JP4880326B2 - Phase changer - Google Patents

Description

  The present invention relates to a phase changer used when testing a relay panel.

  The relay panel detects an abnormality of the power system based on a secondary current from a current transformer installed in a power system carrying power and a secondary voltage from a measurement transformer. Various tests are conducted on these relay panels. For example, as shown in FIG. 9, the relay panel 100 inputs a voltage of an R phase, an S phase, and a T phase, and a current input unit 102 inputs a current of an R phase, an S phase, and a T phase. And the oscilloscope output unit 103 for observing the waveform and the monitor unit 104 for monitoring the operation of the relay panel 100 and the like, the test of the relay panel 100 is performed as follows.

The operator connects the oscilloscope output unit 103 that outputs a waveform of the input test voltage and the like to the synchroscope 210, and connects the monitor unit 104 that outputs an operation signal and the like of the relay panel 100 to the monitor unit 220. Further, the operator connects a voltage tester 230 that generates R-phase, S-phase, and T-phase test voltages to the R terminal, the S terminal, and the T terminal of the voltage input unit 101 of the relay panel 100, and supplies the test current. The generated current tester 240 is connected to one of the R terminal, S terminal, and T terminal of the current input unit 102 of the relay panel 100. After these connections, the operator operates the voltage tester 230 and the current tester 240 to input the test voltage and test current to the relay panel 100, and observes the state with the monitor unit 220 and the synchroscope 210. Then, the relay panel 100 is tested (see, for example, Patent Document 1).
JP 2001-231153 A

  By the way, the test of the relay panel 100 described above has the following problems. The operator connects the voltage tester 230 and the current tester 240 to the relay panel 100 during the test. However, since the relay panel 100 is for three phases, the voltage input of the relay panel 100 is switched when switching the voltage phase. There is a problem that the cable connected to the R terminal, S terminal, and T terminal of the unit 101, that is, the test wiring must be changed. Further, the R terminal, S terminal, and T terminal of the current input unit 102 of the relay panel 100 have a problem that the test wiring connected to one of these must be changed to another terminal. . In addition, incorrect wiring may occur when changing the test wiring. Furthermore, some relay panels 100 include a parent device and a child device, which makes the phase switching more complicated and increases the possibility of incorrect wiring.

  An object of the present invention is to provide a phase switch that solves the above-described problems and makes it unnecessary to change the test wiring.

In order to solve the above-mentioned problems, the invention of claim 1 is directed to phase switching used in testing a relay panel that detects a fault in the power system by inputting a voltage or current of each phase from the power system. a vessel, in order to enter a test current of the current tester, a first current connection that the current tester is connected, a terminal corresponding to each phase comprising respectively, each phase of the test current For the current input part of the relay panel for input, a second current connection part to which these terminals are connected , and each terminal of the first current connection part and the second current connection part A first handle for rotating the rotating shaft is provided to switch between positions that are provided between the rotating shafts and are arranged along the rotation direction of the rotating shaft and that form a closed circuit or an open circuit. Each position has an overlapping contact A test current switching cam switch, and the test current switching cam switch is configured to short-circuit the first current connection portion as each position arranged along the rotation direction. A position for passing a test current from the first current connection to each phase of the second current connection, and a position for short-circuiting the first current connection; When the first handle is between a position for supplying a test current to one terminal of the second current connection portion, the first current connection portion is short-circuited by the overlapping contact. When there is the first handle between a position where the test current is passed to one terminal of the second current connection portion and a position where the test current is passed to the other terminal, the overlapping contact points, Connecting the first current connection to the one Connected to said another terminal while connecting to the child, it is a phase switch according to claim.

In the invention of claim 1, in order to input a test current of each phase of the current tester, an operator connects the current tester to the first current connection part and inputs a test current of each phase. The current input part provided in the relay panel is connected to the second current connection part. Thereafter, by the operation by the operator, the test current switching cam switch selects one of the terminals of each phase of the second current connection portion and allows the test current from the current tester to flow.

