KR100189435B1 - Heating device for intake gas at cold starting of a gasoline engine - Google Patents

Abstract

The present invention relates to an intake air heating device for cold start of a gasoline engine, and aims to promote vaporization of fuel by heating the intake air during cold start and during initial idling before the engine reaches a normal operating temperature.

Accordingly, in the gasoline engine, when the engine cold start is confirmed by the measured value of the coolant temperature sensor 26 operating according to the ON contact of the start switch 30, the ECU 24 performs the control operation accordingly. The rear side of the additional air supply 18 of the additional air supply bypass hose 16 for bypassing the throttle valve 4 to heat the intake air until the engine is sufficiently warmed by the control of the ECU 24. It provides a suction air heating device during cold start of the gasoline engine comprising a heating plug 40 is installed.

As a result, the present invention heats the air supplied to the intake pipe by the heating plug at the time of engine start-up and at the warm-up operation before reaching the normal operating temperature, thereby promoting the vaporization of the fuel, and thus improving the cold start-up. In addition, fuel can be saved. In addition, since the fuel is completely burned during the initial idling of the engine, the generation of harmful exhaust gas is suppressed and a stable operation state is provided, thereby improving the life of the engine.

Description

Intake air heater during cold start of gasoline engine

The present invention relates to an intake air heating device for cold start of a gasoline engine, and more particularly, to a cold start of a gasoline engine that improves engine performance during cold start and initial idling by heating the suction air during cold start and initial idling of the gasoline engine. A simultaneous suction air heating device.

In a typical gasoline vehicle, since the vaporization performance of the fuel at low temperature is low at the initial start of the cooled engine, a richer mixer is supplied in contrast to normal operation. In other words, when the temperature of the cylinder is low at start-up, only a part of the fuel supplied is vaporized, so that extra fuel is additionally supplied to form a sufficient mixer in the combustion range in the cylinder.

Conventionally, a cold start valve is provided in a surge tank of an intake pipe, and when fuel temperature of engine cooling water is below a predetermined value, fuel is injected into the surge tank to supply sufficient fuel for combustion.

However, when a large amount of gasoline is supplied in the suction port at such a low temperature, fuel consumption increases by itself, and in particular, some gasoline is vaporized because it does not obtain enough heat from the intake air to vaporize the fuel. Some other gasoline that has not been condensed on the cold intake port walls and cylinder walls, or sucked into the combustion chamber as a liquid, causes abnormal combustion and incomplete combustion. It acted as a cause of shortening.

In addition, since the injection stops when the start switch is restored from the start terminal, the cold start valve has a problem such as insufficient fuel vaporization in the initial idling state before the engine reaches the normal operating temperature, thus adversely affecting the overall combustion.

The present invention has been made to solve the above problems, and supplies a large amount of fuel by heating the air supplied to the intake pipe during cold start and the initial idling before the engine reaches the normal operating temperature to promote vaporization of the fuel. It is an object of the present invention to provide an intake air heater during cold start of a gasoline engine to improve cold startability and improve engine performance during initial idling.

In order to achieve the above object, the intake air heating device during the cold start of the gasoline engine of the present invention operates according to the ON contact of the start switch, and when the cold start of the engine is confirmed by the measured value of the coolant temperature sensor, the control operation is performed accordingly. ECU and a heating plug inserted behind the additional air supply of an additional air supply bypass hose for bypassing the throttle valve to heat the intake air until the engine is sufficiently warmed by the control of the ECU. It is done.

1 is a view showing an intake system and a fuel system of a conventional gasoline engine

2 is a schematic diagram showing a cold air intake air heating apparatus according to the present invention.

Explanation of symbols on the main parts of the drawings

4: Throttle Valve 16: Bypass Hose

18: additional air supply 24: ECU

26: coolant water temperature sensor 30: start switch

EMBODIMENT OF THE INVENTION Hereinafter, preferred embodiment of this invention is described in detail based on an accompanying drawing.

Prior to describing the present invention, a description will be briefly given of an intake system and a fuel system of a conventional gasoline engine with reference to the accompanying drawings.

1 shows an example of an electronically controlled gasoline engine. As shown in the drawing, an intake pipe 2, a throttle valve 4, a surge tank 6, An intake manifold 8, an intake port 12 of the cylinder head 10, and a combustion chamber 14 are provided, and on one side of the throttle valve 4 for supplying additional air for bypassing the throttle valve 4. The bypass hose 16 is provided, and the additional air supply 18 is provided in the middle of the bypass hose 16.

As the fuel system, an injection valve 20 is provided at one side of the intake port 12, and a cold start valve 22 is provided at the surge tank 6.

If the start switch 30 is ON when the engine is cold started, the ECU 24 checks the temperature of the coolant measured from the water temperature sensor 26, and the temperature of the coolant corresponds to the engine cold start. If it is determined that the control of the ECU 24, the cold start valve 22 is opened for a predetermined time to inject fuel into the surge tank 6 to supply additional fuel in preparation for condensation on the cool cylinder wall. do.

