Thank you David for the plans and for making this video. I just ordered the plans and the process was easy, affordable and everything went smoothly. I am looking forward to building this project.
@@davidtvrdy3297 You must be an engineer. Your drawings are amazing. You have included excellent detail and helpful suggestions. Your instructions are clear and concise.
Thank you for this. I bought your plans about a year ago and had pasted them up right before surgery on my shoulder. I've now got everything cut and just need to assemble. Appreciate all your amazing plans
David, I just completed the Galileo’s escapement from the plans I bought from you recently. It works great! Thanks so much. Your plans are excellent. I used a candle to lubricate the gears because the graphite falls off to easily. That was a fun project and worth every penny for the plans.
This is exactly what I've been looking for. I've been wanting to build one of these for a while but had never actually tried to locate plans and instructions. You've put it all together, made it so easy, I just had to place an order. We will have to see how it goes.
The same thing happened to me, I couldn't get a good reference until now, I'm going to make it and I'll write again from there, thanks, excellent information!
David, thanks so much for presenting this project! As others have already said, this one is just the right size for someone who wants to build a clock-like mechanism, but isn't quite ready to tackle a full clock (and that group includes me). I'll be placing my order soon!
Very nice. I've often thought of tackling a clock project, but wanted to try something a little more in-between first. This looks like a great first project!
Just a note about how you marked the teeth on the gears for the mesh. IDK the calculations on these gears specifically, but a well designed set of gears should maximize the number of different tooth contact variations to minimize the set so marking these shouldn't really matter too much. I haven't done gear design in a while, but I remember some calculations we ran through in my kinematics class in college and that was one of the things that we worked on. Nice job on the build, though!
Thanks for your observations and comments. So if the number of teeth in the small gear divides evenly into the big gear then the small gear teeth will always land in the same location on the big gear. Once you have fixed the gears so the small gear will make one revolution around the big gear your done. If you move the small gear to start in a different location you have a whole new set of problems. You are right of course. If you were to purchase gears from a gear manufacture they would work fine just like your saying. Thank you for your interest. I hope you buy a plan and check out my theory. David
@@davidtvrdy3297 yep if they’re set up to always fall into the same teeth pattern you are absolutely right! While that’s not the preferred method, I’m sure my point is probably not critical in the application of wooden teeth cut on a scroll saw anyhow lol. It’s surely not meshing the same for every tooth. Sometimes the engineering brain in me has a hard time disengaging and it spills over into the woodworker brain in me 😂
Thank you for your nice comments Translation as follows: Welcome to Modern Methodology for Creating Skilled Manpower: And Promotion and Promotion. How are you, I hope you are well by the grace of God, good night, thank you.
The blade that I have been using is a Size: 2 .022" thick with a .046" Dia. with 44 TPI fabricated by Supercut Bandsaw Co. Inc. Post Falls, Idaho 83854 Thanks for your interest.
There is a weight hanging from a string. The string is tied to a reel that drives the big gear. From where the weight starts to the time it touches down on the floor is how long the escapement will run. Mounting the escapement higher on the wall will increase the time, but not significantly.
Sorry it has taken me so long to answer you back. I only sell the plans to build. If you email me I will send you a set of plans free. Thanks for your interest. davidtvrdy@gmail.com
Hi, these clock designs are amazing! Would love to buy but in Europe we use A4 paper, which is slightly smaller than the US size you make the drawings for. Is there any way to adapt? Thanks!
It is possible to reduce the size of the escapement by using the Google Print program and changing the scale. If you still need help email me at sales@dctdrawings.com
![Lp. Сердце Вселенной #60 РОЖДЕНИЕ ЛОЛОЛОШКИ [Финал] • Майнкрафт](http://i.ytimg.com/vi/YoR0pAV9FVQ/mqdefault.jpg)
Excellent plans and instructions! Thanks!
Thank you David for the plans and for making this video. I just ordered the plans and the process was easy, affordable and everything went smoothly. I am looking forward to building this project.
Thank you
Your plans are excellent. I have made three of your escapements so far and they all worked i have one more to make. Thank you!
Thank you so much. I'm working on a fifth. I will send it to you when it's ready.
@@davidtvrdy3297 You must be an engineer. Your drawings are amazing. You have included excellent detail and helpful suggestions. Your instructions are clear and concise.
Thank you for this. I bought your plans about a year ago and had pasted them up right before surgery on my shoulder. I've now got everything cut and just need to assemble. Appreciate all your amazing plans
Thank you for those kind words. I hope you are enjoying the builds.
David
david my brother you're the greatest of all time
Thanks for those kind words.
David, I just completed the Galileo’s escapement from the plans I bought from you recently. It works great! Thanks so much. Your plans are excellent. I used a candle to lubricate the gears because the graphite falls off to easily. That was a fun project and worth every penny for the plans.
That was very nice of you to say and thanks for the suggestions
This is exactly what I've been looking for. I've been wanting to build one of these for a while but had never actually tried to locate plans and instructions. You've put it all together, made it so easy, I just had to place an order. We will have to see how it goes.
Thanks and email me if you need sales@dctdrawings.com
The same thing happened to me, I couldn't get a good reference until now, I'm going to make it and I'll write again from there, thanks, excellent information!
Plans are clear , understandable and affordable thanks Dave . Gonna visit the store for more .
