The disclosure of Japanese Patent Application No. 2017-095540 filed on May 12, 2017 including the specification, drawings and abstract is incorporated herein by reference in its entirety.
The disclosure relates to an internal combustion engine including an oil pan and an oil filter.
An internal combustion engine includes a lubrication mechanism that allows lubricating oil to move from top to bottom of the internal combustion engine so that the lubricating oil reaches the entire internal combustion engine in order to ensure smooth operations of a valve mechanism, a piston, a crankshaft, and so on. The lubricating oil that has lubricated the crankshaft and so on is recovered and stored in an oil pan that is prepared at the bottom. The lubrication mechanism includes a circulation route. In the circulation route, an oil filter is installed, and the lubricating oil inside the oil pan is returned to the top (see Japanese Unexamined Patent Application Publication No. 2008-184924 (JP 2008-184924 A).
As shown in
Therefore, the disclosure relates to an internal combustion engine that restricts oil from going around and reaching a lower surface side of an oil pan.
An exemplary aspect of the disclosure is an internal combustion engine. The internal combustion engine comprising: a case; an oil pan disposed below the case; an oil filter into which oil inside the oil pan flows; and a guide that guides oil flowing out from the oil filter and flowing down along a sidewall surface of the case. The guide includes a projection that is provided continuously in a transverse direction in the sidewall surface of the case and extends so as to project outside the case from the sidewall surface, a descending portion that is extended downward from an outer peripheral edge of the projection, and a collecting portion that is positioned in a lower end edge of the descending portion and collects the oil that flows along the sidewall surface of the case downwardly from the projection through the descending portion.
The internal combustion engine may further include an attaching-detaching portion where the oil filter is attached and detached. The attaching-detaching portion may be disposed in the sidewall surface of the case. The guide may be positioned in a fluid passage of oil that flows from the attaching-detaching portion to below the oil pan. As described above, according to the aspect of the disclosure, for example, the lubricating oil leaking out from the attaching-detaching portion and flowing down along the sidewall surface of the case is directed and guided by the guide so that the oil is collected and flows down.
The case may be a crankcase and the projection may be disposed in a flange that connects the crankcase and the oil pan each other.
The lubricating oil guided by the guide flows along the projection that is, for example, a flange that is positioned in a boundary between a case body and the oil pan. The projection is provided continuously in a transverse direction in the sidewall surface of the case and extends so as to project outwardly to the side from the sidewall surface. Then, the lubricating oil further flows along the descending portion that is extended downward from an outer peripheral edge of the projection. The lubricating oil flowing down along the descending portion of the guide is guided by the collecting portion that is formed in the lower end edge of the descending portion. Then, the oil is collected in one place and dripped.
The collecting portion may be formed into a shape in which a convex-shaped apex of the collecting portion in the lower end edge of the descending portion is at a lowermost position compared to adjacent lines on both sides of the apex.
The collecting portion may be disposed into a convex shape in which an apex of the convex shape is at a lowermost position between a concave shape and at least one of adjacent lines of the concave shape. The concave shape may be made in the lower end edge of the descending portion.
The lower end edge may have a convex shape that extends downward. The lower end edge may include a convex-shaped apex and adjacent lines positioned on both ends of the apex, respectively. The apex may be the collecting portion and positioned lower than the adjacent lines.
The lower end edge may have a concave shape that is depressed upward, the lower end edge may include the adjacent lines. The descending portion may have a convex portion that is disposed between the concave shape and at least one of the adjacent lines of the concave shape. The convex portion may include an apex that is positioned lower than the lower end edge. The apex may be the collecting portion.
Therefore, the lubricating oil flowing along the sidewall surface of the case can be restricted from going around and reaching a lower surface of the oil pan, thus making the oil drip down. Thus, it is possible to easily reduce a workload of wiping and so on for the lubricating oil.
Features, advantages, and technical and industrial significance of exemplary embodiments of the disclosure will be described below with reference to the accompanying drawings, in which like numerals denote like elements, and wherein:
Hereinafter, an embodiment of the disclosure is described in detail with reference to the drawings.
