Throttle grip position maintaining device in outboard engine system

Information

  • Patent Grant
  • 6491555
  • Patent Number
    6,491,555
  • Date Filed
    Tuesday, August 21, 2001
    23 years ago
  • Date Issued
    Tuesday, December 10, 2002
    22 years ago
Abstract
In an outboard engine system, a throttle grip position maintaining device includes a retained portion integrally formed on a throttle grip, a friction member axially superposed on the retained portion, a support member mounted to a steering bar handle to abut against an inner end face of the retained portion, a regulating member threadedly fitted over the support member and having an urging portion abutting against an outer end face of the friction member, and an anti-loosening means provided between the support member and the regulating member for inhibiting the disorderly movement of the regulating member. With such arrangement, even when a retaining force on the throttle grip is regulated, a thrust load is not applied to the throttle grip, and the retaining force can be maintained stably after the regulation.
Description




BACKGROUND OF THE INVENTION




1. Field of the Invention




The present invention relates to an improvement in a throttle grip position maintaining device in an outboard engine system, which is mounted between a bar handle for steering the outboard engine system and a throttle grip rotatably but axially non-movably fitted over the bar handle for controlling the opening degree of a throttle valve of an engine, thereby providing a frictional resistance to the throttle grip to retain the throttle grip at any opening degree of the throttle valve.




2. Description of the Related Art




In such a throttle grip position maintaining device in an outboard engine system, if the frictional resistance provided to the throttle grip is too large, an operating load on the throttle grip is also too large, thereby deteriorating the lightness of the throttle control. On the other hand, if the frictional resistance is too small, a retaining force applied to the throttle grip is also too small and for this reason, the throttle grip is liable to be moved from the position corresponding to a desired opening degree of the throttle valve. Therefore, a throttle grip opening degree maintaining device has been proposed, which is designed so that the frictional resistance is made variable to enable the regulation of the retaining force for a throttle grip, as disclosed in Japanese Patent Application Laid-open No.6-144379.




In the device disclosed in the above Patent, a ring nut is threadedly fitted over the throttle grip, and a friction member is interposed between the ring nut and a step of a bar handle opposed. to an end face of the ring nut, whereby the retaining force for the throttle grip is regulated by regulating the amount of tightening of the ring nut relative to the friction member.




In such throttle grip position maintaining device, however, when the ring nut is, for example, tightened to press the friction member, a thrust load directed to an outer end of the bar handle is applied to the throttle grip due to a reaction of the pressure. When the throttle grip is displaced axially by the thrust load, a variation in opening degree of a throttle valve of an engine is undesirably generated.




SUMMARY OF THE INVENTION




The present invention has been achieved with the above circumstances in view, and it is an object of the present invention to provide a throttle grip position maintaining device of the above-described type in an outboard engine system, wherein even when the retaining force for the throttle grip is regulated, the thrust load is not applied to the throttle grip and moreover, the retaining force can be maintained stably after the regulation.




To achieve the above object, according to a first aspect and feature of the present invention, there is provided a throttle grip position maintaining device in an outboard engine system, which is mounted between a bar handle for steering the outboard engine system and a throttle grip rotatably but axially non-movably fitted over the bar handle for controlling the opening degree of a throttle valve of an engine, thereby providing a frictional resistance to the throttle grip to retain the throttle grip at a position corresponding to any opening degree of the throttle valve. The throttle grip position maintaining device comprises a retained portion which is integrally formed on the throttle grip, a friction member axially superposed on the retained portion, a support member disposed on axially one side of the retained portion and the friction member and axially slidably but non-rotatably mounted to the bar handle, a regulating member threadedly fitted over the support member and having an urging portion disposed on the axially other side of the retained portion and the friction member, and an anti-loosening means provided between the support member and the regulating member for inhibiting the disorderly movement of the regulating member, the friction member being non-rotatably connected relative to one of the retained portion and the support member, but being rotatably connected relative to the other of the retained portion and the support member.




The retained portion and the urging portion correspond to an outward-facing flange


31


and an inward-facing flange


34


respectively in an embodiment of the present invention, which will be described hereinafter.




With the first feature, when the regulating member is tightened relative to the support member, both the support member and the regulating member are displaced axially, to axially clamp the friction member and the retained portion of the throttle grip, thereby providing a desired frictional resistance to the retained portion between the support member and the regulating member. Thus, the throttle grip can be retained at a position corresponding to any opening degree of the throttle valve, while avoiding that a thrust load is applied to the throttle grip.




Moreover, the disorderly movement of the regulating member is inhibited by the anti-loosening means and hence, the regulated retaining force for the throttle grip can be maintained stably, to contribute to an enhancement in steerability of the outboard engine system.




