JPS6274892A - Transmission gear for elevator - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION [Technical Field of the Invention] The present invention relates to a transmission device between control devices of an elevator.

[Technical background of the invention and its problems] Generally, in the case of an elevator that has a large number of units and multiple floors, the amount of data exchanged between each elevator control device and the input/output device installed on each floor is large. There will be more. Therefore, in recent years, network-based transmission devices using serial lines have been widely used.

On the other hand, problems such as noise in transmission equipment are considered important, and noise countermeasures are a major issue.

Figure 2 shows the transmission system in the 1m elevator system. Each elevator control device A1 and A2 and each floor control device B1 and B2 are provided, and each separate room device has a transmission interface device cl, c2 . They are coupled by a bidirectional transmission bus line BL via C3 and C4. Elevator control devices AI and A2 control hoisting machines D1 and B2,
Cars El and B2 are serviced to predetermined floors. Elevator control device Al, transmission interface device C from person 2
1, the signal output to C2 is a logic level transmission signal such as TTL level. Since this transmission signal is affected by noise when transmitted over a long distance to each floor control device Bit82, etc., the transmission interface device C17C4 converts it into a differential signal that can be transmitted over a long distance and converts it into a bidirectional transmission bus line BL. The transmission interface devices 01 to C4 convert logic level transmission signals and differential signals.

Electric power is supplied to the transmission devices Ll and L2 of each elevator as a transmission circuit power source from the elevator control device Al and the power supply circuit of the person 2, and the transmission interface device ii C1,
C2, C3, C41: are also supplied. Each elevator control device Al, input 2 and each floor control device B1, B2 are all connected to the same power supply line. Therefore, power fluctuations, grounding conditions, etc. of each control device affect other elevator control devices, and malfunctions are likely to occur in devices other than the abnormal control device.

If surges, noise, etc. affect the transmission line, they can destroy other control devices or cause malfunctions, so a malfunction in one elevator can cause malfunctions in other elevators and, ultimately, in the building's entire elevator system. If this total failure occurs, the elevator, which is the most important means of transportation within the building, will become unusable.

[Purpose of the invention]

An object of the present invention is to provide a highly reliable elevator transmission device by improving the signal transmission device in an elevator system.

[Summary of the invention]

A plurality of floor control devices that input and output hall call signals on each floor and a plurality of elevator control devices that control operation of elevators are connected via their respective transmission interface devices.
Bidirectional bus line (connected to each other) In an elevator system that transmits and receives two signals, the line between the floor control device, the elevator control device, and the transmission interface device (
Optical transmission means for transmitting and receiving signals based on binary signals is provided.

[Embodiments of the invention]

The present invention will be explained based on an embodiment shown in the drawings. Fig. 1 is a circuit diagram of a transmission device according to the present invention (2). The same parts as in Fig. 2 are given the same reference numerals, and the explanation thereof will be explained below. Omitted.

Elevator control device A1 connects to transmission interface device C via signal transmission paths F1 and F2 using optical fibers.
Connect to 1. The power supply device BT drives (=supplies power to) the transmission circuit of the transmission interface device C7.

C2 is a transmission interface device for another elevator control device (not shown). Transmission interface device C1
and C2, data is transmitted via the bidirectional transmission bus line BL. Elevator division device All2 is equipped with buffers BFI and BF2. Signal input and output from elevator control device A1 is carried out through electrical-optical signal converter EL1 and optical-electrical signal converter LJ. This is done by converting electrical signals into optical signals, and converting optical signals into electrical signals.

The electrical-optical signal converter BLI is a light-emitting diode, etc.
The electrical signal converter LEI is composed of phototransistors and the like. Buffer gate BFI is elevator system @ equipment A1
The signal handled by the electrical-to-optical signal converter EL1 is raised to a voltage level sufficient to blink the light emitting diode used in the electrical-to-optical signal converter EL1. The buffer BF2 lowers the signal obtained by the phototransistor used in the opto-electrical converter LJ to a voltage level appropriate for being handled by the elevator control device A1.

