WO2013047566A1 - Fuel supply device for vehicle - Google Patents
Fuel supply device for vehicle Download PDFInfo
- Publication number
- WO2013047566A1 WO2013047566A1 PCT/JP2012/074656 JP2012074656W WO2013047566A1 WO 2013047566 A1 WO2013047566 A1 WO 2013047566A1 JP 2012074656 W JP2012074656 W JP 2012074656W WO 2013047566 A1 WO2013047566 A1 WO 2013047566A1
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- WO
- WIPO (PCT)
- Prior art keywords
- fuel
- return
- region
- feed
- engine
- Prior art date
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Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F02—COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
- F02M—SUPPLYING COMBUSTION ENGINES IN GENERAL WITH COMBUSTIBLE MIXTURES OR CONSTITUENTS THEREOF
- F02M37/00—Apparatus or systems for feeding liquid fuel from storage containers to carburettors or fuel-injection apparatus; Arrangements for purifying liquid fuel specially adapted for, or arranged on, internal-combustion engines
- F02M37/0047—Layout or arrangement of systems for feeding fuel
- F02M37/0052—Details on the fuel return circuit; Arrangement of pressure regulators
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60K—ARRANGEMENT OR MOUNTING OF PROPULSION UNITS OR OF TRANSMISSIONS IN VEHICLES; ARRANGEMENT OR MOUNTING OF PLURAL DIVERSE PRIME-MOVERS IN VEHICLES; AUXILIARY DRIVES FOR VEHICLES; INSTRUMENTATION OR DASHBOARDS FOR VEHICLES; ARRANGEMENTS IN CONNECTION WITH COOLING, AIR INTAKE, GAS EXHAUST OR FUEL SUPPLY OF PROPULSION UNITS IN VEHICLES
- B60K15/00—Arrangement in connection with fuel supply of combustion engines or other fuel consuming energy converters, e.g. fuel cells; Mounting or construction of fuel tanks
- B60K15/03—Fuel tanks
- B60K15/077—Fuel tanks with means modifying or controlling distribution or motion of fuel, e.g. to prevent noise, surge, splash or fuel starvation
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F02—COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
- F02M—SUPPLYING COMBUSTION ENGINES IN GENERAL WITH COMBUSTIBLE MIXTURES OR CONSTITUENTS THEREOF
- F02M37/00—Apparatus or systems for feeding liquid fuel from storage containers to carburettors or fuel-injection apparatus; Arrangements for purifying liquid fuel specially adapted for, or arranged on, internal-combustion engines
- F02M37/04—Feeding by means of driven pumps
- F02M37/08—Feeding by means of driven pumps electrically driven
- F02M37/10—Feeding by means of driven pumps electrically driven submerged in fuel, e.g. in reservoir
- F02M37/106—Feeding by means of driven pumps electrically driven submerged in fuel, e.g. in reservoir the pump being installed in a sub-tank
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60K—ARRANGEMENT OR MOUNTING OF PROPULSION UNITS OR OF TRANSMISSIONS IN VEHICLES; ARRANGEMENT OR MOUNTING OF PLURAL DIVERSE PRIME-MOVERS IN VEHICLES; AUXILIARY DRIVES FOR VEHICLES; INSTRUMENTATION OR DASHBOARDS FOR VEHICLES; ARRANGEMENTS IN CONNECTION WITH COOLING, AIR INTAKE, GAS EXHAUST OR FUEL SUPPLY OF PROPULSION UNITS IN VEHICLES
- B60K15/00—Arrangement in connection with fuel supply of combustion engines or other fuel consuming energy converters, e.g. fuel cells; Mounting or construction of fuel tanks
- B60K15/03—Fuel tanks
- B60K2015/03111—Swirl pots
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60K—ARRANGEMENT OR MOUNTING OF PROPULSION UNITS OR OF TRANSMISSIONS IN VEHICLES; ARRANGEMENT OR MOUNTING OF PLURAL DIVERSE PRIME-MOVERS IN VEHICLES; AUXILIARY DRIVES FOR VEHICLES; INSTRUMENTATION OR DASHBOARDS FOR VEHICLES; ARRANGEMENTS IN CONNECTION WITH COOLING, AIR INTAKE, GAS EXHAUST OR FUEL SUPPLY OF PROPULSION UNITS IN VEHICLES
- B60K15/00—Arrangement in connection with fuel supply of combustion engines or other fuel consuming energy converters, e.g. fuel cells; Mounting or construction of fuel tanks
- B60K15/03—Fuel tanks
- B60K2015/03328—Arrangements or special measures related to fuel tanks or fuel handling
- B60K2015/03414—Arrangements or special measures related to fuel tanks or fuel handling associated with the fuel tank for cooling heated fuel
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60K—ARRANGEMENT OR MOUNTING OF PROPULSION UNITS OR OF TRANSMISSIONS IN VEHICLES; ARRANGEMENT OR MOUNTING OF PLURAL DIVERSE PRIME-MOVERS IN VEHICLES; AUXILIARY DRIVES FOR VEHICLES; INSTRUMENTATION OR DASHBOARDS FOR VEHICLES; ARRANGEMENTS IN CONNECTION WITH COOLING, AIR INTAKE, GAS EXHAUST OR FUEL SUPPLY OF PROPULSION UNITS IN VEHICLES
- B60K15/00—Arrangement in connection with fuel supply of combustion engines or other fuel consuming energy converters, e.g. fuel cells; Mounting or construction of fuel tanks
- B60K15/03—Fuel tanks
- B60K2015/03328—Arrangements or special measures related to fuel tanks or fuel handling
- B60K2015/03473—Arrangements or special measures related to fuel tanks or fuel handling for draining or emptying a fuel tank
Definitions
- the present invention relates to a fuel supply device for a vehicle.
- Patent Document 1 describes a fuel tank in which a sub-chamber is disposed inside a tank body.
- the fuel in the subchamber is supplied to the engine from the feed pipe. Further, surplus fuel that has not been consumed by the engine returns from the return pipe to the sub-chamber. Even when the fuel level is tilted while the remaining amount of fuel in the fuel tank is reduced, the fuel level is secured in the sub-chamber and the fuel supply to the engine is maintained.
- the above inconvenience can be suppressed by providing a fuel cooling device in the return line for returning surplus fuel from the engine.
- a fuel cooling device in the return line for returning surplus fuel from the engine.
- an object of the present invention is to provide a fuel supply device for a vehicle that can suppress an increase in the temperature of fuel supplied to the engine due to return fuel from the engine with a simple and inexpensive configuration.
- the fuel supply apparatus of the present invention includes a fuel tank, a bathtub, a partition plate, a feed pipe, and a return pipe.
- the fuel tank divides a storage space for storing fuel inside.
- a bathtub is arrange
- the partition plate is fixed to the bathtub, partitions the storage space into a feed region and a return region, and connects the feed region and the return region at the lower part of the storage space.
- the feed pipe extends from the feed region to the outside of the fuel tank, and sends the fuel in the feed region as fuel supplied to the engine.
