Sample limiting and folding device for in-situ detection of fabric wrinkle resilience and detection method
A wrinkle recovery, in-situ detection technology, applied in the direction of measuring devices, mechanical devices, instruments, etc., can solve the problems of waste of manpower, low accuracy of test results, poor accuracy, etc., to save manpower waste, improve detection efficiency and The effect of accuracy
Active Publication Date: 2022-01-07
JIANGNAN UNIV
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Problems solved by technology
These traditional methods have shortcomings such as low accuracy, poor precision, and strong subjectivity of test results.
In addition, the entire fabric wrinkle recovery angle detection process requires the full participation of testing personnel, which is a waste of manpower and cannot meet the testing needs of large batches of samples.
Method used
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[0030] In order to make the purpose, technical solution and advantages of the present invention clearer, the present invention will be further described in detail below in conjunction with the accompanying drawings and the technical solution.
[0031] A sample limit folding device for in-situ detection of fabric wrinkle recovery, including a folding structure and an adsorption structure;
[0032] The folding structure includes a primary cylinder 7, a secondary cylinder 8, a linear slide rail 6, a sample limiting plate 12, a gasket 2, a gasket cylinder 1, and an electromagnet 3.
[0033] The first-stage cylinder 7 is connected with the second-stage cylinder 8, the lower end of the second-stage cylinder 8 is connected with the top of the linear slide rail 6, and the right side of the second-stage cylinder 8 is connected with the left pressure plate 9, so that the left pressure plate 9 can be moved to the right Advance or move left.
[0034] The right pressing plate 10, the samp...
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The invention belongs to the field of textile performance detection and particularly relates to a sample limiting and folding device for in-situ detection of fabric wrinkle resilience and a detection method. The device comprises a folding structure and an adsorption structure, wherein the folding structure is composed of a first-stage air cylinder, a second-stage air cylinder, a linear sliding rail, a sample limiting plate, a gasket, a gasket air cylinder and an electromagnet; the adsorption structure is composed of a vacuum suction nozzle and a vacuum adsorption air cylinder; one side of the sample is adsorbed on the device through a vacuum port in the right pressing plate; the electromagnet tightly attaches the gasket and the right pressing plate to fix one end of the sample; the left pressing plate is pushed rightwards or removed leftwards on the linear sliding rail through the first-stage air cylinder and the second-stage air cylinder on the left side, and pressing and unfolding of the sample are achieved. According to the device, non-contact sample folding in the whole process is realized, objectivity of a detection result can be improved, and detection efficiency and accuracy are improved by an automatic machine detection process.
Description
technical field [0001] The invention belongs to the field of textile performance detection, and in particular relates to a sample limit folding device and a detection method for fabric wrinkle recovery in-situ detection. Background technique [0002] At present, the wrinkle recovery of main fabrics mainly uses Shirley, SDL-M003 and other wrinkle recovery angle testers to manually detect the wrinkle recovery angle of fabrics. These methods need to manually fold the sample first, then use a pressurizing device to press the sample, and finally transfer the sample The wrinkle recovery angle was read by manual visual inspection in the angle reading instrument. These traditional methods have the disadvantages of low accuracy, poor precision, and strong subjectivity of the detection results. In addition, the entire fabric wrinkle recovery angle detection process requires the full participation of testing personnel, which is a waste of manpower and cannot meet the testing requireme...
Claims
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IPC IPC(8): G01N19/00G01B21/22
CPCG01N19/00G01B21/22
Inventor 王蕾唐千惠潘如如高卫东
Owner JIANGNAN UNIV