Yes, I agree. That is what we refer to as an Altazimuth mount. It allows you to pivot the telescope up and down in altitude and around on it's axis horizontally in azimuth. This is not what you would want to do any kind of meaningful astrophotography. About the only subject you could capture is something very bright like the Moon or Sun (with a solar filter) using a very fast shuttle speed. You couldn't add a tracking device because it wouldn't work on this type of mount. It would take an entirely new "equatorial" type mount, but I don't think it would be practical to try to convert that particular scope to a quality mount. You might think of up-grading to a different scope and heavy duty mount if you have a real desire to get into astrophotography.
I'm not going to be able to make it out this week-end, but I saw that Dan has offered to help you out in getting familiar with your scope. Dan's very knowledgeable and can give you some ideas of what you can consider to get started.
Good luck, Johnny
-----Original Message-----
From: "Visual Observing" <visual-astronomy@centexastronomy.org>
Sent: Wednesday, June 14, 2017 3:21pm
To: "johnnyb@reagan.com" <johnnyb@reagan.com>
Subject: re: New to telescopes / astrophotography (Meyer Field) <<$174697350712$>>
Yes, Johnny, that's it. Specs on it say D 90mm F1 60mm F//6.66. I plan on 3D printing a camera adaptor mount for it, but am concerned about tracking. I can do Arduino coding stuff, but it seems like the mount isn't right for normal tracking rigs. My biggest worry is spending more on workarounds than the scope is worth.