CS248304B1 - Switching circuit wiring for measurement - Google Patents

Abstract

The subject is the connection of a switching circuit for measurement, which solves the simple implementation of the measurement of electrical quantities for a larger number of outlets and other branches in substations and is also applicable in other cases and for the measurement of quantities other than electrical wherever measurements are made with the conversion of the measured quantities to electrical quantities. The connection contains at least one summing element, two logic circuits, two switches, one measuring resistor, two disconnecting terminals, one button and three diodes. The basic circuit of the connection can be repeated or expanded depending on the number of measuring points in a given object and the number of measured quantities.

Description

It is an object of the present invention to provide a measurement switching circuit that solves the simple measurement of electrical quantities for multiple outlets and other taps in substations and is applicable in other cases and for measurement of non-electrical quantities wherever measurements are measured. electrical quantities.

Until now, electrical quantities have been measured mostly by individual indicating devices or digital measurements using computers or microcomputers.

The disadvantage of the existing connections is, in particular, that the first method is obsolete and requires a large number of pointing devices, which, in large stations in particular, leads to excessive cost of acquisition and operation, and unnecessary and costly in small unmanned stations, space and cabling, etc. . The second method is used only for large workstations where a computer is available and cannot be used for small workstations for high purchase and maintenance costs.

These disadvantages are overcome by the connection of the measurement switching circuit according to the invention. It contains at least one summation element, two logic circuits, two switches, one measuring resistor, two disconnecting terminals, one push button and three diodes. The principle of the invention is that the first input of the first switch is connected to the first measuring busbar of the circuit, the second measuring busbar is connected to the second output of the first switch.

The second measuring input of the first switch is connected to one terminal of the first measuring resistor and to one pole of the second disconnecting terminal, the other pole of which is connected to the second wiring input. The first wiring input is connected to one pole of the first disconnecting terminal, the second pole of which is connected to the first measuring input of the first switch. The excitation input of the first switch is connected to the excitation input of the second switch, on the one hand

2,248,304 with an anode of a first diode, on the one hand with a first input of the first summation element, on the one hand with a first direct input of the first logic circuit, and with an output of a second logic circuit whose direct input is connected to the output of the first summation element. The second input of the first summation element is connected both to one pole of the switching contact of the first button and to the inverse input of the first logic circuit and to the anode of the third diode. The cathode of the third diode is connected to the wiring lubrication bar of the wiring and to the anode of the second diode, the cathode of which is connected to the second direct input of the first logic circuit. The output of the first logic circuit is connected to the inverse input of the second logic circuit, the second direct input of which is connected both to the second power busbar of the wiring and to the second pole of the switching contact of the first button and to the first power input of the second switch. The first output of the second switch is coupled to one pole of the indicator light of the first button, the second pole of which is connected either directly or via a resistor to the first supply busbar of the wiring. The cathode of the first diode is connected to the wiring output, which is always connected to one of the dimensional wiring busbars.

The advantage of connecting the switching circuit for the measurement according to the invention is that it is very simple, low in space and wiring and relatively very cheap, especially with a large number of measured quantities. Also, maintenance is very simple 8, which is advantageous especially for small substations, power stations and other objects without permanent operation. However, they can also be used in larger substations, electric stations in those cases where digital control technology is not used, which is often the case especially in older buildings and reconstructed operations.

An example of a switching circuit for measurement according to the invention is shown in the attached logic diagram. The individual wiring blocks can be characterized as follows:

The summation elements 11 and 11 are conventional diode passive logic sums of two and four inputs and one output.

The first logic circuit 2 is also a conventional diodorel circuit, realized by a reed switch contact with a coil connected in series with a resistor, the common pole of the coil and the resistor being the inverse input 2.3. Direct inputs 2.1 a

2.2 are formed both by the free pole of the coil and by one pole

- 3 248 304 relay contact and output 2.4 is formed by the second pole of this contact. By applying the unit signal to the first direct input 2.1. which is also the coil input, © to the second direct input 2.2 «which is also the reed contact input, in the absence of a unit signal on the inverse input

2.3 the relay closes and the reed contact outputs a unit signal. By applying a unit signal to the inverse input 2.3 of the first logic circuit 2, the relay coil is blocked by placing the common coil pole and resistance at the unit signal level potential. In the presence of a unit signal at inverse input 2.3, there is never a unit signal at output 2.4.

