Projector for visual images

A projector for visual images which may be used for projection upon its own base or a wall. The projector has a base, an upstanding column, an adjustable arm and a projection housing. The projector is battery powered and the batteries are connected to the projection lamp through contacts disposed on the base and in the vertical column. The projector is operable at any column height setting.

BACKGROUND OF THE INVENTION 
This invention relates generally to a projector for visual images. While 
such projectors have been known in the art, the present device presents an 
improved approach to multifunctional yet relatively simple and inexpensive 
portable projectors. 
SUMMARY OF THE INVENTION 
Generally speaking, in accordance with the invention, a projector for 
visual images is provided, which is portable and which may be used to 
project images both horizontally and vertically. The device has a base and 
means for attaching the projection paper to the base. The projector has a 
vertical column to which is attached an adjustable arm on which is mounted 
the projection head. The adjustable arm may be adjusted to any desired 
height on the vertical column. The device is batterypowered and hence 
portable. The internal connections of the projector are carried by the 
components of the projector themselves rather than by separate wiring. The 
projection head is tiltable and its lens stage is adjustable with respect 
to it. 
Accordingly, it is an object of this invention to provide an improved 
projector for visual images that is capable of projecting either 
horizontally or vertically and which may be used to adjust the size of the 
projected image. 
Another object of this invention is to provide an improved projector for 
visual images which is portable. 
A further object of this invention is to provide a projector for visual 
images in which many of the requisite electrical connections are built 
into the component parts of the projector. 
Still another object of this invention is to provide a projector for visual 
images that is simple to construct, repair and assemble. 
Still other objects and advantages of the invention will in part be obvious 
and will in part be apparent from the specification. 
The invention accordingly comprises the features of construction, 
combination of elements, and arrangement of parts which will be 
exemplified in the construction hereinafter set forth, and the scope of 
the invention will be indicated in the claims.

DESCRIPTION OF THE PREFERRED EMBODIMENTS 
The present invention is concerned with a projector for visual images, and 
as shown in FIG. 1 it is comprised of a base platform 1 having an upright 
column 9 to which an adjustable arm 7 is slidingly attached to support a 
projector housing 6, the latter being provided with a suitable opening 101 
for guided entry of a small frame 3 which holds a photographic 
transparency 5. Base platform 1 is fitted with an electric plug member 15, 
arranged to mate with a further electric plug member 11 which, by means of 
suitable conductors 23, is joined to a battery compartment 14. 
Battery compartment 14 is comprised of a parallelepiped shaped body 20 
fitted with a lid 22, and, as may be seen from FIGS. 2-5, the sides of 
both the body and the lid terminate in the shape of half-sleeves 34 and 31 
respectively, which together comprise two ducts for the conductor cables. 
Rings 32 are provided for overfitting sleeves 31, 34 to firmly join lid 22 
and body 20 in closed condition. A flexible connector 33 may be provided 
to avoid loss of ring 32 when not in use. 
Each of the shorter sides of body 20 has a holder 30 mounted to its 
interior. Holders 30 have conductive strips 27, 27' which have a flat 
rectangular portion and a second rectangular portion having a triangular 
cut-out 28 for holding helical springs 29. 
The narrow bridge joining the two rectangular portions of strip 27 is cut 
and shaped so as to form slots 26 for housing and gripping the ends of 
conductor cables 23. As shown in FIGS. 2, 4 and 5, the rectangular 
portions belonging to a strip 27 are separated from each other by means of 
a suitable cut in the bridge between them, while those belonging to the 
other strip 27' remain joined together, thus enabling batteries 35, as 
illustrated with dotted lines in FIG. 3, to be suitably inserted in 
series. 
As shown in FIGS. 7 and 10, the electric plug member 11 connected to 
battery compartment 14 through conductors 23 is comprised of two 
body-halves 36 made from plastic insulating material, each body half 36 
having a respective and identical conductive strip 37. Each conductive 
strip 37 has a ring 102 mounted to one of its ends for housing and 
gripping an end of conductor cables 23 (See FIG. 11) while at the opposite 
end there is an angular fold 38 which protrudes through a window 103 in a 
guide socket 104 formed between body-halves 36. 
Electric socket member 15 as shown in FIGS. 8 and 9, is comprised of a body 
40 whose shape is generally a hollow parallelepiped made from plastic 
material, having an upper rim 41 around its edge, which acts as a stop 
upon its being inserted into base 1, and having moreover two small feet 42 
on the sides, of a somewhat flexible nature. When body 40 is being fitted 
onto base 1, feet 42 fold resiliently against the sides of body 40, and 
after fitting is completed, they open out and abut against the bottom face 
of base 1, thus preventing electric socket member 15 from being 
accidentally withdrawn. Body 40 of electric socket member 15 comprises a 
central blade 39 in line with guide socket 104 formed between body-halves 
36 of electric plug member 11. 