According to a second aspect of the present invention, there is provided a phase changer according to the first aspect, wherein a first voltage connection portion to which the voltage tester is connected to input a test voltage of each phase of the voltage tester, and a test A second voltage connecting portion to which a voltage input portion of the relay panel for applying a voltage is connected; and a rotation of a rotating shaft provided between the first voltage connecting portion and the second voltage connecting portion. A test voltage switching cam switch having a second handle for rotating the rotating shaft to switch between positions that are arranged along the direction and form a closed circuit or an open circuit. The cam switch for voltage switching switches the phase of the test voltage from the first voltage connection unit according to each position forming the closed or open circuit of the second handle, and the second voltage connection unit It is characterized by adding to each

According to a third aspect of the present invention, in the phase switch according to the second aspect, the test voltage switching cam switch opens the voltage tester during the phase switching by the second handle. The N-phase voltage is always connected in order to prevent potential fluctuation between the voltage tester and the relay panel.

According to the first aspect of the present invention, since the phase switcher switches the current from the current tester simply by turning the first handle, it is not necessary to change the test wiring connecting the relay panel and the current tester. Can be. As a result, it is possible to eliminate erroneous wiring when changing the test wiring, and it is possible to eliminate the need for switching the current for the relay panel including the parent device and the child device, and to eliminate the erroneous wiring. Further, according to the first aspect of the present invention, since the current switching cam switch is in a state of short-circuiting the current tester or connected to the second current connection portion during the switching of the current, It is possible to switch the current input to each phase of the phase switcher in a state where is output.

According to the second aspect of the present invention, since the phase switching unit switches each phase, it is not necessary to change the test wiring connecting the relay panel and the voltage tester. As a result, it is possible to eliminate erroneous wiring when changing the test wiring, and it is also possible to eliminate the need for switching the phases of the relay panel including the parent side device and the child side device and to eliminate erroneous wiring.

According to the invention of claim 3 , the test voltage switching cam switch opens the voltage tester in the middle of the phase switching, so that each phase can be switched while the test voltage is output from the voltage tester. enable.

  Next, embodiments of the present invention will be described in detail with reference to the drawings. FIG. 1 is a connection diagram showing a use state of the phase changer 1 according to this embodiment. In this embodiment, components that are considered to be the same as or the same as those in FIG. 9 described above are denoted by the same reference numerals, and description thereof is omitted. As shown in FIG. 2, the phase switch 1 according to this embodiment includes “R”, “S”, “T” of “parent (input)” for connecting the parent side of the voltage tester 230, and In order to connect the current tester 240 to the “R”, “S”, and “T” terminals of the “child (input)” for connecting the “N” terminal to the child side of the voltage tester 230 Of “±” and “A”. Hereinafter, the “R” terminal is referred to as an R terminal, and the other terminals are also described in the same manner. FIG. 2 is a diagram illustrating an operation panel of a storage box that stores the phase switch 1. In this embodiment, “R”, “S”, “T”, and “N” terminals of “parent (input)” for connecting the parent side of the voltage tester 230 and the child of the voltage tester 230 are connected. The “R”, “S”, and “T” terminals of the “child (input)” for connecting the sides are the first voltage connections, and “±” for connecting the current tester 240 The terminal, the terminal “A”, is the first current connection portion.

  Further, the phase changer 1 includes a cam switch 11 for voltage switching and a cam switch 12 for current switching. The cam switch 11 is rotated by a handle 11A every 45 degrees, so that “OFF”, “R”, An open circuit or a closed circuit is formed at each position of “S” and “T”. The cam switch 12 is rotated every 45 degrees by the handle 12A, and is opened at each position of “OFF”, “RN”, “SN”, “TN”, “OFF”, “RS”, “ST”, “TR”. Or form a closed circuit.

  The phase switch 1 includes a connector 21 that connects a cable 301 that is a cable for inputting a signal from the monitor unit 104 of the relay panel 100. The connector 21 includes a “1” terminal, a “2” terminal, a “3” terminal, and an “N” terminal. Hereinafter, the terminal “1” is referred to as one terminal, and the other terminals of the connector 21 and another connector are also described in the same manner. The phase switch 1 also includes a connector 22 that connects a cable 302 that is a cable for outputting a signal to the parent side of the voltage input unit 101 of the relay panel 100. The connector 22 includes an R terminal, an S terminal, a T terminal, and an N terminal. Further, the phase switch 1 includes a connector 23 for connecting a cable 303 that is a cable for outputting a signal to the child side of the voltage input unit 101 of the relay panel 100. The connector 23 includes an R terminal, an S terminal, and a T terminal. Further, the phase switch 1 includes a connector 24 for connecting a cable 304 that is a cable for outputting a signal to the current input unit 102 of the relay panel 100. The connector 24 includes an R terminal, an S terminal, a T terminal, and an N terminal. In this embodiment, the connector 22 and the connector 23 form a second voltage connection portion, and the connector 24 forms a second current connection portion. Furthermore, the phase switch 1 includes a connector 25 that connects a cable 305 that is a cable for outputting a signal to the synchroscope 210. The connector 25 includes an Ry terminal and an N terminal.

