JPH04130070U - Characteristic measurement device for fiber structures - Google Patents

Abstract

(57) [Summary] [Purpose] To enable accurate measurement of moisture absorption and desorption properties, water absorption properties, and water dissipation properties after absorbing water in fiber structures such as yarns, woven fabrics, knitted fabrics, and nonwoven fabrics. To enable accurate measurement of changes over time. [Structure] A condition setting device 10 that sets measurement conditions such as humidity and temperature, an environment setting section 20 that sets an environment corresponding to the measurement conditions by this condition setting device 10, and a fiber structure in this environment setting section 20. A weight measuring device 30 for measuring the weight of the article 1 is provided.
A water tank 40 for immersing the fiber structure 1 in the water tank 40 and a weight measuring device 30 for measuring the weight of the fiber structure 1 immersed in the water tank 40 are provided.

Description

[Detailed explanation of the idea]

0001

[Industrial application field]

This device can be used to measure the characteristics of fiber structures such as yarn, woven fabrics, knitted fabrics, and non-woven fabrics. It relates to a device for measuring the characteristics of a fiber structure, in particular, the moisture absorption and desorption properties of the fiber structure. This article relates to a device for measuring the properties of fiber structures suitable for measuring water absorption and water dissipation properties. It is something to do.

0002

[Conventional technology]

We are developing new materials for fiber structures such as yarn, woven fabrics, knitted fabrics, and non-woven fabrics. When developing products such as clothing using fiber structures such as octopus, Regarding the above-mentioned fiber structures, their moisture absorption and release properties, water absorption properties, and moisture dissipation properties, etc. It became necessary to measure the characteristics.

0003 Here, conventional methods for measuring the characteristics of fiber structures such as those described above have been For example, as a method to examine water absorption in fabrics, the Japanese Industrial Standards JIS Measurement methods for fabric water absorption are stipulated in L-1096 and JIS L-1018. has been done.

0004 And stipulated in Japanese Industrial Standards JIS L-1096 and JIS L-1018. To measure the water absorbency of a fabric, a test piece is attached to a metal ring and The tip of the tube (which can divide 1 ml into 25 ± 3 drops) should be 1 inch from the surface of the test piece. Drop one drop of water (20±2°C) at a height of Method A (dropping method), the sample was placed in water at 20 ± 2°C and placed on a horizontal bar supported at a constant height above a water tank. Stop the test piece with a capillary force for 10 minutes so that the bottom end of the test piece is just submerged in water. B method (Bilex method) to measure the raised height (mm) of water by 20 ± 2 Floating the test piece in a water tank filled with water at ℃, the test piece becomes wet and begins to settle in the water. Method C (sedimentation method), etc., for measuring the time until

[0005] However, in the measurement method specified in the Japanese Industrial Standards, the fabric absorbs water. For example, it is not possible to accurately understand changes over time in textiles such as towels. When wiping hair using a fiber structure, it is difficult to determine how much moisture is in the fiber structure. There were drawbacks such as the inability to accurately measure the rate at which water was absorbed.

[0006] Additionally, in the past, fiber structures such as those mentioned above were exposed to various environments such as temperature and humidity. Moisture absorption and desorption properties when used under After that, if it is left in various environments, how will the absorbed moisture be released? It was not possible to measure characteristics such as whether the powder was dispersed and dried.

[0007]

[Problem that the idea aims to solve]

This idea is applicable to the above-mentioned fiber structures such as yarn, woven fabrics, knitted fabrics, and non-woven fabrics. The objective is to solve problems when measuring various characteristics.

[0008] In other words, in this invention, the moisture absorption and desorption properties of the above-mentioned fiber structures are In addition to making it possible to accurately measure the dissipation properties of moisture after absorbing moisture, etc. , to accurately measure changes over time in the absorption and desorption of moisture by fiber structures. The goal is to make it possible to measure

[0009]

[Means to solve the problem]

In the first fibrous structure characteristic measuring device according to this invention, the fibrous structure 1 is In order to accurately measure the moisture absorption and desorption properties of water and their changes over time, we A condition setting device 10 for setting measurement conditions such as degrees and temperatures; Therefore, the environment setting unit 20 in which an environment corresponding to the measurement conditions is set, and this environment setting unit A weight measuring device 30 for measuring the weight of the fiber structure 1 in the fiber structure 20 is provided. I made it.

