JPH0314927Y2 - - Google Patents

Description

[Detailed description of the invention] a. Industrial application field
It is called trance for short. ) related to bypass transformer equipment for uninterruptible construction work used during replacement work.

b. Prior Art In order to replace the transformer 4 in operation without stopping the power supply to the consumer, for example, a single-phase three-wire bypass transformer 2 is replaced as shown in FIG.
This is done after connecting the transformer 4 and the transformer 4 in parallel, and operating both transformers 2 and 4 in parallel.

For this reason, a bypass transformer device 1 for uninterruptible construction work (shown within the dotted line frame in the figure) is used, which is configured by connecting a bypass transformer 2 and a switch 3 as shown in FIG. It is being If the wiring between the device 1 and the transformer 4 to be replaced is not properly connected, voltages in the same direction will be applied in the closed circuit connecting the windings on the low voltage side of both transformers 2 and 4. If the power is turned on, a short circuit will occur. To prevent this accident, before turning on the switch 3, check the potential difference between the terminals on both sides of one contact of the switch 3 (between U ₁ and U ₂ or between V ₁ and V ₂ ) using a phase detection lamp or voltage. It was detected using a meter.

That is, the midpoint of the low voltage side of both transformers 2 and 4 (terminal
If no potential difference is detected between these terminals when both O ₁ and O ₂ ) are grounded, the operator determines that the wiring is correct and closes the switch to disconnect both transformers 2 and 4. parallel operation was started.

c Problems with the conventional technology In the conventional device described above, the operator uses a phase detection lamp or a voltmeter to detect the potential difference between the terminals on both sides of the above-mentioned one contact of the switch 3 before closing. It is determined whether the wiring is correct or not. However, if the phase detection lamp or voltmeter is out of order, or if the operator makes an operational error, it becomes impossible to detect the potential difference that occurs between these terminals. As a result,
Failure to detect wiring errors caused short circuits. In addition, the work of detecting the potential difference between the terminals of the switch 3 using these devices is as follows:
This process had to be done with great care to avoid electric shocks, and was extremely inefficient.

The present invention was devised in view of the problems of the prior art described above, and its purpose is to automatically determine whether the connection between the transformer and the bypass transformer is good or bad when replacing the transformer in operation. An object of the present invention is to provide a bypass transformer device for uninterruptible construction work that enables closing control of a switch based on the result and contributes to preventing short-circuit accidents and improving work efficiency.

d Means for Solving the Problems The present invention for solving the above problems consists of a bypass transformer used for parallel operation with a transformer to be replaced that is in operation, and a low-pressure side of the transformer to be replaced. output when there is no potential difference between the switching means connected between each terminal of the bypass transformer and each terminal on the low voltage side of the bypass transformer, and one or two contacts of the switching means before the switching means is turned on. When the potential difference detection means that generates the signal, the closing manual switch that generates the contact output signal to close the switching means, and the output signals of the potential difference detection means and the closing manual switch are both generated. and a control signal generating means that generates a closing output signal only when the opening/closing means is turned on by the closing output signal of the control signal generating means.

e Effect: If the wiring between the transformer in operation and the bypass transformer device for uninterruptible construction work according to the present invention is properly connected, no potential difference will occur between the contacts of the switching means in the cutoff state. . On the other hand, if there is an error in the connection, a potential difference will occur on both sides of the contact to which the incorrect connection is connected. The potential difference detection means generates an output signal only when there is no potential difference at the same position.

On the other hand, the control signal generating means generates an output signal only when the output signal of the potential difference detecting means and the output signal of the manual starting switch are both generated.
This output signal causes the opening/closing means to change from the cutoff state to the closed state.

Therefore, if the wiring is done correctly,
Since the potential difference detection means generates an output signal,
When the manual starting switch is turned on, the control signal generating means generates an output signal, and this signal causes the opening/closing means to be in the closed state. On the other hand, if there is an error in the connection, the potential difference detection means will not generate an output signal, so even if the manual closing switch is turned on, the control signal generation means will not generate an output signal and the opening/closing means will maintain the cut-off state.

f. Embodiments Hereinafter, preferred embodiments of the bypass transformer device for uninterruptible construction work according to the present invention will be described in detail based on the accompanying drawings. FIG. 1 is a block diagram of the automatic opening/closing section of the same device, and FIG. 2 is a circuit diagram of the same device.