- the return pipe extends from the return region to the outside of the fuel tank, and returns the return fuel from the engine to the top of the return region.
- the high temperature return fuel from the engine is returned to the upper part of the return region by the return pipe.
- the return area and the feed area are partitioned by a partition plate, and fuel in the return area flows into the feed area from the lower part of the storage space (lower part of the return area). For this reason, the high temperature return fuel flowing in from the return pipe does not flow short-circuited to the lower end opening of the feed pipe. Therefore, the high temperature of the fuel supplied to the engine due to the return fuel from the engine can be suppressed by a simple and inexpensive configuration in which the partition plate is fixed to the bathtub.
- the fuel supply device has a return region and a storage space at a height position that is always vertically above a horizontal plane passing through the lower end opening of the feed pipe when the fuel tank is inclined within a predetermined angle range with respect to a predetermined reference posture. You may provide the 1st communication part which communicates.
- the return fuel in the high temperature state from the return pipe is mixed with the low temperature fuel in the accommodation space via the first communication portion, so that the temperature of the fuel in the return region decreases.
- the first communication portion is located at a height position that is always vertically above a horizontal plane passing through the lower end opening of the feed pipe when the fuel tank is inclined within a predetermined angle range with respect to a predetermined reference posture, It communicates with the containment space.
- the range of the predetermined angle with respect to the predetermined reference posture is the maximum tilt angle of the fuel tank with respect to the reference posture when the vehicle body is tilted due to being on a slope, etc., or when the fuel level changes due to acceleration / deceleration or turning It is set based on the maximum inclination angle of the liquid level of the fuel with respect to the horizontal plane.
- the basic structure of the bathtub that maintains the fuel supply to the engine by a simple and inexpensive configuration in which the partition plate is fixed to the bathtub and the first communication portion is provided between the return region and the accommodating space. Without impairing the function, it is possible to suppress an increase in the temperature of fuel supplied to the engine due to the return fuel from the engine.
- the fuel supply device has a feed region and a receiving space at a height position that is always vertically above a horizontal plane passing through the lower end opening of the feed pipe when the fuel tank is inclined within a predetermined angle range with respect to a predetermined reference posture. You may provide the 2nd communication part which communicates.
- the second communication portion is at a height position that is always vertically above a horizontal plane that passes through the lower end opening of the feed pipe when the fuel tank is tilted within the range of the predetermined angle with respect to the reference posture. Since the housing space communicates, the fuel in the bathtub (reservation space) flows from the second communicating portion even when the vehicle body is inclined or the fuel level fluctuates, as in the first communicating portion. The fuel supply from the feed pipe to the engine is maintained without flowing into the housing space.
- the high temperature of the fuel supplied to the engine due to the return fuel from the engine can be suppressed with a simple and inexpensive configuration.
- FIG. 2 It is a mimetic diagram of a system which has a fuel supply device concerning one embodiment of the present invention. It is a schematic diagram of the fuel supply apparatus of FIG. It is a side view of the bathtub of FIG. It is a side view of the bathtub of FIG. It is sectional drawing which shows the outline
- the fuel supply device 1 of this embodiment is provided in a vehicle equipped with a diesel engine as the engine E, and uses light oil as fuel. For this reason, the fuel in the fuel tank 2 can be sucked and supplied to the engine E by the negative pressure acting from the engine E.
- UP of each drawing shows vertically upward.
- the fuel supply device 1 has a fuel tank 2 that divides a storage space 3 in which fuel is stored.
- the fuel tank 2 is formed, for example, in a substantially rectangular parallelepiped shape (box shape) whose longitudinal direction is the longitudinal direction of the vehicle.
- An inlet pipe (not shown) is connected to the upper part of the fuel tank 2, and fuel is supplied into the fuel tank 2 through the inlet pipe.
- a bathtub 4 is arranged in the storage space 3 of the fuel tank 2.
- the bathtub 4 has a bottomed cylindrical shape in which the side wall 7 rises from the peripheral edge of the bottom wall 6, and divides the storage space 5 having an open upper surface inside.
- the bathtub 4 is fixedly supported on the tank bottom surface 2L of the fuel tank 2 by a holding member (not shown).
- the lower communication part 8 which connects the storage space 5 and the accommodation space 3 in the lower part of the storage space 5 is provided in the lower end part of the side wall 7 of the bathtub 4.
- the lower communication portion 8 allows fuel to flow from the storage space 3 to the storage space 5 and prohibits fuel flow from the storage space 5 to the storage space 3.
- the lower communication portion 8 includes a communication hole formed in the side wall 7 and a check valve that opens and closes the communication hole.
- the lower communication portion 8 may be provided on the bottom wall 6 of the bathtub 4.
- a partition plate 9 standing up and down is fixed inside the bathtub 4.
- the partition plate 9 has a rectangular plate shape, and both side edges thereof are in close contact with the inner peripheral surface of the side wall 7 to partition the storage space 5 into a feed region 10 and a return region 11.
- the lower end of the partition plate 9 is separated from the bottom wall 6 of the bathtub 4, and the fuel flows through the gap 12 between the lower end of the partition plate 9 and the bottom wall 6. That is, the partition plate 9 connects the feed region 10 and the return region 11 at the lower part of the storage space 5.
- the return region 11 and the feed region 10 are partitioned by the partition plate 9, and the fuel below the return region 11 flows into the lower part of the feed region 10 via the gap 12.
- High-temperature return fuel that has flowed into the upper portion of the return region 11 does not short-circuit to the lower end opening 15 of the feed pipe 13 and flows.
- a feed pipe 13 connected to a feed line FL (shown in FIG. 1) for supplying fuel to the engine E and surplus fuel that has not been consumed by the engine E are supplied to the fuel tank 2.
- the feed pipe 13 extends from the feed region 10 to the outside of the fuel tank 2 and sends the fuel in the feed region 13 as the supply fuel to the engine E.
- the return pipe 14 extends from the return region 11 to the outside of the fuel tank 2 and returns the return fuel from the engine E to the upper portion of the return region 14.
- the fuel in the feed region 10 is sucked from the lower end opening 15 of the feed pipe 13, and the return fuel flows into the upper portion of the return region 11 from the lower end opening 16 of the return pipe 14.
- the lower end opening 16 of the return pipe 14 is disposed vertically above the lower end opening 15 of the feed pipe 13.
- the feed pipe 13 and the return pipe 14 are fixed to the side wall 7 of the bathtub 4 by holding members 17 and 18, respectively.
- the first communication part 19 and the second communication part 20 are provided on the side wall 7 of the bathtub 4.
- the first communication portion 19 is a vertically long communication hole formed in a portion of the side wall 7 that partitions the return region 11, and connects the return region 11 and the accommodation space 3.
- the second communication portion 20 is a horizontally long communication hole formed in a portion of the side wall 7 that partitions the feed region 10, and communicates the feed region 10 and the accommodation space 3.
- a plurality of second communication portions 20 are formed along the circumferential direction of the side wall 7.
