JPS59160065A - Fuel heating device for diesel engine - Google Patents

Abstract

PURPOSE:To detect the condition of fuel correctly and permit to heat the fuel properly by a method wherein the heating of the fuel is effected based on a fuel temperature signal, outputted by a temperature sensor, and a pressure signal, outputted by a pressure sensor for detecting the clogging of a fuel filter. CONSTITUTION:A control circuit 26 inputs the fuel temperature signal 100, outputted by the temperature sensor 22, after starting the engine 10 by putting a key switch 32 ON under a low temperature and conducts a fuel heater 20 while the fuel is heated for a predetermined period of time under an idling revolution. Next, when the engine is brought into running condition, the control circuit 26 inputs the pressure signal 102, outputted by the pressure sesor 24 detecting the clogging of the fuel filter 18, controls the fuel heater 20 based on the pressure signal and the temperature signal 100 and prevents the fuel from becoming wax or the clogging of the fuel filter 18. Accordingly, in case the temperature of the fuel is higher than a predetermined temperature, the heating will never be effected as fas as the pressure of the fuel from the fuel filter does not become lower than a predetermined pressure and thus useless heating may be prevented.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of the Invention The present invention relates to a fuel heating device for a diesel engine, particularly to a device for preheating fuel at low temperatures.

BACKGROUND ART Light oil is used as a fuel in diesel engines, but light oil has the property of turning into wax at low temperatures. For example, JIS No. 2 diesel oil turns into wax at about -10°C. Therefore, at low temperatures, the waxed light oil adheres to the fuel filter, clogging the fuel filter, and there is a problem in that the light oil is no longer supplied to the engine body.

Therefore, conventionally, fuel heating devices have been proposed in which a PTC heating element is installed in the fuel filter, or a nichrome wire is wound around the fuel pipe that supplies the fuel filter, and in this type of fuel heating device, A bimetal is used as a temperature detector, and when the temperature of the fuel is below a predetermined temperature, the fuel can be heated by the action of the bimetal.The object to be detected by the temperature detector is a fuel filter having a PTC heating element. In addition to the temperature of the fuel filter, the temperature of the fuel near the filter element of the fuel filter, the temperature of the cooling water,
Alternatively, it is also possible to determine the atmospheric temperature. Further, in the conventional device, a manual switch is provided to operate the heating device, and the manual switch is turned on for a predetermined time based on the driver's judgment, thereby turning on the heating device, or A well-known timer is used to keep the heating device on for the time set by the timer.

As described above, according to the conventional apparatus, when the temperature of the fuel is below a predetermined temperature, the fuel can be heated, thereby heating the fuel and preventing the wax from forming.

However, such conventional devices have the following problems. In other words, in the conventional device, as mentioned above, the heating element is turned on and off only by temperature detection using the bimetal, so there is a risk that the fuel will be overheated if the bimetal fails. Even though the waxing temperature of the fuel differs depending on the type, the operating temperature of the bimetal is fixed, so the problem of overheating or underheating of the fuel rarely occurs.

OBJECTS OF THE INVENTION The present invention has been made in view of the above-mentioned conventional problems, and its purpose is to provide a diesel engine that can accurately detect the state of fuel using a temperature sensor and a pressure sensor and heat the fuel appropriately. An object of the present invention is to provide a fuel heating device.

And 1! A. In order to achieve the above object, the present invention provides a diesel engine, a fuel tank for storing fuel supplied to the diesel engine, and a fuel tank provided between the diesel engine and the fuel tank to filter out impurities from the fuel. including a fuel filter and a fuel heater that heats fuel from the fuel tank provided between the fuel tank and the fuel filter,
A temperature sensor that detects the temperature of the fuel, a sensor that detects clogging of the fuel filter by detecting the pressure of the fuel, and controls the fuel heater based on the temperature signal from the temperature sensor and the pressure signal from the pressure sensor. and a control circuit for heating the fuel based on the temperature signal and the pressure signal.

Embodiments Hereinafter, preferred embodiments of the present invention will be described based on the drawings.

FIG. 1 shows a fuel heating device for a diesel engine according to an embodiment of the present invention.

In FIG. 1, a fuel tank 12 is provided to store fuel to be supplied to a diesel engine 10.
Fuel from the fuel tank 12 is supplied to the diesel engine 10 through a fuel pipe 14, and excess fuel in the diesel engine 10 is returned to the fuel tank 12 through a fuel pipe 16. Between the diesel engine 10 and the fuel tank 12, a fuel filter 18 with a built-in fuel sedimentator is provided, and the fuel filter 18 separates water in the fuel and removes impurities from the fuel. Can be removed by filtration. Further, a fuel heater 20 is provided between the fuel tank 12 and the fuel filter 18, and the fuel heater 20 heats the fuel from the fuel tank 12, thereby preventing the fuel from waxing. be able to.