In
In the internal combustion engine 10, an oil filter 13 is attached on a side surface of the crankcase 11 in a detachable manner. The internal combustion engine 10 includes an outgoing oil passage and a returning oil passage, as well as an oil pump. In the outgoing oil passage, the lubricating oil is allowed to go down from the upper portion into the oil pan 12 in a lower portion. In the returning oil passage, the lubricating oil is returned to the upper portion from the oil pan 12. The oil pump allows the lubricating oil to flow inside the returning oil passage and circulate. The oil filter 13 is installed in the returning oil passage in a middle of a route of the circulation.
In the crankcase 11, a filter-attaching portion (an attaching-detaching portion) 15 is formed in a sidewall surface (a side surface) 11a that is an outer peripheral surface. The oil filter 13 is attached to and detached from the filter-attaching portion 15 so that the oil filter 13 can be replaced. The oil filter 13 is attached to the filter-attaching portion 15 by gripping and then, for example, rotating a generally cylindrical grip portion 13a so that the oil filter 13 is pushed in. The oil filter 13 is attached in a state where an end surface of the grip portion 13a abuts on the filter-attaching portion 15.
Therefore, in the crankcase 11, depending on circulation pressure of the lubricating oil during an operation, the lubricating oil leaks out from an outer peripheral side of the filter-attaching portion 15 in the sidewall surface 11a where the oil filter 13 is attached, and then flows down along the sidewall surface 11a towards the oil pan 12 side in the lower portion.
In portions of the crankcase 11 and the oil pan 12 that are connected with each other, flange-shaped portions 21, 22 are formed, respectively. In the flange-shaped portions 21, 22, abutting surfaces 21j, 22j are formed, respectively, and closely connected with each other so as to abut on each other. The abutting surfaces 21j, 22j have projecting shapes that extend outwardly to the side so that the abutting surfaces 21j, 22j have certain amounts of areas. Thus, the flange-shaped portions 21, 22 are formed as projections.
Here, in the internal combustion engine 10, a cylinder inside the cylinder block located in an upper portion of the crankcase 11 is formed into a shape that is slightly inclined with respect to the vertical direction, and the cylinder block is assembled so that the piston has upward-downward motions inside the cylinder. Therefore, the crankcase 11 is also assembled to a vehicle in a position that makes the sidewall surface 11a inclined. The oil pan 12 is fabricated so that a lower surface 12a of the oil pan 12 is generally horizontal in a state where the oil pan 12 is attached to a lower portion of the crankcase 11. Therefore, the flange-shaped portions 21, 22 of the crankcase 11 and the oil pan 12 have the inclined abutting surfaces 21j, 22j, respectively, and, in the embodiment, the crankcase 11 and the oil pan 12 are attached so that an upper surface 21a of the flange-shaped portion 21 of the crankcase 11 makes a slope that goes downward as a distance from the filter-attaching portion 15 becomes longer.
A first oil thrower portion 26 is integrally formed in the upper surface 21a of the flange-shaped portion 21 of the crankcase 11 at a position adjacent (close) to the filter-attaching portion 15. The first oil thrower portion 26 is formed into a rib-shape that projects upwardly from the upper surface 21a of the flange-shaped portion 21. The first oil thrower portion 26 is disposed in a position in the flange-shaped portion 21, the position being slightly lower than a position proximate and closest to the filter-attaching portion 15. In the position of the first oil thrower portion 26, there is space (area) that directs and guides the lubricating oil flowing from the sidewall surface 11a side.
As shown in
Thus, as shown in
Also, returning to
Thus, the entire lubricating oil leaking out from the filter-attaching portion 15 of the crankcase 11 and flowing along the sidewall surface 11a may not be dealt with by the first oil thrower portion 26, and flow along the skirt-shaped portion 23 on the oil pan 12 side. Even in this case, the lubricating oil does not go around and reach the lower surface 12a side of the oil pan 12 from a lower end edge 23a of the skirt-shaped portion 23. Therefore, it is possible to avoid a workload of wiping a large area of the lower surface 12a of the oil pan 12.