- the first communication part 19 has an opening part vertically below the lower end opening 16 of the return pipe 14, and the second communication part 20 is arranged vertically above the lower end opening 15 of the feed pipe 13. Therefore, the high temperature return fuel from the return pipe 14 is mixed with the low temperature fuel in the accommodation space 3 via the first communication portion 19. Further, the fuel in the feed region 10 is mixed with the low-temperature fuel in the accommodation space 3 through the second communication portion 20.
- first communication portion 19 and the second communication portion 20 are always vertically above the horizontal plane passing through the lower end opening 15 of the feed pipe 13 when the fuel tank 2 is inclined within a predetermined angle range with respect to a predetermined reference posture. Is set to a height position.
- the predetermined reference posture is, for example, the posture of the fuel tank 2 when the vehicle is located on a flat ground
- the range of the predetermined angle is the fuel tank 2 with respect to the reference posture when the vehicle body is inclined due to being located on a slope or the like.
- the fuel level in the bathtub 4 (storage space 5) is from the lower end opening 15 of the feed pipe 13. Is always located vertically above, so that the fuel supply from the feed pipe 13 to the engine E is maintained.
- the fuel tank 2 is inclined from the basic posture (the state shown in FIG. 2), and the liquid level of the fuel in the bathtub 4 and the liquid level of the fuel in the accommodation space 3 other than the bathtub 4 are respectively inclined. Then, as shown in FIG. 7, when the fuel level in the bathtub 4 reaches the first communication part 19 (shown by a solid line in FIG. 7), the fuel flows out from the first communication part 19 into the accommodation space 3. The fuel level in the bathtub 4 is lowered (indicated by a broken line in FIG. 7). However, since the liquid level of the fuel in the bathtub 4 never falls below the lower end opening 15 of the feed pipe 13, the fuel supply from the feed pipe 13 to the engine E is maintained.
- the fuel level at the time of the warning warning is In the state where the fuel tank 2 is set to the basic posture, the fuel tank 2 is set vertically above the horizontal plane passing through the lower end opening 15 of the feed pipe 13, so that it is impossible to supply fuel to the engine E before the warning. Absent.
- the return region 11 and the feed region 10 are partitioned by the partition plate 9, and the fuel in the return region 11 has a gap 12 in the lower portion of the storage space 5 (lower portion of the return region 11).
- the return fuel in a high temperature state does not short-circuit to the lower end opening 15 of the feed pipe 13 and flows.
- the high temperature return fuel from the return pipe 14 is mixed with the low temperature fuel in the accommodation space 3 via the first communication portion 19, so the temperature of the fuel in the return region 11 decreases.
- the fuel 10 in the feed region is mixed with the low-temperature fuel in the accommodation space 3 via the second communication portion 20. Therefore, the high temperature of the fuel in the feed region 10 is suppressed, and the high temperature of the fuel supplied to the engine E due to the high temperature return fuel is suppressed.
- first communication portion 19 and the second communication portion 20 are always vertically above the horizontal plane passing through the lower end opening 15 of the feed pipe 13 when the fuel tank 2 is tilted within a predetermined angle range with respect to the reference posture. It is set to the height position. For this reason, even if the vehicle body tilts or the fuel level fluctuates, the fuel in the bathtub 4 flows into the housing space 3 from the first communication portion 19 or the second communication portion 20. The fuel level is always located vertically above the lower end opening 15 of the feed pipe 13. Therefore, the fuel supply from the feed pipe 13 to the engine E is reliably maintained.
- partition plate 9 is fixed to the bathtub 4 and the first communication portion 19 and the second communication portion 20 are provided between the return region 11 and the feed region 10 and the accommodating space 3. The high temperature of the fuel supplied to the engine E due to the return fuel from E can be suppressed.
- the supply of fuel to the engine E caused by the return fuel from the engine E can be achieved with a simple and inexpensive configuration without impairing the original function of the bathtub 4 for maintaining the fuel supply to the engine E. High temperature can be suppressed.
- the present invention has been described based on the above embodiment, but the present invention is not limited to the content of the above embodiment, and can be appropriately changed without departing from the present invention. is there.
- the lower communication part 8, the first communication part 19, or the second communication part 20 can be omitted, and the shape and number of the first communication part 19 and the second communication part 20 are arbitrary.
- the engine E may be other than a diesel engine (for example, a gasoline engine).
- Fuel supply device 2 Fuel tank 3: Storage space 4: Bathtub 5: Storage space 6: Bottom wall 7: Side wall 8: Lower communication portion 9: Partition plate 10: Feed region 11: Return region 12: Gap 13: Feed Pipe 14: Return pipe 15: Lower end opening 16 of the feed pipe: Lower end opening 19 of the return pipe 19: First communication part 20: Second communication part E: Engine
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Abstract
A partition plate (9) is affixed in a reservoir space (5) within a bathtub (4) disposed in a containing space (3) within a fuel tank (2). The partition plate (9) partitions the reservoir space (5) into a feed region (10) and a return region (11) and allows the feed and return regions to communicate with each other at the lower part of the reservoir space (5). A feed pipe (13) feeds fuel within the feed region (10) to an engine. A return pipe (14) returns returned fuel from the engine to the upper part of the return region (11).
Description
本発明は、車両の燃料供給装置に関する。
The present invention relates to a fuel supply device for a vehicle.
特許文献1には、タンク本体の内部にサブチャンバが配置された燃料タンクが記載されている。サブチャンバ内の燃料は、フィードパイプからエンジンに供給される。また、エンジンで消費されなかった余剰の燃料は、リターンパイプからサブチャンバに戻る。燃料タンク内の燃料の残量が減った状態で燃料液面が傾いた場合であっても、サブチャンバ内では燃料液面の高さが確保され、エンジンへの燃料供給が維持される。
Patent Document 1 describes a fuel tank in which a sub-chamber is disposed inside a tank body. The fuel in the subchamber is supplied to the engine from the feed pipe. Further, surplus fuel that has not been consumed by the engine returns from the return pipe to the sub-chamber. Even when the fuel level is tilted while the remaining amount of fuel in the fuel tank is reduced, the fuel level is secured in the sub-chamber and the fuel supply to the engine is maintained.
上記特許文献1の燃料タンクでは、エンジンによって高温化された燃料が容量の小さいサブチャンバ内に戻るため、燃料の温度が充分に低下しないまま、フィードパイプからエンジンに高温状態の燃料が供給されてしまう可能性がある。エンジンからの戻り燃料の高温化は、エンジンの噴射圧が高いほど発生し易く、エンジンへの供給燃料の高温化は、燃料タンク内の燃料の残量が少ないほど顕著である。供給燃料の高温化は、エンジンの運転性能の低下や樹脂部品の耐久性の低下などの要因となる。
In the fuel tank disclosed in Patent Document 1, since the fuel heated by the engine returns to the sub-chamber having a small capacity, the fuel in the high temperature state is supplied from the feed pipe to the engine without sufficiently decreasing the temperature of the fuel. There is a possibility. The higher temperature of the return fuel from the engine is more likely to occur as the injection pressure of the engine is higher, and the higher temperature of the fuel supplied to the engine is more remarkable as the remaining amount of fuel in the fuel tank is smaller. The high temperature of the supplied fuel causes factors such as a decrease in engine operating performance and a decrease in durability of resin parts.