A characteristic feature of the present invention is that a temperature sensor that detects the temperature of fuel and a pressure sensor that detects clogging of the fuel filter by detecting the pressure of the fuel are provided, and the temperature signal from the temperature sensor and the pressure sensor that detects clogging of the fuel filter are separated. The state of the fuel is accurately detected based on the pressure signal from the pressure sensor, and the fuel is heated. In the embodiment, a temperature sensor 22 is provided between the fuel filter 18 and the fuel heater 20, and an eye of the fuel filter 18 is provided between the diesel engine 1o and the fuel filter 18. A pressure sensor 24 is provided that detects clogging of the fuel filter 18 by utilizing the fact that the pressure of fuel from the fuel filter 18 becomes lower than a predetermined pressure when the fuel filter 18 is clogged. The control circuit 26 receives the temperature signal 100 from the temperature sensor 22.
and controls the fuel heater 20 based on the pressure signal 102 from the pressure sensor 24.

A power source 28 is provided to supply current to the fuel heater 20 to heat the fuel, and a power source 28 is provided to control on/off the current supply to the fuel heater 20. A relay 30 is connected.

The relay 30 is controlled by a control circuit 26,
A key switch 32 is connected to the control circuit 26, and when the key switch 32 is turned on, the relay 30 becomes operable. Therefore, after the key switch 32 is turned on and the engine is started and the engine is turned off, the relay 30 becomes operable, and the fuel can be heated after the engine is started.

Note that a manual switch 34 is connected in parallel with the relay 30, and when the control circuit 26 fails or when the driver desires to heat the fuel, the manual switch 34 is activated.
By the operation 4, it becomes possible to heat the fuel.

Further, an interface 36 is connected to the control circuit 26, and signals such as inputs for detecting engine rotation speed, engine water temperature, and running conditions are supplied to the control circuit 26 via the interface 36.

A preferred embodiment of the present invention is constructed as described above, and its operation will be explained below.

When the temperature is low, for example, when the fuel temperature is below O'c, turn on the key switch 32 to start the engine 10,
One to three minutes after the idle rotation becomes stable or at the start of running, the temperature sensor 22 detects the temperature of the fuel and supplies a temperature signal 100 to the control circuit 26. It should be noted that the running determination is detected at the gear 2/f1 position. Thereafter, the control circuit 26 supplies current to the fuel heater 20 to heat the fuel, and during idling, the fuel is heated for a predetermined period of time ().
When the fuel is heated and the vehicle is running, the pressure sensor 24 detects clogging of the fuel filter 18 by detecting the fuel pressure from the fuel filter 18, and transmits the pressure signal 102 to the control circuit. 26, the temperature sensor 22 provides a temperature signal 100 to a control circuit 26 that controls the fuel heater 20 to properly heat the fuel and prevent waxing of the fuel. Prevents clogging of the fuel filter 18. For example, if the water temperature of the engine is at an appropriate temperature above the warm-up temperature of about 60 degrees Celsius, even if the fuel temperature appears to be atmospheric temperature after restart, if the fuel temperature is above a predetermined temperature, the timer will start operating. The heating of the fuel is stopped regardless of the temperature, and the heating of the fuel is not performed unless the temperature becomes below the fuel filter degree.

Therefore, when the temperature of the fuel is above the predetermined temperature, the fuel will not be heated unless the pressure of the fuel from the fuel filter 18 falls below the predetermined pressure, thereby preventing unnecessary heating of the fuel. I can do it.

As described above, according to the embodiments of the present invention, the state of the fuel can be accurately detected based on the temperature signal from the temperature sensor and the pressure signal from the pressure sensor, thereby making it possible to appropriately heat the fuel. Therefore, compared to the case where the state of the fuel is detected using only a temperature sensor, the state of the fuel can be detected more accurately, and overheating or underheating can be prevented.

In addition, in the pressure detection method of the embodiment, it is preferable to set the hysteresis at the time of on/off to, for example, about 50 to 2 oommHG. can be done,
This is especially effective in cold weather.

Furthermore, when the fuel is heated using a manual switch, the user does not notice that the fuel filter is clogged, which is especially effective in cold weather.

Furthermore, in a device that heats fuel using a manual switch, the driver does not notice that the fuel filter is clogged after the engine has started, which causes the engine to stop. After startup, the temperature sensor detects the fuel level and heats the fuel, which prevents the fuel from turning into wax and clogging the fuel filter. Therefore, the fuel filter does not become clogged after the engine is started, so the vehicle can be driven safely. c1
5. In the embodiment, the fuel humidity was detected at the time of engine startup, but it is also possible to detect the temperature of the present device, the temperature of the fuel filter, or the engine water temperature, which can be substituted for the fuel humidity.

Next, FIG. 2 shows a cross section of the fuel heater according to the actual M example, and FIG. 3 shows the cross section of FIG. Efficiency can be improved.

The fuel heater 20 has an inlet pipe 38 at one end for guiding fuel from the fuel tank 12 and an outlet pipe 40 for supplying heated fuel to the fuel filter 18 at the other end. As shown by arrow A, the fuel is supplied to the fuel heater 2o through the inlet pipe 38, and after receiving a predetermined heating action in the fuel heater 20, it is sent to the outlet as shown by arrow B. The fuel is supplied to the fuel filter 18 through a pipe 40. The fuel heater 20 is surrounded by a PTC heating cord 42-
1 to 42-4, and PTC heating elements 42-1 to 42-4.
A guide frame 46 is arranged inside the heating frame 44 with a predetermined gap and guides the fuel along the heating surface of the heating frame. A heating chamber 48 is formed between the heating frame 44 and the guide frame 46, and the fuel is heated within the heating chamber 48. The heating frame 44 has a substantially rectangular column shape,
Four flat plate-shaped heating elements 42-
The heating frame 44 is made of a material with good thermal conductivity in order to improve the heating efficiency of the fuel.

