US2787434A - Equipoised lamp structure - Google Patents

Description

' April 2, 1957 J. JAcoBsEN EQUIPoIsED LAMP STRUCTURE 'Filed Jan. 27, 1954 Jaco Jacosen/ EQUIPOISED LAMP STRUCTURE .iacob Jacobsen, Oslo, Norway, assgnor to Jac. Jacobsen A/ S, Oslo, Nolway, a'V corporation .of Norway Application January 27, 1954, Serial No. 496,507

7 Claims. (Cl. 24S-280) This invention relates' to an improvement in lamp structures of the type generally referred to as an equipoised lamp, i. e. lamps'that remain in any of a variety of positions to give a desired illuminating effect. More particularly, this invention relatesV to a universal pivot mounting for the lamp fixture of an equipoising lamp.

An object of thisinvention is to provide improved apparatus of the above characterpwhich is light in weight, simple in construction and efficient and dependable in use. A further object is to provide the above in such a manner to avoid the diiculties which have been encountered in similar apparatus in the past. A further object is to provide a combined equipoised lamp xture or mechanism and a universal pivot mechanism for the lamp tixture which is adapted to meet the various problems which are encountered in actual use. It isai still further object of the present invention to providea universal swivel joint in which the frictional forces of the various pivotal movements may be controlled by" a single adjustment. These' and other and further objects will be in part apparent and in part pointed out as the specification proceeds.

in the drawings:

Figure lis an over-all perspective view ofone embodiment of the invention;

Figure 2 is asectional viewtaken on theline 2 2 of Figure` l showingthe universalpivotlmechanism;`

Figure 3 'isfa'r bottom plan View" on theline 3-L3 of Figure 2 and showingthe longitudinal channelof the friction block;

Figure` 4"is" a sectinlview taken on the line 4-4 Of Figure 2; y l

Figure 5 isa fragmentary side View"` similar to Figure 2fshowin'gV anotherfofrmjofthe invention; and

Figure 6 is a-v sectional view'on lined-dof Figure 5.

Referring now to Figure l, there is shownpan equipoised lampY structure 1Q which hasan upperV pivoted lever Vassembly 12"a'r1'd a'lowerp'ivotedfleve'r assembly 14, anda clamprb'ase memberbl. AB a'se member `16 is clamped toa table or desk 9`andjhas` aswivel bearing in which is mount'edth'e'lowerlever-assembly 14. A lamp'xtureran'dfshade assembly 18"kv is mounted'in a universal pivot'joint assembly'20`at the upper end of the upper lever asfsetnblylll` Each of thepivotedlever'assembliesg 12 and 14 comprises `generallyaptrallelograin linkage connected to a common intermediateframeunitfZZ and carrying respectively at the top andybottomendsthereofcorresponding frame units 24 and 26. Unitsi'22, 24,v and 26 are of heavy sheet steel, Yand.eac'hfunit h 'astwo pairs of arms or'ears with each pair being parallel and forming a'pivot connection. Linkagel is'`forrnec'*bytvvo` bars'll andi?, pivoted as `shown to^unit`s""22"`and 24; and linkage'14 is formed'by abar 15fa`nd-fa1 pair"ofbars'@1,75A which Vare pivote'd as shown tdf'units-ZZQaiidtZ lA pair oftension springs 28"fis connected betweenuni zrz-"andbarl," there beinga pair'of h'ooks'ont br 13 'and a'- pairto'f hooks on 9ice the two arms of unit Z2. Similarly, a pair of tension springs 3() is connected betweenbars 17 andunit 26, with the springs being held at one end by apin 21 carried by the bars and a pair of holes in two arms of the unit. Springs 2S 'and 30 are of the helical tension type where the pull exerted is proportional to the increase in length. l

