RU149029U1 - DEVICE FOR MEASURING PARAMETERS OF THE FLEXIBILITY OF THREADS OF TEXTILE MATERIALS - Google Patents

Abstract

A device for measuring the parameters of the expandability of the threads of textile materials, containing fixed and conditionally movable clamps for fixing the test sample, its loading means in the form of a gear motor with a drive controlled by a processor using a microcontroller and an interface unit, a movable carriage carrying a needle comb, means for measuring the amount of displacement strands of the sample containing optically active elements and a webcam associated with the processor, as well as means for measuring the magnitude of the load, excellent scheesya in that the load magnitude measuring means are in the form of a strain gauge diaphragm type measuring system connected to the processor through the interface unit and microcontroller.

Description

The utility model relates to instrumentation for the textile industry and can be used to determine the expandability of filaments of textile materials of different fibrous composition in their manufacture and in the seams of garments.

A device for determining the degree of expandability of the threads in accordance with GOST 28073-79 "Sewing products. Methods for determining the tensile load, the elongation of thread seams, the extensibility of the fabric threads in the seams ", containing a tensile testing machine, the load pre-tensioning the sample and a device consisting of two combs with needles and a force recorder. A disadvantage of the known device is a significant measurement error due to the subjectivity of determining the moment of reaching a predetermined spreadability value and the technological complexity of the evaluation process. In addition, the known device does not provide the possibility of express research on the degree of expandability.

Known device RT-2M, described in GOST 22730-87 "Textile cloth. The method of determining the expandability ”, which contains a load-clamp, a rubber roller, a drum driven by an electric motor through a worm gear, flat sponges made of hard rubber, between which the test sample is passed, a plastic plate placed at a distance of 6.0 ± 1.0 mm from the mentioned jaws, a leash with a load for fixing a sample of material and moving the deformation zone by means of a rocker arm, at the other end of which there is a load scale. A disadvantage of the known device is its structural and technological complexity associated with the presence of two autonomous electromechanical drives in the form of a worm gear and a helical gear, as well as the insufficient accuracy of estimating the degree of expandability of the threads, due to the subjectivity of the visual fixation of the moment the sample reaches the boundary of the plastic plate and the visual reading of the values applied loading.

Closest to the claimed is a device for determining the spreadability of the threads by the express method (US Pat. No. 2519028, publ. 2014.06.10), containing means for fixing the test sample in the form of fixed and conditionally movable clamps and means for loading it, including a gear motor, with the possibility of control the magnitude of the loading and connected with the help of elastic elements with a movable carriage carrying a needle comb, which is equipped with optically active elements and a web camera installed with the ability to read the values on servation and moving filaments and transmitting them to the computer.

A disadvantage of the known device is the fragility of its reliable operation and the deterioration of the accuracy of the estimate of the load value over time, due to a change during operation of the technical characteristics of the load transfer system containing elastic elements, which causes the appearance of a hysteresis loop and drift of the value of the load value at constant values of the thread expandability index.

The objective of the proposed utility model is to create a device with high reliability that provides an accurate assessment of the parameters of the expandability of the threads of textile materials over a long period of operation.

The technical result of the proposed utility model is to increase the reliability of the device and increase the accuracy of the estimation of the parameters of the expandability of the threads of textile materials with a long life.

The specified technical result is achieved by a device for measuring the expandability of textile materials, containing fixed and conditionally movable clamps for fixing the test sample, its loading means in the form of a gear motor with a drive controlled by a processor by means of a microcontroller and an interface unit, a movable carriage carrying a needle comb, and means for measuring the amount of movement of the strands of the sample containing optically active elements and a webcam associated with the processor, as well as two measurements of the magnitude of the load, in which, in contrast to the known means of measuring the magnitude of the load is made in the form of a tensometric measuring system of a diaphragm type, connected to the processor through a microcontroller and an interface unit.

Structural-kinematic diagram of the proposed device is shown in the drawing.

The device comprises a drive 1 with a helical gear from a gear motor (M in the drawing), a tensometric measuring system 2 of a diaphragm type for measuring the magnitude of the load, a fixed clamp 3, a carriage 4 mounted on a movable frame 5. The carriage 4 carries a comb 6 with a set needles 7 mounted with the possibility of relative relative movement of each other in the transverse direction along the width of the sample and changing the depth of their lowering, depending on the type of fibrous system, i.e. depending on the thickness of the material being pierced, through the holes in the supporting platform of the conditionally movable clamp 8.

