KR100535382B1 - An air intake control apparatus of lpg cars - Google Patents

Abstract

The present invention, in order to prevent the engine starting off that occurs when the driver suddenly shifts the gear to a neutral state during the high-speed driving of the liquefied petroleum gas vehicle,

An air duct for introducing air into the mixer of the liquefied petroleum gas vehicle; A plate whose one side is hinged to a side in the air duct so as to adjust an opening amount of an air inlet of the air duct; A vacuum actuator which hinges the plate; And a solenoid valve interposed between the vacuum actuator and the surge tank and opening the vacuum actuator and the surge tank when the gear is neutral.

Description

Airflow control device for liquefied petroleum gas vehicle {AN AIR INTAKE CONTROL APPARATUS OF LPG CARS}

The present invention relates to an apparatus for adjusting the air inflow rate of a liquefied petroleum gas vehicle, and more particularly, when the gear is neutral during high-speed driving of a liquefied petroleum gas vehicle, the amount of air introduced correspondingly is reduced, thereby preventing starting of the engine. The present invention relates to a device for adjusting the air inflow rate of a liquefied petroleum gas vehicle that can improve vehicle safety.

For example, vehicles that use liquefied petroleum gas (LPG) or compressed natural gas (LNG) as fuels have relatively lower emissions of harmful gases and lower fuel consumption costs than gasoline or diesel vehicles. The use of fuels is expanding widely.

Among them, in a vehicle using liquefied petroleum gas as fuel, the fuel supply system enters the vaporizer from the cylinder in which the fuel is stored through the liquid line or the gaseous line, and is then decompressed to atmospheric pressure in the vaporizer and mixed with air in the mixer. And then to the combustion chamber.

In this case, the amount of air flowing into the mixer is controlled by the throttle valve of the mixer during driving, and is controlled by the air adjust screw and the idle-up solenoid valve during the idling state or starting.

However, when the liquefied petroleum gas vehicle is driven at a high speed, and suddenly the gear is neutral and the pedal is released, the solenoid valve that controls the amount of LP gas is supplied to the mixer with the same amount of LP gas as the idle state. On the other hand, the amount of inlet air is relatively high, and the combustion chamber is in a very lean combustion state.

In this case, the engine speed drops below the idle speed, and in severe cases, an engine stall phenomenon occurs in which the engine is turned off. This engine start-off phenomenon is more likely to occur when the vehicle is traveling with the wind, and when such an engine stall occurs, vacuum generation on the surge tank side is eliminated, so the brake device using the vacuum is inoperable. Becomes The inability of the brakes is directly linked to the accident, especially if this situation occurs at high speeds, the driver will be more embarrassed and the probability of an accident will be higher.

Therefore, the present invention is to solve the above problems, an object of the present invention is to liquefy that can prevent the start-up of the engine generated when the driver suddenly shifts the gear to a neutral state during the high-speed driving of the liquefied petroleum gas vehicle To provide a device for adjusting the air inflow of oil and gas vehicles.

In order to achieve the above object, the present invention is characterized in that to reduce the amount of air flowing into the mixer when the gear is neutral during high speed driving.

To this end, the present invention, the air duct for introducing air into the mixer of the liquefied petroleum gas vehicle; A plate whose one side is hinged to a side in the air duct so as to adjust an opening amount of an air inlet of the air duct; A vacuum actuator which hinges the plate; And a solenoid valve interposed between the vacuum actuator and the surge tank and opening the vacuum actuator and the surge tank when the gear is neutral.

Hereinafter, with reference to the accompanying drawings an embodiment of the present invention that can specifically realize the above object will be described.

Figure 1 shows a preferred embodiment of the air inflow rate adjusting apparatus according to the present invention, reference numeral 12 denotes an air duct.

The air duct 12 serves to introduce air into the venturi portion of the mixer (not shown), and one side of the air duct 12 opens to form an air inlet 14.

The present invention is to prevent the start-up of the engine by adjusting the opening amount of the air inlet portion 14, for this purpose by installing a plate 16 inside the air duct 12 to the operation of the plate 16 Accordingly, the opening amount of the air inlet 14 is adjusted. Here, the plate 16 is hinged to one side of the side in the air duct 12 to adjust the opening amount of the air inlet portion 14 while hinged around the hinge axis 18.

The guide groove 20 is formed on the lower surface of the air inlet portion 14 side of the air duct 12 so as to guide the hinge movement of the plate 16, and the guide hole is located above the guide groove 20. 22 is formed, the plate 16 is formed with a lever 24 is inserted into the guide groove 20 and the guide hole 22 to slide the plate. The guide groove 20 and the guide hole 22 is formed in an arc shape, the forming distance is made so that the plate operates to block about 30% of the air inlet.

