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User:Jelmergu/workspace/nl

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Dit artikel gaat over de robotarmen in het algemeen. Voor de normale gele electrische robotarm , zie Inserter/nl.


'Robotarmen zijn apparaten welke gebruikt worden om items over korte afstanden te verplaatsen. Zodra ze zijn neergezet hebben ze een vaste werkrichting. Ze kunnen items vanaf hun voorkant naar hun achterkant verplaatsen. Op deze manier kunnen ze items van de ene transportband naar de andere verplaatsen, maar ook items in een machine of opslagplaats stoppen of eruit halen. .

Typen robotarmen

Burner inserter.png
Verbrandingsrobotarm
De enige brandstof verbrandende robotarm.
Inserter.png
Robotarm
De gewone electrische robotarm.
Long handed inserter.png
Verreikende robotarm
Kan items van grotere afstand oppakken en neerleggen.
Fast inserter.png
Snelle robotarm
Veel sneller dan de gewone robotarm.
Filter inserter.png
Filterrobotarm
Variant van de snelle robotarm welke items kan filteren.
Stack inserter.png
Stapelrobotarm
Even snel als de snelle robotarm, maar kan meer items per keer verplaatsen.
Stack filter inserter.png
Stapelfilterrobotarm
Variant op de stapelrobotarm.

Werking

Robotarmen zullen:

  • items van de grond, van een Transportband, uit opslag of uit, ovens en montagemachines pakken of neerleggen.
  • langzamer werken wanneer ze minder energie hebben.
  • zoveel items oppakken als hun stapelbonus toe laat, zolang het niet te lang duurt om op de items te wachten.

Robotarmen zullen niet:

  • items oppakken welke niet neergelegd kunnen worden op de neerleglocatie.
  • items oppakken om in een entiteit te stoppen met een gevulde inventaris.
  • meer dan een item op de zelfde grondtegel neerleggen.
  • items neerleggen in een entiteit welke het item niet kan bewaren, bijvoorbeeld door een gefilterde of gelimiteerde inventarislocatie.
  • de doelinventaris volledig vullen. Dit geld voor de volgende inventarissen: ketelss, nucleare reactoren,, ovens en torens.

Wanneer twee robotarmen iets vanaf dezelfde tegel proberen op te pakken, dan zal de arm welke het item het snelst kan pakken dit eerst doen. Robotarmen geven de voorkeur aan items welke het dichtst bij liggen op een transportband.

Limitaties tijdens het plaatsen

In sommige gevallen zal de robotarm de doelinventaris niet volledig vullen. Dit zorgt er voor dat andere armen welke van dezelfde band pakken ook hun deel van de items kunnen oppakken. Bijvoorbeeld, wanneer een ketel een stapel van 5 of meer brandstofitems in zich heeft, zal er geen robotarm er meer in stoppen. Dit laat brandstof doorgaan op de transportband. Zodra er minder dan 5 brandstofitems in de ketel zitten zal de robotarm weer brandstof oppakken, totdat er weer 5 in zit.

Entititeit Item type Automatische invoer limit
Ketels, verbrandingsrobotarmen, ovens, en nucleare reactoren Brandstof 5
Geschutstorens Munitie 10
Artillerie torens Artillerie patronen 5
Montagemachines, ovens, centrifuges, chemicaliënfabrieken en oilierafinaderijen Items benodigd voor het recept De ingrediënten voor 1 product, plus het aantal ingredienten wat gebruik kan worden in een keer draaien van de robotarm met een minimum van 1 extra en een maximum van 100 extra.
Laboratoria Wetenschapspakketen Dubbel het aantal voor een onderzoekseenheid.

Een robotarm met een hogere stapelbonus dan 1 kan het doelgebouw voller maken dan nodig. Dit is omdat de robotarm een hoger aantal items oppakt dan mogelijk nodig. Het kan ook komen omdat er meerdere robotarmen tegelijk items invoeren in hetzelfde gebouw.

Inserters and transport belts

Transport belts have two lanes on which items can travel. Inserters only place items onto one side of the belt, either the far side from the inserter's perspective or if the belt is going the same or the opposite direction as the inserter the right side from the belt's perspective.

Inserter dropoff locations.gif Inserter pickup locations.gif
Inserters place the item on the furthest lane. If a belt is in the same orientation as the inserter, the item will be placed on the right-hand lane, from the belt's perspective. If the item is placed on a corner piece, it will be put on the inside of the curve, regardless of orientation. Inserters prefer taking items from the nearest lane. If the nearest lane is empty, the inserter will take from the far lane. If a belt is in the same orientation as the inserter, the inserter prefers taking from the left lane, from the belt's perspective. If the left lane is empty it will take from the right lane.

