JP4053061B2 - Engine balancer equipment - Google Patents

Description

  The present invention relates to an engine balancer device in which a balancer housing arranged so as to face an oil pan below an engine crankshaft is formed by connecting an upper housing and a lower housing at a mating surface.

  Such an engine balancer device is known from Patent Document 1 below.

In the above conventional balancer device, an upper housing and a lower housing are combined to constitute a balancer housing, and oil inside the balancer housing is discharged to the outside through a hole formed in a mating surface of both housings.
JP 2001-140985 A

By the way, if the engine is mounted on the vehicle body with the cylinder axis tilted, the mating surfaces of the upper and lower housings of the balancer housing will also tilt, so that if the oil in the oil pan is blown off, the lower mating surface Oil may enter the balancer housing from the formed hole .

The present invention has been made in view of the above circumstances, and it is an object of the present invention to make it difficult for oil to enter the balancer housing from the hole of the balancer housing even when the balancer housing is inclined with respect to the horizontal direction. To do.

In order to achieve the above object, according to the first aspect of the present invention, the balancer housing arranged to face the oil pan below the crankshaft of the engine is connected to the upper housing and the lower housing at a mating surface. to constitute the height of the mating surfaces is a balancer device for an engine is tilted balancer housing so as to be different between one side and the other side of the balancer housing, the holes communicating the internal and external of the balancer housing the in above the oil level of the oil pan provided in each of the high side and low side of the balancer housing, before Symbol the hole provided in the lower side of the balancer housing, the mating faces upward in and within the balancer housing than be located on one side of the balancer shaft, the opening on the upper surface of the upper housing Together provided so that the upper housing, the balancer device for an engine characterized in that it is formed in a long hole shape extending in the axial direction of the balancer shaft is proposed.

According to a second aspect of the present invention, a balancer housing arranged to face the oil pan below the crankshaft of the engine is configured by combining the upper housing and the lower housing at a mating surface, A balancer device for an engine in which the balancer housing is inclined so that the height of the surface differs between one side and the other side of the balancer housing, and a hole communicating between the inside and outside of the balancer housing is formed from the oil surface of the oil pan. The plurality of holes provided on the high side and the low side of the balancer housing at the upper side and provided on the low side of the balancer housing are above the mating surface and on one side of the balancer shaft in the balancer housing. Are located on the upper surface of the upper housing. Together provided on the upper housing, the balancer device of an engine, characterized in that, each of which is formed in the axial extending direction elongated hole of the balancer shaft is proposed.

According to the invention described in claim 3, the balancer housing arranged to face the oil pan below the crankshaft of the engine mounted horizontally on the vehicle body with the crankshaft directed in the left-right direction of the vehicle body. A balancer device for an engine in which a housing and a lower housing are combined at a mating surface, and the balancer housing is inclined so that the height of the mating surface is different between one side and the other side of the balancer housing, Holes that communicate the inside and outside of the balancer housing are provided above the oil level of the oil pan, on each of the high side of the balancer housing that faces the front of the vehicle body and the low side that faces the rear of the vehicle body. The hole provided on the side is above the mating surface and the balancer housing Engines of located on one side of the balancer shaft, with provided on the upper housing to open to the upper surface of the upper housing, characterized in that it is formed in the axial extending direction elongated hole of the balancer shaft A balancer device is proposed.

According to the invention described in claim 4, in addition to the structure of claim 1 or 3, at least a part of a baffle plate for preventing the oil level of the oil in the oil pan from being at least partially comprises the balancer. An engine balancer device is proposed which extends to a position covering the hole provided on the lower side of the housing. Further, according to the invention described in claim 5, in addition to the configuration of claim 2, , At least a part of a single baffle plate for preventing the oil level of the oil in the oil pan from extending to a position covering the plurality of holes provided on the lower side of the balancer housing. According to a sixth aspect of the present invention, in addition to the structure of any one of the first to fifth aspects, the baffle plate includes a front balancer device. An engine balancer device is proposed, which is formed in a substantially rectangular shape having a long side along the longitudinal direction of the long hole-like hole provided on the lower side of the balancer housing, and is fixed to the upper housing. Further, according to the invention described in claim 7, in addition to the structure of claim 5, the single baffle plate is formed on the upper surface of the upper housing by a bolt connecting the upper housing and the lower housing. An engine balancer device characterized by being fastened together is proposed.

