Patent Grant
6946071
The present invention relates to a fuel supply device and a fuel filter, and especially relates to a fuel supply device that pressurizes fuel and supplies the fuel as fine particles to an internal combustion engine, and a fuel filter that is utilized for this fuel supply device.
Conventionally, the structure shown in
In this figure, the numerical 5 is a pressure regulator which is disposed between the fuel pump 3 and the fuel injection nozzle 4, and regulates the pressure of the fuel F that is supplied to the fuel injection nozzle to a specific pressure. The pressure of the fuel F is regulated by returning excess fuel F to the fuel tank 1 through a return pipe 6.
Furthermore, the inside of the fuel filter 2 is divided by a filter member (a filter paper etc.) 7 into two rooms which are the upstream side and the downstream side, namely, upstream room 8 and downstream room 9.
Here, with this sort of conventional fuel supply device, following problems remain to be solve.
With the aforementioned conventional fuel supply device, the upstream room 8 of the fuel filter 2 is connected to the inside of the fuel tank 1 which is located above and is filled up with the fuel F, so as to receive pressure head equivalent to the fuel level height of the fuel F in the fuel tank 1.
Meanwhile, the fuel F in the downstream room 9 is sucked by the fuel pump 3 to result the pressure of the downstream room 9 to be lower than that of the upstream room 8.
Vapor is generated in the fuel F due to the depression at the time when the fuel F is moved by the pressure balance from the upstream room 8 to the downstream room 9, or due to heating of the fuel F in the fuel supply passage by the environmental temperature increase.
In this manner, when vapor is generated in the fuel F, all the vapor is sucked to the fuel pump 3. When the amount of the vapor excesses the discharging capacity of the fuel pump 3, the fuel discharging amount of the fuel pump 3 is insufficient.
The present invention is devised in the light of such conventional problems. The purpose of the present invention is to provide a fuel supply device and a fuel filter that is utilized to the fuel supply device, which can ensure the fuel discharging amount of the fuel pump by satisfactory removing of vapor which is generated in the fuel sucked by the fuel pump.
To achieve the aforementioned object, the present invention of is a fuel supply device to pressurize and supply fuel stored in a fuel tank, and comprises a fuel supply pipe that forms a supply passage for the fuel, a fuel filter to filter the fuel supply pipe that forms a supply passage for the fuel, a fuel filter to filter the fuel disposed at a midway point of the fuel supply pipe and below the fuel tank, a fuel pump to pressure-feed the fuel disposed at the downstream side of the fuel filter, and a venting pipe to connect the downstream side of the fuel filter and an upper air-space of the fuel tank.
According to an aspect of the present invention, suction portion of the fuel pump is disposed below a fuel discharge portion of the fuel filter.
According to a further aspect of the present invention, the fuel supply device further comprises a pressure regulator disposed in the fuel pipe at a downstream side of the fuel pump to adjust the pressure of the fuel discharged from the fuel pump, and a return pipe disposed at the pressure regulator to return surplus fuel to the fuel tank, wherein the return pipe communicates with a midway point of the venting pipe at a position above the pressure regulator.
According to another aspect of the present invention, the return pipe is connected to the venting pipe so that the angle which the return pipe forms with the venting is upwardly acute.
According to yet another aspect of the present invention, the fuel filter comprises a fuel filter main body, a filter member which divides the inside of the filter main body into an upstream chamber and a downstream chamber, a suction joint disposed at the upstream chamber of the fuel filter main body to communicate with the fuel tank, a supply joint disposed at the lower part of the downstream chamber of the fuel filter main body to communicate with the fuel pump, and a circulating joint disposed at the upper part of the downstream chamber of the fuel filter to communicate with an upper air-space of the fuel tank.
According to yet another aspect of the present invention, a return joint to which the return pipe of the pressure regulator is connected is disposed at the
According to still another aspect of the present invention, the return joint is connected to the circulating joint so that the angle which the return joint forms with the circulating joint is upwardly acute.
Next, an embodiment of the present invention is explained with reference to FIG. 1 through FIG. 3.
Next, it is explained precisely. As shown in FIG. 2 and
The upstream room 18 communicates with a bottom portion of the fuel tank 10 through a suction joint 16a disposed at the upper part of the fuel filter main body 16, and a part of the fuel supply pipe 11 connected to the suction joint 16a. The downstream room 14 communicates with a suction portion 13a of the fuel pump 13 through a supply joint 16b disposed at a fuel discharge portion 12a of a bottom portion of the fuel filter main body 16, and a part of the fuel supply pipe 11 connected to the supply joint 16b.
Further, a circulating joint 16c, to which the venting pipe 15 connects, is disposed upwardly at the upper part of the downstream room 14. The venting pipe 15 pierces the bottom portion of the fuel tank 10 and is inserted to the inside, so that the upper end portion locates at the upper air-space A.
The fuel pump 13 is disposed so that the suction portion 13a is positioned below the fuel discharge portion 12a of the fuel filter 12.
