RU2017219C1 - Device for registering idle time count of equipment - Google Patents

Abstract

FIELD: automatics and computer engineering. SUBSTANCE: device for registering the count of equipment idle time comprising idle time n-detection register 1, idle time- count n-storage register 4, pulse generator, AND gate 13 and counter further has interrogation-pulse distributor 3, reading-pulse distributor 12, reset unit 20, constant storage unit 15, address counter 14, equipment code indicator 16, idle-time count indicator 17, NOT gate array 18, puncher control unit 19, first 21, second 22, third 23 and fourth 24 key buttons, first A, second B, third C and fourth D manual switches. EFFECT: increased application range. 2 cl, 2 dwg

Description

 The invention relates to automation and computer engineering, and in particular to means for monitoring the operational characteristics of equipment, in particular, to devices for collecting and recording information about the reliability of programmed machine tools.

 A well-known serial-produced automated production recorder ARP-1M for the centralized collection, transmission and registration of information in workshops and enterprises of serial and mass production, in which signal sensors and workstation panels are connected via a polling unit to a linear unit that is connected to the registration control unit, unit data processing, the alarm control unit and the synchronizer, while the alarm control unit is connected to the controller console, the data processing unit is connected to the opera active storage device, print output control unit and registration control unit connected to a tape punch with a dispatcher console. It provides accounting of equipment downtime and accounting of manufactured products.

 The registrar's disadvantage is the lack of accounting for the failure rate, i.e., the number of equipment downtimes. In addition, it is expensive to use it for these purposes.

 A device for registering equipment downtime (ed. St. USSR N 13744262, class G 07 C 3/10, 1986), containing sensors, a polling unit, a pulse generator, a time recording unit, a frequency divider, switch, triggers, AND elements, OR, NOT, prohibition, delay, one-shot, encoder, comparison units, memory unit, display unit, input unit, counter, switches. It allows you to record equipment downtime for various reasons.

 The disadvantage of this device is the lack of registration of the failure rate as the most important information characterizing the reliability of the equipment.

 The closest in technical essence to the proposed is a device for monitoring the operation and downtime of equipment (ed. St. USSR N 1298786, class G 07 C 3/00, 1985), containing equipment status sensors, the outputs of which are connected to the corresponding first inputs of the memory unit the current state of the equipment, the first input of which is connected to the first input of the coincidence element, the second input of which is connected to the output of the memory block of the previous state of the equipment, a pulse generator, counter, decoder, delay element, the input of which connected to the output of the generator and the input of the counter, the outputs of which are connected to the corresponding inputs of the decoder, the outputs of which are connected to the second inputs of the memory block of the current state of the equipment and the first inputs of the memory block of the previous state of the equipment, and the output of the delay element is connected to the second input of the memory block of the previous state of the equipment, the third inputs of which are connected to the corresponding second outputs of the memory block of the current state of the equipment, the first output of which is the first m output device, the second output of which is the output of the coincidence element.

 The disadvantages of the prototype are the lack of indication and accumulation of information about the number of downtime of the equipment and the difficulty of its combined use with monitoring devices in operation, in which the outputs of the equipment status sensors are combined.

 The aim of the invention is to expand the information content of the device and its scope by using it as a stand-alone unit.

 The goal is achieved by the fact that in the device for recording equipment downtime, containing n downtime sensors, n downtime drives, a pulse generator, an AND element and a counter, a polling pulse distributor, a read pulse distributor, a zero setting unit, a read-only memory unit, an address counter are introduced , equipment number indicator, downtime indicator, element block NOT, punch control unit, first, second, third and fourth buttons, first, second, third and fourth manual switches, when ohms, the outputs of all sensors are combined and through the first manual switch are connected to the first inputs of the downtime drives, the outputs of which and the first inputs of the read-only memory block are bitwise interconnected and connected respectively to the first, second, third and fourth inputs of the block of elements NOT, the outputs of which are connected to an indicator of the number of outages, from the first to the Nth outputs of the polling pulse distributor, connected to the second inputs, respectively, from the first to the n-th drives of the number of outages and to the inputs, respectively, with On the nth idle sensor, the output of the pulse generator through the second manual switch is connected to the counting input of the polling pulse distributor, the installation input of which through the third manual switch is combined with the third inputs of the downtime drives and connected to the opening contact of the first button, the opening contact of the second button is connected with the fourth input of all drives of the number of downtime, the fifth inputs of which are connected to the read outs of the read pulse distributor, the indicator output of which is connected is connected with the input of the equipment number indicator, the second outputs of the permanent memory block are connected to the fifth, sixth and seventh inputs of the element block NOT, the outputs of the element block are NOT connected to the inputs of the control unit of the hammer, the first output of which is the output of the device, the closing contact of the third button is connected to the corresponding input the control unit of the punch and to the input of the zero-setting unit, the output of which is connected to the installed inputs of the read pulse distributor and the address counter, the outputs of which are connected s to the address inputs of the read-only memory block, the second output of the punch control unit is connected to the "Sample" input of the read-only memory block, to the first input of the AND element, to the counting input of the address counter, the first and second outputs of which are connected to the second and third inputs of the And element, opening the fourth button contact is connected to the first counting input of the read pulse distributor, the second counting input of which is connected to the output of the And element, the outputs of the same control buttons of the same name are connected to the power source.

