Engine generator

Information

  • Patent Grant
  • 6568355
  • Patent Number
    6,568,355
  • Date Filed
    Friday, April 13, 2001
    23 years ago
  • Date Issued
    Tuesday, May 27, 2003
    21 years ago
Abstract
An engine generator includes an engine, a generator having a generating unit including an outer rotor and a stator, and a cooling fan disposed between the engine and the generator. The generating unit is housed within a fan cover which is provided for accommodating the cooling fan, the stator being mounted to the inner side of the fan cover. As the single fan cover encloses the generating unit, a reduction in the number of components and an improvement in water-proof performance are achieved. The stator can be separated and replaced simply by removing the fan cover without dismounting other components, whereby maintenance is facilitated and the number of working steps is reduced.
Description




BACKGROUND OF THE INVENTION




1. Field of the Invention




The present invention relates to an engine generator composed of an engine and an engine-driven generator, and particularly to an engine generator which cools the interior thereof by an engine-driven cooling fan.




2. Description of the Related Prior Art




An engine-driven generator accommodated within a box-like housing for the generation of electricity is widely used as a power source at road construction sites, in street stalls, or for outdoor leisure. Japanese Patent Application Laid-open Publication No. 58-197415 and No. 58-197417 disclose such an engine generator. Here, an engine, an inner-rotor type generator, a muffler and others are accommodated in a main housing. The rotor of the generator is rotated by a crankshaft of the engine to generate an electromotive force on the side of the stator. A cooling fan is interposed between the engine and the generator so that it is rotated with the crankshaft for introducing cooling air into the main housing, thereby cooling the engine and the generator.




The cooling fan and the generator in this engine generator are further covered by a front housing and a rear housing, respectively, within the main housing. The front housing is attached to a side of an engine cover accommodating the engine therein and accommodates the cooling fan. The rear housing is mounted to the outer side of the front housing opposite to the engine, with the stator being fixedly interposed therebetween. The crankshaft is rotatably supported at an outer end of the rear housing.




When starting the engine by a recoil starter, the crankshaft starts to rotate, whereby the rotor rotates in the vicinity of the stator and electricity is generated. The cooling fan is at the same time rotated so that air is introduced into the main housing from the outside to cool the interior of the engine generator.




Japanese Patent Application Laid-open Publication No. 11-36880 is directed to an improvement in cooling efficiency of such an air-cooled engine generator which uses a cooling fan.

FIG. 6

is a side view with a partial cross section illustrating the generator and the vicinity thereof in the engine generator according to this publication.




A generator


51


, an engine


52


, and a muffler (not shown) are arranged in this order within a housing (not shown), these being enclosed in a duct


53


and a fan cover


54


. The generator


51


is of an outer-rotor type, its stator


55


being fixed to the engine


52


. An outer rotor


57


coupled to a crankshaft


56


is disposed on the outside of the stator


55


. A cooling fan


58


is mounted to an outer side of the outer rotor


57


, to be driven to rotate with the crankshaft


56


for introducing cooling air


59


.




The cooling air


59


first cools the generator


51


of which temperature is relatively low, and further cools the engine


52


and the muffler having a higher temperature sequentially, after which it is discharged to the outside. In this way, the engine generator of this disclosure is intentionally capable of efficiently cooling the interior of the generator


51


, as well as it allows itself to be made compact by the use of the outer-rotor type generator.




While the engine generator disclosed in Japanese Patent Application Laid-open Publication No. Hei. 11-36880 offers an improvement in the cooling efficiency of the generator and a reduction in size, replacement of the stator


55


entails a complicated operation of disassembling some components. That is, after removing the fan cover


54


, the cooling fan


58


and the outer rotor


57


must be dismounted. Thus the maintenance of the apparatus imposes demanding work because of the internal structure which does not allow the stator to be readily replaced.




The engine generator disclosed in the above-mentioned Japanese Patent Application Laid-open Publication No.58-197415 or No.58-197417 has a structure wherein the stator is interposed between the front housing and the rear housing. Accordingly, the stator can be replaced simply by removing the rear housing. On the other hand, the generator of this type is inherently long in its axial direction, because of which a reduction in size of the apparatus is hard to achieve. Moreover, the number of components are inevitably increased and so are the number of assembling steps, because the inner housing is composed of two separate parts.




SUMMARY OF THE INVENTION




An object of the present invention is to provide a small, light-weight engine generator which allows itself to be readily disassembled and assembled for easy maintenance.




An engine generator according to the present invention includes an engine, a generator having a rotor and a stator and driven by the engine, a cooling fan driven by the engine, and a fan cover for enclosing the cooling fan therein. In this construction, the rotor and the stator are accommodated within the fan cover.




