Difference between revisions of "Animating a static, commercial snowman"
Jump to navigation
Jump to search
Dirknerkle (talk | contribs) |
Dirknerkle (talk | contribs) |
||
| Line 7: | Line 7: | ||
::*A swivel collar was designed which allowed for the light cables to remain intact. The collar was made in 3 parts, a top and bottom section and a washer spacer. The material chosen was a plastic, kitchen cutting board because they're very strong, inexpensive and rust-proof, although it's a bear to cut. A saber saw or band saw is highly suggested although a hack saw could also be used. The open slot allows the cable to be slipped through into the opening to prevent binding on any cables between the head and body. A picture of the assembled swivel head before final drilling shows how the slots overlap. The washer spacer is important and it should be wide enough to support the weight of the head. | ::*A swivel collar was designed which allowed for the light cables to remain intact. The collar was made in 3 parts, a top and bottom section and a washer spacer. The material chosen was a plastic, kitchen cutting board because they're very strong, inexpensive and rust-proof, although it's a bear to cut. A saber saw or band saw is highly suggested although a hack saw could also be used. The open slot allows the cable to be slipped through into the opening to prevent binding on any cables between the head and body. A picture of the assembled swivel head before final drilling shows how the slots overlap. The washer spacer is important and it should be wide enough to support the weight of the head. | ||
| − | ::::[[File:Neck_insert.JPG | 550px ]] [[File:IMG_1446.JPG | 200px ]] | + | :::::[[File:Neck_insert.JPG | 550px ]] [[File:IMG_1446.JPG | 200px ]] |
| − | :::Holes were drilled around the perimeters of the top and bottom parts for attachment to the wire frame. Small gauge wire was used to "sew" the top and bottom sections to their respective parts of the snowman frame using every 3 or 4 holes. The washer spacer adds distance between the top and bottom to prevent these wires from binding. A lockwasher was used to connect the top and bottom through the spacer and adjusted for easy motion. Lubrication is likely not required, but certainly WD-40 could be used if necessary. | + | ::::Holes were drilled around the perimeters of the top and bottom parts for attachment to the wire frame. Small gauge wire was used to "sew" the top and bottom sections to their respective parts of the snowman frame using every 3 or 4 holes. The washer spacer adds distance between the top and bottom to prevent these wires from binding. A lockwasher was used to connect the top and bottom through the spacer and adjusted for easy motion. Lubrication is likely not required, but certainly WD-40 could be used if necessary. The plastic material is also quite impervious to ice and snow, too -- an added benefit! |
| + | |||
| + | ::*The side-to-side head motion would be accomplished by the use of a cam lever, which allows placing a push/pull actuator elsewhere in the snowman's body and connecting the actuator to the cam. As the actuator moves the connection rod up/down, the cam translates the motion into horizontal motion. The same plastic material was used for the cam. Connecting the cam to the head was facilitated with a simple screw eye around one of the wires in the back of the head (see the top part of the plastic cam). This creates a sliding friction/wear point but as motion will be relatively slow and intermittent, it's not anticipated that significant wear will become an issue. | ||
| + | [[File:Neck_insert.JPG | 550px |center]] | ||
| + | |||
| + | ::*The cam's attachment bracket became an exercise in extreme DIY engineering. Because one can't buy one of these anywhere on the planet, it's a fun challenge to make this work. | ||
| + | |||
| + | ::::A section of scrap metal was chosen as the bracket material and hammered flat. A piece of cardboard was cut to match the width of the metal and marked with locations of parts of the wire frame. After some trial-and-error folding the overall shape of the bracket started to take place. | ||
| + | [[File:IMG_1459.JPG | 350px]] [[File:IMG_1458.JPG | 350px]] | ||
Revision as of 07:05, 29 April 2020
- So you picked up a wire frame snowman at your local home improvement center and now that you've plugged it in, it glows nice and bright but it just stands there. And you want to make it interact a bit more with your viewers by adding some motion. It's not as hard as you might think, but it does involve a bit of DIY engineering, and truth be told, sometimes it turns out to be the one-of-a-kind-I-hope-I-never-have-to-do-this-again kind of engineering! But stick to it, and it'll come together. Here's one way to do it...
- The first thing was to separate the head from the body. A Dremel Moto Tool with appropriate cutter wheel is a good option to cut any wire/welded sections. However, the lights attached to the head were a bit more problematic -- and not wanting to dislodge them, they were kept connected.
- A swivel collar was designed which allowed for the light cables to remain intact. The collar was made in 3 parts, a top and bottom section and a washer spacer. The material chosen was a plastic, kitchen cutting board because they're very strong, inexpensive and rust-proof, although it's a bear to cut. A saber saw or band saw is highly suggested although a hack saw could also be used. The open slot allows the cable to be slipped through into the opening to prevent binding on any cables between the head and body. A picture of the assembled swivel head before final drilling shows how the slots overlap. The washer spacer is important and it should be wide enough to support the weight of the head.
- Holes were drilled around the perimeters of the top and bottom parts for attachment to the wire frame. Small gauge wire was used to "sew" the top and bottom sections to their respective parts of the snowman frame using every 3 or 4 holes. The washer spacer adds distance between the top and bottom to prevent these wires from binding. A lockwasher was used to connect the top and bottom through the spacer and adjusted for easy motion. Lubrication is likely not required, but certainly WD-40 could be used if necessary. The plastic material is also quite impervious to ice and snow, too -- an added benefit!
- The side-to-side head motion would be accomplished by the use of a cam lever, which allows placing a push/pull actuator elsewhere in the snowman's body and connecting the actuator to the cam. As the actuator moves the connection rod up/down, the cam translates the motion into horizontal motion. The same plastic material was used for the cam. Connecting the cam to the head was facilitated with a simple screw eye around one of the wires in the back of the head (see the top part of the plastic cam). This creates a sliding friction/wear point but as motion will be relatively slow and intermittent, it's not anticipated that significant wear will become an issue.
- The cam's attachment bracket became an exercise in extreme DIY engineering. Because one can't buy one of these anywhere on the planet, it's a fun challenge to make this work.
- A section of scrap metal was chosen as the bracket material and hammered flat. A piece of cardboard was cut to match the width of the metal and marked with locations of parts of the wire frame. After some trial-and-error folding the overall shape of the bracket started to take place.
