JP5400827B2 - Engine chain case structure - Google Patents

Description

  The present invention relates to an engine chain case structure in which a timing chain spanned between a crank sprocket provided on a crankshaft and a cam sprocket provided on a camshaft is covered with a chain case.

  On the inner surface of the chain case that covers the engine timing chain, two main ribs that expand in a funnel shape from the crankshaft side to the camshaft side, and a plurality of ribs that intersect the main ribs are projected, By making the height of the plurality of ribs lower than the height of the main ribs at a position between the two main ribs, the oil adhering to the inner surface of the chain case passes through the oil guide passage formed between the two main ribs. Japanese Patent Application Laid-Open No. 2004-151867 discloses that the oil is collected on the crankshaft side to prevent aeration of the oil pump and lubricate the meshing portion of the crank sprocket and the timing chain.

Japanese Patent No. 311845

  By the way, since the chain case of the engine is a thin plate-like member, there is a possibility that a membrane surface vibration is generated by the operation of the engine and causes noise. Providing a plurality of ribs extending in two different directions and intersecting each other as described in Patent Document 1 is effective in suppressing the vibration of the film surface of the chain case, but sufficient vibration suppression In order to obtain the effect, it is necessary to increase the number of ribs, which not only causes an increase in weight, but also has a problem that the laterally extending ribs obstruct the oil flow toward the crankshaft and avoid this Therefore, if the height of the rib extending in the lateral direction is lowered, there arises a problem that the vibration suppressing effect is reduced.

  The present invention has been made in view of the above-mentioned circumstances, and achieves both the effect of preventing chain surface film vibration and the effect of lubricating the crank sprocket and the timing chain while minimizing the increase in the weight of the chain case. With the goal.

In order to achieve the above object, according to the first aspect of the present invention, a timing chain that is spanned between a crank sprocket provided on the crankshaft and a cam sprocket provided on the camshaft is provided with a chain case. in the chain case structure for an engine cover, the said chain case, the extending toward the crank sprocket side to the cam sprocket side bulging out part and you bulge on the timing chain side in the direction along the axis of said crankshaft The bulging portion is formed in a substantially semi-cylindrical shape so that a cross-sectional shape perpendicular to the longitudinal direction of the bulging portion is substantially semicircular, and the bulging portion is in the axial direction of the crankshaft. look, and the evagination portion lower end the class of lies positions bulging portion is surrounded by the trajectory of the timing chain So as to be located in the vicinity of the outer periphery of the click sprocket, chain case structure for an engine, characterized in that the arrangement is proposed.

  According to a second aspect of the present invention, in addition to the configuration of the first aspect, the both side edges of the bulging portion are arranged along the locus of the timing chain. A case structure is proposed.

  According to the invention described in claim 3, in addition to the structure of claim 2, the width between both side edges of the bulging portion gradually decreases from the cam sprocket side toward the crank sprocket side, A chain case structure for an engine is proposed in which the distance between the side edge of the timing chain and the tight side of the timing chain is smaller than the distance between the other side edge and the loose side of the timing chain.

According to the invention described in claim 4, in addition to the configuration of any one of claims 1 to 3, the bulging portion on the surface side of the chain case is a length of the bulging portion. A groove-shaped recess extending in the direction is formed, and the recess is integrally formed on the inner surface of the recess and is partitioned vertically by a partition that crosses the recess, and the position of the partition is provided on the crankshaft. A chain case structure for an engine is proposed, which is substantially coincident with the position of the outer periphery of the crank pulley.

  According to the invention described in claim 5, in addition to the structure of any one of claims 1 to 4, the bulging portion is provided with a contact portion that contacts the engine block. A characteristic engine chain case structure is proposed.

  The intake camshaft 19 and the exhaust camshaft 20 of the embodiment correspond to the camshaft of the present invention, and the intake cam sprocket 28 and the exhaust cam sprocket 29 of the embodiment correspond to the cam sprocket of the present invention. The protrusion 46e in the form corresponds to the contact portion of the present invention.

