Kitty
New Member
- Joined
- May 6, 2009
- Messages
- 43
Ok, first real post here, and ofcourse like most recent projects it's about me trying to light small models.
I have to admit, the smallest one i lit was a 2.3 cm runabout (yes, correct, 23 mm), but that was a master i made and then a mold and clear copies cast with a led inside, not spectacular small electronics, but just a nifty thing to do.
My current testing ground is an F-Toys 1:144 AT-AT, it has a huge hull in comparison of the revell pocket kits i lit up so far, so i can do some fancy stuff here.
Its not realy a kit, but a candytoy, meaning it comes assembled (mostly) and prepainted.
I want to do more with these things, so i disassembled one (pretty hard to do it without damaging the parts too much, since it is glued together with CA).
Fortunately the chinese kids who build them only put glue on 1 stub usualy, eventhough the whole thing fits together without glue pretty tight.
Now it's a snapkit
www.sweelssen.com/Images/AT-AT_001.jpg
www.sweelssen.com/Images/AT-AT_002.jpg
My plan: add a red light behind the window in the head, make the 4 cannons fire randomly and independant and have the head swing from left to right and back randomly.
I also am going to run the power through the legs, and in such a way that i can disassemble it and reposition.
To do all that i need 1 Red led, 4 whites, some fibreoptic strand a tiny electromotor with gearbox or a microservo and a microcontroller and some passive components like resistors.
First i have to make some actuators for the feet to make it more accurate.
The F-toys doesn't have them and they would be perfect for conducting electricity if i make them out of brass wire and tubing.
www.sweelssen.com/Images/AT-AT_004.jpg
Then i have to mill out trenches in the lower legs to run the wire through and put a thin brass (0.25 mm thick) washer on the inside of the knee joint and a hole in the foot.
www.sweelssen.com/Images/AT-AT_003.jpg
Now the actuator will fit snugly in there.
www.sweelssen.com/Images/AT-AT_005.jpg
www.sweelssen.com/Images/AT-AT_006.jpg
To run power through the top leg, i need to dril a hole from the outside to the inside of the leg and a trench on the inside of the leg.
In that i can fit a 1 mm brass wire that i bent to fit in the groove of the kneejoint and in the trench on the hip joint.
www.sweelssen.com/Images/AT-AT_007.jpg
The thin plates on the sides of the gearbox also need some brass rings and tubing to cunduct electricity through the hipjoint and the bottom into the hull.
www.sweelssen.com/Images/AT-AT_008.jpg
www.sweelssen.com/Images/AT-AT_009.jpg
On the gearbox itself i replaced the formost and rearmost stubs with brass tubes.
www.sweelssen.com/Images/AT-AT_010.jpg
www.sweelssen.com/Images/AT-AT_011.jpg
www.sweelssen.com/Images/AT-AT_012.jpg
And here are 2 pictures of a test to see if the joints will conduct the electricity.
www.sweelssen.com/Images/AT-AT_013.jpg
www.sweelssen.com/Images/AT-AT_014.jpg
Next on the todo list is to make the mechanical part needed to make the head swing from left to right and visa versa.
I could use an electromotor with a concentric wheel or a microservo.
An electromotor would be the easiest since that only requires powering it for random periods to make teh head move.
A microservo would be neater, but requires some more advanced programming.
I never took the time to work out how these servo's work (i think they have a very small steppermotor inside and i never even took the time to understand how they work as well).
So now might be a good time to figure out how they work, what the difference is between a analog servo and a digital servo and how i can drive these things from a program in a microcontroller.
Maybe soomeone here can give me a crashcourse in servo's
To be continued
Update 20/5/2009
Stll working on the feet.
Since it's gonna be posable, i want to do something about the ugly holes at the base of the feet, so it's more accurate.
And i'm gonna make it mechanicaly work too, the base will move in and out of the foot and meanwhile the tips of the toes will move.
I've started on the inner workings of the feet.
It's gonna be a bit complicated with a spring etc., so i'll have to prototype the parts.
