Alpa Rotocamera 6070

My Alpa Rotocamera 6070

As I've mentioned in previous blog posts, I am fond of panoramic cameras and the odd and unusual cameras that most people wouldn't guess are cameras, so I always have my eyes open for these oddball items to add to my collection. The Alpa Rotocamera is just one of these items. Not only is it an odd-looking item that resembles a miniature robot-looking item, but it's also a 360-degree panoramic camera that shoots on 120 or 70-mm film.

 I've owned lenses that shoot 360-degree images and have even written posts on them. The first lens I had that shot 360-degree images was a Be Here Portal S1 lens, which fit onto my Nikon DSLR camera, and with software, it produced a tremendous 360-degree photo. That lens got damaged, and to this day, I'm continually searching for another one of these lenses. In my mind, I kept telling myself that there's something different between shooting with a 360-degree lens and having a camera that can produce a 360-degree negative.

 I found an Alpa Rotocamera on an online auction. When I saw it shot 360-degree images on 120 or 70mm film, I was immediately hooked and wanted to get it. Not knowing much about the camera other than a few tidbits I quickly found online, I bid on the camera lot. To my surprise, I won the camera. I was excited to get the camera and load film into it and start to make some tremendous images that were a view that is mind-boggling when you see them.

 This blog will be different from my other posts because I've spent tens of hours on this specific camera because of its condition. I want to give you a brief overview of the camera, then explain how I received it and what I've done to get it back into working condition.

The Camera:

This camera is a Beast!!!! I didn't realize until I received it, but the camera and film back weigh just under 17 lbs. and are 16 lbs. 15.6 oz. That does not include the power source and cables. It’s built from cast metal with a pebble finish and, it’s 12” tall, 9” wide, and 8” deep and was built in the early 1980s.

 As mentioned, the Alpa RotoCamera produces a 360-degree image on either 120/220 or 70mm film. The camera is powered by a 12v rechargeable battery that powers motors in the camera's base, which rotate the head around a cylinder. According to the manual, you can produce either 90, 180, 270 or 360-degree views with the camera. On the front of the camera is a Rodenstock Grandagon-N 75mm f6.8 lens. Just to the right of the front lens is a lever used for vertical adjustment. If you want to shoot higher or lower, you can slide the lever up or down to adjust the vertical height to avoid getting too much foreground in the photos. There is also a viewer on the side that can be used to see the camera's vertical adjustment.

 The camera has two speeds, and the head rotates around the cylinder. The speed is set on the center column by a switch with an "A" for the faster speeds and "B" for the slower speeds. There also are a series of slits in the head that allows for the camera to shoot at different shutter speeds depending on the motor speed and slit width. Switches on the top of the camera head control the slits. One series of switches is for the slit width, and there is another that allows for the slit angle if you're in a situation where you'll want to control excessive brightness in the sky or ground. The camera can shoot anywhere from 1/20 to 1/250 shutter speed depending on the motor speed and slit width. On the rear of the film's back is a chart showing where to put the different switches should you want faster or slower speeds, along with a controlling light on top or bottom.

 The camera also has a removable film back, and 70mm or 120/220 film can be loaded into it. There is a small hard wheel just below the take-up spool on the film back, which is connected to the film advance cog and fits into the film reel. Just below the slits on the head is a rubber band that goes all around the cylinder. As the head rotates around the cylinder, the hard wheel runs along the rubber under the slit advancing the film as the head spins around the cylinder.

There are two settings on the camera remote control. One is a switch for "Auto" or "Manual," and the other setting is "Rotation." The Auto setting works in conjunction with the angle set on the column for 90, 180, 270, or 360 pans. The manual setting allows you to press as long as you want the camera to pan for. The "rotate" button is pressed to open the shutter and start the camera rotation. The remote and power cable are joined; one end fits into the power pack, and the other fits into the bottom of the camera's center column. There is also an on/off switch for the camera close to where the power and remote cable fit into the camera.

