JP2005083217A - Oil reservoir device for motorcycle engine - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an oil reservoir device for a motorcycle engine lowering the oil level in an oil reservoir chamber to reduce agitation resistance without causing the enlargement of the engine while ensuring a predetermined oil quantity in an oil pan, and moreover causing no interference with an exhaust pipe. <P>SOLUTION: The exhaust pipe P of the engine E mounted to a body frame F is arranged extending under the oil pan 13 from the front side of the engine E, and a sub-tank 18 communicating with the oil reservoir chamber 13c of the oil pan 13 and projecting forward from the oil pan 13 to store a part of oil O is provided at the side of the exhaust pipe P in the oil pan 13. A communicating part 30 between the sub-tank 18 and the oil pan 13 is provided with a restraining member 35 for restraining the longitudinal movement of oil O. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to an oil storage device for a motorcycle engine, and more particularly to an oil storage device capable of lowering an oil level while maintaining a necessary oil storage amount.

  For motorcycles, there is a demand to lower the center of gravity of the engine in order to lower the center of gravity of the vehicle body. Therefore, if the engine crankshaft and the input shaft that meshes with it are placed in the lower position, the oil pan below the engine needs to be at a certain height above the road surface. As a result, the immersion depth of the clutch attached to the input shaft into the oil mainly increases. As a result, the stirring resistance increases and the oil temperature is increased due to stirring.

  If the oil level is lowered to reduce the agitation, the amount of oil stored in the oil pan is reduced. In order to lower the oil level while ensuring a certain amount of oil storage, the oil pan should be made larger in plane, but in this case, the engine case to which the oil pan is attached must also be enlarged, and the engine itself Increases in size.

As a prior art related to this oil pan, there is one in which a protruding portion that protrudes forward is formed on the oil pan (see, for example, Patent Document 1). According to this, the effect of lowering the oil level while increasing the amount of oil stored is expected, but since the protruding portion has a structure protruding to the oil pan with the same width as the oil pan, the protruding portion is Pressure on the exhaust pipe placement space. Therefore, the degree of freedom in designing the engine including the exhaust pipe is limited.
Japanese Examined Patent Publication No. 63-16573

  Therefore, the present invention reduces the agitation resistance by lowering the oil level in the oil storage chamber without increasing the size of the engine while ensuring a predetermined amount of oil stored in the storage chamber of the oil pan. An object of the present invention is to provide an oil storage device for a motorcycle engine that does not interfere with an exhaust pipe.

  In order to achieve the above object, an oil storage device for a motorcycle engine according to the present invention is arranged such that an exhaust pipe of an engine mounted on a vehicle body frame extends from the front of the engine to below an oil pan, and the oil in the oil pan is A sub tank that communicates with the storage chamber and protrudes forward from the oil pan to store a part of the oil is provided on the side of the exhaust pipe in the oil pan.

  According to this configuration, the plane area of the space for storing lubricating oil is increased by increasing the number of sub-tanks communicating with the oil storage chamber of the oil pan as compared with a conventional oil pan alone. Therefore, when the amount of oil stored is constant, the oil level can be lowered as compared with the conventional case. By lowering the oil level in this way, for example, the oil stirring resistance by the clutch is reduced, and the oil temperature can be lowered efficiently. As a result, the engine output and the cooling effect are improved. Further, the center of gravity of the engine can be lowered by lowering the positions of the crankshaft and the input shaft in response to the oil level being lowered. In addition, since the sub-tank is provided on the side of the exhaust pipe, it does not interfere with the exhaust pipe, so that the degree of freedom in designing the entire engine including the exhaust pipe is not restricted.

  In a preferred embodiment of the present invention, cooling fins for air cooling are formed on the outer surface of the sub tank. According to this configuration, since the sub tank is located in front of the oil pan when the vehicle is traveling, the driving wind is hit. However, since the sub tank is provided with the cooling fins for air cooling, the oil accumulated in the sub tank and the oil pan. Is efficiently cooled.

  In a preferred embodiment of the present invention, a suppression member that suppresses the movement of oil in the front-rear direction is provided at the communicating portion between the sub tank and the oil pan. According to this configuration, when the oil moves between the sub tank and the oil pan, the movement is decelerated due to the presence of the restraining member provided in the communication portion. As a result, sudden oil level fluctuations accompanying the movement of oil between the oil pan and the sub tank during the acceleration / deceleration of the motorcycle and the accompanying air entrainment in the oil are suppressed.

  According to the oil storage device for a motorcycle engine of the present invention, the plane area of the oil storage space can be increased by the amount of the additional subtank with respect to the oil pan, so that a certain amount of oil is stored in the oil pan. In this case, the oil level can be lowered as compared with the conventional case, the stirring resistance can be reduced, and the oil temperature can be lowered efficiently. Thereby, the output and cooling effect of the engine can be improved. Further, the center of gravity of the engine can be lowered by lowering the positions of the crankshaft and the input shaft in response to the oil level being lowered. Furthermore, since the sub-tank is provided on the side of the exhaust pipe disposed below the oil pan, interference with the exhaust pipe is prevented, so that the degree of freedom in engine design is not restricted.

