1. Field of the Invention
The present invention generally relates to a combustion engine utilizable as a drive source for a working machine such as a lawn mower and, more particularly, to the combustion engine, in which a cooling fan and a starter pulley are integrated together.
2. Description of the Prior Art
The drive source for a working machine such as a lawn mower is generally used in the form of a combustion engine of a vertical shaft type. This type of combustion engine includes a crankshaft so accommodated within a crankcase as to extend vertically. A lower end of the crankshaft protrudes downwardly and outwardly from the crankcase to serve as a drive output shaft. As an example of the mounting structure for a cooling fan and a starter pulley employed in the combustion engine of this kind, what is shown in
Referring to
It has, however, been found that when the flywheel 73 and the cooling fan 72 are formed integrally with each other by casting, it is necessary for blades of the cooling fan 72 to have a thickness as small as possible to increase the performance of the cooling fan 72 and, on the other hand, for the flywheel 73 to have an increased weight to increase the inertia force of rotation. To this end, the cooling fan 72 having the thin and complicated-shape blades will eventually be formed integrally with the bulky flywheel 73, making it difficult to accomplish the casting.
In view of the foregoing, the present invention is intended to provide a combustion engine having a unitary fan-pulley assembly, in which a cooling fan and a starter pulley are integrated together, which assembly is effective to render a relatively heavy flywheel to be useable and to make it possible to reduce the thickness of rotary blades of the cooling fan.
In order to accomplish the foregoing object of the present invention, there is provided a combustion engine having a unitary fan-pulley assembly, which engine includes a crankshaft, a cooling fan fixedly mounted on the crankshaft, and a starter pulley for receiving a starting force through engagement with engagement pawls of a recoil starter. The cooling fan and the starter pulley are formed integrally with each other to define the unitary fan-pulley assembly.
According to the present invention, it is not a flywheel, but the starter pulley that is formed integrally with the cooling fan. In other words, the flywheel is a member separate from the cooling fan and is made as a unitary component by casting and, therefore, it can provide a relatively large inertia force of rotation. On the other hand, the unitary fan-pulley assembly, in which the cooling fan and the starter pulley are formed integrally with each other, can be formed by the use of, for example, a resin molding and, therefore, as compared with the conventional case in which the cooling fan is integrally formed with the flywheel and a separate pulley is fitted to this flywheel, the number of component parts used will not increase.
Also, in view of characteristics of the resin molding, as rotary blades of the cooling fan can easily be formed thin-walled, the performance of the cooling fan can advantageously be increased. In addition, In the case of the resin molding, the use of one of polyamide resin and glass fiber reinforced resin is effective to impart a sufficient strength to the cooling fan and the starter pulley. Yet, since the unitary fan-pulley assembly is a unitary assembly of the cooling fan and the pulley, not only can the mountability onto the crankshaft be increased, but also removal during the maintenance such as the cleaning of the cooling fan and the servicing of the pulley can easily be accomplished. On the other hand, the flywheel as a unitary component can have an increased weight to provide a large inertia force of rotation.
In a preferred embodiment of the present invention, the pulley has a plurality of engagement projections that are engageable with the engagement pawls of the recoil starter. A bracket may be fixedly mounted on the crankshaft together with the unitary fan-pulley assembly and may be operable to urge a plurality of engagement grooves, each defined between the neighboring engagement projections of the starter pulley, in an axial direction of the unitary fan-pulley assembly.
According to this structural feature, since the engagement grooves each between the neighboring engagement projections are axially urged by the bracket, deformation of the engagement projections, which would otherwise result from engagement between the engagement pawls and the corresponding engagement projections, can advantageously be suppressed. Also, fixing of the bracket on the crankshaft results in simultaneous fixing of the unitary fan-pulley assembly on the crankshaft and, therefore, there is no need to fix the bracket and the unitary fan-pulley assembly separately on the crankshaft, resulting in reduction of the number of manufacturing steps.
In another preferred embodiment of the present invention, a dust screen member may be disposed axially outwardly of the unitary fan-pulley assembly and have an inner peripheral wall that is so defined in an inner periphery thereof as to extend axially and proximately along respective outer surfaces of the engagement projections.
The dust screen member rotates together with the unitary fan-pulley assembly to prevent dust such as lawn grasses from being sucked into the cooling fan together with a current of air during the intake of air. Also, since the inner peripheral wall of the screen member is held proximate to the outer surfaces of the engagement projections of the pulley, it is possible to suppress deformation of the engagement projections in a direction radially outwardly thereof during engagement of them with the engagement pawls.
In a further preferred embodiment of the present invention, the unitary fan-pulley assembly and the bracket may be fastened to the crankshaft by a common fastening member.
According to this structural feature, since the unitary fan-pulley assembly and the brackets can be fixed to the crankshaft simultaneously by a single fastening member, not only can the workability be increased, but the use of an dedicated fastening member for each of the unitary fan-pulley assembly and the bracket is not required, resulting in minimization of the number of fastening members required.