 The downtime accumulator contains a D-trigger, a delay element, an AND element, an OR element, a counter, a block of AND-NOT elements and decoupling diodes, while the trigger output through the delay element is connected to the counter input of the counter, the outputs of which are connected to the first inputs of the AND element block -NOT, the second inputs of which and the first input of the AND element are combined and are the fifth input of the downtime drive, and the outputs of the AND block of elements through the corresponding decoupling diodes are the output of the downtime drive, the output of the And element is connected to ervomu input OR gate whose output is connected to the counter input of the installation, D-flip-flop input, C-input of the flip-flop, a second input of the OR gate, the second input of AND gate are respectively the first, second, third and fourth inputs of the drive downtime.

 The read pulse distributor contains a NOT element, a trigger, an OR element, a first and second counter, an amplifier block, a decoder and a group of decoders, the outputs of which are the distributor read outputs, the element output is NOT connected to the trigger R input, the output of which is connected to the first input of the element OR, whose output is connected to the counting input of the first counter and to the gating input of the decoder, the output of which is connected to the gating inputs of the corresponding decoders of the group of decoders, the data inputs of which are are bitwise interconnected and connected to the corresponding data outputs of the first counter, the overflow output of which is connected to the counting input of the second counter, the data outputs of which are connected to the decoder data inputs, the data outputs of the first and second counters are connected to the corresponding inputs of the amplifier block, the output of which is an indicator output read pulse distributor, the input of the element is NOT combined with the S-input of the trigger and is the first counting input of the read pulse distributor, setting whose internal input is the installation inputs of the first and second counters, the second input of the OR element is the second counting input of the read pulse distributor.

 In FIG. 1 shows a structural electrical circuit of a device for recording the number of downtimes of equipment; figure 2 - electrical circuit of the pulse distributor read, option.

 The device contains n sensors 1 equipment downtime, 2 pulses generator, distributor 3 polling pulses, n drives 4 the number of downtime, consisting of a D-trigger 5, element 6 time delay, element And 7, element OR 8, counter 9, block 10 elements And -NOT and decoupling diodes 11, read pulse distributor 12, element 13, address counter 14, read-only memory unit 15, equipment number indicator 16, equipment downtime indicator 17, element 18 NOT, punch control unit 19, zero setting unit 20 , the first button 21 - kn the general reset button, the second button 22 is the reset button of the n-th drive, the third button 23 is the power button for the punch, the fourth button 24 is the read button and manual switches A, B, C, D. The outputs of all n-sensors 1 are combined and through the first manual switch A is connected to the first inputs of the drives 4 of the number of downtimes, the outputs of which and the first outputs of the block 15 of permanent memory are alternately interconnected and connected respectively to the first, second, third and fourth inputs of the block 18 of elements NOT, the outputs of which are connected to the input indicator 17 the number of downtime. The outputs from the first to the N-th distributor of 3 polling pulses are connected to the second inputs, respectively, from the first to the n-th drives of the 4 downtime and through the corresponding fourth manual switch D to the inputs from the first to the n-th downtime sensors 1, respectively. The output of the 2 pulse generator through the second manual switch B is connected to the counting input of the polling pulse distributor 3, the installation input R of which through the third manual switch C is combined with the third inputs of the drives 4 of the idle time and connected to the opening contact of the button 21. The opening contact of the button 22 is connected to the fourth the input of all drives is 4 downtimes, the fifth inputs of which are connected to the read outputs of the distributor 12 read pulses, the indicator output of which is connected to the indicator input 16 nom Era equipment. The second outputs of the read-only memory block 15 are connected to the fifth, sixth and seventh inputs of the NOT element block 18, the outputs of which are connected to the inputs of the punch control unit 19, the first output of which is the output of the device. The closing contact of the button 23 is connected to the corresponding input of the punch control unit 19 and to the input of the zero setting unit 20, the output of which is connected to the installation inputs R of the pulse distributor 12 and the counter 14 of the address, the outputs of which are connected to the address inputs of the permanent memory unit 15. The second output of the punch control unit 19 is connected to the “Sampling” input of the read-only memory unit 15, with the first input of the And 13 element and with the counting input of the address counter 14, the first and second outputs of which are connected to the second and third inputs of the And 13. Open contact button 24 connected to the first counting input of the distributor 12 read pulses, the second counting input of which is connected to the output of the element And 13. The same contacts of all buttons 21, 22, 23, 24 are connected to a power source.