Potential issues

Inserters may have problems picking up items:

  • From very fast belts, because the items are moving too quickly.
  • From the entry or exit of an underground belt (because the time they have to pick up is shorter)
  • From turning belts if the item is on the inside of the corner

Power usage

  • Electric inserters drain energy even when they are not moving, as idle power
  • The amount of energy used is the same for every turn
  • The burner inserter does not drain energy when idle, but uses more energy when it is active.

Inserter speed

Type Rotation-speed (turns per Game-tick)
Extension-speed (Tiles per Tick)
Turns per Game-second
Tiles per Game-second
Game-second per full turn
Game-seconds per Tile
Ticks per full turn
Ticks per Tile
Burner inserter.png
Verbrandingsrobotarm
0.01
0.0214
0.59
1.284
1.7
0.833
102
76
Inserter.png
Robotarm
0.014
0.03
0.83
1.8
1.2
0.56
72
54
Long handed inserter.png
Verreikende robotarm
0.02
0.0457
1.15
2.742
0.867
0.416
52
36
Fast inserter.png
Snelle robotarm
Stack inserter.png
Stapelrobotarm
Stack filter inserter.png
Stapelfilterrobotarm
0.04
0.07
2.31
4.2
0.433
0.238
26
24

Rotation Speed

Convention: 2π rad = 100% of a circle rotation = 1 turn (or one full rotation).

Note: an Inserter doesn't always need to make full turns. When grabbing from a transport belt, it is slightly faster when grabbing items from the closest lane.

Extension Speed

The extension-speed is normally not visible (only when compared to other inserters), but there are measurable speed differences when taking - for example - from the near or the far side of a belt. Also Some mods can alter the pickup and drop locations of inserters, making this stat more relevant.

Inserter Throughput

The following is based on experimental data gathered in version 0.15.

Inserter throughput between chests and other stacks is a simple function of stack size and arm speed:

n = Stack size

t_arm = Time to move the arm back and forth

Time per item = t_arm / n

Throughput (items/sec) = 1 / Time per item = n / t_arm

When moving items to or from belts, the time to pick up or put down items also becomes a factor:

t_item = Time to pick up or put down one item

t_cycle = Time to complete an arm cycle = t_arm + n*t_item

Time per item = t_cycle / n = t_item + t_arm / n

Throughput (items/sec) = 1 / (t_item + t_arm / n)

Note: Before 0.15.14, inserters were 1-4% less efficient when moving items from south to north.

Chest to chest

Type Arm cycles per second Items/second at capacity bonus level (stack size)
No capacity bonus Capacity bonus 2 Capacity bonus 7
Burner inserter.png
Verbrandingsrobotarm
0.59 0.59 (1) 1.18 (2) 1.76 (3)
Inserter.png
Robotarm
0.83 0.83 (1) 1.67 (2) 2.50 (3)
Long handed inserter.png
Verreikende robotarm
1.15 1.15 (1) 2.31 (2) 3.46 (3)
Fast inserter.png
Snelle robotarm
Filter inserter.png
Filterrobotarm
2.31 2.31 (1) 4.62 (2) 6.93 (3)
Stack inserter.png
Stapelrobotarm
Stack filter inserter.png
Stapelfilterrobotarm
2.31 4.62 (2) 9.23 (4) 27.70 (12)

Chest to belt

Throughput going from chest to belt depends on how full the belt is and how the items are spaced, i.e. if spaces are large enough to fill with items. Underground entrances and exits also makes it easier for the inserter to put down an item.

In these measurements inserters move items onto an empty perpendicular belt. Values are given for the stack sizes at three different capacity bonus levels.

Type Items/second at capacity bonus level (stack size)
No capacity bonus Capacity bonus 2 Capacity bonus 7
Transport belt.png Fast transport belt.png Express transport belt.png Transport belt.png Fast transport belt.png Express transport belt.png Transport belt.png Fast transport belt.png Express transport belt.png
Burner inserter.png
Verbrandingsrobotarm
0.59 0.59 0.59 (1) 1.10 1.13 1.14 (2) 1.53 1.62 1.67 (3)
Inserter.png
Robotarm
0.83 0.83 0.83 (1) 1.52 1.58 1.60 (2) 2.05 2.22 2.31 (3)
Long handed inserter.png
Verreikende robotarm
1.15 1.15 1.15 (1) 2.03 2.14 2.18 (2) 2.65 2.95 3.10 (3)
Fast inserter.png
Snelle robotarm
Filter inserter.png
Filterrobotarm
2.31 2.31 2.31 (1) 3.64 4.00 4.14 (2) 4.29 5.14 5.63 (3)
Stack inserter.png
Stapelrobotarm
Stack filter inserter.png
Stapelfilterrobotarm
3.64 4.00 4.14 (2) 4.71 6.15 6.86 (4) 5.90 9.60 12.20 (12)

