Starter for internal combustion engine

Information

  • Patent Grant
  • 6817258
  • Patent Number
    6,817,258
  • Date Filed
    Friday, November 30, 2001
    22 years ago
  • Date Issued
    Tuesday, November 16, 2004
    20 years ago
Abstract
A starter for an internal combustion engine includes a planetary gear speed reduction mechanism, a pinion and a pinion drive shaft, a motor, a front housing having a plurality of fastening holes disposed at a circumference and a center casing having approximately the same outside diameter as the motor housing. The center housing is disposed between the motor housing and the front housing to align a motor shaft, the planetary gear speed reduction mechanism and the pinion drive shaft. The diameter of the motor housing is a maximum outside diameter of the fastening bolt less than the diameter of a circumference on which the fastening bolts are formed. Therefore, fastening bolts can be easily inserted into the fastening holes.
Description




CROSS REFERENCE TO RELATED APPLICATION




The present application is based on and claims priority from Japanese Patent Application 2000-370684 filed Dec. 5, 2000, the contents of which are incorporated herein by reference.




BACKGROUND OF THE INVENTION




1. Field of the Invention




The present invention relates to a starter for an internal combustion engine and particularly, a starter for a large-sized diesel engine.




2. Description of the Related Art




A starter for a large-sized diesel engine employs a starter motor, a pinion gear to be engaged with a ring gear of a diesel engine and a planetary gear speed reduction mechanism disposed between the starter motor and the pinion gear. The speed reduction mechanism is necessary to provide a compact starter motor. In such a starter, the motor shaft of the starter motor and a pinion drive shaft are not coaxially connected. Usually, the motor shaft is supported by a motor housing, and the pinion drive shaft is supported by a front housing that has a flange which is fixed to a portion of the engine by a fastening bolt. Since the motor shaft and the pinion drive shaft are not coaxially disposed, the motor housing overhangs the flange. Therefore, it is impossible to mount such a starter on the engine by a common socket wrench. It was necessary to use a special tool to mount on or demount from such a starter on the engine.




SUMMARY OF THE INVENTION




Therefore, a main object of the invention is to provide a compact starter for an internal combustion engine that can be mounted on an engine easily with a common tool such as a socket wrench.




According to a main feature of the invention, starter for an internal combustion engine includes a planetary gear speed reduction mechanism, a pinion to be engaged with a ring gear of the engine and a pinion drive shaft connected to the speed reduction mechanism, a motor having a motor housing, a front housing for supporting the pinion drive shaft at an end, a center casing for supporting the pinion drive shaft at the other end. The front housing has a flange to be fixed to a portion of the engine. The motor housing has a first outside diameter, and the flange has a plurality of fastening holes disposed at a circumference having a second diameter. The center housing is disposed between the motor housing and the front housing to align a motor shaft, the planetary gear speed reduction mechanism and the pinion drive shaft. A difference between the first outside diameter and the second diameter is larger than a maximum outside diameter of the fastening bolt so that the fastening bolt can be inserted into the fastening hole along the outer periphery of the motor housing.











BRIEF DESCRIPTION OF THE DRAWINGS




Other objects, features and characteristics of the present invention as well as the functions of related parts of the present invention will become clear from a study of the following detailed description, the appended claims and the drawings. In the drawings:





FIG. 1

is a starter for an internal combustion engine according to a preferred embodiment of the invention;





FIG. 2

is a schematic front view of a center housing connected to a motor housing of the starter according to the preferred embodiment;





FIG. 3

is a schematic diagram illustrating variations of assembling the starter according to the preferred embodiment;





FIG. 4

is a rear view of the starter according to the preferred embodiment;





FIG. 5

is a graph showing relationship between motor current and the outside diameter of a starter motor;





FIG. 6

is a graph showing relationship between the motor current and the speed reduction ratio of a planetary gear speed reduction mechanism;





FIG. 7

is a graph showing relationship between the output power of the starter motor and the outside diameter thereof; and





FIG. 8

is a graph sowing relationship between the rotation speed of a pinion of the starter and the outside diameter of the starter motor.











DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS




A starter


1


for a large-sized diesel engine that has a capacity between 10-16 litters is shown in

FIG. 1. A

starter motor


3


is comprised of a motor housing


2


, a stator


4


, a rotor


5


disposed in the stator


4


and a motor shaft


3




a


force-fitted to the rotor


5


. An end frame


6


is fixed to the rear portion of the motor housing


2


, and a center casing


7


is fixed to the front portion thereof.