Here's what i've got so far ( this is watertight, so i can print it any time, some interested in F-toys aftermarket parts ? )
It's not ready yet, there's gonna be a moving part in that center indent but i haven't finished that yet.
Bottomview:
www.sweelssen.com/Images/AT-AT_foot.jpg
Topview:
www.sweelssen.com/Images/AT-AT_foot-2.jpg
The little bolcks on top are to position the baseplate incase you want to only add the baseplate with toes.
I also uploaded 2 avifiles, because i need some help.
I cannot see clearly how the toes on the feet work in conjunction with the moving baseplate.
So i quickly made 2 renders of the 2 ways it could work.
The second one makes the most sense to me, since it mimics the way the feet of a running bird like an ostrich or the feet of a raptor work(ed).
And it also makes sense as a way to dampen the shocks when the feet stomp down
You might have to download them, since i i only use storage space, no website with a player yet.
They are 1.1 Mb each
www.sweelssen.com/Images/AT-AT_1.avi
www.sweelssen.com/Images/AT-AT_2.avi
I also started writing the programm for the leds and the moving head.
It's gonna be a cheap PIC, i only need 6 outputs so an Arduino or a PIC16F873 would be overdoing it
Update 11/8/2009
Today i received some printed parts (4 sets total), i quickly assembled one.
so here's how it looks for real,(the filenames are a pun )
www.sweelssen.com/Images/AT-AT_footprint_1.jpg
www.sweelssen.com/Images/AT-AT_footprint_2.jpg
www.sweelssen.com/Images/AT-AT_footprint_3.jpg
www.sweelssen.com/Images/AT-AT_footprint_4.jpg
the parts:
www.sweelssen.com/Images/AT-AT_footprint_5.jpg
tucked in a foot:
www.sweelssen.com/Images/AT-AT_footprint_6.jpg
www.sweelssen.com/Images/AT-AT_footprint_7.jpg
Just for size:
www.sweelssen.com/Images/AT-AT_footprint_8.jpg
this one is not cleaned up and painted, but it shows what it's all about.
Oh, i haven't put the spring in yet, because i haven't found the right size yet
I have to admit, the smallest one i lit was a 2.3 cm runabout (yes, correct, 23 mm), but that was a master i made and then a mold and clear copies cast with a led inside, not spectacular small electronics, but just a nifty thing to do.
My current testing ground is an F-Toys 1:144 AT-AT, it has a huge hull in comparison of the revell pocket kits i lit up so far, so i can do some fancy stuff here.
Its not realy a kit, but a candytoy, meaning it comes assembled (mostly) and prepainted.
I want to do more with these things, so i disassembled one (pretty hard to do it without damaging the parts too much, since it is glued together with CA).
Fortunately the chinese kids who build them only put glue on 1 stub usualy, eventhough the whole thing fits together without glue pretty tight.
Now it's a snapkit
www.sweelssen.com/Images/AT-AT_001.jpg
www.sweelssen.com/Images/AT-AT_002.jpg
My plan: add a red light behind the window in the head, make the 4 cannons fire randomly and independant and have the head swing from left to right and back randomly.
I also am going to run the power through the legs, and in such a way that i can disassemble it and reposition.
To do all that i need 1 Red led, 4 whites, some fibreoptic strand a tiny electromotor with gearbox or a microservo and a microcontroller and some passive components like resistors.
First i have to make some actuators for the feet to make it more accurate.
The F-toys doesn't have them and they would be perfect for conducting electricity if i make them out of brass wire and tubing.
www.sweelssen.com/Images/AT-AT_004.jpg
Then i have to mill out trenches in the lower legs to run the wire through and put a thin brass (0.25 mm thick) washer on the inside of the knee joint and a hole in the foot.
www.sweelssen.com/Images/AT-AT_003.jpg
Now the actuator will fit snugly in there.
www.sweelssen.com/Images/AT-AT_005.jpg
www.sweelssen.com/Images/AT-AT_006.jpg
To run power through the top leg, i need to dril a hole from the outside to the inside of the leg and a trench on the inside of the leg.