  Next, the cam switch 11 and the cam switch 12 will be described. First, the structure of the cam switch 11 is shown in FIG. In the cam switch 11, the numbers “7”, “8”, “1”, “2” in the horizontal direction of FIG. 3 represent the positions of the notches. Hereinafter, the notch of “7” is described as 7 notches, and the other notches are also described in the same manner. The 7 notch is the “cut” position of the handle 11A of FIG. 2, the 8 notch is the “R” position, the 1 notch is the “S” position, and the 2 notch is the “T” position. The numbers “11”, “13”, “21”, “23”, “31”, “33”, “41”, “43”, “51” in FIG. 3 are input terminals on the parent side. Yes, “53”, “61”, “63”, “71”, “73”, “81”, “83”, “91”, “93” are the input terminals on the child side. Also, the numbers “12”, “14”, “22”, “24”, “32”, “34”, “42”, “44”, “52” in the vertical direction of FIG. “54”, “62”, “64”, “72”, “74”, “82”, “84”, “92”, “94” are the output terminals on the child side. Hereinafter, the terminal “11” is referred to as 11 terminal, and the other terminals are also described in the same manner. Further, a terminal paired with the input terminal on the parent side and the child side and the output terminal on the parent side and the child side, that is, 11 terminal and 12 terminal,..., 93 terminal and 94 terminal are rotations of the handle 11A of the cam switch 11. The terminal 11 on the parent side,..., 93 terminals and the terminal 12 on the child side,..., 94 terminals are arranged along the axial direction of the rotation axis of the handle 11A. . For example, 11 terminals and 12 terminals are arranged along the rotation direction of the rotating shaft of the handle 11A, and the next pair of 13 terminals and 14 terminals are stacked on the pair of 11 terminals and 12 terminals, And it is arrange | positioned in the axial direction of the rotating shaft of 11 A of handles.

  Connection to the cam switch 11 is as follows. In the input on the parent side, 11 terminal is connected to 13 terminal and 21 terminal, 23 terminal is connected to 31 terminal and 33 terminal, and 41 terminal is connected to 43 terminal and 51 terminal. In the output on the parent side, 12 terminals are connected to 34 terminals, and 34 terminals are connected to 44 terminals. 14 terminals are connected to 24 terminals, and 24 terminals are connected to 52 terminals. 22 terminals are connected to 32 terminals, and 32 terminals are connected to 42 terminals. The N terminal is a neutral phase terminal. In the input on the child side, 53 terminals are connected to 61 and 63 terminals, 71 terminals are connected to 73 and 81 terminals, and 83 terminals are connected to 91 and 93 terminals. In the output on the child side, 54 terminals are connected to 82 terminals, and 82 terminals are connected to 92 terminals. The 62 terminal is connected to the 72 terminal, and the 72 terminal is connected to the 94 terminal. 64 terminals are connected to 74 terminals, and 74 terminals are connected to 84 terminals.

  In the input on the parent side, the 21 terminal, 31 terminal, 51 terminal, and N terminal are respectively connected to the R terminal, S terminal, T terminal, and N terminal of “parent (input)” in FIG. In the output on the parent side, the 12 terminal, the 14 terminal, the 22 terminal, and the N terminal are respectively connected to the R terminal, the S terminal, the T terminal, and the N terminal of the connector 22 of FIG. In the input on the child side, the 61 terminal, the 81 terminal, and the 91 terminal are respectively connected to the R terminal, the S terminal, and the T terminal of the “child (input)” in FIG. In the output on the child side, 54 terminals, 62 terminals, and 64 terminals are respectively connected to the R terminal, S terminal, and T terminal of the connector 23 in FIG.

  Next, the operation of the cam switch 11 will be described together with the test voltage switching operation of the phase switch 1.

