JP3562031B2 - Rocker cover integrated with intake manifold for internal combustion engine - Google Patents

Description

[0001]
[Industrial applications]
The present invention relates to an improvement in an internal combustion engine including an intake manifold-integrated rocker cover in which an intake manifold is integrally formed with a rocker cover that covers an upper surface of a cylinder head.
[0002]
[Prior art]
2. Description of the Related Art An intake manifold-integrated rocker cover in which a part or the entirety of an intake manifold is integrally formed with a rocker cover that covers an upper surface of a cylinder head of an internal combustion engine has been conventionally known. FIG. 4 shows a main part of an internal combustion engine provided with an intake manifold-integrated rocker cover described in Japanese Patent Application Laid-Open No. Hei 1-211657 as an example.
[0003]
In this example, a cylinder head 51 mounted and fixed on an upper surface of a cylinder block (not shown) is divided into a lower part 51A and an upper part 51B along a division plane 52 passing through the centers of a pair of camshafts 53. An intake port 54 and an exhaust port 55 are formed in a cross-flow form in a lower portion 51A which is a main portion of the cylinder head 51. The upper portion 51B is fixed to the upper surface of the lower portion 51A with a plurality of bolts 59, and supports the camshaft 53 therebetween.
[0004]
On the rocker cover 56 covering the upper surface of the cylinder head 51, a plurality of branch portions 57 serving as an intake manifold and a collector portion 58 are integrally formed. The branch portion 57 is formed along the width direction of the rocker cover 56 so as to cross from the intake side to the exhaust side of the cylinder head 51. One end of the branch portion 57 extending to the intake side of the cylinder head 51 projects sideward and curves downward. The tip of the branch portion 57 is connected to an intake port 54 of the cylinder head 51 via an intake pipe 61. The other ends of the branch portions 57 are connected to the collector portions 58, respectively. The collector portion 58 is formed so as to overhang from the side surface of the cylinder head 51 to the side, and is located above an exhaust manifold (not shown). As described above, the rocker cover 56 integrally including the branch portion 57 and the collector portion 58 is fixed to the cylinder head 51 via a plurality of bolts 60. Although not shown, a throttle chamber is attached to one end of the collector section 58, and connected to an intake duct via the throttle chamber.
[0005]
[Problems to be solved by the invention]
As described above, in the conventional intake manifold integrated rocker cover integrated including the entire collector section 58, if it is used for an internal combustion engine corresponding to many models and specifications, for example, FR (front engine rear drive) The direction in which the throttle chamber should be installed differs depending on whether it is applied to an FF (front engine front drive) type vehicle or a FF type vehicle. Therefore, the shape of the entire intake manifold integrated rocker cover corresponds to each case. Must be changed. In other words, various types of intake manifold integrated rocker covers must be manufactured for one internal combustion engine, and the intake manifold integrated rocker cover is a large part, which has the disadvantage of increasing costs.
[0006]
In terms of weight and cost, it is desirable that the intake manifold-integrated rocker cover be made of a synthetic resin molded product instead of a metal cast product. There is a problem that it may be difficult to ensure heat resistance for the provided EGR gas passage.
[0007]
[Means for Solving the Problems]
An intake manifold-integrated rocker cover for an internal combustion engine according to the present invention is attached to an upper surface of a cylinder head having an intake port and an exhaust port in a cross-flow manner to cover the cylinder head. A plurality of branch portions integrally formed so as to cross from the intake side to the exhaust side of the cylinder head, and one end of which is connected to the intake port, and connected to the other end of the branch, A collector portion elongated along the direction of the cylinder rows, and an intake manifold integrated rocker cover for an internal combustion engine comprising:
The collector portion is divided into a first portion including a connection portion with each branch portion, and a second portion including an EGR valve attachment portion having an attachment flange of a throttle chamber and an EGR gas passage. The first portion is formed integrally with the branch portion and the cover portion, and the second portion is connected to the first portion.
[0008]
According to the second aspect of the present invention, the second portion and the first portion are fixed so as not to be disassembled.
[0009]
According to the third aspect of the present invention, the second portion and the first portion are disassembled.
[0010]
The invention of claim 4, and characterized in that the said first portion and the branch portion and the cover portion, along with integrally molded of a synthetic resin, and the second portion is formed of a metallic material I do.
[0011]
[Action]
In the above configuration, a part of the collector part, that is, a second part including the throttle chamber mounting flange and the EGR valve mounting part is previously formed separately from the main body part of the intake manifold integrated rocker cover. Is connected to the first portion to form a collector portion. Therefore, when the mounting direction of the throttle chamber is different depending on the specification of the internal combustion engine, it can be dealt with by changing the shape of the second portion.
[0012]
The second portion may be fixedly attached to the second portion in a manner that cannot be disassembled by adhesion or welding, or may be assembled disassembly by a bolt or the like.
[0013]
In the fourth aspect, since the EGR valve mounting portion is provided in the second portion made of a metal material, heat resistance is ensured.
[0014]
【Example】
Hereinafter, an embodiment of the present invention will be described in detail with reference to the drawings.
[0015]
FIG. 1 is a partially cutaway plan view showing an intake manifold integrated rocker cover 1 according to the present invention. In the figure, reference numeral 2 denotes a cylinder head mounted and fixed on the upper surface of a cylinder block (not shown). The cylinder head 2 is integrally cast of, for example, an aluminum alloy or the like, and has an intake port 3 opened and closed by an intake valve (not shown) and an exhaust port opened and closed by an exhaust valve (not shown). Ports (not shown) are formed in a cross-flow format. In addition, 4 is a camshaft on the intake side, and 5 is a camshaft on the exhaust side. An ignition plug attachment 6 is provided at the center of each cylinder.
[0016]
The upstream portion of the intake port 3 has a shape that rises while curving upward, and the tip thereof is open on the same plane as the flange surface 7 at the upper end of the cylinder head 2. The flange surface 7 is formed so as to pass through the center of the intake-side camshaft 4 and the exhaust-side camshaft 5 and to be parallel to the lower surface of the cylinder head 2. Outside the intake port 3 curved upward, fuel injection valves (not shown) are provided.
[0017]
The rocker cover 1 attached to the upper surface of the cylinder head 2 includes a cover portion 11 that covers an upper surface opening of the cylinder head 2 and separates a valve operating chamber, and a plurality of branch portions 12 that constitute an intake manifold. The collector 13 which is a part of the manifold is formed integrally with each other. The cover portion 11 is formed in a shallow box shape having side walls on four sides, and a flange surface at a tip end of the side wall is in close contact with a flange surface 7 on an outer periphery of the cylinder head 2 via a gasket (not shown). . In this embodiment, cam bearings corresponding to the cam bearings 10 on the cylinder head 2 side are formed in a partition shape inside the cover 11, and a semicircular shape formed on the cam bearings. The intake and exhaust camshafts 4 and 5 are supported between the bearing surface and the semicircular bearing surface on the cylinder head 2 side.
[0018]