Further, as shown in
The second oil thrower portion 27 is installed as the lower end edge 23a of the skirt-shaped portion 23 is deformed in the upward-downward direction and thus includes a concave curve shape. To be in detail, a concave curve edge 23a1 having a concave inner edge, and an adjacent line 23a2 are formed in the lower end edge 23a of the skirt-shaped portion 23. The adjacent line 23a2 is adjacent to the concave curve edge 23a1 on the filter-attaching portion 15 side. Thus, a convex edge 28 having a lowermost apex is provided between the adjacent line 23a2 and the concave curve edge 23a1, thereby making the second oil thrower portion 27.
Thus, as shown in
Further, as shown in
Because of this, in the second oil thrower portion 27, the convex edge 29 also forms the collecting portion on the side of the concave curve edge 23a1 away from the filter-attaching portion 15, and it is thus possible to collect and drip the flowing lubricating oil at the apex of the convex edge 29. Therefore, the lubricating oil is more reliably prevented from going around and reaching the lower surface 12a of the oil pan 12, thereby avoiding a workload of wiping and so on.
As described so far, in the internal combustion engine 10 according to the embodiment, the skirt-shaped portion 23 is formed in the flange-shaped portion 22 of the oil pan 12 so that the skirt-shaped portion 23 continues from the outer peripheral edge 210 of the flange-shaped portion 21 of the crankcase 11. Also, the concave curve edge 23a1 and the adjacent lines 23a2, 23a3 are formed in the lower end edge 23a of the skirt-shaped portion 23. Thus, the second oil thrower portion 27 having the convex edges 28, 29 is installed. Therefore, the lubricating oil that leaks out from the filter-attaching portion 15 and flows along the sidewall surface 11a is guided towards the apexes of the convex edges 28, 29 of the second oil thrower portion 27, and dripped.
Hence, it is possible to reduce a workload of wiping the lubricating oil that flows along the sidewall surface 11a of the crankcase 11 and goes around and reaches the lower surface 12a of the oil pan 12. Thus, it is possible to provide the easily maintained internal combustion engine 10 including the oil filter 13.
As a first other aspect of the embodiment, as shown in
As a second other aspect, although not shown, the adjacent lines 23a2, 23a3 provided on both sides of the concave curve edge 23a1, respectively, in the second oil thrower portion 27 may not be inclined, and may be formed into a linear shape in the same level as the base 23b. By forming only the concave curve edge 23a1 in the lower end edge 23a of the skirt-shaped portion 23, only the concave curve edge 23a1 on the side of the filter-attaching portion 15 may function as a lowermost apex. In this case, similar action effects are obtained.
Further, as a third other aspect, although not shown, the shape of the first oil thrower portion 26 is not limited to the overhang shape that projects in parallel to the upper surface 21a of the flange-shaped portion 21. For example, in the distal end portion 26a of the first oil thrower portion 26, a portion may be formed, the portion extending downwardly from the lower surface of the flange-shaped portion 22 of the oil pan 12. Thus, the lubricating oil is guided further down from the distal end portion 26a of the first oil thrower portion 26 so that the lubricating oil does not return to the oil pan 12 side.
In the foregoing embodiment, the case is described as an example in which both the first oil thrower portion 26 and the second oil thrower portion 27 are formed. However, the disclosure is not limited to this, and either one of the first oil thrower portion 26 and the second oil thrower portion 27 may be formed in accordance with a leakage amount of the lubricating oil. The case is described as an example in which the second oil thrower portion 27 is installed on the oil pan 12 side. However, the disclosure is not limited to this, and the second oil thrower portion 27 may be formed together with the skirt-shaped portion on the side of the flange-shaped portion 22 of the crankcase 11.
The embodiment of the disclosure has been disclosed. It is obvious to a person skilled in the art that changes can be made without departing from the scope of the disclosure. All of modifications and equivalents are intended to be included in the following claims.
Number | Date | Country | Kind |
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2017-095540 | May 2017 | JP | national |