Thanks
Thank you so much for sharing! Excellent video , project, and presentation. I’m ordering the plans now and will make some for my young grand nephews.
Awesome! Thank you!
David, thanks so much for presenting this project! As others have already said, this one is just the right size for someone who wants to build a clock-like mechanism, but isn't quite ready to tackle a full clock (and that group includes me). I'll be placing my order soon!
I think you will enjoy this project. Let me know how it works out. Thanks for your comment.
Very nice. I've often thought of tackling a clock project, but wanted to try something a little more in-between first. This looks like a great first project!
Thanks to you for your kind remarks
WOW !!!!
EXCELENTE TUTORIAL GOOD JOB,
CONTINUE PLEASE, GOD BLESS YOU AND FAMILY
Thank you, I will
Wow, I love this I am going to buy the plans from your website next month, thank you for sharing.
Just a note about how you marked the teeth on the gears for the mesh. IDK the calculations on these gears specifically, but a well designed set of gears should maximize the number of different tooth contact variations to minimize the set so marking these shouldn't really matter too much. I haven't done gear design in a while, but I remember some calculations we ran through in my kinematics class in college and that was one of the things that we worked on. Nice job on the build, though!
Thanks for your observations and comments. So if the number of teeth in the small gear divides evenly into the big gear then the small gear teeth will always land in the same location on the big gear. Once you have fixed the gears so the small gear will make one revolution around the big gear your done. If you move the small gear to start in a different location you have a whole new set of problems. You are right of course. If you were to purchase gears from a gear manufacture they would work fine just like your saying. Thank you for your interest. I hope you buy a plan and check out my theory. David
@@davidtvrdy3297 yep if they’re set up to always fall into the same teeth pattern you are absolutely right! While that’s not the preferred method, I’m sure my point is probably not critical in the application of wooden teeth cut on a scroll saw anyhow lol. It’s surely not meshing the same for every tooth. Sometimes the engineering brain in me has a hard time disengaging and it spills over into the woodworker brain in me 😂
EXCELLENT PROJECT
Thanks, I hope it inspired you to build it.
thank alot sir! its very helpful for my university exam project!
thank you for your comment
Very neat and clean..
Awesome sir
thank you, how nice of you to leave those words
দক্ষ জনশক্তি তৈরির জন্য আধুনিক পদ্ধতিঃ ও প্রচার ও প্রসারের লক্ষ্যে আপনাকে স্বাগতম।কেমন আছেন আশা করি আল্লাহর রহমতে ভালো আছেন, শুভ রাত্রি ধন্যবাদ।
Thank you for your nice comments
Translation as follows: Welcome to Modern Methodology for Creating Skilled Manpower: And Promotion and Promotion. How are you, I hope you are well by the grace of God, good night, thank you.
hello if i were to make this into an actual clock that tells the seconds.. what would i need to change? i need it to be accurate, thank you!
The scroll saw blades you show- is it a spiral blade and how many teeth on the blade?
The blade that I have been using is a Size: 2 .022" thick with a .046" Dia. with 44 TPI fabricated by Supercut Bandsaw Co. Inc. Post Falls, Idaho 83854 Thanks for your interest.
Hello, if I resize the device can we make run faster?
Felicidades Espectacular 💪🇦🇷
Thank you for your kind remarks.
David
Beautiful!
Thank you!
Hello , Iread your answer that your escapment run between 15 to 20 minutes ,
Can we run it for longer time ?
There is a weight hanging from a string. The string is tied to a reel that drives the big gear. From where the weight starts to the time it touches down on the floor is how long the escapement will run. Mounting the escapement higher on the wall will increase the time, but not significantly.
Very good
Hello sir
Would you like to sell the project.....?
Let me know here please
Tq sir
Sorry it has taken me so long to answer you back. I only sell the plans to build. If you email me I will send you a set of plans free. Thanks for your interest. davidtvrdy@gmail.com
Dove si comprano i disegni?
Olá , como faço pra comprar esses planos?
Obrigado
Go to DCTdrawings.com and purchase them there. Thank you for your interest. David
Can I buy the plans direct from you?
Is the movement on the video also from 1/2" plywood ? It looks thicker
Yes, it is 1/2" plywood. You can purchase plans at DCTdrawings.com Thank you for your interest. David
Buenas noches donde puedo conseguir los planos a escala real ?
The plans are available on my web site DCTDrawings.com
How long does this run for?
15 TO 20 minutes
Do you have plans in metric? (Mm)
Amazing!!
Thanks!!
This video is so helpfull for me i want to make this
Tha plans are available on my web site DCTdrawings.com
Hi, these clock designs are amazing! Would love to buy but in Europe we use A4 paper, which is slightly smaller than the US size you make the drawings for. Is there any way to adapt? Thanks!
It is possible to reduce the size of the escapement by using the Google Print program and changing the scale.
If you still need help email me at sales@dctdrawings.com
I've printed it on A3 paper with 100% scale, that works, maybe you can use an online printshop ?
Hello David, can I pay also in Euro for your plans?
I am not currently set up for Euro. Sorry
Hi has anyone tried printing these plans on A4 ?
Won't fit, A3 works for me !
bonsoir je suis abonné j'ai payé pas reçu le plan déçu attendre combien de temps
Sorry for this problem. If you will email me I will send you the plans. davidtvrdy@gmail.com
So 😎
Thanks