JP2010209853A - Valve moving mechanism of internal combustion engine - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a valve moving mechanism of an internal combustion engine provided with an adjuster support members having an oil supply path producing a reduced pressure loss without deteriorating the weight balance of the adjuster support members supporting a hydraulic adjusters. <P>SOLUTION: The valve moving mechanism is provided with the adjuster support members 40 including an adjuster holders 42 respectively provided at four corners with adjuster insertion holes 46a to 46d supporting hydraulic lash adjusters 38 in each cylinder, connection portions 44 connecting the adjuster holders 42 therebetween and oil supply path 48 formed so as to allow the oil to pass sequentially one-by-one through all insertion holes 46 in each of adjuster holders 42 from the adjuster hole 42#1 positioned at one end to the adjuster hole 42#4 positioned at other end. The connection oil paths 52 inside the connection portions 44 are formed so as to linearly connect the insertion hole 46 for an air intake valve 18 and the insertion hole 46 for an exhaust valve 22 to each other between the adjuster holders 42 adjacent to each other. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a valve operating mechanism for an internal combustion engine including a hydraulic lash adjuster.

  Conventionally, for example, Patent Document 1 discloses a valve mechanism for an internal combustion engine including a hydraulic (hydraulic pressure) lash adjuster. In this conventional valve mechanism, the lash adjuster for the intake valve and the lash adjuster for the exhaust valve are supported by a common support. Moreover, the said patent document 1 has described the point which arrange | positions all the oil flow paths which supply oil to each lash adjuster in the said support body.

JP-T-2002-526707 JP 58-88412 A JP 2008-45540 A

  However, Patent Document 1 does not describe details of an oil supply path to the hydraulic lash adjuster of each cylinder. By the way, in order to reduce the pressure loss of the oil supply path that supplies oil to the hydraulic lash adjuster and reduce the load on the oil pump, the oil supply path has a short and simple structure without sharp bends. It is desirable that Therefore, the hydraulic lash adjusters of each cylinder are supported by a single adjuster support member arranged on the cylinder head so as to bridge the cylinders, and then the individual lash adjusters of each cylinder are supported. It is conceivable to form an oil supply path in the adjuster support member so that oil is supplied one by one in order.

  Further, when considering the provision of the adjuster support member as described above, the adjuster support member is disposed on one side and the other side of the center line of the adjuster support member when the cylinder head is viewed from the axial direction of the combustion chamber. It is desirable that the weight balance be kept even. In order to maintain such an equal weight balance, it is conceivable that a connecting portion that connects the support portions of the cylinders in the adjuster support member is disposed on the center line. However, when such a connecting portion is provided and a communication oil passage through which oil flows is formed inside the connecting portion, a portion having a sharp bend in a part of the oil supply passage is generated. As a result, the pressure loss in the oil supply path increases.

  The present invention has been made to solve the above-described problems, and is an adjuster support member having an oil supply path with less pressure loss without deteriorating the weight balance of the adjuster support member that supports the hydraulic lash adjuster. It aims at providing the valve operating mechanism of an internal combustion engine provided with this.

The first invention is a valve operating mechanism of an internal combustion engine,
An adjuster support member disposed on the cylinder head so as to bridge to each cylinder, and supporting a hydraulic lash adjuster disposed in each cylinder;
The adjuster support member is
An adjuster holder provided for each cylinder, the first to fourth support portions for supporting the hydraulic lash adjuster provided at the four corners when the cylinder head is viewed from the axial direction of the combustion chamber;
A connecting portion for connecting the adjuster holder of each cylinder;
From the adjuster holder located at one end to the adjuster holder located at the other end, the oil is formed so as to sequentially pass through all the first to fourth support portions in each of the adjuster holders one by one. An oil supply path,
The oil supply path includes an oil path in the holder formed inside the adjuster holder, and a communication oil path formed in the connection part,
In each of the oil passages in the holder, first, oil is introduced into the first support portion which is one of the two support portions located on the upstream side of the oil flowing into the adjuster holder. Oil is introduced into the second support part located in the short direction of the cylinder head with respect to one support part, and then the third support located in the longitudinal direction of the cylinder head with respect to the second support part The oil is introduced into the part, and then the oil is introduced into the fourth support part positioned in the short direction of the cylinder head with respect to the third support part, and then the oil is discharged to the communication oil passage. Is formed so that
The communication oil passage is between the adjacent adjuster holders, the fourth support part in the adjuster holder on the upstream side of the oil, and the support part that is farther away from the fourth support part. It is formed so that the said 1st support part in the said downstream adjuster holder may be connected linearly.

