SU746637A1 - Device for automatic monitoring of equipment operation - Google Patents

Description

(54) DEVICE FOR AUTOMATIC CONTROL OF EQUIPMENT OPERATION

I

This invention relates to devices for automatically controlling equipment operation with a cyclical nature of output.

A device for automatically monitoring equipment operation is known, comprising a cycle counter, a clock pulse generator, cycle sensors, a machine's own working time counter, and a counter of the number of own idle times 1.

This device allows you to automate the control of equipment use, to reveal the categories of machine downtime for a long period of time, but does not provide conclusive information about the nature of the product and the reasons for the simple equipment.

The closest in technical terms to the present invention is a device for automatic control of equipment operation, comprising a product presence sensor, connected to a production unit, an automatic bridge with a display element, a group in series: connected resistors. In addition, the device contains pulse counters, a warning lamp, a relay by the number of monitored equipment and a primary clock 2.

The principle of operation of the device is based on the use of the imbalance on the measuring bridge during the detuning of hot

5 would be one of the resistors. The increase in imbalance is proportional to the number of spun-tuned resistors, the number of which corresponds to the number of monitored items of equipment. The display element of the automatic bridge conducts a continuous recording on the tape of information about the time and number of working machines. The tape is moved by a tape mechanism.

This device cannot be used to obtain information on the reasons, the time, just the equipment for each of the reasons, since there are no nodes in it that allow fixing various causes and the time of just the equipment.

The purpose of the invention is to increase the efficiency of the device.

Claims (2)

