JP4099666B2 - Cylinder head structure - Google Patents

Description

  The present invention relates to a cylinder head structure of an SOHC engine, and more particularly to a rocker shaft fixing technique.

In general, an SOHC type engine has an intake rocker shaft that supports an intake rocker arm for driving an intake valve on both sides of the cam journal at the upper end surface of the cam journal, and the camshaft is pivotally supported by the cam journal at the center of the cylinder head. A pair of rocker shafts of the exhaust rocker shaft that supports the exhaust rocker arm for driving the exhaust valve is provided.
However, this configuration has a problem that a force to open the upper part of the cam journal part is applied to the rocker shaft due to the cam lift or valve drive, and a large burden is applied to the cam journal part and, consequently, the cylinder head.

  In recent years, a variable valve mechanism has often been applied in order to suppress harmful exhaust gas, improve fuel efficiency, and improve output performance. In particular, in a SOHC type engine, a cam-switchable variable valve mechanism has been applied. Progressing. In this cam-switching type variable valve mechanism, the weight of the rocker arm increases, so that the load applied to the rocker shaft further increases, and the above-described problems are more likely to occur.

Although it is conceivable to improve the material strength for this problem, the cylinder head is often cast from aluminum in order to reduce the weight, and a significant increase in the material strength cannot be expected.
Therefore, a technology has been developed to reinforce the cylinder head by fixing the rocker shaft by installing a rocker shaft cap, which is a plate-shaped reinforcing material, on the top of a pair of rocker shafts with a mounting bolt and fastening it to the cylinder head with the mounting bolt. (See Patent Document 1).

In addition, a camshaft holder is placed on the cylinder head, a journal portion of a pair of rocker shafts is formed in an arc shape on the upper surface of the cylinder head and the lower surface of the camshaft holder, and the pair of rocker shafts are sandwiched from above and below. There is also a technique of fixing (see Patent Document 2).
Japanese Utility Model Publication No. 2-103104 JP-A-6-317110

  However, in the technique disclosed in Patent Document 1, the upper and lower sides of the pair of rocker shafts are cut out to form a flat surface parallel to each other, the lower surface side is aligned with the cam journal portion having a flat upper end surface, and the lower surface is disposed on the upper surface side. Since a flat rocker shaft cap is installed, if there is a deviation due to height tolerance between the two rocker shafts or a deviation in parallelism difference between the flat surfaces, a plate-like There is a problem that the locking of the rocker shaft by the rocker shaft cap becomes unstable.

Further, in the case of this technology, since the mounting bolt penetrates the rocker shaft, there is a problem that when such a shift occurs, the lubricating oil flowing in the rocker shaft leaks and causes a problem.
In addition, the technique disclosed in Patent Document 2 has a problem that the rocker shaft is unstablely fixed if any deviation occurs between the arc interval on the upper surface of the cylinder head and the arc interval on the lower surface of the camshaft holder. .

In addition, tolerance control can be achieved by forming parallel flat surfaces on both top and bottom of the two rocker shafts with precision, or by trying to make the arc spacing on the upper surface of the cylinder head completely coincide with the arc spacing on the lower surface of the camshaft holder. Therefore, there is a problem that high processing accuracy is required and cost is increased accordingly.
The present invention has been made to solve such problems, and the object of the present invention is to provide a cylinder head that can securely fix a rocker shaft without requiring high machining accuracy and without high costs. To provide a structure.

  In order to achieve the above-described object, in the cylinder head structure according to claim 1, the camshaft is pivotally supported by the cam journal portion, and the cam journal portion is disposed on both sides above the camshaft on the upper end surface of the cam journal portion. In a cylinder head structure comprising a pair of rocker shafts, a plate-like rocker shaft cap installed on top of the pair of rocker shafts, and the rocker shaft cap and the rocker shaft fixed to a cam journal portion by a fixing means The support portions of the pair of rocker shafts on the upper end surface of the cam journal portion are each formed in an arc shape, and one of the pair of rocker shafts has a cylindrical shape and the other has a cylindrical shape and abuts on the rocker shaft cap. A portion is formed flat, and the one of the rocker shaft caps on the lower side of the rocker shaft cap Only the part to be supported is characterized in that it has an arc shape mating to the diameter of one cylindrical rocker shaft of the on Yafuto.

The cylinder head structure according to claim 2 is characterized in that the one cylindrical rocker shaft is an intake side, and the other rocker shaft formed with the flat portion is an exhaust side.
The cylinder head structure according to claim 3 is characterized in that the one cylindrical rocker shaft is on the exhaust side and the other rocker shaft on which the flat portion is formed is on the intake side.

According to the cylinder head structure of the present invention using the above means, the rocker shaft cap and the rocker shaft can be adjusted so that the rocker shaft is securely fixed to the cam journal portion of the cylinder head.
As a result, sufficient strength is ensured in the cam journal portion, and hence in the cylinder head, and a stable valve lift is realized even in a high rotation range, so that the output and the durability of the engine can be improved. .