The second invention is the first invention, wherein
In the internal combustion engine, when the cylinder head is viewed from the axial direction of the combustion chamber, all the intake valves of each cylinder are arranged on one side with respect to an imaginary straight line connecting the center points of the combustion chambers of each cylinder, and the other side All the exhaust valves are arranged,
The first to fourth support portions of the adjuster holder support the hydraulic lash adjusters for intake valves and exhaust valves in the same cylinder,
The communication oil passage is characterized by linearly connecting the support portion for the intake valve and the support portion for the exhaust valve between the adjacent adjuster holders.

  According to the first aspect of the present invention, the communication oil passages that connect adjacent adjuster holders are alternately inclined with respect to the longitudinal direction of the cylinder head. Accordingly, it is possible to obtain an oil supply passage having a short and simple structure with no sharp bend while placing the center of gravity of the adjuster support member on the center line. For this reason, it becomes possible to obtain an adjuster support member having an oil supply path with little pressure loss without causing deterioration in the weight balance of the adjuster support member.

  According to the second invention, when the cylinder head is viewed from the axial direction of the combustion chamber, all the intake valves of each cylinder are arranged on one side with respect to the virtual straight line connecting the center points of the combustion chambers of each cylinder, All the exhaust valves of the cylinder are arranged, and the first to fourth support portions of the adjuster holder are configured to support the hydraulic lash adjusters for the intake valve and the exhaust valve in the same cylinder. In the valve mechanism, an adjuster support member having an oil supply path with little pressure loss can be obtained without deteriorating the weight balance of the adjuster support member between the intake side and the exhaust side.

It is sectional drawing for demonstrating the structure of the valve mechanism of the internal combustion engine in Embodiment 1 of this invention. FIG. 2 is a view of the adjuster support member shown in FIG. 1 as viewed from above the cylinder head in the axial direction of the combustion chamber. It is a figure showing the structure of the oil supply path referred for comparison with the oil supply path of Embodiment 1 of this invention.

Embodiment 1 FIG.
FIG. 1 is a cross-sectional view for explaining the configuration of a valve operating mechanism 10 for an internal combustion engine according to Embodiment 1 of the present invention. Here, it is assumed that the internal combustion engine is an in-line four-cylinder engine. Also, the alternate long and short dash line in FIG. 1 is the axis L of the combustion chamber 14.
As shown in FIG. 1, the cylinder head 12 of the internal combustion engine includes an intake valve 18 that opens and closes the combustion chamber 14 and the intake port 16, and an exhaust valve 22 that opens and closes the combustion chamber 14 and the exhaust port 20. Has been placed.

  A cam carrier 28 for supporting the intake camshaft 24 and the exhaust camshaft 26 is disposed above the cylinder head 12. Here, it is assumed that each cylinder of the internal combustion engine includes two intake valves 18 and exhaust valves 22. The intake valve 18 of each cylinder is driven to open and close by an intake cam 30 fixed for each intake valve 18 with respect to the same intake camshaft 24. Similarly, the exhaust valve 22 of each cylinder is the same. The exhaust camshaft 26 is driven to open and close by an exhaust cam 32 fixed to each exhaust valve 22.

  As shown in FIG. 1, the pressing force of the intake cam 30 is transmitted to the intake valve 18 via the intake rocker arm 34, and similarly, the pressing force of the exhaust cam 32 is exhausted via the exhaust rocker arm 36. It is transmitted to the valve 22. One end of the intake rocker arm 34 is supported by the intake valve 18 (valve stem), and similarly, one end of the exhaust rocker arm 36 is supported by the exhaust valve 22 (valve stem).

  The other ends of the rocker arms 34 and 36 are rotatably supported by hydraulic lash adjusters 38, respectively. Each lash adjuster 38 is supported by an adjuster holder 42 provided in the adjuster support member 40. As shown in FIG. 1, the adjuster support member 40 is mounted on the cylinder head 12. The adjuster support member 40 is disposed between the intake camshaft 24 and the exhaust camshaft 26 when the cylinder head 12 is viewed from the axial direction of the combustion chamber 14.

