JP2012117480A - Oil pan structure for vehicle engine - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an oil pan structure for a vehicle engine that is configured in such a manner that air bubbles are unlikely to be taken in through an oil intake part even when there air bubbles mixed with the oil.SOLUTION: The oil pan structure includes an oil pan 2 storing oil 1 to be supplied to each part of the engine; an oil strainer 3 provided to be able to take in oil stored in the oil pan; an oil return channel 6 for causing the oil supplied to the respective parts of the engine to return to the oil pan; a partition wall 11 partitioning the inside of the oil pan into an oil intake region 9 by the oil strainer and an oil return region 10 to which the oil is returned from the oil return channel; and a communication channel 12 communicating the oil intake region with the oil return region at a position lower than the oil intake part 7 of the oil strainer.

Description

  The present invention relates to an oil pan that stores oil supplied to each part of the engine, an oil strainer that is provided so as to be able to suck oil stored in the oil pan, and oil supplied to each part of the engine is returned to the oil pan. The present invention relates to an oil pan structure for a vehicle engine having an oil return path.

The oil pan structure of the above-described vehicle engine circulates oil to each part of the engine, for example, for lubrication and cooling for the crankshaft and for operation of hydraulic equipment such as the lash adjuster equipped on the engine. It is provided to supply.
For this reason, if the oil pump bites bubbles mixed with oil or supplies oil mixed with bubbles to a hydraulic equipment, there is a possibility that the operation of the oil pump may be hindered.
Further, when oil mixed with bubbles is supplied for lubrication or cooling, there is a possibility that a desired lubrication effect or cooling effect cannot be obtained.
In the conventional oil pan structure, the outlet of the oil recirculation path is opened at a position lower than the liquid level of the stored oil and higher than the oil suction portion of the oil strainer in the oil pan ( For example, see Patent Document 1).

JP 2001-98916 A

For this reason, the oil recirculated from the outlet of the oil recirculation path to the oil pan short-passes and is easily sucked from the oil suction portion in a short time.
Therefore, if bubbles are mixed in the oil, the bubbles may be sucked from the oil suction portion before being separated from the oil.
The present invention has been made in view of the above circumstances, and an object of the present invention is to provide an oil pan structure for a vehicle engine in which even if air bubbles are mixed in the oil, the air bubbles are hardly sucked from the oil suction portion.

  A first characteristic configuration of the present invention includes an oil pan for storing oil supplied to each part of the engine, an oil strainer provided so as to be able to suck oil stored in the oil pan, and oil supplied to each part of the engine. An oil return path for returning to the oil pan; a partition wall that divides an interior of the oil pan into an oil suction area by the oil strainer and an oil return area for returning oil from the oil return path; and the oil suction And a communication passage that communicates the region and the oil recirculation region at a position lower than the oil suction portion of the oil strainer.

The oil pan structure of the vehicle engine having this configuration has a partition wall that divides the inside of the oil pan into an oil suction area by an oil strainer and an oil return area in which oil is returned from the oil return path.
For this reason, even if bubbles are generated in the oil stored in the oil pan due to an impact caused by the oil returned from the outlet of the oil return path falling to the oil pan, the oil stored in the oil suction area A situation in which new bubbles are generated can be prevented.
Thereby, the bubble mixing rate in the oil sucked from the oil suction portion can be lowered.

In addition, the oil pan structure of the vehicular engine having this configuration includes a communication passage that connects the oil suction area and the oil recirculation area at a position lower than the oil suction section of the oil strainer.
For this reason, the oil recirculated to the oil recirculation area is caused to flow into the oil intake area via a communication path that connects the oil intake area and the oil recirculation area at a position lower than the oil intake area. Can be inhaled.
Therefore, the time required for the oil recirculated from the outlet of the oil recirculation path to move to the oil suction portion becomes long, and even if bubbles are mixed in the oil, the bubbles are easily separated during the movement of the oil.
Therefore, with the oil pan structure of the vehicle engine having this configuration, even if bubbles are mixed in the oil, the bubbles are hardly sucked from the oil suction portion.

  The second characteristic configuration of the present invention is that the partition wall is configured by an inner pan surrounding the oil strainer, and the communication path is formed through the bottom plate of the inner pan.

  If it is this structure, isolation | separation of the bubble mixed with oil can be accelerated | stimulated using the inner pan equipped conventionally, and the increase in manufacturing cost and an engine weight can also be suppressed.

