Heater control apparatus and heater control method of fuel filter for vehicle

Abstract

A heater control apparatus of a fuel filter for a vehicle includes a heater mounted within a fuel filter; a relay for a heater power source supplying or interrupting power of a battery to or from the heater; a fuel temperature detection sensor mounted on an engine and detecting a temperature of a fuel; and an engine electronic control unit (ECU) for switching on and off the relay based on a detection signal of the fuel temperature detection sensor.

Claims

1. A heater control apparatus of a fuel filter for a vehicle, comprising: a heater mounted within a fuel filter; a relay for a heater power source supplying or interrupting power of a battery to or from the heater; a fuel temperature detection sensor mounted on an engine and detecting a temperature of a fuel; a voltage measurement sensor for measuring a voltage of the battery connected to the engine ECU; and an engine electronic control unit (ECU) for switching on and off the relay based on a detection signal of the fuel temperature detection sensor, wherein the engine ECU switches off the relay if a heater operation time is longer than a predetermined time, wherein a battery voltage signal detected by the voltage measurement sensor is input to the engine ECU, and if a battery voltage indicated by the battery voltage signal is lower than a predetermined voltage for the predetermined time, the engine ECU switches off the relay.

2. The heater control apparatus of claim 1, wherein a timer for measuring an operation time of the heater is further connected to the engine ECU.

3. The heater control apparatus of claim 1, wherein a cooling water temperature sensor or an exterior air temperature sensor is further connected to the engine ECU.

4. A heater control method of a fuel filter for a vehicle, comprising: detecting a temperature of a fuel that passes through a fuel filter from a fuel tank and is supplied to an engine by a fuel temperature detection sensor mounted on the engine; switching on and off a relay for a heater power source, and switching on the relay if the temperature of the fuel is lower than a reference temperature and switching off the relay if the temperature of the fuel is higher than the reference temperature, by an engine ECU that receives a detection signal of the fuel temperature detection sensor; switching off the relay by the engine ECU when an operation time of the heater is longer than a predetermined time; and switching off the relay by the engine ECU when a voltage of a battery that is the heater power source is lower than a predetermined voltage for the predetermined time.

5. The heater control method of claim 4, further comprising: adopting a temperature of engine cooling water or a temperature of the exterior air as a switching on/off determination factor of the relay for a heater power source, by the engine ECU when the temperature of the fuel does not rise to a reference temperature or higher for a predetermined time after the operation of the heater.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) The above and other features of the present disclosure will now be described in detail with reference to certain exemplary embodiments thereof illustrated by the accompanying drawings which are given herein below by way of illustration only, and thus are not limitative of the present disclosure, and wherein:

(2) FIG. 1 is a diagram illustrating a diesel fuel supply system according to the related art;

(3) FIG. 2 is a circuit diagram of a heater circuit mounted on a diesel fuel filter according to the related art;

(4) FIG. 3 is a circuit diagram illustrating a heater control apparatus of a fuel filter for a vehicle according to the present disclosure; and

(5) FIG. 4 is a flowchart illustrating an embodiment of a heater control method of a fuel filter for a vehicle according to the present disclosure.

(6) It should be understood that the appended drawings are not necessarily to scale, presenting a somewhat simplified representation of various features of the present invention as disclosed herein, including, for example, specific dimensions, orientations, locations, and shapes will be determined in part by the particular intended application and use environment.

(7) In the figures, reference numbers refer to the same or equivalent parts of the present disclosure throughout the several figures of the drawing.

DETAILED DESCRIPTION

(8) Hereinafter, exemplary embodiments will be described in detail with reference to the accompanying drawings.

(9) The main point of the present invention is to use a fuel temperature detection sensor mounted on an engine instead of an existing thermo-switch to control switching on and off of a relay for a heater power source for switching on and off a heater of a diesel fuel filter.

(10) FIG. 3 is a circuit diagram illustrating a heater control apparatus of a fuel filter for a vehicle according to the present disclosure.

(11) In FIG. 3, reference numeral 24 denotes a heater mounted within a fuel filter 20, and the heater is a positive temperature coefficient (PTC) heater.

(12) Then, a fuel temperature detection sensor 42 mounted on an engine detects a temperature of fuel to operate the heater 24, instead of an existing thermo-switch.

(13) The fuel temperature detection sensor 42 may be arbitrarily mounted on the engine and at a desired location of a fuel supply line through which a fuel flows.

(14) Accordingly, manufacturing costs and the number of assembly processes can be reduced by excluding an existing thermo-switch 22 mounted within the fuel filter 20 and a connector for a thermo-switch from the fuel filter 20.