According to the first aspect, the chain case that covers the timing chain, a substantially semi-cylindrical bulge bulges and timing chain side extends toward the cam sprocket side from the crank sprocket side provided, the bulge parts are such that the cross-sectional shape perpendicular to the longitudinal direction of the evagination portion is substantially semicircular, is formed substantially semi-cylindrical shape, the bulging portion is viewed in the axial direction of the crankshaft, the evagination portion so they lower end of and bulging portion in a position surrounded by the trajectory of the timing chain is positioned near the outer periphery of the crank sprocket, since it is arranged, the bulging portion the splashed oil into the interior of the chain case To the crank sprocket side to efficiently lubricate the crank sprocket and the timing chain, as well as the rigidity of the chain case at the bulge. It can enhance the preventing the occurrence of membrane surface vibrations. If you try to increase the rigidity of the chain case with ribs, the ribs will become waste and the weight will increase, but the semi-cylindrical bulge will increase the rigidity of the chain case while minimizing the increase in weight. Can be effectively increased.

  According to the second aspect of the present invention, since both side edges of the bulging part are arranged along the locus of the timing chain, the oil scattered from the timing chain is efficiently received by the bulging part and supplied to the crank sprocket side. can do.

  According to the third aspect of the present invention, since the width between both side edges of the bulging portion gradually decreases from the cam sprocket side toward the crank sprocket side, the bulging portion is brought as close as possible to the crank sprocket so that the oil is efficiently supplied. In addition to being able to supply, because the distance between one side edge of the bulging portion and the tension chain tension side is smaller than the distance between the other side edge of the bulging portion and the loose side of the timing chain, The amount of oil supplied to the portion where the tight side of the timing chain bites into the crank sprocket can be increased.

According to the configuration of claim 4, the groove-like recess formed by the bulging portion on the surface side of the chain case forms a groove-like recess extending in the longitudinal direction of the bulging portion, and the recess Is integrally formed on the inner surface of the recess and partitioned vertically by a partition that crosses the interior of the recess , and the position of the partition is substantially aligned with the position of the outer periphery of the crank pulley provided on the crankshaft. When an operator drops an article such as a small part or tool, the article can be received by the partition wall and prevented from entering the gap between the crank pulley and the engine block.

  According to the fifth aspect of the present invention, since the bulging portion is provided with the abutting portion that abuts the engine block, the bulging portion is restrained by the engine block and the membrane vibration of the chain case is more effectively suppressed. be able to.

The figure which looked at the engine in the axial direction of the crankshaft. FIG. 2 is a sectional view taken along line 2-2 in FIG. 1. FIG. 3 is a view taken along line 3-3 in FIG. 2. FIG. 4 is a sectional view taken along line 4-4 of FIG. The partial perspective view of a chain case.

  Hereinafter, embodiments of the present invention will be described with reference to FIGS.

  As shown in FIGS. 1 and 2, the in-line multi-cylinder DOHC engine includes an engine block 13 in which a cylinder head 12 is coupled to the upper surface of a cylinder block 11. A head cover 14 is disposed on the upper surface of the cylinder head 12. The oil pan 15 is coupled to the lower surface of the cylinder block 11. A crankshaft 17 is rotatably supported between the lower surface of the cylinder block 11 and a bearing cap 16 coupled thereto, and between the upper surface of the cylinder head 12 and a camshaft holder 18 coupled thereto. The intake camshaft 19 and the exhaust camshaft 20 are rotatably supported.

  Pistons 22 slidably fitted to cylinders 21 provided inside the cylinder block 11 are connected to the crankshaft 17 via connecting rods 23. Further, an intake valve 24 and an exhaust valve 25 that open and close an intake port and an exhaust port (not shown) are driven by an intake cam 26 provided on the intake camshaft 19 and an exhaust cam 27 provided on the exhaust camshaft 20.

  The crank sprocket 30 provided at the shaft end of the crankshaft 17 protruding from the end surface of the cylinder block 11, the intake cam sprocket 28 provided at the shaft end of the intake camshaft 19 protruding from the end surface of the cylinder head 12, An endless timing chain 31 is wound around an exhaust cam sprocket 29 provided at the shaft end of the exhaust camshaft 20 protruding from the end surface.

  The rotation direction of the crankshaft 17 is clockwise in FIG. 1, the slack side 31a of the timing chain 31 is between the crank sprocket 30 and the intake cam sprocket 28, and the timing chain is between the exhaust cam sprocket 29 and the crank sprocket 30. It becomes the tension side 31b of 31. The upper end of the arc-shaped movable chain guide 32 that guides the loose side 31 a of the timing chain 31 is pivotally supported on the cylinder head 12 by the pivot 32 a, and the lower end abuts on the hydraulic chain tensioner 33 fixed to the cylinder block 11. Further, an arc-shaped fixed chain guide 34 that guides the tight side 31 b of the timing chain 31 is fixed to the cylinder block 11 and the cylinder head 12 by two bolts 35 and 35.

