RU206641U1 - Tensile testing device for fibers and filaments - Google Patents

Abstract

The utility model relates to the field of textile materials science, namely to devices for determining the breaking characteristics of fibers and threads. The device for testing fibers and threads in tension contains a frame, to which a multi-arm rocker is attached with the possibility of rotation for forced deflection of a cantilevered flexible plate. At both ends of the bed, attachment points for detachable mechanisms for twisting fibers are installed, and an additional lock is attached to the bed, made in the form of a tilting gate with the ability to interact with a pendulum. The device also contains a signal processing unit with a clock frequency generator for timing and a storage element for accumulating signals from an axis rotation angle sensor and is configured to transmit the entire set of signals to a computer. The utility model makes it possible to improve the operating conditions, increase the accuracy of the analysis results, expand the area of use, and also simplify the design of the device for testing fibers and threads in tension. 2 ill.

Description

The utility model relates to the field of textile materials science, namely to devices for determining the breaking characteristics of fibers and threads.

Known designs of devices for standard tensile testing of fibers and filaments generally provide breaking conditions at a speed of movement of the active gripper up to 200 mm / min [1]. Meanwhile, it is known that under the conditions of obtaining and processing fibers and threads, the nature of their loading is different. The frequency of changes in the forces and displacements of the thread actually formed in technological processes relative to the working bodies of processing machines allow us to conclude about shorter dynamic loads [2]. Such a discrepancy between the conditions of laboratory tests and actual loads leads to a decrease in the information content of the obtained analysis results.

In practice, there are known devices for testing fibers and threads in tension, which ensure the determination of the force arising from the deformation of the sample before and at the moment of its rupture [3]. However, their use does not allow taking into account the specific features of fracture occurring from the moment the maximum load is reached to the complete destruction of the specimen, which, as a rule, occurs at a lower load after reaching the maximum breaking force.

Therefore, to solve this problem, it is advisable to use dynamic tests, which ensure that the load is taken into account until the complete destruction of the test sample of fibers and threads.

In this regard, the known design of a device for testing fibers and threads in tension, containing a frame, a pendulum fixed on the axis in the form of a striker with the possibility of its rotational movement under the influence of its gravity, a lock of the initial position of the pendulum in the form of a striker, a measuring unit and clamps for the test sample , one of which is movable and fixed at the end of the pendulum in the form of a striker, and the other is rigidly connected to the frame [4].

The disadvantage of this design is the ability to determine only one discontinuous characteristic - the work of discontinuity. However, it is known that this characteristic is determined by two parameters, namely, the force formed at rupture and the deformation of the test specimen. Thus, with a known value of the work of rupture, uncertainty arises as to the cause of its formation: either due to force, or due to deformation (elongation) of the fiber or filament sample. In other words, the well-known construction [4] does not provide the required information content of the analysis results.

The disadvantage is also the lack of structural elements that provide forced braking of the pendulum in the form of a striker without the participation of the operator's hands. This disadvantage reduces the likelihood of a safe test and increases the analysis time.

These disadvantages are eliminated when using the known device for testing fibers and threads in tension [5], which is a tensile testing machine of the impact type. The known device for testing fibers and threads in tension contains a frame, a pendulum fixed on the axis with the possibility of its rotational movement under the action of its gravity, a sensor for the angle of rotation of the axis with a pendulum, a signal processing unit, a computer, a lock for the initial position of the pendulum before testing, clamps for the test a sample, one of which is movable and fixed on the pendulum, and the other is installed on the frame, located between the frame and the lower free end of the pendulum in the initial position, a cantilever-mounted flexible plate.

The disadvantage of the device [5] is the inconvenience of fixing the test sample of fibers or threads in a movable clamp of a freely hanging pendulum. To exclude this, it is required to fix it in this initial position. The disadvantage is also the complexity of the design of the unit for forced deflection of a cantilever-fixed flexible plate designed to decelerate the pendulum after the destruction of the sample.

Among the disadvantages should also be attributed to the fact that to expand the area of use, the known device [5] does not provide the ability to fix nodes for twisting fibers, which is necessary, for example, when testing short flax fiber or hemp according to the current standards: GOST R 54589-2011 " Flaxseed fiber, short. Specifications "and GOST 9993-2014" Hemp is short. Technical conditions ". An important disadvantage of the device [5] is the occurrence of errors in the processing of signals from the sensor during transmission for their use on a computer. This is due to the fact that when the steering angle sensor is operating, the subsequent signal processing is carried out only in the "request-response" mode. As a result, the maintenance of a stable polling frequency is carried out by a computer running an operating system of the Windows family. Therefore, when using a program operating in a user environment, difficulties arise in ensuring the frequency and constancy of time required in the calculations for the transmission of fast signals from the sensor with an interval of about 1 ms. It is of this value that the time intervals are formed during the test. As a result, errors arise for this reason.

