JP2001099029A - Fuel supply device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To simplify a structure of a fuel supply device while securing heat radiation performance of circuit components through heat radiation members by resin-molding a circuit case for a pump controlling circuit and pump attachment members integrally with each other. SOLUTION: A lid part 3A and a bracket part 3B of an attachment member 3 is resin-molded integrally with a circuit case 10 which houses a pump control circuit 12. A metal supply pipe 5 and a heat radiation plate 15 are embedded in the lid part 3A. A fuel pump 6 and a fuel filter 8 are attached to the bracket part 3B. A pump control device 9 supplies fuel from a discharge pipe 8B of a fuel filter 8 to the outside of a fuel tank 1 through the supply pipe 5 by driving the fuel pump 6. The heat radiation plate 18 conducts heat generated from a power transistor 14 on a circuit substrate 13 and radiates the heat to the fuel flowing through the supply pipe 5 by means thereof.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a fuel supply device suitably used for supplying fuel in a tank to, for example, an automobile engine.

[0002]

2. Description of the Related Art In general, a fuel supply device attached to an automobile engine or the like includes a mounting member made of a resin material provided with a fuel pipe mounted on an upper side of a fuel tank and extending from the inside of the fuel tank to the outside. A fuel pump mounted in the fuel tank using the mounting member and discharging the fuel in the fuel tank to the outside through the fuel pipe (see, for example, JP-A-11-1732).
No. 31, etc.).

[0003] This type of prior art fuel supply system is:
For example, a fuel pump using a mounting member made of a resin material,
The fuel filter and the like are assembled as an integral unit, and this unit is mounted in a fuel tank.

In this case, a pump control device for controlling the fuel pump is mounted separately from the unit on the side of a vehicle such as an automobile, and is connected to the fuel pump through a lead wire or the like. In the pump control device, a circuit board on which a heat-generating circuit component such as a power transistor is mounted is housed in a metal case, and the metal case is provided with heat-radiating fins and the like in order to enhance heat radiation of the circuit component. Have been.

On the other hand, as another prior art, there is a fuel supply device in which a pump control device is fixed to a mounting member outside a fuel tank, and these are integrated with a fuel pump or the like (for example, Japanese Patent Application Laid-Open No. HEI-3-3). No. 279665, JP-A-62-3
No. 5088).

In this case, the mounting member is provided so as to cover a mounting hole formed in the upper surface of the fuel tank. In the pump control device, a metal case accommodating the circuit board is fixed to an upper surface of the mounting member. Further, the fuel pump is disposed in the fuel tank on the lower surface side of the mounting member.

[0007]

In the above-mentioned prior art, the circuit board of the pump control device is housed in a metal case provided with heat radiation fins and the like, so that the power transistor and the like disposed in the case are disposed. The heat dissipation is enhanced, and the metal case is attached to the vehicle body of an automobile or the like.

Therefore, when assembling the pump control device,
It is necessary to separately perform the work of attaching the fuel pump to the fuel tank and the work of assembling the pump control device on the vehicle body side, and thus there is a problem that the workability at the time of assembly is reduced.

In another prior art, since the pump control device is mounted on the fuel pump mounting member outside the fuel tank, the operation of mounting the fuel pump and the operation of assembling the pump control device are substantially continuous. You can do
There is an advantage that workability can be improved.

However, in this case, in addition to providing the pump control device on the mounting member located outside the fuel tank,
Since it is necessary to use a heavy metal case for the pump control device in consideration of heat generation of power transistors, coil components, and the like, the weight of the entire device including the mounting member is increased, and the size and weight are reduced. In addition to this, there is a problem that a separate insulating means is required for electrically insulating circuit components and the like, and the structure becomes complicated.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned problems in the prior art, and an object of the present invention is to provide a pump control circuit means on a mounting member made of a resin material so that the number of parts can be reduced and assembly time can be reduced. It is an object of the present invention to provide a fuel supply device that can improve workability, can cool a heat-generating circuit component using fuel discharged from a fuel pump, and can increase durability and life.

[0012]

SUMMARY OF THE INVENTION In order to solve the above-mentioned problems, the present invention relates to a mounting member made of a resin material provided with a fuel pipe mounted on an upper side of a fuel tank and extending from the inside of the fuel tank to the outside. A fuel pump mounted in the fuel tank using the mounting member and discharging the fuel in the fuel tank to the outside through the fuel pipe; and a heat-generating circuit component, and the fuel is supplied by external power supply. The present invention is applied to a fuel supply device comprising pump control circuit means for controlling a pump.

