RU2077063C1 - Workability testing method for metering data collection circuit - Google Patents

Abstract

FIELD: measurement technology. SUBSTANCE: method includes strain resistors output signals metering with results indication, diagnostic device connected to indication block for metering results reading out by line to test commutator fault. Results of metering are brought out to indication block from each executive part of commutator by line and metering data amount on each line is equal to number of control trenches of first step gates of commutator executive part, lines number is equal to quotient of control trenches number of commutator executive part and metering data number for one line. Commutator faults presence in corresponding control trench are determined by metering results analyzing which indicate type of fault, breaks and short circuits. Method may be useful for multistage structure of commutator switching members controlled for each steps by positional code using. EFFECT: more effective method for multichannel metering system. 2 dwg

Description

 The invention relates to measuring equipment and can be used to diagnose malfunctions of a switch with a multi-stage connection structure of key elements controlled by position codes at each stage, as part of measuring systems designed to measure signals from a large number of strain gauges.

 Measurement information collection circuits include strain gages and switch measurement channels. The measurement results are perceived by the system operator as breaks or short circuits of strain gauges not only in case of break or short circuit between the terminals of the strain gauges, but also in the event of malfunctions in the control circuits of the key elements of the measuring channels of the switch. So, in the event of a break in the switch control line or failures in the switch control device, the corresponding key elements of the executive part of the switch will not be closed when control signals are applied to them, the strain gages will not be connected to the measuring device and the measurement results on these switch channels will be perceived by the operator as breaks in the terminals of the strain gages. If the control line lines are connected to each other through a connecting cable from the switch control device to key elements or failures to the switch control device through closed key elements, two or more strain gages will be connected to the input of the measuring device, the total resistance in parallel connected to the input of the measuring device of the strain gages will be less permissible values of the measuring range of the measuring device and the measurement results will be in are perceived by the system operator as a short circuit of the terminals of the corresponding strain gauges. Thus, uncontrolled failures in the switch control circuits lead to the loss of information from operable strain gages. To eliminate this phenomenon in systems, it is necessary to introduce control of the operability of control circuits and diagnostics of malfunctions of the switch.

 A device for monitoring the operation of the control part of a relay switch matrix type (EG Zubov "Device for monitoring the control part of a relay switch matrix type", AS USSR N 272402, H 04 B 3/46, 1970). The device implements a method for monitoring bus signals of the control part of a matrix-type switch based on an a priori knowledge of the magnitude of these signals over time. The device consists of two blocks: one for monitoring the signals changing on the horizontal channels of the switch during polling of the switch channels, the other for monitoring signals on the vertical buses of the switch. Functional is the state in which one relay of the executive part of the switch is selected. This is done by applying position codes to the vertical and horizontal busbars of the switch. For example, in the process of polling the switch channels, one of the vertical buses should have a zero signal level, and all the others should have a low level, at the same time one of the corresponding horizontal buses should have a low signal level, and all the rest should be zero. All other signal levels on the buses indicate a malfunctioning state of the switch control device, about which in these cases the control device gives a signal.

 The known device can be used to monitor the operability of the control part of the switch with a multi-stage structure of connecting key elements in the executive part for the case when the decryption of binary control codes occurs in the control part of the switch, and a position code is transmitted to the control line and executive parts for each stage, which has one logical unit and the remaining logical zeros.

 If we consider, for example, a negative signal level as a logical unit and a positive level as a logical zero, then the unit for monitoring signal levels on the horizontal buses of the matrix switcher can be used to monitor the operability of each group of control line lines. Moreover, if, for example, the switch has three levels of key elements, then it is necessary to have three groups of control line lines and three control units. A disadvantage of the known device is that it cannot be used to diagnose faults, since it is not suitable for troubleshooting.

 A known method of monitoring the health of the circuits of the collection of measuring information (E. G. Zubov, I. A. Kodina, A. I. Lebedev "Method of monitoring the health of the circuits of collecting measurement information", patent of the Russian Federation 2.028641 01 R 31/28 according to the application N 4875487/21 (100336). The method is intended for diagnosing malfunctions of a matrix-type switch in strain gauge measuring systems and consists in measuring the signals of strain gauges, indicating the measurement results in rows and columns, the addresses of which correspond to the addresses of horizontal and vertical bus matrix of the switch, connecting the display device to the diagnostic device, reading on it from the display device the measurement results in rows and determining the magnitude and type of malfunction in the switch on horizontal and vertical buses.