According to the cylinder head structure of the second aspect, since the intake rocker shaft is not particularly processed, the rocker shaft can be securely fixed without reducing the rigidity of the intake rocker shaft. For example, this is effective when a variable valve mechanism or the like is provided on the intake rocker shaft and rigidity reduction cannot be allowed to maintain the dynamic characteristics of the valve system.
According to the cylinder head structure of the third aspect, since the exhaust rocker shaft is not particularly processed, the rocker shaft can be securely fixed without reducing the rigidity of the exhaust rocker shaft.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
Referring to FIG. 1, there is shown an overall longitudinal sectional view of a cylinder head structure according to the present invention.
As shown in FIG. 1, reference numeral 1 denotes, for example, a cylinder head of an SOHC type four-valve engine, and a cam shaft 2 is rotatably supported by a cam journal portion 1a provided in the cylinder head 1. ing. An intake rocker shaft 10 is provided on one side and an exhaust rocker shaft 11 is provided on the other side of the upper end surface of the cam journal portion 1a above the camshaft 2.

  These intake rocker shaft 10 and exhaust rocker shaft 11 (hereinafter also referred to as rocker shafts 10 and 11) include a plurality of intake rocker arms 12 and exhaust rocker arms 13 (hereinafter referred to as rocker arms 12 and 13 respectively) according to the number of cylinders of the engine. Is provided so as to be rotatable. Specifically, the rocker shafts 10 and 11 pass through intermediate portions of the rocker arms 12 and 13, and an intake cam follower 14 and an exhaust cam follower 15 made of rollers are formed on the camshaft 2 at one end on the camshaft side of the rocker arms 12 and 13. The heads of the intake valve 16 and the exhaust valve 17 are in contact with the other end, respectively.

Further, a rocker shaft cap 20 is installed on top of the rocker shafts 10 and 11, and the rocker shaft cap 20, the intake rocker shaft 10 and the exhaust rocker shaft 11 are cam journaled by mounting bolts (fixing means) 30 and 31. It is fastened to the part 1a.
2 and FIG. 3, the exploded perspective view of the rocker shaft portion of the cylinder head structure according to the present invention is shown in FIG. 2, and the longitudinal section of the rocker shaft portion of the cylinder head structure according to the present invention is shown in FIG. A plan view is shown, which will be described below with reference to FIGS.

As shown in FIG. 2, the rocker shaft support portions 4 and 5, which are portions that support the rocker shafts 10 and 11 on the upper end surface of the cam journal portion 1 a, are formed in an arc shape so as to match the diameter of the rocker shafts 10 and 11. Bolt holes 4a and 5a are formed at substantially central portions of the support portions 4 and 5, respectively.
The rocker shafts 10 and 11 have a hollow cylindrical shape, and a rocker shaft cap support portion 11b, which is a portion that supports the rocker shaft cap 20 above the exhaust rocker shaft 11, is cut out from the upper peripheral surface at a depth d1 to be flat. A through hole 11a having a diameter larger than that of the bolt hole 5a is formed in a substantially central portion of the support portion 11b, that is, a portion corresponding to the bolt hole 5a of the support portion 5. Further, a through hole 10a having substantially the same diameter as the bolt hole 4a is formed in a portion corresponding to the bolt hole 4a of the support portion 4 of the intake rocker shaft 10.

  The rocker shaft cap 20 has a plate shape, and a rocker shaft cap support portion 22 which is a portion supported by the intake rocker shaft 10 below the rocker shaft cap 20 has an arc shape so as to match the diameter of the rocker shaft 10. In addition, the rocker shaft 11 is notched at a depth d2 that is the same as the depth d1 of the cutout portion, and the portion corresponding to the through hole 10a of the rocker shaft 10 has a through hole 22a having a larger diameter than the through hole 10a. Is drilled. Further, the rocker shaft cap support portion 23 which is a portion supported by the exhaust rocker shaft 11 below the rocker shaft cap 20 remains flat, and the portion corresponding to the through hole 11a of the rocker shaft 11 has the through hole 11a. A through hole 23a having the same diameter is formed.

As shown in FIG. 3, the mounting bolt 30 is screwed into the bolt hole 4a through the through holes 22a and 10a, and the mounting bolt 31 is screwed into the bolt hole 5a through the through holes 23a and 11a. Thus, the rocker shaft cap 20 and the rocker shafts 10 and 11 are fixed to the cam journal portion 1a.
The operation of the thus configured cylinder head structure according to the present invention will be described below.

  As shown in FIG. 3, the through holes 22 a and 23 a of the rocker shaft cap 20 and the through hole 11 a of the exhaust rocker shaft 11 are formed larger than the diameters of the mounting bolts 30 and 31. The rocker shaft cap 20 is free to rotate to some extent around the rocker shaft 10 and slidable to some extent on the support portion 11b, and the exhaust rocker shaft 11 is free to rotate to some extent by the gaps between the through holes 22a, 23a and 11a. Yes (open arrow).