The first aspect of the present invention is characterized in that a circuit case for accommodating the pump control circuit means is formed integrally with a mounting member using a resin material, and the circuit member is mounted on the mounting member. A heat radiating member formed of a metal material is provided between the case and the fuel pipe.

With this configuration, the circuit case accommodating the pump control circuit means and the fuel pump mounting member can be integrally resin-molded using, for example, injection molding or the like. The heat dissipating member can be embedded in the mounting member. Then, heat generated from circuit components such as a power transistor in the circuit case is guided to the fuel pipe side by the heat radiating member, and the heat radiating member can be cooled by the fuel flowing in the fuel pipe, thereby efficiently radiating heat into the fuel. be able to.

According to the second aspect of the present invention, the fuel pipe comprises a pipe member formed of a metal material,
The heat dissipating member has an insertion hole through which the pipe member is inserted.

Thus, the heat generated from the circuit components in the circuit case can be transmitted to the pipe member via the heat radiating member, and the heat can be radiated to the fuel with a wider contact area by the pipe member.

Further, according to the third aspect of the present invention, a circuit board on which the circuit components are mounted on a front surface side is provided in a circuit case, and the heat radiating member is provided on a rear surface of the circuit board at a position corresponding to the circuit components. It is configured to contact the side.

Thus, the heat generated by the circuit components can be transmitted from the circuit board to the heat radiating member, and the heat can be released into the fuel flowing through the fuel pipe by the heat radiating member.

According to the fourth aspect of the present invention, the heat radiating member is configured to contact the circuit component in the circuit case.

Thus, the heat generated by the circuit components can be directly transmitted to the heat radiating member, and the heat can be released into the fuel in the fuel pipe by the heat radiating member.

Further, according to the fifth aspect of the present invention, the mounting member includes a lid for covering a mounting hole provided in the fuel tank, and the fuel pump is attached to the fuel pump and extends from the lid to the inside of the fuel tank. The circuit case, the heat radiating member and the fuel pipe are integrally provided on the lid.

Thus, the fuel pump and the pump control circuit can be assembled as an integrated unit using the mounting member, and this unit can be mounted in the mounting hole provided in the fuel tank.

According to the invention, the heat radiating member constitutes a part of the grounding means for discharging the static electricity stored in the fuel tank and the fuel pump via the fuel pipe.

Thus, even when static electricity is stored in the fuel, the fuel pump, and the like contained in the fuel tank, for example, by connecting the heat radiating member to the ground-side wiring provided in the pump control circuit means, This static electricity can be discharged to the outside via a heat dissipation member, a fuel pipe, or the like.

[0025]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a fuel supply device according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings, taking an example in which the fuel supply device is applied to an automobile engine or the like.

FIGS. 1 to 4 show a first embodiment of the present invention. In the drawings, reference numeral 1 denotes a fuel tank provided in a vehicle such as an automobile. Is housed. Also, on the upper surface 1A of the fuel tank 1,
A mounting hole 2 for a mounting member 3 described later is provided.

Reference numeral 3 denotes a mounting member for the fuel supply device. As shown in FIGS. 1 and 2, the mounting member 3 is mounted on the upper surface 1A of the fuel tank 1 and has a substantially flat lid for closing the mounting hole 2. 3
A and a bracket portion 3B which is suspended from the lower side of the lid portion 3A into the fuel tank 1 and to which a fuel pump 6 and a fuel filter 8 described later are attached.

Here, the lid 3A and the bracket 3B are integrally formed with a circuit case 10 for a pump control circuit 12, which will be described later, using an insulating resin material or the like. A power supply terminal 4 for the fuel pump 6 is provided on the lid 3A.
And a supply pipe 5 and a radiator plate 15 to be described later are embedded.

Reference numeral 5 denotes a supply pipe as a fuel pipe provided on the lid 3A of the mounting member 3 by means such as a resin mold. The supply pipe 5 has, for example, a high thermal conductivity as shown in FIGS. Is formed as a substantially L-shaped pipe member from a metal material having And supply pipe 5
Has an inflow port 5A protruding downward from the lid 3A of the mounting member 3 and an outflow port 5B protruding above the lid 3A and bent substantially in an L-shape. 5B is supplied to the outside.

