KR20100109068A - The complex tester of textile - Google Patents

Abstract

PURPOSE: A complex tester of textile is provided to enable anyone to conveniently use to test textile by simultaneously measuring the various property of textile in the manufacturing steps of textile. CONSTITUTION: A complex tester of textile comprises a cutter(110), a first measuring unit(120), a second measuring unit(130), a third measuring unit(140), a fourth measuring unit(150), a fifth measuring unit(160) and a sixth measuring unit(170). The cutter cuts one part of the textile for material property measurement. The first measuring unit measures the tensile strength and elongation ratio of the cut textile. The second measuring unit measures the thickness of the cut textile. The third measuring unit measures the tear strength of the cut textile. The fourth measuring unit measures the weight of the cut textile. The fifth measuring unit measures the density of the cut textile. The sixth measuring unit measures the stiffness of the cut textile.

Description

The complex tester of textile

The present invention relates to a complex tester that can measure the quality of the fabric simply and quickly, and more specifically, to take a sample of the fabric during the manufacturing process and to substitute the complex tester with a quality standard, and to the fabric for commercialization Fabric composite tester that can determine the sum or part of whether it meets the required quality standards (tensile strength, elongation, thickness, tear strength, weight, density, stiffness, etc.) through one tester on the spot It is about.

In general, when fabric is manufactured in a factory, it is tested whether the properties of the fabric (tensile strength, elongation, thickness, tear strength, weight, density, stiffness, etc.) meet the quality standards for commercialization. .

In this case, if the physical properties of the fabric does not meet the quality standards, it is necessary to discard the fabric manufactured due to the characteristics of the fabric and to re-research or change or modify the production process line of the fabric to meet the quality standards, one commercialization There was a problem that is accompanied by a lot of time and economic burden to produce a possible fabric.

In addition, in order to measure the properties of the fabric, separate equipment or a laboratory that can measure tensile strength, elongation, thickness, tear strength, weight, density, and stiffness, etc. The company had to pay a special fee and ask for it.

In this case, the equipment for measuring the physical properties corresponds to expensive equipment in terms of price, and there was a problem in that a professional manpower must be arranged to operate the equipment.

In addition, it takes a long time to be notified of the result when the physical property is requested to an external professional company, and thus there was a problem of operating loss due to delay in product sales immediately.

In addition, in the case of requesting the physical property measurement to a foreign specialized company, the trade secrets of the company is leaked to the outside, the product of the same quality of competitors appeared, there was a problem in the marketability.

The present invention has been made to solve the above problems, in the manufacturing step of the fabric to provide a complex tester that can quickly and simply measure the various physical properties of the fabric at the same time, to determine the sum and part do.

The present invention for achieving the above object, a cutting machine for cutting a certain portion of the fabric for the measurement of physical properties, a first measuring unit for measuring the tensile strength and elongation of the cut fabric, measuring the thickness of the cut fabric A second measuring unit for measuring, a third measuring unit for measuring the tear strength of the cut fabric, a fourth measuring unit for measuring the weight of the cut fabric, and a material for measuring the density of the cut fabric And a measuring unit, a sixth measuring unit for measuring the stiffness of the cut fabric, and a cutting machine and a plate for providing the measuring units.

Preferably, the cutter is in small form, is provided on one side of the plate.

Preferably, the first measuring unit is fixed to a fixed position for fixing the cut fabric on both sides and the fixed position of the upper surface of the plate is connected to the fixing means, to adjust the stress applied to the cut fabric It includes a stress control means for.

Preferably, the stress control means is provided with a spring.

Preferably, the second measuring unit protrudes in a vertical direction at a predetermined position of the upper surface of the plate, the scale is formed on the protruding portion thickness unit.

Preferably, the fifth measuring unit further includes a convex lens or a microscope for measuring the density of yarns constituting the cut fabric.

The present invention has the following excellent effects.

Whether or not the various quality standards of the fabric can be measured simply and quickly at the same time in the manufacturing process step.

In addition, there is no need to provide an expensive physical property measuring equipment separately, it is economical, and the measurement method is simple, anyone can use the effect.

The terms used in the present invention are selected as general terms as widely used as possible, but in some cases, the terms selected by the applicant are selected in this case, and in this case, the meanings described or used in the detailed description of the invention are considered, rather than simply the names of the terms. The meaning should be grasped.

