v50 Steam/Premium information for editors
  • v50 information can now be added to pages in the main namespace. v0.47 information can still be found in the DF2014 namespace. See here for more details on the new versioning policy.
  • Use this page to report any issues related to the migration.
This notice may be cached—the current version can be found here.


From Dwarf Fortress Wiki
Revision as of 19:53, 24 October 2013 by Loci (talk | contribs) (+quote format)
(diff) ← Older revision | Latest revision (diff) | Newer revision → (diff)
Jump to navigation Jump to search
This article is about an older version of DF.

Mechanisms can be created by a Mechanic at a Mechanic's workshop out of a stone, or at a Metalsmith's forge from 1 bar of weapons-grade metal (silver, copper, bronze, bismuth bronze, iron, steel, or 3 adamantine wafers). In the Metalsmith's forge menu, they are found under trap components. Unlike when making other trap components, making metal mechanisms at a forge requires the Mechanics labor. Stone mechanisms are made from any type of stone (even supposedly soft minerals as gypsum or talc).

Building traps, levers, pressure plates, and gear assemblies requires one mechanism. Linking objects to a lever or pressure plate requires two mechanisms per linked item - one for the linked object, and one for the trigger (the lever or pressure plate). The only way to recover either of these mechanisms is to deconstruct the object linked via that mechanism.

When designating linkages, the first mechanism chosen will be attached to the building, while the second will be attached to the trigger (pressure plate or lever). This can be important when trying to minimize the use of magma-safe materials in a structure that will be exposed to high temperature.

Mechanics will install mechanisms. Mechanisms can be linked to objects at any distance and do not require a connection between them.

Mechanisms for use in magma must be magma safe, otherwise they will be destroyed (whether by melting or by burning) and the object to which they are linked will deconstruct.

Mechanisms make surprisingly good trade items due to their high base value of 30. In comparison to other crafts they are heavy, making them less than ideal when trading with races that do not bring wagons. Levers and gear assemblies make good room decorations, as they have a greater base value than that of statues and windows.

Mechanisms count as furniture. Because of this, the Jeweler's workshop job encrust furniture with [gem] may encrust mechanisms with gems instead of more useful furniture.

Mechanism quality determines the skill with which the weapon is "swung" or "fired" by the weapon trap, and affects all the rolls. [1] It does not affect how quickly a trap refires or the probability of the trap jamming.

D4Dwarf.png This article or section has been rated D for Dwarf. It may include witty humour, not-so-witty humour, bad humour, in-jokes, pop culture references, and references to the Bay12 forums. Don't believe everything you read, and if you miss some of the references, don't worry. It was inevitable.

It is unclear exactly how two (or more) mechanisms talk to each other at a distance without building direct mechanical or electronic channels between them (such as a wire), and given that the Dwarves have not discovered radio technology, it is believed by some that the Dwarves have actually discovered how to implement and control quantum entanglement on a non-quantum scale.

"I've always wondered," Lór said, "How do those mechanisms work?"

"Well, I put one here on the lever, and the other on the bridge," explained Urist. "When someone pulls the lever, the bridge goes up."

"Yes, but how? How does the one at the bridge know the lever's been pulled?"

"It's quantum. Quantum tanglement. See how this one's all tangled with the lever? Well, the other's tangled with the bridge."

"What does that have to do with quantum?"

"There's one of them, see? That's what quantum means, is one."

"But there's two."

"Yah, two ones. And they're tangled."

Lór thought for a moment.

"I'm not sure that's how it works."

"Well, don't check. It might stop."