KR0128195Y1 - Information transmitting equipment of elevator - Google Patents

Abstract

The present invention relates to an information transmission apparatus of an elevator, and the conventional information transmission apparatus of an elevator transmits information of a platform to a group management unit and a group control unit by using a serial transmission path, so all call signs and platform display signals of the platform are displayed. The information transmission is performed only by the serial transmission line, and thus the operation of the elevator is not easy, and there is a problem in that the separation of the transmission method is impossible due to the excessive amount of communication information. In order to solve this problem, the present invention transmits information through different information transmission paths to routers connecting data transmission paths having different data rates, thereby unifying management of the network and configuring the cage as one network. The information transmission device of the elevator was devised.

Description

Information transmission device of elevator

1 is a configuration diagram of a conventional elevator information transmission device.

2 is a block diagram of a conventional elevator information transmission device.

Third is a configuration diagram of the information transmission device of the present invention elevator.

4 is a configuration diagram of the rotors 31 (32-1 to 32-N) 33 in FIG.

* Explanation of symbols for main parts of the drawings

21: military management control unit 22: breath control unit

23: high speed serial transmission line 24: low speed serial transmission line

25: platform call button 26: platform control unit

27: cage 28: cage serial transmission path

29: remote monitoring unit 30: frequency transmission path

31,32,33: Rotor 51: 78Kbps transmission path

52: 1.25 Mbps Transmission 53,54: Transceiver

55,56: CPI 57,58: memory

The present invention relates to an information transmission device of an elevator, and more particularly, to an elevator information transmission device suitable for network management and elevator operation.

1 is a configuration diagram of a conventional elevator information transmission apparatus, as shown in FIG. 1, a group management control unit 1 which collectively controls an elevator, and an exhalation control unit 2 and a serial transmission path 4 controlling an exhalation of a platform. (5), the exhalation control unit (2) (3) is a communication controller (8) (9) and platform serial transmission path (6) (transmission control of the platform call signal of the platform call button 10) 7) is connected and configured.

In the conventional elevator information transmission device configured as described above, when the user presses the platform call button 10, the platform call signal is controlled by the communication controller 6, 7 and then the platform serial transmission path 6, 7 is opened. It is applied to the exhalation control unit (2) (3), and the exhalation control unit (2) (3) controls the platform call signal and transmits to the group management control unit (1) through the serial transmission path (4) (5).

On the other hand, Figure 2 is another configuration of the conventional elevator information transmission apparatus, as shown in the group management control unit 11 for controlling the entire elevator system, the unit control unit (11-1 to 11-) for controlling each elevator unit N), the platform call buttons 14-1 to 14-N, which are physically connected to the high speed serial transmission path 12 and the low speed serial transmission path 13 for generating information, and generate a platform calling signal, are the low speed serial. Connected to the group management control unit 11 and the breath control unit 12 through the transmission path 13, the monitoring control unit 16 to display the transmission information and control the operation of the platform is the group management control unit 11 and It is connected to the control unit 12 via the high speed serial transmission path 12, and the transmission control unit 15-1 to 15 between the low speed serial transmission path 13 and the platform call button (14-1 to 14-N) -N) is connected to each other.

In the elevator information transmission device configured as described above, each platform call signal generated from the platform call buttons 14-1 to 14-N is controlled by the transmission control unit 15-1 to 15-N. Through the group management control unit 11 and the group control unit (11-1 to 11-N) through the transmission information between the group management control unit 11 and the group control unit (11-1 to 11-N) through a high-speed serial It is applied to the monitoring control unit 16 via the transmission path (12).

At this time, the monitoring control unit 16 displays the information transmitted from the group management control unit 11 and the group control unit (11-1 to 1-N), the setting of the driving platform, manual setting of the operation mode, power supply Perform open / close operation or indicator light.

However, the information transmission apparatus of the conventional elevator, as shown in Figures 1 and 2 above transmits the signal of the platform to the military management control unit and the group control unit by using the serial transmission path, so all call signals of the platform And the display signal is not easy to operate the elevator because the information is transmitted only by the serial transmission line, there was a problem that the separation of the transmission method due to the excessive amount of communication information.