A plurality (e.g. twenty one) of female screws


8


is formed at the front surface of the center casing


7


at equal intervals except for an upper portion thereof, as shown in

FIG. 2. A

cup-shaped front housing


9


has a flange


10


at the open end thereof, where a plurality (e.g. six) of through holes


11


is formed at portions corresponding to the female screws


8


. The flange


10


also has three ear-like fixing portions


14


projecting radially outward from the outer periphery thereof at equal intervals. Each of the fixing portions


14


has a fastening hole


13


. The front housing


9


is fixed to the front surface of the center casing


7


at the flange


10


by a plurality (e.g. six) of bolts


12


that is screwed into a portion (e.g. six) of the plurality (e.g. twenty one) of the female screws


8


via the through holes


11


. As shown in

FIG. 3

, the front housing


9


can be fixed to the center casing


7


at a most appropriate angular position of the center casing


7


so that the starter


1


can be on a different engine.




The motor housing


2


, the end frame


6


and the center casing


7


have nearly the same outside diameter D


1


. The starter


1


is fixed to a bracket (not shown) of the engine by three fastening bolt


15


at the fastening holes


13


. The fastening holes


13


are formed on a circumference of a diameter D


2


to prevent the motor housing


2


from obstructing the heads


15




a


of the fastening bolts


15


being inserted into the fastening holes


13


, as shown in FIG.


4


. In other words, the outside diameter D


1


is made smaller than an inscribed circle D


3


of the head of the fastening bolts


15


. That is, the outside diameter D


1


is a maximum outside diameter of the fastening bolt less than the diameter D


2


of the circumference on which the fastening holes are formed. Accordingly, a fixing tool, such as a socket wrench


16


, can have access to the heads


15




a


of the fastening bolts


15


around the motor housing


2


.




The end frame


6


and the center casing


7


respectively have two pairs of radially projecting fixing portions


36


and


37


and are fastened to each other by two fastening bolts


38


at the fixing portions


36


and


37


. They are located away from the three fixing portions


14


of the front housing


9


so as not to obstruct the socket wrench


16


, as shown in FIG.


4


.




The motor shaft


3




a


extends to the inside of the center housing


7


and carries a sun gear


17


of a planetary gear speed reduction mechanism


20


that is comprised of planetary gears


18


and an internal gear


19


. The planetary gears


18


are fixed to the rear portion of a drive shaft


21


, and the internal gear


19


is fixed to the inner wall of the center casing


7


.




The drive shaft


21


is supported at the rear end thereof by the center housing


7


via a rear bearing


22


and at the front end by the front housing


9


via a front bearing


23


so that the drive shaft


21


can be coaxial with the motor shaft


3




a


. An over running clutch


24


and a pinion


25


are carried by the drive shaft


21


so that they can reciprocate along the drive shaft


21


.




An electromagnetic plunger


26


is disposed on the motor housing


2


and the center housing


7


. The electromagnetic plunger


26


is comprised of an electromagnetic coil


27


, a plunger


28


, a rod


29


, a compression coil spring


30


, a contact bridge


31


and a pair of stationary contacts


32


and


33


. The coil spring and the rod


29


are disposed inside the electromagnetic coil


27


. The contact bridge


31


is fixed to the end of the plunger


28


that projects from the electromagnetic coil


27


to face the pair of stationary contacts


32


and


33


.




A lever


34


is rotatably supported by a pin


35


. The lever


34


is fixed at the upper end thereof to a front portion of the plunger


28


.




A ring-shaped dust seal


35




b


is disposed between the flange


10


and the center casing


7


so that the inner edge


35




a


of the dust seal


35




b


contact the outer periphery of the overrunning clutch


24


, thereby keeping dust off the inside of the center housing


7


.




When a key switch is turned on, the electromagnet switch


27


is energized to move the plunger


28


, together with the rod


29


, in a direction indicated by an arrow A. Consequently, the lever


34


rotates about the pin


35


in a direction indicated by an arrow B. Therefore, the pinion


25


, together with the overrunning clutch


24


, is moved along the drive shaft


21


in a direction indicated by an arrow C to engage a ring gear (not shown) of the engine.




When the plunger


28


moves in the direction indicated by the arrow A, the rod


29


urges the contact bridge


31


against the stationary contacts


32


and


33


and closes the power circuit of the motor


3


. Accordingly, the motor shaft


3




a


rotates the drive shaft


21


via the sun gear


17


and the planetary gears


18


of the planetary gear speed reduction mechanism


20


. Thus, the ring gear is rotated, and the engine is started.




If the diameter of the circumference for the fastening holes is 146 mm and if the outside diameter of a socket wrench is 28 mm, the outside diameter D


1


of the motor housing should be 118 mm or less.