 In theory, you load film into the film back, making sure the take-up spool is engaged into the drive gear on the back. Put the back onto the camera. Plug the cables into the power supply and the camera. Turn the camera on, set the aperture on the lens, and check the height adjustment. Meter your scene, then set the appropriate shutter combination by the series of switches on top of the camera and the speed adjustment on the column. Set the rotation distance, and press "Auto" to start the camera rotation. According to the manual, on a roll of 120 film, you'll get 1- 360-degree or 270-degree images, 2-180-degree images or 4-90-degree images.

The Restoration:

The one thing I didn't realize and wasn't shown in the images at the online auction was the mechanical and physical condition of the Alpa Rotocamera internally because when I received the camera, it wasn't in "good working order." On the outside, the camera looked good. Everything seemed to be there, but when I went to take the back off the camera to view the inside of the camera body, the wheels came off the bus. My heart sank as the excitement of having a working camera came to a crashing halt.  

 The film back still had two 70mm film cassettes inside, but it looked like someone had packed the back of the camera with grease. For what reason, I wasn't immediately aware of it, and the rubber wheel that the film rotates on to advance the film had deteriorated into a yellow mass of goop that looked worse than it was. Another item that was missing was the power supply for the camera. I had the cables for the power supply that led to the camera and the remote control on it. I also had the instruction manual along with a car inverter to charge the battery when in your car. Still, there was no power supply, so I couldn't check whether the camera operated.

I let the camera sit for a few hours as I started thinking about how to get the camera into a somewhat presentable condition. My mind wasn't even on getting the camera, but on starting to clean up all the goop that was not only in visible areas but in areas of the camera I wasn't even sure I could get to. I did another more exhausting internet search when I came across someone who had done a restoration on the camera itself. Bayless Projects has a tremendous video on YouTube that is very comprehensive. He lives in London, so I started an email chain with him, letting him know I, too, had a camera I needed to restore. He helped me with the power supply and with many other questions I had about the camera.

 It was time to get the camera back in (hopefully) working condition. I spent the next couple of days cleaning up the goop on the film back, which got into places I needed to disassemble to clean out. With many Q-tips, Isopropyl alcohol, and lightly soapy water, I cleaned the film back up nicely. The film holders moved well, and the film drive gear turned as I rotated the hard wheel, which wasn't moving smoothly previously. 

 Now, to move onto the camera head. I removed some of the stickers that someone placed with film data from the previous owner. Something was rattling in the head, so I needed to take the top off to see what was rattling around. Once I removed the top, I could see a ground glass still intact and not broken that went where the viewer went. This was used to check the vertical adjustment for the images. Once I got the ground glass in place, it was time to tackle the back of the camera, which had the remnants of the previous rubber band that goes around the cylinder. Luckily, this came off very easily, and I didn't need much cleaning.

Now, to move onto the camera head. I removed some of the stickers that someone placed with film data from the previous owner. Something was rattling in the head, so I needed to take the top off to see what was rattling around. Once I removed the top, I could see a ground glass still intact and not broken that went where the viewer went. This was used to check the vertical adjustment for the images. Once I got the ground glass in place, it was time to tackle the back of the camera, which had the remnants of the previous rubber band that goes around the cylinder. Luckily, this came off very easily, and I didn't need much cleaning.

 Thomas (Bayless Projects) helped me with the power supply, which I purchased from him, and he made it for me and sent it over from the UK. I bought a battery to put in the housing. Once I got the battery in the power supply and connected it to see if the camera was working, my heart sank aging…..nothing. With the power on and the battery connected, I turned the head a bit, and luckily, the head on the Rotocamera started to spin. At that point, I was so happy to see the camera spinning. Was that a fluke? I unplugged the battery and let it sit for a few minutes before I tried it again. The camera started to spin without any help from me, so at this point, I knew the camera was functional. You could also hear the shutter open and close as I pressed the rotation button. What a relief. Now, I had a camera that "could" make images (hopefully). The one thing I couldn't figure out was the "Auto" setting. Nothing in the column needs to be pressed to set the camera at different angles for shooting. Thomas said his camera does the same thing, so I can only use the camera in the "manual" position, where I set the angle of view by pressing the rotation button.

