JPH0555437B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to an elevator control device for an elevator that is operated by switching to an emergency power supply during a power outage.

[Prior Art] As this type of elevator control device, for example,
There is one described in Japanese Utility Model Application Publication No. 53-127471.

FIG. 3 is a block circuit diagram showing the configuration of the conventional elevator control device.

In the figure, 1a to 1c are upward magnetic contactor contacts, 2a to 2c are downward direction magnetic contactor contacts, 3a to 3c are contactor contacts for low-speed motors, and 4a to 4c are contactor contacts for high-speed motors. It is. Further, 5 is a low speed motor, 6 is a high speed motor, 7 is an overvoltage detection circuit, 8 is an undervoltage detection circuit, and 9 is an AND gate.

Next, the operation will be explained.

If a power outage occurs now, this power outage will be detected and an emergency generator (not shown) will be driven.

Therefore, if the emergency power supply voltage is normally supplied from the generator, the overvoltage detection circuit 7 or the undervoltage detection circuit 8 will not operate.

Next, when an upward direction operation command is issued to the elevator car, the upward direction magnetic contactor contact 1 is activated.
a to 1c and contactor contacts 3a for low speed motors
3c is closed and power is supplied to the low-speed electric motor 5,
At the same time, a brake (not shown) is released.

As a result of the above, the elevator car starts at low speed,
A starting current smaller than that used when starting the high-speed motor 6 during normal operation flows, and the car eventually shifts to running at a constant speed. Then, when the elevator car moves before the destination floor, a deceleration command is generated, the brake is closed, and the car is stopped.

[Problems to be solved by the invention] In general, emergency generators used during power outages are
Because the voltage fluctuations are large compared to the power supply supplied by the electric power company, the conventional elevator control device configured as described above does not operate properly during or after switching during a power outage, especially while the car is running. However, there was a problem in that the overvoltage detection circuit or the undervoltage detection circuit malfunctioned, causing the elevator car to suddenly stop.

This invention was made to solve the above problems, and even if the voltage of the emergency generator fluctuates slightly, the overvoltage detection circuit or undervoltage detection circuit will not malfunction, and the elevator car can be operated. The purpose is to obtain an elevator control device that can be operated safely.

[Means for Solving the Problems] The elevator control device according to the present invention has a switching contact that operates during a power outage, and when the switching contact switches, the overvoltage detection circuit or the undervoltage detection circuit is activated. Alternatively, a reference voltage setting value changing means for changing a reference voltage setting value for detecting undervoltage is provided.

[Function] The elevator control device of the present invention operates as a standard for an overvoltage detection circuit or an undervoltage detection circuit that detects the input voltage of the elevator when the switching contact operates during a power outage and switches to the emergency power source. The voltage setting value is changed and set by the reference voltage setting value changing means to be higher or lower than normal, thereby suppressing malfunction of the overvoltage detection circuit or the undervoltage detection circuit.

[Example] Hereinafter, an example of the present invention will be described with reference to the drawings.

FIG. 1 is a block circuit diagram showing the configuration of an elevator control device of the present invention, and FIG. 2 is a block circuit diagram showing details of an overvoltage detection circuit in the elevator control device.

In these figures, 10a and 10b are switching contacts, that is, normally open contacts that are closed while power is supplied from an emergency generator (not shown).

In FIG. 2, 11 is a three-phase full-wave rectifier bridge circuit, and 12 is this three-phase full-wave rectifier bridge circuit 1.
A smoothing capacitor connected to the DC output side of 1,
13 to 15 and 17 to 19 are resistors.

16 is an operational amplifier, and resistors 17 to 1
9 _and the detection voltage by the circuit consisting of resistors 13 to 15.
This is a comparator that compares V _a .

Reference numeral 20 denotes a reference voltage setting value changing means, which is comprised of the normally open contact 10a and resistors 17 to 19.

In the above configuration, the operational amplifier 16 generates a positive voltage as an output during normal operation.

Next, the operation will be explained.

Now, when three-phase AC power supplies R, S, and T are supplied from the electric power company, the normally open contacts 10a and 10b are open, so the reference voltage V _bp of the overvoltage detection circuit 7 is set as shown in the following formula. be done.

V _bp = (R ₁₉ / R ₁₇ + R ₁₈ + R ₁₉ ) × V _E ... Here, V _E is the power supply V of the reference voltage.

On the other hand, the overvoltage detection voltage V _a is determined by the following equation.

V _a = (R ₁₄ / R ₁₄ + R ₁₃ ) × V _d … However, when the power supply voltage is normal, V _bp
>V _a , the output of operational amplifier 16 remains positive.

Now, when there is a power outage and the three-phase AC power R, S, T is supplied from the emergency generator, the normally open contact 10a,
10b is closed, and the reference voltage of the overvoltage detection circuit 7
V _be is expressed by the following equation.

V _be = (R ₁₉ / R ₁₇ + R ₁₉ ) × V _E ... Therefore, V _be > V _bp , and when three-phase AC power R, S, and T are supplied from the emergency generator, the Even if the mist or the power source becomes overvoltage, the overvoltage detection circuit 7 will not operate.

In the above embodiment, the case of overvoltage detection was explained, but the case of undervoltage detection can also be configured in the same manner as in the above embodiment.
The same effect can be obtained.

[Effects of the Invention] As described above, according to the present invention, the overvoltage detection circuit, Alternatively, since the reference voltage setting value of the undervoltage detection circuit is configured to be able to be changed in response to voltage fluctuations in the power supply, when driving the elevator car with the above emergency power supply during a power outage,
Malfunctions of the detection circuit described above are prevented, and therefore the elevator car can be operated safely without suddenly stopping.

[Brief explanation of the drawing]

FIG. 1 is a block circuit diagram showing the configuration of an elevator control device according to an embodiment of the present invention, and FIG.
This figure is a block circuit diagram showing details of the overvoltage detection circuit in the elevator control device, and FIG. 3 is a block circuit diagram showing the configuration of a conventional elevator control device. 5...Low speed electric motor, 6...High speed electric motor, 7...
Overvoltage detection circuit, 8... Undervoltage detection circuit, 10
a, 10b...Switching contact, 13-15...Resistance,
16...Operation amplifier, 17-19...Resistor, 20
...Reference voltage setting value changing means. In each figure, the same reference numerals indicate the same or corresponding parts.

Claims (1)

[Claims] 1. In an elevator that is operated by switching to emergency power during a power outage, a switching contact that operates when the emergency power is switched to the above, and a detection circuit that detects overvoltage or undervoltage when this switching contact operates. 1. A control device for an elevator, comprising: a reference voltage setting value changing means for setting a reference voltage setting value higher than normal for overvoltage and lower for undervoltage.