The second logic circuit J is identical in design and function to the first logic circuit 2.

The switches 8, 41, 42, 42 are realized by dual-language relays which may also have a coil connected in series with a resistor, but this is not necessary. Each pole of one switching contact forms one measuring input and the other pole the output of the switch. The free pole of the coil forms the drive input of the switch.

The measuring resistors 61, 62 are precision but very simple wire resistors, wound on conventional cubes, which ensure adaptation of the measurement range and its conversion to a uniform voltage measurement signal.

The disconnecting terminals 2 »®, 21» 72. 81. 82 are any terminals and are intended for the possibility of connecting a control measuring instrument for calibration purposes.

Buttons 2 »51» 15 »101 are conventional buttons with one or more make contacts and a signal lamp.

The inverter 12 is most easily implemented in the same way as the first logic circuit 2. which means that it contains the same components with both direct inputs connected in a single and connected to a unit signal source and the inverse input is the only inverter input as well as ^ becomes its output.

Shorting 13 is formed by a reed relay in series with a resistor, wherein the free pole of a coil excitation input shorting 13.1 22 ^»0 the two poles of the switch of the reed relay forming the first and second shorting terminal 13.2, 13.3.

The second and third shorting devices 14 and 15 are respectively provided.

All wiring busbars 011 to 023 can be realized as mere multiple connections and thus do not have to form special wiring components.

In the example of the switching circuit for the measurement according to the invention shown in the attached logic diagram, the interconnection of the individual wiring sub-blocks is as follows:

The first output 4.3 of the first switch 6 is connected to the first measuring busbar 018, the second measuring busbar 019 is connected to the second output 4.4 of the first switch 6. The second measuring input 4.5 of the first switch 6 is connected to one terminal of the first measuring resistor 6 and to one movement of the second disconnecting terminal 8, the second pole of which is connected to the second wiring input 02. The first wiring input 01 is connected to one pole of the first disconnecting terminal 2, whose second pole is connected both to the second terminal of the first measuring resistor 6 and to the first measuring input 4.2 of the first switch 6. The excitation input 4.1 of the first switch 6 is connected to the excitation input 5.1 of the second switch 6, to the anode of the first diode 6, to the first input 1.1 of the first summation member 6, and to the first direct input 2.1 of the first logic circuit 2 and a second logic circuit 6 having a first direct input

3.1 is coupled to the output 1.3 of the first summation member.

The second input 1.2 of the first summation element 8 is connected both to one pole of the switching contact of the first button 2 and to the inverse input 2.3 of the first logic circuit 2 and to the anode of the third diode 48. The cathode of the third diode 18 is connected to the wiring erase bus 013 and the 8th diode of the second diode 60, the cathode of which is connected to the second direct input 2.2 of the first logic circuit 2. The output 2.4 of the first logic circuit 2 is connected to the inverse input 3.3 of the second logic circuit. input 3.2 is connected both to the second supply busbar 012 and to the second pole of the switching contact of the first pushbutton 2 and to the first non-solder input 5.2 of the second switch. The first output 5.3 of the second switch 2 is connected to one pole of the signal of the first button whose second pole is connected either directly or via a resistor to the first power busbar 011 of the circuit. The cathode of the first diode 66 is connected to the wiring output 07, which is connected to one of the wiring dimension busbars 014 to 017.

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If the basic circuit is extended by a second summation member 11, an inverter 12 and a third pushbutton 10 then a fourth input

11.4 of the second summation member 11 is connected to a fourth dimensional busbar 017 whose second power busbar 012 is connected to one pole of the switch contact of the third pushbutton 10. The second pole of the third push button 10 is connected to a lubrication busbar 013 of the circuit. with the second input 11.1 of the second summation member 11. The second input 11.2 of the second summation member 11 is connected to the second dimensional busbar 015 of the circuit, whose third dimensional busbar 016 is connected to the third input

The output 12.2 of the inverter 12 is connected to the excitation input 13.1 of the first crimper 13, the first shorting terminal 13.2 of which is connected to the first measuring busbar 018 of the circuit. The second wiring measuring busbar 019 is connected to the second shorting terminal 13.3 of the first shorting 13.