 The first, second, third, fourth and fifth inputs of each drive 4 idle times are respectively D-input, C-input of trigger 5, second input of OR element 8, second input of AND 7 element and first input of AND 7 element, second input connected to second the inputs of the block 10 AND-NOT elements, the first inputs of which are connected to the corresponding outputs of the counter 9, the counting input of which through the delay element 6 is connected to the output of the trigger 5. The output of the element And 7 is connected to the first input of the element OR 8, the output of which is connected to the installation input with etchika 9. The outputs 10 AND-NO elements via respective decoupling diodes 11 are output drive 4 of downtime.

 The distributor 12 of read pulses can be performed according to the scheme (Fig. 2), which contains an element NOT 25, a trigger 26, an OR element 27, counters 28, 29, a decoder 30, a group of decoders 31 and an amplifier block 32, the output of which is an indicator output of the distributor 12 read pulses. The outputs of the group of decoders 31 are the read outputs of the distributor 12 pulses. The output of the element NOT 25 is connected to the R-input of the trigger 26, the output of which is connected to the first input of the OR element 27. The output of the latter is connected to the counting input of the counter 28 and to the gating input of the decoder 30, the outputs of which are connected to the gating inputs of the corresponding decoders 31 of the group of decoders. The data inputs of the decoders 31 are bitwise interconnected and connected to the corresponding data outputs of the counter 28, the overflow output of which is connected to the counter input of the counter 29, the data outputs of which are connected to the data inputs of the decoder 30. The data outputs of the counters 28 and 29 are connected to the corresponding inputs of the amplifier block 32 The input of the element NOT 25 is combined with the S-input of the trigger 26 and is the first counting input of the distributor 12 of the read pulses, the installation input of which is the installation inputs of the counters 28, 29. The second the input of the OR element 27 is the second counting input of the read pulse distributor 12.

 The distributor of 3 pulses of the survey is made according to the scheme of the distributor of 12 read pulses without the block of amplifiers 32 and the second counting input. It serves to distribute the pulses from the generator 2 over N channels to interrogate the state of the sensors 1 (1) ... 1 (N) and record the closed state of the sensors in the corresponding drives 4 equipment downtime. Drives 4 are used to accumulate the number of downtime of the corresponding equipment during the month. Diodes 11 are used to increase the coupling coefficient for the output of AND-NOT elements of block 10 when connecting them to MOUNTING OR with a large number of drives 4 downtime.

 The distributor of 12 read pulses serves to distribute the read pulses from the read button 24 or the “Receive code” pulses from the punch control unit 19 through N channels to read information about the number of downtimes from the corresponding drive 4 downtimes to the downtime indicator 17 or to punched tape through the block 19 hammer control. The element NOT 25 with the trigger 26 eliminates the bounce of the read button 24.

 On the indicator 16 of the equipment number connected to the indicator outputs of the pulse distributor 12, the equipment number is displayed. The counter 14 addresses serves to switch the addresses of the block 15 of read-only memory. Block 15 permanent memory is used to store permanent data: equipment numbers, the characters "space", "end of the frame", as well as signs of the address or number in the fifth, sixth and seventh digits. Data is pre-written to memory in the inverse code in a certain sequence determined by the format of the punched tape frame. Permanent data from block 15 in combination with variable data stored in drives 4 of the number of downtimes are displayed on the tape at the end of the month. A block of NOT 18 elements inverts the inverse data code in a straight line. The punch control unit 19 is used to transmit information to a punch (not shown) by signals from the punch. In addition, it contains matching elements and monitors for “parity,” that is, it forms the eighth category of punched tape.

 The device operates as follows.

 At the beginning of the month, with the general reset button 21, all drives 4 of the number of downtimes and the distributor of 3 polling pulses are reset. After resetting, the output signal of the pulse generator 2 is fed to the counting input of the polling pulse distributor 3, where through the element NOT 25, trigger 26, element OR 27 is fed to the counting input of the counter 28 and to the gating input C of the decoder 30. The first pulse passes from the output 0 of the decoder 30 input C of the first decoder 31 and goes from its output 0 to output 1 of the distributor 3 pulses. At the end of the pulse on its trailing edge, the counter 28 changes its output code and the next pulse goes from the first decoder 31 to the output 2 of the pulse distributor 3, etc. up to the tenth pulse. At the end of the tenth pulse from the counter 28, the transfer signal switches the counter 29 to the next state, which activates the next output of the decoder 30 and the next ten pulses, from the eleventh to the twentieth, pass through the second decoder 31 to the corresponding outputs of the distributor 3 pulses, etc.