The guide frame 46 has a substantially rectangular column shape like the heating frame 44, and the gap between the kite frame 46 and the heating frame 44 is 1 to 5 mm fJi! As a result, the heating chamber 48 can be set narrowly, so that the heating efficiency of the fuel can be improved.

Further, the guide frame 46 has a water drain hole 46a at its lower end, and the water drain hole 4.6a can prevent water in the fuel from accumulating in the guide frame 46. Further, FIG. 4 shows the appearance of the guide frame 46, and the guide frame 46 has a substantially rectangular column shape as described above, and has flames on each of its four sides. 31 passage holes 50-1 to 50-4
The fuel heated in the heating chamber 48 is supplied to the heret pipe 40 through the passage holes 50-1 to 50-4°.

Therefore, the fuel from the inlet pipe 38 is
As shown in D, after being supplied to the heating chamber 48 and receiving an efficient heating action in the heating chamber 48, the guide frame 46
It will be supplied to the outlet pipe 40 through the passage holes 50-1 to 50-4.

The heating frame 44 and the guide frame 46 are housed within an outer frame 52, and the outer frame 52 is made of a material with good heat resistance and heat insulation. And PTC heating element 42-1
In order to improve the thermal conductivity from ~42-4 to the heating frame 44, plates 5 made of a highly conductive material are provided on the side surfaces of the PTC heating elements 42-1~42-4, respectively.
4-1 to 54-4 are provided, and the plates 54-1 to 54-5 are provided.
A retainer spring 56 is inserted and fixed between 4-4 and the outer frame body 52. Therefore, due to the biasing force of the retainer spring 56, the PTC heating cords 42-1 to 4
2-4 is pressed against the heating frame 44, and the PTC heating element 4
Since the PTC heating elements 2-1 to 42-4 are in close contact with the heating frame 44 uniformly, the PTC heating elements 42-1 to 42-4 to the heating frame 44
Heat can be efficiently conducted to the fuel, thereby efficiently heating the fuel.

In order to support and fix the PTC heating elements 42-1 to 42-4 in the vertical and horizontal directions, a PTC heating element 42-4 is provided.
An insulator plate 58 made of rubber with good insulation is provided on the upper, lower, left, and right end surfaces of the elements 1 to 42-4. The insulator plate 58 has four holding holes formed therein at the locations where the PTC heating cords 42-1 to 42-4 contact the heating frame 44. ,
The PTC heating elements 42-1 to 42-4 are fitted and fixed into the holding holes of the insulator plate 58.

Therefore, the insulator plate 58 can reliably support and fix the PTC heating elements 42-1 to 42-4 in the vertical and horizontal directions. 44 can be reliably conducted.

A cover 60 is provided above the outer frame body 52.
0, the outlet pipe 40 is fixed by brazing. The upper part of the cover 60 is formed in a convex shape, so that the air inside the fuel heater 20 can be collected at the upper part and released. It is possible to prevent a situation in which there is a negative impact on the Further, in order to attach the fuel heater 20 to the vehicle body, a stay 62 is welded and fixed to the upper part of the cover 60, and a bracket 64 is fixed to the stay 62 with a rivet 66.

Note that when the fuel heater 20 is actually attached to a vehicle body, it is preferable to change the shape of the bracket 64 depending on the vehicle body.

In the fuel heater 20, an O-ring 68 is interposed between the heating frame 44 and the cover 60 to seal the fuel side, and also seals the atmosphere side to prevent water and salt water from coming in from the atmosphere side. An upper gasket 70 is provided between the outer frame 52 and the cover 60, and a lower gasket 72 is provided between the heating frame 44 and the outer frame 52 in order to prevent the intrusion of foreign substances.
is provided. Therefore, 'PTC heating element 42-1
-42-4, oxides and the like are not generated, and deterioration of electrical conductivity and thermal conductivity can be prevented.

In order to supply current to the PTC heating elements 42-1 to 42-4, the plate 54-1 is used as a live electrode of the PTC heating element 42-1, a harness is extended from the plate 54-1, and the heating frame is Terminal 74 below P
This is one electrode of the TC heating element 42-1, and current is supplied to the PTC heating element 42-1 through the plate 54-1 and the terminal 74. Furthermore, terminal 7
A washer spring 76 is provided below the terminal 74 in order to make good electrical contact between the terminals 74 and 4.
can be pressed against the heating frame 44. In addition, in this explanation, the current supply to the PTC heating element 42-1 was explained, but the PTC heating elements 42-1 to 42
-4 is also supplied with a similar configuration. Further, as shown in FIG. 4, the guide frame 46
A ring-shaped insulating plate 78 is formed to protrude above, and this insulating plate 78 is thinly inserted into the upper surface of the heating frame 44 to maintain an insulating state, so that the heating frame 44 and the cover 60 are connected to the vehicle body. It is never considered to be earthed.