If the circuit is further extended by a third switch 41, a second measuring resistor 61, a third and a fourth disconnecting terminal ϋ, 72 and a second short-circuit 14. then the output 3.4 of the second logic circuit J is coupled to the drive input 41.1 of the third switch 41. 41.2 is connected to one terminal of the second measuring resistor 61 and to one pole of the third disconnecting terminal 21 · The second pole of the third disconnecting terminal 71 is connected to the third wiring input 03, the fourth input 04 of which is connected to one pole of the fourth disconnecting terminal 81. the second output 41.4 of the third switch 41 is connected to the fourth measuring busbar 021 of the circuit and to the second shorting terminal of the second shorting 14. The first shorting terminal 14.2 of the second shorting 14 is connected with third measuring busbar 020 and the first output 41.3 of the third switch 41. The drive input 14.1 of the second shunt 14 is coupled to the output 12.2 of the inverter 12.

The circuit may be further extended by a fourth switch 42.

a third measuring resistor 62, a fifth disconnecting terminal 72, a sixth disconnecting terminal 82, and a third short-circuiting member 1. 5. Output 3.4 dru-6-.

248 304 of the logic circuit J is connected to the drive input 42.1 of the fourth switch 42. whose first measuring input 42.2 is connected to one terminal of the third measuring resistor 62 and to one pole of the fifth disconnecting terminal? The second pole of the fifth cut-off terminal is coupled to the fifth wiring input 05, the sixth input 06 being coupled to one pole of the sixth cut-off terminal 82. The second pole of the sixth cut-off terminal 82 is coupled to the second terminal of the third measuring resistor 62 and

42.5 of the fourth switch 42. The second output 42.4 is coupled to the sixth measurement busbar 023 and the second shorting terminal 15.3 of the third short circuit 1 5. whose first shorting terminal 1 ^ 2 is connected to the fifth measurement busbar 022 and the first output 42.3 of the fourth switch 42. input

15.1 of the third shorting device 15 is connected to the output 12.2 of the inverter 12.

A preferred embodiment of the invention is that the second input 1.2 of the first summation member 11 is connected to one pole of the switch contact of the second button 91, the other of which is connected to the second power supply busbar 012. The first power supply bus 011 is either connected directly or through a resistor to one pole of the bulb of the second push button 91, the other of which is connected to the second output 5.5 of the second switch. A second power input of the second switch 2, 5.4 ^e j connected to the second power supply bus bar 012 connection.

It is also a preferred embodiment of the invention that the second wiring connection bus 012 is connected to one pole of the switch contact of the fourth push button 101, the other of which is connected to the wiring lubrication busbar 013.

The function of the switching circuit for the measurement according to the invention is as follows: The basic circuit of the circuit is the circuit defined in the first point of the invention, which is indicated by thicker lines in the enclosed logic diagram. It consists of a first summation of the two logic circuits 2e of the first and second switches 6 and 2 of the first measuring resistor 6, the first and second disconnecting terminals 2s 8 s of the first pushbutton which serve to select the measuring point. This circuit repeats as many times as there are measuring points in the object. If it is desired to select measuring points from two workplaces, this basic circuit is extended by a second button 91.

