35mm Slide Copier

SLIDE COPIER

The story

I come from a large family (10 kids) and my dad (now 90 years old) liked to use his 35mm camera.
That yielded nearly 4000 slides over our childhood.
We decided that these slides needed to be captured to the cloud so we would not loose them and could share among the family.
We investigated copying services but feared the possibility of loosing them in the mail. Hey, it happened to someone in my family.
Yearning to do a build with my dad (also an engineer) we set out to make the DK^2 Slide Copier.

The best part of this project was collaborating with my dad. He in Fla and I in Utah. It was interesting for him to see the massive change in technology since he retired. He started his career with tube design and ended when MSI and micro-processors (Z80) had just hit the design stage. He wasn’t up to speed on things like the Arduino but he asked really challenging questions and was a quick study. What fun!

Design Approach

We figured handling slides was as much an art as science so rather than inventing our own feeding mechanics we decided to use a hacked slide project of the same vintage as his. We found two on ebay. I used one to gut and learn and the other as the final core of the project. It was fascinating to see how motors and mechanics were used to control this vintage machine given there were no micro-controllers available back when it was designed, but that is another story.

The Build

We built a slide copy controller using a nano which controlled relays that interfaced with the projectors slide handling buttons.

A key goal was to make minimal modifications to the slide mechanics, interfacing everything from outside the unit.

Lighting

The stock incandescent bulb was replaced with a LED Brake Light array and a diffuser plate. The collumating lenses were left intact. A socket was fabricated that is a plug replacement for the incandescent bulb. We simply removed the stock bulb and bolted in the LED array and socket. https://photos.app.goo.gl/NX8xoBfqsdbqXtTG6

Slide Photography

The final focal lens was removed and a phone was mounted at the output of the projector using a foam frame to hold it firmly to the face of the projector. The slide is illuminated down in the projector. The phone camera is adjusted to zoom up the slide to fill its screen. https://photos.app.goo.gl/nqUwEepxxEj2GfTi9

Slide Advance Control

A controlled relay is connected to the projectors remote simulating pressing the advance button. The internal voltage of the projector is low voltage AC so we decided to isolate it with relays connected across the remotes contacts. https://photos.app.goo.gl/a9jwwyJe8Hu2rTSS7

Control Panel

The controller includes switches and buttons for the operator to set tray size and copy mode as well as an OLED display to show the copiers status. 

 https://photos.app.goo.gl/KQn31os4U3n64HSo7

Shutter Control

A battery operated BT selfie shutter is used to command the phone to take a photo. A relay connects the nano to the selfie module by a simple hack across its switch contacts. https://photos.app.goo.gl/87fpHH4B4Y54Vcw66

Tray & Jam Sensing

Two optical sensors were double back taped to the side of the projector. They detect tray presence and slide jams respectively. https://photos.app.goo.gl/hfbtAxzzyDPu3eiC7

Control Software

The controller software uses a simple state machine and display driver to control wait, automated copy, manual copy and diagnostics. You can select tray size and modify the starting slide #. The software detects a missing tray and slide jams.

Alignment

A transparent adapter is inserted and photographed between slide trays to indicate tray transitions and add tray descriptions. A slide target is used to adjust the camera's zoom. https://photos.app.goo.gl/2SQHhv6nkvKSZfUj8 

• https://photos.app.goo.gl/jW3zzthxBQUQA1Rq5

Performance

The copier will copy slides at a rate of 825.68 slides/hr so we expect to copy all our slides in less than 8 hrs. The projects material costs were <$100.

In Operation

https://photos.app.goo.gl/4A2CWqmHyqzJvx5h9

Picture Quality:

We think the picture quality after a few tweaks in your photo editor will give better than original results;

Build Documentation

Schematic:

Code: 

https://github.com/donkjr/Dk-DK-COPIER-REPO

Bill Of Material

• Nano: https://amzn.to/2NzsnFL
• Display: https://amzn.to/2NxhFQ6
• Relay Modules: https://amzn.to/2MIGFEq
• Selfie module: https://amzn.to/2U8EwCE
• 12V to 5V power module: https://amzn.to/2MGMbav
• 5.5 x 2.1 mm power jack: https://amzn.to/2ZrtSbm
• 12V power supply: https://amzn.to/2ZtAYfy * we got ours from the local thrift store
• Optical sensor modules: https://amzn.to/2MJ2SlN
• We made our own Nano mount but next time I would use this:https://amzn.to/2HyEFKO
• Switches & Push Button: scarfed from our reuse bins

Enjoy and Comment,

Don

Ninja Blender Spout Replacement

My Ninja Blender Spout Broke

From research on the web is seems this is a common problem. Ninja's solution is to replace the blenders entire lid. This seemed like a waste of $20 especially since I would expect this to happen again. The thin plastic tabs make this a poor design IMO.

Lets make a spout plug ....

Home Made Molding Material

Then I remembered that I could fabricate silicon parts using 1/3 corn starch and 100% silicon. "Google It" for more information.

Mix 1/3 cornstarch and the rest 100% silicon caulk. I bought mine at HD for around $3.00

Use The Top As A Mold

We are going to use the blenders top as a mold for a new spout plug by adding a top and bottom plate to the spouts cavity. Note the slot in the top plate used to relieve the silicon and make a handle for pulling the silicon plug out.

A plate is fabricated and hot glued to the underside of the spout. Note the 3 holes to relieve the silicon and air. The silicon will put in from the top of the spout and squeezed through the bottom plates relief holes. This squeeze out will be removed later. When dry this plate can be removed by prying carefully with a screwdriver. The hot glue will easily release from the plastic for cleanup.

A generous amount of the silicon mixture is put into the spouts cavity from the top and the top plate is pushed down over the silicon until it squeezes out. The stickiness of the silicon will hold the plate in place. When the silicon is dry this plate can be removed by pulling on it firmly.

The New Spout Plug

This one will never break.....

The plug after being removed from the mold and trimmed with a scissors.
Note the tab on the top used to pull the plug out.

The spout plug is pushed down into the spouts void and the tight fit holds it in place.
Pull on the tab to get it out. 

Sometimes ya just have to fix things yourself!

Enjoy and comment

Don