Reference numeral 6 denotes a fuel pump mounted on a bracket 3B of the mounting member 3 together with a fuel filter 8 described later. The fuel pump 6 has a suction port 6A in the fuel tank 1 as shown in FIG. 6B, and a discharge port (not shown) is connected to a discharge pipe 8B described later via a filter element of the fuel filter 8. Also,
The fuel pump 6 has a built-in electric motor (not shown) and the like connected to a pump control device 9 through a lead wire 7 and a power supply terminal 4 on the mounting member 3 side.

Here, when the drive signal is output from the pump control unit 9, the fuel pump 6 draws the fuel in the fuel tank 1 from the suction port 6A and discharges the fuel from the discharge port through the filter element of the fuel filter 8 through the discharge pipe. The fuel is discharged to the 8B side. Then, the fuel from the discharge pipe 8B is supplied through a supply pipe 5 to an injection valve (not shown) of the engine.

Numeral 8 denotes a fuel filter for filtering the fuel discharged from the fuel pump 6. The fuel filter 8 has an outer peripheral side attached to the bracket 3B of the attaching member 3 and an inner peripheral side to which the fuel pump 6 is attached. 8A cylindrical filter case
And a filter element (not shown) provided around the fuel pump 6 in the filter case 8A. A discharge pipe 8B protrudes from an upper side of the filter case 8A, and an inlet 5A of the supply pipe 5 is connected to an upper end side of the discharge pipe 8B.

Reference numeral 9 denotes a pump control device for controlling the fuel pump 6. The pump control device 9 includes a circuit case 10, a pump control circuit 12, and a radiator plate 15 which will be described later, as shown in FIGS. It is configured.

Reference numeral 10 denotes a circuit case made of a resin material integrally formed with the lid 3A of the mounting member 3 by means of, for example, injection molding. The circuit case 10 is a bottomed box having an open upper side. It is provided on the upper surface side of the lid 3A, and the lower side is a bottom 10A constituted by a part of the lid 3A. The upper side of the circuit case 10 is covered with a cover plate 10B made of, for example, a resin material.

Further, on the outer surface side of the circuit case 10, FIG.
Is provided with a connector 10C in which a plurality of terminal pins 11, 11,... Are embedded, and the connector 10C is connected to a power supply (not shown) such as a control unit for engine control or a battery. It is.

Reference numeral 12 denotes a pump control circuit as pump control circuit means housed in the circuit case 10. As shown in FIGS. 2 and 3, the pump control circuit 12 includes a resin material such as epoxy, for example. And the back side is the circuit case 10
The circuit board 13 is mounted on the bottom portion 10A of the device, and power transistors 14, 14 and the like as heat-generating circuit components mounted on the front side of the circuit board 13.

The power transistor 14 includes, for example, a resistor, a capacitor, and an IC mounted on the circuit board 13.
Various circuit elements such as chips and the like are connected to each other via a wiring pattern (not shown) on the circuit board 13, and a control signal is output from the control unit. The drive signal is output to the pump 6.

Reference numeral 15 denotes a heat radiating plate as a heat radiating member formed of a metal material having high thermal conductivity.
As shown in FIG. 3 and FIG. 4, for example, it is buried in the lid 3A of the mounting member 3 using a means such as a resin mold in a state where the supply pipe 5 is previously assembled.

As shown in FIG. 3, the heat radiating plate 15 has an exposed portion 15A which is exposed at the bottom 10A of the circuit case 10, and the exposed portion 15A corresponds to each power transistor 14, as shown in FIG. At the position, it is in contact with the back side of the circuit board 13. Further, the radiator plate 15 has the other side portion extending toward the supply pipe 5, and a pipe insertion hole 15 </ b> B in which the supply pipe 5 is inserted is formed in the other side portion, and the pipe insertion hole 15 </ b> B is formed. And is in contact with the outer peripheral side of the supply pipe 5 through the inner wall.

As a result, heat generated during the operation of the power transistor 14 and the like is transmitted from the circuit board 13 to the radiator plate 15, and this heat is transmitted through the supply pipe 5 through the supply pipe 5.
The heat is released into the fuel flowing through the inside and the heat dissipation of the power transistor 14 is thereby improved.