It is understood that the fuel heater according to the embodiment has the above configuration and can efficiently heat the fuel within the heating chamber. That is, the fuel from the inlet pipe 38 is supplied to the outlet pipe 40 through the heating chamber 48, and in this heating chamber 48, the heat from the PTC heating elements 42-1 to 42-4 is made of a material with good thermal conductivity ( e.g. aluminum)
is formed and transmitted from the heating frame 44 to the fuel, and further,
The guide frame 46 disposed inside the heating frame 44 with a predetermined gap allows the fuel to flow on the inner surface of the heating frame 44, thereby efficiently heating the fuel.

As described above, according to the fuel heater according to the embodiment, fuel can be heated efficiently and heating current can be used effectively.

Further, in the fuel heater of the embodiment, PTC heating elements 42-1 to 42-4 are used as heating members for heating the fuel, and the resistance value of the PTc heating element increases as the temperature rises, and the PTC heating element increases as the temperature rises. Since the current flowing through the heating element is reduced and the temperature is maintained so that the temperature does not rise above a predetermined value, there is no danger that the fuel in the heating frame 44 will ignite due to heating.

In the fuel heater of the embodiment, the PTC heating element is divided into four PTC heating elements 42-1 to 42-4, and the PTC heating cords 42-1 to 44-4 are connected to the heating frame 44. Since the heating frame 44 is in close contact with the surroundings, the thermal efficiency can be improved, and the guide frame 4 is placed inside the heating frame 44 through a gap.
6, an improvement in thermal efficiency of 20 to 30% was obtained.

Further, although the guide frame 46 is formed into a substantially rectangular column shape, it is also sufficiently effective even if it is cylindrical. In addition, in order to improve the heat transfer efficiency from the heating frame 44 to the fuel, the heating frame 4
It is preferable to provide fins on the inside of 4.Furthermore,
In order to improve thermal efficiency, it is preferable that the parts of the kite frame 46 other than the insulating plate 78 be formed of a metal that has good thermal conductivity and is resistant to corrosion.

As described in detail, according to the present invention, the state of the fuel can be accurately detected using the temperature sensor and the pressure sensor, and the fuel can be heated appropriately.

Therefore, overheating and underheating of the fuel can be prevented, and heating current can be used effectively.

Furthermore, in the present invention, the fuel heater is installed between the fuel tank and the fuel filter, so that the fuel heater can be easily installed in the vehicle and the fuel can be heated safely. The heating effect is large and effective even in cold weather.'Furthermore, in the present invention, the fuel is heated based on the temperature signal from the temperature sensor and the pressure signal from the pressure sensor. Since the fuel is not heated by the driver, it is possible to prevent the fuel filter from becoming clogged due to heating delays caused by the driver.

Further, in the present invention, it is preferable to use, for example, a PTC heating element as the heating member of the fuel heater, which is safe because the fuel is not heated above a predetermined temperature. Furthermore, the temperature sensor can detect not only the fuel temperature but also any temperature that can be correlated with the fuel temperature, such as the heater temperature or the fuel filter temperature. It is possible to implement it not only by a pair but also by a bimetal type.

In addition, in the present invention, the state of the fuel is detected by the temperature sensor and the pressure sensor, but it is also possible to use only either the temperature sensor or the pressure sensor. When only a temperature sensor is used, a little extra heat is added to the fuel that is difficult to wax, so effective heating can be performed, and when only a pressure sensor is used, the fuel filter Since fuel heating starts in the initial state where clogging occurs, it is preferable to use a fuel heater that has quick heating characteristics and a relatively large amount of current. In addition, when either a temperature sensor or a pressure sensor is used, the cost of the apparatus can be reduced.

[Brief explanation of the drawing]

