JP2003335472A - Indicator system for elevator - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To resolve a problem of an indicator system for an elevator of the conventional technique in which the power supply capacity of its DC power supply device is large, and the DC power supply device must have an excellent dynamic load varying characteristic. <P>SOLUTION: The indicator system for the elevator is equipped with an elevator control board 1 to control the operation of the elevator and supplying the indicator information, the DC power supply device 6 to supply a DC power, and a plurality of hall indicators 2a-2c connected with the control board through a transmission cable 7, connected with the DC power supply device through a power cable 8, having dot matrix LED displays 3, synchronized with the data transmission period with the control board, and lighting up the displays with the timings shifted from one another based on the indicator information. Thereby it is possible to suppress the peak of the output current of the DC power supply device, average the load current, and suppress the cost. <P>COPYRIGHT: (C)2004,JPO

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an elevator indicator system for lighting a plurality of dot type indicators in a time division manner, and more particularly to an elevator indicator system in which the start timing of lighting scan is shifted for each indicator. It is a thing.

[0002]

2. Description of the Related Art A conventional elevator indicator system will be described with reference to the drawings. FIG. 3 is a diagram showing a configuration of a conventional elevator indicator system.

In FIG. 3, 1 is an elevator control panel and 2 is
a to 2c are hall indicators, 3 is a dot matrix L
ED indicator, 4 is a driver for driving the LED indicator 3, 5 is a microprocessor for controlling data communication with the elevator control panel 1 and the driver 4, 6 is a DC power supply device for a hall indicator, 7 is an elevator control panel 1 Is a transmission cable that connects between the hall indicator 2 and the DC power supply device 8 that connects between the DC power supply 6 and the hall indicator 2.

Next, the operation of the conventional elevator indicator system will be described with reference to the drawings.

FIG. 4 is a timing chart showing the operation of a conventional elevator indicator system.

The microprocessor 5 in the hall indicator 2 performs data transmission with the elevator control panel 1 via the transmission cable 7. The microprocessor 5 uses the transmitted indicator information to synchronize the data transmission process with the driver 4 via the dot matrix LED.
The display 3 is controlled to light.

FIG. 4 is an example of a waveform of a current flowing through each hall indicator shown in FIG. The same figure (a) and (b)
Waveforms 1a and 1b shown in FIG. 2 are current waveforms of the hall indicator 2 on each floor, and a waveform 2 shown in (c) is an output current waveform of the DC power supply device 6.

At this time, the dot matrix LE
The D display device 3 is 5 dots wide × 7 dots long, and the lighting of the LED is controlled by time division in the vertical direction with a duty ratio of 1/7, and the display character is “7”.

[0009] Here, the hall indicators on each floor are all the same equipment and display the same characters. Therefore, all the same programs are operating, and the processing operations are synchronized by data communication with the elevator control panel 1.

That is, the landing indicator 2 on each floor is
The dot matrix LED display 3 is controlled to be lit at the same timing, and the peak current of each floor also flows at the same timing.

Therefore, the output current of the DC power supply device 6 is determined by the landing indicator 2 of each floor connected to the DC power supply device 6.
Is the sum of the number of units, the waveform 2 shown in FIG.
It becomes something like.

[0012]

In the conventional elevator indicator system as described above, the DC power supply device 6 requires the number of the landing indicators for supplying the power times the peak current, and the time required for the DC power supply device 6 is reduced. Since the amount of change in the load current also becomes large, the DC power supply device 6 used has a large power supply capacity, and there is a problem that the DC power supply device 6 having excellent dynamic load variation characteristics is required.

Further, since the load current of the power source largely changes, the radiated noise generated from these devices also becomes large, which causes a problem such as radio noise.

The present invention has been made to solve the above-mentioned problems, and has a lighting control device for controlling the lighting timing of a hall indicator supplied with power from a DC power supply device. By shifting the lighting timing of the dot-matrix LED display of the indicator so that it is turned on, the load current of the DC power supply device is prevented from becoming the number of connected hall indicators × peak current, and the load fluctuation of the DC power supply device over time The aim is to obtain an elevator indicator system that can be averaged.