In any event, the present invention will become more clearly understood from the following description of preferred embodiments thereof, when taken in conjunction with the accompanying drawings. However, the embodiments and the drawings are given only for the purpose of illustration and explanation, and are not to be taken as limiting the scope of the present invention in any way whatsoever, which scope is to be determined by the appended claims. In the accompanying drawings, like reference numerals are used to denote like parts throughout the several views, and:
For describing a preferred embodiment of the present invention, reference will now be made to the accompanying drawings. In particular,
The unitary fan-pulley assembly F, formed as an integer by integrating the cooling fan 8 and the starter pulley 9, both made of a synthetic resin, by resin molding, and a flywheel 7 are fixedly connected to the upper end 1b of the crankshaft 1 and are housed within a fan housing 19. A dust screen member 10 is mounted over an axial outer surface of the unitary fan-pulley assembly F. The fan housing 19 is mounted inside the engine cover 6 for guiding a cooling air induced by the cooling fan 8 towards the cylinder block 3, the cylinder head 4 and the crankcase 5.
As described above, the unitary fan-pulley assembly is formed by integrally molding the cooling fan 8 and the starter pulley 9 by resin molding. As shown in
The starter pulley 9 generally represents a drum-like shape and has a plurality of, for example, four axial engagement projections 91, spaced an equal distance from each other in a direction circumferentially thereof, and engagement grooves 92 each defined between the neighboring engagement projections 91. As shown in
For the resinous material used to form the unitary fan-pulley assembly F, a high strength resinous material, for example, a polyamide resin or a glass fiber reinforced resin can be suitably employed to provide the cooling fan 8 and the starter pulley 9, that is, the unitary fan-pulley assembly F, with a sufficient strength.
The details of the dust screen member 10 are shown in
An outer peripheral edge of the dust screen member 10 is formed integrally with a plurality of bent pieces 10d extending axially downwardly therefrom, which bent pieces 10d are utilized to cut lawn grasses or the like. The perforations 10e are defined in an area between the outer and inner peripheral edges of the dust screen member 10. When this dust screen member 10 is mounted on the unitary fan-pulley assembly F to cover the cooling fan 8, the dust screen member 10 serves to prevent dust such as lawn grasses from entering the cooling fan 8 and also to cut into fine pieces relatively lengthy lawn grasses tending to enter the cooling fan 8.
The bracket 11 used to support the unitary fan-pulley assembly F is shown in
As will be described in detail subsequently, the bracket 11 is mounted on the crankshaft 1 together with the unitary fan-pulley assembly F, as shown in
As shown in
The starter casing 14a is made of a synthetic resin and is, as shown in
More precisely, as shown in
Mounting of the unitary fan-pulley assembly F is carried out in the following manners. In the first place, the flywheel 7 is mounted on the upper end 1b of the crankshaft 1 shown in
Subsequently, the bracket 11 is inserted from above into the starter pulley 9 with the tongues 11a (shown in
When removing the unitary fan-pulley assembly F, the set bolt 15 is first removed to allow the recoil starter 14 to be removed from the engine cover 6 so that the unitary fan-pulley assembly F can be exposed to the outside. Subsequently, the set bolt 12 is loosened to allow the bracket 11 to be removed and, in this condition, cleaning of the unitary fan-pulley assembly F and servicing of the pulley 9 can be carried out. At that time, as shown in
Since the engagement projections 91 are made of the synthetic resin, the neighboring projections 91 when engaged with the fit drive tool 16 will be tortured by the fit drive tool 16 and will then be deformed in a radially outward direction to fall down. However, since the engagement projections 91 are supported by the inner peripheral wall 10b of the screen member 10 shown in
After the removal of the set bolt 12, the bracket 11, the screen member 10 and the unitary fan-pulley assembly F, all shown in
With the combustion engine E so constructed as hereinbefore described, since the unitary fan-pulley assembly F, in which the cooling fan 8 and the starter pulley 9 are formed integrally with each other, is a member separate from the flywheel 7, it can be formed of the synthetic resin by resin molding. Accordingly, the fan blades 81 of the cooling fan 8 shown in
Also, the flywheel 7 employed in the practice of the present invention may have its weight increased enough to increase an inertia force. In addition, since the engagement grooves 92 between the neighboring engagement projections 91 of the pulley 9 are axially pressed by the corresponding petaloid tongue 11a integral with the bracket 11, deformation of the engagement projections 91, which would otherwise occur under the influence of impacts generated upon engagement of the engagement pawls 14b with the respective engagement projections 91, can advantageously be suppressed.
Although the present invention has been fully described in connection with the preferred embodiments thereof with reference to the accompanying drawings which are used only for the purpose of illustration, those skilled in the art will readily conceive numerous changes and modifications within the framework of obviousness upon the reading of the specification herein presented of the present invention. By way of example, although in describing the combustion engine E to which the present invention is applied reference has been made to the vertical shaft type internal combustion engine, the present invention can be equally applied to any combustion engine of a horizontal shaft type.
Accordingly, such changes and modifications are, unless they depart from the scope of the present invention as delivered from the claims annexed hereto, to be construed as included therein.
Number | Name | Date | Kind |
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1789871 | Knight | Jan 1931 | A |
2620782 | Stegeman | Dec 1952 | A |
5065720 | Nishiyama et al. | Nov 1991 | A |
5066196 | Morofushi | Nov 1991 | A |
5230314 | Kawahara et al. | Jul 1993 | A |
6006703 | Nakamura et al. | Dec 1999 | A |
Number | Date | Country |
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5-24921 | Feb 1993 | JP |
Number | Date | Country | |
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20060288970 A1 | Dec 2006 | US |