SU310140A1 - DEVICE FOR RESEARCH CHANGES OF LOADING TEXTILE MATERIALS - Google Patents

Description

The invention relates to the textile industry and can be used in the study of changes in materials, such as textiles, depending on time.

Instruments are known for studying the change in the load of textile materials, comprising an electrically operated load mechanism, a load cell with strain gauges and a system for recording the load curve.

The known devices have the complexity of a device for reversing the drive and counting the number of cycles, it is impossible to observe and record the curve of the relaxation process that takes place in the sample under study after preliminary multiple loading at different loads (strains) than the maximum or minimum values lack of time delay device and relative complexity of service.

In order to reverse the electric drive of the load mechanism, simultaneously count the number of cycles and return to the initial position of the control device, the proposed device uses a switch, for example, a step finder, to stop the load mechanism, the strain sensor and the load signal converter with

a switch to turn on the amplifier either a strain sensor signal or a load signal converter signal; the amplifier and logic circuit "And", intended to send a stop signal to the electric drive of the load mechanism only after the signals of the strain sensor or the load signal converter match the signal of the reversing device and counting the number of cycles. In addition, the device is equipped with a time relay connected between a trigger switch and drive control devices. The drawing shows the structural scheme of the proposed device.

The manual control circuits and K.2 contain push-button stations for switching the contacts of the switch / s or device A of the reversing drive of the load mechanism D.

The automatic control loop contains deformation sensors 1 3, a load sensor including a tensile bridge TZ, a potentiometric measuring circuit / (amplifier S, and signal converters 4 and 6; a reverse amplifier Rt (trigger switch, e.g., stepper finder), device C for counting cycles with a setting device L number of cycles and a reset device on the 3rd turn on the reset device and time delay devices / 1 and tz, designed to time out at maximum and minimum loads and and deformations. The stop loop circuit 5 contains a deformation sensor 2, a sensor signal converter 5, and a logic circuit I. The load sensing device R contains a paper dragging and shifting 10 device connected in parallel with the potentiometer flow. The automatic control and stop circuits also contain switches / i - / 3, for switching the control or stopping depending on the deformation or on the load, and there is a switch / 4 for switching off the load unloading device L th mechanism during loading or deforming during ustanovlennogo20 values used to sample. Sensors / -3 non-contact deformations, such as induction or photoelectric. They are misplaced on the bracket of the loading mechanism and are intended to supply a signal-25 when it reaches a predetermined deformation, while they are made adjustable by means of defining the deformation. The device also has a power supply M and switch / 5 for automatic and manual control. Load mechanism D of the device has a reversible electric drive controlled by the device / L (load) and device A (unloading). The sample preparation program by preparing-35 is placed by switching the switches / 1- / 5 to the desired position. Then, using button 0, turning on the device to return to the initial position O, the reverse amplifier Rt with the cycle counting device C returns to 40 the initial position. In addition, deformation sensors / -3 and load signal converters 4-6 are installed at the required positions. In order to test the relaxation of up to 45 of the established deformation value by the element of the V / 4 switch, the device L is turned off, and the / switch 3 connects the deformation sensor 3. After that, turning on the voltage on the reverse-power amplifier 50 Rt turns on the electric drive of the load mechanism (i), which deforms the sample and thus loads it. Having deformed to the established deformation, the signal from the deformation sensor 3 receives a signal to the amplifier Pe-55 of the Rt version and switches (for example, the stepping finder rotates the rotor one step), thus disconnecting the circuit of the device IL, stopping mechanism D and closing the circuit of device L.60 However, the load mechanism in the reverse 4th position after the test can occur automatically if, before it starts, the setpoint N of the cycles is set to the position "I, while after switching the reversing amplifier to logic “And the signal is coming. The second signal to the logic circuit "And enters through the element of the switch 214. After receiving two signals, the circuit" And sends a signal to the load mechanism D and to the return device to the initial position O. The return device returns the reverse amplifier Rt with the loop counting device C to the initial position. To test the sample in a cyclic mode up to a set number of cycles within the specified limits of deformation, switch / 4 turns off, switches 1, / 2, / 3 ... switch deformation sensors 1–3, set the time, and set the number of cycles. electric drives are set to the required speed of loading and unloading load mehkapizma. After that, switching on the voltage on the reversing amplifier Rt turns on the electric drive of the load mechanism D, which deforms the sample and loads it, while deforming to the established deformation, the signal from the deformation sensor 3 is fed to the reversing amplifier Rt and it switches. Then the circuit of the device IL is disconnected, the load mechanism D is stopped and, through the time delay device 2, after a predetermined time has elapsed (which can be set to zero), the device L turns on. After this, the load drive is started up in the opposite direction and the sample is unloaded. After it is unloaded to the set limit, sensor 1 receives a signal to reversal amplifier Ri and it switches, device circuit A is disconnected, load mechanism D stops and, after a specified time expires, device IL turns on, then the process repeats until as long as the number of cycles reaches the number of cycles specified by the yV generator, and when this happens, a signal arrives at the AND logic from the cycle counting device C. When the second signal from the deformation sensor 2, installed in a position independent of the position of sensors 1 and 3, arrives at the logic circuit 2, the logic circuit And sends a signal to the load mechanism D and to the return device to the initial position O; the load mechanism stops, and the reversal amplifier Rt with the cycle counting device C returns to its initial position.

the incomplete number of cycles is necessary, using the button O, to signal the electric drive of the load mechanism and the return device to the initial position O, after which the load mechanism stops and returns to the initial position of the reverse amplifier Rt with the cycle counting device C.

It is obvious that the device holds similarly when the sample is tested in a cyclic mode to a set number of cycles within the specified load limits. The only difference is that instead of the deformation sensors} -3, the switches / 1- / 3 switch on the load cell signal converters. The sample load is recorded by the load sensing device.

Subject invention

Claims (2)

1. An instrument for studying the load change of textile materials depending on time, containing an electrically operated load mechanism, a load cell with strain gauges and a load curve recording system, characterized in that, in order to expand the technological capabilities of the device, it is equipped with a trigger switch, such as a step finder, additional strain gauge, additional load signal converter and logic "I. 2. The apparatus according to claim 1, characterized in that it is provided with a time switch connected between a flip-flop switch and drive control devices.