Meanwhile, in
The pressure regulator 20 regulates the pressure of the fuel F supplied by the fuel pump, by returning excess amount of the fuel F to the fuel tank 10 through the return pipe 21.
Next, the operation of the embodiment of the fuel supply device is explained.
After the fuel pump 13 is activated to supply the fuel F to an internal combustion engine, the fuel F in the fuel tank 10 flows into the upstream chamber 18 of the fuel filter 12 by its weight. The fuel F filtered by the filter member 17 flows into the downstream chamber 14 and is sucked to the fuel pump 13 which is disposed below.
The fuel F sucked to the fuel pump 13 as described above is pressurized by the fuel pump 13 to or over a specific pressure, and is supplied to the fuel injection nozzle 19 after its pressure is regulated by the pressure regulator 20, and is atomized and injected to an intake pipe or a combustion chamber of an internal combustion engine by the fuel injection nozzle 19.
During such a supply process of the fuel F, vapor is generated in the fuel F because the fuel F in the fuel tank 10 and the fuel filter 12 is heated by the effect of the environmental temperature, or because the pressure of the fuel F is reduced when it passes through the filter member 17.
The vapor B generated as described above is introduced into the downstream chamber 14 of the fuel filter 12, and gathers at its upper area, as shown in FIG. 3.
Here, in this embodiment, as the venting pipe 15 is connected to the upper area of the downstream chamber 14 through the circulating joint 16c, the vapor moves upwards with its buoyancy in the circulating joint 16c and the venting pipe 15.
An air-lift pump is structured with the circulating joint 16c and venting pipe 15 where such movements of the vapor B occur, and by this pump, the vapor B is discharged to the upper air-space A of the fuel tank 10.
Furthermore, because the suction portion 13a of the fuel pump 13 is disposed below the discharge portion 12a of the fuel filter 12, the vapor generated at the vicinity and the inside of the fuel pump 13 is discharged, due to its buoyancy, to the fuel tank 10 through the downstream chamber 14 and the venting pipe 15.
Therefore, the amount of the vapor B, which is mixed in the fuel F sucked to the fuel pump 13, is greatly reduced so that the degradation of the fuel feeding (discharging amount) of fuel pump 13 is prevented.
Next, the second embodiment of the present invention is explained with reference to FIG. 4 through FIG. 6.
The fuel supply device of the embodiment is characterized in that the return pipe 21 is connected to the midway of the venting pipe 15 above the pressure regulator 20, and the rest of the structure is the same as those of the aforementioned embodiment.
Specifically, the return joint 16d is disposed horizontally at the vicinity of the lower end portion of the circulating joint 16c. The top end portion of the return pipe 21 is connected to the return joint 16d, so as to be approximately orthogonal to the venting pipe 15 and to be approximately horizontal.
In this structure, the vapor B in the fuel F, which is discharged from the pressure regulator 20, is introduced to the venting pipe 15 with the excess fuel F and returned to the fuel tank 10 through the venting pipe 15.
Then, as the excess fuel F flows into the venting pipe 15 and moves upwards, vapor B and a part of fuel F, which flow into the venting pipe 15 from the fuel filter 12, are entangled to be sucked so that the discharge of the vapor in the downstream chamber 14 is expedited.
Therefore, the degradation of the fuel pump 13 in feeding capacity is further prevented.
Incidentally, shapes and dimensions etc. shown in the aforementioned embodiments are just examples, and are capable to be changed variously based on design requirements and so on.
For example, it is possible to connect the return pipe 21 to the venting pipe 15 so that the angle which the return pipe 21 forms with the venting pipe 15 is upwardly acute.
Here, as shown in
In this structure, the angle which the excess fuel F and the vapor B flowfrom the return pipe 21 forms with the flow direction of the venting pipe 15, so that the entangling force by the excess fuel to the vapor B from the downstream chamber 14 is increased, and the removing capability of the vapor B is increased.
With the fuel supply device and the fuel filter utilized for this fuel supply device of the present invention, vapor generated at the upstream of a fuel pump can be discharged to a fuel tank through a venting pipe, so that the amount of vapor sucked to the fuel pump is greatly reduced and the degradation of the feeding capacity of the fuel pump can be prevented.
| Number | Date | Country | Kind |
|---|---|---|---|
| 2000-284638 | Sep 2000 | JP | national |
| Filing Document | Filing Date | Country | Kind | 371c Date |
|---|---|---|---|---|
| PCT/JP01/08054 | 9/17/2001 | WO | 00 | 11/18/2003 |
| Publishing Document | Publishing Date | Country | Kind |
|---|---|---|---|
| WO02/25095 | 3/28/2002 | WO | A |
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| 5192430 | Mohr | Mar 1993 | A |
| 5584988 | Hashimoto et al. | Dec 1996 | A |
| 6533932 | Kallberg et al. | Mar 2003 | B1 |
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| Number | Date | Country | |
|---|---|---|---|
| 20040065305 A1 | Apr 2004 | US |
