KR100418689B1 - Fuel saving guidance system of vehicle and control method thereof - Google Patents

Abstract

The present invention relates to a vehicle fuel saving technology that induces economic driving by effectively recognizing the fuel consumption and driving efficiency of a vehicle.

In particular, an input conversion unit A2 for measuring the injection amount of the fuel injector of an automobile and converting the injection amount into an electrical digital signal, and a load detection unit A3 for converting the electrical signal measured from the input conversion unit A2 into a load amount. And, the engine speed measurement unit (A4) for measuring the engine speed from the electrical signal measured by the input conversion unit (A2), and whether the rapid start and departure from the load amount measured from the load detection unit (A3) A display control unit A6 for visually indicating the load amount by using the rapid start / acceleration determination unit A5, the load amount from the load amount detection unit A3, and the engine speed from the engine speed measurement unit; A display unit A8 for receiving a signal from the display control unit A6 and visually confirming that the display light emitting diodes are continuously lit; and the rapid start / acceleration determination unit A Alarm control unit (A7) for controlling the alarm in accordance with the judgment in 5), an alarm unit (A9) for audible confirmation by buzzing by the output signal of the alarm control unit (A7), and the initial input of the controller by receiving the switch input It consists of a switch input unit (A1O) that turns on and off, alarm ON / OFF, internal variable setting, etc., which induces economic driving to the driver, thereby reducing fuel consumption and reducing harmful emissions, maintaining vehicle performance, and quickly starting. · Various effects such as prevention of sudden acceleration can be expected.

Description

Fuel saving guidance system of vehicle and control method

In general, the fuel consumption rate of automobiles is the lowest in the proper load range and high in the low and high load range. Therefore, it is possible to operate economically by operating in the proper load area. However, the conventional car is not equipped with a display device that can know the amount of fuel consumed or the load, or even a similar function, there is no product that can deliver audio-visually efficient to the driver could not drive in the appropriate load area.

In addition, it is generally known that fuel is consumed about 30% more than normal driving in the rapid start, rapid acceleration and inadequate low load areas.

For this reason, various problems such as excessive fuel consumption, increased exhaust fumes, and shortened vehicle life are exposed together due to the lack of proper correction means in the case of start and rapid acceleration caused by the wrong habit of the driver.

The present invention relates to a vehicle fuel saving technology that induces economic driving by effectively recognizing the fuel consumption and driving efficiency of a vehicle. More specifically, the economic speed range is determined through the maximum efficiency driving instruction during acceleration and fuel consumption during constant speed driving. Minimize fuel consumption by inducing driving or changing fuel consumption during driving.Induces government driving, and dynamically shows load fluctuations during acceleration and deceleration.Induces acceleration / deceleration within the control tracking range of a vehicle. In addition, fuel consumption is reduced by alerting the driver to warning lights and continuous lighting of the LED when the fuel is being consumed. In particular, the fuel cut-off function is displayed to prevent unnecessary low load, ie, operation in the partial load region. Function utilization) Reduce fuel consumption and induce economic driving to driver As fuel economy and to reduce noxious exhaust gas emissions, vehicle performance, maintain, sudden starts, sudden acceleration of the car accident prevention, saving a fuel to be expected a variety of effects such as the induction device and its control method.

The features and advantages of the present invention may be better understood with reference to the following accompanying drawings in conjunction with the following detailed description of embodiments of the invention, of which

1 is a control block diagram for explaining the fuel saving induction apparatus of the present invention,

2 is a processing flowchart of the vehicle fuel saving induction apparatus of the present invention;

3 is a block diagram of a display unit of the present invention vehicle fuel saving induction apparatus.

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

A1-fuel injection signal of the vehicle, A2-input conversion unit,

A3-load detection unit, A4-engine speed measurement unit

A5-Quick start / acceleration judgment unit, A6-Display control unit,

A7-alarm control unit, A8-display unit,

A9-alarm unit, A10-switch input unit,

The present invention has been made to solve the above problems, and after detecting the fuel flow rate data from the fuel injector of the vehicle and converts it to the load amount to inform the driver of the fuel-saving induction device of the automobile and its The purpose is to provide a control method.

In addition, another object of the present invention is to determine the overload in the rapid start / rapid acceleration situation to alert the driver to the continuous lighting of the warning sound and the display lamp to induce the overload to avoid the wrong driving habits of rapid start and rapid acceleration It is an object of the present invention to provide a fuel saving induction device and a control method thereof for avoiding fuel consumption.

In addition, it is an object of the present invention to provide a fuel saving induction apparatus and a control method of the vehicle to reduce unnecessary fuel consumption using the appropriate load operation and fuel cut function by using the yellow light in an inappropriate low load region.