  The outer periphery of the chain case 38 that covers the timing chain 31 is fastened to the end faces of the cylinder block 11 and the cylinder head 12 by a plurality of bolts 39. , 41 to the cylinder head 12. The upper edge of the chain case 38 aligned at the same height as the upper surface of the cylinder head 12 is covered with the head cover 14, and the lower edge of the chain case 38 slightly protruding downward from the lower surface of the cylinder block 11 is covered with the oil pan 15. .

  An opening 38 a surrounding the hydraulic chain tensioner 33 is formed in the chain case 38, and a lid 36 that closes the opening 38 a is fixed by bolts 37 and 37. When the movable chain guide 32 is pressed against the loose side 31 a of the timing chain 31 by the hydraulic chain tensioner 33, a predetermined tension is generated in the timing chain 31. A crank pulley 42 for driving auxiliary machinery such as an oil pump and a generator is fixed to the shaft end of the crankshaft 17 extending from an opening 38b formed in the lower portion of the chain case 38. A thick part 38 c is formed on the upper part of the chain case 38, and the upper surface of the thick part 38 c is elastically attached to the lower surface of the vehicle body frame 45 by two bolts 44, 44 penetrating the two mount members 43, 43. Supported.

As shown in FIGS. 1 to 5, so as to be positioned inside the locus of the timing chain 31 as viewed in the direction of the axis L of the crankshaft 17, bulging out portion 46 in the chain case 38 is protruded. The bulging portion 46 is formed in a substantially semi-cylindrical shape so that the cross-sectional shape orthogonal to the longitudinal direction of the bulging portion 46 is substantially semicircular. The bulging portion 46 protrudes from the front side to the back side of the chain case 38, that is, toward the timing chain 31 side in the direction along the axis L of the crankshaft 17 , and its lower end 46 a is directed to the crankshaft 17. At the same time, it reaches the vicinity of the crank sprocket 30 and its upper end 46 b faces the exhaust camshaft 20. Of the side edges 46c and 46d of the bulging portion 46, one side edge 46c is curved along the slack side 31a of the timing chain 31, and has a substantially constant distance α between the slack side 31a (see FIG. 1). ) And the other side edge 46d is curved along the tension side 31b of the timing chain 31 so as to form a substantially constant distance β (see FIG. 1) between the side edge 46d and the tension side 31b. The distance β between the tension side 31b and the slack side 31a is set to be smaller than the distance α between the slack side 31a.

  The interval between the slack side 31a and the tension side 31b of the timing chain 31 is basically narrower from the intake camshaft 19 and exhaust camshaft 20 side toward the crankshaft 17 side, and therefore the width W (see FIG. 1) also narrows from the intake camshaft 19 and exhaust camshaft 20 side toward the crankshaft 17 side. However, only in the vicinity of the crankshaft 17, the width W of the bulging portion 46 slightly increases toward the crankshaft 17 side.

  A protrusion 46e that comes into contact with the protrusion 11a (see FIGS. 2 and 4) provided on the cylinder block 11 side is provided at a portion where the width W of the bulging portion 46 is the narrowest. Further, on the back surface of the chain case 38, a projection 38k (see FIGS. 3 to 5) into which one of the bolts 37 and 37 for fixing the lid 36 is screwed is provided, and this projection 38k is on the cylinder block 11 side. It abuts on the projection 11b (see FIG. 4). Furthermore, two projections 38d and 38e (see FIG. 2) through which the two bolts 40 and 41 for fixing the chain case 38 to the cylinder head 12 pass are provided on the back surface of the chain case 38. The protrusions 38d and 38e are in contact with the cylinder head 12.

On the surface side of the chain case 38 (on the side opposite to the timing chain 31), the bulging portion 46 appears as groove-like concave portions 48, 48 extending in the longitudinal direction of the bulging portion 46 . A partition wall 47 is integrally formed on the inner surface so as to partition the concave portions 48 and 48 into two vertically. The partition wall 47 is provided so as to connect both side walls connected to both side edges 46c and 46d of the bulging portion 46, and is provided at a position along the outer periphery of the crank pulley 42 provided at the shaft end of the crankshaft 17.

