JPH02305779A - Signal transmitting device of elevator - Google Patents

Abstract

PURPOSE:To improve the reliability of transmitting signal by providing a deciding circuit to check the register to a main station by deciding that it is an error calling data when there are calls of a specific number or more in a specific time, and to register to the main station by deciding that it is a normal calling data when there are calls less than the specific number. CONSTITUTION:A deciding circuit 9 decides whether the number of calls is a specific number or more in a specific time or not from the calling data input from remote stations 2a-2n of the halls through a transmission line 10. When the number is the specific number or more, as a result, it is decided to be an error calling data and the register to a main station 1 is checked. On the other hand, when it is less than the specific number, it is decided to be a normal calling data, and the output signal from the deciding circuit 9 is delivered to register to the main station. In such a way, the reliability of transmitting signal against an external disturbance such as a noise can be improved, and the time of transmission can be reduced.

Description

[Detailed description of the invention] [Industrial application field]

The present invention relates to an elevator signal transmission device.

[Conventional technology]

FIG. 5 is an overall configuration diagram of a conventional elevator signal transmission device disclosed in, for example, Japanese Unexamined Patent Publication No. 61-194943. In the figure, 1 is a main station corresponding to the elevator control device, 2a to 2n are remote stations provided in the halls of each floor, and 3 is a remote station provided in the car.
a~2 n and? The J3 domain stations 1 are connected by a bus type transmission line 8. 4a-4n are remote stations 2a-2 of each hall
Hall call button for inputting a hall call signal to n, 5
a~5n are remote stations 2a~2n of each hall
6 is a car call button that inputs a car call signal to the remote station 3 of the car; 7 is a car call registration completion output from the remote station 3 of the car. This is a car call registration light that lights up depending on the signal. Next, the operation of the conventional elevator signal transmission device configured as described above will be explained with reference to FIGS. 6 to 8. Fig. 6 is a memory map of addresses, Fig. 7 is an explanatory diagram showing the transmission procedure and data input/output timing at each stage, and Fig. 8 is a transmission line 8 showing the processing in Fig. 7 on the time axis. FIG. To make the explanation easier to understand (main station 171
The remote station is 2a at 1G corner. The case of three stations 2b and 2c will be described. Main station 1 secures six addresses for output and input as shown in Figure 6, and outputs data (D10
~D12) and input data (D13~D15), and assign one each to each remote station. For example, address A10 is the address at which the main station 1 outputs data DIO and the remote station 2a inputs it. On the other hand, address A13 is data D
13 is the address output by the remote station 2a and input by the main station 1. In this way, for addresses AIO to A15, the stations for outputting and inputting data are determined. Next, the actual transmission procedure and data input/output timing at each station will be explained with reference to FIG. First, at time T, main station 1
outputs address data AIO to transmission line 8. Each remote station 2a, 2b, 2C inputs this address data AIO and checks whether the address is assigned to itself or not. If the address is assigned to itself, it immediately inputs whether the address is for output or not. The data is input/outputted to the transmission line 8 at time T2. Basically, the remote station 2a that inputs the address data AIO has its own allocation as an address, and since it is for input, it has the next data D10. On the other hand, address data A
The main station 1 that outputs the IO immediately thereafter checks whether it is for output or input, and inputs and outputs the data. Therefore, since the address AIO of main station cylinder 1 is for output, the data DIO stored there is
Output to transmission line 8 to JJTI. This process is performed continuously up to address A15,
- End data input/output with each remote station.

[Problem to be solved by the invention]

In the conventional elevator signal transmission device configured as described above, the signal level transmitted to -a is low and the transmission line is long, making it easy for noise to enter the transmission line and cause false alarms. There were problems such as signals being transmitted to the main stage or to remote stations, resulting in erroneous call registrations, for example. Therefore, conventional methods have been proposed to improve the reliability of signal transmission by reading the signal twice, etc.
9 When the number of floors increases, there is a problem in that as the number of signals increases, it takes time to read them twice, resulting in a longer transmission time. This invention was made to solve the above-mentioned problems, and aims to provide an elevator signal transmission device that can improve transmission reliability against disturbances such as noise and shorten transmission time. do.

[Means to solve the problem]

The elevator signal transmission device according to the present invention determines that call data is erroneous call data when the transmission line connecting the main station and each remote station exceeds a predetermined number within a predetermined time, and that the number is less than a predetermined number. A determination circuit is provided which determines that the call data is official and outputs only the official call data so that it can be registered in the main station.