As described above, according to the present invention, the holes communicating the inside and outside of the balancer housing are provided on the high side and the low side of the balancer housing above the oil level of the oil pan, and provided on the low side of the balancer housing. The hole is located above the mating surface of the housing and on one side of the balancer shaft in the housing, and is provided in the upper housing so as to open to the upper surface of the upper housing, and in the axial direction of the balancer shaft. Since it is formed in the shape of an elongated hole that extends , oil can be prevented from entering the inside of the balancer housing from the lower hole of the balancer housing.

According particularly to the third aspect of the invention, even inclined surface of the oil during forward acceleration of vehicles, the oil from the pores of the lower balancer housing side can be prevented from entering the interior of the balancer housing, of the vehicle A decrease in forward acceleration performance can also be suppressed.

According to a particularly each invention described in claims 4 to 7, the baffle plate, it is possible to prevent the unstable motion of the oil surface of the oil stored inside the oil pan, and with the rotation of the crankshaft When splashed oil splashes splash into the crankcase, at least part of the baffle plate extends to a position that covers the hole in the balancer housing, so that the oil splashes on the upper housing upper surface. Intrusion into the balancer housing from the formed hole can be suppressed. Moreover, since the hole is covered using the baffle plate in this way, a special cover member is not required, and the number of parts and the number of assembling steps can be reduced.

  Embodiments of the present invention will be described below based on the embodiments of the present invention shown in the accompanying drawings.

  1 to 13 show a first embodiment of the present invention. FIG. 1 is a front view of the engine, FIG. 2 is a sectional view taken along line 2-2 in FIG. 1, and FIG. 3 is a sectional view taken along line 3-3 in FIG. 4 is a sectional view taken along line 4-4 in FIG. 2, FIG. 5 is a sectional view taken along line 5-5 in FIG. 3, FIG. 6 is a sectional view taken along line 6-6 in FIG. 7 is a sectional view taken along line 8-8 in FIG. 6, FIG. 9 is a sectional view taken along line 9-9 in FIG. 6, FIG. 10 is a sectional view taken along line 10-10 in FIG. 11 is a sectional view taken along line 11-11, FIG. 12 is a sectional view taken along line 12-12 of FIG. 6, and FIG. 13 is an enlarged view of a portion 13 of FIG.

  As shown in FIG. 1, the outline of the in-line four-cylinder engine E for a vehicle is configured by stacking a head cover 11, a cylinder head 12, a cylinder block 13, a lower block 14, and an oil pan 15 from the top to the bottom. The crankshaft 20 is disposed in the left-right direction of the vehicle body, and the cylinder axis L is inclined toward the exhaust side (front side of the vehicle body) with respect to the vertical direction. The secondary balancer device 16 fixed to the lower surface of the lower block 14 and accommodated in the oil pan 15 includes a drive-side balancer shaft 18 and a driven balancer shaft 19 supported by a balancer housing 17. A sprocket 21 provided at the shaft end of the crankshaft 20 supported between the lower blocks 14 and a sprocket 22 provided at the shaft end of the drive-side balancer shaft 18 are connected by an endless chain 23.

  As shown in FIGS. 2 to 5, the four pistons 25 slidably fitted to the four cylinder bores 24 provided on the cylinder block 13 are respectively connected to the four pins 20 a of the crankshaft 20. It is connected via connecting rods 26. Five bearing caps 27 fitted into the lower block 14 are fastened to the lower surface of the cylinder block 13 with two bolts 28, 28, respectively, and the cylinder block 13 and the five bearing caps 27 are connected to each other. Between the five journals 20b of the crankshaft 20 are rotatably supported.