 I needed to replace the rubber band around the cylinder to get the film to rotate when the film was back on the camera. I purchased a replacement that had the same specs that Thomas recommended. He also said it's not perfect, but I wanted to try it. When I received the rubber, it was horrible. The glue backing didn't hold at all. It was so bad that the paper they put on the product to protect the glue didn't stick on. It was also rolled in the opposite direction, so the end of the rubber kept popping out. I tried two-sided tape to hold it in, but that didn't work either.

 Then, I had the idea to turn the rubber around so the curve was going around the cylinder instead of against it. The tape on the back side of the rubber would give more friction as the film wheel rotated. I put a roll of film into the camera and gave the camera a try. Unfortunately, the camera rotated about 90-100 degrees, then stopped as one of the ends of the rubber came off and jammed in the camera. In theory, it made sense, but the rubber was too thick, and the end didn't fit together and kept coming apart. 

 The rubber needed to be a little thinner and without the crappy glue. I rubbed the glue off the rubber, and to get it to be a bit thinner, I stretched the rubber when I put the two-sided tape on the curved side to make it thinner. To keep the ends together, I added some two-sided tape to one side of the rubber so that when it went around the cylinder. There was extra tape to hold the second end in place. I put it back into the cylinder, and it worked well. It's time to put another roll of film into the camera for another test.

 I took the camera to the front of my house, set up the tripod, and crossed my fingers to see if it would work. I put a roll of B&W film into the back, set the camera to the settings the light meter said, and pressed the rotate button. The camera worked!!!! I could hear the shutter open, the camera rotated, and the film come off the spool and wrap around the take-up spool. SUCCESS.

Thrid test worked to perfection.

 With such success on the test roll, I decided to take the camera into Portland near the river with bridges and see what I could get there. Knowing the Cherry trees were recently blooming, I even packed some color film to see the river's edge and beautiful cherry blossoms in the photo. Having lugged the camera to the river's edge, setting the camera up, plugging in the power supply, and pressing the rotation button, I could hear the shutter open, but the head didn't start to turn. So I gave it a gentle push, and it began to turn. Unfortunately, I could also see it wasn't moving smoothly, which would cause banding. 

 The one thing I did notice is that when you have the film in the back of the camera, the camera has a little harder time doing the rotation because of the extra tension the film brings to the camera. Pulling the film out of the spool and running it across the shutter, I'm still trying to figure out if it's the rubber around the cylinder or the power to the motor. I'll continually work on how this works together to make the film move correctly.

 The first roll was B&W, which I processed when I got home and has banding. I also picked up the color film and noticed. At the same time, the camera did a somewhat better job at rotating; the drive wheel that moves the film from one spool to the other didn't have as much pull as it did with the test in front of my house. For the 2-3 rolls I did away from home, the camera film transport didn't pull the film off the spool. It left the tail end of the film exposed to light. Something is going on here, whether the rubber band around the cylinder or the drive wheel needs lubrication. I also agree with the film I did on location; portions of the film look like motion blur, so the film is not transporting, causing slight banding and blur.

My Results:

Here is the image taken in front of my house during the test. I didn't change the vertical adjustment, and I had the lens pretty high, so there's no foreground or yards in the houses on my block.

 These next images were taken down by the river in Portland, Or.

Conclusion:

 This camera is still a work in progress. I did order a slightly thinner rubber to try on the cylinder, so I'm crossing my fingers that it will work well on the camera.

Thank you for taking a few minutes from your day to read about an odd and unusual camera that hopefully will be as rewarding in the images it creates as it is frustrating to get it back in good working order.