The universalpivot joint assembly 20 comprises, ashaft 32. having alarge portion 34 which has 'at its end anintegral flange 36 which is shaped to fit the outer surface of the top of the shade assembly i8.' The shaft has threaded extension (not shown) which extends through an opening in the shade assembly, and a nut clampsv the shade assembly to this end of the shaft. Theother end 38 ofshaft 32 is reduced in diameter and has at its end anannular recess 39, at the left of which there is end Harige 37. Positioned within thisrecess 39 iscollar 40 which has an opening of suiiicient diameter to permitthe iianged end ofshaft 32 to pass through the opening. ilotrf'ever, as will be explained more fully below,collar 46 is held with its lower portion positioned within therecess 39. Collar 40 is a portion of a friction adjustment mechanism 4l. At the shoulder junction ofportions 34 and 33 of shaft'32 there is anannular recess 42, into which is snugly received'an annular collar or flange 44 of a leafspring tension member 46.Tension member 46 has a centralarcuate portion 43, a at extension 45 which extends radially of the axis of the arcuate portion, and anoverhanging flange 49. The dat extension has an elongated hole orslot 47, through which ascrew 43 extends loosely, and the end of this screw is threaded into collar 4t?, thus to provide a rigid connection between the collar and'the screw. Positioned between the tension member 46' andportion 38 ofshaft 32 are two friction members, a friction blockor shove 50 extending longitudinally ofshaft 32 and having a friction'face which mates with the outer surface of portion 3S, and a cylindrical friction member or bushing 52 which is held against an arcuate friction surface in'the top ofshoe 50 by thearcuate portion 43 of tension member 46'. The' friction bushing 52 has a central'opening or bore 54'through which a bolt 64 (see Figure4) extends. The friction bushing. also has at one end (the left in Figure 4) a transverse ordiametrical slot 56.

Friction'bushingV 52` (Figure 4) is clamped between the two side arms-or members of unit24, the left-hand member of which has a pair of detents orlugs 66 which extendinto recess 56 in the end face of the friction bushing. Hence the frictionbushing is held from relative movement withrespectto unit 24.

Referring again to Figure '2,screw 48 pushes the lefthand end of thetension member 46 toward the end ofshaft 32 so that the tension member is inthe nature of a cantilever spring anchored at its right-hand end to' the' shaft and having itsarcuate portion 43 resting upon the mating surface of the friction 'bushing S2. Thus a frictional force is exerted which provides friction between the' tension member and the friction bushing and also between the friction bushingy and the mating surface of shoe 5d. This force also acts to provide a friction force between the shoe Si? and the mating surface of theportion SSlof shaft 32, and there is some frictional engagement betweencollar 40 and surface of lshaft' 32 atrecess 3*).Screw 48 may be adjusted with a screw driver so as to increase or decrease the tension exerted bytensionI member 46, i. e., the turning of screw 4S' further into collar 4@ increases the forces exerted'by this tension member and the turning of the screw fromthecollar decreases "theseforces It is thus seen that by a simple adjusting' of screw 4S, the frictional forces may be 'changediover a relatively Wide range;

the lamp and shade assembly.

The friction betweenshoe 50 and the surface ofshaft portion 38 is effective to resist turning movement ofshaft 32, and (Figure l) the lamp andshade assembly 18 may therefore be turned around a horizontal axis with respect to theframe unit 24. When turned against this friction, the shade assembly will remain in the adjusted position. Similarly, the shade assembly may be turned about the horizontal axis formed by bolt 64 (see also Figure 2) and during such movement, thefriction bushing 52 is held relatively stationary by the detents on lugs which project into the portions ofgroove 56, whiletension member 46 andshoe 50 turn with the lamp assembly. Therefore, the friction between the friction bushing 52 and the tension member, and alsoshoe 50 resists this turning of the lamp andshade assembly 18 about the axis ofbolt 64 so that these frictional forces are effective to maintain any adjusted position of the lamp and shade assembly about this axis.

The turning ofshaft 34 with respect to shoe S is limited by a pin 62 (Figure 2) anchored in theportion 38 of the shaft. Theshoe 50 is cut away at 63 (see also Figure 4) upon its two sides so as to permit maximum desired turning movement of the shaft and the lamp about the axis of the shaft.

Referring again to Figure l, the lampyand shade assembly 18 may be turned about the two horizontal axes, as indicated above, with the friction being adjustable so as to provide the desired holding forces in any position of adjustment with respect to the frame unit Z4. The entire head assembly comprising the lamp andshade assembly 18 and theunit 24 is then moved up and down and horizontally, utilizing the flexibility of action afforded by the upper andlower lever assemblies 12 and 14. During such movement, the vertical and horizontal axial relationship of the lamp andshade assembly 18 remains unchanged, i. e., if the axis of the lamp andshade assembly 18 is exactly vertical or in any other selected angular position, the swinging ofunit 24 and the lamp and shade assembly does not alter the relationship of this axis of At the same time, the lamp and shade assembly may be positioned at any desired level, or it may be moved horizontally with respect to the base unit ormember 16. During all such movements, thesprings 28 and 30 completely counter-balance the weight so that the movement is easy and yet the lamp and shade assembly remains in the desired or selected position.

In the embodiment of Figures 5 and 6, another arrangel ment is provided for limiting the relative movement betweenshaft 32 and the friction assembly andunit 24. In this form, thepin 62 is omitted and theslots 63 in the friction block are also omitted.Shaft 32, however, carries a stop-lug '72, and the end of thetension member 46 is extended at 70 and is turned at a right angle so that it is in arcuate alignment with thelug 72. Hence, when theshaft 32 is turned, its movement is stopped by the engagement between thisend portion 70 andlug 72.

