JP2009197769A - Internal combustion engine - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To reduce the number of components and manufacturing cost by commonly using a component for a plate for blocking an oil pocket side part and a plate for holding a push plug of an oil lock type cam chain tensioner in an internal combustion engine provided with a camshaft driving a valve system in a cylinder head, a crank case supporting a crankshaft via a rolling bearing, a cam chain transferring power of the crankshaft to the camshaft, and an oil lock type cam chain lifter including an oil pocket. <P>SOLUTION: The crankcase is provided with a guide cylinder as one unit, the guide cylinder is provided with the oil pocket at a top part thereof, the oil pocket is formed by closing an opening in a die parting direction of an oil pocket recessed part provided in casting of the crankcase by an oil pocket plate. The oil pocket plate is commonly used as the plate for holding the push plug pressing the rolling bearing supporting the crankshaft. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to an internal combustion engine that includes an oil lock cam chain lifter and a push plug for absorbing backlash of a rolling bearing of a crankshaft.

  In Patent Document 1, in order to ensure the hydraulic pressure of the push rod of the cam chain tensioner, an oil sump is formed by closing an opening at one side of the recess provided in the right crankcase with a plate, and the push rod of the cam chain tensioner The structure which supplies oil in is shown. In this configuration, a push plug that absorbs the play of the rolling bearing of the crankshaft is not provided.

  On the other hand, Patent Document 2 includes a push plug that absorbs backlash of the rolling bearing of the crankshaft, but the cam chain lifter is provided at a position apart from that of Patent Document 1.

JP 2002-309960 A Japanese Patent Application Laid-Open No. 2003-083080

  If the cam chain lifter and the push plug are separately made and assembled, the number of parts and the number of assembling steps increase. The present invention includes an oil lock cam chain tensioner having an oil sump, a push plug that absorbs backlash of a rolling bearing of the crankshaft, and an oil sump side blockage plate and push plug retainer of the oil lock cam chain tensioner. The plate is also used as a single component to reduce the number of components and the manufacturing cost.

The present invention solves the above problems, and the invention according to claim 1
A camshaft for driving the valve train in the cylinder head;
A crankcase that rotatably supports the crankshaft via a rolling bearing;
A cam chain that transmits the power of the crankshaft to the camshaft;
An oil-lock cam chain lifter that applies a tension to the cam chain by projecting a push rod slidably supported by a guide cylinder having an oil reservoir at the top;
In an internal combustion engine with
The crankcase is integrally provided with the guide cylinder,
The guide tube has an oil sump at the top,
The oil sump is formed by closing the opening in the mold release direction side of the oil sump recess provided at the time of casting the crankcase with an oil sump plate,
The oil reservoir plate relates to an internal combustion engine that also serves as a push plug pressing plate for pressing a rolling bearing that supports a crankshaft.

The invention according to claim 2 is the internal combustion engine according to claim 1,
The cylinder is arranged in a posture that is largely forward tilted to a substantially horizontal state,
The push plug is disposed below the crankshaft, and the oil sump is disposed near the rear of the push plug.

The invention according to claim 3 is the internal combustion engine according to claim 1 or 2,
The oil sump plate is fastened and fixed to the crankcase, and the fastening portion is disposed between a portion that closes the side opening of the oil sump provided in the crankcase and a portion that holds the push plug. It is characterized by that.

According to a fourth aspect of the present invention, there is provided the internal combustion engine according to any one of the first to third aspects,
The crankcase is characterized in that the side opening surface of the oil reservoir recess and the plate fastening surface of the oil reservoir recess are provided in the same plane.

The invention according to claim 5 is the internal combustion engine according to claim 4,
It is characterized in that the surface on which the end of the oil reservoir plate side of the coil spring that urges the push plug toward the rolling bearing side is set to be the same surface as the fastening surface of the oil reservoir plate of the crankcase. is there.

The invention according to claim 6 is the internal combustion engine according to claim 3,
The oil reservoir plate has a shape that is long in the horizontal direction, and the push plug pressing portion of the oil reservoir plate is provided above a portion that closes the oil reservoir side opening.