According to the invention, in an engine generator including an engine, a cooling fan, and a generator, the rotor and the stator are accommodated within a single fan cover, whereby the number of components is reduced and water-proof performance is improved.




The stator may be mounted to the fan cover, so that the stator can be separated from the generator simply by removing the fan cover. As a result, the stator can be replaced without removing other components, whereby maintenance is facilitated and the number of working steps is reduced.




The cooling fan may be disposed between the engine and the generator in the engine generator according to the invention. Further, the generator may be an inner-rotor type generator, or alternatively, it may be an outer-rotor type generator.











BRIEF DESCRIPTION OF THE DRAWINGS




These and other objects and advantages of the present invention will become more clearly understood from the following description with reference to the accompanying drawings, wherein:





FIG. 1

is a side view diagram illustrating the internal structure of an engine generator of the present invention according to one embodiment thereof;





FIG. 2

is a diagram illustrating the engine generator of the present invention when viewed form a direction of the arrow X in

FIG. 1

;





FIG. 3

is a side view diagram of an engine generator of the present invention illustrating the internal structure of an engine generator according to another embodiment thereof;





FIG. 4

is a cross-sectional view of the present invention taken along the line A—A in

FIG. 3

;





FIG. 5

is a diagram illustrating principal parts of an engine generator of the present invention according to yet another embodiment thereof; and





FIG. 6

is a side view with a partial cross section illustrating a generator and the vicinity thereof in a conventional engine generator.











DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS




Preferred embodiments of the present invention will be hereinafter described in detail with reference to the accompanying drawings.




(First Embodiment)





FIG. 1

is a diagram illustrating the internal structure of an engine generator according to a first embodiment of the invention viewed from a side, and

FIG. 2

is a diagram illustrating the engine generator viewed from a direction of the arrow X in FIG.


1


.




The engine generator


1


of this embodiment is a generating apparatus in which a generator is driven by an engine. The engine


2


is placed upon a base


8


together with the generator


3


, a muffler


4


, a cooling fan


5


and others, all of these being accommodated within a box-like housing (not shown). The generator


3


of the engine generator


1


is an outer-rotor type multipolar generator having a generating unit


16


composed of outer rotors


11


and stators


12


. The generating unit


16


is housed within a fan cover


19


which is provided for accommodating the cooling fan therein. The stator


12


of the generating unit


16


is attached to the fan cover


19


, thereby allowing itself to be replaced only by dismounting the fan cover


19


.




The engine


2


is a general-purpose diesel engine having a crankshaft


10


for driving the generator


3


disposed on the right side of the engine


2


in FIG.


1


. Exhaust gases produced by the engine


2


are drawn into the muffler


4


on the left side of the engine in

FIG. 1

, where the exhaust noise is muffled, and are discharged to the outside through a discharge port (not shown).




The engine


2


is supported on the base


8


through an anti-vibration support member


6


. The anti-vibration support member


6


is held on a pair of right and left anti-vibration plates


6




a


, brackets


6




b


attached on the base


8


, and vibration absorbers


6




c


interposed between the anti-vibration plates


6




a


and the brackets


6




b


. The vibration absorber


6




c


is made of rubber or synthetic resin and prevents vibration generated by the engine


2


in operation from being transmitted to the base


8


. The engine vibration is thus reduced and a soundproof effect of the apparatus is achieved in view of such anti-vibration support member


6


for holding the engine


2


thereon.




The cooling fan


5


which also serves as a flywheel is fixed to the crankshaft


10


of the engine


2


. The cooling fan


5


includes a blade


5




a


on the outer circumference thereof which projects towards a side opposite from the engine


2


, and the outer rotor


11


formed in a bottomed cylindrical shape is fixed to the end of the blade


5




a


. With the engine being operated, the cooling fan


5


rotates, whereupon the air is induced into the apparatus from the right side in FIG.


1


through inlets


27




a


,


27




b


formed in the fan cover


19


as shown by broken lines. Thus cooling air is provided towards the engine


2


.




The outer rotor


11


is attached to the cooling fan


5


, with its open end facing opposite the engine


2


. A plurality of magnets


14


are arranged circumferentially on the inner wall surface of the outer rotor


11


. The combination of the stator


12


and the outer rotor


11


form the generating unit


16


.




The stator


12


has a stator core


15


from which a plurality of yolks having generating coils


13


wound therearound project radially, as shown in FIG.


