Friction fit knob with anti-torque capabilities

Information

  • Patent Grant
  • 6467131
  • Patent Number
    6,467,131
  • Date Filed
    Friday, May 25, 2001
    23 years ago
  • Date Issued
    Tuesday, October 22, 2002
    22 years ago
Abstract
A molded knob of the type having a knob with a socket located in the knob which socket slips over the end of an irregularly shaped shaft and has fingers which frictionally engage the outer surface of the shaft. The hub has an inner portion surrounded by and separated from the outer portion by a slot with the shaft gripping fingers formed on the inner portion. Complementary meshing ribs and notches are formed in the peripheral walls of the inner and outer core and these ribs and notches engage each other upon rotation of the inner hub portion relative to the outer hub portion to transfer torque forces therebetween.
Description




SUMMARY OF THE INVENTION




This invention is concerned with a finger-type gripping knob which fits over a shaft. It is particularly concerned with such a knob that prevents high torque from releasing the grip of the fingers.




An object of this invention is a knob which is held firm to a shaft by tensioned fingers and is constructed so that torque applied to the shaft will not cause the fingers to readily release.




Another object of this invention is a knob in which the shaft socket is located in an inner core which can be twisted slightly relative to the outer core so that torque applied to the inner core will be transferred to the outer core and not to the gripping fingers.




Another object is a knob where the torque applied to the inner core is transferred to the outer core in such manner that the resistant force includes a tension force in a member opposite to and parallel to the flat of the shaft.




Still another object of this invention is a knob having friction fit fingers to hold a shaft in place in the socket of the knob in which the fingers have greater flexibility because they are formed as part of the wall of an inner core of the socket.




Other objects may be found in the following specification and drawings.











BRIEF DESCRIPTION OF THE DRAWINGS





FIG. 1

is an elevational view of a knob incorporating the novel features of this invention;





FIG. 2

is an enlarged bottom plan view of the knob of

FIG. 1

; and





FIG. 3

is a longitudinally extending cross sectional view of the knob of FIG.


1


.











DESCRIPTION OF THE PREFERRED EMBODIMENT





FIG. 1

of the drawings shows a composite knob


11


having a core


13


which may be injected molded of a suitable thermoplastic such as a white nylon. The core includes a front wall


15


and an integral side wall


17


in the nature of a skirt extending rearwardly from the front wall. Rearwardly as used herein refers to the direction away from the front wall. A fin


19


is formed in the front and side walls of the core outwardly facing window


21


. The window is shown as thinner in cross section than the front and side walls of the core but it should be understood that while this is the preferred embodiment, the window may also have the same thickness as the thickness of the wall or even may be thicker than the front or side walls


15


or


17


. An outer covering


23


of a soft plastic is overmolded on the core


13


and encases the core generally except for the window


21


which remains visible from the exterior of the soft overlay


23


on the knob. A knob of this construction is shown generally in my U.S. Pat. No. 5,845,365 which is incorporated herein by reference.




A hub


25


is formed integrally with the core


13


and it includes an inner hub portion


27


and an outer hub portion


29


which are separate from each other by an irregularly shaped slot


30


throughout their lengths but are each integrally formed with the front wall


15


of the core. Ribs


31


extend between the outer hub portion


29


and the wall


17


of the core. An elongated slot


33


is formed in the outer hub portion and this slot receives a light pipe


35


formed of a suitable light transmitting polypropylene plastic. Inverted L-shaped walls


37


formed as part of the outer hub portion


29


terminate short of each other to allow the light pipe located in the slot


33


to extend between them and into the fin


19


of the core. The outer hub portion includes a chordal section


43


having a flat chord wall


45


in which the light pipe slot


33


is formed. Inwardly pointed ribs


47


and a rectangular rib


49


are also formed in the inner peripheral wall of the outer hub portion


29


.




