The present invention relates to a double sump oil pan having an inner sump and an outer sump.
Conventionally, double sump oil pans have been known, which include a separator installed therein to partition the interior into an inner sump and an outer sump from each other. Refer, for example, to Patent Document 1. In such an oil pan, only the oil that is stored in the inner sump is circulated after the engine is started to quickly increase the temperature of the oil, thereby reducing friction at parts requiring lubrication.
Patent Document 1: Japanese Laid-Open Patent Publication No. 2011-226394
When oil is used for lubrication of an internal combustion engine, the oil temperature is increased. The heated oil then trickles down the inner wall of the cylinder block. When such trickled oil enters the outer sump, the amount of oil returned to the inner sump is reduced. This delays increase in the temperature of the oil in the inner sump.
Accordingly, it is an objective of the present invention to provide an oil pan that restricts oil trickling down the inner wall of a cylinder block from entering an outer sump, thereby allowing the oil in the inner sump to be easily heated.
To achieve the foregoing objective and in accordance with one aspect of the present invention, a double sump oil pan is provided that includes a separator made of plastic that partitions an interior of the oil pan into an inner sump and an outer sump, a plate, and an elastically deformable sealing member attached to the plate. The sealing member closely contacts an inner wall of the oil pan, thereby sealing the outer sump. The plate and the separator are fixed to each other.
According to the above configuration, when the separator is installed in the oil pan, the sealing member is elastically deformed to closely contact the inner wall of the oil pan, thereby sealing the outer sump. This restricts oil trickling down the inner wall of the cylinder block from entering the outer sump, thereby allowing the oil in the inner sump to be easily heated.
Depending on the shape or the size of the separator, the sealing member cannot be directly attached to the separator in some cases. In this regard, the above described configuration includes a plate that is smaller in size than the separator and is easy to handle, and the sealing member for sealing the outer sump is attached to the plate. The plate with the sealing member is fixed to the separator. This allows the sealing member to be easily attached to the separator.
In such a configuration, the separator preferably has a protrusion, and the plate preferably has an insertion hole, which receives the protrusion. Also, the plate and the separator are preferably fixed to each other by heat-swaging the protrusion. This allows the sealing member to be arranged at a desired position on the separator.
The sealing member of the double sump oil pan is preferably a rubber lip. The rubber lip is easily elastically deformed to conform to the shape of the inner wall of the outer sump, thereby further closely contacting the inner wall. This further improves the sealing property of the outer sump.
In the double sump oil pan, the plate preferably has a ring-like shape, and the sealing member is preferably attached to an entire perimeter of the plate. This improves the sealing property of the outer sump, thereby allowing the oil to be more easily heated.
A double sump oil pan according to one embodiment will now be described with reference to
As shown in
The separator 5 divides the interior of the oil pan 4 into an inner sump 6 and an outer sump 7. The inner sump 6 accommodates an oil strainer 8, which pumps up stored oil. The separator 5 has through holes 9 in the side walls to connect the inner sump 6 and the outer sump 7 to each other. The separator 5 further has a flange 11, which protrudes outward from the upper end, that is, toward the inner wall 10 of the oil pan 4. The flange 11 extends over the entire perimeter of the separator 5. The flange 11 has protrusions 12, which are arranged at intervals along the perimeter.
As shown in
The plate 13 has insertion holes 15, which are arranged at intervals along the perimeter. The insertion holes 15 each receive one of the protrusions 12 of the separator 5. The protrusions 12 are heat-swaged so that the distal ends of the protrusions 12 and the upper surface of the flange 11 hold the plate 13, so that the plate 13 is fixed to the separator 5.
Operation of the oil pan 4 having the above described structure will now be described.
After the engine is started, the oil pump is activated to pump up oil from the inner sump 6 via the oil strainer 8. The pumped-up oil lubricates engine components and is heated. Thereafter, the oil is returned to the oil pan 4 via the oil drain passage 3 and an oil passage formed inside the crankshaft 2. Some of the oil is scattered by rotation of the crankshaft 2 and trickles down the inner wall of the cylinder block 1 to be returned to the oil pan 4.
In the present embodiment, the rubber lip 14, which is attached to the plate 13, seals the outer sump 7. Therefore, as shown in
When the engine is stopped, pumping up of oil is stopped and oil that has lubricated engine components is returned to the inner sump 6. This raises the level of the oil stored in the inner sump 6, so that some of the stored oil flows to the outer sump 7 through the through holes 9. Since oil flows from the inner sump 6 to the outer sump 7 and is dispersed, deterioration of the oil in the inner sump 6 is reduced.