2


. Upon activation of the engine


2


, the outer rotor


11


starts to rotate, causing the magnets


14


to rotate around the generating coils


13


, whereby an electromotive force is generated in the generating coils


13


, and thus electricity is generated.




As described above, the engine generator


1


according to the invention employs an outer-rotor type generator


3


. Thus, allowing the apparatus to be designed in a small and light-weight fashion. Particularly, its length in the axial direction is made shorter, as compared to the apparatus disclosed in the above-mentioned Japanese Patent Application Laid-open Publication No. 58-197415 or the like. However, with a structure in which replacement of the stator involves dismounting of the cooling fan and the rotor as is the case with apparatus disclosed in Japanese Patent Application Laid-open Publication No. 11-36880, such problems as poor maintenance work efficiency and increased work steps would arise as described above.




For this reason, the engine generator


1


according to the invention adopts a structure whereby the stator


12


can be replaced simply by removing the fan cover


19


, i.e. the stator


12


is fixed to the inner side of the fan cover


19


. The fan cover


19


has a stator mounting piece


17


, illustrated at the right said end in

FIG. 1

, which projects towards the engine


2


side. The stator


12


is fixedly mounted to and within the fan cover


19


by this stator mounting piece


17


. Thus, with the fan cover


19


being mounted to the engine


2


, the stator


12


is set inside of the outer rotor


11


, thereby forming the generator


3


.




Accordingly, when the fan cover


19


is removed for maintenance, the stator


12


attached thereto also comes off from the engine generator


1


together with the fan cover


19


. Thus the stator


12


can be replaced without the need of dismounting other components such as the outer rotor


11


as in the prior art described in the foregoing. In this way, maintenance is facilitated and the number of working steps is reduced.




Moreover, the fan cover


19


mounted to the engine


2


accommodates the generating unit


16


in its entirely therein. Therefore, separate housings are not necessary for holding the generator


3


, leading to a reduction in the number of components, and also the water-proof property of the engine generator is improved.




The electromotive force generated in the generating coils


13


is fed to an inverter unit (not shown), where it is transformed into an alternating current having a predetermined frequency before being output from a control panel provided within the housing of the engine generator. Generated power is thus output after converting frequencies through the inverter unit because, otherwise, the speed of the engine would have to be adjusted to a fixed value regardless of the variously changed load, in order to maintain a constant output frequency. Accordingly, the engine can run under suitable conditions in accordance with the changes in load. As a result, it is made possible to generally reduce the speed of the engine except when it takes a large load, leading to decreased noise and reduced fuel cost.




Although not shown, a recoil starter is provided on the outside of the fan cover


19


, with which the crankshaft


10


is rotated by pulling a rope to start the engine


2


.




As described above, the engine generator


1


according to the invention has the stator


12


attached to the fan cover


19


, whereby the stator


12


can be replaced by simply removing the fan cover


19


without dismounting other components such as the outer rotor


11


. Thus the apparatus can be readily disassembled and assembled with a fewer number of working steps for maintenance such as the replacement of the stator


12


.




(Second Embodiment)




Next, an engine generator according to a second embodiment of the present invention employing an inner-rotor type generator


3


will be described.

FIG. 3

is a diagram illustrating the internal structure of an engine generator


21


according to the second embodiment viewed from a side, and

FIG. 4

is a cross-sectional view taken along the line A—A in FIG.


3


. Elements and components common to the engine generator


1


of the above-described first embodiment are given the same reference numerals, and the description thereof will be omitted.




The generator


3


of this engine generator


21


is composed of a generating unit


24


having inner rotors


22


and stators


23


and being entirely covered by a fan cover


19


. The inner rotor


22


is coupled to the crankshaft


10


of the engine


2


, and a plurality of magnets (not shown) are fixed on an outer peripheral surface thereof in a circumferential arrangement. The stator


23


is attached to an inner side of the fan cover


19


, so that, with the fan cover


19


being mounted to the engine


2


side, the stator


23


is brought to a position facing the inner rotor


22


arranged rotatable on the inner side of the stator


23


. Coils


25


are wound around the stator


23


so that an electromotive force is generated in the coils


25


by rotating the magnets on the inside of the coils


25


.




As described above, the engine generator


21


likewise has the stator


23


fixed to the fan cover


19


so that it is separable from the apparatus simply by removing the fan cover


19


. Therefore, the stator


23


can be replaced without removing other components such as the inner rotor


22


and, similarly to the above-described first embodiment, maintenance is facilitated and the number of working steps is reduced.




Moreover, while the prior art inner-rotor type generator required a front and a rear housings for fixing the stator


23


, the arrangement according to the invention requires only one fan cover


19


for covering the generating unit


24


in its entirety, whereby the number of components is reduced and the water-proof property of the engine generator is improved.