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For more of these basic circuits, there is another common extension by a third push-button 10, whose function is a lubrication or possibly a fourth push-button 101 with the same function at the second workstation, and a second summation member 11, inverter 12 and If the measured quantities are two, three or more, each basic circuit is expanded by a third switch 41 " fourth switch 42 or more switches as well as by additional measuring resistors 61, 62 or other measuring resistors as well as by other disconnecting terminals 21 " 81, 82 or other disconnecting terminals, with additional measuring bars 020, 021, 022, 023 or other measuring bars added. Also, in a common extension for multiple base circuits, there will be additional shorting devices AA, 11 or other shorting devices. The extent of expansion is quite arbitrary, but it rarely exceeds the number of four measured quantities. By pressing the first button 2 or the second button 91, the second logic circuit J is immediately energized via the second input 1.2 of the first summation element 1 and its output 1.3 from which the signal goes to the first direct input 3.1 of the second logic circuit J. feedback from its output 3.4 to the first input 1.1 of the first summation member 1 and remains in the energized state until recording is canceled by a pulse on the wiring bus bar 013 by pressing either the third or fourth pushbuttons 10 or 101, or also by pressing the first or second the buttons 2, or 91 of any other basic circuit, since all these buttons of all the basic circuits always send pulses to the lubrication busbar 013 via the third diode 18 during printing. Simultaneously with the excitation of the second logic circuit 3, a signal is also output from its output 3.4 via the first diode 16 to one of the dimensional busbars 014 to 017, where it determines the range of the selected measuring point, which can and often varies for different measuring points. All measurement busbars 018 to 023 and all dimensional busbars 014 to 017 are routed to a common measuring instrument, usually digital, which is not indicated in the enclosed logic diagram. From the dimension busbars 014 to 017, the first or further short circuit 13: is energized via the second summation member 11 and the inverter 12. 14. 15 or other short-circuiting switches that switch over when the wiring is on

- 8 Whose circuit when out of operation Ensure short-circuiting of the random induced signals on the connection path between the measurement switching circuit connection and the common meter. After the measurement of a certain measuring point is finished, the lubrication pulse from the lubricating busbar 013 connects through the second diode 17 at all basic circuits to the second direct input

2.2 of the first logic circuit 2. However, at its output 2.4, this lubrication pulse is only applied to the base circuit selected, which provides a feedback signal at the first input 2.1 of the first logic circuit 2, since the relationship of the two direct inputs of the two logic circuits 2, J has the character of a logical product. In this way it is ensured that only the basic circuit that has been selected is always erased, but the one that is just re-selected is not erased, because when the first or second pushbutton 2 or 91 is pressed 2, which prevents the lubrication pulse from passing to its output 2.4. From this output, the lubrication pulse is routed directly to the inverse input

3.3 of the second logic circuit J, where it terminates the recording. Once selected, the output 3.4 of the second logic circuit J also sends a signal to the drive inputs 4.1 and 5.1 of the first and second switches 6 and 6. The first switch 6 connects the measured quantity applied to the first and second wiring inputs 01 and 02 in the form of a current signal to the first and second wiring measuring busbars 018 and 019 by closing its measuring inputs 4.2 and 4.5 with its outputs

4.3 and 4 * 4. The measuring resistor 6 serves to convert the current signal into a suitable voltage signal. After the measurement is completed, the first and second measuring busbars are short-circuited by the first shorting device 13

018 and 019 of the circuit, automatically in connection with the loss of signal on the respective dimension busbars 014 to 017 of the circuit. Similarly, the other measuring busbars 020 to 023, the measuring resistors 61 62 62 and the shortcuts 14 and 15 work similarly to the corresponding inputs 03 to 06 and the corresponding dimension and measuring busbars 014 to 017 and 020 to 0 ^ 3.

The circuit of the measurement switching circuit according to the invention is used in the design and manufacture of type measuring blocks for unattended electric stations or possibly for other objects.

Claims (6)