According to a second aspect and feature of the present invention, in addition to the first feature, the anti-loosing means comprises a click stop mechanism designed to provide a sense of moderation to a user, whenever the regulating member is rotated through a given angle.




With the second feature, it is possible for the user to accurately sense an angle of rotation of the regulating means, i.e., the retaining force for the throttle grip.




According to a third aspect and feature of the present invention, in addition to the second feature, the click stop mechanism comprises a plurality of first protrusions projectingly provided on an outer peripheral surface of the support member and arranged at circumferentially equal distances, and a plurality of second protrusions projectingly provided on an inner peripheral surface of the regulating member surrounding the plurality of the first protrusions and arranged at circumferentially equal distances, whereby some of the second protrusions are elastically brought into or out of engagement with some of the first protrusions, whenever the regulating member is rotated through a given angle.




With the third feature, the click stop mechanism comprises the plurality of first protrusions and the plurality of second projections and hence, is extremely simple in construction and can be provided at a low cost.




According to a fourth aspect and feature of the present invention, in addition to the third feature, the numbers of the first and second protrusions are different from each other, and the circumferential widths of the first and second protrusions are also different from each other, whereby some of the first protrusions and some of the second protrusions are in elastic engagement with each other in any rotated position of the regulating member.




With the fourth feature, it is possible to easily set a given angle of the regulating member, thereby providing a sense of moderation to a user.




The above and other objects, features and advantages of the invention will become apparent from the following description of the preferred embodiment taken in conjunction with the accompanying drawings.











BRIEF DESCRIPTION OF THE DRAWINGS





FIG. 1

is a side view of an outboard engine system including a throttle grip position maintaining device according to the present invention;





FIG. 2

is an enlarged vertical sectional view of a steering bar handle and other components;





FIG. 3

is an enlarged view of the throttle grip position maintaining device shown in

FIG. 2

;





FIG. 4

is a sectional view taken along a line


4





4


in

FIG. 2

;





FIG. 5

is a sectional view taken along a line


5





5


in

FIG. 3

; and





FIG. 6

is a sectional view taken along a line


6





6


in FIG.


3


.











DESCRIPTION OF THE PREFERRED EMBODIMENT




The present invention will now be described by way of an embodiment with reference to the accompanying drawings.




Referring first to

FIG. 1

, an outboard engine system O includes a stern bracket


1


clamped on a transom T of a hull, and a casing


3


connected to the stern bracket


1


through a swivel shaft


2


for swinging movement in a lateral direction of the hull to extend vertically. An engine E is mounted at an upper portion of the casing


3


, and an engine cover


4


is coupled to the casing


3


to cover the engine E. A power output from a crankshaft


5


of the engine E is transmitted through a drive shaft


6


disposed within the casing


3


and a bevel gear transmitting device


7


capable of switching the forward and backward movements of a boat from one to another to a propeller shaft


8


supported at a lower portion of the casing


3


, to thereby drive a propeller


9


mounted at a rear end of the propeller shaft


8


.




A handle holder


10


is secured to an outer wall of a rear portion of the engine E, and a steering bar handle


11


is connected to a rear end of the handle holder


10


through a horizontal pivot


12


. Therefore, the bar handle


11


is capable of being turned between a service position in which it extends substantially horizontally toward the hull, and a retracted position in which it rises upward. A throttle grip


15


is mounted at a rear end of the bar handle


11


for controlling the opening and closing of a throttle valve (not shown) for regulating the amount of air drawn in the engine E.




As shown in

FIGS. 2

to


4


, the throttle grip


15


is comprised of a bottomed cylindrical grip body


16


made of a synthetic resin and rotatably fitted over a hollow support shaft


11




a


formed at an end portion of the bar handle


11


, and a grip rubber member


17


mounted to cover an outer peripheral surface of the grip body


16


. A short shaft portion


18


is projectingly provided on an end face of the support shaft


11




a


and relatively rotatably passed through an end wall of the grip body


16


, and the grip body


16


is prevented from being slipped out, by a bolt


19


threadedly engaged in the short shaft portion


18


.




A slider


20


is slidably received in a cavity in the support shaft


11




a


, and an operating wire


21


leading to the throttle valve (not shown) provided in an intake system in the engine E is. connected to the slider


20


through a regulating rod


22


.




The slider


20


includes an operating pin


23


protruding from one side of the slider


20


. On the other hand, an axially extending elongated bore


24


is provided in one sidewall of the support shaft portion


11




a


, and a helical groove


25


is defined in an inner wall of the grip body


16


. The operating pin


23


is slidably passed through the elongated bore


24


and slidably engaged in the helical groove


25


.