  As best shown in FIG. 3, a plurality of reinforcing ribs 38 f... 38 g. Reinforcing ribs 38f are provided at positions facing the cylinder block 11, and include boss portions 38h through which bolts 39 for fastening the chain case 38 to the cylinder block 11 pass, and bolts 35 for fixing the hydraulic chain tensioner 33. Is provided at a position connecting the boss portion 38 i into which one screw is screwed and the projection 46 e of the bulging portion 46. The reinforcing ribs 38g are provided at positions facing the cylinder head 12, and bosses 38j, 38j through which bolts 39 for fastening the chain case 38 to the cylinder head 12 pass, and the chain case 38 are connected to the cylinder head 12. Bolts 40 and 41 to be fastened to the bosses 38d and 38e through which the bolts 40 and 41 pass are provided.

  The protruding height of the reinforcing ribs 38f connected to the bulging portion 46 is significantly lower than the protruding height of the bulging portion 46, so that the flow of oil flowing down along the bulging portion 46 is not obstructed. (See FIG. 4).

  Next, the operation of the embodiment of the present invention having the above configuration will be described.

  During operation of the engine, the meshing portion of the intake cam sprocket 28 or the exhaust cam sprocket 29 and the timing chain 31 is lubricated by oil that lubricates the valve mechanism or oil that is ejected from an oil jet (not shown). The oil adhering to the outer surface of the engine block 13 and the inner surface of the chain case 38 flows down by gravity and returns to the oil pan 15, but part of the oil adheres to the bulging portion 46 protruding from the inner surface of the chain case 38. Oil scattered from the circulating timing chain 31 is captured by the side edges 46c and 46d of the bulging portion 46 extending along the movement locus of the timing chain 3. The oil adhering to the bulging portion 46 in this way flows downward by gravity along the bulging portion 46 and drops onto the crank sprocket 30 provided on the crankshaft 17, whereby the crank sprocket 30 and the timing chain 31. The meshing portion can be efficiently lubricated.

  At this time, the width W between the side edges 46c and 46d of the bulging portion 46 basically decreases gradually from the intake cam sprocket 28 and exhaust cam sprocket 29 side toward the crank sprocket 30 side. The oil can be efficiently supplied as close to the sprocket 30 as possible. Moreover, since the side edges 46c and 46d of the bulging portion 46 extend along the movement locus of the timing chain 31, the bulging portion 46 scatters from the timing chain 31 while preventing the bulging portion 46 from interfering with the timing chain 31. Oil can be captured effectively.

  Of the meshing portions of the crank sprocket 30 and the timing chain 31, the biting portion (a portion in FIG. 1) where the tight side 31b of the timing chain 31 bites into the crank sprocket 30 requires the most oil. Since the distance β between the tension side 31b of the chain 31 and the side edge 46d of the bulging portion 46 is smaller than the distance α between the loose side 31a of the timing chain 31 and the side edge 46c of the bulging portion 46, Oil scattered from the tension side 31b of the timing chain 31 at the front position can be captured by the side edge 46d of the bulging portion 46 and efficiently supplied to the biting portion. Furthermore, since the distance α between the loose side 31a of the timing chain 31 and the side edge 46c of the bulging portion 46 is ensured, the timing chain 31 is expanded when the tension of the timing chain 31 is adjusted by the movable chain guide 32. Interference with the side edge 46c of the protruding portion 46 can be prevented.

  Further, since the rigidity of the chain case 38 is increased by providing the bulging portion 46, it is possible to prevent the membrane surface vibration from being generated in the chain case 38 during the operation of the engine. In this case, if the rigidity of the chain case 38 is increased with ribs, the ribs become waste and the weight increases. However, the increase in weight is minimized by providing the substantially semi-cylindrical bulge portion 46. The rigidity of the chain case 38 can be effectively increased while limiting to the limit. Moreover, since the side edges 46c and 46d of the bulging portion 46 extend along the movement locus of the timing chain 31, the bulging portion 46 can be made as large as possible to enhance the effect of suppressing membrane vibration. In this embodiment, the reinforcing ribs 38f... 38g... Are provided on the chain case 38. However, by providing the substantially semi-cylindrical bulging portion 46, the reinforcing ribs 38f. The number and height of… can be minimized and the increase in weight can be minimized.