As various embodiments may be made of the above invention and as changes might be made in the embodiments above set forth, it is to be understood that all matter hereinbefore set forth or shown in the accompanying drawings is to be interpreted as illustrative and not in a limiting sense.

What is claimed is:

1. In an equipoised lamp mechanism which includes a linkage assembly comprising first and second parallelogram linkages and an intermediate frame member pivotally interconnecting the linkages in end-to-end relationship and a base frame member pivotally connected to the other end of said rst parallelogram linkage and also lncludes a top frame member pivotally connected to the other end of said second parallelogram linkage and a base clamping member having a swivel therein carrying said base frame member: a universal pivot mechanism connected to said top frame member comprising, a shaft member adapted to carry on one end thereof a lamp fixture, a leaf spring member mounted on the other end of said shaft and slidably attached at its ends to said shaft, a rigid friction block, a pivot bushing adapted to be connected to said top frame member, said friction block having two friction surfaces upon opposite sides and transverse to each other, said friction block and said pivot bushing being mounted between said shaft and said spring member with said spring member contacting said pivot bushing and said friction surfaces of said friction block respectively contacting said pivot bushing and said shaft, and an adjustment screw for varying the pressure exerted by said spring member on said pivot bushing and said friction block and shaft.

2. In an equipoised lamp structure of the type having a lamp lixture mounted on the end of an equipoising linkage, universal swivel joint mechanism which comprises, a main shaft for the lamp fixture on one end and having a reduced diameter portion, said shaft having an annular recess in a shoulder between the different diameter portions and an annular groove adjacent the end opposite the lamp fixture, a collar pivotally carried in said groove, a spring member having an annular collar at one end positioned in said annular recess, a friction block having a longitudinal friction face on one side and a lateral friction face on the opposite side, a pivot bushing adapted to be mounted in said equipoising linkage and positioned in Contact with said lateral friction face of said friction block, said pivot bushing and said friction block being positioned between said spring member and said shaft with said longitudinal friction face of said friction block engaging said shaft, and an adjusting screw connecting said spring member and first-mentioned collar to clamp said bushing and friction block together against said shaft.

3. A device as described inclaim 2 wherein said longitudinal friction face has a surface area contact with said shaft substantially equal to the surface area contact of said bushing with said friction block and said spring member whereby movement about either pivotal axis is equally facilitated.

4. A device as described inclaim 2 wherein said friction block has a pair of opposed recesses therein at the sides of said longitudinal friction face and said shaft carries therein a stop pin in arcuate alignment with said recesses whereby the rotation of said block about said shaft is limited to less than 360.

5. A device as described inclaim 2 wherein said spring member has an extension adjacent said annular collar, said extension being parallel to and overlying the larger diameter portion of said shaft, and wherein said shaft portion carries thereon a stop lug to engage said extension to thereby limit the rotation of said spring member about said shaft.

6. In an apparatus of the character described, a universal pivot assembly comprising, a first shaft portion having an annular groove at one end thereof and an annular recess spaced therefrom, a cantilever spring member having an annular collar at one end and an elongated hole in the other, a collar member carried in said annular groove on said shaft, said cantilever spring being positioned with its annular collar in said annular recess and said elongated hole adjacent said secondmentioned collar, and a screw member positioned in said shaft adjustably connecting said second-mentioned collar and cantilever spring member, a second shaft member disposed at right angles to said first shaft, and a friction block member, said second shaft and friction block member being positioned between said cantilever spring and said first shaft in frictional engagement therewith.

7. In a lamp structure of the character described, a universal swivel joint mechanism comprising, a shaft, a leaf spring slidably attached at its ends at longitudinally spaced portions of said shaft, a friction block extending longitudinally of said shaft btween said spaced portions and having a longitudinal friction surface which is held against said shaft, said friction block having a transverse friction surface on its side opposite said longitudinal friction surface, a pivot member positioned against said transverse friction surface and held in place by said leaf spring whereby said leaf spring exerts frictional force between itself and said pivot member and also between said friction block and respectively through said friction surfaces to said shaft and said pivot member, means to References Cited in the le of this patent adjust the pressure exerted by said leaf spring, and stop m 2,242,303

means to limit the turning movement of said shaft.

UNITED STATES PATENTS Thomas July 27, 1875v Wells Feb. 26, 1895 Ord Jan. 25, 1898 Naglo July 14, 1914 Veras Oct. 23, 1928 Carwardine Aug. 17, 1937 Irmischer May 20, 1941

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