The present invention claims priority under 35 USC 119 based on Japanese patent application No. 2008-094134, filed on Mar. 31, 2008. The entire subject matter of this priority document, including specification claims and drawings, is incorporated by reference herein.
1. Field of the Invention
The present invention relates to a crankcase structure for an over head camshaft (OHC) type of internal combustion engine. More particularly, the present invention relates to a crankcase structure having a loop guide locking (engaging) recess and a loop-retaining member integrally formed on a crankcase of the OHC internal combustion engine.
2. Description of the Background Art
There is a known OHC internal combustion engine in which a loop guide engaging recess is formed at an outer periphery of a crankshaft-penetrated opening in a crankcase of the internal combustion engine, the crankshaft-penetrated opening and an opening in the vicinity of the loop guide engaging recess are each formed in a tumbler-like shape deformed from a circular shape, and a loop-retaining member for preventing an endless loop member from dropping from an intake and exhaust valve-driving sprocket at the times of maintenance, inspection or repair is formed in a plate provided as a body separate from the crankcase.
An example of such known OHC internal combustion engine in which a loop guide engaging recess is formed at the outer periphery of a crankshaft-penetrated opening in a crankcase of the internal combustion engine is disclosed in the Japanese Patent Laid-Open No. 2006-105132.
In the OHC internal combustion engine, as disclosed in the Japanese Patent Laid-Open No. 2006-105132, the plate as a body separate from the crankcase as well as the loop-retaining member is needed separately, whereby the number of component parts is increased.
In addition, an inner peripheral surface of an opening formed in a crankcase overlaps partially with a hollow cylindrical surface having a smaller radius, while the inner peripheral surface of the opening on the side remote from the crankshaft overlaps with a hollow cylindrical surface having a larger radius, to be in a tumbler-like shape. Therefore, stress concentration occurs in a constricted portion (a waist portion). In order to avoid this problem, the crankcase wall is made thicker, leading necessarily to undesirable increase in weight.
The present invention has been made to overcome such drawbacks. Accordingly, it is one of the objects of the present invention to provide a crankcase structure for an OHC internal combustion engine which has a small number of component parts, is simple in structure, and is light in weight.
In order to achieve the above objects, the present invention according to a first aspect thereof provides a crankcase structure for an OHC internal combustion engine having an endless chain by which a loop drive sprocket integral with a crankshaft is connected with an intake and exhaust valve-driving sprocket for opening and closing intake and exhaust valves; a crankcase having a bearing member for rotatably supporting the crankshaft, the crankcase being provided in its outer wall with an opening through which the crankshaft is passed, near the extension of the center line of the crankshaft, an outer wall surface of the crankcase being integrally provided with a loop guide-engaging recess by which a base end portion of a loop guide for guiding the endless chain is engagedly supported; and a loop-retaining member located on the lower side of the loop drive sprocket and operable to prevent the timing endless chain from dropping.
The present invention according to the first aspect is characterized in that, when viewed in side view, an inner peripheral surface of an opening of the crankcase is formed as a spiral surface such that a diameter thereof increases along the direction reverse to the rotational direction of the crankshaft; the spiral surface having a starting end between a vertical plane passing through the center of the crankshaft and directed downwards, and a horizontal plane passing through the center of the crankshaft and being on the side of the rotational direction of the crankshaft; a maximum-radial end of the spiral surface being terminated by a surface which intersects a surface passing through the center of the crankshaft and through the starting end; the loop-retaining member is integrally provided projectingly outwards from the outer wall surface of the crankcase along the circumferential direction of the loop drive sprocket; and the loop guide-engaging recess is disposed on a plane which is substantially orthogonal to the extension of a cylinder center line and which passes through the center line of the crankshaft.
The present invention according a second aspect, in addition to the first aspect, is characterized in that a portion of circumferential crankcase outer wall ranging from the loop guide-engaging recess to the loop-retaining member in the surroundings of the opening of the crankcase is thicker than the other circumferential portions of crankcase outer wall.
The present invention according to third aspect, in addition to the second aspect, is characterized in that the OHC internal combustion engine is mounted on a vehicle, a cylinder of the internal combustion engine is inclined toward the vehicle front side, and the loop guide-engaging recess is disposed on the front side relative to the crankshaft.