  In the cam switch 11, when the handle 11A is in the “OFF” position, between the 11 and 12 terminals in FIG. 3,..., Between the 51 and 52 terminals, and between the 53 and 54 terminals, ..., the contacts between the 93 terminal and the 94 terminal are all open, and the test voltage from the parent side and the child side of the voltage tester 230 is not output from the phase switch 1 to the voltage input unit 101 of the relay panel 100. .

  When the handle 11A is in the “R” position, the black circle mark in FIG. 3 indicates the closed position of the contact. In other words, on the parent side, the terminals 11 and 12, the terminals 23 and 24, and the terminals 41 and 42 are all closed. As a result, the R-phase test voltage from the parent side of the voltage tester 230 passes from the R terminal of the “parent (input)” through the 21 terminal, 11 terminal, and 12 terminal, and from the R terminal of the connector 22 to the relay panel 100. Applied to the voltage input unit 101. Further, the S-phase test voltage from the parent side of the voltage tester 230 passes through the 31 terminal, 23 terminal, 24 terminal, and 14 terminal from the S terminal of the “parent (input)”, and from the S terminal of the connector 22 to the relay panel. 100 voltage inputs 101 are applied. Further, the T-phase test voltage from the parent side of the voltage tester 230 passes through the 51 terminal, the 41 terminal, the 42 terminal, the 32 terminal, and the 22 terminal from the T terminal of the “parent (input)”, and then the T terminal of the connector 22. To the voltage input unit 101 of the relay panel 100.

  When the handle 11A is in the “R” position, all the terminals between the 53 terminal and the 54 terminal, between the 71 terminal and the 72 terminal, and between the 83 terminal and the 84 terminal are closed. Then, in the same manner as the parent side on the child side, the R-phase, S-phase, and T-phase test voltages from the voltage tester 230 pass through the R terminal, S terminal, and T terminal of the connector 23 and the voltage input section of the relay panel 100. 101.

  When the handle 11A is in the “S” position, on the parent side, the terminals 13 and 14, the terminals 31 and 32, and the terminals 43 and 44 are all closed. As a result, the R-phase test voltage from the parent side of the voltage tester 230 passes from the R terminal of the “parent (input)” to the relay terminal from the S terminal of the connector 22 through the 21, 11, 13, and 14 terminals. 100 voltage inputs 101 are applied. In addition, the S-phase test voltage from the parent side of the voltage tester 230 is applied to the voltage input unit 101 of the relay panel 100 from the T terminal of the connector 22 through the 31 terminal, 32 terminal, and 22 terminal. Further, the T-phase test voltage from the parent side of the voltage tester 230 passes through the 51 terminal, the 41 terminal, the 43 terminal, the 44 terminal, the 34 terminal, and the 12 terminal to the voltage input portion of the relay panel 100 from the R terminal of the connector 22. 101.

  When the handle 11A is in the “S” position, on the child side, between the 61 terminal and the 62 terminal, between the 73 terminal and the 74 terminal, and between the 91 terminal and the 92 terminal are all closed. Then, in the same manner as the parent side on the child side, the R-phase, S-phase, and T-phase test voltages from the voltage tester 230 pass through the S terminal, T terminal, R terminal of the connector 23 and the voltage input section of the relay panel 100. 101.

  When the handle 11A is in the “T” position, on the parent side, the terminals 21 and 22, the terminals 33 and 34, and the terminals 51 and 52 are all closed. Thereby, the R-phase test voltage from the parent side of the voltage tester 230 is applied to the voltage input unit 101 of the relay panel 100 from the T terminal of the connector 22 via the 21 terminal and the 22 terminal. The S-phase test voltage from the parent side of the voltage tester 230 is applied to the voltage input unit 101 of the relay panel 100 from the R terminal of the connector 22 via the 31 terminal, 23 terminal, 33 terminal, 34 terminal, and 12 terminal. It is done. Further, the T-phase test voltage from the parent side of the voltage tester 230 is applied to the voltage input unit 101 of the relay panel 100 from the S terminal of the connector 22 through the 51 terminal, 52 terminal, 24 terminal, and 14 terminal.