0010 Here, the condition setting device 10 includes temperature and humidity inside the environment setting section 20. Use a constant temperature/humidity device that allows you to freely adjust the temperature, etc.

[0011] Further, in the second device for measuring the characteristics of a fiber structure according to this invention, the fiber structure Accurately measure the water absorption and dissipation of absorbed water in 1, as well as their changes over time. A water tank 40 in which the fiber structure 1 is immersed, and a water tank 40 in which the fiber structure 1 is immersed A weight measuring device 30 is provided to measure the weight of the fiber structure 1 immersed in the That's what I did.

0012 Furthermore, if necessary, a characteristic measuring device for the first fiber structure and a second fiber structure are provided. For example, at the bottom of the environment setting section 20, A water tank 40 in which the fiber structure 1 is immersed may be provided in the section.

[0013]

[Effect]

Then, the fiber structure is measured using the first fiber structure characteristic measuring device according to this invention. When measuring the characteristics of the object 1, let's use the condition setting device 10 described above. Create an environment such as temperature and humidity in the environment setting section 20 that corresponds to the conditions to be used. The fiber structure 1 to be measured is set in the environment setting section 20, and the environment setting section 20 The weight of the fiber structure 1 set in the interior is measured by the weight measuring device 30, and this Due to the change in the weight of the fiber structure 1 measured by the weight measuring device 30, this fiber The moisture absorption and desorption properties of the fiber structure 1 and their changes over time will be investigated.

[0014] Furthermore, the second fibrous structure characteristic measuring device according to this invention can be used to measure fibrous structures. 1, the fiber structure 1 to be measured is placed in a water tank 40. The fiber structure 1 is immersed in water to absorb water, or the fiber structure 1 that has absorbed water as described above is placed in the water tank 40. A fibrous structure in which the water absorbed by the material is released. The weight of 1 is measured by the weight measuring device 30. By changing the weight of the fiber structure 1, the water absorption and The dissipation properties of absorbed water and their changes over time should be investigated.

[0015]

【Example】

Hereinafter, the device for measuring the characteristics of a fiber structure according to an embodiment of this invention will be explained in detail. explain.

[0016] In the apparatus for measuring the characteristics of a fiber structure according to this embodiment, as shown in FIG. Set up an environment that corresponds to the measurement conditions for measuring the characteristics of the fiber structure 1. As the condition setting device 10 set in the fixed section 20, a constant temperature and humidity adjustment device is used. The temperature/humidity device 11 is connected to the box-shaped environment setting section 20, and the temperature/humidity device 11 is The humidity device 11 clears the environment of the temperature and humidity set in the environment setting section 20. The exhaust device 12 for the purpose of the present invention is connected to the environment setting section 20. And the above constant The temperature/humidity device 11 and the exhaust device 12 control the temperature and humidity inside the environment setting section 20. Conditions such as degree can be changed as appropriate.

[0017] In addition, the fiber structure 1 is immersed in the bottom of the box-shaped environment setting section 20. A water tank 40 in which the water is stored is provided. Then, the water tank 40 is heated to an appropriate temperature by the supply device 41. It now supplies 300 degrees of water.

[0018] Also, a weight for measuring the weight of the fiber structure 1 set in the environment setting section 20 As a measuring device 30, a mass sensor 31 is used as a fiber set in the environment setting section 20. In addition to connecting to the structure 1, this mass sensor 31 is connected to the computer 32. did. Then, the weight of the fiber structure 1 set in the environment setting section 20 is determined by the mass setting section 20. The measured fiber structure is measured by the computer 32 via the sensor 31. Changes in the weight of the object 1 were plotted on the computer 32.

[0019] Here, using the device for measuring the characteristics of a fiber structure as described above, for example, When measuring the hygroscopicity of the structure 1, the fiber structure 1 to be measured is While drying completely in a dryer, the inside of the environment setting section 20 is heated by the constant temperature/humidity device 11. Set up an environment that corresponds to the various conditions under which measurements will be performed. And in this way, various In the environment setting section 20, which is set to an environment corresponding to the conditions, The fiber structure 1 is set, and the weight of the fiber structure 1 set in this way is determined by the above quality. It is measured by the computer 32 via the amount sensor 31, and the fiber structure is The change in weight of Structure 1 is plotted. If you do this, It has become possible to accurately understand the process by which the fiber structure 1 absorbs moisture under various environments. Ta.