Thus, when a user grasps the throttle grip


15


to turn it to his side or to the other side, the helical groove


25


in the grip body


16


permits the operating pin


23


to be reciprocally slid along the elongated bore


24


in the support shaft


11




a


, and the slider


20


reciprocally slid within the support shaft


11




a


along with the operating pin


23


pushes or pulls the operating wire


21


to open or close the throttle valve (not shown).




A throttle grip position maintaining device


30


for maintaining the throttle grip


15


operated in the above manner at a position corresponding to any throttle opening-degree is mounted between the bar handle


11


and the throttle grip


15


. The device


30


will be described below with reference to

FIGS. 3

,


5


and


6


.




The throttle grip position maintaining device


30


comprises an outward-facing flange


31


(a portion to be held) integrally formed at an inner end of the grip body


16


, an annular friction member


32


fitted over the grip body


16


and superposed on an axially outer end face of the outward-facing flange


31


, a cylindrical support member


33


axially slidably mounted on the bar handle


11


, a cylindrical regulating member


35


threadedly fitted over the support member


33


and having an inward-facing flange


34


(an urging portion) abutting against an axially outer end face of the friction member


32


, and a click stop mechanism


36


(an anti-loosening means) provided between the support member


33


and the regulating member


35


and inhibiting the movement of the regulating member


35


, unless a rotational torque equal to or larger then a predetermined value is applied to the regulating member


35


. Each of the support member


33


and the regulating member


35


is made of a synthetic resin.




A single line or a plurality of lines (two lines perpendicular to a diameter line of the support member


33


in the illustrated embodiment) of axial grooves


37


are formed on an inner peripheral surface of the support member


33


. A single line or a plurality of lines of projections


38


projectingly provided on an outer peripheral surface of the support shaft portion


11




a


are slidably fit in the axial grooves


37


, thereby prohibiting the rotation of the support member


33


about the support shaft portion


11




a.






The friction member


32


is made of an elastomer such as a rubber, and a single line or a plurality of lines (two lines in the illustrated embodiment) of axial grooves


39


are made on an outer peripheral surface of the friction member


32


. Fitting projections


40


projectingly provided on an outer end face of the support member


33


are slidably fit in the axial grooves


39


, thereby inhibiting the rotation of the friction member, but the friction member


32


and the outward-facing flange


31


of the grip body


16


are rotatable relative to each other. The axial length of the projection


40


is set such that the projection


40


does not obstruct the compressive deformation of the friction member


32


caused by the outward-facing flange


31


of the grip body


16


and the inward-facing flange


34


of the regulating member


35


.




The click stop mechanism


36


is comprised of a plurality of first protrusions


41


formed integrally and projectingly on an outer peripheral surface of the support member


33


and arranged at circumferentially equal distances, and a plurality of second protrusions


42


formed integrally and projectingly on an inner peripheral surface of a thinned portion


35




a


of the regulating member


35


surrounding the plurality of protrusions


41


and arranged at circumferentially equal distances. The first and second protrusions


41


and


42


are designed to be brought into and out of engagement with each other by the elastic deformation of the thinned portion


35




a


of the regulating member


35


, whenever the regulating member


35


is rotated through a given angle.




The number of the first protrusions


41


is slightly smaller than that of the second protrusions


42


, and in the illustrated embodiment, the number of the first protrusions


41


is six, and the number of the second protrusions


42


is five. Moreover, the circumferential width of the first protrusions


41


is set larger than that of the second protrusions


42


.




In Figures, reference numeral


43


refers to cut-out portions of the support member


33


.




The operation of the embodiment will be described below.




When a user grasps and turns the regulating member


35


so that the regulating member


35


is tightened relative to the support member


33


, both the support member


33


and the regulating member


35


are displaced axially. As a result, the outer end face of the support member


33


and the inward-facing flange


34


of the regulating member


35


axially clamp the friction member


32


and the outward-facing flange


31


cooperatively, thereby providing a compressive deformation to the friction member


32


without applying a thrust load to the throttle grip


15


. Thus, in the illustrated embodiment, the friction force between the outward-facing flange


31


of the grip body


16


and the friction member


32


which are capable of being rotated relative to each other is increased. This friction force acts as a resistance to the rotation of the throttle grip


15


to retain the throttle grip


15


at a position corresponding to any opening degree of the throttle valve. The force for retaining the throttle grip


15


is dependent on an amount of tightening of the regulating member


35


relative to the support member


33


, i.e., an amount of compressing of the friction member


32


. Namely, if the amount of tightening of the regulating member


35


relative to the support member


33


is small, the force for retaining the throttle grip


15


is small. On the other hand, if the amount of tightening of the regulating member


35


relative to the support member


33


is large, the force for retaining the throttle grip


15


is large. In this regulation of the retaining force, if the support member


33


is slightly axially slid, it is avoided that the thrust load is applied to the throttle grip


15


, resulting in no variation in opening degree of the throttle valve.