Next, the detailed configuration of the adjuster support member 40 will be described with reference to FIG. 2 in addition to FIG.
FIG. 2 is a view of the adjuster support member 40 shown in FIG. 1 as viewed from above the cylinder head 12 in the axial direction of the combustion chamber 14. 2 is an imaginary straight line M connecting the center points of the combustion chambers 14 of the respective cylinders, and corresponds to the center line of the adjuster support member 40. Further, the intake camshaft 24 and the intake valve 18 shown in FIG. 1 are arranged on one side (the lower side in FIG. 2) with respect to the virtual straight line M, and the exhaust camshaft 26 and the exhaust valve 22 shown in FIG. It is assumed that it is arranged on the other side (upper side in FIG. 2) with respect to the straight line M.

  The adjuster support member 40 is disposed on the cylinder head 12 so as to bridge to each cylinder. As shown in FIG. 2, the adjuster holder 42 that supports the lash adjuster 38 for each cylinder is connected to each adjuster holder 42. And a connecting portion 44. In FIG. 2 and the following description, for convenience of explanation, reference numerals “# 1” to “# 4” indicating the corresponding cylinders are attached in order from the right end adjuster holder 42 in FIG. Reference numerals “# 12”, “# 23”, and “# 34” are assigned to the corresponding cylinders in order from the portion 44.

  As shown in FIG. 2, each adjuster holder 42 # 1 to 42 # 4 is formed with four adjuster insertion holes 46 a to 46 d that function as a support portion that supports the lash adjuster 38. More specifically, these adjuster insertion holes 46a to 46d are provided with the adjuster holders 42 # 1 to 42d when the cylinder head 12 is viewed from the axial direction of the combustion chamber 14 (that is, viewed from the direction shown in FIG. 2). It is arranged at the four corners of # 4.

  Further, as described above, since the lower side of the virtual straight line M is the intake side in FIG. 2, the adjuster insertion holes 46b and 46c correspond to the support portion that supports the lash adjuster 38 for the intake valve 18, and the rest The adjuster insertion holes 46a and 46d correspond to a support portion for supporting the lash adjuster 38 for the exhaust valve 22.

  Further, as shown in FIG. 2 with hatching, the adjuster support member 40 includes an oil supply path 48 for supplying oil to all lash adjusters 38 (intake side and exhaust side) of each cylinder. ing. In the oil supply path 48, oil moves from the adjuster holder 42 # 1 located at one end (the right end in FIG. 2) toward the adjuster holder 42 # 4 located at the other end (the left end in FIG. 2). It is formed so as to pass through all the adjuster insertion holes 46a to 46d in 1-42 in order.

  More specifically, the oil supply path 48 includes the holder internal oil paths 50 # 1 to 50 # 4 formed inside the adjuster holders 42 # 1 to 42 # 4, the connection portions 44 # 12, and the like. It consists of connecting oil passages 52 # 12, 52 # 23, and 52 # 34 respectively formed inside.

  In the # 1 cylinder inner oil passage 50 # 1, first, oil is introduced into the insertion hole 46a which is one of the adjuster insertion holes 46a and 46b located on the upstream side of the oil flowing into the adjuster holder 42 # 1. Then, oil is introduced into the insertion hole 46b positioned in the short direction of the cylinder head 12 with respect to the insertion hole 46a, and then the insertion hole positioned in the longitudinal direction of the cylinder head 12 with respect to the insertion hole 46b. The oil is introduced into 46c, and then the oil is introduced into the insertion hole 46d positioned in the short direction of the cylinder head 12 with respect to the insertion hole 46c, and then the oil is discharged to the connecting oil passage 52 # 12. It is formed as follows.

  The communication oil passage 52 # 12 includes an insertion hole 46d of the adjuster holder 42 # 1 that functions as a support portion of the lash adjuster 38 for the exhaust valve 22, and an adjuster that functions as a support portion of the lash adjuster 38 for the intake valve 18. It is formed so as to be linearly connected to the insertion hole 46b of the holder 42 # 2. In other words, the communication oil passage 52 # 12 has a distance between the adjacent adjuster holders 42 # 1 and 42 # 2 and the insertion hole 46d in the adjuster holder 42 # 1 on the upstream side of the oil and the insertion hole 46d. It is formed so as to be linearly connected to an insertion hole 46a in an adjuster holder 42 # 2 which is a far insertion hole and downstream of oil.

  For the other oil passages 50 # 2, 50 # 3, 50 # 4 in the holder and the communication oil passages 52 # 23, 52 # 34, the same idea as the oil passage 50 # 1 in the holder and the communication oil passage 52 # 12 is used. It is formed based on. For this reason, description about these oil paths 50 # 2, 52 # 23 etc. shall be simplified as follows.

