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Publication numberUS3912918 A
Publication typeGrant
Publication dateOct 14, 1975
Filing dateApr 22, 1974
Priority dateApr 22, 1974
Publication numberUS 3912918 A, US 3912918A, US-A-3912918, US3912918 A, US3912918A
InventorsRichard E Feinbloom
Original AssigneeDesigns For Vision
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Light sources employing universally adjustable ball and socket joints
US 3912918 A
Abstract  available in
Previous page
Next page
Claims  available in
Description  (OCR text may contain errors)

United States Patent Feinbloom Oct. 14, 1975 [54] LIGHT SOURCES EMPLOYING 1,509,068 9/1924 Herron 240/61.12 UNIVERSALLY ADJUSTABLE BALL AND 1,772,284 8/1930 JOhzmSSOn... 240/DIG. 1,930,993 10/1933 Blodgett 240/1.4 SOCKET JOINTS 2,260,995 10/1941 Kruczek 403/90 [75] Inventor: Richard E. Feinbloom, New York, 2,685,640 5 0 3 X 2,699,342 1/1955 May 285/DIG. 8 3,285,242 11/1966 Wallace 240/1 EL Assigneer Designs for Vision, New York, 3,786,243 1/1974 Ilzig .1 240/1.4

N.Y. FOREIGN PATENTS OR APPLICATIONS [22] Ffled: 1974 20,975 9/1904 United Kingdom 240/ [21] Appl. No.: 462,616

Primary EraminerSamuel S. Matthews Assistant Examiner-Alan Mathews ..2 .'247'240 g Attorney, Agent, or Firm-Arthur L. Plevy [58] Field of Search ..240/1.4, 61.11, 61.12,

240/67, 68, 70, 73 R, 81 BC, 81 BD, 151, [57] ABSTRACT 4115 1 EL; K 8; There is disclosed a light assembly or similar appara- 350/96 403/ 143 tus which is adjustable by means of a ball and socket assembly incorporating an elastomeric O ring which [56] References C'ted abuts against the periphery of the ball when a ball ac- UNITED STATES PATENTS commodating sectionalized socket assembly is 861,143 7/1907 Scott 287/DIG. 7 clamped together.

1,071,957 9/1913 Rawson 285/D1G. 8 1,186,325 6/1916 Metzger 287/DIG. 7 7 Clmms, 6 Drawmg Flgures US. Patent Oct. 14, 1975 TO LIGHT SOURCE OR POWER SUPPLY LIGHT SOURCES EMPLOYING UNIVERSALLY ADJUSTABLE BALL AND SOCKET JOINTS BACKGROUND OF INVENTION Lighting fixtures and light sources are an integral part of modern day surgical techniques. As physicians and surgeons develop new surgical techniques, the need increases for more reliable and efiicient optical aids. Thus, the field of optical aids and equipment has also been associated with rapid strides and progress in order to supply the lighting required by the significant advances made in the medical and related fields.

Coupled with the desire to provide better illumination while reducing glare and improving efficiency, is the need for a light source which can be easily and conveniently adjusted either prior to or during the surgical technique.

The surgeon desires to adjust the light source in a given direction and position and must be assured that it will be maintained in that position during the surgical procedure.

As one can easily envision, the prior art is replete with a number of references that are directed toward the problem of adjusting a source of light and maintaining the same in a predetermined and desired position.

To facilitate solution of this problem, certain of the prior art devices employ the conventional ball and socket joint with various modifications to insure greater capability of adjustment. While a ball and socket joint is a well-known and conventional means for providing adjustability, it suffers from many disadvantages.

First, the problem of maintaining the apparatus in a given position is considerable; as due to the nature of the joint it is capable of easy positioning and once utilized for an extended time becomes loose fitting and can move due to extremely small spurious forces. Also depending upon the weight of the apparatus to be positioned, the forces thus exerted on the assembly may cause one to experience difficulty in accurately positioning the same caused by slippage or inertia due to the weight. Such mechanical drifts would be extremely detrimental and disturbing to a physisian or surgeon during an operating procedure and, in general, would be disturbing to any user desiring to maintain an accurate, predetermined positioned assembly, be it a light source or any other device whose adjusted position is to be accurately maintained once aligned properly.

