is because it can be recognized as excessive oxygen supply and increase the fuel injection amount.

That is, when the outlet of the connection pipe 110 is located in front of the oxygen sensor 150, the intake air supplied through the connection pipe 110 is added to the discharge gas discharged through the exhaust pipe 140.

In such a state, the oxygen sensor 150 determines that the exhaust gas contains a large amount of oxygen, thereby supplying incorrect data to the engine controller.

On the other hand, the intake intermittent portion 120 is coupled between the intake manifold 130 and the connection pipe 110, the flow of intake air supplied from the intake manifold 130 to the exhaust pipe 140 in accordance with the negative pressure of the engine To crack down.

The intake intermittent portion 120 includes a valve body 122, a spool valve 124, and an actuator 126 as shown in FIGS. 2 to 3.

The valve body 122 is coupled between the intake manifold 130 and the connection pipe 110, and forms a flow passage of the intake air with the spool valve 124 embedded therein.

The spool valve 124 is mounted in the valve body 122 to regulate the flow of intake air supplied from the intake manifold 130 to the exhaust pipe 140.

As shown in FIGS. 2 and 3, the actuator 126 is connected to the spool valve 124 at one end thereof, and the other end thereof is connected to the intake passage through which the negative pressure of the engine is applied via a pipe 128 (or a hose). The movement of the spool valve 124 is adjusted according to the engine negative pressure.

Actuator 126 according to an embodiment of the present invention uses a vacuum valve using a diaphragm (Diaphragm) as a configuration for using the negative pressure of the engine.

On the other hand, in the embodiment of the present invention, the configuration of the actuator 126 is applied mechanically, it should be noted that it can be configured by the electronic control method.

For example, the actuator may receive a driving control signal supplied through the engine control unit according to the negative pressure of the engine, and may use a stepper motor for driving the spool valve 124 stepwise.

As described above, the embodiment of the present invention is characterized by a configuration for preventing a decrease in suction efficiency and a decrease in exhaust efficiency due to the collision of intake air with or without a variable intake system and maximizing the intake / exhaust efficiency simultaneously.

An operation of the engine intake / exhaust compensator of a vehicle according to an exemplary embodiment of the present invention will be described with reference to FIGS. 1 to 3.

2 and 3 are views showing the operating state of the engine intake / exhaust compensation device of the vehicle according to an embodiment of the present invention.

Referring to FIG. 2, the negative pressure of the engine is smaller than the force for moving the diaphragm of the actuator 126.

In other words, the spool valve 124 is in a state of blocking the passage of the intake air supplied from the intake manifold 130 to the exhaust pipe 140.

When the accelerator pedal is pressed in this state, the actuator 126 is moved from the right direction to the left direction (arrow direction) as shown in FIG. 3.

For reference, the intake interference flow rate generated when the intake valve is closed is generated more when the accelerator pedal is pressed.

Therefore, when the accelerator pedal is pressurized, the engine negative pressure is further increased and this suction force actuates the actuator 126.

As the actuator 126 operates, the spool valve 124 moves in the direction of opening the passage of the intake air supplied from the intake manifold 130 to the exhaust pipe 140.

As a result, the intake air filled in the surge tank according to the movement of the spool valve 124 is supplied to the exhaust pipe 140 along the connecting pipe 110 to quickly exhaust the exhaust gas in the exhaust pipe to prevent the exhaust interference.

As described above, the engine intake / exhaust compensator of the vehicle according to the present invention can prevent a collision of intake and exhaust to secure a loss portion of the output.

In addition, the fuel efficiency of the vehicle can be improved, and the process can be reduced since parts and processing are easier than those of the conventional variable intake apparatus.

In addition, by increasing the intake / exhaust efficiency of the engine there is an effect that can improve the acceleration / deceleration and noise and vibration (NVH) performance by smooth accessory operation.

Claims (3)

In the engine intake / exhaust compensation device of the vehicle, A connecting pipe mounted between an intake manifold and an exhaust pipe to guide the flow of intake air supplied from the intake manifold to the exhaust pipe; An engine intake intermittent coupled between the intake manifold and the connection pipe, the intake intermittent intermitting a flow of intake air supplied from the intake manifold to the exhaust pipe according to a negative pressure state of the engine. Intake / Exhaust Compensation Device. The method of claim 1, wherein the intake intermittent portion A valve body coupled between the intake manifold and the connection pipe; A spool valve mounted in the valve body to regulate a flow of intake air supplied from the intake manifold to the exhaust pipe; One end is connected to the spool valve, the other end is connected to the intake passage in which the negative pressure of the engine acts, including an actuator for controlling the movement of the spool valve according to the variable engine negative pressure Intake / Exhaust Compensation Device. The engine intake / exhaust compensation device of claim 1, wherein a position at which the connection pipe is connected to the exhaust pipe is behind a mounting position of an oxygen sensor coupled to the exhaust pipe.