The radiator plate 15 is connected to, for example, a separately provided ground wire, a ground wire (not shown) provided on the circuit board 13, and the like, and the ground of the vehicle body and the like is provided through these wires. The body 16 is grounded (body earth). Thus, even when static electricity is stored in the fuel in the fuel tank 1 or the fuel pump 6, for example, the radiator plate 15 constitutes a part of a grounding unit that discharges the static electricity to the outside via the supply pipe 5 or the like. ing.

The fuel supply device according to the present embodiment has the above-described configuration, and its operation will be described next.

First, when the fuel pump 6 is driven by the pump control device 9 to operate the engine, the fuel in the fuel tank 1 is discharged from the fuel pump 6 into the discharge pipe 8B of the fuel filter 8, and this fuel is discharged. It is supplied from the supply pipe 5 on the mounting member 3 side to the injection valve of the engine.

At this time, most of the heat generated from the power transistor 14 and the like in the pump control device 9 is transmitted to the supply pipe 5 through the radiator plate 15, and the fuel flowing through the supply pipe 5 has a large contact area. Is dissipated.

On the other hand, at the time of assembling the fuel supply apparatus, first, the supply pipe 5 and the radiator plate 15 are assembled as shown in FIG. The bracket 3B and the circuit case 10 of the pump control device 9 are integrally formed of a resin material. Then, the fuel pump 6, the fuel filter 8, and the like are attached to the bracket portion 3B of the attachment member 3 to form an integrated unit, and the circuit board 13 and the like are disposed in the circuit case 10.

Next, when assembling a vehicle such as an automobile, a unit including the fuel pump 6, the fuel filter 8, the pump control device 9, and the like is mounted on the upper surface 1A of the fuel tank 1 by the mounting member 3.

Thus, in this embodiment, the circuit case 10 of the pump control device 9 is mounted on the mounting member 3 by using a resin material.
Is formed integrally with the cover 3A, and the cover 3A is located between the power transistor 14 and the supply pipe 5 and is provided with a heat sink 1
5, the circuit case 10 and the mounting member 3 can be integrally formed using a resin material by, for example, injection molding or the like, and the supply pipe 5 and the radiator plate are provided on the lid 3A of the mounting member 3. 15 can be easily buried.

During the operation of the fuel supply device,
The heat generated from the power transistor 14 in the circuit case 10 can be satisfactorily transmitted to the supply pipe 5 side by using the metal radiator plate 15, and the radiator plate 15 is stably provided by the fuel flowing through the supply pipe 5. It is possible to cool and thereby to supply heat from the power transistor 14 to the supply pipe 5
It can be efficiently released into the fuel inside.

Therefore, according to the present embodiment, it is not necessary to use a metal case or the like in consideration of the heat radiation of the circuit components as in the prior art, and the circuit case 10 made of a resin material is not required.
And the mounting member 3 can be formed simultaneously in an integrated state. This makes it possible to reduce the weight of the entire device while maintaining the heat dissipation of the power transistor 14, to reduce the number of components, and to improve the workability during assembly.

In this case, the circuit case 1 of the heat sink 15
The exposed portion 15A exposed on the bottom 10A side of the
3 so that the heat from the transistor 14 can be dissipated through the circuit board 13 even when the power transistor 14 is mounted on the circuit board 13.
5 can be smoothly transmitted to the outside.

Since the heat radiating plate 15 is brought into contact with the metal supply pipe 5 at the position of the pipe insertion hole 15B, good heat conduction from the heat radiating plate 15 to the supply pipe 5 can be achieved. Can be radiated into the fuel by the supply pipe 5 with a large contact area, and the efficiency at the time of radiating heat can be increased.

Further, for example, when the amount of heat generated by the power transistor 14 increases in accordance with the drive current or the like to the fuel pump 6, the flow rate of the fuel discharged from the fuel pump 6 into the supply pipe 5 also increases. Can be improved in accordance with the amount of heat generated by the power transistor 14, whereby the size of the heat radiating plate 15 can be reduced.

On the other hand, the mounting member 3 is provided with a lid 3A on which the supply pipe 5, the circuit case 10, and the heat radiating plate 15 are disposed,
Since the fuel pump 6 and the bracket 3B to which the fuel filter 8 is mounted are configured, the fuel pump 6, the fuel filter 8, and the pump control device 9 are mounted using the mounting member 3.
Can be assembled as an integral unit.

Therefore, this unit can be easily attached to the fuel tank 1 and the workability when assembling the fuel supply device to the vehicle body can be improved, and the pump control device 9 is disposed near the fuel pump 6. By doing so, it is possible to reduce the length of a lead wire or the like connecting between them, and it is possible to improve the noise resistance of the lead wire or the like.