BRIEF DESCRIPTION OF PREFERRED EMBODIMENT A ball and-socket joint associated with a optical assembly comprises a hollow socket having an internal groove or channel about the inner periphery thereof, said hollow accomodating a ball section with friction means accomodated in said channel for frictionally engaging the peripheral surface of said ball when accommodated by said socket to maintain said ball in any one of a plurality of positions of adjustment, said frictional means including a beveled O ring seated and positioned in said channel socket.

BRIEF DESCRIPTION OF FIGURES FIG. 1 is a side elevational view of an auxillary lamp apparatus according to the invention.

FIG. 2 is a partial cross sectional view of the ball and socket apparatus according to the invention.

FIGS. 3A and 3B are respectively a side view of a hemispherical O ring section and a top view showing the two 0 sections.

FIG. 4 is a front perspective view depicting certain adjustable aspects of the apparatus.

FIG. 5 is a partial cross sectional front view of an alternate use of the apparatus.

DETAILED DESCRIPTION OF FIGURES Before describing the invention in detail one should be aware that the ball and socket joint to be depicted has wide-spread applicability as a positional apparatus and may be used to support and position surgical microscopes, all types of other lighting arrangements as well as additional apparatus. In any event, the specification will concentrate on an auxillary lighting source used primarily for surgical procedures, understanding that a plethora of additional apparatus could be accommodated as well.

Referring to FIG. 1, there is shown a perspective side elevational view of a lighting apparatus 10 including a ball and socket joint assembly according to this invention.

A conical shaped front assembly 12 is utilized to permit sterilization of the section and the assembly 12 acts as a means for adjusting the light source under sterile conditions. The surgeon adjusts the light by grasping the sterile conical section 12 and hence he does not become contaminated while affording adjustment. The section 12 is fabricated from aluminum or other metal capable of being sterilized prior to surgical procedure. As such, the cone 12 is removably secured to a shaft 14 which is fixed or rigidly secured to the ball section 15 of a ball and socket assembly 16. The socket assembly 17 surrounds the ball 15 and permits rotational movement of the same and hence of the shaft 14 secured to the ball 15 and therefore of the light emitting conical section 12.

The socket portion 17 is split into a first and second section 17A and 178 which are held together by means of set screws as 18, which, as will be explained, can be tightened to set the assembly at a fixed position or loosened to provide adjustability. Once the set screws are tightened constant tension is exerted on the ball allowing the user to adjust the apparatus at any time without having to loosen or tighten any position fixing nuts and screws.

A cable 20, which may be a fiber optic assembly or a power cable is coupled to a lens assembly or a lamp source which, as will be shown, can be positioned in or mounted within the shaft 14 or ball assembly 15 of the assembly 10. The shaft 14 actually contains the optical system and together with the lens controls the light pattern. The socket 17 may have an additional coupling member 21 secured thereto to enable the entire assembly to be coupled to or fastened to additional adjustment means for providing complete horizontal and vertical movement.

Thus shown in FIG. 1, is an adjustable bracket arrangement 30, consisting of a vertical support member 32 and a horizontal support member 33. The vertical and horizontal members are attached to each other via a hinged joint 34, which may also be a ball and socket assembly or a hinged assembly affording the motion shown by the arrow 40. The horizontal member 33, in a similar manner, may be associated with an additional hinge 42 to permit motion in the direction shown by arrows 43. Thus, as one can see, the entire assembly can move in all planes and at all angles at distances determined by the length of the assemblies 32 and 33. The conical front section 12 can also be independently adjusted by means of the ball and socket assembly 16 to be described.

Referring to FIG. 2, there is shown a cross sectional view of the ball and socket apparatus 16 of FIG. 1.

The socket assembly 17, as indicated, comprises two mirror image sections having a central aperture 50 for accomodating a ball joint. Each section as 17A and 178 has a groove 51 along the inside of the socket wall. The groove is adaped and dimensioned to hold and contain an elastomeric split ring. The interior chamber 50 is formed when two sections as 17A are secured together by means of Allen type set screws which engage and are held within the threaded apertures as 52 and 53 formed in the socket assemblies 17A and 178, as more clearly depicted in FIG. 1. The socket sections 17A and 178 may be fabricated from aluminum or another suitable structurial material.

