JP2015102042A - Oil level measuring structure - Google Patents

Abstract

PROBLEM TO BE SOLVED: To avoid the contact of a tip part of an oil gauge with an inner wall of an oil level gauge guide.SOLUTION: An oil level gauge 6 having a crest part 6b is inserted into an oil level gauge guide 4 having a first guide part 4a formed at a cylinder block 1, and a third guide part 4c formed at a cover 5 which is assembled to the cylinder block 1. The crest part 6b is bent so as to be formed into a trapezoidal shape which protrudes to a thickness direction of the oil level gauge 6. A length in a direction in which the oil level gauge 6 at an apex 6c of the crest part 6b extends is formed so as to be longer than a clearance C between the first guide part 4a and the third guide part 4c. By this constitution, it is suppressed that the crest part 6b of the oil level gauge 6 intrudes into the clearance C, and a tip part 6a of the oil level gauge 6 contacts with an inner wall of the oil level gauge guide 4 by the intrusion of the crest part.

Description

  The present invention relates to an oil level measurement structure.

  As an oil level measurement structure for confirming the height position of the oil level of the oil accumulated in the oil pan of the internal combustion engine, an oil level gauge guide formed on the cylinder block of the engine and the oil level gauge guide An oil level gauge that can be inserted and removed is known.

  In such an oil level measurement structure, when the oil level gauge is inserted into the oil level gauge guide, the tip of the oil level gauge is immersed in the oil accumulated in the oil pan. For this reason, the height position of the oil level of the oil accumulated in the oil pan can be confirmed by pulling out the oil level gauge from the oil level gauge guide and observing the position of the oil attached at the tip.

  Patent Document 1 describes that an oil level gauge is provided with a peak portion protruding in the thickness direction. By this peak portion, when the oil level gauge is inserted into the oil level gauge guide, the tip of the oil level gauge can be prevented from coming into contact with the inner wall of the oil level gauge guide.

JP2013-83167A

  By the way, depending on the configuration of the oil level gauge guide, if the above-described peak portion is simply provided on the oil level gauge, when the oil level gauge is inserted into the oil level gauge guide, the oil level gauge against the inner wall of the oil level gauge Contact of the tip may not be avoided. And if the tip of the oil level gauge is in contact with the inner wall of the oil level gauge, when the oil level gauge is pulled out of the oil level gauge guide, the oil attachment position at the tip becomes inaccurate. The height position of the oil level of the oil accumulated in the oil pan by checking the adhesion position cannot be correctly confirmed.

  An object of the present invention is to provide an oil level measurement structure that can prevent the tip of an oil level gauge from contacting the inner wall of an oil level gauge guide.

Hereinafter, means for solving the above-described problems and the effects thereof will be described.
In the oil level measurement structure that solves the above problem, the oil level gauge is inserted into the oil level gauge guide, so that the tip of the oil level gauge is immersed in the oil accumulated in the oil pan. The oil level gauge guide from which the oil level gauge is inserted and removed includes a block side guide portion formed in a cylinder block of the internal combustion engine, and a cover side guide portion formed in a cover assembled to the cylinder block. In such an oil level gauge guide, a clearance is generated between the block side guide part and the cover side guide part, and the clearance may adversely affect the oil level gauge inserted into the oil level gauge guide. That is, the oil level gauge is formed with a crest protruding in the thickness direction, and the crest may enter the clearance. In this case, it is difficult to avoid contact of the tip of the oil level gauge with the inner wall by hitting the peak portion against the inner wall of the oil level gauge guide.

  In order to cope with such a situation, the peak portion of the oil level gauge is formed such that the length of the peak portion in the extending direction of the gauge is longer than the clearance. For this reason, when an oil level gauge is inserted in an oil level gauge guide, it can prevent that the peak part of an oil level gauge enters into the clearance of a block side guide part and a cover side guide part. Further, the peak portion is also formed so that the top portion thereof hits the inner wall of the oil level gauge guide. For this reason, it is possible to prevent the tip of the oil level gauge from coming into contact with the inner wall by applying the peak portion to the inner wall of the oil level gauge guide.

(A) And (b) is sectional drawing which shows the oil level measurement structure of an internal combustion engine, and the enlarged view which shows the front-end | tip part periphery of an oil level gauge. (A) And (b) is sectional drawing which shows the oil level measurement structure of an internal combustion engine, and the enlarged view which shows the front-end | tip part periphery of an oil level gauge.

Hereinafter, an embodiment of an oil level measurement structure will be described with reference to FIGS. 1 and 2.
In the internal combustion engine shown in FIG. 1A, an oil level measuring structure for confirming the height position of the oil level of the oil accumulated in the oil pan 3 is adopted. In this oil level measurement structure, an oil level gauge guide 4 is formed in the cylinder block 1 and the cylinder head 2 of the internal combustion engine, and the oil level gauge guide 4 is used for confirming the height position of the oil surface of the oil. Oil level gauge 6 is inserted. In a state where the oil level gauge 6 is inserted into the oil level gauge guide 4, the tip portion 6 a of the oil level gauge 6 is immersed in the oil accumulated in the oil pan 3. For this reason, it is possible to confirm the height position of the oil level of the oil accumulated in the oil pan 3 by pulling out the oil level gauge 6 from the oil level gauge guide 4 and observing the oil adhesion position at the tip portion 6a. it can.