In the invention of claim 1,
Since the oil reservoir of the oil lock cam chain lifter can be formed simply by closing the concave portion provided integrally with the crankcase with a plate, the number of parts and the manufacturing cost can be reduced.
When installing a push plug to prevent backlash of the rolling bearing that supports the crankshaft, the push plug retainer plate is also used as an oil reservoir plate, so an increase in the number of parts can be avoided, and the parts and assembly costs are reduced. Can be reduced.

In the invention of claim 2,
Since the push plug is arranged below the crankshaft of the cylinder arranged almost horizontally, the position is shifted from the direction of the maximum pressure (explosion pressure) received by the piston, so the maximum pressure is not received and the push The plug can be miniaturized and the degree of freedom in material selection is improved.
In addition, the oil sump is effective because it is disposed near the sprocket at a position where oil scattered from the sprocket and the chain is likely to enter.
Furthermore, the oil sump plate can be reduced in size.

In the invention of claim 3,
Since the substantially central portion of the oil reservoir plate can be fastened and fixed, it can be stably fixed with good balance.

In the invention of claim 4,
Since the oil reservoir plate can be a flat plate, sheet metal processing can be omitted, dimensional management is not required, and the oil reservoir can be sealed.

In the invention of claim 5,
The oil sump plate can be formed of a flat plate.

In the invention of claim 6,
Since the oil applied to the push plug pressing portion of the oil reservoir plate easily flows into the oil reservoir through the oil reservoir plate, it is easy to secure the amount of oil supplied to the cam chain lifter.

  FIG. 1 is a side view of a motorcycle 1 according to an embodiment of the present invention. In the motorcycle 1, the vehicle body frame 2 includes a head pipe 3 at the front of the vehicle body, a single main frame 4 that extends obliquely downward from the head pipe 3 and a rear portion of the main frame 4. A pair of left and right pivot brackets 5 and 5 that are fixedly extended downward and the rear part of the main frame 4 are extended obliquely upward from the front of the fixed position of the pivot brackets 5 and 5 to the rear and bent in the middle. And a pair of left and right seat rails 6, 6 reaching the rear end, and middle frames 7, 7 interposed between the central portion of the seat rails 6, 6 and the pivot brackets 5, 5. Has been.

  A storage box 8 or the like is installed between a pair of left and right seat rails 6 and 6 of the vehicle body frame 2, and a riding seat 9 covers the storage box 8 and the like so as to be freely opened and closed. A handle 10 pivotally supported by the head pipe 3 is provided above the front of the vehicle body, a front fork 11 extends downward, and a front wheel 12 is pivotally supported at the lower end thereof. A rear fork 14 is pivotally supported by pivot shafts 13 at pivot brackets 5 and 5 at the center of the vehicle body and extends rearward. A rear wheel 15 is pivotally supported at a rear end portion of the rear fork 14. Rear cushions 16, 16 are interposed between the rear portion of the rear fork 14 that swings up and down about the pivot shaft 13 and the seat rails 6, 6.

  A power unit 17 is suspended below the main frame 4 and in front of the pivot brackets 5 and 5. The upper portion of the power unit 17 is suspended from a support bracket 18 suspended from the center of the main frame 4 via a support shaft 19. The rear portion of the power unit 17 is fixed to the pivot brackets 5 and 5 at two locations via support shafts 20 and 21. With these supports, the power unit 17 is fixed to the vehicle body frame 2 below the main frame 4 and in front of the pivot brackets 5 and 5. The body frame 2 is covered with a synthetic resin cover member 22 divided into various parts.

  The power unit 17 includes a front internal combustion engine 25 and a rear power transmission device 26. The power transmission device 26 mainly comprises a V-belt continuously variable transmission and a gear reduction mechanism. The internal combustion engine 25 is a single-cylinder four-cycle internal combustion engine, and protrudes from the front surface of the crankcase 27 with a cylinder block 28, a cylinder head 29, and a cylinder head cover 30 being stacked so as to be largely inclined forward to a substantially horizontal state. Yes. A throttle body 32 is connected to an intake pipe 31 extending above the cylinder head 29. Further, the exhaust pipe 33 that extends below the cylinder head 29 and bends backward is extended rearward and connected to the muffler 34 on the right side of the rear wheel 15. A power transmission chain 38 is bridged between a power transmission chain drive sprocket 36 fitted to the output shaft 35 of the power unit 17 and a power transmission chain driven sprocket 37 provided integrally with the rear wheel 15. The rotational driving force is transmitted to the rear wheel 15.