Blade 39 is provided on each of its sides with connection strips 43 and its 
end 105 is pointed in shape in order to separate and engage connection 
strips 37 on electric plug member 11, and thus achieve an instantaneous 
contact between connection strips 38 and connection strips 43. The 
assembly of connection strips 43 is carried out in the following manner: 
Each one of them is bent about itself, as a hairpin is, and it is fitted 
through a lower opening 106 in body 40. The lowermost end 107 of strip 43 
is ring shaped for gripping a respective conductor cable 45, and as shown 
in FIG. 12, the end 44 of strip 43 is bent, thus firmly securing it in its 
operative position. 
A paper-holding bar 19 is provided on base 1, as shown in FIGS. 1, 13 and 
14. Paper-holding bar 19 has a lip 108 which may be used to overlie a 
piece of paper placed on base 1. Paper-holding bar 19 is mounted to base 1 
through holes 49 provided in base 1. The rear edge 109 of paper-holder 19 
has a downward extending pin 48 extending through hole 49. An elbow-piece 
51 also extending from edge 109 abuts the underside of base 1. Attached 
below elbowpiece 51 is a spring 47 which pulls pin 48 rearwardly and 
thereby biases edge 108 downwardly against paper positioned on base 1. 
Mounted to the underside of base 1 is a lower cover 46 having a sleeve 59 
around which spring 47 loops. After looping around sleeve 59 the other end 
of spring 47 is connected as described above to the other side of 
paper-holding bar 19. Extending upwardly from paper-holding bar 19 at its 
midpoint is a handle 50 for moving edge 108 upwardly so that a paper may 
be inserted under it, as shown by the dotted lines of FIG. 13. In order to 
prevent accidental release of paper-holding bar 19, lower cover 46 has 
extensions 52 abutting pin 48 of paper-holding bar 19. 
Also mounted on base 1, to the rear of paper-holding bar 19 is a trough 60 
for holding pencils or other drafting instruments. Adjacent trough 60 on 
base 1 is plug unit 15. Centrally mounted, to the rear of trough 60 on 
base 1 is an inner sleeve 54. Base 1 has an opening 111, the periphery of 
which is surrounded by inner sleeve 54. Inner sleeve 54 is surrounded by 
an outer sleeve 53, a connection plug 56 is mounted inside inner sleeve 
54. The lower portion 58 of connection plug 56 forms an elongated inverted 
truncated cone which is inserted in sleeve 59 of lower cover 56. As shown 
in FIGS. 15, 17 and 20, each side of connection plug 56 has a groove 112 
into which a conductive strip 61 is inserted, the upper half of conductive 
strip 61 extends inwardly through connection plug 56 and the lower end has 
a loop 113 to which is connected conductor 45 leading from socket 15. 
The upper portion of connection plug 56 has a spiral thread (not shown) 
which extends rearwardly through outer sleeve 53. A tightening knob 57 is 
screwed onto the spiral thread at the rear of base 1 and an inner enlarged 
rim 55 prevents the complete removal of tightening knob 57. Thus column 9 
may be mounted to base 1 by its insertion between outer sleeve 53 and 
inner sleeve 54. When column 9 is so inserted, it may be secured in place 
by tightening knob 57. 
As shown in FIGS. 16, 18 and 20, column 9 is constructed of a rear plate 66 
and a pair of side plates 62 having an interior slot 114. A conductive 
plate 63 is mounted in slot 114 and extends along the entire length of 
column 9. The lower portion 64, shown in FIG. 16 of conductive plate 63 
has a pair of inwardly extending feet 65 which will be inserted in groove 
112 of connection plug 56 and thereby contact conductive strips 61 which 
as before noted, are conductively connected to plug 15. 
Adjustable arm 7 is comprised of two opposed body halves 73 which are 
bolted together and which define a channel 115 through which a pair of 
wires 77 extend. The rear portion of arm 7 rides within the channel 
defined by rear section 66 and side plates 62 of column 9. The rear 
portion of column 7 has a pair of screws 68 which contact conductive 
plates 63 of column 9. Wires 77 are attached to screws 68 and lead to 
projection lamp housing 6. Thus, current supplied by batteries 35 flows 
through conductors 23 into electric plug 11 which, when inserted into 
socket 15 mounted on base 1, is carried to connection plug 56 through 
conductors 45. The current in turn is conducted through conductive plates 
63 which are contacted by screws 68 which are connected to projection bulb 
92 mounted in projection lamp housing 6, through wires 77. 
Side plates 62 in assembled condition allow for spreading deflection 
thereof to permit insertion of the end 67 of arm 7 for attaining the 
assembled conduction shown in FIG. 18. In view of the T-shaped 
configuration of rearward portion 67, arm 7 is rotated 90.degree. about 
its longitudinal axis prior to insertion. 
