The present invention relates to a small 4-cycle engine used for driving a portable machine or the like, and more particularly to an intake port thereof.
The present application claims priority from Japanese Patent Application No. 2006-012875, the disclosure of which is incorporated herein by reference.
Small 4-cycle engines used for driving portable machines such as handheld blowers usually have their intake port integrally formed with the cylinder head because of the priority given to reduction of size and weight of the machine including the engine. Also, the cylinder head needs to be designed so that it is easily molded without using complex shape molds for lower cost.
More specifically, the intake port is conventionally designed to be formed so that its centerline on the entrance side is vertical to the centerline of the cylinder, while the centerline on the exit side is parallel to the cylinder centerline, i.e., the centerlines of the entrance side and the exit side of the intake port are substantially at right angles with each other. This shape allows easy fabrication of cylinder heads by die casting, contributing to reduction in cost of 4-cycle engines (see, for example, Japanese Unexamined Patent Publication No. Hei 9-170417, FIG. 5).
In general, the intake port shape should ideally be straight from the entrance to the exit so as to reduce intake resistance of fuel-air mixture. Japanese Unexamined Patent Publication No. Sho 52-66105, for example, shows a 4-cycle engine design in which the intake port shape is gently curved from the entrance to the exit.
Another known issue associated with the intake port is that condensed fuel tends to remain in the joint between the intake port and a heat insulator inserted between the carburetor for mixing liquid fuel with air and the intake port, causing possible incomplete combustion or generation of unburnt gas. One of countermeasures for this problem is disclosed, for example, in Japanese Unexamined Patent Publication No. 2000-136762, in which a conduit is provided in a protruded part of the heat insulator that is fitted with the intake port, the conduit communicating with the lower inner surface of the intake port, so as to prevent any condensed fuel from remaining inside the intake port.
The problem with the 4-cycle engine shown in Japanese Unexamined Patent Publication No. Hei 9-170417 is that the engine power output is not satisfactory due to large intake resistance of fuel-air mixture because the priority is given to reduction in size, weight, and cost of the engine and the intake port shape design still leaves scope for improvement. When used as the power source of a portable machine, the insufficient power of the engine has caused various problems in the operation of the machine.
The intake port shape of the 4-cycle engine shown in Japanese Unexamined Patent Publication No. Sho 52-66105 is hardly applicable to small engines mounted on portable machines because molding such intake port integrated with the cylinder head that entails the use of the complex and expensive metal molds, such as diagonally oriented slide molds, cores and the molding using sand molds, or the like, results in an increase in production cost and a decrease in productivity.
The problem with the 4-cycle engine shown in Japanese Unexamined Patent Publication No. 2000-136762 is that the effect of preventing condensed fuel from remaining inside the intake port is not sufficiently achieved when design changes are made to the shape of the intake port.
The present invention was devised in view of the above problems in the conventional techniques and its object is to provide a 4-cycle engine easily capable of outputting high power with an intake port shape that reduces intake resistance and that can be formed without increasing the number of members as compared to conventional engines. Another object of the invention is to provide a small 4-cycle engine that can reliably prevent condensed fuel from remaining in the intake port to avoid incomplete combustion of gas or generation of unburnt gas.
To achieve the above object, a first aspect of the present invention provides an intake port of a 4-cycle engine including an intake port base integrally formed with a cylinder head, and an intake port forming member that is partly fitted into the intake port base and forms the intake port together with the intake port base. The shape of intake port has an area of a cross section orthogonal to a centerline of the intake port that is substantially uniform from an open intake side to a part communicated with a combustion chamber, and an angle made by the centerline of the intake port and an intake valve shaft that is larger than 90° from a viewpoint of an intake valve.
According to a second aspect of the invention, in the intake port of the 4-cycle engine with the above configuration of the first aspect, the circumference where a plane orthogonal to the centerline of the intake port intersects the intake port is, partly or entirely, made up of two members which are the intake port base and the intake port forming member.
Furthermore, according to a third aspect, in the intake port of the 4-cycle engine with the above configuration of the first aspect, the angle made by the centerline of the intake port and the intake valve shaft from a viewpoint of the intake valve becomes gradually larger toward the intake valve.
According to a fourth aspect, in the intake port of the 4-cycle engine with the above configuration of the first aspect, the intake port forming member is a synthetic resin heat insulator.
According to a fifth aspect, in the intake port of the 4-cycle engine with the above configuration of the first aspect, a joint between the intake port base and the intake port forming member where they together form the intake port is substantially parallel to the centerline of the intake port.
Furthermore, according to a sixth aspect, in the intake port of the 4-cycle engine with the above configuration of the first aspect, a groove is provided in an inner surface of the intake port base that extends from the joint between the intake port base and the intake port forming member toward the intake valve.
The intake port of the 4-cycle engine in accordance with the first aspect of the present invention includes the intake port base integrally formed with the cylinder head, and the intake port forming member that is partly fitted into the intake port base and forms an intake port together with the intake port base. The area of the cross section orthogonal to the centerline of the intake port is substantially uniform from the open intake side to the part communicated with the combustion chamber. The angle between the centerline of the intake port and the intake valve shaft is larger than 90° from a viewpoint of the intake valve.
As the effect of the first aspect, this intake port design allows smooth flow of fuel-air mixture with low intake resistance, and the cylinder head easily made by die casting or the like without using complex shape metal molds, resulting in a small, light, low-cost, and powerful 4-cycle engine.