[0015]

An elevator indicator system according to claim 1 of the present invention is an elevator control panel for controlling operation of an elevator and for supplying indicator information, and a DC power supply device for supplying DC power. Each is connected to the elevator control panel through a transmission cable, connected to the DC power supply device through a power cable, has a digital position indicator, is synchronized with a data transmission cycle with the elevator control panel, and has the indicator information. Based on this, a plurality of indicators for controlling lighting by shifting the lighting timing of the digital position indicator are provided.

Further, in the elevator indicator system according to the second aspect of the present invention, the indicator arbitrarily switches the lighting timing for each floor, the elevator control panel, the microprocessor for transmitting the indicator information data. A switching setting device for setting a setting value for, a driver for driving the digital position indicator, and a setting value set in the switching setting device,
And a lighting control device for controlling the lighting timing of the digital position indicator via the driver according to the set value.

[0017]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiment 1. An elevator indicator system according to Embodiment 1 of the present invention will be described with reference to the drawings. 1 is a diagram showing a configuration of an elevator indicator system according to a first embodiment of the present invention. In each figure, the same reference numerals indicate the same or corresponding parts.

In FIG. 1, 1 is an elevator control panel and 2 is
a to 2c are hall indicators, 3 is a dot matrix L
ED display (digital position display), 4 is a driver for driving the dot matrix LED display 3, 5 is a microprocessor for controlling data communication with the elevator control panel 1 and the driver 4, 6 is a DC power supply for the hall indicator A device, 7 is a transmission cable that connects the elevator control panel 1 and the hall indicator 2, and 8 is a DC power supply device 6
It is a power cable that connects between and the landing indicator 2.

In the figure, 5a is a lighting control device for controlling the lighting timing of the dot matrix LED display 3, and 9 is a switching setting device for arbitrarily switching the lighting timing.

Next, the operation of the elevator indicator system according to the first embodiment will be described with reference to the drawings.

FIG. 2 is a timing chart showing the operation of the elevator indicator system according to the first embodiment of the present invention.

DC power is supplied from the DC power supply device 6 to the hall indicator 2a on the Nth floor, the hall indicator 2b on the N-1th floor, and the hall indicator 2c on the N- (N-1) th floor. The hall indicators 2a to 2c on each floor have basically the same configuration, and perform data transmission periodically with the elevator control panel 1 via a transmission cable 7.

As a result, the microprocessor 5 turns the dot matrix LED display 3 on the basis of the indicator information received from the elevator control panel 1 by the lighting control device 5a through the driver 4 in a time division manner. / Turn off the light. At this time, the time division lighting / extinguishing control is performed in synchronization with the data transmission cycle with the elevator control panel 1.

In other words, the hall indicators 2a on each floor
The time-sharing turn-on / off control processing of the dot matrix LED display 3 of 2c is synchronized with each floor question by data transmission with the elevator control panel 1.

Here, different values are set to the respective hall indicators 2a to 2c of each floor by the switching setting device 9 provided in each hall indicator 2a to 2c.
For example, a numerical value is set by a rotary switch or the like. Further, the microprocessor 5 takes in the value set in the switching setting device 9, and the lighting control device 5a for controlling the timing of turning on / off the dot matrix LED display 3 in a time division manner by this value. To provide. For example, the control is such that the start timing of time division is shifted by the numerical value set by the rotary switch.

In the example shown in FIG. 2, the dot matrix L
The ED display 3 has horizontal 5 dots × vertical 7 dots, and the DC power supply device 6 is connected to the hall indicators for the seventh floor. That is, N = 7.

Further, the dot matrix LED display 3
Is controlled to be turned on in the vertical direction in a time division manner with a duty ratio of 1/7, and the display character is "7". For example, the switching setting devices 9 of the hall indicators 2a to 2c respectively set the setting values S as S (N) = 7, S (N-1) = 6, S.
When (N- (N-1)) = 1 is set, in the hall indicator 2a on the Nth floor, the microprocessor 5 reads this value (= 7) by the lighting control device 5a, and the dot matrix LED display 3 displays Time division points from the 7th line
Turn off control.