The uninterruptible bypass transformer device 1 is composed of a bypass transformer 2 and an automatic opening/closing unit 3 (a device that is an improved switch in the conventional device shown in FIG. 4). Wired in parallel.

As shown in the block diagram of FIG. 1, the automatic opening/closing section 3 is comprised of opening/closing means, potential difference detection means, manual closing switch, and control signal generation means. The automatic opening/closing section 3 (shown within the dotted line frame in Fig. 3) of the device shown in this embodiment includes a no-fuse breaker 5 as an opening/closing means, a solenoid of a relay RY as a potential difference detection means, and a solenoid of a relay RY as a closing manual switch. 1st push button switch PB
1, a b contact ry ₁ of a relay RY connected in series and a first push button switch are used as control signal generating means, respectively. The solenoid of relay RY is connected between terminals U ₁ and U ₂ of no-fuse breaker 5 via fuse F3. Fuse _F3 , first push button switch PB1, b contact _RY1 of relay RY and no fuse breaker 5
The closing solenoids 5a are connected in series, and the other end of the fuse _F3 is connected to the terminal _V1 of the no-fuse breaker 5, and the other end of the closing solenoid 5a is connected to the no-fuse breaker through the fuse _F2 . Connected to terminal V ₁ of 5.

On the other hand, the second push button switch PB2 and the a contact ry ₂ of the relay RY are connected in parallel, and one end is connected to the fuse F ₃ and the first button switch PB.
1, and the other end is connected to one end of the return solenoid 5b of the no-fuse breaker 5. Further, the other end of the return solenoid 5b is connected to the terminal _V1 of the no-fuse breaker ₅ via a fuse F2. Terminals U ₁ , O ₁ , V ₁ on one side of the no-fuse breaker 5 are connected to each terminal on the low voltage side of the bypass transformer, and the terminal on the opposite side
U ₂ , O ₂ , and V ₂ are connected to the low voltage side terminal 6.

On the other hand, each high voltage side terminal of the bypass transformer 2 is connected to a high voltage side terminal 8 via a high voltage side switch 7.

Furthermore, on the low voltage side of the bypass transformer 2, there is a phase detection circuit 9 (shown within the dashed line frame in Fig. 2).
is provided.

When the phases on both sides of the no-fuse breaker 5 match, pressing the push-button switch PB3 makes the buzzer BZ sound and the neon lamp NL lights up.
Note that the push button switch PB4 is used to check for a malfunction of the buzzer.

If the wiring between the device 1 and the pole transformer 4 is correctly connected, there will be no potential difference between the terminals U ₁ and U ₂ of the no-fuse breaker 5.
Relay RY remains OFF and its b contact _r1 is closed. At this time, when the automatic reset type push button switch PB1 is pressed, the closing solenoid 5a of the no-fuse breaker 5 is energized, the no-fuse breaker 5 is turned on, and both transformers 2 and 4 start parallel operation. Furthermore, when you release the push button switch PB1, the same solenoid 5a
Although the current supply to the no fuse breaker 5 is stopped, the no fuse breaker 5 is kept in the closed state by the lock mechanism. After that, the transformer 4 to be replaced is removed from the power supply line.

On the other hand, if there is an error in the above-mentioned connection, a potential difference will occur between the terminals U ₁ and U ₂ of the no-fuse breaker 5, so the relay RY will be in the ON state, and its b contact ry ₁ will be in the open state and The a contact ry ₂ becomes closed. At this time, even if the first push button switch PB1 is pressed, the closing solenoid 5a is not energized, whereas the return solenoid 5b is energized through the a contact ry ₂ of the relay RY. The no-fuse breaker 5 is maintained in a disconnected state. Note that when the no-fuse breaker 5 is in the closed state, if the second push button switch PB2 is pressed, the return solenoid 5b is energized, and the no-fuse breaker 5 is turned off.

In the embodiments described above, a device using a single-phase three-wire bypass transformer is shown, but a device using a three-phase three-wire bypass transformer also falls within the technical scope of the present invention. An example is shown in FIG. Note that parts common to the device shown in FIG. 3 are given the same numbers and their explanations will be omitted.

In order to detect the potential difference generated between both terminals V ₁ and V ₂ of the no-fuse breaker 5, both ends of the relay RY1 are connected to these terminals V ₁ and V ₂ via fuses F ₃ and F ₄ , respectively. . Also relay RY
Both terminals of 2 are also connected to the same terminal U ₁ , via fuses F ₁ and F ₆ .
Connected to U ₂ .