  FIG. 2 is a side view of the main part of the internal combustion engine 25. The crankcase 27 is a left-right split type, and the left crankcase 27L is shown in the figure. A cylinder block 28 protrudes in front of the crankcase 27 in a substantially horizontal direction, and a cylinder head 29 and a cylinder head cover 30 are connected to the front thereof, and these are integrally coupled to the crankcase 27. A crankshaft 40 oriented in the vehicle width direction is rotatably supported by left and right crankcases 27L and 27R via left and right rolling bearings 41L and 41R. In the figure, a left rolling bearing 41L is shown.

  A continuous cam chain chamber 42 is formed on the left side of the left crankcase 27L, the cylinder block 28, the cylinder head 29, and the cylinder head cover 30. A drive sprocket 43 is fitted to the protruding portion of the crankshaft 40 into the cam chain chamber 42. The camshaft 44 of the valve mechanism provided at the boundary between the cylinder head 29 and the cylinder head cover 30 protrudes into the cam chain chamber 42, and a driven sprocket 45 is fitted into the protruding portion. An endless cam chain 46 is suspended between the drive sprocket 43 of the crankshaft 40 and the driven sprocket 45.

  The left crankcase 27L is provided with a cam chain lifter device 47, which applies appropriate tension to the cam chain 46. A tensioner arm 48 of a cam chain lifter device 47 is pivotally supported by a support shaft 49 above the crankshaft 40 of the wall portion 27a of the left crankcase 27L. The tensioner arm 48 extends before and after the support shaft 49. The rear end of the rear arm 48r extending obliquely downward and rearward of the tensioner arm 48 is in contact with the top of the push rod 52 of the oil lock type cam chain lifter 51 of the cam chain lifter device 47 and is urged upward. A tension sprocket 50 is pivotally supported at the front end of the front arm 48f extending forward, and meshes with the cam chain 46 so that the cam chain 46 fed from the drive sprocket 43 is pressed from above.

  A guide wheel 54 is rotatably provided on a support shaft 53 protruding from the cylinder block 28 into the cam chain chamber 42, and engages with the upper and lower cam chains 46 to prevent the cam chain 46 from shaking. Further, an auxiliary sprocket 56 is rotatably provided on a support shaft 55 projecting into the cam chain chamber 42 from the lower front side of the crankshaft 40 of the left crankcase 27L, and the cam chain 46 on the side pulled into the drive sprocket 43 is moved upward. Is pushed up.

  3 is a cross-sectional view taken along the line III-III in FIG. The crankcase 27 includes a left crankcase 27L and a right crankcase 27R, and the crankshaft 40 is rotatably supported by left and right rolling bearings 41L and 41R. In the figure, a drive sprocket 43, a tension sprocket 50, a tensioner arm 48, a support shaft 49 of the tensioner arm 48, and an oil lock cam chain lifter 51 are shown.

  FIG. 4 is an external view of the oil lock type cam chain lifter 51 shown in FIGS. The oil-lock cam chain lifter 51 includes a guide cylinder 63 and a push rod 52 that is slidably inserted into the guide cylinder 63. The guide cylinder 63 is drilled through the lower portion of the peripheral wall portion 27b of the cam chain chamber 42 of the left crankcase 27 obliquely, and the lower end portion protruding outside is closed by a sealing bolt 66 being screwed. .

  An oil sump 60 is formed at the upper part of the guide tube 63. The oil reservoir 60 includes an oil reservoir recess 61 and an oil reservoir plate 62 that closes the side opening surface 61a of the oil reservoir recess 61. Since the oil reservoir recess 61 is open at the side of the left crankcase 27 on the side in the mold release direction, the opening surface is closed by the oil reservoir plate 62 so that the oil is stored. FIG. 4 shows a state where the oil reservoir plate 62 is removed, and the removed oil reservoir plate 62 is indicated by a two-dot chain line.