This goal is achieved in that the device for automatic control of equipment operation, containing a product presence sensor connected to a product BbirfyCffa unit, an automatic bridge with an element, indications, a first set of series-connected resistors, a pulse generator, a unit for equipment downtime, a step detector, the second group of resistors connected in parallel through normally open contacts of the causes of equipment downtime, equipment condition sensors connected to The first unit of serially connected resistors, the lamella of the stepper and the second group of resistors, are shuntiro, connected to the output of the generator of impulses to the input of which are connected to the other contacts of the units of the main equipment’s downtime, connected to the output of the equipment; block output. , -,, FIG. 1 shows the prior art scheme of the device for automatic control of equipment operation; in fig. 2 is a diagram of the operation of the equipment obtained with this device. The device for automatic control of the operation of the product presence sensor 1 and the first 2, second 3 and third 4 sensors of the equipment condition, output unit 5, first 6, second 7 and third 8 units of equipment with equipment having relay contacts at the output 9 , 10, 11, 12, 13, 14 and 15, respectively, a generator of 16 pulses with an output KQHTaKTOM 17, an automatic bridge 18 with an ELEM indication, the resistors 19, 20, 21, 22, 23, 24, 25 are connected to the input of the automatic bridge, stepper finder 26. The device works as follows. The signal from the product availability sensor 1 is fed to the input of the product output unit 5, which by its contact 9 turns on the winding of the finder niaroBorp 26. Step stepper 26 triggers 1 step away, connecting via normally closed contact 17 resistor 19 to the input of the automatic bridge 18, causing it to break bridge circuit. , The display element of the automatic bridge 18 registers this change (the first step of the segment f of the diagram). When the second signal came from sensor 1, the second finder created a second step and connected the second step to the input of the automatic bridge 18, resistors 19 and 20. The display element of the automatic bridge 18 registers t7 and this change (the second step of the fg segment). Thus, after each signal from the sensor Ka, j of the presence of the product, the step finder 26 ShDKDjuchaet to the input of the autolgate moit 18 to the traveling resistor, and the display element records these changes in a stepped line (for example, segment f), which gives information about the number of incoming signals from the sensor 1 the presence of the product, corresponding to the number of products. After the stepping finder 26 reaches its rightmost position (point f of the diagram), it connects the last resistor 22. The recording node of the indication element of the automatic bridge. 18 ta; also occupies the extreme npaisoe position (point of the diagram), which corresponds to the full scale of the automatic bridge 18. With the next signal from the product presence sensor, I step finder 26 automatically returns to its original position and disconnects the resistors 19, 20, 21, 22, and the recording node of the display element of the automatic bridge 18 is returned to its original position (f point). : - As an output unit 5, ordinary electromagnetic relays or devices for comparing the actual production cycle of a product with a predetermined cycle can be used. If the monitored equipment is turned off (for example, at lunchtime), fo step finder 26 remains in the same position as the moment when the equipment stopped, since the product release stopped and the signal from presence sensor 1 did not come, Total resistance of resistors connected at the time of stopping the equipment does not change, and therefore a straight vertical line (ij) is recorded in the diagram of the automatic bridge. After the equipment is switched on, the release of products is resumed, signals from the sensor of availability of products 1 are received, and the device registers the release of products. The recording node of the display element of the automatic bridge 18 of the device maintains a continuous recording in the form of a chart on the tape, which is driven by the tape mechanism of the automatic bridge 18. If the production of articles for any reason ceases (for example, the lack of blanks, failure of equipment mechanisms, etc.) .), then from one of the sensors 2, 3, 4 of the equipment condition signals are sent to the corresponding blocks 6, 7, 8 causes of equipment downtime, As sensors 2, 3, 4 of the equipment condition can be used .. Mblery elements equipment automatic control circuits, etc. When the equipment is stopped for one reason one of the sensors is activated state of equipment, for example 3. It provides a signal to the input of the second unit 7 causes equipment downtime that his; contact 12 turns on the generator of 16 pulses, and contact 13 closes the resistor circuit 24. The switched on generator 16 impulses periodically bypasses and shunts the parallel circuit. consisting of the second group of resistors 23, 24 and 25 with its output contact 17, but since at that time only the circuit of resistor 24 was closed by contact 13, resistor 24 is periodically connected with the lamella circuit of step finder 26, i.e. 18, an additional resistance is periodically connected, and a vertical line having the form of rectangular oscillations (e.g., segment de) is recorded in the diagram. At the same time, the position of the schagovy finder lamella 26 does not change, since the release of products is stopped due to simple equipment. Similarly, the registration of simple equipment is carried out for other reasons from the first and third sensors 2 and 4 of the equipment condition. In order to distinguish the causes simply, the equipment that sensors 2, 3, 4 of the equipment state signal, the resistors 23, 24, 25 are made with different resistance values, and therefore the amplitude of the rectangular oscillations of the pick-up node of the display element of the automatic bridge 18 is different for each cause . Thus, due to the width of the vertical recording, it is judged, for what reason the equipment is idle. After the cause is eliminated, the equipment simply starts up again, the cause sensor of the equipment simply stops producing a signal, the corresponding block of causes of downtime opens its contacts, the pulse generator 16 stops producing pulses, the contact 17 of the pulse generator 16 closes and the cause is simply stopped on the diagram, the output resumes products, and the obliquely slatted line characterizing the output is recorded again. The oscillation frequency of the generator 16 pulses can be changed. If the oscillation frequency is chosen equal to the production cycle on the equipment, then with a simple diagram (in be, de, gh segments), it is possible to determine the number of products not produced for a reason, simply. Using the invention allows for a qualitative analysis of the operation of equipment with a cyclical nature. release of products, create reserves to increase equipment utilization and productivity. Apparatus of the invention for automatically monitoring equipment operation, comprising a product presence sensor connected to a production unit, an automatic bridge with a display element, the first group of series-connected resistors, characterized in that, in order to increase the efficiency of the device, a pulse generator, blocks are introduced into it causes of equipment downtime, step finder, the second group of resistors connected in parallel through normally open contacts of causes of equipment downtime, The equipment conditioners connected to the corresponding causes of equipment downtime, the first group of series-connected resistors, the step finder lamellae and the second group of resistors were connected to the input of the pulse generator, to the input of which other contacts of the equipment downtime causes were connected, the winding step finder connected to the output unit output. Sources of information taken into account during the examination 1. USSR author's certificate No. 344479, cl. G 07 C 3/10, 04.11.70. 2. USSR author's certificate number 153409, cl. G 07 C 3/06, 17.04.61 (prototype). 746637 Sh V -t eleven i5 i5 0fV & /  /eight FIG. L