In addition, by measuring the exact amount of fuel from the fuel injection time of the car and converting it to the load amount and measuring the engine speed, it is possible to inform the driver by determining the partial load area and overload area, selecting appropriate indicators and setting alarms accordingly. It is an object of the present invention to provide a fuel saving induction apparatus and a control method of a vehicle having an appropriate control algorithm for recognizing the load amount, rapid start, rapid acceleration, and excessive consumption time.

In order to achieve the above object, the present invention provides an input conversion unit for converting a signal from a fuel injector of an automobile into a control device, a load detection unit for detecting a load from a signal measured by the fuel injector, and the fuel. An engine speed measuring unit for measuring engine speed from a signal measured by an injector, a rapid start / rapid speed judging unit for determining rapid start, rapid acceleration, and excessive consumption time points from the detected load amount and engine speed, and the rapid start An alarm control unit for controlling an alarm in accordance with the judgment of the rapid acceleration judgment unit, an alarm unit for audibly checking the buzzer from an output signal of the alarm control unit, and a light emitting diode lighted continuously according to the load amount from the load detection unit Display unit for visual confirmation and switch inputs , Setting an internal variable, it is characterized in-part type switch for performing alarm setting or the like.

In another aspect, the present invention provides a fuel saving induction apparatus for a vehicle, comprising: initializing a controller according to a switch input after an operation of a start switch, automatically setting an alarm setting and internal reference setting data, and measuring a load amount from a fuel injector And comparing the data obtained in the step with the data set in the step of comparing the data obtained in the step with the reference value that is set as the predetermined numerical data during rapid acceleration and sudden start, and continuing to check the overload state if it is determined to be normal. And, if it is determined that the abnormality is characterized by consisting of a continuous lighting of the display lamp followed by a warning sound to inform the driver that the overload situation.

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

1 is a control block diagram for explaining the vehicle fuel saving induction apparatus of the present invention, Figure 2 is a process flow diagram of the vehicle fuel saving induction apparatus of the present invention, Figure 3 is a block diagram of a display unit of the vehicle fuel saving induction apparatus of the present invention.

In the present invention, as shown in FIG. 1, A2 converts the fuel injection amount into an electrical digital signal after measuring the fuel injection amount of an automobile, and inputs it to a load amount detection unit A3 and an engine speed measurement unit A4 described later. A3 is a load amount detection unit for detecting a load amount from the electrical signal measured by the input converter A2, and A4 is an engine speed measurement for measuring engine speed from the electrical signal measured by the input converter A2. It is wealth.

Here, of course, the input conversion unit (A2) can be received from the diagnostic connector and other vehicle wiring mounted in the vehicle.

In addition, A5 is a rapid start / rapid speed determining unit A5 for determining the rapid start / rapid acceleration from the signals of the load amount detecting unit A3 and the engine speed measuring unit A4, and A6 is visually determined according to the detected load amount. A7 is a display control part A6 for displaying, and A7 is an alarm control part A7 which controls an alarm according to the determination result by the said rapid start and rapid acceleration determination part A5.

In addition, A8 is a display unit A8 that visually displays the output from the display control unit A6 using a display light emitting diode, A9 is an alarm unit A9 for sounding an audible sound by the output of the alarm control unit, A10 is a switch input unit A10 that receives the switch input for initialization, alarm setting, reference setting, and the like.

Here, the display unit A8 is provided with a plurality of display light emitting diodes (LEDs) and sequentially turns on the output signal of the display control unit A6, and thus the driver visually checks the rapid start and the acceleration as a display unit. It is displayed in green, yellow and red depending on the load.

Such a configuration is only an embodiment, and can be changed as many within the scope of the configuration.

As shown in FIG. 3, the present invention configured as described above shows a load represented by ② in the display unit A8 displaying the load, a efficiency indicator and a status indicator, ④ an appropriate load region, and ⑤ an acceleration. The appropriate load area at time, ⑥ indicates the overload indicator.

That is, it consists of a plurality of light emitting diodes for indicating fuel consumption, load, and one tricolor light emitting diode for indicating fuel consumption, rapid start and rapid acceleration. The appropriate load area is shown in green, yellow at the highest efficiency point of load, and red at overload.The fuel consumption rate is high in one light emitting diode, yellow in the low load area, and red in the high load area, and green at the proper part load. The light turns on while the red light turns on at the time of rapid start, rapid acceleration and excessive consumption.

In addition, it is desirable to display the fuel cut load indicator with no fuel consumption at green in the extinguishing efficiency indicator.

The control sequence for displaying the display unit is as follows.

After operation of start switch, it receives switch input to initialize, set alarm, and set standard value (B1) (B2), where the standard value is set to preset value of overload condition generated during rapid acceleration and rapid start according to vehicle type. Although it may be adjusted directly by the user, it is preferable that the product is shipped with a reference value set in advance.