Further, the heat radiating plate 15 is grounded (body ground) to a grounding body 16 such as a vehicle body via a separately provided ground wiring, a ground wiring (not shown) provided on the circuit board 13 and the like. With the configuration, static electricity stored in the fuel in the fuel tank 1 and the fuel pump 6 and the like can be discharged to the outside by the heat radiating plate 15, so that the reliability as a fuel supply device can be improved. There is no need to hang down wiring for discharge, etc.
Etc. can be simplified.

Next, FIG. 5 shows a second embodiment according to the present invention. In this embodiment, the same reference numerals are given to the same components as those in the first embodiment, and the description will be given. It shall be omitted. However, a feature of the present embodiment is that a resin layer is interposed between the circuit board and the heat dissipation member.

Reference numeral 21 denotes a mounting member employed in the present embodiment. The mounting member 21 is the mounting member 3 of the first embodiment.
Almost in the same manner as described above, it comprises a lid 21A and a bracket (not shown), which are formed integrally with the circuit case 22 of the pump control device 9 using a resin material. A heat radiating plate 23 formed substantially in the same manner as in the first embodiment is buried in the lid 21A in contact with the supply pipe 5 through the pipe insertion hole 23A.

However, in the present embodiment, the heat radiating plate 23 is buried in the lid 21A of the mounting member 21 on the bottom 22A side of the circuit case 22, and the surface side is covered with the thin resin layer 24. As a result, the circuit board 13 is
4, the heat generated from the power transistor 14 is transmitted to the heat radiating plate 23 through the circuit board 13 and the resin layer 24.

Thus, in the present embodiment having the above-described structure, substantially the same operation and effect as those of the first embodiment can be obtained. However, particularly in the present embodiment,
Since the circuit board 13 is arranged on the heat radiating plate 23 with the resin layer 24 interposed therebetween, for example, even when wiring patterns are formed on both sides of the circuit board 13, the wiring pattern on the back side and the heat radiating plate 23 are formed of resin. The insulation can be achieved by the layer 24, and the degree of freedom in designing the circuit board 13 can be increased.

Next, FIG. 6 shows a third embodiment of the present invention, which is characterized in that a gap is provided between the supply pipe and the heat radiating member. In addition,
In the present embodiment, the same components as those in the first embodiment are denoted by the same reference numerals, and description thereof will be omitted.

Reference numeral 31 denotes a mounting member employed in the present embodiment. The mounting member 31 is formed by resin-forming the lid 31A and the like integrally with the circuit case 10 in substantially the same manner as in the first embodiment. A heat radiating plate 32 described later is embedded in the lid 31A together with the supply pipe 5.

Reference numeral 32 denotes a radiator plate formed of a metal material or the like having a high thermal conductivity. The radiator plate 32 has an exposed portion 32A on one side thereof substantially in the same manner as in the first embodiment.
3 is in contact with the back side. However, in the present embodiment, a pipe insertion hole 32B having a larger hole diameter than the outer diameter of the supply pipe 5 is formed at the other side of the heat radiating plate 32, and the supply pipe 5 has a small gap in the pipe insertion hole 32B. It is inserted with S.

Thus, in the present embodiment configured as described above, substantially the same operation and effect as those of the first embodiment can be obtained. However, particularly in the present embodiment,
Since the gap S is formed between the pipe insertion hole 32B of the radiator plate 32 and the supply pipe 5, even if the supply pipe 5 and the radiator plate 32 thermally expand, for example, these members are attached to the mounting member 31.
Problems such as distortion, deformation, and the like caused by interference with each other through the pipe insertion hole 32B can be solved. Further, it is not necessary to form the hole diameter of the pipe insertion hole 32B, the outer diameter of the supply pipe 5, and the like with high accuracy, and these processing and assembling operations can be easily performed.

Next, FIG. 7 shows a fourth embodiment according to the present invention. The feature of this embodiment is that a heat-generating circuit component is brought into contact with a heat radiating member up and down. It is in. In this embodiment, the same components as those in the first embodiment are denoted by the same reference numerals, and description thereof will be omitted.