上記不都合は、エンジンから余剰の燃料を戻すリターンライン内に燃料冷却装置を設けることによって抑制可能である。しかし、配置スペースやコスト等の理由から燃料冷却装置の設置が困難な場合がある。
The above inconvenience can be suppressed by providing a fuel cooling device in the return line for returning surplus fuel from the engine. However, it may be difficult to install the fuel cooling device for reasons such as placement space and cost.
そこで、本発明は、エンジンからの戻り燃料に起因したエンジンへの供給燃料の高温化を、簡易で且つ安価な構成によって抑制することが可能な車両の燃料供給装置の提供を目的とする。
Therefore, an object of the present invention is to provide a fuel supply device for a vehicle that can suppress an increase in the temperature of fuel supplied to the engine due to return fuel from the engine with a simple and inexpensive configuration.
上記目的を達成すべく、本発明の燃料供給装置は、燃料タンクとバスタブと仕切り板とフィードパイプとリターンパイプとを備える。
In order to achieve the above object, the fuel supply apparatus of the present invention includes a fuel tank, a bathtub, a partition plate, a feed pipe, and a return pipe.
燃料タンクは、燃料を収容する収容空間を内部に区画する。バスタブは、収容空間に配置され、燃料を貯留する貯留空間を内部に区画する。仕切り板は、バスタブに固定され、貯留空間をフィード領域とリターン領域とに仕切るとともに、これらフィード領域とリターン領域とを貯留空間の下部で連通させる。フィードパイプは、フィード領域から燃料タンクの外部に延出し、フィード領域の燃料をエンジンへの供給燃料として送出する。リターンパイプは、リターン領域から燃料タンクの外部に延出し、エンジンからの戻り燃料をリターン領域の上部へ戻す。
The fuel tank divides a storage space for storing fuel inside. A bathtub is arrange | positioned in accommodation space and partitions the storage space which stores a fuel inside. The partition plate is fixed to the bathtub, partitions the storage space into a feed region and a return region, and connects the feed region and the return region at the lower part of the storage space. The feed pipe extends from the feed region to the outside of the fuel tank, and sends the fuel in the feed region as fuel supplied to the engine. The return pipe extends from the return region to the outside of the fuel tank, and returns the return fuel from the engine to the top of the return region.
上記構成では、エンジンからの高温状態の戻り燃料は、リターンパイプによってリターン領域の上部に戻される。また、リターン領域とフィード領域との間は仕切り板によって仕切られ、リターン領域の燃料は貯留空間の下部(リターン領域の下部)からフィード領域に流入する。このため、リターンパイプから流入した高温状態の戻り燃料がフィードパイプの下端開口に短絡して流れることがない。従って、バスタブに仕切り板を固定するという簡易で且つ安価な構成によって、エンジンからの戻り燃料に起因したエンジンへの供給燃料の高温化を抑制することができる。
In the above configuration, the high temperature return fuel from the engine is returned to the upper part of the return region by the return pipe. The return area and the feed area are partitioned by a partition plate, and fuel in the return area flows into the feed area from the lower part of the storage space (lower part of the return area). For this reason, the high temperature return fuel flowing in from the return pipe does not flow short-circuited to the lower end opening of the feed pipe. Therefore, the high temperature of the fuel supplied to the engine due to the return fuel from the engine can be suppressed by a simple and inexpensive configuration in which the partition plate is fixed to the bathtub.
上記燃料供給装置は、燃料タンクが所定の基準姿勢に対して所定角度の範囲で傾いたときにフィードパイプの下端開口を通る水平面よりも常に鉛直上方となる高さ位置で、リターン領域と収容空間とを連通する第1連通部を備えてもよい。
The fuel supply device has a return region and a storage space at a height position that is always vertically above a horizontal plane passing through the lower end opening of the feed pipe when the fuel tank is inclined within a predetermined angle range with respect to a predetermined reference posture. You may provide the 1st communication part which communicates.
上記構成では、リターンパイプからの高温状態の戻り燃料は、第1連通部を介して収容空間内の低温の燃料と混合されるので、リターン領域の燃料の温度が低下する。
In the above configuration, the return fuel in the high temperature state from the return pipe is mixed with the low temperature fuel in the accommodation space via the first communication portion, so that the temperature of the fuel in the return region decreases.
また、第1連通部は、燃料タンクが所定の基準姿勢に対して所定角度の範囲で傾いたときにフィードパイプの下端開口を通る水平面よりも常に鉛直上方となる高さ位置で、リターン領域と収容空間とを連通する。この所定の基準姿勢に対する所定角度の範囲は、坂路上に位置する等によって車体が傾いた場合の基準姿勢に対する燃料タンクの最大傾斜角度や、加減速や旋回等によって燃料の液面が変動した場合の水平面に対する燃料の液面の最大傾斜角度などに基づいて設定される。すなわち、基準姿勢の燃料タンクの収容空間に収容された燃料の液面がフィードパイプの下端開口よりも鉛直上方の場合、車体の傾斜や燃料の液面の変動等が生じ、バスタブ内(貯留空間)の燃料が第1連通部から収容空間へ流出した場合であっても、バスタブ内の燃料の液面は、フィードパイプの下端開口よりも鉛直上方に必ず位置するので、フィードパイプからエンジンへの燃料供給が維持される。
Further, the first communication portion is located at a height position that is always vertically above a horizontal plane passing through the lower end opening of the feed pipe when the fuel tank is inclined within a predetermined angle range with respect to a predetermined reference posture, It communicates with the containment space. The range of the predetermined angle with respect to the predetermined reference posture is the maximum tilt angle of the fuel tank with respect to the reference posture when the vehicle body is tilted due to being on a slope, etc., or when the fuel level changes due to acceleration / deceleration or turning It is set based on the maximum inclination angle of the liquid level of the fuel with respect to the horizontal plane. That is, when the level of the fuel stored in the storage space of the fuel tank in the reference posture is vertically above the lower end opening of the feed pipe, the vehicle body tilts, the fuel level changes, etc. ), The liquid level of the fuel in the bathtub is always located vertically above the lower end opening of the feed pipe, so that the fuel from the feed pipe to the engine Fuel supply is maintained.
このように、バスタブに仕切り板を固定し、リターン領域と収容空間との間に第1連通部を設けるという簡易で且つ安価な構成によって、エンジンへの燃料供給を維持するというバスタブの本来的な機能を損なうことなく、エンジンからの戻り燃料に起因したエンジンへの供給燃料の高温化を抑制することができる。
In this way, the basic structure of the bathtub that maintains the fuel supply to the engine by a simple and inexpensive configuration in which the partition plate is fixed to the bathtub and the first communication portion is provided between the return region and the accommodating space. Without impairing the function, it is possible to suppress an increase in the temperature of fuel supplied to the engine due to the return fuel from the engine.