 The signals from the outputs of the distributors 3, as polling pulses, are fed to the inputs of the corresponding idle sensors 1 and, as gate gating pulses, to the second inputs of the corresponding drives 4 are idle times, the first inputs of which at the corresponding time instants receive signals from those idle sensors 1, which are turned on, those. equipment which is idle due to a malfunction. This state of the sensors 1 is recorded in the corresponding drive 4 number of downtime as follows.

 The on state of the idle sensor 1 gives a single output signal, and the off state gives a zero signal. These signals come to the input D of the flip-flops 5, to the input of which the gating recording pulses arrive at the corresponding moments. Those triggers 5, at the inputs of which these signals coincided, are switched to a single state, which, through the time delay element necessary to exclude the registration of short-term or erroneous inclusions, is written to the counter input 9 as the first idle time and stored until the corresponding downtime sensor 1 will not turn off and will not turn on again when the equipment is idle again. With each repeated downtime, the contents of the counter 9 of the corresponding drive increases by one and remains until the end of the month.

 To obtain information about the number of downtimes of each equipment on any day of the month, a read button 24 is used, with each pressing of which information is alternately, starting from the first drive on the Nth, through the I 10 elements, diodes 11 and NOT 18 elements, the downtime indicator 17 is displayed . The drive number 4 is the number of downtimes, and accordingly the equipment number is displayed in this case on the indicator 16 equipment numbers.

 Erroneous information in any of the N drives is reset by simultaneously pressing the reset buttons 22 of the N-th drive and 24 reading information. In this case, the selected drive 4 of the number of downtimes when the read button 24 is pressed through the corresponding output of the read pulse distributor 12 receives a unit potential at one input of the And 7 element, the other input of which, when the reset button 22 of the N-th drive is pressed, is also one. The signal from the output of the AND 7 element through the OR element 8 at the R-input of counter 9 sets this drive to zero.

 At the end of each month, information from the device is displayed on a punched tape for storage and for further processing on a computer in order to obtain annual information on the number of equipment downtimes.

 When you turn on the button 23 through the block 20, the zero settings are reset by the reset pulse on the R-inputs of the distributor 12 of the read pulses and the counter 14 addresses to the zero state and turns on the punch through the block 19 control the punch. The signal "Code Reception" from the punch control unit 19, which is input to the "Sample" of the read-only memory unit 15, reads the "Start of program" information from the zero address of the read-only memory unit 15, which from its output through the HE 18 elements and the control unit 19 punch is transferred to the punch and perforated on punch tape. At the end of the “Receive Code” signal, the counter 14 of the address switches over the counting input, setting the read-only memory unit 15 to the next address, from which the high line of the equipment number is read from the next “Receive Code” signal. The third signal, “Receive Code,” reads the lowest line of the equipment number. According to the fourth signal, when at the first and second outputs of the address counter 14, single signals enabling operation of the And 13 element are read through the And 13 element, the second counting input C2 of the read pulse distributor 12 and its first output information on the number of downtimes from the first drive 4 downtimes . At the same time, information is also read from the permanent memory block 15, but since a “space” (lack of information) was previously recorded at this address, its outputs for all digits, except for the digit sign category, remain in a single state and do not interfere with the removal of information from Drive 4 downtime. At the end of the fourth signal "Code Reception", the pulse distributor 12 switches to the second state, and the address counter 14 switches to the fourth state, in which the resolving signals on the And 13 element disappear. The information from block 15 of the read-only memory is read out from the fifth signal "Code reception" address with the symbol "End of frame". Similarly, the reading of the information of the second frame, i.e. on the sixth and seventh signals “Code Reception”, information is read from the permanent memory block 15 from the equipment number, on the eighth signal, when the enabling signals at the inputs of the And 13 elements reappear, information on the number of downtimes from the second drive, 4 downtimes, is read out, on the ninth signal - the "End of frame" symbol from block 15 of read-only memory, etc. up to N frames.

 The frame format can be changed by soldering the allowable inputs of the And 13 element to the various outputs of the address counter 14, shortening or lengthening the format of the punched tape frame, depending on what characters are needed on the punched tape to process it on a particular computer.