 Until next week, please be safe.

Panon Widelux F7 Camera

My Widelux F7 camera

I enjoy several different types, styles, or kinds of cameras. When I started collecting cameras over 50 years ago, I was drawn to anything out of the ordinary. If the camera had a different faceplate on a box-style camera or was a different color or shape, these were the items I've always searched for when I go out looking for cameras or anything photographic to add to my growing and now hopefully somewhat shrinking collection as I'm "trying" to downsize my collection.

 One of my favorite types and styles of cameras is panoramic cameras, which fit right in with the odd or unusual types made. They take different forms when you start to look at the various styles of panoramic cameras. They can look like a wood and bellows camera on a geared tripod, which would be a circuit camera and one of the first styles of panoramic camera. They can look like a more extended box style camera but have a lens that rotates across a curved film plane similar to the Kodak Panoram or more intricate Multiscope Al-Vista camera, which employed different sizes of "flags" to speed up or slow down the rotation of the lens. Or an elongated camera similar to the Fuji 6x17 or Horseman 6x12 camera.

Image taken from Widelux F7 Manual

 Essentially, panoramic cameras expose a longer piece of film in the camera itself. They generally have a wide-angle lens to expand the area the camera and film see. It is very similar to cropping the top and/or bottoms of any format film to give the appearance of a longer, broader photo. I remember in the 1980s and 90s when the camera had the "panoramic" feature built into the point-and-shoot camera that did nothing more than have a blade within the camera close to the film plane that would crop the top and bottom of the film frame to take what appeared to be a panoramic negative. Heck, they even had disposable cameras that did just that.

 I have several panoramic cameras, and a few years ago, I purchased a very good Widelux F7 camera. Cosmetically, it wasn't the best, and it needed some work, so I researched where and who could repair the camera for me. Ultimately, I sent the camera to Precision Camera Works in Lakeway, Texas. If the lens turret doesn't move smoothly across the film plane, the camera will cause banding due to the inconsistent movement of the lens.

 Upon completion of the overhaul, they did an outstanding job. They even replaced the difficult-to-turn rewind knob with something better, which makes the camera easier to rewind the film. The best part is the new rewind knob doesn't tear into your skin when you rewind the film, which was one of the big pet peeves of the camera before I had it serviced. They did return the old knob, so if I wanted to have it put back, it's quickly done.

The video below shows the camera being re-wound, then I changed the shutter speed to show the lens movement.

The Old and New Company:

The Old Company:

The Widelux camera was made by Panon Camera Shoko, which was started in 1952 by Nakayama Shozo. A small camera manufacturer originally made the Panon camera, which I wrote about back in 2020. It was a swing-lens camera made for 120-size film. The company was small but specialized in the swing-lens panoramic camera style and improved the larger 120-format camera.

 In 1958, the Panon company, known for its swing lens style of panoramic cameras, introduced its first 35mm panoramic camera, the Widelux F1. This camera, incorporating a 26mm f2.8 lens, exposed a film frame 24x59, approximately 65% longer than the standard 35mm frame. This extra area gives photographers a 140-degree diagonal angle of view and 126 degrees horizontally. Over the years, Panon Camera Shoko continued to innovate and improve its models, leading to the production halt of the F8 model in the mid-1990s.

 1963 Panon introduced the Panophic, a 120-film format swing-lens panoramic camera. This is an updated version of the Panon camera with an interesting design, a curved back, and a much larger viewfinder on top. In 1987, Panon introduced the Widelux 1500.

The New Company:

There is someone more famous than myself who also enjoys panoramic cameras and photography, and that's the Big Lebowski himself, Jeff Bridges, and his wife Susan, a tremendous photographer in her own right. They are partnering with Marwan El Mozayen, Editor-in-Chief of Silvergrains Classic, and Charys Schuler. They have formed SilverBridges, planning to re-introduce the new Widelux X camera. Their goal is to have the camera introduced sometime in 2025. My fingers are crossed, and if they need someone to test the camera and give it a review, I'm personally raising my hand now. I and a thousand other people have a much larger audience than I have.

