SU836591A1 - Device for determining textile material creasing property - Google Patents

Description

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The invention relates to textile materials science, in particular to devices for assessing the crushability of textile materials.

A known device for determining the crushability of textile materials using cylindrical specimens. The device contains a clamp for securing the specimen mounted on a support, loading a platform with a drive for moving it, a weight placed on the loading platform, and means for measuring the deformation of the specimen fi-.

A disadvantage of the known instrument is the low accuracy of measurements, due to the fact that the moment of the beginning of loading and the time of loading the sample are determined visually, and the means for measuring the height of the sample after strain (deformation) does not allow to control the height of the sample around its perimeter.

The purpose of the invention is to improve the measurement accuracy.

This goal is achieved by the fact that the device for determining the crushability of textile materials, having a clip for securing the sample, loading the platform with its drive

displacement, load and means for measuring the strain of the sample, contains a drive control system of the loading platform, including a control unit connected to the drive, a two-arm lever that interacts with one end of the microswitch connected to the control unit, specifies a device connected

0 with a microswitch and a control unit; a microswitch that interacts with a loading platform and is associated with a control unit with a clamp for securing the sample

5 is installed on the other lever arm, and the load is placed on the lever arm, interacting with the microswitch.

The drive of the loading platform is made in the form of a crank-and-Kulis mechanism of low, on the wings of which the loading platform is fixed.

The device also has a clamp rotation drive associated with the control unit, and means for measuring

5 deformations of the specimen contain an illuminator, a condenser and a slit bottom located on one side of the clamp, and on the other side of the clamp there is a screen with a measuring scale and a movable pointer, while

The scientific research institute is mounted on a loading platform.

The drawing shows a functional diagram of the device.

The device has a control unit 1, an electric motor 2, a gearbox consisting of gears 3 and a screw 4, a crank-and-crank mechanism containing a worm gear 5 with a pin b and a link 7 fixed on it. On the link 7 a loading platform 8 is fixed A movable pointer 9, which can be moved using the handle 10. To secure the sample 11, serves a clamp 12 placed on a stand 13, which rests on one of the arms of the load lever 14 and can be rotated by a drive containing gears 15 and an electric motor 16, ny to the control unit 1. The drive rotation of clamp 12 is mounted on the same arm as the clamp itself, on the other lever arm 14 of the goods 17 placed.

 The cargo lever 14 is mounted to be rotatable about an axis 18 and with one shoulder rests on the stop b9. The link 7 and the load lever 14 are mechanically connected to the microswitches 20 and 21, respectively, the microswitch 20 being electrically connected to the control unit

1, and the microswitch 21 is connected to the driver, the device 22 and the control unit 1. The lighter 23, the condenser 24 and the slit diaphragm are used to measure the deformation and the sample. 25, located on one side of the clamp 12, and a translucent screen 26 with a measuring scale 27, located on the other side of the clamp.

The device works as follows.

A specially prepared cylindrical textile material sample 11 is secured in the clamp 12. After switching on the control unit 1, the voltage is applied to the motor

2, which transmits the rotation through the gears 3 of the screw ku.4. The worm gear 5 connected to it, which is fixed by the finger 6 fixed on it, moves in the guides to the rocker 7. The loading platform 8, fixed on the rocker 7, moves downward, pressing the sample 11 to the stand 13, which acts on the cargo lever 14 and rotates it around the axis 18 until the microswitch 21 operates. The latter through the control unit

1 opens the power supply circuit of the electric motor 2 and simultaneously switches on the driver 22, which is a time relay that, after a specified time (sample loading time), sends a signal to the control unit to turn on the electric motor 2. Rotate the worm wheel 5 with your finger 6 raises platform B to its original position, the achievement of which is controlled by microswitch 20, giving a command via control unit 1 to motor 2, which is de-energized.

After unloading the sample 11, the drive of its movement begins to work. The flow of light from the illuminator 23 is directed to the capacitor 24. Kz of the capacitor parallel rays through

a slit diaphragm 25 in the form of a narrow vertical strip enters the sample 11 and the translucent screen 26, on which you can observe the contour of the sample 11, distributing

after smth, and when the sample rotates, the height of this contour on the screen changes according to the specimen height.

After a certain time has elapsed, by means of the handle 10, the pointer 9 is moved across the screen 26 and the minimum and maximum heights of the sample contour are recorded on a measuring scale 27, which are then used to calculate the average height of the specimen.

Due to the introduction of an automatic control system for the device, each test sample is in the same conditions as other samples, there are no manual operations,

which greatly improves the accuracy of measurements.

Claims (2)

1. An apparatus for determining the crushability of textile materials, comprising: a clamp for securing a sample, loading platform with Q is driven by its movement, load and means for measuring the deformation of the sample, characterized in that, in order to increase the accuracy of determination, it contains a drive platform control system that includes a double lever, an end microswitch coupled to one of its shoulders connected to the drive platform control unit and master 0 device, interconnected and connected to an end microswitch, and a microswitch interacting with the loading platform and connected to the control unit, while the flexible one for securing the sample is mounted on the other arm of the lever, and the load is fixed on the arm of the lever by interacting with the microswitch . 0 2. The device according to claim 1, which is based on the fact that the drive of the loading platform is made in the form of a crank-and-rocker mechanism, on the backstage of which the loading platform is fixed.