The entire length of the engine generator


21


of this embodiment is somewhat longer than that of the engine generator


1


of the above-described first embodiment in view of the inner-rotor type generator


3


employed therein. On the other hand, the arrangement of this embodiment enables existing components to be used, thereby achieving cost savings.




(Third Embodiment)




Next, as a third embodiment of the present invention, a modification of the engine generator employing the outer-rotor type generator


3


will be described.

FIG. 5

is a diagram illustrating principal parts of an engine generator


31


according to the third embodiment of the invention. Elements and components common to the engine generator


1


of the above-described first embodiment are given the same reference numerals, and the description thereof will be omitted.




The engine generator


31


shown in

FIG. 5

has an outer rotor


32


which also serves as a cooling fan


5


, and a stator


33


inserted to the inner side of the outer rotor


32


from the side of the fan cover


19


, so that facilitation of maintenance and a decrease in length of the generator in its axial direction are both achieved.




Like the above-described engine generator of the first embodiment, the generator


3


of this engine generator


31


includes a generating unit


34


having the outer rotor


32


and the stator


33


and being entirely accommodated within the fan cover


19


. The outer rotor


32


is formed in a bottomed cylindrical shape, and mounted to the crankshaft


10


with its open end facing opposite the engine


2


side. A blade


35


is formed at the right side end (opposite to the engine


2


) on the outer periphery of the outer rotor


32


, thereby forming the cooling fan


5


together with the outer rotor


32


. A plurality of magnets


14


are fixed on an inner peripheral surface of the outer rotor


32


in a circumferential arrangement.




The stator


33


is formed to have a smaller diameter than the inner diameter of the cooling fan


5


, and mounted to an inner side of the fan cover


19


by a stator mounting piece


17


. That is, the stator


33


can be inserted to the inside of the outer rotor


32


through the open end of the outer rotor


32


. Accordingly, with the fan cover


19


being mounted to the engine


2


side, the stator


33


is brought to a position inside the outer rotor


32


, with its coils (not shown) opposing the magnets


14


of the outer rotor


32


. Upon start-up of the engine


2


, the outer rotor


32


rotates, causing the magnets to rotate on the outside of the coils, whereby an electromotive force is generated in the coils and thus electricity is generated.




As described above, the engine generator


31


according to the third embodiment likewise has the stator


33


fixed to the fan cover


19


, so that the stator


33


can be separated from the apparatus simply by removing the fan cover


19


. Therefore, the stator


33


can be replaced without removing other components such as the outer rotor


32


, and similarly to the above-described first and second embodiments, maintenance is facilitated and the number of working steps is reduced.




Although the invention devised by the present inventors has been described in specific terms in connection with the preferred embodiments thereof, it should be noted that the subject matter of the invention is not limited to such preferred embodiments, and various changes and modifications may be made unless they depart from the subject matter of the invention.




For example, a gasoline engine can of course be used instead of the general-purpose diesel engine as described in the preferred embodiments.



Claims
  • 1. An engine generator comprising:an engine; a generator driven by said engine, said generator including a rotor and a stator; a cooling fan driven by said engine; and a fan cover for enclosing said cooling fan therein, wherein said rotor and said stator are accommodated within said fan cover, said stator is mounted to said fan cover and said generator is an outer-rotor type generator.
Priority Claims (1)
Number Date Country Kind
2000-113399 Apr 2000 JP
US Referenced Citations (7)
Number Name Date Kind
2543541 Angle Feb 1951 A
4677940 Bracht et al. Jul 1987 A
4779905 Ito et al. Oct 1988 A
4859886 Tanaka et al. Aug 1989 A
5546901 Acker et al. Aug 1996 A
5890460 Ball Apr 1999 A
6095099 Morohoshi et al. Aug 2000 A
Foreign Referenced Citations (2)
Number Date Country
3825349 Feb 1989 DE
2168203 Jun 1986 GB
Non-Patent Literature Citations (5)
Entry
Patent Abstracts of Japan, vol. 012, No. 057, Feb. 20, 1988 & JP 62 203918 (Honda Motor Co Ltd), Sep. 8, 1987.
Patent Abstracts of Japan, vol. 2000, No. 03, Mar. 30, 2000 & JP 11343859 A (Mitsubishi Heavy Ind Ltd), Dec. 14, 1999.
JP 11-36880 Feb. 9, 1999.
JP 58-197417 Nov. 17, 1983.
JP 58-197415 Nov. 17, 1983.