  When the handle 11A is in the “T” position, on the child side, between the 63 and 64 terminals, between the 81 and 82 terminals, and between the 93 and 94 terminals are all closed. Then, in the same manner as the parent side on the child side, the R-phase, S-phase, and T-phase test voltages from the voltage tester 230 pass through the T terminal, R terminal, and S terminal of the connector 23 and the voltage input section of the relay panel 100. 101.

  Thus, the test voltage input to the R terminal, S terminal, and T terminal of the “parent (input)” and the R terminal, S terminal, and T terminal of the “child (input)” by the cam switch 11 is as follows. 4, the “parent (output)” connector 22 in FIG. 2 and the “child (output)” according to the positions of the “cut”, “R”, “S”, and “T” of the handle 11A, as shown in FIG. Output) ”is connected to the terminal of the connector 23. That is, the R-phase, S-phase, and T-phase test voltages from the voltage tester 230 are switched by phase switching and applied to the voltage input unit 101 of the relay panel 100. Further, between the input and output on the parent side, the N terminals are directly connected, and the N-phase voltage is always connected. This is a connection for preventing fluctuations in potential between the voltage tester 230 and the relay panel 100.

  Next, the cam switch 12 will be described. The structure of the cam switch 12 is shown in FIG. In the cam switch 12, the numbers “7”, “8”, “1”, “2”, “3”, “4”, “5”, “6” in the horizontal direction in FIG. . Hereinafter, the notch of “7” is described as 7 notches, and the other notches are also described in the same manner. 7 notch is the “cut” position of the handle 12A in FIG. 2, 8 notch is the “RN” position, 1 notch is the “SN” position, 2 notch is the “TN” position, and 3 notch is “cut”. , 4 notches are “RS” positions, 5 notches are “ST” positions, and 6 notches are “TR” positions. The numbers “11”, “13”, “21”, “23”, “31”, “33”, “41”, “43”, “51”, “53”, “61” in FIG. ”,“ 63 ”,“ 71 ”,“ 73 ”,“ 81 ”,“ 83 ”,“ 91 ”,“ 93 ”,“ 101 ”,“ 103 ”are input terminals, and are arranged in the vertical direction in FIG. The numbers “12”, “14”, “22”, “24”, “32”, “34”, “42”, “44”, “52”, “54”, “62”, “64”, “ 72, “74”, “82”, “84”, “92”, “94”, “102”, “104” are output terminals. Hereinafter, the terminal “11” is referred to as 11 terminal, and the other terminals are also described in the same manner. Further, a terminal paired with the input terminal on the parent side and the child side and the output terminal on the parent side and the child side, that is, the 11 terminal and the 12 terminal, ..., the 103 terminal and the 104 terminal are rotations of the handle 12A of the cam switch 11. Arranged along the rotational direction of the shaft, the 11 terminals on the parent side,..., 103 terminals, and the 12 terminals on the child side,..., 104 terminals are disposed along the axial direction of the rotational axis of the handle 12A. . For example, 11 terminals and 12 terminals are arranged along the rotation direction of the rotation axis of the handle 12A, and the next pair of 13 terminals and 14 terminals are laminated on the pair of 11 terminals and 12 terminals, And it arrange | positions in the axial direction of the rotating shaft of the handle | steering-wheel 12A.

  Connection to the cam switch 12 is as follows. On the input side, 11 terminals are connected to 21 terminals and 73 terminals, and 21 terminals are connected to 31 terminals. The 41 terminal is connected to the 43 terminal and the 51 terminal, the 51 terminal is connected to the 53 terminal and the 61 terminal, and the 61 terminal is connected to the 63 terminal and the 71 terminal. On the output side, 12 terminals are connected to 62 terminals. 22 terminals are connected to 42 terminals. 32 terminals are connected to 52 terminals. 44 terminals are connected to 54 terminals, and 54 terminals are connected to 64 terminals. 72 terminals are connected to 74 terminals. The 82 terminal is connected to the 92 terminal, and the 92 terminal is connected to the 102 terminal. The N terminal is a neutral phase terminal.

  On the input side, the 11 terminal and the 41 terminal are connected to the ± terminal and the A terminal in FIG. The 81 terminal, 91 terminal, 101 terminal, and N terminal are respectively connected to the 1 terminal, 2 terminal, 3 terminal, and N terminal of the connector 21 of FIG. On the output side, the 12 terminal, 22 terminal, 32 terminal, and 44 terminal are connected to the R terminal, S terminal, T terminal, and N terminal of the connector 24, respectively, and the 82 terminal and N terminal are the Ry terminal of the connector 25, N Each terminal is connected.