[Operation] The determination circuit determines whether the number of calls is greater than or equal to a predetermined number within a predetermined time based on the call data input from each remote station through the transmission line, and when the number is greater than or equal to the predetermined number, it is determined that the call data is erroneous call data. When the number is less than a predetermined number, the call data is determined to be official and can be registered at the main station. Therefore, according to the present invention, the reliability of the transmission signal against disturbances such as noise is improved, and the transmission time can also be shortened. [Embodiment M1] Hereinafter, embodiments of the present invention will be described based on the drawings. FIG. 1 is an overall configuration diagram showing an embodiment of an elevator signal transmission device according to the present invention. In the figure, the same symbols as in FIG. 5 indicate the same parts. Further, 9 is a determination circuit, and this determination circuit @9 determines whether or not there are, for example, a predetermined number or more of hall or car calls within a predetermined time, and determines that the call is a predetermined number or more of a scheduled call, and then determines whether or not the call is a predetermined number or more of regular calls. When the number of calls is less than a predetermined number, it is determined that the call is an official call and a call registration signal is output to the main stage 1. Judgment circuit 9 and each remote station 2a to 2n and 3
They are connected by a bus type transmission line 10. Further, the determination circuit 9 and the main station 1 are connected by a bus type transmission line 11. Next, the operation of the signal transmission apparatus of this embodiment configured as described above will be explained with reference to FIGS. 2 to 4. FIG. 2 shows an example of data or noise on the transmission line 10 or 11. In this Figure 2, the call data for each floor consists of 8 pits including the start pitch (start pitch), and to simplify the explanation, each bit from 0 to 7 is assigned as follows for the 1st to 8th floors. Corresponding to a floor call, when the signal level of the bit is Low, there is a call, and when it is H1gh level, there is no call. θ bit: 1st floor nominal 1 bit: 2' 2 bits = 3 " 3 bits: 4' 4 bits: 5' 5 bits 1-=6' 6 bits 1: 7' 7 bits 1: 8 # , In Fig. 2, (a) shows the data when there is no call to each floor, and Fig. 2 (b) shows the data when the third floor is called. is transmission line 1
The noise signal above 0, (d) in the same figure is 2 due to noise.
This is data when four false calls occurred simultaneously on the 5th floor. Next, the operation of the determination circuit 9 will be explained with reference to flowchart 1 in FIG. When the determination circuit 9 starts, in step 100, the signals shown in FIGS. 2(a) and 2(b) are transmitted from each remote station through the transmission line 110. Input call data as shown in (d). In the next step 200, it is determined whether there are a predetermined number (three) or more calls. Here, if it is determined that there are more than a predetermined number (3) of calls (call data as shown in FIG. 2(d)), the process proceeds to step 300, where it is determined that the data is an erroneous call and the data is sent to the main station 1. Process so that the call is not registered. In addition, a predetermined number (
If it is determined that there are no calls for 3 pieces or more (Figure 2 (b)
), the process proceeds to step 400, where it is determined to be official call data and the call is registered in the main station 1. That is, the call data inputted by the determination circuit 9 is output as is to the transmission 1i11, and is transmitted to the main stage fan 1. Next, details of the processing procedure shown in step 200 of FIG. 3 will be explained based on the flowchart of FIG. 4. First, in step 201, the call data input through the transmission line 1o is shifted one bit to the left. and,
In the next step 202, whether the carry flag is 0 or
That is, it is determined whether there is a call. Here, if it is determined that the carry flag is 0, the process proceeds to step 203, where a counter (not shown) configured in a shift manner in the determination @path 9 is incremented to count the number of calls. Further, if it is determined in step 202 that the carry flag is not 0, the process moves to step 206. In the next step 204, the counter value is set to a predetermined number (3).
Determine whether or not the value is greater than or equal to the value. Here, when it is determined that the counter value is greater than or equal to the predetermined number, the process proceeds to step 205, where the counter is initialized and the process proceeds to step 300 in FIG.
Proceed to. If it is determined that the counter value is not equal to or greater than the predetermined number, the process proceeds to step 206, and after incrementing the counter, it is determined whether the counter value is equal to the number of call data bits (8 bits in the embodiment). . If the determination results are equal, proceed to step 208,
After initializing the counter, step 4 in Figure 3
00. Further, when the determination result is rNOJ, the process returns to step 201 and the processes from step 201 onwards are executed. In this embodiment as described above, call data from each floor or car is input into the determination circuit 9, and it is determined whether or not the number of calls is greater than or equal to a predetermined number (for example, three). When the number of calls is below a predetermined number, it is determined that the call is an error due to noise, etc., and is not registered at main station 1. The reliability of the transmitted signal against disturbances such as noise is improved, and the transmission time is shortened because the conventional transmission method such as double reading is not adopted. In the above embodiment, the determination circuit 9 Although the method is described in which the time is controlled by a program, the system is not limited to this, and it is also possible to configure the system using hardware using a counter. [Effects of the Invention] As described above, according to the present invention, when It is configured so that when there are more than a predetermined number of calls within the system, it is prevented from being registered as erroneous call data to the main station, and calls that are less than a predetermined number are determined to be official call data and can be registered in the main stage controller. Therefore, the reliability of the transmitted signal against disturbances such as noise is improved, and the transmission time can also be shortened.

[Brief explanation of drawings]

FIG. 1 is a block diagram showing an embodiment of an elevator signal transmission device according to the present invention, FIGS. 2(a) to 4(d) are explanatory diagrams of call data and noise in this embodiment, and FIGS. Figure 5 is a flowchart showing the processing procedure of the determination circuit in this embodiment, Figure 5 is a configuration diagram of a conventional elevator signal transmission device, Figure 6 is a memory map for conventional data transmission, and Figure 7 is a conventional Transmission procedure and timing chart of data input/output at each station, No. 8
The figure is a diagram showing a conventional data arrangement of a transmission line viewed on a time axis. 1 Main station, 28~2n'' hole remote station, 3 Kako remote station,
4a-4n Hall call button, 5a-5n Hall call registration light, 6 Car call button, 7 Car call registration light, 9 Judgment circuit, 10.11 Transmission line. Note that the same reference numerals in the figures indicate the same or equivalent parts.

Claims (1)

[Claims] In an elevator signal transmission device for transmitting signals by connecting a main station corresponding to an elevator control device, a remote station provided on each floor, and a remote station provided in a car using a bus-type transmission line, If call data exceeds a predetermined number within a predetermined time on the transmission line connecting the main station and each remote station, it is determined to be erroneous call data, and if it is less than a predetermined number, it is determined to be official call data. A signal transmission device for an elevator, characterized in that it is provided with a determination circuit that outputs only call data so that it can be registered in a main station.