  Hereinafter, preferred embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a side view showing a motorcycle engine according to an embodiment of the present invention. In the figure, an engine E mounted on the lower front side of a vehicle body frame F is, for example, a parallel 4-cylinder 4-cycle engine, and a crankcase CR, a cylinder CY and a gear case (mission case) GE of the engine body 1 are engine case EC. Is forming. The engine case EC is composed of a case upper C1 and a case lower C2 which are vertically divided. The cylinder head 11 is connected to the upper surface of the cylinder CY in the case upper C1, and a valve operating chamber is formed on the upper surface of the cylinder head 11. A head cover 12 is attached. An oil pan 13 is connected to the lower surface of the case lower C2. A crankshaft 14 and an output shaft 15 are disposed so as to be positioned on a mating surface M of the case upper C1 and the case lower C2, and a chain 16 for driving rear wheels is suspended from an output gear 15a of the output shaft 15. Yes. The engine case EC, the cylinder head 11, the head cover 12, and the oil pan 13 form the engine body 1.

  An exhaust pipe P is connected to each exhaust port 17 of the cylinder head 11. The exhaust pipe P extends from the front of the engine body 1 to below the oil pan 13 and further to the rear, and is connected to a muffler (not shown). A sub tank 18 is provided on the front surface of the oil pan 13 so as to protrude forward and store a part of the oil. As shown in the front view of FIG. 3, the four individual exhaust pipe portions P1 of the exhaust pipe P are assembled two by two and connected to a total of two collective pipe portions P2 and P2. P2 and P2 are arranged at the center in the left-right direction of the engine E and the right side thereof. On the other hand, the sub-tank 18 is disposed on the side of the collecting pipe portion P2, on the left side in this example. The oil pan 13 has a shallow bottom portion 13 on the right side and a deep bottom portion 13b that protrudes below the shallow bottom portion 13a. A sub tank 18 is disposed so as to communicate with the oil storage chamber 13b of the deep bottom portion 13b. . The bottom surface of the deep bottom portion 13b is substantially the same height as the bottom surface of the collecting pipe portion P2 of the exhaust pipe P disposed below the shallow bottom portion 13a.

  As shown in FIG. 2, the sub-tank 18 is connected to the oil storage chamber 13 c of the oil pan 13 so that the opening 18 d on the rear surface of the sub-tank 18 is aligned with the opening 13 d formed on the front surface of the sub-tank 18. Is fixed to the oil pan 13. A communication portion 30 of the oil storage space is formed by the openings 13d and 18d. A strainer 25 is installed in the oil storage chamber 13c of the oil pan 13, and metal powder and dust are removed when the lubricating oil O is sucked by the oil pump (not shown) through the strainer 25. And supplied to the lubrication part of the engine E.

  As shown in FIG. 3, a filter cooler unit 23 having an oil filter 21 and an oil cooler 22 is attached to the front surface of the crankcase CR. The filter cooler unit 23 is located behind the individual exhaust pipe portion P1 of the exhaust pipe P and above the right side of the sub tank 18. Further, the surface including the axis 40 of the crankshaft 14 and the axis 50 of the output shaft 15 shown in FIG. 1 is a mating surface M of the case upper C1 and the case lower C2, and below this mating surface M The input shaft 26 is disposed. A clutch gear 27 and a clutch 28 are mounted on the input shaft 26 concentrically with the shaft center 60.

  As shown in FIG. 4, as described above, the oil pan 13 has a shallow bottom portion 13a on one side where the exhaust pipe P is disposed below, and a deep bottom portion 13b on the other side. Is a mating surface with the engine case EC (FIG. 1), and is fixed to the engine case EC by a bolt 32 of FIG. 1 inserted from below into a bolt insertion hole 21 provided around the engine case EC.

  As shown in FIG. 4, the sub tank 18 has an inverted triangular cross section that matches the cross sectional shape of the deep bottom portion 13 b of the oil pan 13, and cooling fins 18 a for air cooling extending in the front-rear direction are formed on the outer peripheral surface. On the front end face, cooling fins 18b for air cooling extending in the width direction are formed.

  In the communicating portion 30 between the sub tank 18 and the oil pan 13 shown in FIG. 5, the movement of the oil in the front-rear direction, that is, the oil is between the oil storage chamber 13 c of the oil pan 13 and the oil storage chamber 18 c in the sub tank 18. The restraining member 35 which suppresses moving is provided. In this example, the restraining member 35 is formed of a vertical rib provided integrally with the oil pan 13 and located at the center of the opening 13d.

  In the configuration described above, the engine E shown in FIG. 1 lowers the crankshaft 14 with the mating surface M, which is a surface including the crankshaft 14 and the output shaft 15, lowered, and further below the mating surface M. By arranging the input shaft 21 and the clutch gear 27 concentric with the input shaft 21, a low center of gravity of the engine is achieved. Here, the addition of the sub-tank 18 communicating with the oil storage chamber 13c of the oil pan 13 increases the plane area of the space in which the oil O is stored, as compared with the conventional oil pan alone. Therefore, when the amount of oil O stored is constant, the oil level H can be lowered as compared with the conventional case. By lowering the oil level H in this manner, for example, the stirring resistance of the oil O by the clutch gear 27 and the clutch 28 is lowered, and the oil temperature can be efficiently lowered. As a result, the engine output and the cooling effect are improved. Further, the center of gravity of the engine E can be lowered by lowering the positions of the crankshaft 14 and the input shaft 15 in response to the oil level being lowered.