  The oil level gauge guide 4 includes a first guide portion 4a that opens on a surface A (upper surface in the drawing) on the cylinder head 2 side in the cylinder block 1 and a surface B (lower surface in the drawing) on the oil pan 3 side in the cylinder block 1. And a second guide portion 4b that opens. The first guide portion 4 a and the second guide portion 4 b serve as block side guide portions that are portions formed in the cylinder block 1 in the oil level gauge guide 4. Furthermore, the oil level gauge guide 4 also includes a third guide portion 4 c that serves as a cover-side guide portion formed on the cover 5 assembled to the cylinder block 1. Examples of the cover 5 include a PCV chamber cover in a PCV (Positive Crankcase Ventilation) system.

  The cylinder block 1 is formed with a recess 7 that is recessed from the side surface between the first guide portion 4a and the second guide portion 4b. On the other hand, the cover 5 is assembled to the side surface of the cylinder block 1 and includes a protrusion 8 that is inserted into the recess 7 by the assembly. The projection 8 is formed with the third guide portion 4c. The third guide portion 4c is positioned so as to allow the first guide portion 4a and the second guide portion 4b to communicate with each other by assembling the cover 5 separate from the cylinder block 1 to the side surface of the cylinder block 1. To do. And the part which penetrates the cylinder block 1 in the oil level gauge guide 4 is formed of these 1st guide parts 4a, the 2nd guide part 4b, and the 3rd guide part 4c.

  By forming the portion penetrating the cylinder block 1 in the oil level gauge guide 4 as described above, the degree of freedom of the shape of the cylinder block 1 can be increased. If the third guide portion 4c is formed not in the cover 5 but in the cylinder block 1, the following problem occurs. That is, the portions (the first guide portion 4a, the second guide portion 4b, and the third guide portion 4c) that penetrate the cylinder block 1 in the oil level gauge guide 4 are aligned so that the mold can be removed when the cylinder block 1 is cast. And have the same diameter in the length direction. And these cause the degree of freedom of the shape of the cylinder block 1 to be reduced. However, as described above, the cylinder block 1 in the oil level gauge guide 4 is assembled by assembling the cover 5 having the third guide portion 4c to the cylinder block 1 having the first guide portion 4a and the second guide portion 4b. Since the part which penetrates is formed, generation | occurrence | production of the problem mentioned above can be avoided.

  That is, even if the positions of the first guide portion 4a and the second guide portion 4b are displaced in the radial direction or the diameters of the two are different, the first guide portion 4a and the second guide portion are caused by the third guide portion 4c. The oil level gauge guide 4 can be formed by connecting the portion 4b. Specifically, the oil level gauge guide 4 can be formed by setting the shape of the third guide portion 4c to a shape capable of connecting the first guide portion 4a and the second guide portion 4b. Therefore, when forming the oil level gauge guide 4, it is not always necessary to form the first guide portion 4a and the second guide portion 4b in a straight line or in the same diameter, and the formation mode thereof is a cylinder block. It does not cause the degree of freedom of the shape of 1 to be reduced. For this reason, the freedom degree of the shape of the cylinder block 1 can be enlarged.

Next, the detailed shape of the oil level gauge 6 will be described.
FIG. 1B shows an enlarged view of the front end portion 6a of the oil level gauge 6 and its surroundings. As can be seen from the figure, the oil level gauge 6 is formed in a thin bar shape. A peak portion 6b is bent at the upper portion of the oil level gauge 6 in the drawing relative to the tip portion 6a so as to protrude in the thickness direction of the oil level gauge 6 (left and right in the drawing). When the oil level gauge 6 is inserted into the oil level gauge guide 4 as shown in FIG. 1 (a), the mountain portion 6b has a first guide portion 4a (block side guide portion) and a third guide portion 4c (cover side guide). Part) and corresponding to the clearance C. That is, the position of the peak portion 6b in the direction in which the oil level gauge 6 extends is determined so that the peak portion 6b is positioned as such.

  As shown in FIG. 1B, the peak 6 b protrudes in a trapezoidal shape in the thickness direction of the oil level gauge 6. The length in the direction (vertical direction in the drawing) of the oil level gauge 6 at the top portion 6c of the peak portion 6b is longer than the clearance C between the first guide portion 4a and the third guide portion 4c. Further, the protruding amount of the peak portion 6b in the thickness direction is set to a value at which the top portion 6c hits the inner wall of the oil level gauge guide 4 (first guide portion 4a, third guide portion 4c). Accordingly, when the oil level gauge 6 is inserted into the oil level gauge guide 4 as shown in FIG. 1A, the peak portion 6b is brought into contact with the inner wall of the oil level gauge guide 4 so that the oil level gauge 6 is in contact with the inner wall. The relative position in the thickness direction can be determined appropriately.