On the other hand, the first push button switch PB1, the b contact ry ₁ of the relay RY1, the b contact ry ₂ of the relay RY2, and the closing solenoid 5 of the no-fuse breaker 5
a are connected in series and inserted between the terminals O ₁ V ₁ of the no-fuse breaker 5. Also,
A second push button switch PB2 and a return solenoid 5b are connected in series _between this terminal _O1V1 .
is inserted, and the a contact ry ₁ of the relay RY1 and the a contact ry ₂ of the relay RY2 are connected in parallel to the second push button switch PB2. In addition,
The operation of this device is similar to the device shown in FIG.

Note that the present device 1 is also provided with a phase detection circuit 9 (shown within the dashed line frame in FIG. 4) for detecting phase rotation. If the phase rotation is correct, press pushbutton switch PB3 and neon lamp NL1 and
NL2 or NL3 and NL4 light up. on the other hand,
If the phase rotation is incorrect, the neon lamp NL
1 and NL4 or NL2 and NL3 are lit.

In the two embodiments described above, the automatic opening/closing section 3 is constructed using a contact relay, but the potential difference detection means is a transformer circuit and a rectifier circuit, and the control signal generation means is a digital circuit. Of course, it is also possible to configure it by

Parallel operation of the present device 1 and the pole-mounted transformer 4 is performed in accordance with the procedure described below. After making the connection shown in FIG. 1 between this device 1 and the transformer 4 to be replaced,
The high voltage side switch 7 is turned on to supply power to the bypass transformer 2. Check whether the phase is correct using the phase detection circuit. Next, when the first push button switch PB1 is pressed, the no-fuse breaker 5 is turned on, and parallel operation of both transformers is started. Then, the transformer 4 to be replaced is removed from the power supply line. If there is an error in the wiring, the no-fuse breaker 5 will not be closed even if the switch PB1 is pressed, so reconnect the wires and press the switch PB1 again. To stop the operation of this device, press the push button switch PB2, the no-fuse breaker 5 is turned off, and the power supply to the load is cut off.

g. Effects As described above, the bypass transformer device for uninterruptible construction work of the present invention has the following effects.

A method that detects the potential difference between the corresponding terminals of the bypass transformer and the replaced transformer, automatically determines whether the connection between the two transformers is good or bad based on the presence or absence of the potential difference, and controls the closing of the switch based on the determination result. By adopting this, it becomes possible to prevent short circuit accidents caused by incorrect wiring.

As described in the previous section, since the potential difference occurring between the terminals is automatically detected, the detection work can be omitted, contributing to the efficiency of the transformer replacement work.

By using this device, it becomes possible to replace the transformer in operation without interruption.

[Brief explanation of the drawing]

1 to 3 show an embodiment of the bypass transformer device for uninterruptible construction work according to the present invention, and
This figure is a block diagram of the automatic opening/closing section of the same device, FIG. 2 is a circuit diagram of the same device in one embodiment of the present invention, and FIG. 3 is a circuit diagram of the same device in another embodiment. FIG. 4 is an explanatory diagram showing the connections between the transformer to be replaced, the bypass transformer, and the switch. 1...Bypass transformer device for uninterrupted construction work, 2
... Bypass transformer, 3 ... Automatic switching unit (switch), 4 ... Transformer to be replaced, 5 ... No fuse breaker, 6 ... Low voltage side terminal, 7 ... High voltage side switch, 8 ... High voltage side Terminal, 9... Phase detection circuit.

Claims (1)

[Scope of claims for utility model registration] (1) A bypass transformer used for parallel operation with a transformer to be replaced that is in operation,
A switching means connected between each terminal on the low voltage side of the transformer to be replaced and each terminal on the low voltage side of the bypass transformer, and a switch connected to both ends of one or two contacts of the switching means before closing the switching means Potential difference detection means that generates an output signal when no potential difference occurs; a closing manual switch that generates a contact output signal for closing the opening/closing means; and each output of the potential difference detection means and the closing manual switch. and a control signal generating means that generates a closing output signal only when both signals are generated, and the opening/closing means is controlled to be in the closed state by the closing output signal of the control signal generating means. A bypass transformer device for uninterrupted construction work featuring: (2) The bypass transformer device for uninterruptible construction work according to claim 1, wherein the potential difference detection means and the control signal generation means are constituted by contact relays. (3) Utility model registration claim No. (1) characterized in that the opening/closing means is a no-fuse breaker.
Bypass transformer device for uninterruptible construction work as described in Section 1.