Reference numeral 41 denotes a mounting member used in the present embodiment. The mounting member 41 is formed by resin-forming the lid 41A and the like integrally with the circuit case 42 in substantially the same manner as in the first embodiment. A power transistor 44 which is a heat-generating circuit component is disposed on the bottom 42A side of the circuit case 42 together with the circuit board 43. Further, a heat radiating plate 45 formed substantially in the same manner as in the first embodiment is embedded in the lid portion 41A. The heat radiating plate 45 is provided with an exposed portion 45A exposed on the bottom portion 42A side of the circuit case 42 and a supply portion 45A. And a pipe insertion hole 45 </ b> B inserted into the outer peripheral side of the pipe 5.

However, in the present embodiment, the lower surface 44A of the power transistor 44 is fixed in a state of being in direct contact with the exposed portion 45A of the heat sink 45. The plurality of pin terminals 44 provided on the side surface of the power transistor 44
B extends on the circuit board 43 and is connected to a wiring pattern (not shown).

Thus, also in the present embodiment configured as described above, substantially the same operation and effect as in the first embodiment can be obtained. However, in the present embodiment, in particular, the metal heat sink 4
5 can be directly conducted, and the cooling efficiency of the power transistor 44 can be further increased.

In each of the above embodiments, the mounting member 3
(21, 31, 41) lid 3A (21A, 31A, 4)
Although the metal supply pipe 5 is buried in 1A), the present invention is not limited to this, and the fuel pipe may be formed integrally with the mounting member using a resin material.

Further, in each of the above embodiments, the plate-shaped heat radiating plate 15 (23, 32, 45) provided with the pipe insertion hole 15B (23A, 32B, 45B) is used as the heat radiating member. The present invention is not limited to this, and the heat radiation member may be formed in a shape other than a flat plate, for example, an uneven plate shape or a corrugated plate shape provided with heat radiation fins, and a pipe insertion hole is opened to the outer edge side of the heat radiation member. It may be formed in a U shape. Further, the heat radiating member and the fuel pipe may be integrally formed of a metal material.

Further, in each of the above embodiments, the power transistor 14 (44) has been described as an example of the heat-generating circuit component. However, the present invention is not limited to this. For example, a resistor, a capacitor, a diode, an IC chip It is also possible to adopt a configuration in which heat generated from a circuit component having heat generation, such as, is released by a heat radiation member.

[0071]

As described above in detail, according to the first aspect of the present invention, the circuit case accommodating the pump control circuit means is formed of resin integrally with the mounting member of the fuel pump. Since the heat radiating member is provided between the fuel pipe and the fuel pipe, the heat generated by the circuit components such as the power transistor can be satisfactorily conducted to the fuel pipe through the heat radiating member. As a result, the heat radiating member can be cooled, and heat can be efficiently radiated into the fuel in the fuel pipe. As a result, it is not necessary to use a metal case or the like in consideration of the heat radiation of the circuit components as in the related art. For example, the circuit case and the mounting member can be easily integrally formed using a resin material by means such as injection molding. be able to. Therefore, the weight of the entire apparatus can be reduced, the number of parts can be reduced, and the workability during assembly can be improved. Moreover, for example, by increasing the flow rate of the fuel discharged from the fuel pump into the fuel pipe in accordance with the amount of current flowing through the circuit components, the cooling performance using this fuel can be enhanced in accordance with the heat value of the circuit components. Thus, the heat radiation member can be downsized.

According to the second aspect of the present invention, the fuel pipe of the mounting member is constituted by a metal pipe member, and the heat radiating member is provided with an insertion hole through which the pipe member is inserted. Good heat conduction can be performed from the heat dissipating member to the pipe member, and the heat can be dissipated in the fuel by the pipe member with a large contact area, thereby increasing the heat dissipating or cooling efficiency of the circuit component.

Further, according to the third aspect of the present invention, a circuit board having circuit components mounted on the front side is provided in the circuit case, and the heat radiating member is configured to be in contact with the back side of the circuit board. Even when the heat-generating circuit component is mounted on the circuit board, the heat from the circuit component can be smoothly transmitted to the heat dissipation member through the circuit board.

According to the fourth aspect of the present invention, since the heat radiating member is configured to be in contact with the circuit component, heat can be directly conducted from the circuit component to the heat radiating member, and the heat radiating or cooling efficiency can be improved. Can be further enhanced.