Depending on the shape or the size of the separator 5, the rubber lip 14 cannot be directly attached to the separator 5 in some cases. In this regard, the present embodiment includes the plate 13, which is smaller in size than the separator 5 and is easy to handle, and the rubber lip 14 for sealing the outer sump 7 is attached to the plate 13. The plate 13 is fixed to the separator 5 by heat-swaging. This allows the rubber lip 14 to be easily attached to a desired position on the separator 5.
When attaching the separator 5, to which the plate 13 is fixed, to the oil pan 4, the separator 5 is inserted into the oil pan 4 such that the rubber lip 14 on the plate 13 is elastically deformed to closely contact the inner wall 10 of the oil pan 4. The oil pan 4 has such a shape that the distance between the opposed faces of the inner wall 10 decreases toward the lower end. Therefore, by pressing the separator 5 toward the bottom of the oil pan 4, the rubber lip 14 is caused to tightly contact the inner wall 10 of the oil pan 4. As a result, the separator 5 is attached to the oil pan 4 while sealing the outer sump 7.
The above described embodiment has the following advantages.
(1) Oil trickling down the inner wall of the cylinder block 1 is restricted from entering the outer sump 7, so that the oil in the inner sump 6 is allowed to be easily heated. The present embodiment includes the plate 13, which is smaller in size than the separator 5 and is easy to handle, and the rubber lip 14 for sealing the outer sump 7 is attached to the plate 13. The plate 13 is fixed to the separator 5. This allows the rubber lip 14 to be easily attached to the separator 5.
(2) The plate 13 is fixed to the separator 5 by heat-swaging. This allows the rubber lip 14 to be easily arranged at a desired position on the separator 5 and facilitates the work.
(3) The rubber lip 14, which seals the outer sump 7, is easily elastically deformed to conform to the shape of the inner wall 10 of the oil pan 4. This allows the rubber lip 14 and the inner wall 10 to tightly contact each other, thereby further improving the sealing property of the outer sump 7.
(4) The plate 13 has a ring-like shape, and the rubber lip 14 is attached to the entire perimeter of the plate 13. The rubber lip 14 closely contacts the inner wall 10 of the oil pan 4. This improves the sealing property of the outer sump 7, thereby allowing the oil to be more easily heated.
The above illustrated embodiment may be modified as follows.
In the above illustrated embodiment, the rubber lip 14 is attached to the perimeter of the plate 13. However, as long as the outer sump 7 can be sealed, the manner in which the rubber lip 14 is attached is not limited.
The plate 13 does not necessarily need to have a ring-like shape, but may be split into several pieces. In this case, a rubber lip is attached to each of the pieces.
In the illustrated embodiment, a rubber lip is employed as a sealing member for sealing the outer sump 7. However, other types of sealing members such as a liquid gasket may be employed. This configuration also achieves the same advantages as the above described advantages (1) and (2).
In the illustrated embodiment, plastic is used as the material of the plate 13. However, the plate 13 may be made of other material such as metal.
In the above illustrated embodiment, the separator 5 and the plate 13 are fixed to each other by the heat-swaging. However, if metal is used as the material of the plate 13, the plate 13 may be mechanically swaged to be fixed to the separator 5.
In the illustrated embodiment, the separator 5 and the plate 13 are fixed to each other by swaging. However, the separator 5 and the plate 13 may be fixed to each other by other methods. For example, adhesive may be applied to the separator 5 and the plate 13 and the separator 5 and the plate 13 may be bonded to each other. The separator 5 and the plate 13 may also be welded to each other. Alternatively, the separator 5 and the plate 13 may be fastened to each other with bolts. As other methods for fixing, the protrusions 12 of the separator 5 may be formed with hooks and the plate 13 may be fixed to the separator 5 by snap-fitting. Further, the separator 5 and the plate 13 may be integrated with clips. These configurations at least achieve the same advantage as the advantage (1).
Number | Date | Country | Kind |
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2013-135211 | Jun 2013 | JP | national |
Filing Document | Filing Date | Country | Kind |
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PCT/JP2014/067156 | 6/27/2014 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
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WO2014/208720 | 12/31/2014 | WO | A |
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Number | Date | Country | |
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20160010521 A1 | Jan 2016 | US |