Hereinafter, with reference to the preferred embodiments shown in the accompanying drawings will be described in detail the technical configuration of the present invention.

However, the present invention is not limited to the embodiments described herein and may be embodied in other forms. Like reference numerals designate like elements throughout the specification.

First, Figure 1 is an overall configuration of the composite tester 100 of the fabric according to an embodiment of the present invention.

As shown in Figure 1, the composite tester 100 of the fabric according to an embodiment of the present invention is a cutting machine 110, the first measuring unit 120 to the sixth measuring unit 170 and the plate 200 Include.

The cutting machine 110 is to cut a predetermined portion of the fabric 300 for measuring the physical properties, is provided on one side of the plate 200.

For a more detailed description, referring to FIG. 2, which is a block diagram of the cutting machine 110, the cutting machine 110 is provided on one side of the blade 111 and the blade 111 for cutting the fabric 300. Through the handle 112 and the hole formed on the other side of the blade 111 is provided, it consists of a coupling pin 113 for fixing to the plate 200.

The cutter 110 may be formed in various shapes, but in one embodiment of the present invention was provided in a small form.

On the other hand, the first measuring unit 120 shown in Figure 1 is for measuring the tensile strength and elongation of the fabric 300 cut by the cutting machine 110, the cut fabric 300 Fixing means 121 for fixing the two sides and the plate 200 is fixed to a predetermined position of the upper surface and connected to the fixing means 121, for adjusting the stress applied to the cut fabric 300 It includes a stress control means 122, the stress control means 122 may be made in a variety of ways, in one embodiment of the present invention was provided with a spring.

In general, the tensile strength means the maximum stress that the material can handle, and the elongation rate means the ratio of the length of the material specimen and the length of extension in the load direction in the tensile test.

Hereinafter, the measuring method of the tensile strength and the elongation rate by the first measuring unit 120 will be described in detail.

First, the fabric 300 cut by the cutter 110 is firmly fixed so as not to be separated from both sides of the fixing means 121.

Thereafter, after compressing the stress control means 122 as much as possible, it is observed whether the sample is damaged, and it is determined whether the fabric 300 meets or does not meet the tensile strength reference value through the damage of the sample.

This means that when the stress adjusting means 122 is compressed to the maximum, the stress acting on both ends of the fixing means 121 is pre-aligned to the minimum value of the tensile strength required for the quality inspection of the fabric. 122) is judged to be unsuitable to the tensile strength reference value when the sample fabric is broken before the maximum compression, and if the sample fabric is not damaged even after the stress control means 122 is fully compressed, it satisfies the tensile strength reference value. It can be determined that the fabric.

That is, the first measurement unit 120 does not measure the tensile strength of the sample fabric 300 with the accurate numerical value, but determines whether the sum or the part is added to the reference tensile strength value in a quick and simple manner.

On the other hand, the elongation measurement method by the first measuring unit 120 is a circular length measured before fixing the sample fabric 300 to the fixing means 121, and the fixing means 121 After fixing to the measurement through the ratio of the length of the sample fabric 300 extended by the stress control means 122.

The second measuring unit 130 is provided at a predetermined portion of the upper surface of the plate 200, and measures the thickness of the cut fabric 300.

For more detailed description, referring to FIG. 3 showing the overall configuration of the second measuring unit 130, the second measuring unit 130 protrudes in a vertical direction at a predetermined position of the upper surface of the plate 200. A pillar 131, and a measuring bar 132 that can move up and down along the outer circumferential surface of the pillar 131, and a ruler 133 is formed on one surface of the pillar 131.

At this time, the ruler 133 means "0cm" or "0mm" which is the reference point of the length unit of the plate surface 200, the length value increases as the distance from the plate surface 200.

Therefore, in the thickness measuring method of the fabric 300 by the second measuring unit 130, the fabric 300 is placed on the plate surface 200 provided with the second measuring unit 130, After lowering the measuring bar 132 to be in contact with the fabric 300, the measuring bar 132 measures the value pointing to the ruler 133, thereby measuring the value of the fabric 300. The thickness can be measured simply.

The third measuring unit 140 is provided on a predetermined portion of the upper surface of the plate 200, and measures the tear strength of the fabric.

Generally, the tear strength is a resistance to tearing of the specimen, and the tear strength increases as the density increases.