My Camera:

My Widelux F7 camera is not just a piece of equipment; it's a companion on my photographic journey. It's 6.5" wide, 3 5/8" tall, and 2.25" deep from the front of the lens turret to the rear of the camera. The F7 weighs 1 lb. 14 oz. with a roll of film in the camera. Like all Widelux F7 cameras, I have a 26mm f2.8 lens, serial # 466392. The lens rotates on a cylinder across a curved film plane to get a longer negative area. Because of this longer negative, the camera only takes 21 images on a roll of 36 exposures. I generally get 22 when I use my camera. It will take approximately 13 on a roll of 24. Here is the manual for the Widelux F7.

There are only three shutter speeds on the camera: 1/250, 1/125, and 1/15. The aperture on the lens ranges from F2.8 to F11, so the exposure control, while adequate for most shooting, is less than what most people would consider normal. All of the controls are on the top of the camera, along with a bubble level to make sure things are straight, the film advance and rewind knobs, along with a wide viewfinder to give the photographer an approximate view of what they'll get within the photo.

The more tricky thing about the Widelux camera is the film loading. If not done correctly, which is what happened on my first roll, some of the negative areas won't be sharp. To take the back off the Widelux F7 camera, there is a locking knob on the back to lock by turning counterclockwise to the unlock position and clockwise to lock the back onto the camera, which is clearly seen.

 Once the back is off the camera, the typical film chamber is where you put the fresh roll on the right-hand side. Lift up the rewind knob to put the fresh roll in, then to hold it into place, press the rewind knob down to lock the film cassette into the camera. At this point, I crimp the very end of the film upwards to help the loading process.

There are two columns, one on either side of the curved film plane. The film must go under the first column on the left-hand side, then over the film plane, and then back under the column on the right-hand side. This is where I ran into a problem with my first roll of film. There is a slit between the right-hand column and what you see looking down on the camera. Make sure the film goes all the way down under the column before it comes back up by winding the camera and having the film drive gear pull the film leader back up. The first time I loaded the camera, the film went through the slot, and the right side of my negatives wasn't sharp, and I was disappointed.

One of the reasons why I crimp the end of the film leader is to grab onto the film drive gear when going under the second column. It needs something to catch onto to pull the film up and across the drive gear before I place the leader into the take-up spool. It's not that difficult, but you'll understand once you get the camera. Before I put the back onto the camera, I always take up the slack with the rewind knob, so once I put the film back onto the camera and lock it, I can see the rewind knob turn as I wind to the next frame. This way, I know my film is transporting across the shutter, and I'm taking photos. When I worked retail in a camera store, I can't tell you how many times I had people not load their cameras correctly, and watching the rewind knob turn when advancing the film is a surefire way of telling if the film is loaded correctly.

Arrows showing angle of view.

Now that the camera is loaded and you're ready to start taking photos, it's VERY important to understand how to hold the Widelux camera. You don't hold the Widelux like a regular 35mm camera because of how the lens swings and the wide angle lens; your knuckles and/or fingers will be on the sides of each negative. You want to hold the camera with your thumbs on the bottom of the camera and your fingers on the top—nothing on the sides. Take your meter reading, grab the camera on top and bottom, look through the viewfinder, and press the shutter. You'll hear the whirring of the shutter as the lens swings across the film plane. Wind the film to the next frame and repeat. It will initially feel odd, but once you see your fingers in the photos, you'll quickly correct the holding procedure.

 Now that you've finished the roll of film, press the rewind button on the bottom of the camera and rewind the film into the cassette. Open the back door and take the film to get processed. In my case, take it to the dark bag and processing tank to process the film.