  That is, based on the above concept, the oil passage 50 # 2 in the holder is in the order of the insertion holes 46b, 46a, 46d, 46c, and the oil passage 50 # 3 in the holder is in the order of the insertion holes 46a, 46b, 46c, 46d. Therefore, the oil passage 50 # 4 in the holder is formed so that oil passes through the insertion holes 46b, 46a, 46d, and 46c in this order.

  Further, the communication oil passage 52 # 23 connects the insertion hole 46c (intake side) of the adjuster holder 42 # 2 with the insertion hole 46a (exhaust side) of the adjuster holder 42 # 3. 34 is formed so as to connect the insertion hole 46d (exhaust side) of the adjuster holder 42 # 3 and the insertion hole 46b (intake side) of the adjuster holder 42 # 4.

  As shown in FIG. 2, a spark plug tube 54 for guiding the attachment / detachment of a spark plug (not shown) is press-fitted into the center of each adjuster holder 42.

  According to the oil supply path 48 described above, oil can be supplied to all the lash adjusters 38 on the intake side and the exhaust side of each cylinder through one oil path. Thereby, the pressure loss of the oil supply path 48 can be kept low, and the load of an oil pump (not shown) that pumps oil to the oil supply path 48 can be reduced. As a result, the discharge amount of the oil pump can be reduced, so that fuel efficiency can be improved by reducing friction. In addition, the oil pump can be reduced in size and weight.

In addition, the effects obtained by adopting the configuration of the oil supply path 48 will be described with reference to FIG. 3 for comparison.
FIG. 3 is a diagram showing the configuration of the oil supply path referred to for comparison with the oil supply path 48 of the first embodiment of the present invention.

  In the configuration shown in FIG. 3 as well, the adjuster support member that supports the lash adjuster includes an adjuster holder for each cylinder and a connecting portion that connects the adjuster holders of the respective cylinders. However, as shown in FIG. 3, a connecting oil passage along the virtual straight line (a straight line connecting the center points of the combustion chambers of the cylinders) M is formed in the connecting portion in this configuration.

  According to the configuration shown in FIG. 3, since the communication oil passage along the virtual straight line M is provided, the weight balance between the intake side and the exhaust side with respect to the virtual straight line M can be kept good. become. However, because such a configuration is adopted, as shown in FIG. 3, a strong acute angle bend occurs at the connection portion between the oil passage in the holder and the communication oil passage. This increases the pressure loss in the oil supply path.

  On the other hand, in order to avoid such an increase in pressure loss, if the connecting oil passage is separated from the virtual straight line M while being kept parallel, the weight balance cannot be maintained well. As a result, the center of gravity of the adjuster support member moves away from the center (on the imaginary straight line M), so that when the spark plug tube is press-fitted into the adjuster holder, the spark plug tube is likely to be inclined, resulting in manufacturing defects.

  On the other hand, according to the configuration of the present embodiment, as described above, insertion between the adjacent adjuster holders (for example, between 42 # 1 and 42 # 2) in the adjuster holder 42 # 1 on the upstream side of the oil. The connecting oil passage 52 # is connected so that the hole 46d and the insertion hole 46a in the adjuster holder 42 # 2 on the downstream side of the oil, which is a distance far from the insertion hole 46d, are linearly connected. 12 is formed. According to such an idea, as shown in FIG. 2, the communication oil passages 52 # 12 that connect the cylinders are not shaped along the virtual straight line M, but alternately in the longitudinal direction of the cylinder head 12. It comes to be inclined.

  According to the above configuration, as shown in FIG. 2, the oil supply passage having a short and simple structure with no acute bend while the center of gravity of the adjuster support member 40 is placed on the virtual straight line M. 48 can be obtained. For this reason, it becomes possible to obtain the oil supply passage 48 with less pressure loss without deteriorating the weight balance of the adjuster support member 40. Moreover, according to this structure, the torsional rigidity of the adjuster support member 40 can be improved.

  By the way, in the first embodiment described above, the cylinder head 12 is viewed from the axial direction of the combustion chamber 14 (that is, viewed from the direction shown in FIG. 2), and at the four corners of the adjuster holders 42 # 1 to 42 # 4. The adjuster insertion holes 46a to 46d (support portions of the present invention) are arranged. Thus, this embodiment is intended for a configuration including four lash adjusters per cylinder, that is, a configuration including two intake valves and two exhaust valves per cylinder. However, the configuration of the intake / exhaust valve that is the subject of the present invention is not limited to the above as long as it includes a support portion (adjuster insertion hole) at least at the four corners. For example, each support disposed at the four corners Further support portions (a corresponding lash adjuster and intake / exhaust valve) may be provided in the middle of the oil path in the holder connecting the portions.