FIG. 1 is an explanatory diagram of a fuel heating device for a diesel engine according to an embodiment of the present invention, FIG. 2 is a sectional view of a fuel heater according to an embodiment, FIG. 3 is a sectional view taken along the line ■-■ in FIG. 2, and FIG. The figure is an external perspective view of the guide frame. DESCRIPTION OF SYMBOLS 10... Diesel engine, 12... Fuel tank, 18... Fuel sedimentary fuel filter, 20... Fuel heater, 22... Temperature sensor, 24... Pressure sensor, 26. ... Control circuit, 42-1 to 42-24. PTC... heating element,
44... Heating frame body, 46... Guide frame body, 48... Heating seedling, 50-1 to 5o-4 river passage hole. Agent Patent attorney Kenji Yoshida (one idiot) Figure 1 Figure 2 Figure 3 Figure 4 Procedural amendment (frog) Mr. Commissioner of the Japan Patent Office 1, Indication of the case 1982 Patent application No. 33384 2, Invention Name Fuel heating device for diesel engine 3, Relationship with the case of the person making the amendment Patent applicant address 1 Toyota-cho, Toyota City, Aichi Prefecture Name (320) l-Yota Motor Co., Ltd. 4, Agent 5, Subject of amendment column, Column for a brief description of the drawing, drawing. Description 1. Name of the invention: Fuel heating device for a diesel engine 2. Claims (1) A diesel engine, a fuel tank for storing fuel supplied to the diesel engine, and a combination of the diesel engine and the fuel tank. The fuel filter includes a fuel filter installed between the fuel tank and the fuel filter to filter out impurities from the fuel, and a fuel heater installed between the fuel tank and the fuel tank to heat the fuel from the fuel tank, and detects the temperature of the fuel. a JI71 sensor that detects clogging of the fuel filter by detecting fuel pressure, and control that controls the fuel heater based on the temperature signal from the temperature sensor and the pressure signal from the pressure sensor. What is claimed is: 1. A fuel heating device for a diesel engine, characterized in that the fuel heating device has a circuit and heats the fuel based on a temperature signal and a pressure signal. (2. In the device according to claim (1), the fuel heater includes a heating frame having a PTC heating element around the heating frame, and a fuel passage hole arranged inside the heating frame with a predetermined gap. A fuel heating device for a diesel engine, characterized in that the fuel is heated in a heating chamber formed between the heating frame and the guide frame. 3. Details of the invention. The present invention relates to a fuel heating device for a diesel engine, particularly a device for preheating fuel at low temperatures.Background ArtIn diesel engines, light oil is used as a fuel. Light oil has the property of turning into wax and soot at low temperatures. For example, JIS No. 2 light oil turns into wax at about -10'C. Therefore, at low temperatures, the waxed light oil adheres to the fuel filter and the fuel filter There was a problem that this caused clogging of the fuel oil, preventing diesel oil from being supplied to the engine body.So conventionally, a PTC heating element was installed in the fuel filter, or a nichrome wire was wound around the fuel pipe that supplied fuel to the fuel filter. In this type of fuel heating device, a bimetal is used as a temperature detector, and when the temperature of the fuel is below a predetermined temperature, the fuel can be heated by the action of the bimetal. The temperature detector can detect not only the temperature of the fuel filter having the PTC heating element, but also the temperature of the fuel near the filter element of the fuel filter, the temperature of the cooling water, or the atmospheric temperature. In the conventional device, a manual switch is provided in order to operate the heating device, and the manual switch is turned on for a predetermined time based on the driver's judgment, thereby turning on the heating device, or as is known in the art. A timer is used, and the heating device is turned on only for the rR period set by the timer.As described above, according to the conventional device, when the temperature of the fuel is below a predetermined temperature, the heating device is heated, This makes it possible to heat the fuel and prevent it from turning into wax.However, such conventional devices have the following problems.In other words, in the conventional devices, as mentioned above, heating Since the on/off operation of the element is performed only by temperature detection using a bimetal, there is a risk of overheating of the fuel if the bimetal fails, and furthermore, the temperature at which the fuel turns into wax varies depending on the type of fuel. First, since the operating temperature of the bimetal is fixed, there is a problem in that the fuel may be overheated or underheated. OBJECTS OF THE INVENTION The present invention has been made in view of the above-mentioned conventional problems, and its purpose is to provide a diesel engine that can accurately detect the state of fuel using a temperature sensor and a pressure sensor and heat the fuel appropriately. An object of the present invention is to provide a fuel heating device. Composition of the Invention In order to achieve the above object, the present invention provides a diesel engine, a fuel tank for storing fuel supplied to the diesel engine, and a fuel tank provided between the diesel engine and the fuel tank to filter and remove impurities from the fuel. a fuel filter that heats the fuel from the fuel tank, and a fuel heater that heats the fuel from the fuel tank, and a temperature sensor that detects the temperature of the fuel; A pressure sensor that detects clogging of a fuel filter; and a control circuit that controls the fuel heater based on a temperature signal from the temperature sensor and a pressure signal from the pressure sensor, and a control circuit that controls the fuel heater based on the temperature signal and the pressure signal. , the fuel is heated. Embodiments Hereinafter, preferred embodiments of the present invention will be described based on the drawings. FIG. 1 shows a fuel heating device for a diesel engine according to an embodiment of the present invention. In FIG. 1, a fuel tank 12 is provided to store fuel to be supplied to a diesel engine 10.