Signal input/output on the transmission interface device C1 side is performed by the electrical-optical signal converter gL2 and the optical-electrical signal converter LP!
This is done by converting the signal by 2. The voltage level of the output of the optical-electrical signal converter LE2 is increased by the bus driver BD to a level that enables long-distance transmission, and the signal is transmitted to the bidirectional transmission bus line BL. The bus receiver BR is connected to the bidirectional transmission bus line BL from the elevator control device C2.
The signal sent via the electrical-to-optical signal converter EL2 flashes the light emitting diode used (= suitable voltage level (two-level downsle). Bidirectional transmission Hassline B
L is shielded using an electric wire on the negative electrode side of the transmission circuit power supply device BT.

Next, based on the above configuration, we will explain the operation of the example (two details).
:explain. When sending a call from each floor or a signal for operating another elevator from the elevator control device AI to the transmission bus line BL, the process is as follows. The transmission signal is sent from the buffer gate BFI to the electro-optic converter Fi
After being input into Ll and converted into an optical signal synchronized with the transmitted electrical signal, a signal transmission line F1 using an optical fiber is transmitted.
(= sent out. This optical signal is input to the optical-electrical signal converter Lg2 of the transmission interface device ftCt, where it is converted into an electrical signal synchronized with the optical signal and sent to the bus driver BD (
Both of us are strong. This signal is sent to the bus driver BD.
It is converted into a differential signal that can be transmitted over long distances, and is output to the bidirectional transmission bus line BL.

On the other hand, signals sent from another floor control device (not shown) or the elevator control device C2 are input as differential signals from the bidirectional transmission bus line BL to the path receiver BR. This differential signal is converted into a normal electrical signal by the path receiver BR and input to the electro-optical converter EL'l.

The optical signal converted by the electro-optical converter EL2 is sent to a signal transmission line F2 using an optical fiber. Transmission path F2
The optical signal from the is input to the optical-to-electrical signal converter Lg1 provided on the elevator control device Al side, and the electrical signal (:
converted.

Bus driver BD, path receiver B, and optical-electrical signal converter IJ provided in transmission interface device C1
2. Power for the electric-optical signal converter EL2 is supplied from the transmission circuit power supply device BT. In the case of FIG. 1, signals are exchanged between the elevator control device A1 and its transmission interface device C1 (although I have mentioned two, similar signals are sent and received between each control device).

As described above (=, signal transmission between each floor and control device is carried out using a differential signal ζ: which is suitable for long-distance transmission that has been used in the past, but each control device and The interface device should be equipped with an optical-electrical signal or an electrical-optical signal converter, and an optical fiber transmission line should be used to connect them (secondarily, an electrical connection should be made between each control device).
: Insulate. Therefore, the influence of noise from each control device on the transmission line is small.

〔Effect of the invention〕

Transmission path between each floor control device, each elevator control device, and the transmission interface device: By using an optical transmission path, each control device is electrically isolated, noise resistance is improved, and highly reliable elevator A transmission device can be provided.

[Brief explanation of drawings]

FIG. 1 is a circuit diagram showing an elevator transmission device based on the present invention, and FIG. 2 is a system diagram between elevator control devices according to prior art 1. A1... Elevator control device C1... Transmission interface device BT...Transmission circuit power supply device BL...Bidirectional transmission bus lines ELl, EL2...Electric-optical signal converters LJ, IJ
2... Optical-electrical signal converter Fl, F2... Optical transmission line agent Patent attorney Noriyuki Chika Yudo Hirofumi Mitsumata Figure 1

Claims (1)

[Scope of Claims] A plurality of floor control devices that input and output hall call signals on each floor and a plurality of elevator control devices that control operation of elevators are connected to a bidirectional bus line via each transmission interface device. The elevator is connected to an elevator and transmits and receives signals to each other, characterized in that an optical transmission means for transmitting and receiving signals using optical signals is provided between the floor control device, the elevator control device, and the transmission interface device. Elevator transmission equipment.