  The balancer housing 17 of the secondary balancer device 16 connects the upper housing 29 and the lower housing 30 with eleven bolts 31... 32, 32; 34a, 34a, 34b, 34b, and further, one end of the upper housing 29 and the lower housing 30. The pump housing 35 is connected to the portion by a plurality of bolts 36. An upper wall portion 30 b that extends to the upper surface side of the balancer housing 17 is formed at the end portion of the lower housing 30 on the pump housing 35 side, and the upper wall portion 30 b is sandwiched between the upper housing 29 and the pump housing 35. At this time, a slit-shaped opening α (FIGS. 6, 8 and 9) is formed between the upper housing 29 and the upper wall portion 30 b of the lower housing 30.

  Three bolts 31 arranged so as to sandwich the drive balancer shaft 18 and the driven balancer shaft 19 are inserted from the upper housing 29 side and fastened to the lower housing 30. Two bolts 32, 32 disposed outside the drive balancer shaft 18 and two bolts 31, 31 disposed outside the driven balancer shaft 19 are inserted from the upper housing 29 side to be connected to the lower housing 30. To be concluded. Further, two bolts 34 a and 34 a inserted into the pump housing 35 on one end side of the balancer housing 17 pass through the bearing cap 27 and are fastened to the lower surface of the cylinder block 13, and on the other end side of the balancer housing 17. Two bolts 34 b and 34 b inserted from the housing 30 side pass through the upper housing 29 and the bearing cap 27 and are fastened to the lower surface of the cylinder block 13.

  The upper housing 29 is supported on the bearing caps 27 and 27 by four mounting seats 29a through which the four bolts 34a, 34a, 34b and 34b pass, and accordingly, the upper surface of the upper housing 29 and the bearing caps 27 and 27 are supported. A gap β (see FIG. 4) is formed between the lower surface and the lower surface.

  Next, the structure of the secondary balancer device 16 will be further described with reference to FIGS.

  As is apparent from FIG. 8, the drive balancer shaft 18 of the secondary balancer device 16 has the sprocket 22, the first journal 18a, the drive gear 18b, the first balancer weight 18c, from one end side to the other end side. A second journal 18 d and a second balancer weight 18 e are provided, and the first and second journals 18 a and 18 d are supported so as to be sandwiched between the upper housing 29 and the lower housing 30. As is apparent from FIG. 9, the driven balancer shaft 19 of the secondary balancer device 16 has a first journal 19a, a driven gear 19b, a first balancer weight 19c, and a second journal 19d from one end side to the other end side. The second balancer weight 19e is provided, and the first and second journals 19a and 19d are supported so as to be sandwiched between the upper housing 29 and the lower housing 30.

  An oil pump 41 (see FIG. 9) is provided at one end of the driven balancer shaft 19 that protrudes into the pump housing 35. The oil pump 41 includes a known trochoid pump, and includes an inner rotor 42 fixed to the driven balancer shaft 19 and an outer rotor 43 that is rotatably supported by the pump housing 35 and meshes with the inner rotor 42. A strainer 44 positioned below the oil level O of the oil stored in the oil pan 15 is provided on the lower surface of the lower housing 30, and the strainer 44 and the suction port 41 a of the oil pump 41 are integrated with the lower surface of the lower housing 30. They are connected by the formed oil passage 30a (see FIG. 12). The strainer 44 includes a strainer element 44a that filters foreign matters in the oil, and a strainer cover 44b that covers the strainer element 44a. The discharge port 41b of the oil pump 41 is connected to the main gallery 13a (see FIGS. 3 and 4) of the cylinder block 13 through an oil passage (not shown).

  The upper housing 29 has a pair of openings 29b and 29b facing the drive gear 18b and the driven gear 19b, a pair of openings 29c and 29c facing the first balancer weights 18c and 19c, and a pair facing the second balancer weights 18e and 19e. The openings 29d and 29d are formed. By providing these openings 29b, 29b; 29c, 29c; 29d, 29d, the locus T (see FIG. 3) of the lower end of the connecting rod 26 is prevented from interfering with the upper surface of the upper housing 29. The engine E can be downsized. Further, openings 17 a and 17 b (see FIG. 10) facing the shaft ends of the drive balancer shaft 18 and the driven balancer shaft 19 straddle the upper housing 29 and the lower housing 30 on the end surface of the balancer housing 17 opposite to the pump housing 35. Formed. The openings 17a and 17b are for machining the support portions of the first and second journals 18a and 19a; 18d and 19d of the drive balancer shaft 18 and the driven balancer shaft 19 inside the balancer housing 17, and the openings The inner diameters of 17a and 17b are slightly larger than the outer diameters of the first and second journals 18a and 19a; 18d and 19d.