1 shows an oil pan structure of a vehicle engine, in which (a) is a cross-sectional side view and (b) is a plan view seen from the upper surface side of a baffle plate. The oil pan structure of 2nd Embodiment is shown, (a) is a cross-sectional side view, (b) is the top view seen from the upper surface side of the baffle plate. The oil pan structure of 3rd Embodiment is shown, (a) is a cross-sectional side view, (b) is the top view seen from the upper surface side of the baffle plate.

Embodiments of the present invention will be described below with reference to the drawings.
[First Embodiment]
FIG. 1 shows an oil pan structure of a vehicle engine according to the present invention provided at a lower portion of an engine E.
The oil pan structure includes an oil pan 2 that stores engine oil (hereinafter simply referred to as oil) 1 that is supplied to each part of the engine, an oil strainer 3 that is provided so that the oil 1 stored in the oil pan 2 can be sucked, An inner pan 4 surrounding the oil strainer 3, a baffle plate 5 covering the upper portion of the oil pan 2, and an oil return path 6 for returning the oil 1 supplied to each part of the engine to the oil pan 2.

The oil strainer 3 includes a circular oil suction part 7 having an oil suction port 7a that opens downward, and an oil suction pipe 8 connected to the oil suction part 7 in a concentric shape, and includes an oil suction port 7a. Is equipped with a wire mesh screen 7b.
The oil suction pipe 8 is provided through the baffle plate 5.

The oil strainer 3 is provided so that the oil 1 can be sucked from the oil suction port 7a by driving of an oil pump (not shown) connected to the oil suction pipe 8.
The oil 1 sucked from the oil strainer 3 is used for lubrication and cooling for the crankshaft (not shown) and the like for hydraulic equipment (not shown) such as a lash adjuster installed in the engine E. For operation, it is circulated and supplied to each part of the engine.

The inner pan 4 has a cylindrical side wall 4a and a circular bottom plate 4b concentrically, and the upper end of the side wall 4a is joined to the baffle plate 5 over the entire circumference.
The inner pan 4 has an oil recirculation area (an area outside the inner pan 4) in which the oil 1 is recirculated from the oil suction area (an area inside the inner pan 4) 9 and the oil recirculation path 6. A partition wall 11 partitioned into (region) 10 is formed.

A communication path 12 that connects the oil suction area 9 and the oil recirculation area 10 is provided at a position lower than the oil suction portion 7 of the oil strainer 3.
Specifically, a plurality of communication passages 12 communicating with each other at a position lower than the oil suction port 7 a are formed through the bottom plate 4 b of the inner pan 4.
The communication path 12 is composed of a circular through hole formed through the bottom plate 4b.

  The oil recirculation path 6 is configured by providing a baffle plate 5 and an oil recirculation pipe 15 joined to the baffle plate 5 so as to open on the upper surface thereof, and the oil 1 flowing down from each part of the engine is disposed on the upper surface side of the baffle plate 5. And is refluxed to the oil reflux zone 10 through the oil reflux pipe 15.

The oil recirculation pipe 15 is provided such that the lower end thereof enters below the liquid level 13 of the oil 1 stored in the oil pan 2.
For this reason, the oil 1 is less likely to fall into the oil recirculation zone 10 while being scattered from the outlet 14 of the oil recirculation path 6, and bubbles are unlikely to be mixed with the oil 1.

  The upper part of the inner pan 4 is closed by a baffle plate 5, and the oil 1 flowing down from each part of the engine is returned to the oil return area 10 and then flows into the oil suction area 9 through the communication path 12, and the oil strainer 3. Inhaled.

  Accordingly, it takes a long time for the oil 1 recirculated from the outlet 14 of the oil recirculation path 6 to move to the oil suction portion 7, and even if air bubbles are mixed in the oil 1, the air bubbles are sucked into the oil strainer 3 before being sucked into the oil strainer 3. Easy to separate.

[Second Embodiment]
FIG. 2 shows another embodiment of the present invention.
In this embodiment, in addition to the communication passage 12 formed in the bottom plate 4b of the inner pan 4, the side wall 4a constituting the partition wall 11 is provided with an oil suction area 9 and an oil return area at a position higher than the oil suction port 7a. An upper communication path 16a that communicates with the oil suction area 9 and a lower communication path 16b that communicates between the oil suction area 9 and the oil recirculation area 10 are formed at a position lower than the oil suction port 7a.