However, in terms of its technical essence and the achieved result, this device [5] is the closest to the claimed one and therefore it can be chosen as a prototype.

The technical task of the proposed utility model is to improve the operating conditions, increase the accuracy of the analysis results, expand the area of use, and simplify the design of the device for testing fibers and threads in tension.

The task is achieved by the fact that in the known device for testing fibers and threads in tension, containing a frame, a pendulum fixed on the axis with the possibility of its rotational movement under the action of its gravity, a sensor for the angle of rotation of the axis with a pendulum, a signal processing unit, a computer, an initial the position of the pendulum before testing, the clamps for the test sample, one of which is movable and fixed on the pendulum, and the other is mounted on the frame, located between the frame and the lower free end of the pendulum in the initial position, a cantilever flexible plate fixed, according to the utility model, is attached to the frame with the possibility a multi-arm rocker for forced deflection of a cantilever-mounted flexible plate, there are attachment points for removable mechanisms for twisting fibers on the frame and an additional lock for a freely hanging pendulum is located in the initial position, and the signal processing unit additionally contains a clock generator th frequency for timing and a storage element for accumulating signals from the sensor of the angle of rotation of the axis with the pendulum before transmitting the entire set of signals to the computer.

The use of a variable-arm rocker attached to the frame with the ability to rotate for forced deflection of the cantilevered flexible plate simplifies the design of the unit for forced stopping of the pendulum after testing the sample.

The presence on the bed of attachment points for removable mechanisms for twisting fiber samples expands the scope of the proposed device, for example, for testing fibers when determining their breaking strength in accordance with GOST R 54589-2011 “Short flax fiber. Specifications "and GOST 9993-2014" Hemp is short. Technical conditions ".

The arrangement on the bed of an additional lock for a freely hanging pendulum in its initial position provides an improvement in the operating conditions of the proposed device, namely, the conditions for fixing the test specimen in a movable clamp located on the pendulum.

The presence in the signal processing unit of a clock frequency generator for timing and a storage element for accumulating signals from the pendulum axis rotation angle sensor before transmitting the entire set of signals to the computer provides an increase in accuracy in determining the breaking characteristics when the sample is stretched during its testing. This is due to the elimination of the influence of the operating system installed on the computer on the transmission time and parameters of each of the signals received from the sensor during the movement of the pendulum.

The essence of the utility model is illustrated in the drawings.

FIG. 1 shows a diagram of a device for testing fibers and filaments in tension.

FIG. 2 shows a side view (view A): the relative position of the working bodies of the device.

The device for testing fibers and threads in tension (Fig. 1, 2) contains a frame 1, a pendulum 3 fixed on the axis 2 with the possibility of its rotational movement under the action of its gravity, a lock 4 of the initial position of the striker, clamps 5 and 6 for the test sample 7 , one of which 5 is movable and is located on a pendulum. Clamp 6 can be installed at different distances (B ₁ or B ₂ ) from clamp 5, which is necessary to expand the area of use of the device.

The proposed device contains a lock 8 to ensure the immobility of the pendulum in its initial free hanging state. It is a unit bolted to the bed 1. There is a slot in its stationary element in the upper part. A tilting bolt is located in the slot on the axle. After overturning, this bolt is fastened to the pendulum in its original position.

At both ends of the frame, there are attachment points 9a and 9b of removable mechanisms for twisting fiber samples. They can have a different design: either in the form of staples fastened to the base, or holes in the base (in the figure they are presented in the form of staples).

In addition, to one of the ends of the base a rocker arm 10 of different arms is rotatably attached for forced deflection of a cantilevered flexible plate 11 located between the frame and the lower edge of the pendulum.

The design feature is the signal processing unit 12. Unlike the prototype, it additionally has a clock generator for timing and a storage element for accumulating signals from the sensor 13 for the angle of rotation of the axis with the pendulum before transmitting the entire set of signals to the computer.

The device for testing fibers and threads in tension works as follows.