1. Connection of a measurement switching circuit, comprising at least one summation element, two logic circuits, two switches, one measuring resistor, two disconnecting terminals, one button and three diodes, characterized in that the first output (4.3) of the first switch (4) is connected to the first measuring busbar (018) of the circuit, whose second measuring busbar (019) is connected to the second output (4.4) of the first switch (4), whose second measuring input (4.5) is connected to one terminal of the first measuring resistor (6) and one pole of the second disconnecting terminal (8), the second pole of which is connected to the second terminal (02) of the circuit, the first input (01) of which is connected to one pole of the first disconnecting terminal (V), the second pole of which is connected to the second terminal of the first measuring resistor (6), on the one hand with the first measuring input (4.2) of the first switch (4), whose excitation input (4.1) is connected with the excitation input (5.1) of the second switch (5) and with the anode p diodes (16), both with the first input (1.1) of the first summation element (1), with the first direct input (2.1) of the first logic circuit (2) and with the output (3.4) of the second logic circuit (3), the direct input (3.1) is connected to the output (1.3) of the first summation element (1), the second input (1.2) of which is connected both with one pole of the switching contact of the first button (9) and with the inverse input (2.3) of the first logic circuit ( 2) and on the other hand an anode of the third diode (18), the cathode of which is connected to the wiring lubrication busbar (013) and an anode of the second diode (17), the cathode of which is connected to the second direct input (2.2) of the first logic circuit (2). the output (2.4) is connected to the inverse input (3.3) of the second logic circuit (3) »whose second direct input (3.2) is connected both to the second supply busbar (012) and to the other pole of the switching contact of the first pushbutton (9) first with the first power supply a second input (5.2), the first output (5.3) of which is connected to one pole of the indicator of the first button (9), the other of which is connected either directly or via a resistor to the first supply busbar (011), the cathode of the first diode (16) is coupled to the wiring output (07), which is each connected to one of the dimension busbars (014) to (017) of the wiring. Wiring according to item 1, extended by one summation member, one inverter and one button, characterized in that the fourth input (11.4) of the second summation member (11) is connected to a fourth dimensional busbar (017) of the circuit, whose second power busbar ( 012) is connected to one pole of the switching contact of the third push button (10), the other pole of which is connected to the lubrication busbar (013) of the circuit, whose first dimensional busbar (014) is connected to the first input (11.1) of the second summation (11); whose second input (11.2) is connected to the second dimensional busbar (015) of the circuit, whose third dimensional busbar (016) is connected to the third input (11.3) of the second summation member (11), whose output (11.5) is connected to the input (12.1) ) of an inverter (12), whose output (12.2) is connected to the drive input (13.1) of the first short-circuit (13), whose first short-circuit terminal (13.2) is connected to the first measuring busbar (018) connection, whose second measuring busbar (019) is connected to the second shorting terminal (13.3) of the first shorting device (13) · 3. Connection according to item 1 or 2, extended by one switch, one measuring resistor, two disconnecting terminals and one short circuit, characterized in that the output (3.4) of the second logic circuit (3) is connected to the drive input (41.1) of the third switch ( 41), whose first measuring input (41.2) is connected to one terminal of the second measuring resistor (61) and to one pole of the third disconnecting terminal (71), the other pole of which is connected to a third input (03) of wiring, whose fourth input (04) is connected to one pole of the fourth disconnecting terminal (81), the other pole of which is connected to the second terminal of the second measuring resistor (61) and to the second measuring input (41.5) of the third switch (41). the wiring busbar (021) and the second shorting terminal (14.3) of the second shorting device (14), whose first shorting terminal (14.2) is connected to the third wiring measuring busbar (020) and the first output (41.3) ) of the third switch (41), the drive input (14.1) of the second shorting device (14) being connected to the output (12.2) of the inverter (12). 4. Wiring according to points 1 and 3, extended by one switch, one measuring resistor, two disconnecting terminals and one short-circuit, 248 304, characterized in that the output (3.4) of the second logic circuit (3) is connected to the drive input (42.1) of the fourth switch (42), the first measuring input (42.2) of which is connected to one terminal of the third measuring resistor (62) and a pole of a fifth cut-off terminal (72) whose second pole is coupled to a fifth wiring input (05) whose sixth input (06) is coupled to one pole of the sixth cut-off terminal (82) whose second pole is coupled to the second terminal of the third measuring resistor (62) and a second measuring input (42.5) of a fourth switch (42), the second output (42.4) of which is connected to a sixth measuring busbar (023) and a second shorting terminal (15.3) of the third shorting (15); 15.2) is connected to the fifth measuring busbar (022) and to the first output (42.3) of the fourth switch (42), the drive input (15.1) of the third shunt (15) being connected to the output (12.2) of the inverter (12). Connection according to claim 1, characterized in that the second input (1.2) of the first summation member (1) is connected to one pole of the switching contact of the second button (91), the other pole of which is connected to the second supply busbar (012). the first power busbar (011) is connected either through a resistor or directly to one pole of the second light bulb (91), the second pole of which is connected to the second output (5.5) of the second switch (5), whose second power input (5.4) is connected to the second supply busbar (012) of the wiring. * Connection according to claim 1, characterized in that the second power supply busbar (012) is connected to one pole of the switch contact of the fourth push button (101), the other pole of which is connected to the wiring lubrication busbar (013).