With the global agricultural population shortage and aging, many scientists are working on the issue of harvesting robots, hoping to solve the current population problem of agriculture. However, there are still some problems in the harvesting robots developed by the research scholars, such as: (1) excessive size and weight may cause damage to fruits. (2) the mechanism is too heavy lead to the motor need to consume more energy to drive the harvest arm. (3) the function of obstacle avoidance of robot arm is not significant. And these unfavorable factors will lead to more difficult harvesting operations. Therefore, this paper proposes a new type of strawberry harvesting arm, by means of the complex-mechanism-design to achieve the reduction of the size and weight of the arm, but also to provide the necessary torque to maintain robot arm balance. By imitating the human arm design and setting the redundant joint to achieve a higher degree of flexibility to highlight its obstacle avoidance function is better than other traditional harvesting arm. In addition, the end-effector is driven by a trigger mechanism to make up the insufficient of the shear force of cable driven , but also to retain its advantages of reducing the volume and weight. Finally, by defining an objective function, optimizes the degree of redundancy (RA) and finds the robot arm postures that save the most torque, and simulates the obstacle avoidance function by Null Space Method, to prove that the harvesting arm is proposed to achieve the function of obstacle avoidance.