Abstract: The present disclosure relates to an identification method of volatile flavor compounds in meat and use thereof in meat line identification. The identification method includes the following steps: step 1, sample treatment: selecting meat samples for incubation; step 2, sample analysis: analyzing gas samples of the meat samples obtained in step 1 by gas chromatography-ion mobility spectrometry (GC-IMS); and step 3, data analysis: qualitatively analyzing compounds using Library Search software of a gas chromatograph-ion mobility spectrometer to obtain a composition and peak intensities thereof, and establishing visual fingerprints according to data of relative ion peak intensities of the gas samples. According to the method, the trace volatile flavor compounds in the meat can be rapidly identified, featuring stable results, short analysis time, and visualization.
Abstract: A fully automatic peanuts peeling robot for seeds retention and a method using the same are provided. The robot includes a processing mechanism, a feeding mechanism and a screening mechanism. The processing mechanism includes an aluminum profile support bracket, a bracket assembly, a conveyor belt device, and a conversion device, a sensor device and a cut-off device; the aluminum profile support bracket is fixedly connected to the bracket assembly; the bracket assembly includes a first bracket assembly, a second bracket assembly, and a third bracket assembly; and the aluminum profile support bracket is fixedly connected to the conveyor belt device; the conveyor belt device includes a first conveyor belt assembly, a second conveyor belt assembly, and a third conveyor belt assembly; the conveyor belt device is fixedly connected to the conversion device.
Abstract: A fully automatic peanuts peeling robot for seeds retention and a method using the same are provided. The robot includes a processing mechanism, a feeding mechanism and a screening mechanism. The processing mechanism includes an aluminum profile support bracket, a bracket assembly, a conveyor belt device, and a conversion device, a sensor device and a cut-off device; the aluminum profile support bracket is fixedly connected to the bracket assembly; the bracket assembly includes a first bracket assembly, a second bracket assembly, and a third bracket assembly; and the aluminum profile support bracket is fixedly connected to the conveyor belt device; the conveyor belt device includes a first conveyor belt assembly, a second conveyor belt assembly, and a third conveyor belt assembly; the conveyor belt device is fixedly connected to the conversion device.