Design of a Teat Cup Attachment Robot for Automatic Milking Systems

Automatic milking systems (AMSs) for medium and large dairy farms in China require manual assistance to attach the teat cup, which greatly affects the milking efficiency and labor costs. In this regard, it is necessary to realize the automatic completion of cow teat attachment work. To address this...

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Published inAgriculture (Basel) Vol. 13; no. 6; p. 1273
Main Authors Wang, Chengjun, Ding, Fan, Ling, Liuyi, Li, Shaoqiang
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.06.2023
Subjects
Accuracy
agriculture
Algorithms
AMS
Animal husbandry
Attachment
Cattle
China
cows
Dairy cattle
Dairy farming
Dairy farms
deep learning
Design
Design parameters
Dynamic response
Efficiency
Energy consumption
Farms
labor
Labor costs
Manipulators
Milk
Milking
Robotics
Robots
simulation design
teat cup attachment robot
TRIZ
China
Germany
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Abstract Automatic milking systems (AMSs) for medium and large dairy farms in China require manual assistance to attach the teat cup, which greatly affects the milking efficiency and labor costs. In this regard, it is necessary to realize the automatic completion of cow teat attachment work. To address this issue, the authors developed a teat cup attachment robot for an AMS based on the theory of the solution of inventive problems (TRIZ). Specifically, we developed an enhanced algorithm for teat detection and designed a six-degree-of-freedom manipulator with integrated drive control. The design parameters were simulated and analyzed to validate their efficacy, while the rationality of the manipulator’s movement during teat cup attachment was verified. The maximum displacement and angle error of the cup was 1.625 mm and 1.216 mm, respectively, as verified by the teat cup attachment error test. A dynamic response test showed that the manipulator could follow the teat of the cow in real time. The attachment time for teat cups was 21 s per cow, with a success rate of 98%. The performance of the teat cup attachment robot was capable of meeting the automatic attachment teat cup needs for medium and large dairy farms during milking.
AbstractList Automatic milking systems (AMSs) for medium and large dairy farms in China require manual assistance to attach the teat cup, which greatly affects the milking efficiency and labor costs. In this regard, it is necessary to realize the automatic completion of cow teat attachment work. To address this issue, the authors developed a teat cup attachment robot for an AMS based on the theory of the solution of inventive problems (TRIZ). Specifically, we developed an enhanced algorithm for teat detection and designed a six-degree-of-freedom manipulator with integrated drive control. The design parameters were simulated and analyzed to validate their efficacy, while the rationality of the manipulator’s movement during teat cup attachment was verified. The maximum displacement and angle error of the cup was 1.625 mm and 1.216 mm, respectively, as verified by the teat cup attachment error test. A dynamic response test showed that the manipulator could follow the teat of the cow in real time. The attachment time for teat cups was 21 s per cow, with a success rate of 98%. The performance of the teat cup attachment robot was capable of meeting the automatic attachment teat cup needs for medium and large dairy farms during milking.
Audience Academic
Author Wang, Chengjun
Ding, Fan
Ling, Liuyi
Li, Shaoqiang
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StartPage 1273
SubjectTerms Accuracy
agriculture
Algorithms
AMS
Animal husbandry
Attachment
Cattle
China
cows
Dairy cattle
Dairy farming
Dairy farms
deep learning
Design
Design parameters
Dynamic response
Efficiency
Energy consumption
Farms
labor
Labor costs
Manipulators
Milk
Milking
Robotics
Robots
simulation design
teat cup attachment robot
TRIZ
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