 When using the device in enterprises where commercially available plants are used to control the operation of equipment, for example, type ARP-1M or type K-527, the manual switches A, B, C are put into the dashed position, and the switches D (1) ... D ( N) are canceled, i.e. the device is connected directly to the ARP-1M or K-527 installations, from which, at the same time, the idle signal, the clock signal and the “Beginning of polling” signal are sent respectively to the switches A, B, C. The order of work remains the same.

 The introduction of an indication of the number of downtimes and the accumulation of information on the number of downtimes, as well as the proposed procedure for connecting the device elements and its connection circuits to the monitoring object, expand information on the reliability of the equipment being monitored and the scope of the device, since it can be used as a stand-alone control device and together with devices control, in operation, to expand their information capabilities.

Claims (3)

 1. DEVICE FOR REGISTRATION OF THE NUMBER OF EQUIPMENT Downtime, containing n downtime sensors and n downtime drives, a pulse generator, an I element and a counter, characterized in that, in order to expand the information content of the device and its scope by using it as a stand-alone unit , it includes a polling pulse distributor, a read pulse distributor, a zero setting unit, a permanent memory unit, an address counter, an equipment number indicator, an idle number indicator, an element block Н E, a punch control unit, four buttons, four manual switches, the outputs of all sensors are combined and through the first manual switch are connected to the first inputs of the downtime drives, the outputs of which and the first outputs of the permanent memory block are bitwise combined and connected respectively to the first and fourth inputs of the element block NOT, the outputs of which are connected to the input of the indicator of the number of downtimes, from the first to the Nth outputs of the polling pulse distributor are connected to the second inputs, respectively, from the first to the n-th drives Isla downtime and to the inputs from the first to the n-th downtime sensors, the output of the pulse generator through the second manual switch is connected to the counting input of the polling pulse distributor, the installation input of which through the third manual switch is combined with the third inputs of the downtime drives and connected to the NC contact of the first buttons, the opening contact of the second button is connected to the fourth input of all drives idle time, the fifth inputs of which are connected to the readout outputs of the pulse distributor with readings, the indicator output of which is connected to the input of the equipment number indicator, the second outputs of the permanent memory block are connected to the fifth, sixth and seventh inputs of the element block NOT, the outputs of the element block are NOT connected to the inputs of the control unit of the hammer drill, the first output of which is the output of the device, making the third contact buttons connected to the corresponding input of the control unit of the hammer and to the input of the zero-setting unit, the output of which is connected to the installation inputs of the read pulse distributor and the address counter, the outputs of which are connected to the address inputs of the read-only memory block, the second output of the punch control unit is connected to the “Sampling” input of the read-only memory block, with the first input of the And element, with the counter input of the address counter, the first and second outputs of which are connected to the second and third inputs of the And element, the NC contact of the fourth button is connected to the first counting input of the read pulse distributor, the second counting input of which is connected to the output of the And element, the same outputs of all buttons are connected to power point.  2. The device according to claim 1, characterized in that each drive of the number of downtime contains a D-trigger, a delay element, an AND element, an OR element, a counter, a block of AND elements and NOT decoupling diodes, the trigger output through the delay element is connected to the counting input a counter whose outputs are connected to the first inputs of the AND block of elements AND are NOT, the second inputs of which and the first input of the AND element are combined and are the fifth input of the number of downtime drives, and the outputs of the AND block of NOT elements through the corresponding decoupling diodes are the output of the idle time, the output of the AND element is connected to the first input of the OR element, the output of which is connected to the installation input of the counter, the D-input, C-input of the trigger, the second input of the OR element, the second input of the AND element are the first and fourth inputs of the idle time storage device, respectively.  3. The device according to claim 1, characterized in that the read pulse distributor contains an element NOT, a trigger, an OR element, first and second counters, an amplifier block, a decoder and a group of decoders, the outputs of which are the outputs of the distributor reading, the output of the element is NOT connected to R - the input of the trigger, the output of which is connected to the first input of the OR element, the output of which is connected to the counting input of the first counter and to the gating input of the decoder, the output of which is connected to the gating inputs of the corresponding decoders of group d encoders whose data inputs are bitwise interconnected and connected to the corresponding data outputs of the first counter, the overflow output of which is connected to the counting input of the second counter, the data outputs of which are connected to the decoder data inputs, the data outputs of the first and second counters are connected to the corresponding inputs of the amplifier unit, the output of which is the indicator output of the read pulse distributor, the input of the element is NOT combined with the S-input of the trigger and is the first counting input of the distributor of the read pulse generator, the installation input of which is the installation inputs of the first and second counters, the second input of the OR element is the second counting input of the read pulse distributor.

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