  In FIG. 4, the plate fastening surface 61b of the oil reservoir recess 61 is shown by cross hatching. This surface is a flat surface, and an oil reservoir plate 62 made of a flat plate is brought into contact therewith. The oil reservoir plate 62 is fastened to the screw hole 67 provided in the fastening surface 61b by a bolt 68 (FIG. 2). Since the side opening surface 61a of the oil reservoir recess 61 and the plate fastening surface 61b of the oil reservoir recess 61 are provided on the same plane, the oil reservoir plate 62 can be manufactured with a flat plate, and sheet metal processing can be performed. This eliminates the need for dimensional control and ensures the tightness of the oil sump 60.

  FIG. 5 is a sectional view of the oil lock cam chain lifter 51. In FIG. 5, a guide cylinder 63 is formed by being drilled in the left crankcase 27L, and an oil reservoir recess 61 is formed in the upper part when the left crankcase 27L is cast. A push rod 52 is slidably inserted into a circular hole 63a of the guide cylinder 63. The circular hole 63a opens in the oil reservoir recess 61. The push rod 52 is exposed from the bottom surface of the oil reservoir 60 to the outside.

  6 is a cross-sectional view taken along the line VI-VI in FIG. In the figure, a circular hole 63a of the guide cylinder 63, an oil reservoir recess 61, an oil reservoir plate 62, and an oil reservoir plate mounting bolt 68 are shown.

  In FIG. 5, the push rod 52 has a cylindrical shape, a plurality of communication holes 69 are perforated at the center, a rod head 70 is fitted at the upper end, and a plurality of ventilation holes 71 are formed in the vicinity of the rod head 70. ing. A valve seat 72 and a valve cap 73 are provided at the lower end opening of the push rod 52, and a ball 74 is loosely fitted therebetween. The valve seat 72 and the valve cap 73 are formed with openings 72a and 73a each having a diameter smaller than that of the ball, and the ball 74 constitutes a check valve that opens and closes the opening 72a of the valve seat 72. Since the openings 72a and 73a are normally open, the upper and lower spaces communicate with each other.

  A coil spring 64 is interposed between a sealing bolt 66 screwed to the lower end of the guide cylinder 63 and a valve cap 73 at the lower end of the push rod 52, and urges the push rod 52 upward. A space below the valve seat 72 and fitted with the coil spring 64 constitutes a hydraulic chamber 76. The push rod 52 is inserted into the guide cylinder 63 approximately half, and one of the plurality of communication holes 69 at the center of the push rod is set so as to be positioned in the oil sump 60, and flows into the oil sump 60. Since oil flows into the push rod 52 through the communication hole 69, the lower half of the push rod 52 and the hydraulic chamber 76 are filled with oil. Although the oil level in the cam chain chamber 42 is lower than the position of the oil reservoir 60, the oil scattered by the rotation of the cam chain 46 is collected in the oil reservoir 60 opened at the upper end of the guide cylinder 63. Thus, the lower half of the push rod 52 and the hydraulic chamber 76 are constantly replenished with oil.

  In FIG. 2, the cam chain lifter device 47 urges the push rod 52 upward by the coil spring 64 of the oil lock type cam chain lifter 51, swings the tensioner arm 48 about the support shaft, and causes the tension sprocket 50 to move. The cam chain 46 is pressed to moderately tension the cam chain 46. Even when the cam chain 46 extends, the push rod 52 moves forward by the urging force of the coil spring 64, so that the cam chain 46 can be tensioned.

  In FIG. 5, when the cam chain 46 is excessively tensioned and the push rod 52 receives a pressing force from the cam chain 46 and moves backward against the urging force of the coil spring 64, the valve seat 72 is moved together with the push rod 52. The opening 72a of the valve seat 72 that communicates in the normal state is closed by a ball and the oil is confined in the hydraulic chamber 76, so that the push rod 52 is prevented from retreating more than necessary.

  FIG. 3 shows a cross section of the crankcase 27. The crankcase 27 has a left / right halved configuration including a left crankcase 27 and a right crankcase 27. In the crankshaft 40, a left crankshaft 40L and a right crankshaft 40R, which are separately formed on the left and right sides, are coupled together by a crankpin 40P. The crankshaft 40 is rotatably supported by the crankcase 27 via left and right rolling bearings 41L and 41R. The outer rings 41Lx and 41Rx of the rolling bearings 41L and 41R are in contact with steel bushes 58L and 58R cast during crankcase casting.