  At the end of the upper housing 29 on the drive balancer shaft 18 side, four oil discharge holes 45a to 45d opened on the upper surface thereof are formed. Each of the oil discharge holes 45 a to 45 d is formed in a long hole shape extending in the axial direction of the crankshaft 20. One (or a plurality) of slit-like oil discharge holes 46 extending along the mating surfaces of the upper housing 29 and the lower housing 30 are formed at the end of the balancer housing 17 on the driven balancer shaft 19 side. The oil discharge holes 45a to 45d open in the direction of the cylinder axis L, and the oil discharge hole 46 opens in a direction perpendicular to the cylinder axis L. Due to the inclination of the cylinder axis L, the balancer housing 17 is inclined so that the drive balancer shaft 18 side (vehicle body front side) is lowered and the driven balancer shaft 19 side (vehicle body rear side) is raised, but the drive balancer shaft 18 is inclined. The oil discharge holes 45a to 45d on the side and the oil discharge hole 46 on the driven balancer shaft 19 side are arranged at positions higher than the horizontal oil level O (see FIG. 3) of the oil stored in the oil pan 15.

  A substantially rectangular first baffle plate 47 is fastened together with the two bolts 32, 32 connecting the upper housing 29 and the lower housing 30 to the upper surface of the end portion of the upper housing 29 on the drive balancer shaft 18 side. A substantially rectangular second baffle plate 48 is fixed by two bolts 33 and 33 to a bank-like boss portion 30 c projecting from the outer wall of the housing 30. The second baffle plate 48 extends along the outer wall of the lower housing 30. The upper end of the oil discharge hole 46 is higher than the upper end of the oil discharge hole 46. The bank-like boss portion 30c is formed with a large number of through holes 30d (see FIGS. 12 and 13) for communicating the upper and lower surfaces thereof. Further, a U-shaped third baffle plate 49 is fixed to the lower surface of the lower block 14 with four bolts 50.

  Thus, the rotation of the crankshaft 20 is transmitted to the drive balancer shaft 18 through the sprocket 21, the endless chain 23 and the sprocket 22 by the operation of the engine E, and the rotation of the drive balancer shaft 18 is transmitted through the drive gear 18b and the driven gear 19b. To the driven balancer shaft 19. At this time, the number of teeth of the sprocket 21 of the crankshaft 20 is set to twice the number of teeth of the sprocket 22 of the drive balancer shaft 18, and the number of teeth of the drive gear 18b is set equal to the number of teeth of the driven gear 19b. Therefore, the drive balancer shaft 18 and the driven balancer shaft 19 rotate in opposite directions at a rotational speed twice that of the crankshaft 20 (see arrows A and B in FIGS. 11 and 12), and the drive balancer shaft 18 The secondary vibration of the engine E is reduced by the first and second balancer weights 18c, 19c; 18e, 19e provided on the driven balancer shaft 19.

  Since the crankshaft 20 splashes up the oil in the crankcase during the operation of the engine E, the oil tends to enter the balancer housing 17 through the openings 29b, 29b; 29c, 29c; 29d, 29d; 17a, 17b. To do. When oil enters the balancer housing 17, the drive gear 18b, the driven gear 19b, the first and second balancer weights 18c, 19c; 18e, 19e, and the like are agitated to increase the agitation resistance. Accordingly, the drive balancer shaft 18 rotating in the directions of arrows A and B in FIG. 11 and the drive gear 18b of the driven balancer shaft 19, the driven gear 19b, the first and second balancer weights 18c, 19c; 18e, 19e, etc. The oil is discharged from the oil discharge holes 45a to 45d and 46 of the balancer housing 17 to the outside and returned to the oil pan 15 to prevent the stirring resistance from increasing.