[0020] In addition, in the fiber structure 1 that has absorbed moisture in this way, the moisture release property of the absorbed moisture is In order to investigate the changing the environment within the setting unit 20 in response to various conditions to be measured; The fiber structure 1 that has absorbed moisture as described above dissipates the absorbed moisture and its weight changes. The computer 3 uses the mass sensor 31 to monitor the changing state as described above. 2 and plot the changes. In this way, moisture absorption The process in which the fiber structure 1 released from moisture absorbed under various environments and dried It is now possible to understand accurately.

[0021] In addition, when measuring the water absorbency of the fiber structure 1, the bottom of the environment setting section 20 is Water at an appropriate temperature is supplied by the supply device 41 into the water tank 40 provided in the The fiber structure 1 is immersed in the water tank 40 supplied with water at an appropriate temperature. The fiber structure 1 soaked in this way absorbs water and its weight changes. The state is measured by the computer 32 via the mass sensor 31 as described above, Let's plot that change. In this way, the fiber structure 1 absorbs water. I am now able to accurately understand the process.

[0022] Furthermore, in the fiber structure 1 that has absorbed water as described above, how much water has been absorbed? In order to investigate whether the fiber structure is immersed in the water tank 40, 1 is taken out from the water tank 40 and kept in a environment using the constant temperature/humidity device 11 and the exhaust device 12. The environment setting section 20 is set to an environment corresponding to various conditions to be measured. stop In this way, the above settings are set in the environment setting section 20 that is set to an environment corresponding to various conditions. A fibrous structure 1 that is hydrated as shown in the figure is set, and the water absorbed by this fibrous structure 1 is is dissipated, and the state in which the weight changes is measured via the mass sensor 31 as described above. Then, the computer 32 measures the changes, and the changes are plotted. In this way, the absorbed fiber structure 1 can absorb moisture under various environments. It is now possible to accurately grasp the process of dissipation and drying.

[0023]

[Effect of the idea]

As detailed above, in the first fibrous structure characteristic measuring device according to this invention, In this case, the conditions such as temperature and humidity that correspond to the conditions to be measured by the condition setting device are set. A boundary is created within the environment setting section, and the fiber structure to be measured is placed inside this environment setting section. The weight of the fiber structure set in the environment setting section is measured using a weight measuring device. Therefore, the fiber structure measured by this weight measuring device The moisture absorption and desorption properties of the fiber structure and their changes over time are determined by changes in the weight of the fiber structure. It is now possible to measure accurately.

[0024] In addition, in the second device for measuring the characteristics of a fiber structure according to this invention, it is possible to The fiber structure to be treated is immersed in a water tank to absorb water, or as described above. When the fiber structure is removed from the aquarium and the absorbed water is dissipated. Since the weight of the fiber structure was measured using a weight measuring device, this The change in the weight of the fiber structure measured by the weighing device of the Accurately measure water absorption and dissipation of absorbed water in structure 1, as well as changes in these over time. can now be measured.

[0025] As a result, when using the device for measuring the properties of fiber structures according to this invention, it is possible to Moisture absorption and desorption properties when fiber structures are used in environments of various temperatures and humidity, etc. After a fiber structure absorbs water, it is left in various environments. In order to accurately measure characteristics such as how the absorbed moisture is dissipated and dried. We are now able to develop new materials for the above-mentioned fiber structures, We also provide useful data for developing products such as clothing using such fiber structures. You can now get the following data.

[Brief explanation of drawings]

FIG. 1 is a schematic diagram showing an apparatus for measuring characteristics of a fiber structure according to an embodiment of the present invention.

[Explanation of symbols]

1 Fiber structure 10 Condition setting device 20 Environment setting section 30 Weight measuring device 40 Aquarium

Claims (2)

[Scope of utility model registration request] 1. A condition setting device 10 that sets measurement conditions such as humidity and temperature; an environment setting section 20 in which an environment corresponding to the measurement conditions is set by the condition setting device 10; A device for measuring characteristics of a fiber structure, comprising a weight measuring device 30 for measuring the weight of the fiber structure 1. 2. A water tank 40 in which the fiber structure 1 is immersed;
A device for measuring characteristics of a fiber structure, comprising a weight measuring device 30 for measuring the weight of the fiber structure 1 immersed in the water tank 40.