上記燃料供給装置は、燃料タンクが所定の基準姿勢に対して所定角度の範囲で傾いたときにフィードパイプの下端開口を通る水平面よりも常に鉛直上方となる高さ位置で、フィード領域と収容空間とを連通する第2連通部を備えてもよい。
The fuel supply device has a feed region and a receiving space at a height position that is always vertically above a horizontal plane passing through the lower end opening of the feed pipe when the fuel tank is inclined within a predetermined angle range with respect to a predetermined reference posture. You may provide the 2nd communication part which communicates.
上記構成では、フィード領域の燃料は、第2連通部を介して収容空間内の低温の燃料と混合されるので、高温状態の戻り燃料に起因したエンジンへの供給燃料の高温化がさらに抑制される。
In the above configuration, since the fuel in the feed region is mixed with the low-temperature fuel in the accommodation space via the second communication portion, the increase in the temperature of the fuel supplied to the engine due to the return fuel in the high-temperature state is further suppressed. The
また、第2連通部は、燃料タンクが上記基準姿勢に対して上記所定角度の範囲で傾いたときにフィードパイプの下端開口を通る水平面よりも常に鉛直上方となる高さ位置で、フィード領域と収容空間とを連通するので、第1連通部と同様に、車体の傾斜や燃料の液面の変動等が生じた場合であっても、バスタブ内(貯留空間)の燃料は第2連通部から収容空間へ流出せず、フィードパイプからエンジンへの燃料供給が維持される。
Further, the second communication portion is at a height position that is always vertically above a horizontal plane that passes through the lower end opening of the feed pipe when the fuel tank is tilted within the range of the predetermined angle with respect to the reference posture. Since the housing space communicates, the fuel in the bathtub (reservation space) flows from the second communicating portion even when the vehicle body is inclined or the fuel level fluctuates, as in the first communicating portion. The fuel supply from the feed pipe to the engine is maintained without flowing into the housing space.
本発明によれば、エンジンからの戻り燃料に起因したエンジンへの供給燃料の高温化を、簡易で且つ安価な構成によって抑制することができる。
According to the present invention, the high temperature of the fuel supplied to the engine due to the return fuel from the engine can be suppressed with a simple and inexpensive configuration.
以下、本発明の一実施形態を図面に基づいて説明する。本実施形態の燃料供給装置1は、エンジンEとしてディーゼルエンジンを搭載した車両に設けられ、燃料として軽油が使用される。このため、エンジンEから作用する負圧によって燃料タンク2の燃料を吸引しエンジンEに供給することができる。なお、各図面のUPは鉛直上方を示す。
Hereinafter, an embodiment of the present invention will be described with reference to the drawings. The fuel supply device 1 of this embodiment is provided in a vehicle equipped with a diesel engine as the engine E, and uses light oil as fuel. For this reason, the fuel in the fuel tank 2 can be sucked and supplied to the engine E by the negative pressure acting from the engine E. In addition, UP of each drawing shows vertically upward.
図1及び図2に示すように、燃料供給装置1は、燃料が収容される収容空間3を内部に区画する燃料タンク2を有している。燃料タンク2は、例えば、全体として車両前後方向が長手方向となる略直方体状(箱状)に形成されている。燃料タンク2の上部にはインレットパイプ(図示省略)が接続され、インレットパイプを通じて燃料が燃料タンク2内に給油される。
As shown in FIGS. 1 and 2, the fuel supply device 1 has a fuel tank 2 that divides a storage space 3 in which fuel is stored. The fuel tank 2 is formed, for example, in a substantially rectangular parallelepiped shape (box shape) whose longitudinal direction is the longitudinal direction of the vehicle. An inlet pipe (not shown) is connected to the upper part of the fuel tank 2, and fuel is supplied into the fuel tank 2 through the inlet pipe.
燃料タンク2の収容空間3には、バスタブ4が配置されている。バスタブ4は、底壁6の周縁から側壁7が起立する有底筒状であり、上面が開放された貯留空間5を内部に区画する。バスタブ4は、保持部材(図示省略)によって燃料タンク2のタンク底面2Lに固定的に支持されている。
In the storage space 3 of the fuel tank 2, a bathtub 4 is arranged. The bathtub 4 has a bottomed cylindrical shape in which the side wall 7 rises from the peripheral edge of the bottom wall 6, and divides the storage space 5 having an open upper surface inside. The bathtub 4 is fixedly supported on the tank bottom surface 2L of the fuel tank 2 by a holding member (not shown).
バスタブ4の側壁7の下端部には、貯留空間5の下部で貯留空間5と収容空間3とを連通する下連通部8が設けられている。下連通部8は、収容空間3から貯留空間5への燃料の流入を許容し、且つ貯留空間5から収容空間3への燃料の流出を禁止する。下連通部8は、例えば、側壁7に形成された連通孔と、この連通孔を開閉する逆止弁とから構成される。なお、バスタブ4を燃料タンク2のタンク底面2Lから離間させて配置した場合、下連通部8をバスタブ4の底壁6に設けてもよい。
The lower communication part 8 which connects the storage space 5 and the accommodation space 3 in the lower part of the storage space 5 is provided in the lower end part of the side wall 7 of the bathtub 4. The lower communication portion 8 allows fuel to flow from the storage space 3 to the storage space 5 and prohibits fuel flow from the storage space 5 to the storage space 3. For example, the lower communication portion 8 includes a communication hole formed in the side wall 7 and a check valve that opens and closes the communication hole. When the bathtub 4 is disposed away from the tank bottom surface 2 </ b> L of the fuel tank 2, the lower communication portion 8 may be provided on the bottom wall 6 of the bathtub 4.
バスタブ4の内部には、上下方向に起立する仕切り板9が固定されている。仕切り板9は矩形板状であり、その両側縁が側壁7の内周面に密着し、貯留空間5をフィード領域10とリターン領域11とに仕切る。仕切り板9の下端はバスタブ4の底壁6から離間し、仕切り板9の下端と底壁6との間隙12を燃料が流通する。すなわち、仕切り板9は、フィード領域10とリターン領域11とを貯留空間5の下部で連通させる。このように、リターン領域11とフィード領域10との間は仕切り板9によって仕切られ、リターン領域11の下部の燃料は、間隙12を介してフィード領域10の下部に流入するので、リターンパイプ14からリターン領域11の上部に流入した高温状態の戻り燃料がフィードパイプ13の下端開口15に短絡して流れることがない。
A partition plate 9 standing up and down is fixed inside the bathtub 4. The partition plate 9 has a rectangular plate shape, and both side edges thereof are in close contact with the inner peripheral surface of the side wall 7 to partition the storage space 5 into a feed region 10 and a return region 11. The lower end of the partition plate 9 is separated from the bottom wall 6 of the bathtub 4, and the fuel flows through the gap 12 between the lower end of the partition plate 9 and the bottom wall 6. That is, the partition plate 9 connects the feed region 10 and the return region 11 at the lower part of the storage space 5. In this way, the return region 11 and the feed region 10 are partitioned by the partition plate 9, and the fuel below the return region 11 flows into the lower part of the feed region 10 via the gap 12. High-temperature return fuel that has flowed into the upper portion of the return region 11 does not short-circuit to the lower end opening 15 of the feed pipe 13 and flows.