In the second aspect, in addition to the effect of the first aspect, the circumference where the plane orthogonal to the centerline of the intake port intersects the intake port is, partly or entirely, made up of two members, i.e., the intake port base and the intake port forming member. By using such combined members, the cylinder head can be easily made using simple shape metal molds, resulting in the 4-cycle engine with the reduced size, weight, and cost.
In the third aspect, in addition to the effect of the first aspect, the angle made by the centerline of the intake port and the intake valve shaft from a viewpoint of the intake valve becomes gradually larger toward the intake valve, which assures the intake port with the lower intake resistance and smoother flow of the fuel-air mixture therein.
In the fourth aspect, in addition to the effect of the first aspect, the intake port forming member comprising a synthetic resin heat insulator allows an ideal intake port shape to cause smooth flow of fuel-air mixture without increasing the number of members as compared to conventional engines. Furthermore, the sealing properties of the intake port can be enhanced because the heat insulator is made of a soft synthetic resin.
In the fifth aspect, in addition to the effect of the first aspect, the joint between the intake port base and the intake port forming member where they together form the intake port is substantially parallel to the centerline of the intake port. This design allows any condensed fuel that has entered the joint to flow down to the combustion chamber below the intake valve and prevents any condensed fuel from remaining inside the intake port. Thereby, this 4-cycle engine capable of preventing incomplete combustion of gas or generation of unburnt gas can be provided.
Furthermore, in the sixth aspect, in addition to the effect of the fifth aspect, a groove is provided in the inner surface of the intake port base that extends from the joint toward the intake valve. Thus, any condensed fuel can be effectively prevented from remaining inside the intake port.
These and other objects and advantages of the present invention will become clear from the following description with reference to the accompanying drawings, wherein:
One preferred embodiment of the 4-cycle engine of the present invention will be hereinafter described with reference to the drawings.
As shown in
For such 4-cycle engine 2, fuel such as gasoline supplied from a fuel tank (not shown) is mixed with air in the carburetor 10 and fed to the combustion chamber 13 through the intake port 5. The intake valve 6 opens and the fuel-air mixture is fed into the combustion chamber 13, where the 4-stroke cycles, intake stroke, compression stroke, combustion stroke, and exhaust stroke, are repeated. The exhaust valve 11a opens in the exhaust stroke to let out exhaust gas from the combustion chamber 13 through the exhaust port 11 to the muffler (not shown), through which the gas is discharged to the outside. Reference numeral 8 in
In the present embodiment, the top face of the intake port base 4a which forms part of the intake port 5 and the inner surface of the protruded part 7a of the heat insulator 7 are gently curved from the open intake side toward the combustion chamber, so that the angle θ made by the centerline 5a of the intake port 5 and the intake valve shaft 6a becomes larger toward the intake valve 6. This design enables to form the intake port 5 with lower gentle flow of the fuel-air mixture inside the intake port 5. The smooth curve of the inner surface of the heat insulator 7, in particular, makes occurrence of turbulence in the fuel-air mixture less likely.
The joint 8 between the intake port base 4a and the protruded part 7a of the heat insulator 7 where they form the intake port 5 is substantially parallel to the centerline 5a of the intake port 5. Therefore, the joint 8 inclines downward toward the combustion chamber 13. This configuration allows any condensed fuel inside the intake port 5 that has entered the joint 8 to constantly flow down to the combustion chamber 13, such condensed fuel to be prevented from remaining inside the intake port 5, and incomplete combustion of gas or generation of unburnt gas to be prevented.
Furthermore, grooves 4b may be provided in the intake port 5, extending toward the intake valve 6 from the joints 8 to the intake port base 4a.
While the 4-cycle engine 2 has been described as having a separable cylinder head 4 and cylinder 3 in the present embodiment, the present invention can also be applicable to engines with a one-piece cylinder and cylinder head assembly.
As described above, the present invention can provide a 4-cycle engine easily capable of outputting high power using an intake port shape with lower intake resistance that can be formed without increasing the number of members and with good productivity. The invention can also provide a small 4-cycle engine that can reliably prevent condensed fuel from remaining to avoid incomplete combustion of gas or generation of unburnt gas.
The 4-cycle engine of the present invention is applicable not only to handheld blowers but also to various portable machines such as chain saws, back pack blowers, and bush cutters, and can also be effectively available vehicles or the like.
While there has been described what are at present considered to be preferred embodiments of the present invention, it will be understood that various modifications may be made thereto, and it is intended that the appended claims cover all such modifications as fall within the true spirit and scope of the invention.
Number | Date | Country | Kind |
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2006-12875 | Jan 2006 | JP | national |
Number | Name | Date | Kind |
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3422805 | Dzianott | Jan 1969 | A |
4166436 | Yamakawa | Sep 1979 | A |
6026774 | Kajihara et al. | Feb 2000 | A |
6460502 | Gracyalny | Oct 2002 | B2 |
6668783 | Taylor | Dec 2003 | B2 |
20020117143 | Gracyalny | Aug 2002 | A1 |
20040099238 | Gould | May 2004 | A1 |
Number | Date | Country |
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52-66105 | Jun 1977 | JP |
9-170417 | Jun 1997 | JP |
2000-136762 | May 2000 | JP |
Number | Date | Country | |
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20070169738 A1 | Jul 2007 | US |