Device and method for measuring hairiness and hair ball state and pulling-off force of fabric

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Problems solved by technology

[0004] 2. After the sample is rubbed, it is evaluated by manual visual inspection, and the error is large
[0005] 3. At present, silicone is widely used in the finishing of knitted fabrics. After the woven sheet with silicone rubs against the cork board in the drum, the cork board is stained, and the cork board becomes smooth quickly, and the friction force gradually decreases until it disappears. Seriously affect the accuracy of the test and the reproducibility of the test
[0008] 2. The friction time of the instrument is long, the sample area for the test is small, and the representativeness is poor
[0009] 3. The error of visual rating or weighing rating after friction is large
[0010] 4. Raw materials with different fineness and blending ratio have different densities with different knitting machines, so it is difficult to formulate feasible standards
[0011] 5. The abrasive used can only use felt cloth imported from the UK, which is expensive and difficult to adapt to the friction requirements of different raw materials
[0013] Since it is only a static evaluation of the fabric, and it is aimed at the evaluation of the pilling results, it lacks objectivity and intuition
On the other hand, the friction time of the instrument is long, the area of ​​the woven piece used for the test is small, and the representativeness of the sample is poor. After friction, both the qualitative visual method and the quantitative method of weighing the cut feather and badminton have relatively large errors.

Method used

the structure of the environmentally friendly knitted fabric provided by the present invention; figure 2 Flow chart of the yarn wrapping machine for environmentally friendly knitted fabrics and storage devices; image 3 Is the parameter map of the yarn covering machine
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  • Device and method for measuring hairiness and hair ball state and pulling-off force of fabric
  • Device and method for measuring hairiness and hair ball state and pulling-off force of fabric
  • Device and method for measuring hairiness and hair ball state and pulling-off force of fabric

Examples

Experimental program
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Effect test

Embodiment 1

[0117] Using the device of the present invention, such as Figure 1~5 Shown, the measurement of the process friction sample in the first step to the fourth step is done for the pilling of the all-wool woven fabric whose yarn count is Nm48 / 2, and its measurement conditions and actual measurement results are shown in the following table embodiment 1 column See the process friction sample measurement curve of the fourth step Image 6 . The symmetrical back and forth rotation of the cloth sample cylinder 1 is adopted, that is, the forward rotation forward angle is equal to the rotation of the reverse receding angle, and the rotation angle is 45°; the supporting reciprocating movement distance is 8cm, so that the friction block 31 is opposite to the fabric on the cloth sample cylinder 1. As Li Sharu curve friction. From the measured results, it can be seen that the plush effect of the initial sample of the all-wool woven fabric is normal, that is, the average height of the initia...

Embodiment 2

[0119] Adopt device of the present invention with embodiment 1, as Figure 1~5. A full set of measurement and calculation results from the first step to the fifth step are made on the pilling of cashmere knitted fabric with a yarn count of Nm48 / 2, and the results of the initial sample, process rubbing sample and final rubbing sample of the tested cloth sample are obtained. Pilling results, and respectively, one by one analysis and final comprehensive evaluation, its measurement parameters and actual measured final friction sample results are shown in the following table embodiment 2 column and the process friction sample measurement curve of the fourth step is shown in Figure 7 . Adopt the independent asymmetric back and forth rotation of the cloth sample cylinder 1, that is, the advancing angle is 90° and the retreating angle is 85°, so that the friction block 31 rubs the cashmere knitted fabric on the cloth sample cylinder 1 vertically back and forth. It can be seen from ...

Embodiment 3

[0121] Adopt device of the present invention with embodiment 1, as Figure 1~5 shown. For wool-polyester sweaters with a yarn count of Nm32 / 2, under the same experimental conditions and deducting the influence of the equal-tension package sample, the second step of initial sample measurement and the fifth step of final friction sample measurement and calculation are obtained. Comprehensive evaluation of the pilling properties of the tested fabric samples. Its measurement condition parameter and measured result see the following table embodiment 3 columns. Use the friction block 31 to reciprocate independently to make a horizontal reciprocating friction sample preparation on the wool-polyester sweater fabric, and the reciprocating distance is 3.0 cm. From the measured results, it can be seen that the wool-polyester sweater fabric has a normal fluff effect in the initial sample, that is, the average height of the initial hairiness is 1.9mm|4mm and the percentage of hairiness h...

the structure of the environmentally friendly knitted fabric provided by the present invention; figure 2 Flow chart of the yarn wrapping machine for environmentally friendly knitted fabrics and storage devices; image 3 Is the parameter map of the yarn covering machine
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PUM

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Abstract

The invention relates to a device and method for measuring the hairiness and hair ball state and pulling-off force of fabric. The device is composed of a cloth sample barrel of rolled fabric, a rotating mechanism driving the cloth sample barrel, a friction mechanism enabling a cloth sample to be in a pilling state, a pulling-off mechanism clamping and pulling hairiness and hair balls off, an optical measuring system used for observing the hairiness and ball top state of the cloth sample, a collecting and weighing mechanism used for collecting and weighing falling fiber and ball tops, a data collection and control system and a computer. The method comprises the steps of measuring the height and the amount of the hairiness and the size and the number of the ball tops after the cloth sample is packaged in a rolling mode with the same tension, sampling through rubbing to enabling the cloth sample to be in the pilling state, and measuring the amount of the hairiness of a friction sample which is in process and is finished , the number of the ball tops of the friction sample which is in process and is finished, the pulling-off force of the friction sample which is in process and is finished and the abrasion amount of the hairiness and the ball tops of the friction sample which is in process and is finished at the same time. The device and method are exquisite, practical, accurate and quantitative. The purposes that one machine is used for multiple purposes, and multiple indexes are measured at one time are achieved. The device and method can be used for sampling pilling fabric, measuring the amount of the hairiness, the number of the ball tops, the pulling-off force and the abrasion amount of the hairiness and the ball tops and comprehensively analyzing and assessing.

Description

technical field [0001] The invention relates to a device for measuring the apparent hairiness of fabrics, the shape of hairballs and the pull-off force, and an evaluation method for predicting the pilling resistance of textiles. Textile quality evaluation and testing technology field. Background technique [0002] Pilling is a major appearance defect of the fabric, which is gradually exposed during wearing and use. Commonly used fabric pilling performance measurement devices and instruments are: domestic YG511 pilling tester, British ICI pilling tester, the basic principle and structure are the same. It wraps the fabric to be tested on a rubber roller, and puts it into a hexahedron drum whose inner wall is a cork board and rolls freely. After taking it out at regular intervals, compare it with the photo standard sample and evaluate the grade. The disadvantages of this method are: [0003] 1. It takes time to occupy an area, and it must be equipped with knitting machines ...

Claims

the structure of the environmentally friendly knitted fabric provided by the present invention; figure 2 Flow chart of the yarn wrapping machine for environmentally friendly knitted fabrics and storage devices; image 3 Is the parameter map of the yarn covering machine
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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01D21/02G01N33/36
Inventor 于伟东万爱兰刘洪玲王婷华新忠陆卫国
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