  Further, as shown in FIG. 2, since the sub tank 18 is provided on the side of the collecting pipe portion P2 of the exhaust pipe P, the sub tank 18 does not interfere with the collecting pipe portion P2, so that the engine including the exhaust pipe P is included. The degree of freedom in designing the entire E is not limited. Moreover, since the sub tank 18 that projects forward from the oil pan 13 and directly receives the traveling wind has cooling fins 18a and 18b for air cooling formed on the outer surface thereof as shown in FIG. And the oil in the oil pan 13 connected to this is efficiently cooled by the traveling wind.

  Further, the movement of the oil via the communication portion 30 between the oil pan 13 and the sub tank 18 shown in FIG. 2 is suppressed by a suppression member 35 provided in the communication portion 30. As a result, sudden fluctuations in the oil level H accompanying the movement of the oil O between the oil pan 13 and the sub tank 18 during acceleration / deceleration of the motorcycle, and the accompanying air entrainment in the oil O are suppressed. .

  As shown in FIG. 1, the cylinder CY is tilted forward, whereas the sub tank 18 protrudes forward from the oil pan 13, so the sub tank 18 is positioned vertically below the cylinder head 11. Therefore, the oil in the rocker arm chamber of the cylinder head 11 can be directly returned to the sub tank 18 by connecting the cylinder head 11 and the sub tank 18 with the oil return pipe 29 extending substantially vertically.

  As a modification of the restraining member 35, as shown in FIG. 6, a restraining member 35 </ b> A having a longitudinal rib 36 at the center in the left-right direction and a lateral rib 37 at the center in the up-down direction perpendicular to the longitudinal rib 36 is used. Can also be as shown in FIG. It is also possible to use a restraining member 35B having a longitudinal rib 36 and a pair of perforated plates 38, 38 attached to both the left and right sides thereof to cause oil to flow through a number of holes 38a of the perforated plate 38. it can.

  Further, the arrangement relationship between the exhaust pipe P and the sub tank 18 is such that, for example, as shown in FIG. 8, the shallow bottom portion 13a and the deep bottom portion 13b of the oil pan 13 are opposite to each other, and the exhaust pipe P is shallow on the left side of the oil pan 13. You may arrange | position below the bottom part 13a, and may arrange | position the sub tank 18 ahead of the right side of the oil pan 13 so that the sub tank 18 may connect with the deep bottom part 13b of the right side of the oil pan 13. Further, as shown in FIG. 9, a deep bottom portion 13b is disposed at the central portion in the left-right direction, exhaust pipes P are respectively disposed below the shallow bottom portions 13a, 13a on the left and right sides, and the sub tank 18 is disposed at the deep bottom portion 13b at the central portion. You may arrange | position ahead of the center part of the left-right direction of the oil pan 13 so that it may communicate with this oil storage chamber 13b.

1 is a side view showing a motorcycle engine provided with an oil storage device according to an embodiment of the present invention. It is sectional drawing which looked at the connection state of the oil pan and sub tank of the oil storage apparatus from the side. It is the schematic diagram which looked at the arrangement | positioning relationship of the oil pan of the same oil storage apparatus, a sub tank, and an exhaust pipe from the side. FIG. 3 is a perspective view of an oil pan and a sub tank of the oil storage device. It is a perspective view which shows the inside of the sub tank of the oil storage apparatus in cross section. It is a front view which shows the modification of the suppression member provided in the communicating part of an oil pan and a sub tank. It is a front view which shows the other modification of the suppression member provided in the communicating part of an oil pan and a sub tank. It is a front view which shows the other example of arrangement | positioning relationship of an oil pan, a sub tank, and an exhaust pipe. It is a front view which shows the further another example of the arrangement | positioning relationship of an oil pan, a sub tank, and an exhaust pipe.

Explanation of symbols

13 Oil pan 13c Oil reservoir 18 Sub tank 18a, 18b Cooling fin 30 Communication portion 35, 35A, 35B Inhibiting member E Engine F Body frame H Oil level P Exhaust pipe

Claims (3)

The exhaust pipe of the engine mounted on the body frame extends from the front of the engine to the bottom of the oil pan,
An oil storage device for a motorcycle engine, wherein a sub tank that communicates with an oil storage chamber of the oil pan and protrudes forward from the oil pan to store a part of the oil is provided on a side of an exhaust pipe in the oil pan.   The oil storage device for a motorcycle engine according to claim 1, wherein cooling fins for air cooling are formed on an outer surface of the sub tank. The oil storage device for a motorcycle engine according to claim 1 or 2, wherein a suppression member that suppresses movement of oil in the front-rear direction is provided at a communication portion between the sub tank and the oil pan.

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