Fuel in the fuel tank 12 is supplied to the diesel engine 1o through a fuel pipe 14, and excess fuel in the diesel engine 10 is returned to the fuel tank 12 through a fuel pipe 16. Between the diesel engine 10 and the fuel tank 12, a fuel filter 18 with a built-in fuel sedimentator is provided, and the fuel filter 18 separates water in the fuel and removes impurities from the fuel. Can be removed by filtration. Furthermore, a fuel heater B20 is provided between the fuel tank 12 and the fuel filter 78, and the fuel heater 20 heats the fuel in the fuel tank 12, thereby preventing the fuel from becoming wax. A characteristic feature of the present invention is that a temperature sensor that detects the temperature of the fuel and a pressure sensor that detects clogging of the fuel filter by detecting the pressure of the fuel are provided, and the temperature sensor The state of the fuel is accurately detected based on the temperature signal from the sensor and the pressure signal from the pressure sensor, and the fuel is heated.In the embodiment, the fuel filter 18 and the fuel heater 20 A temperature sensor 22 is installed between the diesel engine 10 and the fuel filter 18, and a temperature sensor 22 is installed between the diesel engine 10 and the fuel filter 18, and a temperature sensor 22 is installed between the diesel engine 10 and the fuel filter 18 to detect when the fuel filter 18 becomes clogged and the pressure of the fuel from the fuel filter 18 falls below a predetermined pressure. A pressure sensor 24 is provided to detect clogging of the prize filter 18 by utilizing this fact, and a temperature sensor 22 is provided.
and pressure sensor 24 are connected to a control circuit 26 that controls the fuel heater 20 based on a temperature signal 100 from temperature sensor 22 and a pressure signal 102 from pressure sensor 24. A power source 28 is provided to supply current to the fuel heater 20 to heat the fuel, and a relay 30 is provided to the power source 28 to control on/off the current supply to the fuel heater 20. It is connected. The relay 30 is controlled by a control circuit 26,
A key switch 32 is connected to the control circuit 26, and when the key switch 32 is turned on, the relay 30 becomes operable. Therefore, after turning on the key switch 32 and starting the engine, the relay 30 becomes ready for operation, and it becomes possible to heat the fuel after starting the engine. Note that a manual switch 34 is connected in parallel with the relay 30, and when the control circuit 26 fails or when the driver desires to heat the fuel, the manual switch 34 is activated.
By the operation 4, it becomes possible to heat the fuel. Further, an interface 36 is connected to the control circuit 26, and signals such as inputs for detecting engine rotation speed, engine water temperature, and running conditions are supplied to the control circuit 26 via the interface 36. A preferred embodiment of the present invention has the above configuration, and its operation will be explained below. When the temperature is low, for example, when the fuel temperature is low, below 0°C, turn on the key switch 32 to start the engine 1°, and after 1 to 3 minutes after the idle rotation has stabilized or at the start of driving, the temperature sensor 22 detects the fuel temperature. temperature is detected and a temperature signal 100 is supplied to the control circuit 26. Note that driving is determined by detecting the gear shift position. After that, the control circuit 26
As a result, current is supplied to the fuel heater 20 to heat the fuel, and during idling, the fuel is heated for a predetermined period of time, and when the vehicle is in a running state, the pressure sensor 24 detects whether the fuel Clogging of the fuel filter 18 is detected by detecting the fuel pressure from the filter 18, and a pressure signal 1'02 is supplied to the control circuit 26, and the temperature sensor 2
2 provides a temperature signal 100 to a control circuit 26 that controls the fuel heater 20 to properly heat the fuel, prevent waxing of the fuel, and filter the fuel filter 18.
prevent clogging. For example, if the water temperature of the engine is at an appropriate temperature above the warm-up temperature of about 60 degrees Celsius, even if the fuel temperature appears to be atmospheric temperature after restart, if the fuel temperature is above a predetermined temperature, the timer will start operating. Fuel heating is stopped regardless of whether the fuel pressure from the fuel filter 18 is -
150~-40On+11+H (The fuel will not be heated unless it becomes about 1 or less. Therefore, if the temperature of the fuel is above the predetermined temperature, the heating of the fuel will not occur unless the pressure of the fuel from the fuel filter 18 becomes below the predetermined pressure. Since the fuel is not heated, unnecessary heating of the fuel can be prevented.As described above, according to the embodiments of the present invention, the temperature signal from the temperature sensor and the pressure signal from the pressure sensor are used. It is possible to accurately detect the fuel condition and thereby heat the fuel appropriately.Therefore, compared to detecting the fuel condition using only a temperature sensor, it is possible to accurately detect the fuel condition. In addition, in the pressure detection method of the embodiment, it is preferable to set the hysteresis at the time of on/off to about 50 to 200 mm Hg. The fuel can be heated for a little longer when the temperature becomes very low, which is especially effective in cold weather.Furthermore, in conventional devices that heat the fuel using a manual switch, after the engine has started, Although there is a drawback that the driver is not aware of the clogging of the fuel filter and the engine stops as a result, in the embodiment, after the engine is started, the temperature of the fuel is detected by a temperature sensor,