In that i can fit a 1 mm brass wire that i bent to fit in the groove of the kneejoint and in the trench on the hip joint.
www.sweelssen.com/Images/AT-AT_007.jpg
The thin plates on the sides of the gearbox also need some brass rings and tubing to cunduct electricity through the hipjoint and the bottom into the hull.
www.sweelssen.com/Images/AT-AT_008.jpg
www.sweelssen.com/Images/AT-AT_009.jpg
On the gearbox itself i replaced the formost and rearmost stubs with brass tubes.
www.sweelssen.com/Images/AT-AT_010.jpg
www.sweelssen.com/Images/AT-AT_011.jpg
www.sweelssen.com/Images/AT-AT_012.jpg
And here are 2 pictures of a test to see if the joints will conduct the electricity.
www.sweelssen.com/Images/AT-AT_013.jpg
www.sweelssen.com/Images/AT-AT_014.jpg
Next on the todo list is to make the mechanical part needed to make the head swing from left to right and visa versa.
I could use an electromotor with a concentric wheel or a microservo.
An electromotor would be the easiest since that only requires powering it for random periods to make teh head move.
A microservo would be neater, but requires some more advanced programming.
I never took the time to work out how these servo's work (i think they have a very small steppermotor inside and i never even took the time to understand how they work as well).
So now might be a good time to figure out how they work, what the difference is between a analog servo and a digital servo and how i can drive these things from a program in a microcontroller.
Maybe soomeone here can give me a crashcourse in servo's
To be continued
Update 20/5/2009
Stll working on the feet.
Since it's gonna be posable, i want to do something about the ugly holes at the base of the feet, so it's more accurate.
And i'm gonna make it mechanicaly work too, the base will move in and out of the foot and meanwhile the tips of the toes will move.
I've started on the inner workings of the feet.
It's gonna be a bit complicated with a spring etc., so i'll have to prototype the parts.
Here's what i've got so far ( this is watertight, so i can print it any time, some interested in F-toys aftermarket parts ? )
It's not ready yet, there's gonna be a moving part in that center indent but i haven't finished that yet.
Bottomview:
www.sweelssen.com/Images/AT-AT_foot.jpg
Topview:
www.sweelssen.com/Images/AT-AT_foot-2.jpg
The little bolcks on top are to position the baseplate incase you want to only add the baseplate with toes.
I also uploaded 2 avifiles, because i need some help.
I cannot see clearly how the toes on the feet work in conjunction with the moving baseplate.
So i quickly made 2 renders of the 2 ways it could work.
The second one makes the most sense to me, since it mimics the way the feet of a running bird like an ostrich or the feet of a raptor work(ed).
And it also makes sense as a way to dampen the shocks when the feet stomp down
You might have to download them, since i i only use storage space, no website with a player yet.
They are 1.1 Mb each
www.sweelssen.com/Images/AT-AT_1.avi
www.sweelssen.com/Images/AT-AT_2.avi
I also started writing the programm for the leds and the moving head.
It's gonna be a cheap PIC, i only need 6 outputs so an Arduino or a PIC16F873 would be overdoing it
Update 11/8/2009
Today i received some printed parts (4 sets total), i quickly assembled one.
so here's how it looks for real,(the filenames are a pun
)www.sweelssen.com/Images/AT-AT_footprint_1.jpg
www.sweelssen.com/Images/AT-AT_footprint_2.jpg
www.sweelssen.com/Images/AT-AT_footprint_3.jpg
www.sweelssen.com/Images/AT-AT_footprint_4.jpg
the parts:
www.sweelssen.com/Images/AT-AT_footprint_5.jpg
tucked in a foot:
www.sweelssen.com/Images/AT-AT_footprint_6.jpg
www.sweelssen.com/Images/AT-AT_footprint_7.jpg
Just for size:
www.sweelssen.com/Images/AT-AT_footprint_8.jpg
this one is not cleaned up and painted, but it shows what it's all about.
Oh, i haven't put the spring in yet, because i haven't found the right size yet