My Results:

I took some photos of walking through the neighborhood for the blog post. I have taken the camera to Africa, Europe, and many other places and absolutely LOVE this camera.

My Conclusion:

What else can I say that I haven't already said in the blog? This is one of my, if not my favorite film cameras. I also love shooting with my Panon, but it's a more prominent and heavier camera, although the results are terrific with the Panon.

 I made a short video on the Widelux F7 basic controls & Loading film.

 Thank you for taking a few minutes from your day to read about this wonderful and exciting camera. I hope many of you have one; if not, you're missing a superb camera.

 Until next week, please be safe.

KMZ FT-2 Panoramic Camera

Since I got into photography, I have been a fan of panoramic cameras and images. The ability to see wide views of subjects similar to what you see in person seems very natural, so it's not unrealistic for me to have a variety of cameras to use during trips and other photographic jaunts I take to make images.

My KMZ FT-2 Camera

I came across a Russian-made KMZ FT-2 camera many years ago when I was a sales representative for one of the companies I worked for. I remember visiting EP Levine in Waltham, MA, and seeing the FT-2 and a Spinshot they had. I asked about the Spinshot because, at the time, I knew the Spinshot was something out of my price range. One of the owners gave me a reasonable price on the camera and case because, like many of these cameras, they take a unique film cassette, which this camera didn't have. I knew at that time I was buying it more for my collection rather than using it, but always in the back of my mind, it was something I wanted to put a roll of film into and shoot with. 

The Company:

KMZ (Krasnogorsky Zavod), also known as the Krasnogorsk Mechanical Works, is a prominent camera and optical equipment manufacturer based in Russia. Founded in 1942 in the city of Krasnogorsk, near Moscow, KMZ played a significant role in the Soviet Union's photographic and optical industries. Initially established to support wartime needs, the company shifted its focus to producing civilian products, becoming a key player in developing photographic technology in the Soviet era.

FT-2 camera, leather case and 2 different 3D printed cassettes

 KMZ became widely known for producing cameras and optical devices for civilian and military use. One of its most famous products is the Zenit series of single-lens reflex cameras, which gained a strong reputation for their durability and affordability. First introduced in the late 1940s, the Zenit cameras became popular among amateur photographers and professionals worldwide, especially during the mid-20th century. These cameras were equipped with reliable optics, often branded under the Helios or Jupiter trademarks, known for their exceptional image quality.

Another well-known KMZ product is the Zorki rangefinder cameras, which were modeled after early Leica designs. The Zorki cameras, like the Zenit series, were affordable and accessible, making photography more attainable for the average user. These cameras are now considered collector's items, valued for their vintage appeal and craftsmanship.

 KMZ also contributed to advancements in optical engineering. The company developed lenses for photography, cinema, and scientific applications, as well as optical sights and instruments for military use. The Helios-44 lens, often paired with Zenit cameras, became legendary for its unique bokeh effect and remains highly sought after by enthusiasts.

 Following the dissolution of the Soviet Union in 1991, KMZ faced challenges adapting to a market economy. While the demand for traditional film cameras declined with the rise of digital photography, KMZ continued producing optical devices and exploring new markets. The Zenit brand was revived by introducing modern digital cameras like the Zenit M, which combines vintage aesthetics with contemporary technology.

KMZ's contributions to the photographic and optical fields testify to its innovation and resilience. Despite economic and technological shifts, the company remains a symbol of Soviet ingenuity, with its cameras and lenses appreciated by photographers and collectors worldwide.

The Camera:

The KMZ FT-2, one of the first 35mm panoramic cameras, is a model of simplicity in design. Its bare-bones appearance, resembling a small black brick, belies its robust mechanical construction. The camera measures 4.75" wide by 3.25" deep by 2.25" tall, including the winding knob, and weighs 1 lb. 7oz. The FT-5 boasts a 50mm fixed F5 lens that swings across the curved film plane to produce 110mm long images on your 35mm film. This unique design eliminates barrel distortion, ensuring your horizontal lines remain straight when holding the camera level. However, due to the extended negative size, 24mm x 110mm rather than the typical 24mm x 36mm, you only get 12 images on a roll of 36 exposures, a testament to the camera's straightforward and uncomplicated nature.