  At this time, as shown in FIGS. 10 to 12, the outer end edges of the first and second baffle plates 47 and 48 and the outer end edges of the cover portions 49a and 49b of the third baffle plate 49 are bent downward. The oil discharged from the oil discharge holes 45a to 45d and 46 can be changed in the downward direction and smoothly returned to the oil pan 15.

  Due to the first baffle plate 47 and the second baffle plate 48 fixed to the balancer housing 17 and the third baffle plate 49 fixed to the lower block 14, the oil level O of the oil stored in the oil pan 15 is ramped. Is prevented. When the splash of oil splashed with the rotation of the crankshaft 20 is scattered inside the crankcase, at least a part of the first and third baffle plates 47 and 49 are oil discharge holes of the balancer housing 17. Since the oil extends to a position covering 45a to 45d, the oil splashes are blocked by the first and third baffle plates 47 and 49 and are prevented from entering the balancer housing 17 from the oil discharge holes 45a to 45d. be able to. Thus, since the oil discharge holes 45a to 45d are covered using the existing first and third baffle plates 47 and 49, a special cover member for covering the oil discharge holes 45a to 45d becomes unnecessary. It is possible to reduce the number of parts and assembly man-hours.

  In particular, the third baffle plate 49 formed in a U-shape is provided with a plurality of cover portions 49a and 49b covering a part of the oil discharge hole 45d and the oil discharge hole 46, and between the cover portions 49a and 49b. Since the cutout portion 49c is provided, it is possible to minimize the increase in the weight of the third baffle plate 49 by the cutout portion 49c while covering part of the oil discharge hole 45d and the oil discharge hole 46 with the cover portions 49a and 49b. it can. In addition, two of the four bolts 50... For fixing the third baffle plate 49 to the lower block 14 are disposed closer to the cover portions 49a and 49b than the notch portion 49c. Therefore, the cover portions 49a and 49b. The rigidity can be increased to suppress vibration. The notch 49c is provided at a position facing the second balancer weights 18e, 19e having a diameter larger than that of the second journals 18d, 19d of the drive balancer shaft 18 and the driven balancer shaft 19, so that the vertical direction of the engine E is increased. The increase in the dimension of can be minimized.

  The first baffle plate 47 as a cover member covers the oil discharge holes 45a to 45c as a plurality of openings, and the third baffle plate 49 as a cover member covers the oil discharge holes 45d and 46 as a plurality of openings. That is, since the plurality of openings are respectively covered with a single cover member, the number of cover members can be reduced.

  A first baffle that covers oil discharge holes 45c and 45d respectively provided on the sides of the first balancer weight 18c and the second balancer weight 18e (direction orthogonal to the drive balancer shaft 18) provided across the second journal 18d. Since the plate 47 and the third baffle plate 49 are provided independently as separate bodies, the connection configuration of the first baffle plate 47 and the third baffle plate 49 becomes complicated around the second journal 18d. In addition, the increase in size of the first and third baffle plates 47 and 49 as the cover member can be suppressed.

  Further, since the cylinder axis L is inclined toward the front side of the vehicle body, the front side of the balancer housing 17 is lowered and the rear side is raised, so that oil easily flows into the balancer housing 17 from the front oil discharge holes 45a to 45d. However, since the oil discharge holes 45a to 45d on the front side are formed so as to pass through a position higher than the mating surface P of the upper housing 29 and the lower housing 30, that is, through the upper wall of the upper housing 29, the oil discharge holes 45a to 45d. The oil can be effectively prevented from flowing in. On the other hand, since the oil discharge hole 46 on the rear side is at a high position, even if the oil discharge hole 46 is formed on the mating surface P of the upper housing 29 and the lower housing 30 to simplify the structure, a large amount of oil can be obtained therefrom. There is no risk of inflow.

