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可可豆可以生长在任何丛林木的侧面,无论光照水平,需要1格占用的空间。丛林木不需要被种植到活的树,只要收获任何丛林木都可以种植,因此它很容易创建可可豆的大农场砍丛林生长的树木和安排木优化空间。

Video

Farming

这是一种最优的非自动可可豆农场的安排方式:

你可以使用这种方式来建造一个更大的农场(横纵之间需要有1格的间隔). 垂直种植可以提供更大的空间和更高的效率, 然是这样的布局会给种植和收割带来大麻烦. 记住,你的手可以采集的范围无法超过6格上/4格下,所以最方便的设计应该是地上6层,地下4层,这样你就可以在地面上原地采摘.

可可豆被活塞推动时会掉落,如果可可豆的支撑方块(丛林木)被活塞推动也会造成可可豆的掉落,如果水流经过可可豆,可可豆同样会掉落,如果可可豆拾取支撑方块同样会掉落.这些方法都可以用来制作自动收获的机器. (TNT同样可以使可可豆掉落,但是这种方法太昂贵且不容易控制.)

另外,制作一堵丛林木墙也是很好的方法, 把每一个地方都种上可可豆. 这样的布局对于收割和采摘来说是很简单的, 因为你只用在二维空间进行工作.

但是可可豆的生长速度比较快,加上可可豆目前还没有什么大用处,所以说大型可可豆农场没有什么必要. Pods grow quickly, achieving maturity in minutes, each yielding up to 3 beans, each bean making 8 cookies or dying 1 wool brown. At about 80% Pod maturity you will almost always see at least a 200% return on your planting, making it almost trivial to obtain all the beans you may want.

Mechanisms

No designs for a fully automatic farm are available at this time, as you are required to manually place Cocoa Beans on the Jungle Wood to plant Pods, however semi-automatic farms that harvest automatically but still require manual planting are possible and relatively cheap to build.

Currently there are two major variations of the semi-automatic farm, piston harvested and water harvested.

Piston harvested farms use a single "trunk" of Jungle Wood, planted on all 4 sides with Cocoa Plants. Pistons either push the trunk, causing the grown beans to be removed, or scrape the beans from the trunk. (Other designs raise and lower the trunk in rapid succession; but these utilize more complex redstone circuits and are not significantly more useful, cheap or efficient than simpler designs.) Piston designs suffer from universally low yields, somewhat expensive and complex circuit design (compared to alternatives) and general space inefficiency.

Water harvested farms may also have a single block trunk of some height, but a much higher yield is possible by building walls and allowing the water to cascade over them to scrape off the pods.

Wall design

Planting cocoa beans on the 4 sides of a log makes it harder to replant, so a wall of jungle wood makes the fastest design possible. For a compact design the wall must be also partially underground so as to make the most out of your planting reach. This design uses dispensers, that are cheaper than other design's pistons, and the use of redstone is minimum. The design is modular, with units of one dispenser and 3 blocks wide wall.

The following video shows a functional 4 modules design of this farm:

Piston column design

This design by MonkeyFarm uses pistons to harvest the cocoa beans. A piston moves the wood column up while another moves it back down, removing the cocoa beans from the tree. It is a bit more resource expensive however equally compact.

Note: The top repeater needs to be on the last tick for it to work.

Wall design with water

This design is theoretically scalable to any size wall and utilizing only one piston and a number of redstone torches equivalent to (wall width / 2) Example uses 2 7x7 walls placed in a 3x17x1 ditch to catch water runoff. There are 210 possible growth points, yielding nearly 10 stacks of beans at maximum growth.

Efficientcocoafarm

This design exploits the fact that water will propagate infinitely so long as it flows downhill first, allowing a single water block and single piston to cover any width of wall. This design is based on MinecraftMaximizer's (at the bottom of this page) but is considerably more space and material efficient, using a piston rather than a dispenser to release the water. (Dispenser designs require 2 toggles, 1 to release the water, 1 to stop it, piston designs can work by a single button press.) It does require more redstone than Maximizer's, which only uses 1 dust in the dispenser, with the advantage to this design being that it can be triggered from the ground.

Bulky efficient design

A large and rather bulky mechanism may be created in a 7x7x3 with an inner stem of three Jungle logs all covered with planted Cocoa Plants. Four three-block tall towers of pistons on the corners of the logs facing the plants with NOT gates connected to the bottom torches may be used to create a peak efficient farm.

Compact design

A more compact 3x4x4 mechanism but with 3/4 of the efficiency of the 7x7x3 model may be made with, again, a three Jungle log stem. However, one side of the log stem is connected to Sticky Pistons with a block on the side of the middle piston. A torch is placed under the block and Redstone is placed on top, then a lever is added to the block under the torch. To complete, plant Cocoa Plants on the three remaining sides of the Jungle log stem and wait for them to grow. A flip of the lever and the Cocoa Beans can be harvested.

Water column design

For Efficiency of space, as jungle wood is very common in a jungle biome, there is no reason to make a farm solely based on wood surface efficiency. The efficiency should rather be of space, and amount of materials used. Using water as a harvesting mechanism provides a far more compact solution, uses less materials, and can extend the farm beyond the single-column versions seen above. A great example of this type of farm can be seen in MinecraftMaximizer's and MikiMiner's designs.

Simple water flush design

This design has a low resource cost (except for dispensers) and does not take up much space, making it good for underground farming.


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