The hinge operation of the plate 16 is by the vacuum actuator 26 connected via the solenoid valve 28 to the surge tank. That is, the vacuum actuator 26 is opened by the surge tank when the solenoid valve 28 is on, and is operated by a vacuum formed inside the vacuum actuator 26 to hinge the plate 16. do.

More specifically, the vacuum actuator 26 is a cylinder 30 which is opened in the surge tank when the solenoid valve 28 is turned on and a vacuum is formed therein, and is installed in the cylinder 30. First and second link members 34 and 36 which connect a piston 32 sliding according to an internal vacuum pressure, and one end of the piston 32 and one end of the lever 24 of the plate 16 in a link structure. And a return spring 38 for holding one end of the lever 24 of the plate 16 from one side of the cylinder 30.

On the other hand, the operation of the solenoid valve 28 is controlled by an electronic control unit that controls the electrical equipment of the vehicle, in which the solenoid valve 28 is turned on when it is determined that the gear is shifted to a neutral state during high-speed driving. (on) is turned on. Here, the data that the electronic control unit determines that the gear is shifted during the high speed driving may be based on a decrease in the value of the TPS signal, a decrease rate of the engine speed compared to the reduction of the vehicle speed, and the like.

Looking at the operation of the air inflow amount adjusting device of the liquefied petroleum gas vehicle made as described above are as follows.

First, in the general driving state of the vehicle, the adjustment device of the present invention, as shown in FIG. Recognizes that the vehicle is running in a normal driving state, and does not energize solenoid valve 28 (OFF). Accordingly, since the negative pressure is not formed in the cylinder 30 of the vacuum actuator by the elastic action of the return spring 38, the first link member 34 and the second link member 36 are unfolded as much as possible. The lever 24 pushes the plate 16 closer to the side of the air duct 12 along the guide groove 20 and the guide hole 22. Therefore, since the air inlet 14 of the air duct 12 has a normal opening amount, it is possible to introduce the air amount required by the engine.

On the other hand, when a sudden gear neutral phenomenon occurs during a high-speed driving of the vehicle, that is, when the driver shifts the gear to the neutral position and releases the accelerator pedal during the high-speed driving, as shown in FIG. 3, the TPS in the electronic control unit is shown. Through the reduction of the signal value, the reduction of the engine speed compared to the reduction of the vehicle speed, and the like, the solenoid valve 28 is energized (0N) by identifying the gear neutral state of the vehicle. Accordingly, the negative pressure by the vacuum of the surge tank acts in the cylinder 30 of the vacuum actuator, and according to the vacuum pressure, the piston 32 and the first and second link members 34 and 36 connected thereto are pulled. The plate 16 is hinged to reduce the opening amount of the air inlet 14. Therefore, since the amount of air introduced through the air duct 12 is reduced by a certain amount, it is possible to prevent lean combustion in the combustion chamber, thereby preventing the engine starting off.

The apparatus for adjusting the air inflow rate of a liquefied petroleum gas vehicle according to the present invention, which is configured as described above, reduces the amount of air introduced in response to a driver shifting a gear to a neutral state suddenly during a high speed driving of the liquefied petroleum gas vehicle. Combustion can be made normally, thereby preventing the engine from turning off.

By preventing such an engine starting-off phenomenon, it is possible to prevent a brake inoperable state and to further improve vehicle safety.

1 is a perspective view of an air inflow rate adjusting device according to the present invention;

2 is an operation of the air inflow rate adjusting device of the present invention in a general driving state,

3 is an operation diagram of the air inflow rate adjusting device of the present invention when the gear is neutral during high speed traveling.

<Description of the symbols for the main parts of the drawings>

12: air duct 14: air inlet

16 plate 18 hinge shaft

20: guide groove 22: guide hole

24: lever 26: vacuum actuator

28 solenoid valve 30 cylinder

32: piston 34,36: first and second link member

38: return spring

Claims (3)

An air duct for introducing air into the mixer of the liquefied petroleum gas vehicle; A plate whose one side is hinged to a side in the air duct so as to adjust an opening amount of an air inlet of the air duct; A vacuum actuator which hinges the plate; A solenoid valve interposed between the vacuum actuator and the surge tank to open the vacuum actuator and the surge tank when the gear is neutral; Apparatus for adjusting the air flow rate of liquefied petroleum gas vehicle comprising a. The method according to claim 1, The air duct Guide grooves are formed on the lower surface of the air inlet side to guide the hinge movement of the plate, and guide holes are formed on the upper side of the guide grooves. On the plate And a lever sliding into the guide groove and the guide hole to slide therein is formed. The method according to claim 1 or 2, The vacuum actuator A cylinder opening with the surge tank when the solenoid valve is turned on to form a vacuum therein; A piston installed in the cylinder and sliding according to a vacuum pressure inside the cylinder; First and second link members connecting one end of the piston to one end of the lever of the plate in a link structure; And a return spring for holding one end of the lever of the plate from one side of the cylinder.