(15) Here, an output terminal of the fuel temperature detection sensor 42 is connected to an input terminal of an engine electronic control unit (ECU) 40, and a temperature sensing signal of the fuel temperature detection sensor 42 is transmitted in real time to the engine ECU 40 in an ignition step IG2.

(16) A relay for a heater power source for supplying or interrupting battery power to or from the heater 24 is controlled by the engine ECU 40.

(17) An output terminal of the engine ECU 40 is connected to the relay 28 for a heater power source, and the engine ECU 40 switches on and off the relay 28 for the heater power source in the ignition step IG2.

(18) Accordingly, when a fuel from the fuel tank passes through the fuel filter to be supplied to the engine, the fuel temperature detection sensor 42 detects the temperature of the fuel and transmits a detection signal to the engine ECU 40, and subsequently, if the engine ECU 40 determines that the temperature of the fuel is lower than a reference temperature (for example, about 2 C.), the engine ECU 40 switches on the relay 28 to operate the heater 24 and increase the temperature of the fuel.

(19) If the engine ECU 40 determines that the temperature of the fuel is higher than a reference temperature (for example, about 12 C.) after the fuel temperature detection sensor 42 detects the temperature of the fuel and transmits a detection signal to the engine ECU 40, the engine ECU 40 switches off the relay 28 because the operation of the heater is unnecessary.

(20) In this way, because the fuel temperature detection sensor 42 mounted on the engine detects the temperature of the fuel and the engine ECU 40 switches on and off the relay 28 based on the detected temperature of the fuel, switching on and off of the heater can be precisely controlled by accurately detecting the temperature of the fuel, unlike in an existing thermo-switch having a severe temperature detection deviation.

(21) A timer 44 which measures an operation time of the heater as an switching-off determination element of the relay 28 is further connected to an input terminal of the engine ECU 40, and a voltage measurement unit 46 for measuring the voltage of the battery is further connected to the input terminal of the engine ECU 40.

(22) Accordingly, the heater operation time measured by the timer 44 is input to the engine ECU 40, and if the heater operation time is longer than a predetermined time (about 5 minutes), the engine ECU 40 switches off the relay 28.

(23) In more detail, because a fire may be caused if the heater is operated for an excessive time due to a breakdown of the fuel temperature detection sensor or the like, the engine ECU 40 switches off the relay 28 if the heater operation time is longer than the predetermined time (about 5 minutes) so that a fire accident due to the excessive operation of the heater can be prevented.

(24) Accordingly, a battery voltage signal detected by the voltage measurement unit 46 is input to the engine ECU 40, and if the battery voltage is lower than a predetermined voltage for the predetermined time, the engine ECU 40 switches off the relay 28.

(25) When current consumption due to an operation of the heater 24 is excessive and the battery voltage is lower than a predetermined voltage for the predetermined time, the engine ECU 40 switches off the relay 28 in order to prevent discharging of the battery so that the discharging of the battery due to excessive current consumption of the heater may be prevented.

(26) When the temperature of the fuel does not rise for the predetermined time after the operation of the heater 24, that is, when the detection temperature of the fuel temperature detection sensor 42 is not changed for the predetermined time, the engine ECU 40 determines that the power line of the heater is short-circuited and the fuel temperature detection sensor breaks down, and accordingly performs a fail-safe control as illustrated in the flowchart of FIG. 4.

(27) First, it is determined whether a current flows to the power line of the heater (S101), and it is determined whether the fuel temperature detection sensor has an error if the power line of the heater is normal (S102).

(28) If it is determined that the fuel temperature detection sensor breaks down, the engine ECU 40 uses a temperature sensing value of an engine cooling water temperature sensor (not illustrated) or an exterior air temperature sensor (not illustrated) (S103).

(29) For example, it is determined whether the temperature of the engine cooling water is lower than a reference temperature (about 2 C.) (S104), and the engine ECU 40 switches on the relay 28 if the temperature of the engine cooling water is lower than the reference temperature (S105), and it is determined whether the temperature of the engine cooling water is higher than a reference temperature (about 12 C.) (S106), and the engine ECU 40 switches off the relay 28 if the temperature of the engine cooling water is higher than the reference temperature (S109).

(30) Even when the engine ECU 40 switches on and off the relay 28 using the temperature of the engine cooling water, if the battery voltage is lower than a predetermined voltage for a predetermined time (S107) or the operation time of the heater is longer than a predetermined time (S108), the engine ECU 40 switches off the relay 28 (S109).

(31) About 5 minutes after the engine ECU 40 switches on the relay 28 (S105) such that the heater is operated, it is determined again whether the temperature of the fuel rises according to the operation of the heater (S110).

(32) In this way, when the temperature of the fuel does not rise for the predetermined time after the operation of the heater, a fail-safe function for switching on and off the heater using the temperature of the cooling water and the temperature of the exterior air can be provided.