KR19990009503A - Acceleration performance improving device of diesel engine - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus for improving an acceleration response when a diesel engine equipped with an exhaust brake device accelerates again after deceleration, and includes an exhaust pipe (3) between an exhaust valve (1) and an exhaust brake valve (2). A bypass pipe 5 for communicating the intake pipe 4, an air tank 6 provided in the bypass pipe 5, and a bypass pipe 5 between the air tank 6 and the exhaust pipe 3; And a check valve (7) passing through the air only in the direction of the air tank (6) from the exhaust pipe (3) and the bypass pipe (5) between the air tank (6) and the intake pipe (4). It is provided with an acceleration performance improving device of a diesel engine, comprising a valve means for communicating the air tank (6) to the intake pipe (4) during the operation of the accelerator pedal of the driver, when the engine accelerates after deceleration by the exhaust brake Increased amount in the combustion chamber by supplying compressed air stored at deceleration to the combustion chamber at acceleration By supplying a sufficient amount of air immediately for the combustion of the fuel can be achieved that can greatly improve the acceleration response of the engine.

Description

Acceleration performance improving device of diesel engine

The present invention relates to an apparatus for regulating the operation of a diesel engine, and more particularly, to an acceleration performance improving apparatus for a diesel engine, which is capable of exhibiting faster acceleration performance during acceleration operation after deceleration in a diesel engine using an exhaust brake. It is about.

In general, a diesel engine is an engine that spontaneously combusts combustion by injecting fuel using an injector nozzle while inhaling and compressing air into a cylinder to generate compressed heat of 500 to 550 ° C.

In the diesel engine as described above, the operation of the acceleration and deceleration is controlled by the amount of fuel injected from the injector nozzle, which is performed by an injection pump that compresses and supplies fuel to the injector nozzle.

Of course, the supply of adequate air for combustion of the fuel provided to the injector nozzle as described above should always be made smoothly.

However, as described above, the suction action of the air required for combustion of the fuel is such that the air is introduced into the combustion chamber through the intake valve by the negative pressure generated when the piston reciprocating up and down in the cylinder is lowered in the intake stroke. While the rapid increase of fuel due to rapid acceleration operation is instantaneous, it is not easy to secure enough air to combust the rapidly increasing fuel as described above, and there is a slight delay time, so the response to the acceleration operation is immediate. There is a problem.

Accordingly, the present invention has been made to solve the problems described above, so that the acceleration response in the case of performing the acceleration operation again after the deceleration during operation of the diesel engine with the exhaust brake device is improved. The purpose is to provide an acceleration performance improving device for diesel engines.

1 is a configuration diagram of an acceleration performance improving apparatus for a diesel engine according to the present invention.

Explanation of symbols for main parts of the drawings

1: exhaust valve 2: exhaust brake valve

3: exhaust pipe 4: intake pipe

5: bypass tube 6: air tank

7: check valve 8: accelerator pedal

9: accelerator pedal angle sensor 10: ECU

11: rotary actuator 12: rotary valve

13: air cleaner 14: reed valve

In order to achieve the object as described above, an acceleration performance improving apparatus for a diesel engine according to the present invention includes a bypass pipe communicating an exhaust pipe and an intake pipe between an exhaust valve and an exhaust brake valve, and an air tank provided in the bypass pipe. And a check valve installed between the air tank and the exhaust pipe to allow air to flow only in the direction of the air tank from the exhaust pipe, and valve means provided between the air tank and the intake pipe to control the flow of air. It features.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings.

1 illustrates an acceleration performance improving apparatus for a diesel engine according to the present invention, and includes a bypass pipe communicating an exhaust pipe 3 and an intake pipe 4 between an exhaust valve 1 and an exhaust brake valve 2. 5), an air tank 6 provided in the bypass pipe 5, and a bypass pipe 5 between the air tank 6 and the exhaust pipe 3, and installed in the exhaust pipe 3 in the air tank (6). It is provided in the check valve (7) for passing the air only in the direction of 6) and the bypass pipe (5) between the air tank (6) and the intake pipe (4) during operation of the driver's accelerator pedal (6) ) Is connected to the intake pipe (4).

