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Design and study of a new high-precision six-dimensional force sensor
- Categories:Technical knowledge
- Time of issue:2020-01-21 16:06
(Summary description)
Design and study of a new high-precision six-dimensional force sensor
(Summary description)
- Categories:Technical knowledge
- Time of issue:2020-01-21 16:06
- Views:
Information
Traditional single-dimensional force sensors are no longer sufficient to meet the needs of modern production and technology, and six-dimensional force sensors are receiving increasing attention from academics.
Six-dimensional force sensors are capable of measuring forces and moments in six directions simultaneously, and are widely used in robot arms, aerospace, biomedical and other fields. However, there are many problems with the six-dimensional force sensors studied at this stage, and there is an urgent need for further research on high-precision and high-sensitivity sensors.
This paper combines theoretical analysis, finite element simulation and simulation experiments, based on existing sensor research, to optimize the structure of the sensor analysis, to propose a new high-precision six-dimensional force sensor, the main research content includes: 1, in depth analysis of the sensor performance, explore the sensor performance with the sensor geometric parameters of the change law. A new composite beam type six-dimensional force sensor structure is proposed. The sensor structure is simple, and the deformation is obvious, and the patch position is easy to operate. The optimal dimensional parameters of the sensor are also determined by means of orthogonal tests and finite element simulations.
2. Using abaqus analysis software to establish the model of the sensor, and the static analysis of the sensor, dynamic analysis. The strain distribution of the sensor under the external load and the inherent frequency of the sensor in the first six orders were obtained. The results show that the linearity of the sensor is good.
3. Based on the basic principle of Wheatstone bridge, the cloth of the six-dimensional force sensor was determined. Based on the results of the finite element analysis, the maximum deformation region of the elastomer is determined. In combination with the symmetry of the sensor structure, a reasonable patch is made and the output is increased appropriately. The inter-dimensional coupling problem of the six-dimensional force sensor is reduced in the patch.
4. Development of a special calibration device for the sensor. According to the structure and shape of the sensor, a special sensor calibration device is designed. Based on the results of the simulation experiments, the sensor is decoupled and studied. The least squares method and the BP neural network method were used to calculate the relationship between them and to complete the calibration study of the sensor. The study shows that the BP neural network method has a better decoupling effect.
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