The cover portion 11 is fixed to the cylinder head 2 by a plurality of bolts 23 at the outer peripheral portion. Further, a pair of bolts 24 are provided on both sides of the camshafts 4 and 5 so as to penetrate the cam bearing portion, and the cover portion 11 is fixed and the cam bearing portions are firmly connected to each other. . The cam bearings may not be formed integrally with the rocker cover 1 but may be configured to support the camshafts 4 and 5 using a cam bracket made of a separate member.
[0019]
The plurality of branches 12 are formed so as to cross from the intake side to the exhaust side of the cylinder head 2 substantially along the width direction of the rocker cover 1 (the direction orthogonal to the axial direction of the crankshaft). The branch part 12 has a shape in which a part of the lower surface side shares the wall of the cover part 11. The branch portions 12 of the adjacent cylinders are formed in a separated shape as shown in FIG. 1, and a concave portion is formed between the branch portions 12 when viewed from the outside. The front end of each branch portion 12 on the intake side is curved substantially 90 ° downward along the side wall of the cover portion 11 on the intake side, and is opened on the same flange surface as the periphery of the cover portion 11. . The opening at the front end on the intake side of each branch portion 12 is connected to the front end of the intake port 3 on the cylinder head 2 side. The periphery of the connection is sealed by a gasket (not shown).
[0020]
The collector portion 13 is formed in an elongated path along the front-rear direction (the crankshaft axial direction) of the cover portion 11, and is formed over substantially the entire length of the cover portion 11. The collector portion 13 is configured such that the exhaust side wall and the wall portion of the cover portion 11 are partially shared. The base end of each branch 12, that is, the front end on the exhaust side, is connected to the side surface of the collector 13. Further, the collector portion 13 is formed outside the exhaust side wall of the cover portion 11, and thus protrudes laterally from the exhaust side surface of the cylinder head 2 and is in an overhang state.
[0021]
Here, the collector portion 13 is divided in advance into a first portion, that is, a collector base portion 13A, and a second portion, that is, a collector cover portion 13B, with a substantially vertical division surface 14 along the crankshaft axis direction as a boundary. It is formed.
[0022]
The collector base portion 13A has a semi-cylindrical shape and includes a connection portion with each branch portion 12. That is, the collector base portion 13A is formed integrally with the branch portion 12 and the cover portion 11.
[0023]
The collector cover portion 13B combined with the collector base portion 13A also has a semi-cylindrical shape, one end portion of which is formed to extend in a cylindrical shape. The mounting flange 15 is integrally formed. Further, an EGR valve mounting portion 16 is integrally formed on the side surface of the collector cover portion 13B, and an EGR valve 17 for controlling exhaust gas recirculation is mounted here. The EGR valve mounting portion 16 has an EGR gas passage (not shown) communicating with the inside of the collector portion 13 formed at the center of the seating surface so that the recirculated exhaust gas is introduced through the passage. It has become. Further, an AAC valve 18 and a FICD valve 19 for controlling bypass air introduced into the collector portion 13 by bypassing the throttle valve are attached to the side surface of the collector cover portion 13B.
[0024]
The collector base portion 13A is integrally formed with the cover portion 11 and the branch portion 12 by casting using an aluminum alloy or the like or by injection molding using a synthetic resin. Similarly, the collector cover portion 13B is also integrally formed by casting using an aluminum alloy or the like or injection molding using a synthetic resin. Then, the collector base portion 13A and the collector cover portion 13B are integrally joined in a non-disassemblable state by welding, bonding, or the like.
[0025]
Here, if both the collector base portion 13A and the collector cover portion 13B are made of synthetic resin, it is advantageous in terms of weight reduction and manufacturing cost. Further, if each is a metal product, it is advantageous in terms of strength, rigidity and heat resistance. Further, if the collector base portion 13A is made of a synthetic resin molded product and the collector cover portion 13B is made of metal, heat resistance to EGR gas and mounting of the EGR valve 17 etc. can be achieved while reducing the overall weight of the rocker cover 1. This is advantageous in that sufficient strength can be ensured.
[0026]
As described above, if the collector cover portion 13B including the part of the collector portion 13, that is, the mounting flange 15, is configured as a separate member, if the internal combustion engine has a plurality of specifications, only the collector cover portion 13B can be prepared. It will be enough. FIG. 2 shows an example of the collector cover portion 13B having different specifications, and shows three types of specifications A to C in comparison. The specifications A and B differ in the capacity of the collector unit 13, and the specification B has a relatively small capacity and is small. In the specification C, the direction of the mounting flange 15 is set opposite to the specification A. Thus, by preparing various collector cover portions 13B and selectively combining them with the collector base portion 13A, it is possible to cope with a layout in an engine room of an automobile, for example.
[0027]
The collector cover 13B is a small component, and can be easily cast or molded. Further, at the time of initial molding, the side surface of the collector base portion 13A to which the plurality of branch portions 12 are connected is in an open state, so that when the collector base portion 13A side is cast or integrally molded, its manufacture is easy. Become.
[0028]
Next, FIG. 3 shows an embodiment in which the collector cover 13B is detachably assembled to the collector base 13A. In this example, stud bolts 21 are fixed at appropriate intervals to an opening flange portion 20 of a collector base portion 13A along the dividing surface 14 of the collector portion 13, and a collector 22 is screwed to the stud bolt 21 to collect the stud bolts. The cover 13B is fixed.
[0029]
According to this configuration, the collector cover 13B selected according to the specification can be easily combined in a later step. Further, as described above, even when the collector base portion 13A side is made of a resin molded product and the collector cover portion 13B is made of metal, both can be easily and reliably fixed.
[0030]
【The invention's effect】
As apparent from the above description, in the intake manifold integrated rocker cover of the internal combustion engine according to the present invention, a part of the collector part, that is, the second part including the throttle chamber mounting flange is separately formed in advance, and Is formed by welding or the like to form the collector part.If the installation direction of the throttle chamber differs depending on the specifications of the internal combustion engine, etc., the whole intake manifold integrated type rocker cover, which is a large part, has a different shape. It is not necessary to integrally mold, and it can be dealt with by preparing variously only the second portion.
[0031]
According to a fourth aspect of the present invention, the EGR valve mounting portion is provided on the second portion made of a metal material, and the main body portion of the intake manifold integrated rocker cover including the first portion is made of synthetic resin. Heat resistance to EGR gas can be ensured while reducing the overall weight.
[Brief description of the drawings]
FIG. 1 is a partially cutaway plan view showing a rocker cover according to the present invention.
FIG. 2 is an explanatory diagram showing an example of different specifications of a collector cover.
FIG. 3 is a plan view showing an embodiment in which a collector cover part is assembled so as to be disassembled.
FIG. 4 is a sectional view showing an example of a conventional intake manifold integrated rocker cover.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Rocker cover 11 ... Cover part 12 ... Branch part 13 ... Collector part 13A ... Collector base part 13B ... Collector cover part 15 ... Throttle chamber mounting flange 16 ... EGR valve mounting part