A sample of fiber 7 prepared, for example, according to GOST 10330-76, is fixed in clamps 5 and 6 with an inter-clamping distance B equal to 100 mm (as required by the aforementioned GOST). In this case, the pendulum 3 is located in its original position vertically so that its center of gravity is at a minimum distance from the bed. To exclude the mobility of the pendulum when fixing the sample in the clamp 5, it is fixed. To do this, use a latch 8. Next, the pendulum is deflected relative to the axis of rotation to the initial position and secured with a latch 4. By means of a computer, the signal processing unit 12, coming from the sensor 13 of the angle of rotation of the axis 2, is switched on. timing, as well as through preliminary memorization (accumulation) of the entire mass of signals by a memory element before transmitting their entire set to a computer.

After that, by means of the latch 4, the pendulum 3 is released from being fixed in the initial position. It begins to move under the influence of its gravity, acquiring kinetic energy. Its angular velocity is increasing. The sensor 13 of the angle of rotation of the axis, in the process of moving the pendulum generates signals about its angular position, which with the use of a clock frequency generator are subject to timing. All signals recorded and measured in duration (by means of timing) are accumulated using a memory element.

At a certain point in time, the fiber sample 7 breaks, forming a force of resistance to the movement of the pendulum, which reduces its angular velocity. After the pendulum reaches its final position in the course of its movement, all the signals received by the block simultaneously with their entire mass (signals) are transmitted to the computer, which calculates the breaking force of the sample using the known dependencies of theoretical mechanics (the basic law of the dynamics of the motion of a rotational body).

After testing the fibers and filaments for tension, the operator manually, by applying a forced stop of the pendulum, presses on the longer arm of the rocker arm 10, which ensures that the plate 11 bends and comes into contact with the lower edge of the pendulum. As a result, the pendulum is forced to brake and stop. After that, the test can be repeated.

If necessary, fiber testing according to GOST R 54589-2011 “Short flaxseed fiber. Specifications "and GOST 9993-2014" Hemp is short. Technical conditions "operation of the proposed device for testing fibers and threads in tension is carried out in a sequence similar to the above-mentioned sequence of actions. The difference will be the preliminary twisting of the fiber. To do this, use special typical mechanisms for twisting fiber samples. These mechanisms are attached to the frame by means of attachment points 9a and 9b, which are available on it.

Thus, the proposed device makes it possible to improve the conditions of its operation, to increase the accuracy of the analysis results, to expand the area of use, and to simplify the structure for testing fibers and threads in tension.

The creation of the proposed device for testing does not require significant manufacturing costs and its implementation is possible in practice when carrying out material science tests.

LIST OF USED SOURCES

1. Laboratory workshop on textile materials science: Textbook. manual. For university students / Koblyakov A.I., Kukin G.N., Soloviev A.N. and others - M .: Legprombytizdat, 1986 .-- 344 p.

2. Banakova N.V., Krutikova V.R. Analysis of the parameters of technological processes of preparatory, weaving and knitting production by tensograms of the thread // J. Izvestiya vuzov. Technology of the textile industry, No. 5, 2015. - p. 100-105.

3. Golubkov B.C., Piragov K.M., Smushkovich B.L. Testing machines in textile materials science. - M .: Legprombytizdat, 1988 .-- 208 p.

4. USSR author's certificate No. 33330 "Pendulum-head dynamometer for determining the strength of textile materials", author I.V. Kragelsky, application dated 12.03.1933

5. Device for tensile testing of fibers and threads: Patent for utility model No. 176392, RF / E.L. Pashin; publ. 17.01.2018.

Claims (1)

A device for testing fibers and threads in tension, containing a frame, a pendulum fixed on it with the possibility of its rotational movement under the action of its gravity, which is connected to the frame by means of an axis, an axis rotation angle sensor with a pendulum, a signal processing unit, a lock of the initial position of the pendulum in front of test, clamps for the test specimen, one of which is movable and fixed on the pendulum, and the other is mounted on the frame, located between the frame and the lower free end of the pendulum in the initial position, fixed on the frame, a cantilever flexible plate, characterized in that it is attached to the frame with the possibility of rotation multi-arm rocker for forced deflection of a cantilever-fixed flexible plate, attachment points for removable mechanisms for twisting fibers are installed at both ends of the bed, an additional lock is fixed on the bed, made in the form of a tilting gate with the ability to interact with a pendulum, and the processing unit ki signals contains a clock frequency generator for timing and a storage element for accumulating signals from the sensor of the angle of rotation of the axis and is configured to transmit the entire set of signals to the computer.

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