 The disadvantage of this method is that it cannot be used to diagnose malfunctions of a switch with a multi-stage structure of the connection of key elements in the executive parts. The structure of such a switch is different from the structure of a matrix switch. It does not have horizontal and vertical control buses, and therefore, the operation associated with the display of measurement results in rows and columns whose addresses correspond to the addresses of the horizontal and vertical buses of the matrix switch, and all subsequent operations in the switch with a multi-stage structure of connecting key elements in the executive parts cannot be implemented.

 The task is to increase the reliability and reduce the loss of measurement information from the strain gauges of the measurement system, as well as to reduce the troubleshooting time in the switch with a multi-stage connection structure of the key elements controlled by the position code, by detecting and then eliminating the faults in the switch control circuits, which lead to non-attachment or, respectively, simultaneous attachment of two or more strain gages to the input of the measuring device.

 The technical result of the invention is to perform fault diagnosis of a switch with a multi-stage connection structure of key elements controlled by a position code.

 The technical result is achieved by the fact that in the known method of monitoring the operability of the circuits for collecting measurement information, which consists in measuring the signals of the strain gauges, indicating the measurement results, connecting the indicating device to the diagnostic device, reading line by line from the indicating device the measurement results and diagnosing malfunctions of the switch, in which the total number of switch channels with readings corresponding to open and short circuits in the collection circuits and measuring information is allocated to channels whose readings correspond to breaks or short circuits in the measurement information collection circuits due to malfunctions in the control circuit of the switch, which lead to non-connection or, respectively, simultaneous connection of two or more strain gages to the input of the measuring device, introduce a new mode for indicating measurement results, consisting in the fact that the measurement results are line-by-line, in each line their number is equal to the number of positional control lines to the first element of the Executive part of the switch, the number of lines is equal to the quotient from dividing the number of channels of the Executive part of the switch by the number of measurement results per line, output to the display device, and a new mode for determining the failure of the switch is introduced, which consists in the fact that according to the results of measurements corresponding to breaks and short circuits in the circuits for collecting measurement information, determine the presence and type of fault for the corresponding control stage of the switch.

 Figure 1 presents a block diagram of a strain gauge measuring system; figure 2 functional diagram of the switch with a three-stage structure of the connection of key elements in the Executive parts and decryption of binary control codes in the control part of the switch.

 The measuring system (Fig. 1) consists of a switch 1 with a multi-stage structure for connecting key elements in the actuating parts for alternately connecting the strain gauges to the input of the measuring device 2, the control device of the measuring system 3 and the indicating device 4. A diagnostic device 5 is connected to the measuring system.

 Switch 1 can be relay (contact) and non-contact. For example, consider the contactless switch 1 (figure 2) on 64 channels with decryption of binary codes in the control part of the switch.

 Switch 1 consists of a control part 6, a control line 21 and executive parts 32, 50, 16 analog inputs each.

 The control part 6 consists of a binary counter 7, binary decimal decoders 8-10 and trunk amplifiers 11-20. The control line 21 contains control lines connected on one side to the main amplifiers, and on the other hand to resistors 22-31, which are connected to a voltage source E. Each actuating part 32, 50 contains key elements interconnected in three stages. The first stage is formed by key elements 33-44, 16 of them, in Fig.2 4 key elements are not shown. The second stage is formed by the key elements 45-48, and the third stage is the key element 49. The key elements are made on integrated circuits, for example, 168KT2V. The key elements 33-44 at the output are connected to the corresponding key elements 45-48, and at the input they are connected to the strain gauges in a 4-wire circuit. The key element 49 is connected at the input to the outputs of the key elements 45-48, at the output with a measuring line, which is connected to the input of the measuring device 2. The outputs of all 4 actuating parts are connected to the measuring line (Fig. 2 shows two actuating parts 32 and fifty). Management of the key elements of the executive parts is carried out by the control part 6 clock pulses TI coming from the device 3, through the lines of the control line 21, which are connected to the first, second and third stages of key elements.

 The method is as follows. The strain gages are connected in series through the switch 1 to the input of the measuring device 2. Measure the signals of the strain gages and the measurement results for each actuator part of the switch are line-by-line presented on the indicating device 4. The number of measurement results per line is equal to the number of control lines designed for positional control of key elements of the first stage of the switch so that the momentum that opens the key elements appears on one corresponding line yn control, while on the other control lines of the first stage of the switch pulses appear, covering the key elements of the first stage. The number of lines of measurement results output to the indicating device 4 is equal to the quotient of dividing the number of channels of one executive part of the switch by the number of measurement results in one line.