  Next, the operation of the cam switch 12 will be described together with the test current of the phase switch 1 and the switching operation of the oscilloscope output of the relay panel 100.

  On the input side of the cam switch 12, the 11 terminal to 73 terminal and the 12 terminal to 74 terminal on the output side are for switching the test current from the current tester 240, the 81 terminal to 103 terminal on the input side and the 82 terminal on the output side. Terminals to 104 are for switching the oscilloscope output from the oscilloscope output unit 103 of the relay panel 100. First, switching of the test current will be described. When the handle 12A is in the “OFF” position, the terminals 11 and 12,..., 63 and 64 are all open, and the test current from the current tester 240 is changed to the phase switch 1. To the current input section 102 of the relay panel 100. Further, when the handle 12A is in the “OFF” position, the connection between the 71 terminal and the 72 terminal and the connection between the 73 terminal and the 74 terminal are closed. A black circle mark in FIG. 5 indicates a closed position of the contact, and a thick line indicates an overlap. The overlap will be described later. Due to this closed state, the ± terminal of the phase switch 1 becomes the “A” terminal of the phase switch 1 through the 11 terminal, 73 terminal, 74 terminal, 72 terminal, 71 terminal, 61 terminal, 51 terminal, 41 terminal. Connected. That is, when the handle 12 </ b> A is in the “OFF” position, the phase changer 1 short-circuits the current tester 240.

  When the handle 12A is in the “RN” position, the contact A11 closes the 11 terminal and the 12 terminal, and the contact A43 closes the 43 terminal and the 44 terminal. Thus, the test current flowing from the current tester 240 to the ± terminal of the phase switch 1 flows from the R terminal of the connector 24 to the R terminal of the current input unit 102 of the relay panel 100 through the 11 terminal and the 12 terminal. Then, the current from the current input unit 102 returns to the current tester 240 from the terminal “A” of the phase switch 1 through the N terminal, 44 terminal, 43 terminal, and 41 terminal of the connector 24. That is, the test current from the current tester 240 flows to the R terminal of the current input unit 102 of the relay panel 100.

  When the notch is switched from the “RN” position to the “SN” position, the closed circuit state overlaps when the handle 12A is between “RN” and “SN”. As shown in FIG. 6, when the handle 12A is between “RN” and “SN”, the contact A11 and the contact A21 of the cam switch 12 are closed. As a result, when the handle 12A is between “RN” and “SN”, the circuit between the 11 terminal and the 12 terminal and the terminal 21 and the 22 terminal are closed at the same time, and the current flows. Two paths are formed simultaneously. Thereafter, when the handle 12A is in the “SN” position, the circuit between the 11th terminal and the 12th terminal is opened, and the circuit between the 21st terminal and the 22nd terminal is kept closed. That is, when the handle 12A is switched from the position “RN” to the position “SN”, the cam switch 12 of the phase switch 1 always keeps the current tester 240 short-circuited. Due to the overlap of the cam switch 12, thick lines indicating the overlap indicate contact points that overlap each other. That is, in FIG. 6, the closed states of the contact A11 and the contact A21 overlap. The same applies to the terminals 71 and 72, and the terminals 73 and 74, which are not described above. That is, when the notch is switched from the “OFF” position to the “RN” position, the contact A71 and the contact A73 overlap with the contact A11 and the contact A43, and the cam switch 12 of the phase changer 1 The tester 240 is always short-circuited.

  When the handle 12A is in the “SN” position, the contact A21 establishes a closed state between the terminals 21 and 22 and the contact A53 establishes a connection between the 53 and 54 terminals. As a result, the test current flowing from the current tester 240 to the ± terminal of the phase changer 1 passes through the 11 terminal, 21 terminal, and 22 terminal, and from the S terminal of the connector 24 of FIG. It flows to the S terminal. Then, the current from the current input unit 102 returns from the “A” terminal of the phase switch 1 to the current tester 240 via the N terminal, 44 terminal, 54 terminal, 53 terminal, 51 terminal, and 41 terminal of the connector 24. . That is, the test current from the current tester 240 flows to the S terminal of the current input unit 102 of the relay panel 100.