The mechanism for adjusting the height of adjustable arm 7 along column 9 
is shown in FIG. 6. Rearward portion 67 (FIGS. 6 and 18) of adjustable arm 
7 is pivotally mounted in column 9. A vertical surface 74 provided at the 
end of body halves 73 has a tooth 75 at its bottom edge which will engage 
a toothed rack 76 provided along the forward surface of column 9. Thus, in 
order to adjust the height of adjustable arm 7 along column 9, adjustable 
arm 7 is pivoted so that tooth 75 is disengaged from rack 76 which allows 
rearward portion 67 to be slid up and down column 9. When the desired 
height is achieved, tooth 75 is re-engaged with rack 76. Conductive screws 
68 are maintained in engagement with conductive plates 63. 
Referring now to FIGS. 18 and 21-25, projection housing 6 is pivotally 
mounted to the forward end of adjustable arm 7. Projection lamp housing 6 
has a supporting frame 70 from which a lug 69 extends. A round pin 71 
extends from each side of lug 69. The forward portion 72 of adjustable arm 
7 has a circular opening 118 on each side of forward portion 72 through 
which pin 71 extends. Thus, as shown by the dotted lines in FIG. 1, 
projection lamp housing 6 may be horizontally tilted in order to project 
an image onto a wall. 
Projector housing 6 is essentially comprised of a conoidal shaped body 83, 
which is attached to supporting frame 70 and fitted with a telescoping 
arrangement 85 to allow a lens 89 to be selectively adjusted for focus. 
The assembly between conoidal shaped body 83 and supporting frame 70 is 
achieved by slidable fit of the former onto the latter, whereupon body 83 
is rotated so that a tooth 88 on body 83 engages a slot 119 provided on a 
protrusion 87 which forms part of supporting frame 70 (see FIG. 23). 
The top of conoidal shaped body 83 is provided with an opening 116 for 
accommodating two plastic body-halves 91 which, as shown in FIG. 25, are 
coupled together by a screw fastened cover 84. Wires 77 are inserted 
through a hole 121 in cover 84 and their ends are gripped respectively in 
the gaps 125, 126 provided by strips 90 and 94, which are held between 
body-halves 91 which have suitable grooves for accommodating them. A 
spiral thread (not shown) surrounds the outside of the assembly comprising 
the body-halves 91, upon which a reflector 93 is screwed, and the bayonet 
base of a bulb 92 is inserted with a press fit between reflector 93 and 
body-halves 91, and in this way is held securely for operation, and 
suitably positioned with respect to strips 90 and 94. 
Supporting frame 70 is provided with a condensing lens 95, which is secured 
in position by means of a circular spring 97. Surrounding frame 70 also 
carries the aforementioned telescoping arrangement 85 which is comprised 
of a set of concentric ringshaped pieces 122, 123, 124 of which the 
uppermost 122 is attached to supporting frame 70, and the lowermost 124 is 
attached by means of pins 96 and suitable threaded bolts, to the cover cap 
86, with lens 89 being held between the two parts thereof, (see FIG. 24). 
Cover cap 86 is arranged in attachment with a plunger arm 82 which extends 
up and through a hole provided for this purpose in supporting frame 70. On 
one face of arm 82 is a toothed rack 80 with which a cog wheel 81 meshes, 
and cog wheel 81 is turned by rotation of adjustment knob 78 to which it 
is attached. In this manner, upon rotating knob 78 in either direction, 
plunger arm 82 is displaced longitudinally upwards or downwards, and hence 
telescoping arrangment 85 is made either to extend or withdraw, and so 
allow lens 89 to be selectively positioned for height, thus enabling the 
focus of the projected image to be altered (see FIGS. 21 and 23). Plunger 
arm 82 is provided along the length of its toothed portion with a rim 79 
which prevents knob 78 from being pulled outwards once assembled. The 
upward position of telescoping arrangement 85 is defined by the stop 98 
provided on plunger arm 82 at the end of the row of teeth in rack 80 when 
cog wheel 81 contacts it. The outermost extended position of telescoping 
arrangement 85 is defined by members 122, 123, 124 themselves, thus 
preventing the plunger arm 82 from becoming disengaged from cog wheel 81. 
It is to be understood that the instant invention is not limited to 
projection of transparency's used by draftsmen and the like. The invention 
may also be used as a photographic enlarger with a negative inserted in 
frame 3 and a piece of photographic paper mounted to base 1. 
It will thus be seen that the objects set forth above, among those made 
apparent from the preceding description, are efficiently attained and, 
since certain changes may be made in the above construction without 
departing from the spirit and scope of the invention, it is intended that 
all matter contained in the above description or shown in the accompanying 
drawings shall be interpreted as illustrative and not in a limiting sense. 
It is also to be understood that the following claims are intended to cover 
all of the generic and specific features of the invention herein 
described, and all statements of the scope of the invention which, as a 
matter of language, might be said to fall therebetween.