Thereby, attachment of the rocker shaft cap 20 can be adjusted and the rocker shaft corresponding to various situations can be fixed.
For example, in a structure in which the rocker shaft cap, which is a plate-like reinforcing material, is installed on the top of the rocker shaft by flattening the upper and lower portions of both support portions of the conventional rocker shaft, the rocker shaft cap hits one side due to the difference in parallelism, etc. However, since only the upper part of one rocker shaft is flattened in the present invention, there is no difference in parallelism, and such a problem cannot occur. In the case of the cylinder head structure according to the present invention, as shown in FIG. 4, the exhaust rocker shaft 11 is temporarily installed on the support portion 5 in a slightly rotated state, and the support portion 11 b comes into contact with the rocker shaft cap 20. Even in such a case, each time the mounting bolt 31 is screwed, the exhaust rocker shaft 11 rotates and is corrected to the correct position.

  Further, even if a difference in height due to the height tolerance of the two rocker shafts 10, 11 occurs, the rocker shaft cap 20 can be adjusted to the height of the exhaust rocker shaft 11 by rotating around the intake rocker shaft 10. At this time, the rocker shaft cap 20 is installed with a slight inclination, but even in such a case, the exhaust rocker shaft 11 rotates to match the inclination angle of the rocker shaft cap 20 as described above. Thus, the rocker shafts 10 and 11 are suitably fixed.

Further, in the structure in which the rocker shaft is sandwiched between journal portions formed in an arc shape in accordance with the conventional cylindrical rocker shaft, problems such as deviation of the arc interval have occurred, but in the rocker shaft cap 20 of the present invention, one of them is circular. Such a problem cannot occur because the arcuate structure and the other structure are flat.
As described above, in the cylinder head structure according to the present invention, the relative positional relationship and posture of the rocker shaft cap 20 and the rocker shafts 10 and 11 can be adjusted. it can. Therefore, it is not necessary to strictly control tolerances, the assembly of the engine is facilitated, and the rocker shafts 10 and 11 can be securely fixed to the cam journal 1a without incurring costs.

As a result, sufficient strength is ensured in the cam journal portion 1a, and hence the cylinder head 1, and a stable valve lift is realized even in a high rotation range, and the output and durability of the engine are improved. Can do.
Further, since the rocker shaft cap 20 is surely brought into contact with the rocker shafts 10 and 11 and the rocker shafts 10 and 11 are reliably brought into contact with the cam journal portion 1a, leakage of lubricating oil flowing in the rocker shafts 10 and 11 is prevented. Can also be prevented.

This is the end of the description of the embodiment of the cylinder head structure according to the present invention, but the embodiment is not limited to the above embodiment.
For example, in the above embodiment, the rocker shaft cap support portion 23 of the exhaust rocker shaft 11 is flat and the intake rocker shaft 10 is cylindrical. However, the present invention is not limited to this, and the rocker shaft cap support portion of the intake rocker shaft is not limited thereto. The exhaust rocker shaft may be cylindrical. Thereby, the rigidity of the exhaust rocker shaft is maintained.

  However, in general, the intake valve has a larger valve diameter than the exhaust valve, and a variable valve mechanism is often arranged on the intake side, which tends to increase the weight of the intake side valve system. The rigidity of the shaft must be maintained high, and it is preferable to keep the intake rocker shaft cylindrical and provide a flat portion on the exhaust rocker shaft.

1 is an overall longitudinal sectional view of a cylinder head structure according to the present invention. It is a disassembled perspective view of the rocker shaft part of the cylinder head structure concerning this invention. It is a longitudinal cross-sectional view of the rocker shaft part of the cylinder head structure concerning this invention. It is a figure which shows the state in which the rocker shaft which provided the flat part in the cylinder head structure which concerns on this invention was installed in some rotations.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Cylinder head 1a Cam journal part 2 Cam shaft 4, 5 Rocker shaft support part 4a, 5a Bolt hole 10 Intake rocker shaft 10a, 11a, 22a, 23a Through-hole 11 Exhaust rocker shaft 11b, 22, 23 Rocker shaft cap support part 20 Rocker shaft cap 30, 31 Mounting bolt

Claims (3)

A camshaft pivotally supported by the cam journal portion; and a pair of rocker shafts disposed on both sides of the camshaft above the camshaft on the upper end surface of the cam journal portion. In the cylinder head structure in which the rocker shaft cap is constructed and the rocker shaft cap and the rocker shaft are fixed to the cam journal portion by a fixing means.
The support portions of the pair of rocker shafts on the upper end surface of the cam journal portion are each formed in an arc shape,
One of the pair of rocker shafts is cylindrical, the other is cylindrical, and a portion that contacts the rocker shaft cap is formed flat,
A cylinder head structure characterized in that only a portion of the lower portion of the rocker shaft cap that is supported by the one cylindrical rocker shaft is formed in an arc shape in accordance with the diameter of the one cylindrical rocker shaft.   2. The cylinder head structure according to claim 1, wherein the one cylindrical rocker shaft is an intake side, and the other rocker shaft having a flat portion is an exhaust side.   The cylinder head structure according to claim 1, wherein the one cylindrical rocker shaft is an exhaust side, and the other rocker shaft having a flat portion is an intake side.

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