In addition, since the vaporization degree of the fuel is low and the frictional resistance of the engine is high even at the time of the warm-up operation after starting the engine, an air-fuel mixture must be additionally supplied to increase the engine output. The measured value of the water temperature sensor 26 The valve of the additional air supply 18 is opened by the control of the ECU 24 until the normal operating temperature is reached, at which time the air of the intake pipe 2 passes through the bypass hose 16 to the intake manifold 8. By being supplied, more air flows through the intake pipe 2 than the opening amount of the throttle valve 4, and when it is detected by the intake air amount detection sensor (not shown), the ECU 24 passes the air through the injection valve 20. In response to the increase, the fuel was increased in quantity to supply a rich mixer.

The present invention will be described again.

The same reference numerals are given to the same parts as in FIG. 1, and repeated description thereof will be omitted.

2 is a system diagram showing an intake air heating device according to the present invention, and the present invention provides a bypass hose 16 for supplying additional air to bypass the throttle valve 4 in the gasoline engine as described above. It is configured to include a heating plug 40 is inserted into.

The heating plug 40 has the same configuration as a well-known glow plug (Glow Plug) that is widely applied to pre-chamber and vortex chamber diesel engines, in particular, using a coil-type glow plug that is exposed to the heat coil heat generating unit It is desirable to shorten the time until the air can be heated quickly.

The heating plug 40 is installed behind the additional air supply 18 of the bypass hose 16 to heat the air flowing through the additional air supply 18 to the intake manifold 8.

The heating plug 40 is controlled by the ECU 24. The ECU 24 operates according to the ON contact of the start switch 30, so that the engine cold start is started by the measured value of the coolant temperature sensor 26. When it is confirmed that the control operation according to this to supply the current to the heating plug 40 to heat the heating plug 40 by heating the suction air.

The operation of the present invention configured as described above will be described.

When the engine starts cold start, if the start switch 30 is ON, the ECU 24 checks the temperature of the coolant measured from the water temperature sensor 26.

If it is determined that the temperature of the coolant corresponds to the engine cold start, the ECU 24 opens the additional air supply 18 to communicate with the passage of the bypass hose 16. At this time, the driver does not operate the accelerator pedal at start-up. Therefore, as the throttle valve 4 is closed, the intake air is supplied to the intake manifold 8 through the bypass hose 16.

At the same time, the ECU 24 applies a current to the heating plug 40, thereby heating cold intake air, and opening the cold start valve 22 to inject additional fuel into the surge tank 6. do.

In this process, since the air warmed by the heating plug 40 is supplied into the combustion chamber through the surge tank 6 and the intake manifold 8, the warm air warms the cold engine, and in particular, improves the vaporization performance of the fuel. Let's go.

Therefore, since the performance of more fuel is vaporized than in the related art, not only the startability is improved but also the amount of fuel injected through the cold start valve 22 may be reduced in correspondence with the additional vaporization amount of the fuel.

When the engine is started and the start switch 30 is restored from the start terminal, the fuel injection from the cold start valve 22 is stopped. In this case, since the fuel vaporization degree is low and the frictional resistance of the engine is large, the engine output is increased. In order to increase the size, an additional air and fuel mixer must be supplied. The ECU 24 opens the valve of the additional air supply 18 until the measured value of the water temperature sensor 26 reaches a normal operating temperature. Further, the fuel injection amount of the injection valve 20 is increased as compared with the normal operation.

At this time, the ECU 24 also operates the heating plug 40 until the engine is sufficiently warmed, and accordingly, the intake air is heated and mixed with the fuel to sufficiently vaporize the fuel.

As a result, it is possible to reduce the emission of harmful exhaust gases caused by incomplete combustion by enabling the complete combustion of fuel, and in particular, by stabilizing the operation of the engine to shorten the engine warm-up time so that the engine can be reached in normal operation quickly. It is possible to improve the life of the entire engine.

When the engine is sufficiently warmed to enable normal operation, that is, when the value applied from the coolant water temperature sensor 26 is greater than or equal to a predetermined value, the ECU 24 blocks the current applied to the heating plug 40. By closing the additional air supply 18 to block the passage of the bypass hose 16, and also to control the injection amount of the injection valve 20 to the same as in normal operation to create a normal operating conditions.

As described above, according to the present invention, the air supplied to the intake pipe is heated at the time of engine start-up and at the warm-up operation before reaching the normal operating temperature to promote vaporization of the fuel, thereby improving the cold start-up and reducing fuel. You can do it.

In addition, since the fuel is completely burned during the initial idling of the engine, the generation of harmful exhaust gas is suppressed and a stable operation state is provided, thereby improving the life of the engine.

Claims (1)

In gasoline engines, When the engine cold start is confirmed by the measured value of the coolant temperature sensor 26 and operates according to the ON contact of the start switch 30, the ECU 24 performs the control operation according to the ECU 24 and the control of the ECU 24. And a heating plug 40 inserted into the rear of the additional air supply 18 of the additional air supply bypass hose 16 for bypassing the throttle valve 4 so as to heat the intake air until the engine is sufficiently warmed. Intake air heating device during cold start of the gasoline engine, characterized in that consisting of.