 As the display device 4, a computer display, digital printing device or mimic diagram with color indication of deviations of the measurement results from the norm can be used. Three colors of the alarm can be used: the measurement result of the strain gage signal is in the measurement range of one color, the measurement result is outside the measurement limit with a minus sign, which corresponds, for example, to the simultaneous connection of two or more strain gages at the input of the measuring device due to malfunctions in to the switch or the closure of the measurement terminals of the strain gauge with each other, is a different color, and, finally, the measurement result of the strain gauge goes beyond the measurement limit with a plus sign, which corresponds to There is a break in the measuring information collection circuit or a strain gauge is not connected to the measuring device due to a break in the control line — the third color. If, according to the experimental conditions, it is not necessary to connect the strain gages to all the inputs of the switch, then the values corresponding to the breakage of the strain gages along these channels of the switch are preliminarily displayed in rows.

 Then, the diagnostic device 5 is connected to the indicating device 4, the measurement results are read in line from the device 4, and the results and measurements corresponding to breaks and short circuits in the measurement information collection circuits are determined, the presence and type of malfunction for the corresponding control stage of the switch are determined. In this case, the switch channels, to which strain gages are not connected, do not participate in the analysis of the malfunction.

Diagnostic device 5 is a logical device that performs the following logical operations:
if the measurement results corresponding to the breaks in the information collection circuits are located in a column, then there is a break in the control line of the first stage of the executive part of the switch with the same number as the column number, or there is a malfunction in the control channel of this line;
if the measurement results corresponding to the breaks in the information collection circuits are located on one line, then there is a break in the control line of the second stage of the executive part of the switch with the same number as the line number, or there is a malfunction in the control channel of this line;
if the measurement results corresponding to the breaks in the information collection circuits are located in all rows, then there is a break in the control line of the third stage of the executive part of the switch for which such a situation is recorded, or there is a malfunction in the control channel of this line;
if the measurement results corresponding to the short circuit of the data acquisition circuits are located in two or more columns, then there is a short circuit between the control lines of the first stage of the executive part of the switch with the same numbers as the column numbers, or there is a malfunction in the control channels for this data;
if the measurement results corresponding to the short circuit of the information collection circuits are located in two or more lines, then there is a short circuit between the control lines of the second stage of the executive part of the switch with the same numbers as the line numbers, or there is a malfunction in the control channels of these lines;
if the measurement results corresponding to the short circuit of the information collection circuits are located in all rows for the corresponding executive parts of the switch, then there is a short circuit between the control lines of the third stage of the executive parts of the switch with the same numbers as the numbers of the corresponding executive parts or there is a malfunction in the control channels of these data.

 A computer can be used as a diagnostic device, and the system operator can also perform the function of the diagnostic device. In this case, the operator looks at the measurement results displayed on the display device and determines from the measurement results corresponding to open or short circuits in the measurement information collection circuits the presence and type of malfunction in accordance with the rules of logical operations given for the diagnostic device.

 The application of the method increases the reliability and reduces the loss of measurement information in comparison with systems that do not have a fault diagnosis of the switch, by 80 - 90% and reduces the troubleshooting time by 1.5-2 times.

Claims (1)

 A method for monitoring the operability of measurement information collection circuits in a measuring system with a multi-stage structure of connecting key elements in the executive parts of switches controlled by a position code, which consists in measuring the strain gauge signals, indicating the measurement results, connecting the indicating device to the diagnostic device, and reading it out line by line from the indication device measurement and troubleshooting of the switch, in which of the total channels with indications corresponding to open circuits and short circuits in the circuits for collecting measurement information, allocate channels whose readings correspond to open circuits or short circuits in the circuits for collecting measurement information due to malfunctions in the control circuits of the switch, which lead to non-connection or, respectively, simultaneous connection of two or more strain gauges to the input of the measuring device, characterized in that the measurement results are output to the display device for each Executive h of the switch line by line, in each row the number of measurement results is equal to the number of positional control lines of key elements of the first stage of the executive part of the switch, the number of lines is equal to the quotient of dividing the number of channels of the executive part of the switch by the number of measurement results in the line, and according to the measurement results corresponding to short and short faults in the circuits for collecting measurement information, determine the presence and type of malfunction for the corresponding control stage of the switch torus.

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