  After fitting the left and right crankshafts 40 into the left and right crankcases 27L and 27R as described above, the left and right crankcases 27L and 27R are integrated into the crankcase 27 for the convenience of the assembly process. Of the two inner and outer surfaces of the two rolling bearings 41L and 41R used to support 40, three surfaces are press-fitted, while the remaining one surface is gently inserted. In this embodiment, the contact surfaces A, B, and C are press-fit surfaces, but the contact surface D is a gentle insertion surface.

  In FIG. 6, the contact surface D between the left steel bush 58L integrated with the wall portion 27a of the left crankcase 27L and the outer ring 41Lx of the left rolling bearing 41L is gently inserted. There is a possibility that rattling in the direction of the crankshaft 40 may occur in the gently rolling left rolling bearing 41L. In order to prevent this rattling, a push plug 77 that pushes the left rolling bearing 41L is provided in the left crankcase 27L. The push plug 77 is pushed by a push plug holding portion 62a extending to the opposite side of the oil reservoir 60 of the oil reservoir plate 62 through a coil spring 78 mounted therein. The push plug 77 presses the shoulder of the outer ring 41Lx of the left rolling bearing 41L with the inclined surface at the tip thereof to prevent rattling in the left-right direction.

  As shown in FIG. 5, the push plug pressing portion 62 a is provided above a portion that covers the side opening surface 61 a of the oil reservoir recess 61. Therefore, the oil applied to the push plug holding portion 62a of the oil reservoir plate 62 is easy to flow into the oil reservoir 60 through the oil reservoir plate 62, so that it is easy to secure the oil supply amount to the oil lock type cam chain lifter 51. ing.

  In FIG. 6, the fastening portion 62b of the oil reservoir plate 62 is disposed between the portion 62c that closes the side opening of the oil reservoir recess 61 and the push plug holding portion 62a, and fastens the substantially central portion of the oil reservoir plate 62. Since the oil reservoir plate 62 can be fixed, the oil reservoir plate 62 is stably fixed in a balanced manner. Further, since the surface on which the end portion 78a of the coil spring 78 on the side in contact with the oil reservoir plate 62 is located is set to be flush with the plate fastening surface 61b of the oil reservoir recess 61 of the crankcase 27, the oil reservoir plate 62 Can be formed of a flat plate including the push plug holding portion 62a.

As described in detail above, the following effects are brought about in the embodiment.
(1) The oil reservoir 60 of the oil lock cam chain lifter 51 can be formed by simply closing the oil reservoir recess 61 provided integrally with the crankcase 27 with the oil reservoir plate 62, thereby reducing the number of parts and manufacturing costs. Can be reduced. In addition, when the push plug 77 for preventing the play of the rolling bearing 41 that supports the crankshaft 40 is provided, the push plate of the push plug 77 is also used as the oil reservoir plate 62, so an increase in the number of parts can be avoided. , Parts cost and assembly cost can be reduced.
(2) Since the push plug is arranged below the crankshaft of the cylinder arranged substantially horizontally, the position is shifted from the direction of the maximum pressure (explosion pressure) received by the piston, so the maximum pressure is not received. As a result, the push plug can be reduced in size, and the degree of freedom in material selection is improved.
In addition, the oil sump is effective because it is disposed near the sprocket at a position where oil scattered from the sprocket and the chain is likely to enter.
Furthermore, the oil sump plate can be reduced in size.
(3) Since the fastening portion 62b of the oil reservoir plate 62 is provided between the push plug pressing portion 62a and the portion 62c that closes the side opening of the oil reservoir recess 61, the substantially central portion of the oil reservoir plate 62 is fastened. It can be fixed, and can be fixed stably with good balance.
(4) Since the side opening surface 61a of the oil reservoir recess 61 and the plate fastening surface 61b of the oil reservoir recess 61 are provided in the same plane, the oil reservoir plate 62 can be made of a flat plate, and sheet metal processing is omitted. Therefore, dimensional management is not required, and the oil reservoir 60 can be secured.
(5) The surface of the coil spring 78 on which the oil reservoir plate 62 end is located is the same as the plate fastening surface 61b of the oil reservoir recess 61 of the left crankcase 27. The reservoir plate 62 can be formed of a flat plate.
(6) Since the push plug holding portion 62a of the oil reservoir plate 62 is provided above the portion 62c that closes the side opening of the oil reservoir recess 61, the oil applied to the push plug holding portion 62a of the oil reservoir plate 62 is reduced. Since the oil can easily flow into the oil reservoir 60 through the oil reservoir plate 62, the amount of oil supplied to the oil lock cam chain lifter 51 can be easily secured.