An irregularly shaped socket


59


to receive a similarly shaped shaft


60


is formed in the inner hub portion


27


. The socket has a flat


59


A and the shaft


60


has a corresponding flat. The inner hub portion


27


is U-shape in transverse cross section with an interruption provided between elongated fingers


61


formed as part of the wall defining the inner hub portion


27


. These fingers terminate in tips


63


. Inwardly of the tips on the inside wall of the inner hub portion


27


are ribs


65


formed near the base of the fingers with both the tips and the ribs positioned to engage a shaft which can be inserted in the socket


59


. The fingers


61


may be formed in accordance with the teachings of my U.S. Pat. No. 4,923,325 which is incorporated herein by reference.




Notches


67


are formed in the outer walls of the inner hub portion to receive the pointed ribs


47


of the outer hub portion


29


. A rectangular groove


69


is formed in the outer wall of the inner hub portion


27


to receive the rectangular rib


49


of the outer hub portion


29


. These ribs and notches engage one another to limit rotation of the inner hub portion


27


relative to the outer hub portion


29


and thus absorb any torque applied to the core


13


by rotation of a shaft located in the socket


59


. Thus, the thrust exerted by the turning of the shaft will be applied to the outer hub portion


29


and will not tend to release the fingers


61


which are holding the shaft in the socket


59


. Because the chord wall


45


is flat and the base of the chordal section


43


is relatively thick, engagement of a pointed rib


47


of the outer hub portion


29


with a notch


67


of the inner hub portion


27


during rotation of the knob


11


, will not bend or distort the chordal section


43


but instead will apply a tension force to chordal section


43


along the flat wall


45


which is opposite and parallel to the flat of the shaft


60


seated in the socket


59


. The chordal section


43


functions like a truss of a bridge connecting the pointed ribs


47


of the outer hub portion


29


and will not twist or stretch when torque is applied to the ribs by the sockets


67


of the inner core member


27


.



Claims
  • 1. A molded knob of the type which frictionally engages and slips over the end of a shaft having an outer surface at least a portion of which outer surface is curved and another portion is flat,said knob having a core, said core having a front wall, side walls and a hub, said hub having an inner hub portion and an outer hub portion, said inner hub portion and said outer hub portion formed integrally with said front wall of said knob and extending axially therefrom with said inner and outer hub portions separated from each other through substantially their entire lengths by a slot, a shaft receiving, axially extending socket formed in said inner hub portion, said socket having a shaft receiving portion with a transverse cross section complementary to the transverse cross section of the shaft and having an entrance at one end of said inner hub portion to received said shaft, a pair elongated fingers formed as part of said inner hub portion and located adjacent each other at a curved portion of said socket, said fingers extending axially into said socket from the entrance thereof and projecting generally radially into said shaft receiving portion of said socket with each finger terminating in a tip close to but out of contact with the tip of the other finger, said inner hub portion having an outer peripheral wall and said outer portion having an inner peripheral wall with said walls facing each other across said slot, complementary ribs and notches formed in said peripheral walls and meshing with one another with said ribs and said notches being engageable with one another upon rotation of said inner hub portion relative to said outer hub portion.
  • 2. The molded knob of claim 1 in which said outer hub portion has a chordal section having a flat wall adjacent said fingers of said inner core portion with said flat wall located parallel to said corresponding flat wall in said socket.
  • 3. The molded knob of claim 2 in which said ribs are formed in said outer hub portion and said chordal section connects said ribs.
Parent Case Info

This application claims benefit of U.S. Provisional Application Ser. No. 60/208,201 filed May 31, 2000.

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Number Name Date Kind
1938556 Danielson Dec 1933 A
3679252 Howie, Jr. Jul 1972 A
3880534 Schmidt Apr 1975 A
3965529 Hadzimahalis Jun 1976 A
4179771 Rankins et al. Dec 1979 A
4295246 Howie, Jr. Oct 1981 A
4441230 Howie, Jr. Apr 1984 A
4518297 Kraus May 1985 A
4923325 Howie, Jr. May 1990 A
5197161 Howie, Jr. Mar 1993 A
5450653 Howie, Jr. Sep 1995 A
5509174 Worrell Apr 1996 A
5752759 Pizzo May 1998 A
5845365 Howie, Jr. Dec 1998 A
5857242 Pizzo et al. Jan 1999 A
6003206 Hall et al. Dec 1999 A
Provisional Applications (1)
Number Date Country
60/208201 May 2000 US