Tid-Bit 14 - To See or Not To See
Recently I had the chance to have breakfast with a number of knowledgeable clock folk who meet regularly to discuss their shared fascination. This particular morning one of the men had an American mechanism that just didn’t want to run – something was amiss with the escapement. The restorer had spent some time working on it, but frankly was bumfuzzled. When it was my turn to look into the bowels of the mechanism I donned my 2 power binocular loupes and noticed that there were signs that one of the pivots for the anchor had been moved – which likely would result in exactly the problem the mechanism was said to be experiencing.
This experience reminded me how important it is to be able to see what we are doing. To me there are two aspects to seeing what we are doing. The first is being able to see well enough to spot the problem. The second is getting our minds to actually “see”, or perhaps the better word is “discern” what the optics allow us to see. Whilst I am sure the repairman could see the plugged hole – he did after I pointed it out – somehow it just didn’t grab his attention. But, when magnified, the plug was too obvious to ignore.
I suppose experience is the best teacher in learning to discern what is important (or, in my case, luck), but I firmly believe that being able to clearly see the tiny bits we work on is the critical first step. And that is the subject of this Tech Tidbit – the optics I use to see what I am working on.
So much for a long winded introduction as to why I use microscopes and binocular loupes when I work on clocks. Oh, there is another reason: I am not getting any younger, and neither are my eyes. Optics can obviate the otherwise seemingly insurmountable challenges we all face now, or will face in the future as our eyes loose their youthful resiliency. I have had students (experienced clock repair folk and customers who want to learn how to repair the finer weight driven clocks) spend a half hour working on a pivot while using an Optivisor to see what they are doing. When I then look at the pivot under a microscope I find they have not even begun to properly restore the pivot. Because they could not see what they were doing.
Methodology
I used a Sony DSC-T200 8 megapixel digital camera in close-up mode with no flash to shoot pictures of a pinion and pivot through the various optical devices discussed in this article. Every effort was made to position the camera to reflect the distance from the eye to the optical device. Likewise the optical devices were positioned such that they were at the appropriate distance (focal length) from the pivot and pinion. The pictures shown below were all shot with the same camera-lens settings and were all cropped identically to give reasonable representations of the relative size of the image seen with each optical device.
Reading Glasses
When I turned 50 I discovered the joys of reading glasses. Simply put, reading glasses allow you to focus on objects that are too close for aged eyes to see clearly. While you used to be able to focus on something 6 inches from your nose, there will likely come a time when you need to hold objects a couple of feet away to see them. And, at that distance, it is really hard to make out the fine print. Hence reading glasses.
Reading glasses come in various focal lengths. When you buy reading glasses you will see numbers ranging from 1 to around 3: These are the diopter of the lenses – diopter being the reciprocal of the focal length, measured in meters. Let me put that another way. The older you get, the higher the diopter you will need to see something close to your face – as your eyes continue to loose the ability to focus on near objects.
At one time I thought that diopter was the same as magnification. It isn’t. The magnification of a pair of reading glasses can be calculated as follows:
Magnification = (Diopter divided by 4) plus 1.
Hopefully the following table will make this clear:
One of the folks who read this article in the NAWCC Bulletin recognized a need that needed filled and started looking for a pair of binocular loupes that would enhance his bench work. He found this pair on Amazon: If you go to Amazon and search "shultz dental loupes" you will find a number of options at a really quite reasonable price. Here is what Alex, wrote: "I took some time to consider whether I wanted safety glasses or the unit that I could mount. I wrote Shultz and asked if the lens safety glasses were hard coated like good sunglasses or if they were soft plastic like cheap safety glasses. They responded that they are hard coated. This was important to me as I am not always able to clean my glasses with soapy water and occasionally use my shirt to wipe my safety glasses. They come in the hard travel case with a screwdriver, cleaning cloth, instructions, and lens covers clear glass that slip over and I leave on. I figure that I can add stick-on bifocal magnifiers to the glasses to increase the magnification a bit down the road. In retrospect I probably should have gotten the 340 mm distance instead of the 420. I considered sending them back, but chose not to. If I go to the stick-ons it will probably reduce the distance a little. This is only an issue when I'm sitting at a bench, standing or machines is no issue. Although I do not work on watch-size items, many of my projects involve clock-sized parts, so magnification is important."
While I have not used these loupes they look like a very affordable option for doing bench work and a host of other tasks that require seeing what one is doing.
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