  Further, since the protrusion 46e that contacts the protrusion 11a of the cylinder block 11 is provided in the bulging portion 46, the bulging portion 46 is restrained by the engine block 13 and the membrane surface vibration of the chain case 38 can be more effectively suppressed. it can. At this time, since the protrusion 46e is provided in a portion where the width W of the bulging portion 46 is the narrowest, that is, a portion where the rigidity of the bulging portion 46 is the highest, the vibration preventing effect by the protrusion 46e is further enhanced. Moreover, since most of the reinforcing ribs 38f are formed radially around the protrusion 46e, the effect of improving the rigidity of the reinforcing ribs 38f is enhanced.

  The other three protrusions 38d, 38e, and 38k provided on the chain case 38 are also in contact with the engine block 13 to suppress film vibration of the chain case 38.

  Further, a partition wall 47 is provided on the surface side of the chain case 38 so as to divide the recesses 48 formed by the bulging portion 46 into two, and the position of the partition wall 47 is the outer periphery of the crank pulley 42 provided on the crankshaft 17. Therefore, when an operator drops an article such as a small part or tool, the article is received by the partition wall 47 and enters the gap between the crank pulley 42 and the engine block 13. Can be prevented.

  The embodiments of the present invention have been described above, but various design changes can be made without departing from the scope of the present invention.

  For example, although the present invention is applied to a DOHC type engine in the embodiment, the present invention can be similarly applied to a SOHC type engine.

13 Engine block 17 Crankshaft 19 Intake camshaft (camshaft)
20 Exhaust camshaft (camshaft)
28 Intake cam sprocket (cam sprocket)
29 Exhaust cam sprocket (cam sprocket)
30 Crank sprocket 31 Timing chain 31a Loose side 31b Tight side 38 Chain case 42 Crank pulley 46 Swelling part 46c Side edge 46d Side edge 46e Projection (contact part)
47 Bulkhead 48 Recess L Crankshaft axis W Width between both side edges of the bulging part Distance between the other side edge and the loose side of the timing chain β Distance between one side edge and the tight side of the timing chain

Claims (5)

A timing chain (31) spanned between a crank sprocket (30) provided on the crankshaft (17) and a cam sprocket (28, 29) provided on the camshaft (19, 20) is connected to a chain case (38 ) Engine chain case structure covered with
The chain case (38) extends from the crank sprocket (30) side toward the cam sprocket (28, 29) side and extends in the direction along the axis (L) of the crankshaft (17). (31) side bulging out part you bulging (46) is provided,
The bulging portion (46) is formed in a substantially semi-cylindrical shape so that a cross-sectional shape orthogonal to the longitudinal direction of the bulging portion (46) is substantially semicircular,
The bulging portion (46) is viewed in the axis (L) direction of the crankshaft (17), exit and bulging in a position bulging portion (46) is surrounded by the trajectory of the timing chain (31) An engine chain case structure, wherein a lower end portion of the portion (46) is disposed in the vicinity of the outer periphery of the crank sprocket (30) .   The engine chain case structure according to claim 1, wherein both side edges (46c, 46d) of the bulging portion (46) are arranged along a locus of the timing chain (31).   The width (W) between both side edges (46c, 46d) of the bulging portion (46) gradually decreases from the cam sprocket (28, 29) side toward the crank sprocket (30) side and one side edge. The distance (β) between (46d) and the tension side (31b) of the timing chain (31) is the distance (α) between the other side edge (46c) and the loose side (31a) of the timing chain (31). The chain case structure of the engine according to claim 2, wherein the chain case structure is smaller. On the surface side of the chain case (38), the bulging portion (46) forms a groove-like concave portion (48) extending in the longitudinal direction of the bulging portion (46) , and the concave portion (48) The partition wall (47) is integrally formed on the inner surface of the recess (48) and is vertically divided by a partition wall (47) crossing the recess (48), and the position of the partition wall (47) is provided on the crankshaft (17). The engine chain case structure according to any one of claims 1 to 3, wherein the chain case structure substantially coincides with a position of an outer periphery of the crank pulley (42).   The engine chain according to any one of claims 1 to 4, wherein the bulging portion (46) is provided with a contact portion (46e) that contacts the engine block (13). Case structure.

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