RU75050U1 - DEVICE FOR DETERMINING DEFORMATION PROPERTIES OF KNITTED FABRIC - Google Patents

Abstract

A device for determining the deformation properties of a knitted fabric containing means for securing the sample and a loading system, characterized in that the means for securing the sample are made in the form of two identical, mirror-mounted pentagonal frames-clips, the horizontal sides of which are removable, the sides being frame clamps are parallel to each other and equipped with loops for threading U-shaped vertical fixing brackets, and the loading system includes contact with discontinuous machine vertical rods arranged at the vertices formed by the sides frames clips pentagons, opposing their removable sides.

Description

The utility model relates to testing equipment, namely, to measuring the parameters of a knitted fabric during its deformation, and can be used to assess the elongation of a knitted fabric under its longitudinal loading and a fixed width.

It is known that the design parameters of a tight-fitting clothing made of highly elastic material, namely, the narrowing limit and the coefficient of relative elongation of parts, are determined based on the magnitude of the deformation properties of the material used.

To create research conditions that are close to the real conditions of deformation of highly elastic material in the case of operation of a narrowed product made from it, it is necessary to ensure longitudinal loading of the test sample with its fixed width.

Known devices for stretching knitwear in one direction do not allow obtaining data to determine such a characteristic as lateral contraction. Widely used tensile testing machines, including PM-30 or IR-5062-05 types, in principle, do not provide reliable data on the deformation properties of knitwear under operational loads. The known device PR-2 or its modification PR-3, designed to determine the elongation of knitwear at loads less than breaking, allows you to determine some deformation properties of knitwear at low operational loads, but does not allow to determine the elongation and residual deformation of knitwear when combined loads acting mutually perpendicular directions, as well as with a fixed width of the sample.

A device for studying the deformation properties of flat fiber-containing materials [RF patent No. 2077718, publ. 04/20/97,], which allows you to register stresses arising in mutually perpendicular directions during deformation of the sample. Famous

the device contains a loading spindle, which is equipped with a thin-walled ring with strain gauge resistance sensors, which measure the total stress (force) and its relaxation during various cycles of deformation of the material. A disadvantage of the known device is that it does not allow to determine the deformation properties of the material at a fixed width, since the load mode of the device provides only uniform tension of the material in two mutually perpendicular directions.

Closest to the claimed device is a stand for determining the deformation properties of a knitted fabric [RF patent No. 2061239, publ. 05/27/96], containing a height-adjustable horizontal square table with four tensile nodes fixed at the table edges, each of which contains several clamps with support elements mounted to slide along a guide parallel to the corresponding table edge, and a loading system for each tensile node, made in the form of a frame for hanging loads, connected to the guide by means of a cable system, the blocks of which are fixed on an axis parallel to the guide. The known device allows to subject the knitted fabric to sequential loading in two mutually perpendicular directions, which makes it possible to determine the deformation properties of the knitted fabric under conditions close to the conditions of loading of the knitted fabric during operation.

However, this device is quite difficult to implement and use, requires the use of non-standard research methods.

The objective of the utility model is to create a device that is easier to implement and use, making it possible to use standard techniques.

The problem is solved by a device for determining the deformation properties of a knitted fabric containing means for fixing the sample and a loading system, in which, in contrast to the known means for fixing the sample are made in the form of two identical,

mirrored pentagonal clamp frames facing each other, the horizontal sides of which are removable, while the sides of the clamp frames are parallel to each other and equipped with loops for threading U-shaped vertical locking brackets, and the loading system includes vertical rods in contact with the tensile testing machine located at the vertices formed by the sides of the frames-clamps of pentagons opposite to their removable sides.

Clearly, the proposed device is presented in figure 1, which shows a diagram of the device, and figure 2, which shows an image of a real sample of the device.

The proposed device contains two identical pentagonal frames-clamps, made mainly of steel, each of which includes a horizontal removable part 1, made, for example, in the form of a coupling bolt. The frames are mirrored, while they are facing each other with horizontal sides, and the vertices of the pentagons are opposite. On the lateral, parallel to each other, sides of both frames-clamps, special loops 2 in the form of “ears” are made, two on each side into which U-shaped brackets 3 are inserted, which play the role of a specimen width clamp. The staple length is sufficient to hold the sample together with the sides of both frames. On the opposite side to the removable one, at the apex of the pentagon formed by its sides, each clamp frame is provided with a vertical rod 4 rigidly connected to it and made of the same material as the frame. The rods 4 are connected to a source of external force, which is a tensile testing machine (not shown in the drawing) with a measuring range of forces from 0.2 to 500 N (for example, IR-50 62-05), forming with it a sample loading system.

The device operates as follows.

The rods 4 of the device are fixed in the clamps of the tensile testing machine. A sample is prepared as shown in FIG. 3 (front and side view of the sample). The prepared sample is put on removable horizontal parts 1 of both frames-clamps so that the seam is folded in half and stitched sample

was on the upper frame, tighten the clamping bolts and fix the side sections of the sample using brackets 3. Staples 3 are inserted into the “ears” 2 of the upper clamp frame, thread between two lines made on the sample parallel to its side sections, and inserted into the “ears” 2 lower frame clamps.

At the moment of application of a given load by a tensile testing machine, the increment of the length of the sample is determined on the elongation scale, the magnitude of which is used to calculate the elongation of the knitted fabric.

To determine the elasticity of the knitted fabric after deformation of the sample, the load is removed and the length of the sample is measured immediately after unloading, i.e. after no more than 10 s, after which, based on the data received, the necessary calculations are carried out.

To determine irreversible deformation, the prepared sample is stretched at a given load and left on the frame-clamps for 10 minutes. Then remove the sample, put on a smooth horizontal surface and after 30 minutes measure its length. Using the data obtained, carry out the necessary calculations.

Thus, the proposed device allows you to determine the deformation properties of a knitted fabric at a fixed width using a technique based on a standard (GOST 8847-85), while it is easy to implement and use, which is the technical result of the utility model.

The proposed device allows, under conditions close to the actual operating conditions of the knitted fabric, to determine its basic deformation properties necessary for the design of tight-fitting clothes (tensile under loads, less breaking, elasticity and permanent deformation).

In addition, the proposed device allows you to determine the magnitude of the transverse contraction of the sample. To do this, a sample with vertical axial lines (the central base line and two side symmetrically located relative to it), as shown in Fig. 4, is put on removable horizontal parts 1 of both clamp frames and fixed without

fixation of side slices. Then they are stretched by a value corresponding to the elongation of the sample upon application of the specified load used in the above tests. The distance between the lateral center lines at half the height of the sample is measured and the percentage of lateral contraction is calculated from the values obtained.

Claims (1)

A device for determining the deformation properties of a knitted fabric containing means for securing the sample and a loading system, characterized in that the means for securing the sample are made in the form of two identical, mirror-shaped pentagonal frames-clips, the horizontal sides of which are removable, the sides being the frame-clamps are parallel to each other and equipped with loops for threading the U-shaped vertical fixing brackets, and the loading system includes contacting with discontinuous machine vertical rods arranged at the vertices formed by the sides frames clips pentagons, opposing their removable sides.