After that, the vehicle is started and the engine is first judged whether the engine is stable for a certain time (engine stability test). (B3) (B4)

When it is determined in step B4 that the starting stability is achieved, the load amount detecting unit A3 and the engine speed measuring unit A4 receive each load amount and the engine speed from the electric signal input from the input converting unit A2, respectively. (B5)

Rapid start and departure using this measured data and the data that set the overload condition generated during rapid acceleration and sudden start according to the vehicle model as a standard numerical value. In the sudden acceleration determination unit (A5) to determine the comparison (B6),

If it is determined that the abnormality in the comparison determination step, the display control unit A6 and the alarm control unit A7 generate an on-load warning sound followed by continuous lighting of the display LED in the display unit 1 of FIG. (B7) (B8) (B9)

Of course, the overload condition is naturally indicated in red in the overload indicator of ⑥.

On the other hand, in addition to the method of detecting the load amount from the fuel injector measurement data and comparing it with the reference value, it is also preferable to operate the overload state by using data obtained by converting the obtained load amount according to a predetermined time.

Therefore, the driver accelerates. The rapid start and departure of the fuel cell can be easily seen by the display light emitting diode on the display. You can avoid the sudden start.

Therefore, the driver can try the best operation method of starting, idling, accelerating, constant speed, deceleration using the display function of the display unit. First, at about half (1/2) of the initial load during the optimum idling period. In case of acceleration, it accelerates up to the acceleration zone indicator of the load indicator.In constant speed driving, economic speed maintenance, load quantity, and road conditions are allowed by judging the government driving and fuel consumption to keep the load indicator load unchanged. Resilient operation using driving to the acceleration zone and fuel cut-off within the range to increase the energy use efficiency by increasing the average load applied to the vehicle and a. It can be freely used to increase the energy use efficiency of vehicles, as well as to reduce vehicle pollution and harmful pollutant emissions. It is possible to sikilsu suppression.

As described above, the present invention detects fuel injector data and converts it into a load amount to drive the vehicle in an appropriate load region, thereby enabling economical operation. The warning sound and continuous lighting of the indicator lamp can be used to call attention to avoid sudden start and rapid acceleration, thereby greatly reducing fuel consumption due to overspeed.

In addition, in the low load area, the yellow indicator lights are used for proper load induction and fuel cut functions to reduce fuel consumption by reducing unnecessary fuel consumption and to drive the vehicle under optimal driving conditions. As well as car accidents due to rapid acceleration, it has the characteristics that can suppress vehicle pollution and harmful pollutant emissions.

Included in the above.

Claims (4)

An input converter A2 for measuring the injection amount of the fuel injector of the vehicle and converting the injection amount into an electric digital signal; A load amount detection unit A3 for converting the electrical signal measured from the input conversion unit A2 into a load amount; An engine speed measuring unit (A4) for measuring engine speed from an electrical signal measured by the input conversion unit (A2); A rapid start and rapid acceleration judging unit A5 for judging whether the rapid start and the rapid acceleration are determined from the load amount measured by the load amount detection unit A3; A display control unit A6 for visually indicating the load amount by using the load amount from the load amount detecting unit A3 and the engine speed from the engine speed measuring unit; A display unit A8 for receiving a signal from the display control unit A6 and visually confirming that the light emitting diode for display is continuously turned on; An alarm control unit A7 for controlling an alarm in accordance with the judgment made by the sudden start and rapid acceleration determination unit A5, An alarm unit A9 for audibly checking the buzzer by an output signal of the alarm control unit A7; A fuel saving induction apparatus for a vehicle, comprising a switch input unit (A10) configured to receive a switch input and control the initial and alarm ON / OFF, and set internal variables. The method of claim 1, By setting the color of the display light emitting diode differently in the display unit A8, the load, fuel consumption, and fuel consumption rate are simultaneously displayed, and the partial load yellow, overload red, and optimum fuel consumption rate are made to visually discriminate according to fuel consumption. Fuel saving induction apparatus for a vehicle, characterized in that the yellow is displayed at the time of excessive consumption. After the operation of the start switch receives the switch input to initialize (B1) (B2) and set alarm, and set the reference value, Measuring the load amount and the engine speed from the fuel injector of the vehicle (B5), Determining whether the startup is stable after starting the vehicle (B3) (B4), (B6) comparing and comparing data obtained by setting the reference value with a predetermined numerical value for the overload condition generated during rapid acceleration and sudden departure according to the vehicle model; If it is determined that the abnormality in the step of comparing and judging the continuous light of the light-emitting diode followed by a warning sound to inform the driver that the overload situation (B7) (B8) (B9) characterized in that the vehicle fuel saving induction device Control method. The method of claim 3, wherein A method of controlling a fuel saving induction apparatus for a vehicle, characterized in that the load amount is detected from the fuel injector measurement data, compared with a reference value, and the overload condition is determined using data obtained by converting the obtained load amount according to a predetermined time.