Since the fuel is heated, it is possible to prevent the fuel from turning into wax, thereby preventing clogging of the fuel filter. Therefore, the fuel filter does not become clogged after the engine is started, so the vehicle can be driven safely. In the embodiment, the fuel temperature is detected at the time of starting the engine, but it is also possible to detect the temperature of the present device, the temperature of the fuel filter, or the engine water temperature, which can be substituted for the fuel temperature. Next, FIG. 2 shows a cross section of the fuel heater according to the embodiment, and FIG. 3 shows the cross section of FIG. 2. According to the fuel heater of the embodiment, the heating efficiency is can be improved. The fuel heater 20 has an inlet pipe 38 at one end for guiding fuel from the fuel tank 12 and an outlet pipe 40 for supplying heated fuel to the fuel filter 18 at the other end. As shown by arrow A, the fuel is supplied to the fuel heater 20 through the inlet reflex 1 to pipe 38, and after being subjected to a predetermined heating action in the fuel heater 20, the fuel is supplied to the fuel heater 20 as shown by arrow B. The fuel is then supplied to the fuel filter 18 through an outlet pipe 40. The fuel heater 20 is surrounded by a PTC heating element 42.
-1 to 42-4 and PTC heating elements 42-1 to 42-
4, and a guide frame 46 disposed with a predetermined gap inside the heating frame 44 to guide the fuel along the heating surface of the heating frame 44. ,
A heating chamber 48 is provided between the heating frame 44 and the guide frame 46.
is formed, and the fuel is heated within the heating chamber 48. The heating frame 44 has a substantially rectangular column shape, and has four flat plate-shaped PTC heating elements 42-1 to 42-4 in close contact with its four sides, and also improves fuel heating efficiency. In order to improve this, the heating frame 44 is made of a material with good thermal conductivity. The guide frame 46 has a substantially rectangular column shape like the heating frame 44, and the gap between the guide frame 46 and the heating R' body 44 is set to about 1 to 5 mm.
can be set narrowly, so the fuel boosting efficiency can be improved. Further, the guide frame 46 has a water drain hole 46a at its lower end, and the water drain hole 4.68 can prevent water in the fuel from accumulating in the guide frame 46. Further, FIG. 4 shows the appearance of the guide frame 46, and the guide frame 46 has a substantially rectangular column shape as described above, and has fuel passage holes 50-1 to 50 on each of its four sides. -4, and the fuel heated in the heating chamber 48 passes through the passage hole 5.
It will be supplied to the outlet pipe 40 through ports 0-1 to 50-4. Therefore, the fuel from the inlet pipe 38 (arrow C
As shown in 1D, after being supplied to the heating chamber 48 and receiving an efficient heating action in the heating chamber 48, the guide frame 4
It will be supplied to the outlet pipe 40 through the 60 passage holes 50-1 to 50-4. The heating frame 44 and the guide frame 46 (well, the outer frame 52
The outer frame body 52 (made of a material with good heat resistance and heat insulation properties) and the PTC heating element 42
-1 to 42'-1) In order to improve the thermal conductivity to the heating frame 44, the PTC71[] thermal elements 42-1 to
Plates 54-1 to 54-4 made of a highly conductive material are provided on the side surfaces of the plates 1-54-4 and the outer frame 52, respectively. A retainer spring 56 is inserted and fixed between (IX
Ru. Therefore, due to the biasing force of the retainer spring 56,
The PTC heating elements 42-1 to 42-4 are attached to the heating frame 44, and the PTC heating elements 42-1 to 42-4 are attached to the heating frame 44 (
Since it is in close contact with the heating frame 44 uniformly, the PTC heating element 4
Heat can be efficiently conducted from 2-1 to 42-4 to the heating frame 44, and thereby fuel can be heated efficiently. In order to support and fix the PTC heating elements 42-1 to 42-4 in the vertical and horizontal directions, the PTC heating elements 42-
An insulator plate 58 made of rubber with good insulation is provided on the top, bottom, left and right end surfaces of each of 1 to 42-4. The insulator plate 58 is integrally molded into a substantially rectangular column shape, and four holding holes are formed in the insulator plate 58 at the locations where the PTC heating elements 42-1 to 42-4 contact the heating frame 44, respectively.
The PTC heating elements 42-1 to 42-4 are fitted and fixed into the holding holes of the insulator plate 58. Therefore, the insulator plate 58 can reliably support and fix the PTC heating elements 42-1 to 42-4 in the vertical and horizontal directions. 44 can be reliably conducted. A cover 60 is provided above the outer frame body 52.
0, the outlet pipe 40 is fixed by brazing. The upper part of the cover 60 is formed in a convex shape, so that the air inside the fuel heater 20 can be collected at the upper part and released. It is possible to prevent a situation in which there is a negative impact on the Further, in order to attach the fuel heater 20 to the vehicle body, a stay 62 is welded and fixed above the cover 60, and a bracket 64 is fixed to the stay 6"2 with a rivet 66. Note that the fuel heater 20 When actually installing the bracket 64 on the vehicle body, it is preferable to change the shape of the bracket 64 depending on the vehicle body.In the fuel heater 20, in order to seal the fuel side, the heating frame 44 and the cover 60 are There is a ○ ring 68.
In addition, an outer frame body 52 is installed to seal the atmosphere side and prevent water, salt water, etc. from entering from the atmosphere side.
An upper gasket 70 is provided between the heating frame 44 and the cover 60, and a lower gasket 72 is provided between the heating frame 44 and the outer frame 52. Therefore, PTC heating element 42-
No. 1 to 42-4, oxides and the like are not generated, and deterioration of electrical conductivity and thermal conductivity can be prevented. In order to supply current to the PTC heating elements 42-1 to 42-4, the plate 54-1 is used as the ten electrode of the PTC heating element 42-1, and the harness is extended through the plate 54-1, and the heating frame is Terminal 74 below P
One electrode of the TC heating element 42-1, and the current flows through the plates 54-1. And the terminal 74 supplies the PTC heating element 42-1. Further, in order to make good electrical contact with the terminal 74, a washer spring 76 is provided below the terminal 74, and the washer spring 76 causes the terminal 7
4 can be pressed against the heating frame 44. In addition,
In this explanation, the current supply to the PTC heating element 42-1 has been explained, but the PTC heating elements 42-2 to 4
The current supply to 2-4 is also carried out using a similar configuration. Further, as shown in FIG. 4, the guide frame 4
A ring-shaped insulating plate 78 is formed protruding above 6.
