Archived posting to the Leica Users Group, 2000/09/23

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Subject: Re: [Leica] Leica Users digest V18 #23
From: LRZeitlin@aol.com
Date: Sat, 23 Sep 2000 22:20:55 EDT

<I'd kill for a Robot>

This gives me a wonderful excuse to subvert the loyalties of LUGGERS with my 
ode to the Robot prepared for another list:

The Robot camera is one of those cameras that does one job extremely well at 
the sacrifice of other photographic capabilities. The Robot I was introduced 
in 1934 by Otto Berning & Co. as the first motor driven camera to be 
specifically designed for still photography. Allegedly designed at the 
insistance of the German government to record the expected German triumphs at 
the the upcoming 1936 Olympics, the Robot used a spring driven motor to take 
24 x 24 mm pictures on standard 35 mm film as fast as the shutter release 
could be pressed.

The Robot I was quite small, the body measuring only 4.25 inches long, 2.5 
inches high, and 1.25 inches deep. A razor sharp, zone focusing f2.8, 3.25 cm 
Zeiss Tessar lens added only 1/2 inch to the camera depth. It was about the 
size of an Olympus Stylus although it weighed about 20 ounces, approximately 
the weight of a modern SLR. The die cast zinc and stamped steel body was 
crammed with clockwork. A spring motor on the top plate provided the driving 
force for a rotary behind the lens shutter and a sprocket film drive. The 
film was loaded into cassettes in a darkroom or changing bag. The cassettes 
appear to be slightly modified Agfa Memo cassettes, the now standard Kodak 35 
mm cassette not yet being popular in Germany. In place of the velvet light 
trap on modern cassettes, the Robot cassette used spring pressure to close 
the film passage. When the camera back was shut, the pressure opened the 
passage and the film could travel freely from one cassette to another.

The rotary shutter and the film drive are reminiscent of those used in motion 
picture cameras. When the photographer's finger pressed the shutter release, 
a light blocking shield lifted and the shutter disc rotated a full turn 
exposing the film through its open sector. When the finger was raised, the 
light blocking shield returned to its position behind the lens, the film was 
advanced, and the shutter was recocked. The action was almost instantaneous. 
With practice a photographer could take 4 or 5 pictures a second. Each 
winding of the spring motor was good for about 25 pictures or half a roll of 
film. Shutter speed was determined by spring tension and mechanical delay 
since the exposure sector was fixed. The Robot I had an exposure range of 1 
to 1/500 sec. plus the usual provision for time exposures.

The camera had other features not specifically related to action photography. 
The small optical viewfinder could be rotated 90 degrees to permit pictures 
to be taken in one direction while the photographer was facing in another. 
When the viewfinder was rotated, the scene was viewed through a deep purple 
filter similar to those used by cinematographers to judge the black and white 
contrast of an image. The camera had a built in deep yellow filter which 
could be positioned behind the lens.

In 1938, Berning introduced the Robot II, a slightly larger camera with some 
improvements but still using the basic mechanism. A 40mm f2.0 Biotar was 
fitted as the standard lens. The film could now be fed from a standard 35 mm 
cassette but still required a Robot cassette for take up. The camera was 
syncronized for flash. The swinging viewfinder was retained but now operated 
by a lever rather than moving the entire housing. The deep purple filter was 
eliminated in the redesign. Some versions were available with a double wind 
motor which could expose 50 frames. WWII stopped civilian production of the 
Robot but it was used in a military incarnation as a gun camera by the 
Luftwaffe. An updated version of this camera fitted with a Schneider Xenon 
40mm f1.9 lens was released as the Robot IIa at the end of the war.

In the late 50s, the company, now called Robot-Berning, completely redesigned 
the Robot and aimed it at industrial users. The stamped steel body was 
replace by die castings. The length stayed the same but the height increased 
by half an inch and the weight by 50%. The new higher top housing had a medioc
re Albada finder with frames for the factory fitted zone focused Schneider 
Xenar 38mm f2.8 lens and an accessory Tele-Xenar 75 mm f3.5 lens. The shutter 
was improved and slightly modified for X synch. The camera still required 
special take-up cassettes although it could feed from standard cassettes. 
Film could be now be rewound back into the feed cassette just like every 
other 35 mm camera. The Robot Star 25 could expose 25 frames on a single 
winding, the double motor Robot Star 50 could, naturally, expose 50 frames. 
The so-so finder made little difference to users since most cameras were sold 
for industrial use where the camera was fixed in position. Although most 
production dates from the 50-60s era, essentially the same camera without 
viewfinder is currently being manufactured as an industrial recording 
instrument.

Robot-Berning also produced enlarged versions of the Robot, the Robot Royal 
24 and 36, with an incorporated range finder and with an autoburst mode of 
operation capable of shooting 6 frames per second. The camera was about the 
size of a Leica M3 and weighed almost 2 pounds. It was equipped with a 
Schneider Xenar 45mm f2.8 lens. The Robot Royal 36 took a standard size 35mm 
picture but was identical to the Royal 24 in all other regards. Both cameras 
retained the behind the lens rotary shutter with speeds from 1/2 to 1/500 sec.

While all agree that the Robots were superb at sequence photography, the 
behind the lens sector shutter that made this possible limited other 
photographic activities. To reach speeds as high as 1/500 second, the inertia 
of the thin steel shutter disc had to be kept at a minimum. This meant a 
small diameter disc with a minimal sector opening.  The screw in lens mount 
was 26 mm diameter. The clear lens opening was only 20 mm. In contrast, 
Leica's mount at 39 mm was half again larger. Further, to permit lens 
interchangability, the shutter was mounted behind the lens so the disc 
interrupted the expanding light cone. The maximum focal length lens that 
could be fitted with acceptable vignetting was the f3.5  75 mm Tele-Xenar. 
Even the 40 mm f2 Biotar showed shutter disc vignetting. Lenses of up to 200 
mm were supplied for long distance action photography, however they produced 
a circular image on the 24 x 24 mm frame. The lack of a rangefinder required 
zone focusing of these long lenses. Every shot had to be estimated or 
premeasured. All of the mechanical movement made for a noisy camera, although 
not as noisy as some modern motor drives. For an extra fee, Robot-Berning 
supplied silenced versions with nylon gears for discrete use.

Within its limits the Robots did an excellent job of sequence photography. 
The standard 38 mm f2.8 Xenar lenses were extremely sharp, even by today's 
standards, and zone focusing worked well on rapid action with short focal 
length lenses. The reliable motor drive was as fast, if not faster, than 
current electrical drives and there were no batteries to run down. Flash 
could be used at any speed. The square frame was big enough, given modern 
films, for 8 x 10 or greater enlargements and 50 exposures could be fitted on 
a standard roll. The cameras, especially the later ones built to industrial 
standards, will take an unbelievable amount of abuse and still keep 
functioning. Any camera user would do well to acquire one of these gems to 
see what precision mechanical equipment is all about. 

LarryZ

Replies: Reply from "Mike Durling" <durling@widomaker.com> (Re: [Leica] Leica Users digest V18 #23)