 The FT-2 only has 3 shutter speeds: 1/400, 1/200, and 1/100 second. The shutter speeds are set by changing two levers on top of the camera and located just below the shutter cocking lever. The shutter cocking lever is a larger finger and thumb knob, which you turn clockwise to cock the shutter, and it swings back to the starting position at approximately 11:00 when the exposure is finished. A mechanical braking system slows the shutter to these speeds when shooting at the two slower speeds. When shooting at the maximum speed, the camera jolts when the exposure ends and has a reasonably noisy snap when the shutter spins on its axis and comes to a vibrating finish of the exposure. The shutter release is to the right of the shutter cocking knob and just above the frame counter.

Since the camera produces such a long negative, the manual states that you need to turn the winding lever so that the frame counter does three full revolutions around, then add one number to get to the next frame. So, if you were on frame number 5, after taking the photo, you'd turn the winding lever, watch the frame counter go three revolutions around, and then stop at number 6 to be ready for that photo.

Top view of KMZ FT-2 camera where all the controls are located.

 There is no optical viewfinder, but rather a flip-up mask that you put your eye up to and guess that that's the approximate area that will be in your photo. There is a bubble level on top of the camera, so it's easy to level out the photos. This is not so helpful when looking through the viewfinder, but if you use the camera on a tripod or hold it more at waist level, then it makes sense.

 To open the back of the camera to load film, the front of the camera, in both corners, are silver clips holding the back close to the front. Snap these clips out, and holding the back with one hand and the body with the other, you slide the back off the camera. To put the back onto the camera, there are small channels on the body that the back fits into to slide back onto the camera. Make sure the back fits into the channel slide, then back onto the camera, and snap the clips into position.

Using the Camera:

Fast forward about 25 years, and I pulled the FT-2 out of my shelf and started to play with it. The camera is in excellent mechanical shape, so I wondered if there's a way to adapt a regular 35mm film cassette into the camera for shooting with it. Doing my usual looking on the internet to see what advancements have been made, I came across Roger Hyam's website discussing how he had the same camera and  1 set of cassettes. To make the camera more enjoyable, having multiple cassettes would make shooting with the camera more manageable. Since loading the cassettes is time-consuming, he made film cassettes for his FT-2 with a 3D printer. In that article, he has a CAD design and explains the process.

 At this point, seeing that there is a somewhat easy way to get cassettes made for the camera, I looked into buying a 3D printer for this and possibly other projects down the road. While I still may do that, I found a local company close to my house that does 3d printing, Rex Plastics in Vancouver, WA., and Harvey, one of the engineers who does the 3D printing for the company. I called on a Friday to see if they could do this and sent them the CAD file. While Harvey was off that day, I received a call from him early Monday to say that this could be done fairly easily, and they had produced a Minolta 16 cassette and a 126 film cassette someone else needed, so he was familiar with working with film. 

 On Thursday or Friday, I stopped by Rex Plastics to pick up the cassettes I had ordered, which looked tremendous. They fit into the camera and looked like the items I saw online. I took them home and started to load film into the cassettes, only to find that the design I sent had a minor flaw. Once there was film in the cassettes, the amount of film pushed the knob of the spool through the top of the cassette, making it impossible to fit back into the camera. 

 I told Harvey what the issue was and brought it back to him with film inside to show him the issue. Rex Plastics is such a good company that Harvey said it wasn't a big issue and went back and made the spool smaller to accommodate the film capacity and changed the cassette top to accommodate a different spool that fits into the cassette. This took just a few days, and now I had cassettes I could take home and shoot with the FT-2 camera. One thing I did to the 3D-printed cassettes was to add some felt to the inside cassette to avoid any scratches that may happen when transporting the film from one cassette to the other. I took some old 35mm canisters, pulled the felt off them, and taped them into the 3D-printed cassettes with double-sided tape.