The ball assembly is integral and is fabricated from a mixture of bronze and brass. The ball has a central aperture 54 to accomodate and permit the cable assembly 20 to couple via an aperture 53 in the ball assembly into which aperture a lens accomodating shaft as 14 of FIG. 1 is inserted and rigidly held. The fiber optic or power cable 20 is thus directed, as shown (dashed) throughout the socket aperture via the aperture 54 in the ball 15 and thence to the shaft 14, which may contain a lens assembly for further focusing the light rays emanating from cable 20. The shaft 14 has a threaded end which engages with a corresponding thread in the conical section 12 to permit the easy removing of the conical section 12.

Thus, the ball assembly 15 is retained within the recess or aperture 50 formed when the two socket sections are placed in contact and secured together by means of the set screws. The O ring is shown in FIGS. 3A and 3B. The O ring 60 is placed and retained in each groove 51 of the socket sections 17A and 178. Once the socket sections are placed and secured about the ball section 15, the O ring 60, having a beveled edge forms a continuous surface for engaging and contacting the surface of the ball 15. The O ring 60 as indicated, is split as shown in FIG. 38 into a first section 60A and a second section 608 for insertion into the grooves as 51 associated with the socket sections 17A and 178.

The O ring is pushed into contact with the surface of the ball 15 upon the tightening of the set screws. The ring assures that contact tension is impressed about the periphery of the ball 15 restraining movement of the same once adjusted to a desired position by tightening the set screws. The frictional forces impressed upon the ball by the O ring and socket assembly assure it is rigidly held with relatively constant tension at any position of adjustment.

Typically, the ball assembly 15 defines a diameter of about two inches, while the central socket apertureis slightly larger. (2 inches plus 0.005 inch). This increased diameter of the socket allows for all motion as shown in FIG. 4, for example. The tightening of the screws causes the O ring to firmly abut the ball as sembly 15 and impress a force thereon about the periphery of the ball to secure it firmly within the recess formed by the socket parts. The O ring 60 has a beveled edge closest to the lens shaft 14. The bevel prevents the edge of the ball assembly 15 from catching on the surface of the O ring as one part of the ball is turned below the O ring during an extreme adjustment angle as shown in FIG. 4, for example. When the cone 12 is supported as shown in FIG. 1, relatively horizontally or upright, the O ring 60 contacts the ball relatively in the center or about the major diameter thereof. As also can be verified from 1 16. 4, the diameter of the shaft 14 limits the extreme position of'the cone 12 by contacting with the edge of the socket. This prevents undue flexing or bending of the light transmitting cable assembly 20.

For the assembly, one can obtain, in excess of l30 range of movement of the ball, which movement is further complemented by the hinged joint and rotatable movement of the supporting assembly as 32 and 33 of FIG. 1.

In utilizing the apparatus shown, the surgeon or his associates would disengage the reflector conical section 12 and sterilize the same prior to surgery. The sterilized section 12 would then be secured to the shaft assembly 14, the set screws are preadjusted to provide constant tension and the surgeon can now adjust the light apparatus by means of the cone 12 to any position desired. The adjustment as facilitated is maintained by tightening of the set screws 18 and held securely by causing the elastomeric O ring to press or abut against the ball assembly 15. Since, the entire assembly is sterilized, further adjustment can be made under sterile conditions.

Due to the fact that the cable 20 may be an optical cable, it can therefore transmit light emanating from a remote source and eliminates the need for an incandescent bulb.

Thus, one can readily ascertain from the description above, that there is provided a unique ball and socket joint employing a split socket assembly with an O ring accomodating channel. The O ring assures constant tension on the ball firmly securing the same within the socket. This feature can be employed in a plurality of circumstances and can, for example, be used to support a surgical microscope to enable adjustment of the same as seen in FIG. 5.

Thus, in FIG. 5 a ball assembly is shown secured within a split socket housing 72. The housing 72 has a channel accomodating an O ring 75 with a shaft 76 coupled to a surgical microscope 73. While the ball section may have a cable accomodating aperture as previously shown, it can also be solid and a cable 76 may be directed to the microscope from another source; the main feature being the adjustability aspects of the ball and socket assembly.