Similarly, the hall indicator 2b on the N-1 floor
Starts time-divisional ON / OFF control from the first vertical line. In this way, the current waveforms (waveforms 1a to 1c in FIG. 2) of the hall indicators 2a to 2c on each floor are obtained.

That is, it means that the display is sequentially performed after the synchronization from the elevator control panel 1 only at the timing calculated by "7-S". Therefore, at the time of synchronizing with the elevator control panel 1 in time division, the hall indicator 2a on the Nth floor is the 7th row from the bottom of the dot matrix LED indicator 3, and the hall indicator 2b on the N-1th floor is the dot matrix LED indicator. The bottom row of 3, N- (N
-1) The hall indicator 2c on the floor indicates that the dot matrix LED indicator 3 is turned on if necessary in the sixth row.

Therefore, since the output current of the DC power supply device 6 is the current of the sum of these hall indicators 2a to 2c, it is obtained in an averaged form as shown by the waveform 2 in FIG.

As described above, according to the first embodiment, since the peak of the output current of the DC power supply 6 to the hall indicators 2a to 2c can be suppressed and the load current can be averaged, the DC power supply used for this can be used. Since it is possible to reduce the demands on the power supply capacity and the dynamic load variation characteristics in selecting and designing 6, the cheaper DC power supply device can be used.

[0032]

As described above, the elevator indicator system according to claim 1 of the present invention includes an elevator control panel that controls the operation of the elevator and supplies indicator information, and a DC power supply device that supplies DC power. ,
Each is connected to the elevator control panel through a transmission cable, connected to the DC power supply device through a power cable, has a digital position indicator, is synchronized with a data transmission cycle with the elevator control panel, and has the indicator information. On the basis of the plurality of indicators for controlling lighting by shifting the lighting timing of the digital position indicator based on the above, the peak of the output current of the DC power supply device can be suppressed, the load current can be averaged, and by extension the DC power supply. This has the effect of making the device inexpensive.

Further, in the elevator indicator system according to claim 2 of the present invention, the indicator arbitrarily switches the lighting timing for each floor with the elevator control panel, the microprocessor for transmitting data of the indicator information. A switching setting device for setting a setting value for, a driver for driving the digital position indicator, and a setting value set in the switching setting device,
Since it has a lighting control device that controls the lighting timing of the digital position indicator via the driver according to the set value, the peak of the output current of the DC power supply device can be suppressed, and the load current can be averaged. The DC power supply device can be inexpensive.

[Brief description of drawings]

FIG. 1 is a diagram showing a configuration of an elevator indicator system according to a first embodiment of the present invention.

FIG. 2 is a timing chart showing the operation of the elevator indicator system according to the first embodiment of the present invention.

FIG. 3 is a diagram showing a configuration of a conventional elevator indicator system.

FIG. 4 is a timing chart showing the operation of a conventional elevator indicator system.

[Explanation of symbols]

1 Elevator control panel, 2a, 2b, 2c Landing indicator, 3 Dot matrix LED display, 4 Driver, 5 Microprocessor, 5a Lighting control device, 6 DC power supply device, 7 Transmission cable, 8 Power supply cable, 9 Switching setting device .

Claims (2)

[Claims] 1. An elevator control panel for controlling the operation of an elevator to supply indicator information, a DC power supply device for supplying a DC power source, and a DC power supply device connected to the elevator control panel through a transmission cable, respectively, to the DC power supply device. A plurality of devices that are connected through a power cable, have a digital position indicator, are synchronized with a data transmission cycle with the elevator control panel, and control the lighting of the digital position indicator based on the indicator information by shifting the lighting timings respectively. And an indicator system for an elevator, comprising: 2. The indicator includes the elevator control panel, a microprocessor for transmitting data of the indicator information, a switching setting device for setting a set value for arbitrarily switching lighting timing for each floor, A driver for driving the digital position display, and a lighting control device for fetching a set value set in the switching setting device and controlling the lighting timing of the digital position display via the driver according to the set value. The elevator indicator system according to claim 1, wherein: