SU819583A1 - Device for scanning-type monitoring of fabric pieces - Google Patents

Description

The invention relates to automation and is intended to control the stole of several pieces of fabric tucked into one or more warping machines.

A device for circulating control of the cut of several pieces of fabric is known, comprising a block of sensors for the length of pieces of fabric, the outputs of which are connected to the input of the block analysis of the pile and control, and its output is connected to an actuator, a block of mark sensors fixed to each piece of fabric, the outputs of which are connected to the switching unit, a control trigger, the input of which is connected to the output of the switching unit, and the output - to the shaft analysis and control unit [1].

The disadvantage of this device is the large waiting time for the start of control of each piece of tissue (on average, the waiting time is 0.5 times the actual control time).

The purpose of the invention is the reduction of control time.

This goal is achieved by the fact that the device for loop control of the stitch of several pieces of fabric, containing a block of sensors for the length of pieces of fabric, the outputs of which are connected to the input of the block analysis of the stump and control, and its output is connected to an executive device, a block of sensors * tags attached to each piece fabric, the output of which is connected to the switching unit, the control trigger, the input of which is connected to the output of the switching unit, and the output with the block analysis and control unit, is equipped with a unit for analyzing the state of pieces of fabric and control switching, to the inputs of which a block of mark sensors is connected, and to output 15, a switching block and a block analysis module and control.

In FIG. 1 shows a block diagram of the proposed circumferential control device for the sewing of several pieces 20 of fabric 4 in FIG. 2 is a schematic diagram of a unit for analyzing the state of pieces of fabric and switching control and its connection to a switching unit, in FIG. 3 is a timing diagram of a device 25. ·>

A loop control device for storing several pieces of fabric contains block 1 sensors for the length of pieces of fabric, block 2 sensors for tags that are attached to the fabric, block 3 for analyzing respect and control, trigger trigger 4, block 5 for switching, block 6 for analyzing the state of pieces of fabric and control switching. Block 3 analysis of the jam and control contains a switch 7, a control key 8, a counter 9 pulses, the number of which is proportional to the length of the piece of fabric, the program controller 10, the selector 11, which controls the stop of the warping machine (not shown). Block 6 analysis of the state of the pieces of fabric and control switching contains elements And 12, 13 and 14, the circuit 16 of the Assembly and the register 17.

The device obgayuschego control stole several pieces of fabric works as follows.

In the process of operation, the mark sensors of block 2 form a sequence of pulses arbitrarily shifted over time, which arrive at the corresponding inputs of block 6 for analyzing the state of pieces of fabric and for switching control. Upon receipt of the first impulse from any sensor (for example, the first) of unit 2 (Fig. 3), unit 6 issues a command to connect the device · to control the corresponding piece of tissue. At the same time, this pulse through the switching unit 5 enters the trigger 4, which, when triggered, gives a signal for setting the counter 9 pulses in the initial state. At the same time, the same trigger signal 4 allows the passage of signals from block 1 of the sensor lengths of pieces of fabric. From this moment, the control of the length of a piece of fabric begins, during which the pulses from the other sensors of block 2 do not change the state of block 6 and trigger 4. When the second pulse arrives from the first sensor of block 2, trigger 4 changes its state and issues a command to end the control , and the obtained measurement result is compared in block 3 of the analysis of the heap and control with a given percentage of the heap of tissue. Depending on the result of the comparison, appropriate control is carried out. For example, if the percentage percentage of the given is equal, the machine is stopped. From this moment, the device is in a state of waiting for the start of control. Connection to the control of the next piece of fabric is similar. The piece of tissue * is connected to the control, the impulse from the label sensor of which arrives first during the standby state.

Thanks to the introduction of a unit for analyzing the state of pieces of fabric and switching control, a reduction in the monitoring time and an increase in the productivity of the device and its working time coefficient are provided. In addition, it provides a reduction in the idle time of the device by more than N times, where N is the number of controlled pieces of tissue.

Claims (1)

(54) THE DEVICE OF THE DIFFERENT CONTROL OF A MUMBER OF MULTIPLE TISCANTS AND CONTROLS, controlling trigger 4, switching unit 5, unit 6 for analyzing the state of tissue pieces and switching control. The shaft analysis and control unit 3 comprises a switch 7, a control key 8, a pulse counter 9, the number of which is proportional to the length of a piece of cloth, an air sensor 10 programs, a selector 11, and controls for stopping a sewing machine (not shown). The block b of analysis of the state of the tissue pieces and the switching control contains elements AND 12, 13 and 14, an assembly circuit 16 and a register 17. The device for monitoring the clearance of several pieces of cloth works as follows. In the course of operation, the sensors of the labels of block 2 form a sequence of these pulses, arbitrarily shifted ... in time, which arrive at the corresponding inputs of the block 6 for analyzing the state of pieces of fabric and switching control. When the first pulse arrives from any sensor (for example, the first) of block 2 (Fig. 3), block 6 issues a command to connect the device to monitor the corresponding piece of fabric. At the same time, this pulse through the switching unit 5 is fed to the trigger 4, which, if activated, signals the signal for setting the pulse counter 9 to the initial state. At the same time, the same trigger signal 4 permits the passage of signals from block 1 of sensors of the length of pieces of fabric. From this moment begins the control of the length of a piece of cloth, during which the pulses coming from the remaining sensors of block 2 do not change the state of block 6 and trigger 4. When the second pulse from the first sensor of block 2 of the second pulse starts, trigger 4 changes its state and emits a command to end the control, and the result of the measurement is compared in block 3 of the analysis of the shaft and control with a specified percentage of the shaft mk. Depending on the result of the match, appropriate control is carried out. For example, if the percentage of the dump is equal to the given one, the machine is stopped. At this point, the device is in a state of waiting for the start of monitoring. The connection to control the next piece of cloth is similar. The piece of fabric is connected to the control, the impulse from the sensor of which marks will come during the waiting state first. By introducing a block of tissue analysis and switching control, the monitoring time is reduced, the device performance and its working time ratio are improved. In addition, the idle operation time of the device is reduced by more than N times, where N is the number of controlled pieces of fabric. Formula of the Invention Monitoring Device for the Fold of Several Tissues, containing a block of sensors for the length of pieces of fabric, the outputs of which are connected to the input of the Fault Analysis and Control Unit, and its output is connected to the actuator, a block of sensors of the tags attached to each piece of fabric whose outputs are connected to the switching unit, the control trigger, whose input is connected with the output of the switching unit, and the output, to the shaft and control analysis unit, characterized in that, in order to reduce the monitoring time, it is equipped with Analysis of the state of pieces of fabric and switching control, the inputs of which are connected to the sensor unit, and the output of the switching unit and the analysis and control unit. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 300553, cl. VOB S 17/02, 1968 (prototype). to faoKyJ