An ordinary internal combustion engine is rarely operated in the condition where the cylinder(s) is directed down or skewly down. In the present invention according to the first aspect therefore, the extremely highly stiff loop guide-engaging recess disposed at a position on a surface passing through the center of the crankshaft and substantially orthogonal to the cylinder center line is not adjacent to that minimum-radius starting end of the opening surface of the crankcase at which stress concentration is liable to occur. Therefore, such configuration makes it possible to avoid stress concentration in the vicinity of the loop guide-engaging recess which is extremely high in stiffness.
In addition, the loop-retaining member is located in the vicinity of a position just under the crankshaft, and is adjacent to the small-radius starting end of the inner peripheral surface of the opening of the crankcase. Therefore, the loop-retaining member for preventing the dropping of the timing endless chain wrapped around the loop drive sprocket fitted over the crankshaft protruding from the opening can be brought close to the loop drive sprocket. Accordingly, the dropping of the chain can be prevented securely.
Further, of the inner peripheral surface of the opening of the crankcase, the portion ranging from the loop guide-engaging recess to the terminal end part of the inner peripheral surface of the opening is enlarged in diameter. Therefore, the crankcase can be made lighter in weight.
In the present invention according to the second aspect, the extremely highly stiff loop guide-engaging recess which is often disposed at a position on a surface passing through the center of the crankshaft where a high stress is generated by the pressure of the combustion gas in the internal combustion engine and being substantially orthogonal to the cylinder center line and on which a high load is exerted and the loop-retaining member which has high strength and stiffness are connected to each other through a thick wall. Therefore, stress is dispersed, and stress concentration is inhibited more assuredly.
In the present invention according to the third aspect, the cylinder(s) is inclined in a forward direction. As a result, the loop guide-engaging recess and the loop-retaining member can be set further closer to each other, whereby the effect obtained according to the second aspect of the present invention, as discussed above, can be augmented.
For a more complete understanding of the present invention, the reader is referred to the following detailed description section, which should be read in conjunction with the accompanying drawings. Throughout the following detailed description and in the drawings, like numbers refer to like parts.
An embodiment of the present invention will now be described, with reference to the drawings. Throughout this description, relative terms like “upper”, “lower”, “above”, “below”, “front”, “back”, and the like are used in reference to a vantage point of an operator of the vehicle, seated on the driver's seat and facing forward. It should be understood that these terms are used for purposes of illustration, and are not intended to limit the invention.
Now, an illustrative embodiment of the present invention is described below with reference to
An OHC internal combustion engine 1 shown in
The OHC internal combustion engine 1 further includes a cylinder block 4, a cylinder head 5, and a cylinder head cover 6 which are integrally and sequentially attached on the upper side of the left-right split type crankcase 2. The cylinder block 4, the cylinder head 5 and the cylinder head cover 6 are mounted on the motorcycle in a manner of being slightly inclined toward a vehicle front side from an upright state.
As shown in
As shown in
The inner peripheral surface of the spiral opening 14 has a starting end (small-radius portion 14X) between a vertical plane LV and a horizontal plane LH. The vertical plane LV passes through the crankshaft center C, and is directed downwards from the crankshaft center C. The horizontal plane LH passes through the crankshaft center C, and is on the side of the rotational direction of the crankshaft.
The spiral opening 14 is formed in a spiral shape such that the radius is increased from the starting end 14X along a direction reverse to a rotational direction of the crankshaft 7. The inner peripheral surface of the spiral opening 14 is shaped such that the maximum radius end thereof is disposed, and the spiral is terminated, on a surface intersecting an end face 14a passing through the crankshaft center C and through the starting end 14X.
The end face 14a connecting a maximum-radius portion 14Y and the small-radius portion 14X of the spiral opening 14 to each other is located at a position on a vehicle rear lower side of the crankshaft center C.
A reinforced portion 15 (shown by cross-hatched section in
Thus, the crankcase 2 is reinforced by the reinforced portion 15 so that it can sufficiently endure the force acting downwards from the crankshaft 7 during combustion in the combustion chamber. In addition, the thinning of the other circumferential potions 16 of the crankcase side wall of the crankcase 2 makes it possible to render the crankcase 2 being lighter in weight.