1 is a side view of a motorcycle 1 according to an embodiment of the present invention. 3 is a side view of a main part of an internal combustion engine 25. FIG. It is III-III sectional drawing of FIG. FIG. 3 is an external view of an oil lock cam chain lifter 51 of FIG. 2. 3 is a cross-sectional view of an oil lock cam chain lifter 51. FIG. It is VI-VI sectional drawing of FIG.

Explanation of symbols

  27L ... Left crankcase, 27R ... Right crankcase, 28 ... Cylinder block, 29 ... Cylinder head, 30 ... Cylinder head cover, 40 ... Crank shaft, 41 ... Rolling bearing, 41L ... Left rolling bearing, 41R ... Right rolling bearing, 41x ... outer ring of rolling bearing, 42 ... cam chain chamber, 43 ... drive sprocket, 44 ... camshaft, 45 ... driven sprocket, 46 ... cam chain, 47 ... cam chain lifter device, 48 ... tensioner arm 50 ... tension sprocket, 51 ... Oil lock cam chain lifter, 52 ... Push rod, 58L ... Left steel bush, 58R ... Right steel bush, 60 ... Oil sump, 61 ... Oil sump recess, 61a ... Side opening surface of oil sump recess, 61b ... Plate fastening surface of oil sump recess, 62 ... Oil sump plate, 62a ... Push plug pressing part, 62b ... Fastening part, 63 ... Guide tube, 63a ... Guy Circular hole of cylinder, 64 ... coil spring, 65 ... hydraulic device, 68 ... bolt, 69 ... communication hole, 71 ... vent hole, 72 ... valve seat, 73 ... valve cap, 74 ... ball, 76 ... hydraulic chamber, 77 ... Push plug, 78 ... Coil spring.

Claims (6)

A camshaft for driving the valve train in the cylinder head;
A crankcase that rotatably supports the crankshaft via a rolling bearing;
A cam chain that transmits the power of the crankshaft to the camshaft;
An oil-lock cam chain lifter that applies a tension to the cam chain by projecting a push rod slidably supported by a guide cylinder having an oil reservoir at the top;
In an internal combustion engine with
The crankcase is integrally provided with the guide cylinder,
The guide tube has an oil sump at the top,
The oil sump is formed by closing the opening in the mold release direction side of the oil sump recess provided at the time of casting the crankcase with an oil sump plate,
2. The internal combustion engine according to claim 1, wherein the oil reservoir plate also serves as a pressing plate for a push plug that presses a rolling bearing that supports the crankshaft. The cylinder is arranged in a posture that is largely forward tilted to a substantially horizontal state,
2. The internal combustion engine according to claim 1, wherein the push plug is disposed below the crankshaft, and the oil sump is disposed near the rear of the push plug.   The oil sump plate is fastened and fixed to the crankcase, and the fastening portion is disposed between a portion that closes the side opening of the oil sump provided in the crankcase and a portion that holds the push plug. The internal combustion engine according to claim 1 or 2, wherein   The internal combustion engine according to any one of claims 1 to 3, wherein the oil reservoir side opening surface and the oil reservoir plate fastening surface are provided in the same plane in the crankcase.   5. The position of the end portion of the oil reservoir plate side of the coil spring that urges the push plug toward the rolling bearing side is set to coincide with the position of the fastening surface of the oil reservoir plate of the crankcase. Internal combustion engine.   The internal combustion engine according to claim 3, wherein the oil reservoir plate has a shape that is long in the horizontal direction, and the push plug pressing portion of the oil reservoir plate is provided above a portion that closes the oil reservoir side opening.

Images