  When the handle 12A is switched from the “SN” position to the “TN” position, when the handle 12A is between “SN” and “TN”, the contact A21 and the contact A53, the contact A31 and the contact A63, Are overlapped, and the cam switch 12 of the phase changer 1 makes the current tester 240 short-circuited. When the handle 12A is in the “TN” position, the contact A31 closes the terminals 31 and 32 and the contact A63 closes the terminals 63 and 64. As a result, the test current flowing from the current tester 240 to the ± terminal of the phase changer 1 passes through the 11 terminal, 21 terminal, 31 terminal, and 32 terminal, and the current input of the relay panel 100 from the T terminal of the connector 24 in FIG. It flows to the T terminal of the unit 102. The current from the current input unit 102 passes through the N terminal, 44 terminal, 54 terminal, 64 terminal, 63 terminal, 61 terminal, 51 terminal, and 41 terminal of the connector 24 and from the “A” terminal of the phase switch 1. Return to the current tester 240. That is, the test current from the current tester 240 flows to the T terminal of the current input unit 102 of the relay panel 100.

  When the handle 12A is switched from the “TN” position to the “OFF” position, when the handle 12A is between “TN” and “OFF”, the contact A31 and the contact A63, the contact B71 and the contact B73, Are overlapped, and the cam switch 12 of the phase changer 1 makes the current tester 240 short-circuited. After that, when the handle 12A is set to the “OFF” position, the phase switcher 1 makes the current tester 240 short-circuited as described above. Thereafter, when the handle 12A is switched to “RS”, “ST”, and “TR”, the same switching as the positions of “RN”, “SN”, and “TN” described above is performed, and thus the description is omitted. .

  Next, switching of the oscilloscope output by the 81 terminal to 103 terminal on the input side and the 82 terminal to 104 terminal on the output side will be described. When the handle 12A is in the “OFF” position, the terminals 81 and 82 of the cam switch 12, the terminals 91 and 92, and the terminals 101 and 102 are all open. As a result, the oscilloscope output from the oscilloscope output unit 103 of the relay panel 100 is not applied to the synchroscope 210. When the handle 12A is in the “RN” position, the circuit between the 81 terminal and the 82 terminal of the cam switch 12 is closed. As a result, the oscilloscope output applied to one terminal of the connector 21 of the phase switch 1 from the oscilloscope output unit 103 of the relay panel 100 is applied to the synchroscope 210 from the Ry terminal of the connector 25 via the 81 and 82 terminals. When the handle 12A is in the “SN” position, the circuit between the 91 terminal and the 92 terminal of the cam switch 12 is closed. As a result, the oscilloscope output applied from the oscilloscope output unit 103 of the relay panel 100 to the two terminals of the connector 21 of the phase changer 1 is added to the synchroscope 210 from the Ry terminal of the connector 25 via the 91, 92 and 82 terminals. It is done. When the handle 12A is in the “TN” position, the circuit between the 101 terminal and the 102 terminal of the cam switch 12 is closed. As a result, the oscilloscope output applied from the oscilloscope output section 103 of the relay panel 100 to the three terminals of the connector 21 of the phase changer 1 passes through the 101 terminal, 102 terminal, 92 terminal, and 82 terminal, and from the Ry terminal of the connector 25 to the synchroscope. 210. Thereafter, when the handle 12A is switched to “RS”, “ST”, and “TR”, the same switching as the positions of “RN”, “SN”, and “TN” described above is performed, and thus the description is omitted. . Note that the oscilloscope output applied to the 1st terminal, 2nd terminal, and 3rd terminal of the connector 21 of FIG.

  In this way, the cam switch 12 causes the ± terminal and A terminal in FIG. 2 to move to the “OFF” position, “RN” or “RS” position, “SN” or “ST” of the handle 12A as shown in FIG. The three-phase alternating current is switched according to the position of “TN” or “TN” and connected to the terminals of the connector 24 of FIG.

  Further, the cam switch 12 allows the 1 terminal, 2 terminal, and 3 terminal of the connector 21 in FIG. 2 to be in the “OFF” position, “RN” or “RS” position of the handle 12A, as shown in FIG. Depending on the position of “SN” or “ST” and the position of “TN” or “TR”, they are connected to the Ry terminal of the connector 24 of “(output)” in FIG.