In
d1<d2≦d3<d4
As shown in
As shown in
Further, at a position on the lower side of the loop drive sprocket 8, a loop-retaining member 24 for preventing the loop drive sprocket 8 from dropping is integrally provided to project rightwardly from the outer wall surface of the right crankcase 2. As shown in
A substantially central portion of the loop-retaining member 24 in the arc direction is located at a boundary portion between the spiral opening 14 and the reinforced portion 15. Adjacent to the reinforced portion 15, the outer peripheral surface of the loop-retaining member 24 is provided with two reinforcement ribs 25 projecting in a radial direction from the crankshaft center C, at a predetermined interval along the circumferential direction.
As shown in
The crankcase 2 is provided with bearing members 29, 30 and the like for turnably supporting a main shaft and a counter shaft of a transmission (not shown) disposed on rear side relative to a crank chamber located just under the cylinder block 4.
The embodiment shown in
In the OHC internal combustion engine 1 shown in the
Accordingly, a stress in the direction for tearing up the crankcase 2 into upper and lower portions is generated at a portion where the plane L2 passing through the crankshaft center C and being orthogonal to the cylinder center line L1 intersects the inner peripheral surface of the spiral opening 14 of the crankcase 2 (a portion on the opposite side of the crankshaft center C from the portion where the loop guide engaging recess 22 is located).
The front-side portion of the inner peripheral surface of the spiral opening 14 of the crankcase 2 at which the loop guide engaging recess 22 is located is spaced by about 135° in terms of center angle from the small-radius portion 14X of the spiral opening 14. Therefore, the front-side portion has a large radius of curvature, the above-mentioned tearing stress in this part is not so high, and stress concentration there is obviated because of the presence of the loop guide engaging recess 22 which is high in stiffness.
Further, the rear-side portion of the inner peripheral surface of the spiral opening 14 of the crankcase 2 which is on the opposite side of the crankshaft center C from the front-side portion of the inner peripheral surface of the spiral opening 14 of the crankcase 2 has an enlarged radius. This ensures that the vertical tearing stress in the rear-side portion is low, so that the crankcase 2 can endure the vertical tearing stress even if its wall thickness is small.
Further, the loop-retaining member 24 is disposed adjacent to the small-radius portion 14X of the spiral opening 14 of the crankcase 2. As shown in
Furthermore, since the loop guide engaging recess 22 on which a high load is exerted and the loop-retaining member 24 which is high in stiffness are connected to each other through the reinforced portion 15 having a large wall thickness, a portion of the load on the loop guide engaging recess 22 can be borne also by the loop-retaining member 24 through the circumferential reinforced portion 15 of the case side wall. As a result, stress concentration in the vicinity of the loop guide engaging recess 22 can be obviated more assuredly.
Moreover, since the loop-retaining member 24 is reinforced with the two reinforcement ribs 25 projecting in the radial direction from the crankshaft 7, the loop-retaining member 24 is firmly connected to the reinforced portion 15 through the reinforced portion 15.
In addition, the case circumferential portion 16 other than the reinforced portion 15 between the loop guide engaging recess 22 and the loop-retaining member 24 is small in wall thickness, and the radius of the spiral opening 14 at this part is large. This makes it possible to render the crankcase 2 lighter in weight.
Further, the loop guide engaging recess 22 and the loop-retaining member 24 can be formed to be integral with the crankcase 2 by casting. Therefore, it is possible to reduce the number of component parts, to reduce the number of working steps, and to achieve a large reduction in cost.
Furthermore, although stress would easily be concentrated on a stepped portion between the reinforced portion 15 having a large wall thickness and the circumferential portion 16 having a small wall thickness, such stress concentration is inhibited, since the loop-retaining member 24 is integrally provided in the area ranging from the reinforced portion 15 to the circumferential portion 16 and the stepped portion between the reinforced portion 15 and the circumferential portion 16 is reinforced by the loop-retaining member 24.
Although the present invention has been described herein with respect to a number of specific illustrative embodiments, the foregoing description is intended to illustrate, rather than to limit the invention. Those skilled in the art will realize that many modifications of the illustrative embodiment could be made which would be operable. All such modifications, which are within the scope of the claims, are intended to be within the scope and spirit of the present invention.
Number | Date | Country | Kind |
---|---|---|---|
2008-094134 | Mar 2008 | JP | national |