  In the first embodiment described above, when the cylinder head 12 is viewed from the axial direction of the combustion chamber 14, all the intake valves 18 of each cylinder are on one side with respect to an imaginary straight line M connecting the center points of the combustion chambers 14 of each cylinder. Is described, taking as an example a configuration in which all the exhaust valves 22 of each cylinder are arranged on the other side of the virtual straight line M. However, the structure of the intake / exhaust valve which is the subject of the present invention is not limited to the above. That is, for example, when two intake valves and two exhaust valves are provided for each cylinder, one intake valve and one exhaust valve are arranged side by side on one side of the virtual straight line M, and the other on the other side of the virtual straight line M. These intake valves and exhaust valves may be arranged side by side.

  In the first embodiment described above, the insertion holes 46a in the adjuster holders 42 # 1 and 42 # 3 and the insertion holes 46b in the adjuster holders 42 # 2 and 42 # 4 are the “first support portions” in the first invention. Further, the insertion holes 46b in the adjuster holders 42 # 1 and 42 # 3 and the insertion holes 46a in the adjuster holders 42 # 2 and 42 # 4 are provided in the “second support portion” in the first invention. The insertion hole 46c in the 42 # 3 and the insertion hole 46d in the adjuster holders 42 # 2, 42 # 4 are the “third support portion” in the first invention, and the insertion holes 46d in the adjuster holders 42 # 1, 42 # 3 and The insertion holes 46c in the adjuster holders 42 # 2 and 42 # 4 form the "fourth support" in the first invention. To ", it is equivalent, respectively.

DESCRIPTION OF SYMBOLS 10 Valve mechanism 12 Cylinder head 14 Combustion chamber 16 Intake port 18 Intake valve 20 Exhaust port 22 Exhaust valve 24 Intake cam shaft 26 Exhaust cam shaft 28 Cam carrier 30 Intake cam 32 Exhaust cam 34 Intake rocker arm 36 Exhaust rocker arm 38 Hydraulic type Rush adjuster 40 Adjuster support member 42 (# 1- # 4) Adjuster holder 44 (# 12, # 23, # 34) Connecting portion 46a-46d Adjuster insertion hole 48 Oil supply path 50 (# 1- # 4) Oil in holder Route 52 (# 12, # 23, # 34) Communication oil passage 54 Spark plug tube

Claims (2)

An adjuster support member disposed on the cylinder head so as to bridge to each cylinder, and supporting a hydraulic lash adjuster disposed in each cylinder;
The adjuster support member is
An adjuster holder provided for each cylinder, the first to fourth support portions for supporting the hydraulic lash adjuster provided at the four corners when the cylinder head is viewed from the axial direction of the combustion chamber;
A connecting portion for connecting the adjuster holder of each cylinder;
From the adjuster holder located at one end to the adjuster holder located at the other end, the oil is formed so as to sequentially pass through all the first to fourth support portions in each of the adjuster holders one by one. An oil supply path,
The oil supply path includes an oil path in the holder formed inside the adjuster holder, and a communication oil path formed in the connection part,
In each of the oil passages in the holder, first, oil is introduced into the first support portion which is one of the two support portions located on the upstream side of the oil flowing into the adjuster holder. Oil is introduced into the second support portion located in the short direction of the cylinder head with respect to one support portion, and then the third support located in the longitudinal direction of the cylinder head with respect to the second support portion. The oil is introduced into the part, and then the oil is introduced into the fourth support part positioned in the short direction of the cylinder head with respect to the third support part, and then the oil is discharged into the communication oil passage. Is formed so that
The communication oil passage is between the adjacent adjuster holders, the fourth support part in the adjuster holder on the upstream side of the oil, and a support part that is farther away from the fourth support part. A valve operating mechanism for an internal combustion engine, wherein the valve operating mechanism is formed so as to linearly connect to the first support portion of the adjuster holder on the downstream side. In the internal combustion engine, when the cylinder head is viewed from the axial direction of the combustion chamber, all the intake valves of each cylinder are arranged on one side with respect to an imaginary straight line connecting the center points of the combustion chambers of each cylinder, and the other side All the exhaust valves are arranged,
The first to fourth support portions of the adjuster holder support the hydraulic lash adjusters for intake valves and exhaust valves in the same cylinder,
2. The communication oil passage is configured to linearly connect the support portion for the intake valve and the support portion for the exhaust valve between the adjacent adjuster holders. The valve operating mechanism of the internal combustion engine described.

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