燃料タンク2のタンク上面2Uには、エンジンEに燃料を供給するフィードラインFL(図1に示す)に接続されるフィードパイプ13と、エンジンEで消費されなかった余剰の燃料を燃料タンク2に戻すリターンラインRLに接続されるリターンパイプ14とが貫通している。フィードパイプ13は、フィード領域10から燃料タンク2の外部に延出し、フィード領域13の燃料をエンジンEへの供給燃料として送出する。リターンパイプ14は、リターン領域11から燃料タンク2の外部に延出し、エンジンEからの戻り燃料をリターン領域14の上部へ戻す。フィード領域10の燃料は、フィードパイプ13の下端開口15から吸い込まれ、戻り燃料は、リターンパイプ14の下端開口16からリターン領域11の上部に流入する。リターンパイプ14の下端開口16は、フィードパイプ13の下端開口15よりも鉛直上方に配置されている。また、フィードパイプ13及びリターンパイプ14は、保持部材17,18によってバスタブ4の側壁7にそれぞれ固定されている。
On the tank upper surface 2U of the fuel tank 2, a feed pipe 13 connected to a feed line FL (shown in FIG. 1) for supplying fuel to the engine E and surplus fuel that has not been consumed by the engine E are supplied to the fuel tank 2. A return pipe 14 connected to the return line RL that passes through penetrates. The feed pipe 13 extends from the feed region 10 to the outside of the fuel tank 2 and sends the fuel in the feed region 13 as the supply fuel to the engine E. The return pipe 14 extends from the return region 11 to the outside of the fuel tank 2 and returns the return fuel from the engine E to the upper portion of the return region 14. The fuel in the feed region 10 is sucked from the lower end opening 15 of the feed pipe 13, and the return fuel flows into the upper portion of the return region 11 from the lower end opening 16 of the return pipe 14. The lower end opening 16 of the return pipe 14 is disposed vertically above the lower end opening 15 of the feed pipe 13. The feed pipe 13 and the return pipe 14 are fixed to the side wall 7 of the bathtub 4 by holding members 17 and 18, respectively.
バスタブ4の側壁7には、第1連通部19と第2連通部20とが設けられている。第1連通部19は、側壁7のうちリターン領域11を区画する部分に形成された縦長状の連通孔であり、リターン領域11と収容空間3とを連通する。第2連通部20は、側壁7のうちフィード領域10を区画する部分に形成された横長状の連通孔であり、フィード領域10と収容空間3とを連通する。第2連通部20は、側壁7の周方向に沿って複数形成されている。第1連通部19は、リターンパイプ14の下端開口16よりも鉛直下方の開口部分を有し、第2連通部20は、フィードパイプ13の下端開口15よりも鉛直上方に配置されている。従って、リターンパイプ14からの高温状態の戻り燃料は、第1連通部19を介して収容空間3内の低温の燃料と混合される。また、フィード領域10の燃料は、第2連通部20を介して収容空間3内の低温の燃料と混合される。
The first communication part 19 and the second communication part 20 are provided on the side wall 7 of the bathtub 4. The first communication portion 19 is a vertically long communication hole formed in a portion of the side wall 7 that partitions the return region 11, and connects the return region 11 and the accommodation space 3. The second communication portion 20 is a horizontally long communication hole formed in a portion of the side wall 7 that partitions the feed region 10, and communicates the feed region 10 and the accommodation space 3. A plurality of second communication portions 20 are formed along the circumferential direction of the side wall 7. The first communication part 19 has an opening part vertically below the lower end opening 16 of the return pipe 14, and the second communication part 20 is arranged vertically above the lower end opening 15 of the feed pipe 13. Therefore, the high temperature return fuel from the return pipe 14 is mixed with the low temperature fuel in the accommodation space 3 via the first communication portion 19. Further, the fuel in the feed region 10 is mixed with the low-temperature fuel in the accommodation space 3 through the second communication portion 20.
また、第1連通部19及び第2連通部20は、燃料タンク2が所定の基準姿勢に対して所定角度の範囲で傾いたときにフィードパイプ13の下端開口15を通る水平面よりも常に鉛直上方となる高さ位置に設定されている。
Further, the first communication portion 19 and the second communication portion 20 are always vertically above the horizontal plane passing through the lower end opening 15 of the feed pipe 13 when the fuel tank 2 is inclined within a predetermined angle range with respect to a predetermined reference posture. Is set to a height position.
所定の基準姿勢とは、例えば、車両が平地に位置する場合の燃料タンク2の姿勢であり、所定角度の範囲は、坂路上に位置する等によって車体が傾いた場合の基準姿勢に対する燃料タンク2の最大傾斜角度や、加減速や旋回等によって燃料の液面が変動した場合の水平面に対する燃料の液面の最大傾斜角度などに基づいて設定される。すなわち、基準姿勢の燃料タンク2の収容空間3に収容された燃料の液面がフィードパイプの下端開口よりも鉛直上方の場合、車体の傾斜や燃料の液面の変動等が生じ、バスタブ4内の燃料が第1連通部19や第2連通部20から収容空間3へ流出した場合であっても、バスタブ4内(貯留空間5)の燃料の液面は、フィードパイプ13の下端開口15よりも鉛直上方に必ず位置するので、フィードパイプ13からエンジンEへの燃料供給が維持される。
The predetermined reference posture is, for example, the posture of the fuel tank 2 when the vehicle is located on a flat ground, and the range of the predetermined angle is the fuel tank 2 with respect to the reference posture when the vehicle body is inclined due to being located on a slope or the like. Is set based on the maximum inclination angle of the fuel, the maximum inclination angle of the liquid level of the fuel with respect to the horizontal plane when the liquid level of the fuel fluctuates due to acceleration, deceleration, turning, or the like. That is, when the level of the fuel stored in the storage space 3 of the fuel tank 2 in the reference posture is vertically above the lower end opening of the feed pipe, the vehicle body is inclined, the fuel level is fluctuated, etc. Even when the fuel flows out from the first communication portion 19 and the second communication portion 20 into the accommodation space 3, the fuel level in the bathtub 4 (storage space 5) is from the lower end opening 15 of the feed pipe 13. Is always located vertically above, so that the fuel supply from the feed pipe 13 to the engine E is maintained.