Further, according to the fifth aspect of the present invention, the circuit case, the heat radiating member and the fuel pipe are provided on the cover of the mounting member, and the fuel pump is mounted on the bracket, so that the fuel pump can be mounted using the mounting member. And the pump control circuit means can be assembled as an integrated unit. Therefore, this unit can be efficiently attached to the fuel tank, the workability when attaching the fuel supply device to the outside can be improved, and the wiring and the like connecting between the fuel pump and the pump control circuit means can be shortened. Noise resistance can be improved.

According to the sixth aspect of the present invention, the heat radiating member is configured as a part of the grounding means for discharging the static electricity stored in the fuel tank and the fuel pump through the fuel pipe. Even when static electricity is stored in the fuel or the fuel pump stored in the fuel cell, the static electricity can be discharged to the outside via a heat radiating member, a fuel pipe, or the like, and reliability can be improved. Then, for example, by connecting the heat radiating member to the ground side wiring or the like provided in the pump control circuit means, it is not necessary to provide a fuel ground circuit, wiring or the like specially in the fuel tank or the like, and the structure is simplified. be able to.

[Brief description of the drawings]

FIG. 1 is a partially broken front view showing a fuel supply device according to a first embodiment of the present invention.

FIG. 2 is a plan view of the fuel supply device shown in FIG.

FIG. 3 is an enlarged sectional view of a main part of a heat sink and the like as viewed from the direction of arrows III-III in FIG. 2;

FIG. 4 is a perspective view showing a state in which a supply pipe is attached to a heat sink.

FIG. 5 is an enlarged sectional view of a main part showing a radiator plate and the like of a fuel supply device according to a second embodiment of the present invention.

FIG. 6 is an enlarged sectional view of a main part showing a radiator plate and the like of a fuel supply device according to a third embodiment of the present invention.

FIG. 7 is an enlarged sectional view of a main part showing a radiator plate and the like of a fuel supply device according to a fourth embodiment of the present invention.

[Explanation of symbols]

Reference Signs List 1 fuel tank 2 mounting hole 3, 21, 31, 41 mounting member 3A, 21A, 31A, 41A lid 3B bracket 4 power supply terminal 5 supply pipe (fuel pipe) 6 fuel pump 7 lead wire 8 fuel filter 9 pump control device 10, 22, 42 circuit case 12 pump control circuit (pump control circuit means) 13, 43 circuit board 14, 44 power transistor (circuit component) 15, 23, 32, 45 radiator plate (radiator member) 15A, 32A, 45A exposed Part 15B, 23A, 32B, 45B Pipe insertion hole (insertion hole)

 ────────────────────────────────────────────────── ─── Continuing on the front page (72) Inventor Akira Ushigome 1370 Onna, Atsugi-shi, Kanagawa F-term in Unisia Gex Co., Ltd. 3D038 CA04 CA09 CA11 CA15 CB01 CC06 CC13 CC19

Claims (6)

[Claims] 1. A mounting member made of a resin material, which is mounted on an upper side of a fuel tank and has a fuel pipe extending from the inside of the fuel tank to the outside, and the fuel member mounted in the fuel tank by using the mounting member. A fuel supply device comprising: a fuel pump for discharging fuel in a tank to the outside through the fuel pipe; and pump control circuit means configured to include a heat-generating circuit component and to control the fuel pump by external power supply. A circuit case for housing the pump control circuit means is integrally formed using a resin material for the mounting member, and a metal material is used for the mounting member between the circuit case and the fuel pipe. A fuel supply device comprising the formed heat radiation member. 2. The fuel supply device according to claim 1, wherein the fuel pipe is formed of a pipe member formed of a metal material, and the heat dissipation member is provided with an insertion hole through which the pipe member is inserted. 3. A circuit board in which the circuit component is mounted on the front side in the circuit case, and the heat radiating member comes into contact with the back side of the circuit board at a position corresponding to the circuit component. The fuel supply device according to claim 1. 4. The fuel supply device according to claim 1, wherein the heat radiating member is configured to contact the circuit component in the circuit case. 5. The mounting member includes a lid portion for covering a mounting hole provided in the fuel tank, and a bracket portion extending from the lid portion into the fuel tank and to which the fuel pump is mounted. 5. The fuel supply device according to claim 1, wherein the lid, the circuit case, the heat radiation member, and the fuel pipe are integrally provided. 6. The heat radiation member constitutes a part of a grounding means for discharging static electricity stored in the fuel tank and the fuel pump through a fuel pipe.
Or the fuel supply device according to 5.