Since this insulating plate 78 is thinly inserted into the upper surface of the heating frame 44 and maintains an insulating state, the heating frame 44 and the cover 60 are
is not considered to be the vehicle body and body ground. It is understood that the fuel heater according to the embodiment has the above configuration and can efficiently heat the fuel within the heating chamber. That is, the fuel from the inlet pipe 38 is supplied to the outlet pipe 40 through the heating chamber 48, and in this heating chamber 48, the heat from the PTC heating elements 42-1 to 42-4 is made of a material with good thermal conductivity ( The fuel is transmitted from the heating frame 44 made of aluminum, for example, and is further guided by the guide frame 46 disposed inside the heating frame 44 with a predetermined gap between the fuel and the inner surface of the heating frame 44. flow,
Therefore, the fuel can be heated efficiently. As described above, according to the fuel heater according to the embodiment, fuel can be heated efficiently and heating current can be used effectively. Furthermore, in the fuel heater of the embodiment, PTC heating elements 42-1 to 42-4 are used as heating members to heat the fuel, and the resistance value of the 1C heating element increases as the temperature rises. Since the current flowing through the PTC heating element is reduced and the temperature is maintained so as not to rise above a predetermined temperature, there is no danger that the fuel in the heating frame 44 will ignite due to heating. In the fuel heater of the embodiment, the PTC heating element is divided into four PTC heating elements 42-1 to 42-4, and the PTC heating elements 42-1 to 44-4 are arranged around the heating frame 44. Since the guide frame 4 is in close contact with the heating frame 44, thermal efficiency can be improved.
6, an improvement in thermal efficiency of 20 to 30% was obtained. Further, although the guide frame 46 is formed into a substantially rectangular column shape, it is also sufficiently effective even if it is cylindrical. In addition, in order to improve the heat transfer efficiency from the heating frame 44 to the fuel, the heating frame 4
It is preferable to provide fins on the inside of 4. Further, in order to improve thermal efficiency, it is preferable that the portions of the guide frame 46 other than the insulating plate 78 be formed of a metal that has good thermal conductivity and is resistant to corrosion. l11 bow U (As explained above, according to the present invention, the temperature sensor and the pressure sensor can accurately detect the state of the fuel and appropriately heat the fuel. Therefore, overheating of the fuel and Insufficient heating can be prevented and heating current can be used effectively.Furthermore, in the present invention, the fuel heater is provided between the fuel tank and the fuel filter, and the fuel heater can be easily installed in the vehicle. In addition, the fuel can be safely heated, and the heating effect is large and effective even in cold weather.Furthermore, in the present invention, the temperature signal from the temperature sensor and the pressure from the pressure sensor Since the fuel is heated based on the signal and is not configured to be heated by a manual switch, it is possible to prevent the fuel filter from becoming clogged due to a heating delay caused by the driver. In this case, it is preferable to use, for example, a PTC heating element as the heating member of the fuel heater, and it is safe because the fuel is not heated above a predetermined temperature.Furthermore, the object to be detected by the temperature sensor is the fuel It is possible to measure not only the temperature of the heating device but also any temperature that can be correlated with the fuel temperature, such as the temperature of the heating device or the temperature of the fuel filter. In the present invention, the state of the fuel is detected using a temperature sensor and a pressure sensor, but it is also possible to use only one of the temperature sensor and the pressure sensor. When only a temperature sensor is used, a little extra heat is added to the fuel that is difficult to wax, so effective heating can be performed, and when only a pressure sensor is used, clogging of the fuel filter can be prevented. Since fuel heating starts in the initial state that occurs, it is preferable to use a fuel heater with fast heating characteristics and a relatively large amount of current.In addition, if either a temperature sensor or a pressure sensor is used, 1. Brief description of the drawings FIG. 1 is an explanatory diagram of a fuel heating device for a diesel engine according to an embodiment of the present invention, and FIG. 2 is an illustration of a fuel heater according to an embodiment of the present invention. 3 is a sectional view taken along line mm in FIG. 2, and FIG. 4 is an external perspective view of the guide frame. 10...Diesel engine, 12...Fuel tank, 18...Full tank. Fuel filter with UEL sedimentor, 20... Fuel heater, 22... Temperature sensor, 24... Pressure sensor, 26... Control circuit, 42-1 to 42-4... PTC heating element, 44
... Heating frame body, 46 ... Guide frame body, 48 ... Heating chamber, 50-1 to 50-4 ... Passing hole.

Claims (1)

[Claims] (1) A diesel engine, a fuel tank that stores fuel supplied to the diesel engine, a fuel filter that is installed between the diesel engine and the fuel tank and filters out impurities from the fuel, and a fuel tank and fuel filter. a fuel heater that heats the fuel from the blocked fuel tank; a temperature sensor that detects the temperature of the fuel; and a sensor that detects clogging of the fuel filter by detecting the pressure of the fuel. , a control circuit that controls the fuel heater based on the temperature signal from the temperature sensor and the pressure signal from the pressure sensor, and heating of the fuel is performed based on the temperature signal and the pressure signal. A fuel heating device for a diesel engine. (2. In the device according to claim (1), the fuel heater includes a heating frame having a PTC heating element around the heating frame, and an inner side of the heating frame. a guide frame disposed with a predetermined gap between the heating frame body and the guide frame body having a fuel passage hole, the diesel engine characterized in that the fuel is heated in a heating chamber formed between the heating frame body and the guide frame body. fuel heating device.