例えば、燃料タンク2が基本姿勢(図2に示す状態)から傾き、バスタブ4内の燃料の液面とバスタブ4以外の収容空間3の燃料の液面とがそれぞれ傾斜する。そして、図7に示すように、バスタブ4内において燃料の液面が第1連通部19に達すると(図7に実線で示す)、第1連通部19から収容空間3に燃料が流出してバスタブ4内の燃料の液面が下がる(図7に破線で示す)。しかし、バスタブ4内の燃料の液面は、フィードパイプ13の下端開口15よりも下がることがないので、フィードパイプ13からエンジンEへの燃料供給が維持される。
For example, the fuel tank 2 is inclined from the basic posture (the state shown in FIG. 2), and the liquid level of the fuel in the bathtub 4 and the liquid level of the fuel in the accommodation space 3 other than the bathtub 4 are respectively inclined. Then, as shown in FIG. 7, when the fuel level in the bathtub 4 reaches the first communication part 19 (shown by a solid line in FIG. 7), the fuel flows out from the first communication part 19 into the accommodation space 3. The fuel level in the bathtub 4 is lowered (indicated by a broken line in FIG. 7). However, since the liquid level of the fuel in the bathtub 4 never falls below the lower end opening 15 of the feed pipe 13, the fuel supply from the feed pipe 13 to the engine E is maintained.
また、燃料タンク2の燃料残量が少なくなったことをウォーニング警告(例えば、車室内の運転席前方に設けたインジケータの点灯等)によって報知する場合、ウォーニング警告発生時の燃料の液面は、燃料タンク2が基本姿勢に設定されている状態において、フィードパイプ13の下端開口15を通る水平面よりも鉛直上方に設定されるため、ウォーニング警告前にエンジンEへの燃料供給が不能となることはない。
Further, when the warning that the remaining amount of fuel in the fuel tank 2 is low is notified by a warning warning (for example, lighting of an indicator provided in front of the driver's seat in the passenger compartment), the fuel level at the time of the warning warning is In the state where the fuel tank 2 is set to the basic posture, the fuel tank 2 is set vertically above the horizontal plane passing through the lower end opening 15 of the feed pipe 13, so that it is impossible to supply fuel to the engine E before the warning. Absent.
このように、本実施形態によれば、リターン領域11とフィード領域10との間は仕切り板9によって仕切られ、リターン領域11の燃料は貯留空間5の下部(リターン領域11の下部)の間隙12からフィード領域10に流入するので、リターンパイプ14からリターン領域11の上部へ流入した高温状態の戻り燃料がフィードパイプ13の下端開口15に短絡して流れることがない。また、リターンパイプ14からの高温状態の戻り燃料は、第1連通部19を介して収容空間3内の低温の燃料と混合されるので、リターン領域11の燃料の温度が低下する。さらに、フィード領域の燃料10は、第2連通部20を介して収容空間3内の低温の燃料と混合される。従って、フィード領域10の燃料の高温化が抑制され、高温状態の戻り燃料に起因したエンジンEへの供給燃料の高温化が抑制される。
Thus, according to the present embodiment, the return region 11 and the feed region 10 are partitioned by the partition plate 9, and the fuel in the return region 11 has a gap 12 in the lower portion of the storage space 5 (lower portion of the return region 11). From the return pipe 14 to the upper part of the return area 11, the return fuel in a high temperature state does not short-circuit to the lower end opening 15 of the feed pipe 13 and flows. In addition, the high temperature return fuel from the return pipe 14 is mixed with the low temperature fuel in the accommodation space 3 via the first communication portion 19, so the temperature of the fuel in the return region 11 decreases. Further, the fuel 10 in the feed region is mixed with the low-temperature fuel in the accommodation space 3 via the second communication portion 20. Therefore, the high temperature of the fuel in the feed region 10 is suppressed, and the high temperature of the fuel supplied to the engine E due to the high temperature return fuel is suppressed.
また、第1連通部19及び第2連通部20は、燃料タンク2が基準姿勢に対して所定角度の範囲で傾いたときにフィードパイプ13の下端開口15を通る水平面よりも常に鉛直上方となる高さ位置に設定されている。このため、車体の傾斜や燃料の液面の変動等が生じ、バスタブ4内の燃料が第1連通部19や第2連通部20から収容空間3へ流出した場合であっても、バスタブ4内の燃料の液面は、フィードパイプ13の下端開口15よりも鉛直上方に必ず位置する。従って、フィードパイプ13からエンジンEへの燃料供給が確実に維持される。
Further, the first communication portion 19 and the second communication portion 20 are always vertically above the horizontal plane passing through the lower end opening 15 of the feed pipe 13 when the fuel tank 2 is tilted within a predetermined angle range with respect to the reference posture. It is set to the height position. For this reason, even if the vehicle body tilts or the fuel level fluctuates, the fuel in the bathtub 4 flows into the housing space 3 from the first communication portion 19 or the second communication portion 20. The fuel level is always located vertically above the lower end opening 15 of the feed pipe 13. Therefore, the fuel supply from the feed pipe 13 to the engine E is reliably maintained.
さらに、バスタブ4に仕切り板9を固定し、リターン領域11及びフィード領域10と収容空間3との間に第1連通部19及び第2連通部20を設けるという簡易で且つ安価な構成によって、エンジンEからの戻り燃料に起因したエンジンEへの供給燃料の高温化を抑制することができる。
Further, the partition plate 9 is fixed to the bathtub 4 and the first communication portion 19 and the second communication portion 20 are provided between the return region 11 and the feed region 10 and the accommodating space 3. The high temperature of the fuel supplied to the engine E due to the return fuel from E can be suppressed.
このように、エンジンEへの燃料供給を維持するというバスタブ4の本来的な機能を損なうことなく、簡易で且つ安価な構成によって、エンジンEからの戻り燃料に起因したエンジンEへの供給燃料の高温化を抑制することができる。
Thus, the supply of fuel to the engine E caused by the return fuel from the engine E can be achieved with a simple and inexpensive configuration without impairing the original function of the bathtub 4 for maintaining the fuel supply to the engine E. High temperature can be suppressed.
以上、本発明について、上記実施形態に基づいて説明を行ったが、本発明は上記実施形態の内容に限定をされるものではなく、当然に本発明を逸脱しない範囲では適宜の変更が可能である。
As described above, the present invention has been described based on the above embodiment, but the present invention is not limited to the content of the above embodiment, and can be appropriately changed without departing from the present invention. is there.
例えば、下連通部8、第1連通部19又は第2連通部20は省略可能であり、第1連通部19及び第2連通部20の形状や数などは任意である。また、エンジンEはディーゼルエンジン以外(例えばガソリンエンジン)であってもよい。
For example, the lower communication part 8, the first communication part 19, or the second communication part 20 can be omitted, and the shape and number of the first communication part 19 and the second communication part 20 are arbitrary. The engine E may be other than a diesel engine (for example, a gasoline engine).