The tear strength measurement method may be measured by various methods including the Single Tongue method or the Trapezoid method, etc., and the tearing force is caused by the stress by applying a predetermined stress to the tear strength reference value. Judge whether or not the sum.

On the other hand, the fourth measuring unit 150 for measuring the weight of the sample of the fabric 300 is provided on a predetermined portion of the upper surface of the plate 200, as shown in Figure 1, the fabric 300 by using a scale Measure the weight of the sample.

The fifth measuring unit 160 is provided on a predetermined portion of the upper surface of the plate 200 and measures the density of the sample of the fabric 300 using a density measuring instrument.

In addition, the fifth measuring unit 160 further includes a convex lens or a microscope for visually confirming the density of yarns constituting the fabric 300.

However, in one embodiment of the present invention, the convex lens 161 provided in the holder was used to visually check the density.

The sixth measuring unit 170 is provided at a predetermined portion of the plate 200, and is provided to measure the lecture degree of the fabric 300, and the measuring method is as follows.

First, the test fabric of a predetermined size was taken five times in the longitudinal and transverse directions, each end having an inclined surface of 45 °, and the surface was smoothed at a speed of about 10 mm / s on the surface of the sixth measuring unit. Read and measure the scale corresponding to the position of the other end of the test fabric when one end of the test surface is in contact with the inclined surface, and measure the surface and back surfaces of 5 test fabrics in both length and width to calculate the lecture value with the average value. do.

As described above, by having all the various testers for determining the quality standards of the fabric produced in the manufacturing process on the plate, it is possible to quickly and simply determine whether the quality standards sum or fail.

In addition, the measurement method is very simple and simple, so there is no need to rely on professional manpower, it is economical because there is no need to provide expensive physical property measurement equipment.

In addition, the manufacturer can immediately find the cause of the product that does not meet the quality standards, and research on future security and countermeasures can be made immediately, thereby improving the productivity and quality of the product.

As described above, the present invention has been illustrated and described with reference to preferred embodiments, but is not limited to the above embodiments and should be made by those skilled in the art to which the present invention pertains without departing from the spirit of the present invention. Various changes and modifications are possible.

1 is an overall configuration of the composite tester of the fabric according to an embodiment of the present invention.

2 is a view showing the configuration of a cutting machine which is a component of the present invention.

3 is a diagram illustrating a configuration of a second measurement unit that is a component of the present invention.

<Description of the symbols for the main parts of the drawings>

100: composite testing machine of the fabric 110: cutting machine

111: day 112: the handle

113: coupling pin 120: first measuring unit

121: fixing means 122: stress adjusting means

130: second measurement unit 131: pillar

132: measurement bar 133: ruler

140: third measurement unit 150: fourth measurement unit

160: fifth measuring unit 161: convex lens

170: sixth measurement unit 200: plate

300: fabric

Claims (7)

Cutting machine for cutting a certain portion of the fabric for measuring the physical properties; A first measuring unit for measuring tensile strength and elongation of the cut fabric; A second measuring unit for measuring a thickness of the cut fabric; A third measuring unit for measuring the tear strength of the cut fabric; A fourth measuring unit for measuring the weight of the cut fabric; A fifth measuring unit for measuring the density of the cut fabric; A sixth measuring unit for measuring a lecture degree of the cut fabric; And Composite tester comprising a; and a plate for providing the cutting unit and the measuring unit. The method of claim 1, The cutting machine is a small form, the composite tester of the fabric, characterized in that provided on one side of the plate. The method of claim 1, The first measuring unit: Fixing means for fixing the cut fabric at both sides; And And a stress adjusting means fixed to a predetermined position of the upper surface of the plate and connected to the fixing means to adjust the stress applied to the cut fabric. The method of claim 3, wherein The stress control means is a composite tester of the fabric, characterized in that provided with a spring. The method of claim 1, The second measuring unit is provided in the form of a pillar protruding in the vertical direction at a predetermined position of the upper surface of the plate, the composite tester of the fabric, characterized in that the ruler is formed on one surface of the pillar. The method of claim 5, The second measurement unit is provided with a vertical perpendicular to the column, the composite tester of the far end, characterized in that it further comprises a measurement bar (bar) to move up and down along the outer peripheral surface of the column. The method of claim 1, The fifth measuring unit further comprises a convex lens or a microscope for measuring the density between the yarns forming the cut fabric composite tester of the fabric.

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