As shown in FIG. 2B, the upper communication path 16a and the lower communication path 16b are formed on the side wall 4a farthest from the outlet 14 of the oil return path 6 in plan view.
Accordingly, it takes a long time for the oil 1 recirculated from the outlet 14 of the oil recirculation path 6 to move to the oil suction portion 7 through the upper communication path 16a and the lower communication path 16b, and even if bubbles are mixed in the oil 1. It is easy to separate the bubbles during the movement of the oil 1.

According to the present embodiment, in addition to the communication path 12 formed in the bottom plate 4b, the oil 1 that has flowed into the oil suction area 9 through the upper communication path 16a and the lower communication path 16b is also in an oil suction portion in a state where there is little mixing of bubbles. 7 can be inhaled. Therefore, it is easier to further promote the separation of bubbles by reducing the moving speed of the oil 1 passing through the communication passage 12 while sucking the required amount of oil 1 into the oil suction portion 7.
Other configurations are the same as those of the first embodiment.

[Third Embodiment]
FIG. 3 shows another embodiment of the present invention.
In this embodiment, instead of the inner pan 4, a partition wall 17 is provided in the oil pan 2 to separate the side on which the outlet 14 of the oil return path 6 is disposed from the side on which the oil strainer 3 is disposed. A partition wall 11 divides the inside of the oil pan 2 into an oil suction area 9 and an oil recirculation area 10.

The upper end of the partition wall 17 is joined to the baffle plate 5 over the entire length.
A plurality of communication passages 12 are formed through the partition wall 17 to connect the oil suction area 9 and the oil recirculation area 10 at a position lower than the oil suction port 7 a of the oil strainer 3.
According to this embodiment, compared with the case where the inner pan 4 is provided and divided into the oil suction area 9 and the oil recirculation area 10, the structure can be simplified.
Other configurations are the same as those of the first embodiment.

[Other Embodiments]
1. In the oil pan structure of the vehicle engine according to the present invention, the oil return path may be configured by a lower end of a through hole whose outlet is formed in the baffle plate.
2. In the second embodiment, the oil pan structure of the vehicle engine according to the present invention may include only the lower communication path 16b without including the communication path 12 and the upper communication path 16a formed in the bottom plate 4b of the inner pan 4. .
Thereby, since the distance from the exit 14 of the oil recirculation path 6 to the lower communication path 16b can be lengthened, bubbles can be appropriately separated.
3. The oil pan structure for a vehicle engine according to the present invention is such that, in the first and second embodiments, the inner pan 4 is formed in a structure having a cylindrical side wall 4a and a circular bottom plate 4b. It is not limited to those. For example, it may have a structure including a side wall of a polygonal cylinder such as a triangular cylinder or a square cylinder and a bottom plate of a polygonal shape such as a triangle or a quadrangle.
4). The oil pan structure of the vehicle engine according to the present invention is formed so that the partition wall 11 is joined to the baffle plate 5 in the first to third embodiments. However, instead of or in addition to the baffle plate 5, an oil pan or You may form so that it may join to the cylinder block of an engine.

  The present invention relates to an oil pan that stores oil supplied to each part of the engine, an oil strainer that is provided so as to be able to suck oil stored in the oil pan, and oil that recirculates oil supplied to each part of the engine to the oil pan. The present invention can be used for an oil pan structure of a vehicle engine having a reflux path.

DESCRIPTION OF SYMBOLS 1 Oil 2 Oil pan 3 Oil strainer 4 Inner pan 4b Bottom plate 6 Oil return path 9 Oil suction area 10 Oil return area 11 Partition wall 12 Communication path

Claims (2)

An oil pan for storing oil supplied to each part of the engine;
An oil strainer provided so as to be able to suck oil stored in the oil pan;
An oil recirculation path for recirculating oil supplied to each part of the engine to the oil pan;
A partition wall that divides the inside of the oil pan into an oil suction area by the oil strainer and an oil return area in which oil is returned from the oil return path;
An oil pan structure for a vehicle engine having a communication path that connects the oil suction area and the oil recirculation area at a position lower than an oil suction portion of the oil strainer. The partition wall is composed of an inner pan surrounding the oil strainer;
2. The oil pan structure for a vehicle engine according to claim 1, wherein the communication passage is formed so as to penetrate the bottom plate of the inner pan.

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