The movable carriage 4 with a needle comb 6 under the action of a helical gear drive 1 has the ability to move linearly in the guides 9 of the frame 10 between the sample and the sensitive elements of the tensometric measuring system 2 of the diaphragm type, parallel to the plane of the sample. The tabletop 11 mounted on the bed 10 of the device, performs the functions of the basic supporting platform for the test sample.

The device also includes optically active marks 12 and 13, showing the movement of the comb 6 with the needles 7 when the strands of the sample are moved apart by the loading provided by the drive 1. The carriage 4 has two degrees of freedom: the ability to move in the longitudinal direction under the influence of the drive 1 and the ability to rotate relative to the movable support 14 using the handle 15.

To measure the amount of movement of the carriage 4 with the needle comb 6, a webcam 17 is installed on the tripod 16, which for adjusting the sensitivity of the measuring system has the ability to vertically and horizontally move with the tripod 16 along the guides 9 of the bed 10. The webcam 17 is connected to the processor 18, which through the microcontroller 19 and the interface unit 20 is also connected with a tensometric measuring system 2 to obtain load measurement data. On the other hand, the processor 18 through the microcontroller 19 and the interface unit 21 controls the gear motor M, which drives the drive 1.

The needles 7 are made as a single structural unit with a comb 6 and a carriage 4 with the possibility of unimpeded movement relative to the movable part of the non-metallic substrate of the sample of a conditionally movable clamp 8 when the handle 15 is rotated and the sample is punctured.

The device operates as follows.

After appropriate preparation of the sample 22 of the test material according to the requirements of GOST 22730-87, the test sample is installed with one end slice in the fixed clamp 3, and the other end slice is placed on the plane of the conditionally movable clamp 8, kinematically connected with the movable carriage 4.

After entering into the processor 18 the initial data on the type of material, the fiber composition and density of the sample by turning the handle 15, the material is punctured with needles 7, which freely move through the hole of the nonmetallic component of the moving substrate, and the possibility of starting the measurement procedure and evaluating the parameters is indicated on the desktop of the processor 18 expandability of the strands of the investigated material.

After that, the operator turns on the gear motor M, as a result of which the drive 1 provides the movement of the conditionally movable clamp 8 with the substrate and the carriage 4 along the guides 9 of the frame 10. The drive 1 through kinematic links moves the non-metallic component of the base plate complete with the conditionally movable clamp 8, and the force is transmitted to comb 6 with needles 7, which, moving together with the movable carriage 4, deform and extend the threads of the textile sample.

The beginning of the movement of the carriage carrying the comb 6 with needles 7, accompanied by the extension of the threads, and subsequent movement are recorded by the webcam 17 as a result of a change in the position of the movable optically active mark 12 relative to the fixed mark 13, while the magnitude of another parameter, namely the loading of the threads, is perceived by the diaphragm tensometric measuring system 2. Information about the magnitude of the movement of threads from the web camera 17 simultaneously with data from the tensometric measuring system 2 about the magnitude of the caller indicated Load displacements supplied to the processor 18. Thus, by moving the comb 6 with the needles 7 in synchronism fixed amount of displacement and yarn loading force, and a processor in accordance with a preset and predetermined calibration value determines razdvigaemosti recording parameter information in an electronic database.

With the standard movement of the threads by 2 mm, the processor 18 generates a command to complete the procedure for measuring the expandability parameters, which, through the microcontroller 19 and the interface unit 21, enters the gear motor M to stop the drive 1.

After stopping the drive 1 with the return of the carriage 4 to its original position and installing a new test sample, the measurement cycle is repeated.

Claims (1)

A device for measuring the parameters of the expandability of the threads of textile materials, containing fixed and conditionally movable clamps for fixing the test sample, its loading means in the form of a gear motor with a drive controlled by a processor using a microcontroller and an interface unit, a movable carriage carrying a needle comb, means for measuring the amount of displacement strands of the sample containing optically active elements and a webcam associated with the processor, as well as means for measuring the magnitude of the load, excellent scheesya in that the load magnitude measuring means are in the form of a strain gauge diaphragm type measuring system connected to the processor through the interface unit and microcontroller.

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