It is generally known that the heat capacity of the motor is proportional to D


1




2


×L, where L is an axial length of the motor. If the length is not increased, motor current should be reduced in order to suppress temperature rise of the motor. Further, it is necessary to increase the output torque of the motor by increasing the speed reduction ratio of the planetary gear speed reduction mechanism


20


.




If the output torque of a sample starter motor whose outside diameter is 130 mm is 6 kg·m/1400 A, it is possible to attain 6 kg·m/1000 A by a starter motor whose outside diameter is 118 mm, as shown in FIG.


5


. Further, the speed reduction ratio has to be more than 3.8, according to a graph shown in FIG.


6


.




If the output power of 5 kw is necessary, the outside diameter has to be larger than 100 mm, according to a graph shown in FIG.


7


. The outside diameter of larger than 100 mm can be attained if the speed reduction ratio is equal to or less than 4.4.

FIG. 8

shows that the outside diameter between 100 mm and 118 mm will rotate the pinion at 2000 rpm with the speed reduction ratio being between 3.8 and 4.4.




Thus, a compact and powerful starter that has the starter motor whose outside diameter is in the range of 100 mm-118 mm, and the planetary gear speed reduction mechanism whose speed reduction ratio is in the range of 3.8-4.4.




In the foregoing description of the present invention, the invention has been disclosed with reference to specific embodiments thereof. It will, however, be evident that various modifications and changes may be made to the specific embodiments of the present invention without departing from the scope of the invention as set forth in the appended claims. Accordingly, the description of the present invention is to be regarded in an illustrative, rather than a restrictive, sense.



Claims
  • 1. A starter for an internal combustion engine including a planetary gear speed reduction mechanism, a pinion to be engaged with a ring gear of said engine and a pinion drive shaft connected to said speed reduction mechanism, comprising:a motor having a motor housing with a first outside diameter and a motor shaft; a front housing for supporting said pinion drive shaft, said front housing having a bearing for supporting said pinion drive shaft at one end of said shaft and an integrally formed and radially-outwardly extending flange for providing a plurality of fastening holes disposed at a circumference having second diameter through which a plurality of fastening bolts is fixed to a portion of said internal combustion engine; and a center casing having approximately the same outside diameter as said motor housing and a bearing for supporting said pinion drive shaft at the other end, said center casing being disposed between said motor housing and said front housing for aligning said motor shaft, said planetary gear speed reduction mechanism and said pinion drive shaft; and adjusting means for fixing said front housing to a selected angular position of said center casing, wherein a difference between said first diameter and said second diameter is larger than a maximum outside diameter of said fastening bolt so that said fastening bolt can be inserted into said fastening hole along outer peripheries of said motor housing, and said adjusting means comprises a first number of female screw holes formed at an end of said center casing, a second number of through holes, which number is smaller than said first number, formed at an end of said front housing in contact with said end of said center casing and a plurality of bolts that screw into those of said female screw holes that are selected to adjust said front housing to said selected angular position.
  • 2. The starter as claimed in claim 1, whereinsaid difference is larger than outside diameter of a socket wrench.
  • 3. The starter as claimed in claim 2, further comprising an end frame having a plurality of radially projecting fixing portions disposed away from said fastening holes so as not to obstruct said socket wrench.
  • 4. The starter as claimed in claim 1, whereinsaid first outside diameter of said motor housing is between 100 mm and 118 mm, and said planetary gear speed reduction mechanism has a speed reduction ratio between 3.8 and 4.4.
  • 5. The starter as claimed in claim 1, further comprising a dust seal disposed between said front housing and said center housing.
  • 6. The starter as claimed in claim 5, further comprising a rotary member connected to said pinion drive shaft, wherein said dust seal has an inner edge that contacts an outer periphery of said rotary member.
  • 7. The starter as claimed in claim 6, wherein said rotary member comprises an overrunning clutch.
  • 8. The starter as claimed in claim 1, further including a plurality of projecting members projecting radially outward, whereinsaid adjusting means locates each of said fastening holes away from said projecting members.
Priority Claims (1)
Number Date Country Kind
2000-370684 Dec 2000 JP
US Referenced Citations (6)
Number Name Date Kind
4184378 Mazzorana Jan 1980 A
4325265 Wakatsuki et al. Apr 1982 A
5167162 Nagashima et al. Dec 1992 A
5821662 Kajino et al. Oct 1998 A
5844336 Ohya et al. Dec 1998 A
5847471 Morishita et al. Dec 1998 A