  Thus, according to this embodiment, the test wiring for connecting the voltage tester 230 and the current tester 240 and the phase changer 1, the cable 302 that is the test wiring for connecting the phase changer 1 and the relay panel 100, The wiring change of the cable 303 and the cable 304, and further the wiring change of the cable 301 and the cable 305, which are test wirings connecting the relay panel 100 and the phase switch 1, can be eliminated. Further, since the cam switch 12 has overlapping contacts, the output from the current tester 240 is always short-circuited, and current switching, that is, phase switching is possible in a state where the current tester 240 outputs the test current. . Further, since the cam switch 11 does not have overlapping contacts, the output from the voltage tester 230 is always opened, and the phase of the R phase, S phase, and T phase with the voltage tester 230 outputting the test voltage. Phase change by switching is possible.

  The embodiment of the present invention has been described in detail above, but the specific configuration is not limited to this embodiment, and even if there is a design change or the like without departing from the gist of the present invention, Included in the invention. For example, in the above-described embodiment, the voltage switching cam switch 11 and the current switching cam switch 12 are provided, but a configuration including either one may be employed. In this case, it is possible to test the relay panel that detects the voltage of the power system or the relay panel that detects the current of the power system, and the structure of the phase changer is simplified.

It is a connection diagram which shows the use condition of the phase switch by embodiment of this invention. It is a figure which shows the operation panel of a phase switch. It is a block diagram which shows the circuit structure of the cam switch for voltages. It is a figure which shows the connection by a cam switch. It is a block diagram which shows the circuit structure of the cam switch for electric current. It is explanatory drawing explaining the overlap of a cam switch. It is a figure which shows the connection by a cam switch. It is a figure which shows the connection by a cam switch. It is a connection diagram which shows the conventional measurement of a relay panel.

Explanation of symbols

1-phase switch 11 Cam switch ( Cam switch for switching test voltage )
12 Cam switch (Cam switch for switching test current )
11A, 12A Handle 21, 25 Connector 22, 23 Connector (second voltage connection)
24 connector (second current connection)
100 Relay Panel 210 Synchroscope 220 Monitor Unit 230 Voltage Tester 240 Current Tester 301-305 Cable

Claims (3)

It is a phase changer used for testing against a relay panel that detects the accident of this power system by inputting the voltage and current of each phase from the power system,
To enter a test current of the current tester, a first current connection that the current tester is connected,
A terminal corresponding to each phase, and a second current connecting portion to which these terminals are connected to the current input portion of the relay panel for inputting the test current of each phase;
For switching each position that is provided between each terminal of the first current connection portion and the second current connection portion, is arranged along the rotation direction of the rotating shaft, and forms a closed circuit or an open circuit. A test current switching cam switch having a first handle for rotating the rotating shaft, and an overlapping contact at each position forming a closed circuit;
With
The test current switching cam switch is:
As the respective positions arranged along the rotation direction, the position for short-circuiting the first current connection portion, and the test current from the first current connection portion of the second current connection portion Each position for flowing in each phase,
When the first handle is between a position for short-circuiting the first current connection and a position for passing a test current to one terminal of the second current connection; The first current connection is short-circuited by a contact for
When the first handle is between a position where a test current is supplied to one terminal of the second current connection portion and a position where a test current is supplied to another terminal, the overlapping contact causes the first current Connecting one current connection to the one terminal and the other terminal;
A phase changer characterized by that. A first voltage connection to which the voltage tester is connected to input a test voltage for each phase of the voltage tester;
A second voltage connection to which a voltage input of the relay panel for applying a test voltage is connected;
This is provided between the first voltage connection portion and the second voltage connection portion, and is arranged along the rotational direction of the rotation shaft and is used to switch each position forming a closed circuit or an open circuit. A test voltage switching cam switch comprising a second handle for rotating the rotary shaft;
With
The test voltage switching cam switch switches the phase of the test voltage from the first voltage connection portion according to each position forming the closed or open circuit of the second handle , and the second voltage Ru added respectively to the connection portion,
The phase changer according to claim 1 . The test voltage switching cam switch opens the voltage tester in the middle of phase switching by the second handle, and the N-phase voltage is between the voltage tester and the relay board. The phase changer according to claim 2 , wherein the phase changer is always connected in order to prevent fluctuations in potential.

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