Claims (4)

A cover portion attached to the upper surface of a cylinder head having an intake port and an exhaust port in a cross-flow form to cover the cylinder head, and an upper portion of the cover portion so as to cross the cylinder head from the intake side to the exhaust side. A plurality of branch portions formed integrally and having one end connected to the intake port, and a collector connected to the other end of the branch and elongated in the cylinder row direction are provided. In the intake manifold integrated rocker cover of the internal combustion engine,
The collector portion is divided into a first portion including a connection portion with each branch portion, and a second portion including an EGR valve attachment portion having an attachment flange of a throttle chamber and an EGR gas passage. A rocker cover integrated with an intake manifold for an internal combustion engine, wherein a first portion is formed integrally with the branch portion and the cover portion, and the second portion is connected to the first portion. 2. The rocker cover integrated with an intake manifold for an internal combustion engine according to claim 1, wherein the second portion and the first portion are fixedly joined so as not to be disassembled. 2. The intake manifold integrated rocker cover for an internal combustion engine according to claim 1, wherein the second portion and the first portion are disassembled. And the first portion and the branch portion and the cover portion, along with integrally molded of a synthetic resin, any of claims 1 to 3, said second portion, characterized in that the formation of a metallic material An intake manifold-integrated rocker cover for an internal combustion engine according to any one of the above.

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