1.2 Mechanical specifications
1-25
1. Specifications
Duty ratio
The duty ratio is the operating rate, shown in %, of the actuator operating time within one cycle.
As the reference for duty available to use may differ depending on the operation conditions
(payload, acceleration/deceleration, etc.), it is necessary to figure out the load factor LF and
acceleration/deceleration time ratio t
od
using the calculation formulae below and find it out from
the graph.
1) Figure out the load factor LF using the calculation formulae below.
Maximum payload at the acceleration 0.3 G is described in 1.2 Mechanical specifications.
2) Figure out the acceleration/deceleration time ratio t
od
using the calculation formulae
below.
【指令加減速度が定格加減速度以上の場合】【指令加減速度が定格加減速度以下の場合】
負荷率 : LF = =
指令加速度の可搬質量:M
d
〔kg〕
動作時の搬送質量 :M〔kg〕
動作時の加減速度 :α〔G〕
M×α
M
d
×α
M
M
d
負荷率 : LF = 〔%
%〕
定格加速度の最大可搬質量:M
r
〔kg〕
定格加減速度 :α
r
〔G〕
動作時の搬送質量 :M〔kg〕
動作時の加減速度 :α〔G〕
M×α
M
r
×α
r
Max. payload at acceleration 0.3 G : M
r
[kg]
Payload during operation : M [kg]
Acceleration during operation : α [G]
Load factor LF = [%]
Load factor LF = = [%]
Payload at Indicated acceleration : M
d
[kg]
Payload during operation : M [kg]
Acceleration during operation : α [G]
M × α
M
r
× 0.3
M × α
M
d
× α
M
M
d
Acceleration [mm/s
2
] = Acceleration [G] × 9,800 mm/s
2
Deceleration [mm/s
2
] = Deceleration [G] × 9,800 mm/s
2
Acceleration/deceleration time ratio t
od
=
Acceleration time during operation
+ deceleration time during operation
Duration of operation
[%]
sec
[sec]
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