1:燃料供給装置
2:燃料タンク
3:収容空間
4:バスタブ
5:貯留空間
6:底壁
7:側壁
8:下連通部
9:仕切り板
10:フィード領域
11:リターン領域
12:間隙
13:フィードパイプ
14:リターンパイプ
15:フィードパイプの下端開口
16:リターンパイプの下端開口
19:第1連通部
20:第2連通部
E:エンジン 1: Fuel supply device 2: Fuel tank 3: Storage space 4: Bathtub 5: Storage space 6: Bottom wall 7: Side wall 8: Lower communication portion 9: Partition plate 10: Feed region 11: Return region 12: Gap 13: Feed Pipe 14: Return pipe 15: Lower end opening 16 of the feed pipe: Lower end opening 19 of the return pipe 19: First communication part 20: Second communication part E: Engine
2:燃料タンク
3:収容空間
4:バスタブ
5:貯留空間
6:底壁
7:側壁
8:下連通部
9:仕切り板
10:フィード領域
11:リターン領域
12:間隙
13:フィードパイプ
14:リターンパイプ
15:フィードパイプの下端開口
16:リターンパイプの下端開口
19:第1連通部
20:第2連通部
E:エンジン 1: Fuel supply device 2: Fuel tank 3: Storage space 4: Bathtub 5: Storage space 6: Bottom wall 7: Side wall 8: Lower communication portion 9: Partition plate 10: Feed region 11: Return region 12: Gap 13: Feed Pipe 14: Return pipe 15: Lower end opening 16 of the feed pipe: Lower end opening 19 of the return pipe 19: First communication part 20: Second communication part E: Engine
Claims (3)
- 燃料を収容する収容空間を内部に区画する燃料タンクと、
前記収容空間に配置され、燃料を貯留する貯留空間を内部に区画するバスタブと、
前記バスタブに固定され、前記貯留空間をフィード領域とリターン領域とに仕切るとともに、これらフィード領域とリターン領域とを前記貯留空間の下部で連通させる仕切り板と、
前記フィード領域から前記燃料タンクの外部に延出し、前記フィード領域の燃料をエンジンへの供給燃料として送出するフィードパイプと、
前記リターン領域から前記燃料タンクの外部に延出し、前記エンジンからの戻り燃料を前記リターン領域の上部へ戻すリターンパイプと、を備えた
ことを特徴とする車両の燃料供給装置。 A fuel tank that divides a storage space for storing fuel therein;
A bathtub which is disposed in the housing space and divides a storage space for storing fuel therein;
A partition plate fixed to the bathtub and partitioning the storage space into a feed region and a return region, and connecting the feed region and the return region at the lower part of the storage space;
A feed pipe extending from the feed region to the outside of the fuel tank, and delivering fuel in the feed region as fuel supplied to the engine;
A vehicle fuel supply device comprising: a return pipe extending from the return region to the outside of the fuel tank and returning return fuel from the engine to an upper portion of the return region. - 請求項1に記載の燃料供給装置であって、
前記燃料タンクが所定の基準姿勢に対して所定角度の範囲で傾いたときに前記フィードパイプの下端開口を通る水平面よりも常に鉛直上方となる高さ位置で、前記リターン領域と前記収容空間とを連通する第1連通部を備えた
ことを特徴とする車両の燃料供給装置。 The fuel supply device according to claim 1,
When the fuel tank is inclined within a predetermined angle range with respect to a predetermined reference posture, the return region and the accommodation space are at a height position that is always vertically above a horizontal plane passing through the lower end opening of the feed pipe. A fuel supply device for a vehicle, comprising: a first communication portion that communicates. - 請求項2に記載の燃料供給装置であって、
前記燃料タンクが前記基準姿勢に対して前記所定角度の範囲で傾いたときに前記フィードパイプの下端開口を通る水平面よりも常に鉛直上方となる高さ位置で、前記フィード領域と前記収容空間とを連通する第2連通部を備えた
ことを特徴とする車両の燃料供給装置。 The fuel supply device according to claim 2,
When the fuel tank is tilted within the range of the predetermined angle with respect to the reference posture, the feed region and the accommodating space are at a height position that is always vertically above a horizontal plane passing through a lower end opening of the feed pipe. A fuel supply device for a vehicle, comprising a second communication portion that communicates.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP2011209242A JP6016049B2 (en) | 2011-09-26 | 2011-09-26 | Vehicle fuel supply device |
JP2011-209242 | 2011-09-26 |
Publications (1)
Publication Number | Publication Date |
---|---|
WO2013047566A1 true WO2013047566A1 (en) | 2013-04-04 |
Family
ID=47995596
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
PCT/JP2012/074656 WO2013047566A1 (en) | 2011-09-26 | 2012-09-26 | Fuel supply device for vehicle |
Country Status (2)
Country | Link |
---|---|
JP (1) | JP6016049B2 (en) |
WO (1) | WO2013047566A1 (en) |
Cited By (2)
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JP2018095311A (en) * | 2016-12-16 | 2018-06-21 | ホクシン産業株式会社 | Fuel oil transfer device |
WO2021193837A1 (en) * | 2020-03-27 | 2021-09-30 | いすゞ自動車株式会社 | Tank |
Families Citing this family (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP6446016B2 (en) * | 2016-11-16 | 2018-12-26 | 本田技研工業株式会社 | Fuel supply system |
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JP2008150975A (en) * | 2006-12-15 | 2008-07-03 | Honda Motor Co Ltd | Sub-chamber structure of fuel tank |
JP2008240697A (en) * | 2007-03-28 | 2008-10-09 | Denso Corp | Fuel supply device |
JP2008248805A (en) * | 2007-03-30 | 2008-10-16 | Denso Corp | Fuel supply device |
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JPS58167764U (en) * | 1982-05-06 | 1983-11-09 | 日産自動車株式会社 | fuel subchamber |
JPS5967561U (en) * | 1982-10-28 | 1984-05-08 | 三菱重工業株式会社 | Tank with check plate |
JPH067957Y2 (en) * | 1987-06-24 | 1994-03-02 | 株式会社ユニシアジェックス | Fuel tank |
JP2002155819A (en) * | 2000-11-17 | 2002-05-31 | Nissan Motor Co Ltd | Swing tank structure |
-
2011
- 2011-09-26 JP JP2011209242A patent/JP6016049B2/en not_active Expired - Fee Related
-
2012
- 2012-09-26 WO PCT/JP2012/074656 patent/WO2013047566A1/en active Application Filing
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JP2008150975A (en) * | 2006-12-15 | 2008-07-03 | Honda Motor Co Ltd | Sub-chamber structure of fuel tank |
JP2008240697A (en) * | 2007-03-28 | 2008-10-09 | Denso Corp | Fuel supply device |
JP2008248805A (en) * | 2007-03-30 | 2008-10-16 | Denso Corp | Fuel supply device |
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2018095311A (en) * | 2016-12-16 | 2018-06-21 | ホクシン産業株式会社 | Fuel oil transfer device |
WO2021193837A1 (en) * | 2020-03-27 | 2021-09-30 | いすゞ自動車株式会社 | Tank |
JP2021154901A (en) * | 2020-03-27 | 2021-10-07 | いすゞ自動車株式会社 | tank |
CN115298475A (en) * | 2020-03-27 | 2022-11-04 | 五十铃自动车株式会社 | Pot for storing food |
JP7264099B2 (en) | 2020-03-27 | 2023-04-25 | いすゞ自動車株式会社 | tank |
CN115298475B (en) * | 2020-03-27 | 2024-01-12 | 五十铃自动车株式会社 | Tank |
Also Published As
Publication number | Publication date |
---|---|
JP6016049B2 (en) | 2016-10-26 |
JP2013068208A (en) | 2013-04-18 |
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