  As is clear from FIG. 12, the angle θ1 formed by the lower housing 30 with respect to the mating surface P of the upper housing 29 and the lower housing 30 on the higher side (the vehicle body rear side) of the balancer housing 17 is lower on the balancer housing 17. On the vehicle body front side, the angle θ2 is smaller than the angle θ2 formed by the lower housing 30 with respect to the mating surface P. In other words, since the position of the oil discharge hole 46 is high, the inclination of the inner surface of the lower housing 30 becomes loose on the rear side of the vehicle body where oil is difficult to be discharged, and conversely, the position of the oil discharge hole 46 is low and the oil is easily discharged. The inclination of the inner surface of the lower housing 30 is tight on the front side. Therefore, the oil level of the oil inclines from the normal O position to the O ′ position during forward acceleration of the vehicle, so that the oil inside the balancer housing 17 flows from the oil discharge hole 46 on the rear side of the vehicle body at a high position. Can be effectively discharged.

  In addition, since the lower housing 30 is inclined on the lower side (front side of the vehicle body) of the balancer housing 17, the lower housing 30 is brought closer to the drive balancer shaft 18 side at that portion, thereby contributing to the miniaturization of the balancer housing 17. be able to.

  Further, since the upper end of the second baffle plate 48 reaches a position higher than the upper end of the oil discharge hole 46, even if the oil level of the oil in the oil pan 15 is increased, the oil discharge hole 46 enters the balancer housing 17. Oil can be prevented from entering. Even if oil flows between the outer wall of the lower housing 30 and the second baffle plate 48, the oil is returned to the oil pan 15 through the through holes 30d formed in the boss portion 30c of the lower housing 30.

  Next, a second embodiment of the present invention will be described with reference to FIG.

  In the first embodiment shown in FIG. 13, the second baffle plate 48 is fixed to one bank-like boss portion 30 c provided on the outer wall of the lower housing 30 with bolts 33, 33. Two boss portions 30c, 30c are provided apart from each other on the outer wall of the lower housing 30, and a second baffle plate 48 is fixed to the boss portions 30c, 30c with bolts 33, 33. Accordingly, a gap δ is formed between the two boss portions 30c, 30c, the outer wall of the lower housing 30, and the second baffle plate 48, and flows between the outer wall of the lower housing 30 and the second baffle plate 48. The returned oil is returned to the oil pan 15 through the gap δ.

  Next, a third embodiment of the present invention will be described with reference to FIG.

  As is apparent from a comparison of FIG. 15 with FIG. 3 (first embodiment), in the third embodiment, the drive balancer shaft 18 side of the balancer housing 17 faces the rear of the vehicle body, and the driven balancer shaft 19 side faces the front of the vehicle body. Therefore, even if the oil level of the oil on the drive balancer shaft 18 side becomes high during forward acceleration of the vehicle, the oil discharge holes 45a to 45d on the drive balancer shaft 18 side are formed on the upper surface of the balancer housing 17, so that oil Oil does not easily enter the balancer housing 17 from the discharge holes 45a to 45d, and a decrease in the forward acceleration performance of the vehicle can be suppressed. It should be noted that providing the oil discharge holes 45a to 45d on the lower side of the balancer housing 17 at a higher position than the mating surface on the higher side of the balancer housing 17 is more advantageous for suppressing a decrease in the forward acceleration performance of the vehicle. .

  As mentioned above, although the Example of this invention was explained in full detail, this invention can perform a various design change in the range which does not deviate from the summary.

  For example, in the embodiment, the first and second baffle plates 47 and 48 are fixed to the balancer housing 17, and the third baffle plate 49 is fixed to the lower block 14, but their mounting positions can be changed as appropriate. .

  Further, the shape and number of the oil discharge holes 45a to 45d and 46 can be appropriately changed.

Front view of the engine 2-2 sectional view of FIG. 3-3 sectional view of FIG. Sectional view along line 4-4 in FIG. Sectional view along line 5-5 in FIG. 6-6 arrow view of FIG. FIG. 7-7 arrow view of FIG. Sectional view taken along line 8-8 in FIG. Sectional view taken along line 9-9 in FIG. Sectional view taken along line 10-10 in FIG. 11-11 sectional view of FIG. 12-12 sectional view of FIG. 13 enlarged view of FIG. The figure corresponding to the said FIG. 13 based on 2nd Example of this invention. The figure corresponding to the said FIG. 3 based on 3rd Example of this invention.