Other modifications and uses will become apparent to those skilled in'the art upon reading this specification. and all such embodiments are deemed to be encompassed withinthe spirit and scope of the claims appended thereto.

I claim:

1. An auxiliary operating room light comprising:

a. a hollow socket having an internal groove about the inner periphery thereof,

b. a hollow ball member located within said socket and movable with respect thereto in a plurality of circular positions,

c. a light concentrating element including a lens located at a first smaller open end, said light concentrating element including a flared section having a central tapered aperture tapering from a large second open end to said smaller first open end, and having said smaller open end coupled to said ball member with said lens located within said central tapered aperture, said central tapered aperture permitting light rays from said lens to pass therethrough to provide illumination, and

d. a beveled O ring seated and positioned in said groove to coact with and engage a peripheral surface of said ball for anyone of said positions, said O ring exerting a frictional force on said ball for maintaining the same in said position due to said beveled edge assuring coaction of said ring with said periphery of said ball including extreme circular positions.

2. An auxiliary operating room light according to claim 1 wherein said O ring comprises two semicircular sections beveled at a lower edge which contacts the surface of said ball.

3. The operating room light according to claim 2 further including:

a. a shaft coupled to said bottom end of said ball member, said shaft having a threaded end portion,


b. a thread located about the periphery of said first smaller open end of said flared section to threadly serve said flared section to said threaded end portion of said shaft.

4. An auxiliary operating room light as defined in claim 3 wherein said ball, socket and cone are fabricated from a metal, and said socket has an internal diameter which is slightly larger than the diameter of said ball.

5. The apparatus according to claim 1 wherein said socket comprises first and second mirror-image sections which are clamped together by means of set screws to enable said 0" ring to intimately coact with the surface of said ball.

6. The apparatus according to claim 1 further including a fiber optic cable directed through the hollow of said socket and said ball and positioned to direct any light transmitted thereby to said lens assembly.

7. The apparatus according to claim 1 wherein said internal diameter of said socket is relatively 0.005

inches greater than the diameter of said ball.

Patent Citations
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Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US5050047 *Oct 30, 1987Sep 17, 1991Stuart L. MooreAssemblies and apparatus for lighting especially spotlighting
US5070434 *Oct 9, 1990Dec 3, 1991Prince CorporationOverhead light
US5212749 *Dec 17, 1991May 18, 1993The Boeing CompanyOptical fiber mount
US5331357 *Jul 31, 1992Jul 19, 1994Luxtec CorporationIllumination assembly
US5999686 *Nov 14, 1997Dec 7, 1999Lightly Expressed, Ltd.Fiber optic lighting system with lockable spot lights
US6191355Nov 20, 1998Feb 20, 2001Hans P. EdelsteinMulti-sectional utility pole having slip-joint conical connections
US6758599Mar 12, 2002Jul 6, 2004Steris Inc.Optical commutator
US7198398 *Jun 30, 2005Apr 3, 2007Fiberstars, Inc.Adjustable-aim light pipe fixture
US7744259 *Sep 30, 2006Jun 29, 2010Ruud Lighting, Inc.Directionally-adjustable LED spotlight
US8267558 *Sep 29, 2009Sep 18, 2012B/E Aerospace, Inc.Light rotation assembly
US20020126959 *Mar 12, 2002Sep 12, 2002Steris Inc.Optical commutator
US20060002136 *Jun 30, 2005Jan 5, 2006Buelow Roger F IiAdjustable-aim light pipe fixture
US20080080190 *Sep 30, 2006Apr 3, 2008Walczak Steven RDirectionally-adjustable LED spotlight
WO2006004834A2 *Jun 30, 2005Jan 12, 2006Fiberstars IncorporatedAdjustable-aim light pipe fixture
WO2006004834A3 *Jun 30, 2005Jan 18, 2007Fiberstars IncAdjustable-aim light pipe fixture
U.S. Classification362/581
International ClassificationF21V21/29, F21V21/30
Cooperative ClassificationF21V21/30, F21W2131/205, F21V21/29
European ClassificationF21V21/29, F21V21/30