To calculate the throughput for Stack inserter and Stack filter inserter at any capacity level, you can use these linearly fitted factors with the belt/chest throughput formula above:

Type
Transport belt.png
Transportband
Fast transport belt.png
Snelle transportband
Express transport belt.png
Expresstransportband
t_item t_arm t_item t_arm t_item t_arm
Stack inserter.png
Stapelrobotarm
Stack filter inserter.png
Stapelfilterrobotarm
0.142 0.292 0.073 0.360 0.049 0.384

See the source spreadsheet for the corresponding factors for the other inserter types. Their errors are generally well below 1%.

Belt to chest

When picking items from a belt, many more factors come into play besides belt fullness:

  • How fast the items move (i.e. if they are queued up on the belt or move at belt speed).
  • Whether the belt is perpendicular to the inserter or approaches it head on.
  • Whether items are on the near or far lane of a perpendicular belt.
  • Whether the belt turns or not, and whether the items are in the inner or outer side of the bend.
  • If the belt is an underground entrance or exit. This shortens the time items are visible to the inserter for pickup.
  • All sorts of intricate timing factors between the inserter and the items on the belt, since the game simulates the arm homing in on every item.

The test setup used below is with an inserter taking items from a perpendicular belt with items on the far lane only. The belt is fully compressed and timings are both for items that move at full speed and queued up as much as possible. Values are given for the stack sizes at three different capacity bonus levels.

Type Items/second at capacity bonus level (stack size)
No capacity bonus Capacity bonus 2 Capacity bonus 7
Items at
belt speed
Items
queued
up
Items at
belt speed
Items
queued
up
Items at
belt speed
Items
queued
up
Transport belt.png Fast transport belt.png Express transport belt.png Transport belt.png Fast transport belt.png Express transport belt.png Transport belt.png Fast transport belt.png Express transport belt.png
Burner inserter.png
Verbrandingsrobotarm
0.56 0.56 0.51 0.65 (1) 1.11 1.07 0.98 1.18 (2) 1.43 1.54 1.43 1.75 (3)
Inserter.png
Robotarm
0.83 0.74 0.77 0.90 (1) 1.57 1.48 1.45 1.62 (2) 2.00 2.11 2.07 2.40 (3)
Long handed inserter.png
Verreikende robotarm
1.16 1.11 1.11 1.22 (1) 2.22 2.22 2.11 2.31 (2) 3.08 3.08 3.16 3.33 (3)
Fast inserter.png
Snelle robotarm
Filter inserter.png
Filterrobotarm
2.22 2.22 2.14 2.40 (1) 4.17 3.81 4.00 4.29 (2) 5.71 5.45 5.46 6.21 (3)
Stack inserter.png
Stapelrobotarm
Stack filter inserter.png
Stapelfilterrobotarm
4.17 3.81 4.00 4.29 (2) 6.67 6.67 6.15 6.67 /
7.50 /
7.74 *
(4) 6.67 10.00 12.00 6.67 /
11.61 /
13.58 *
(12)

*) Throughput for basic/fast/express belt.

Since there are many more factors involved, these measurements exhibit a more complex pattern than chest-to-belt.

  • Boldface cells show for which belt each inserter has the best throughput on each bonus level when items move at belt speed. Higher speed belts mean that inserters have to work harder to catch the fast moving items. The effect is most noticeable for slower inserters and smaller stack sizes.
  • When items are queued up the belt type hardly matters, so there is only a single column for that. The exceptions are the stack inserters - for basic transport belts it's the belt that sets the limit for stack sizes above 4, and there is also a notable difference between fast and express belts.

Here are linearly fitted factors to get the Stack inserter and Stack filter inserter throughput at any capacity level, by using the belt/chest throughput formula above:

Type
Transport belt.png
Transportband
Fast transport belt.png
Snelle transportband
Express transport belt.png
Expresstransportband
t_item t_arm t_item t_arm t_item t_arm
Stack inserter.png
Stapelrobotarm
Stack filter inserter.png
Stapelfilterrobotarm
0.045* 0.403* 0.063 0.387 0.049 0.416

*) Since the belt is the limiting factor above stack size 4, these figures are only accurate up to that size. More than that and the throughput is fixed at 6.67 items per second.

See Also