Loading the Cassettes:

Here's the process I used to load the new 3D-printed cassettes with film to put into the FT-2 camera. Most of this process has to be done in complete darkness. I used my light-tight changing bag, which I use to load film onto reels for processing, but this time, here are the items I needed to keep in the changing bag.

 2-3D printed cassettes

1 roll of 35mm film (unexposed)

1 piece of tape taped to one of the spools

1-pencil used to wind film

1-FT-2 camera with the back partially off

 I'll break this down into the steps I used. You may find an easier way, but this process went much quicker than I thought and seemed manageable.

 

  1. Out in the daylight, I took the leader from the unexposed 35mm film and taped it onto the take-up spool. I then took up some of the slack and put it into one of the 3D-printed cassettes. This is what you can do in the light; all the other steps are done in the changing bag.

  2. Put all the items from the above list into the changing bag.

  3. At this point, I wound all the film from the unexposed film into the take-up spool until I reached the end of the roll. To make the winding easier, I put a pencil into the end of the spool and turned the pencil. Do this for step 7, too.

  4. Tear the end of the film of the unexposed film from its cartridge.

  5. Open the second cassette and tape the end of the unexposed film to the spool of the second 3D-printed cassette.

  6. Slide the spool into the second 3D-printed cassette and put it on the cover.

  7. Rewind the exposed film from the first cassette into the second cassette.

  8. Once you feel the leader, stop winding. Now, you have all your unexposed film into the second cassette.

  9. Put both cassettes into the back of the camera. 

  10. Make sure the winding knob is engaged into the first 3D printed cassette and starts to wind, making sure the film is moving across the film path.

  11. You don't need to wind much, just enough to ensure the film is transporting.

  12. Put the back of the camera on the loaded camera and snap closed.

 

Now, you can open the changing bag, remove the film-loaded camera, and wind it to the first frame, which should only take a few turns.

 PLEASE REMEMBER: When you're at the end of the roll, you don't rewind it back into the cassette like a standard 35mm camera. You take the camera and load it back into the changing bag so you can load it onto your developing tank for processing. If you wanted to wind hard enough to pull the tape off one spool onto the other, you could do that, but that risks exposing the film if you don't tape the cassettes closed.

My Results:

With the camera loaded into my newly made 3D printed film cassettes and the sun shining on a typically overcast November afternoon, there was a chill in the air and a panoramic camera in my hands. I walked through my neighborhood to see what the camera would produce. After taking the photos, I was excited to see the results, so I loaded the camera, developing tank, and reels into the changing bag. I took the film out of the camera, loaded it onto the developing reel, put it in my developing tank, and processed the negatives. 

The overexposed area on the left of the images must have caused a slight light leak. Here's what I produced.

Conclusion:

What a fun camera! I really enjoyed using it. Loading the cassettes wasn't as big of an issue as others I've read about make it out to be if you think about the process. If you have one and need technical or repair information, I found this very informative website, The FT-2 Panoramic Camera Guide.

If you have one and need cassettes, don't hesitate to get in touch with Harvey at Rex Plastics. I'm confident he can print some for you, and they can ship them to you.

Thank you for taking some time from your day to read about this fun panoramic camera that produces excellent images. 

Until next week, please be safe.

References:

The FT-2 Panoramic Camera Guide: https://lens-club.ru/public/files/pdfs/4e9b2081c1c77ede9e70d985d6bacc5d.pdf

FT-2 Camera Manual: https://cameramanuals.org/russian_pdf/russian_ft-2_panaromic.pdf

Roger Hyam’s Website: https://www.hyam.net/blog/archives/10727

Rex Plastics: https://rexplastics.com/3d-printing-and-plastic-product-design