Explanation of symbols

15 Oil pan 17 Balancer housing 20 Crankshaft 29 Upper housing 30 Lower housing 45a Oil discharge hole 45b Oil discharge hole 45c Oil discharge hole 45d Oil discharge hole 46 Oil discharge holes 47, 49 First and third baffle plates (plates)
E engine P mating surface

Claims (7)

The balancer housing (17) arranged to face the oil pan (15) below the crankshaft (20) of the engine (E) is joined to the upper housing (29) and the lower housing (30) at the mating surface (P). bonded together to constitute the height of the mating faces (P) is a balancer device for an engine is inclined differently the balancer housing (17) between one side and the other side of the balancer housing (17) ,
Holes communicating the internal and external of the balancer housing (17) (45a to 45d, 46), said oil pan (15) the oil level (O) of the higher side and lower side of the balancer housing (17) at above the Provided for each ,
Before Symbol the hole provided in the lower side of the balancer housing (17) (45a to 45d) is on one side of the balancer shaft (18) of the mating surface and said balancer housing (17) in the upper than (P) It is located in the upper housing (29) so as to open to the upper surface of the upper housing (29), and is formed in a long hole shape extending in the axial direction of the balancer shaft (18). A balancer device for the engine. The balancer housing (17) arranged to face the oil pan (15) below the crankshaft (20) of the engine (E) is joined to the upper housing (29) and the lower housing (30) at the mating surface (P). A balancer device for an engine, which is configured to be coupled and in which the balancer housing (17) is inclined so that the height of the mating surface (P) is different between one side and the other side of the balancer housing (17). ,
Holes (45a to 45d, 46) communicating between the inside and outside of the balancer housing (17) are provided above the oil level (O) of the oil pan (15) on the high side and low side of the balancer housing (17), respectively. Provided in
The plurality of holes (45a to 45d) provided on the lower side of the balancer housing (17) are above the mating surface (P) and on one side of the balancer shaft (18) in the balancer housing (17). Are formed in the upper housing (29) so as to open on the upper surface of the upper housing (29), and are formed in the shape of a long hole extending in the axial direction of the balancer shaft (18). wherein the engine balancer device. A balancer housing (17) disposed so as to face the oil pan (15) below the crankshaft (20) of the engine (E) mounted horizontally on the vehicle body with the crankshaft (20) directed in the left-right direction of the vehicle body. The upper housing (29) and the lower housing (30) are coupled by a mating surface (P), and the height of the mating surface (P) is different between one side and the other side of the balancer housing (17). An engine balancer device in which the balancer housing (17) is inclined,
Holes (45a to 45d, 46) communicating between the inside and outside of the balancer housing (17) are located above the oil level (O) of the oil pan (15) and are high toward the front of the vehicle body of the balancer housing (17). On the side and the lower side facing the rear of the car body,
The holes (45a to 45d) provided on the lower side of the balancer housing (17) are located above the mating surface (P) and on one side of the balancer shaft (18) in the balancer housing (17). The upper housing (29) is provided in the upper housing (29) so as to open to the upper surface of the upper housing (29), and is formed in a long hole extending in the axial direction of the balancer shaft (18). , Engine balancer device. At least a part of a baffle plate (47) for preventing the oil level (O) of the oil in the oil pan (15) from fluctuating is provided in the holes (45a to 45a) provided on the lower side of the balancer housing (17). The balancer device for an engine according to claim 1 or 3, wherein the balancer device extends to a position covering 45d). The plurality of plural baffle plates (47) provided on the lower side of the balancer housing (17) for preventing the oil level (O) of the oil in the oil pan (15) from moving upside down. The balancer device for an engine according to claim 2, wherein the balancer device extends to a position covering the holes (45 a to 45 d). The baffle plate (47) is formed in a substantially rectangular shape having long sides along the longitudinal direction of the long holes (45a to 45d) provided on the lower side of the balancer housing (17). The balancer device for an engine according to any one of claims 1 to 5, wherein the balancer device is fixed to the housing (29). The single baffle plate (47) is fastened to the upper surface of the upper housing (29) by a bolt (32) connecting between the upper housing (29) and the lower housing (30). The balancer device for an engine according to claim 5.

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