Here, the valve means is an accelerator pedal angle sensor 9 for detecting a driver's operation state of the accelerator pedal 8, the ECU 10 receiving the signal of the accelerator pedal angle sensor 9, and the ECU 10 The rotary actuator 11 rotates by the rotary actuator 11 and the rotary valve 12 controls the communication state of the bypass pipe 5 by the rotary actuator 11.

In addition, an air cleaner 13 is installed between the exhaust pipe 3 and the air tank 6 to remove impurities contained in the air flowing through the combustion chamber, and the air tank is installed in the intake pipe 4. A reed valve 14 is provided as a non-return valve for preventing the air supplied from (6) to the combustion chamber from flowing back.

Of course, the reed valve 14 is installed to smoothly introduce external air into the combustion chamber during the intake action of the engine.

Referring to the operation of the present invention configured as described above are as follows.

In general, the exhaust brake is used in a large vehicle using a diesel engine of four cycles, and the braking force is obtained by operating the engine as a compressor by closing the exhaust brake valve of the exhaust pipe during deceleration during high speed driving.

Therefore, when the apparatus according to the present invention is added to the diesel engine which becomes the exhaust brake device as described above, when the driver operates the exhaust brake for deceleration while driving, the exhaust pipe 3 is connected to the exhaust brake valve 2. The air blocked by the engine and compressed by the engine is stored in the air tank 6 through the check valve 7 of the bypass pipe 5.

Of course, foreign matter contained in the compressed air flowing into the air tank 6 is removed by the air cleaner 13 installed in the bypass pipe 5 before entering the air tank 6.

As described above, the compressed air stored in the air tank 6 when the engine is decelerated is supplied to the combustion chamber according to the operation state when the driver operates the accelerator pedal 8 to accelerate the vehicle again. Through this, the combustion of the fuel injected into the combustion chamber together with the air supplied from the outside is made smoother.

That is, the driver's operation of the accelerator pedal 8 is detected by the accelerator pedal angle sensor 9 and the ECU 10 drives the rotary actuator 11 in accordance with the operation state of the detected accelerator pedal 8. The rotary valve 12 is rotated so that the compressed air of the air tank 6 is supplied to the combustion chamber together with the air introduced from the outside through the intake pipe 4 to burn the fuel that is increased in the injection pump. To provide air immediately.

In this case, when the compressed air is supplied to the combustion chamber, the reed valve 14 shuts off the intake pipe 4 to prevent the air from flowing back through the intake pipe 4 when the pressure is higher than a predetermined level.

As described above, according to the present invention, when a diesel engine equipped with a known exhaust brake device accelerates after deceleration, the compressed air stored at the deceleration by the exhaust brake is supplied to the combustion chamber at the time of acceleration, thereby increasing the combustion of the fuel that is increased in the combustion chamber. By supplying a sufficient amount of air immediately, there is an effect that can greatly improve the acceleration response of the engine.

Claims (4)

A bypass pipe which communicates the exhaust pipe between the exhaust valve and the exhaust brake valve and the intake pipe, an air tank provided in the bypass pipe, and a bypass pipe between the air tank and the exhaust pipe, and is installed in the direction of the air tank from the exhaust pipe. Acceleration performance of a diesel engine comprising a check valve for passing the air only and a valve means installed in the bypass pipe between the air tank and the intake pipe to communicate the air tank to the intake pipe during the operation of the accelerator pedal of the driver. Enhancement device. The method of claim 1, The valve means may include an accelerator pedal angle sensor for detecting a driver's accelerator pedal operation state, an ECU receiving a signal from the accelerator pedal angle sensor, a rotation actuator rotated by the ECU, and the bypass by the rotation actuator. Acceleration performance improving device for a diesel engine, characterized in that consisting of a rotary valve for controlling the communication state of the pipe. The method of claim 1, And an air cleaner is installed between the exhaust pipe and the air tank to remove impurities contained in the air flowing through the combustion chamber. The method of claim 1, The intake pipe is an acceleration performance improving device of a diesel engine, characterized in that the non-return valve is installed to prevent the flow of air supplied from the air tank to the combustion chamber.