  An appropriate relative position of the oil level gauge 6 in the thickness direction with respect to the inner wall of the oil level gauge guide 4 is a position where the tip portion 6a does not contact the inner wall of the oil level gauge guide 4 (second guide portion 4b). It is done. This is because if the tip 6a of the oil level gauge 6 comes into contact with the inner wall of the oil level gauge guide 4, the oil adhesion position at the tip 6a is incorrect when the oil level gauge 6 is pulled out from the guide 4. Therefore, it is related to the fact that the height position of the oil level of the oil accumulated in the oil pan 3 by checking the adhesion position cannot be correctly confirmed. As can be seen from this, in order to correctly confirm the height position of the oil level of the oil accumulated in the oil pan 3, the oil level gauge 6 with respect to the inner wall of the oil level gauge guide 4 in the thickness direction. The relative position needs to be a position where the tip 6 a does not contact the inner wall of the oil level gauge guide 4.

Next, the operation of the oil level measurement structure in this embodiment will be described.
In the oil level gauge guide 4 including the first guide portion 4 a formed in the cylinder block 1 and the third guide portion 4 c formed in the cover 5 assembled to the cylinder block 1, the peak portion 6 b of the oil level gauge 6 is Depending on the shape, the clearance C between the first guide part 4 a and the third guide part 4 c may adversely affect the oil level gauge 6.

  For example, if the peak portion 6b is formed in the shape shown in FIGS. 2A and 2B, the peak portion 6b enters the clearance C. In this case, the contact of the tip portion 6a of the oil level gauge 6 with the inner wall can be avoided by applying the peak portion 6b to the inner wall of the oil level gauge guide 4 (first guide portion 4a, third guide portion 4c). It becomes difficult. As a result, the oil attachment position at the tip 6a of the oil level gauge 6 becomes inaccurate, and the height position of the oil level of the oil accumulated in the oil pan 3 can be correctly confirmed by observing the attachment position. The problem of disappearing arises.

  In order to cope with this, the peak portion 6b of the oil level gauge 6 has a length in the extending direction of the oil level gauge 6 at the top portion 6c that is longer than the clearance C as shown in FIG. Is formed. For this reason, when the oil level gauge 6 is inserted into the oil level gauge guide 4 as shown in FIG. 1A, the peak portion 6b of the oil level gauge 6 is formed between the first guide portion 4a and the third guide portion 4c. Entering the clearance C can be prevented. The peak portion 6 b is also formed so that the top portion 6 c hits the inner wall of the oil level gauge guide 4. For this reason, by contacting the peak 6b with the inner wall of the oil level gauge guide 4, the contact of the tip 6a of the oil level gauge 6 with the inner wall can be avoided. As a result, the above-described problem is suppressed.

According to the embodiment described in detail above, the following effects can be obtained.
(1) The tip portion 6 a of the oil level gauge 6 can be prevented from contacting the inner wall of the oil level gauge guide 4.

  (2) Since the tip portion 6a of the oil level gauge 6 does not contact the inner wall of the oil level gauge guide 4, the height level of the oil level of the oil accumulated in the oil pan 3 using the oil level gauge 6 is confirmed. Can be done correctly.

In addition, the said embodiment can also be changed as follows, for example.
-In the cylinder block 1, the block side guide part of the oil level gauge guide 4 does not necessarily need to be divided into the first guide part 4a and the second guide part 4b. For example, only one block side guide portion of the oil level gauge guide 4 may be formed in the cylinder block 1.

-You may employ | adopt things other than a PCV chamber cover as the cover 5 in which the 3rd guide part 4c is formed.
Instead of forming the peak portion 6b by bending it into a trapezoidal shape, the peak portion 6b may be formed thicker than other portions of the oil level gauge 6.

  -The peak part 6b does not necessarily need to be trapezoidal.

  DESCRIPTION OF SYMBOLS 1 ... Cylinder block, 2 ... Cylinder head, 3 ... Oil pan, 4 ... Oil level gauge guide, 4a ... 1st guide part, 4b ... 2nd guide part, 4c ... 3rd guide part, 5 ... Cover, 6 ... Oil Level gauge, 6a ... tip, 6b ... mountain, 6c ... top, 7 ... concave, 8 ... projection.

Claims (1)

In an oil level measurement structure in which an oil level gauge guide into which an oil level gauge is inserted and removed is formed in a cylinder block of an internal combustion engine, and a peak portion protruding in the thickness direction is provided on the oil level gauge.
The oil level gauge guide includes a block side guide portion formed on the cylinder block and a cover side guide portion formed on a cover assembled to the cylinder block.
The crest portion of the oil level gauge has a length in the extending direction of the gage at the top portion longer than the clearance between the block side guide portion and the cover side guide portion, and the top portion is the oil level gauge guide. An oil level measuring structure characterized by being formed so as to hit the inner wall of the oil.