On the other hand, in the click stop mechanism


36


, some of the first protrusions


41


and some of the second protrusions


42


are always in engagement with each other, while providing the elastic deformation to the thinned portion


35




a


of the regulating member


35


, thereby inhibiting the disorderly movement of the regulating member


35


. Therefore, the regulated retaining force on the throttle grip


15


can be maintained stably, to provide an enhancement in steerability of the outboard engine system. Whenever the regulating member


35


is rotated through a given angle, some of the first protrusions


41


are disengaged from the second protrusions


42


with which they have been engaged hitherto, and at the same time, the other first and second protrusions


41


and


42


are newly engaged with each other, thereby providing a sense of moderation to the user. Therefore, the user can sense an angle of rotation of the regulating member


35


, i.e., a degree of compression of the friction member


32


.




Moreover, the click stop mechanism


36


comprising the first and second protrusions


41


and


42


is extremely simple in configuration, and can be produced at a low cost.




In addition, it is possible to easily set a given angle of the rotation of the regulating member


35


in order to provide the sense of moderation to the user by providing the first and second protrusions


41


and


42


in different numbers and with different circumferential widths.




The number of the second protrusions


42


may be larger than that of the first protrusions


41


, and the circumferential width of the second protrusions


42


may be set larger than that of the first protrusions


41


. In addition, when the first and second protrusions


41


and


42


are brought into and out of engagement with each other, an elastic deformation may be generated in the support member


33


.




Although the embodiment of the present invention has been described in detail, it will be understood that the present invention is not limited to the above-described embodiment, and various modifications in design may be made without departing from the spirit and scope of the invention defined in claims.



Claims
  • 1. A throttle grip position maintaining device in an outboard engine system, which is mounted between a bar handle for steering the outboard engine system and a throttle grip rotatably but axially non-movably fitted over said bar handle for controlling the opening degree of a throttle valve of an engine, thereby providing a frictional resistance to said throttle grip to retain said throttle grip at a position corresponding to any opening degree of the throttle valve, said throttle grip position maintaining device comprising a retained portion which is integrally formed on said throttle grip, a friction member axially superposed on said retained portion, a support member disposed on axially one side of said retained portion and said friction member and axially slidably but non-rotatably mounted to said bar handle, a regulating member threadedly fitted over said support member and having an urging portion disposed on the axially other side of said retained portion and said friction member, and an anti-loosening means provided between said support member and said regulating member for inhibiting the disorderly movement of said regulating member, said friction member being non-rotatably connected relative to one of said retained portion and said support member, but being rotatably connected relative to the other of said retained portion and said support member.
  • 2. A throttle grip position maintaining device in an outboard engine system according to claim 1, wherein said anti-loosening means comprises a click stop mechanism designed to provide a sense of moderation to a user, whenever said regulating member is rotated through a given angle.
  • 3. A throttle grip position maintaining device in an outboard engine system according to claim 2, wherein said click stop mechanism comprises a plurality of first protrusions projectingly provided on an outer peripheral surface of said support member and arranged at circumferentially equal distances, and a plurality of second protrusions projectingly provided on an inner peripheral surface of said regulating member surrounding the plurality of the first protrusions and arranged at circumferentially equal distances so that some of said second protrusions are elastically brought into or out of engagement with some of the first protrusions, whenever said regulating member is rotated through a given angle.
  • 4. A throttle grip position maintaining device in an outboard engine system according to claim 3, wherein the numbers of said first and second protrusions are different from each other, and the circumferential widths of said first and second protrusions are also different from each other, whereby some of said first protrusions and some of said second protrusions are in elastic engagement with each other in any rotated position of said regulating member.
Priority Claims (1)
Number Date Country Kind
2000-260891 Aug 2000 JP
US Referenced Citations (10)
Number Name Date Kind
2776579 Nichel, Jr. Jan 1957 A
3782219 Beck et al. Jan 1974 A
4137793 Sowell Feb 1979 A
4287785 Hunt Sep 1981 A
4337053 Stevens Jun 1982 A
4650429 Boda Mar 1987 A
5340342 Boda et al. Aug 1994 A
5378178 Haman Jan 1995 A
5797777 Tsunekawa et al. Aug 1998 A
5893295 Bronnert Apr 1999 A
Foreign Referenced Citations (1)
Number Date Country
6-144379 May 1994 JP