In order to solve this problem, the present invention transmits information through a different information transmission path to a router that connects information transmission paths having different data rates so that the management of the network is unified and the cage is composed of one network. The information transmission device of the elevator was devised.

3 is a block diagram of the information transmission apparatus of the present invention, as shown in the group management control unit 21 for overall control of the operation of the elevator, combined with the group management control unit 21, the data information for the air allocation Is provided on each floor together with the exhalation control units 22-1 to 22-N and the platform call buttons 25-1 to 25-N for transmitting the information through the high speed serial transmission path 23, and the platform call button 25 The boarding point distribution control unit 26-1 to 26-N for controlling the boarding point signal of -1 to 25-N to each boarding point via the low speed serial transmission path 24, and the high speed serial transmission path 23 Cage 27-1 to 27-N which receives the exhalation control signal of said exhalation control part 22-1-22-N through the cage serial transmission path 28-1-28-N, and operates the said platform. And, through the high-speed serial transmission line 23 receives the data information of the group management control unit 21 and the breath control unit 22-1 to 22-N to the frequency transmission path (30) A remote monitoring unit 29 for indicating the setting of the driving platform, manual setting of the operation mode, opening and closing of the power supply, the high speed serial transmission path 23, the low speed serial transmission path 24, and the high speed serial transmission; It consists of a rotor 31 (32-1 to 32-N) 33 which connects the furnace 23, the cage serial transmission path (28-1 to 28-N) and the frequency transmission path 30, respectively, The high speed serial transmission path 23 is a 1.25 Mbps transmission path, the low speed serial transmission path 24 and the cage serial transmission paths 28-1 to 28-N are 78 Kbps transmission paths, and the frequency transmission path 30 is It is a transmission line using radio frequency.

In addition, the rotors 31 (32-1 to 32-N) 33 are intermediate nodes connecting two transmission paths having different data transmission rates, and as in the embodiment of FIG. 4, the 78 Kbps transmission path 51 Transceivers 53 and 54 for transmitting and receiving data information through the 1.25 Mbps transmission path 52 and the data information of the transceivers 53 and 54 in parallel communication with each other, and each memory 57 ( 58 is composed of the CMP (55, 56) to be stored in.

Referring to the operation and effects of the present invention configured as described above are as follows.

In general, if the transmission rate is 78Kbps can cope with the high-rise platform service.

When the user presses the platform call buttons 25-1 to 25-N at the platform, the platform call signal is transmitted by the platform distribution control unit 26-1 to 26-N at a speed of 78 Kbps and the high speed serial transmission path 24. The rotor 31 which connects the serial transmission line 23 is reached. Then, the rotor 31 transmits the data transmitted at 78 Kbps to the high speed serial transmission line 23 of 1.25 Kbps, which transmits data information through the 78 Kbps transmission channel 51 as shown in FIG. CPI 55 processes this, stores it in the memory 57, and simultaneously transmits the same to the CPI 56.

Accordingly, the CPI 56 processes this to fit the 1.25Mbps transmission path 52 and the transceiver 54 transmits it to the 1.25Kbps transmission path 52.

In this way, when the boarding call signal is applied to the group management control unit 21, the group management control unit 21 allocates the most suitable breath for the platform call signal, the assigned breath signal, for example, the breath control unit 22 -1) is applied to the rotor 32-1 through the high speed serial transmission path (3).

Then, the transceiver 54 of the rotor 32-1 applies this information to the cage serial transmission path 28-1 through the transceiver 53, whereby the cage 27 receives the landing site where the landing call signal is generated. It will run by.

At this time, the information transmission to the remote monitoring unit 29 is made in the rotor 33 via the frequency transmission path 30 using the radio frequency, the remote monitoring unit 29 is a group management control unit 21 and the breath control unit ( 22-1 to 22-N) receives the data information and displays it, and instructs the setting of the driving platform, manual setting of the operation mode, and opening / closing of the power supply.

As described above, the present invention transmits the data information to the rotor connecting the information transmission paths having different data transmission speeds, thereby eliminating signal attenuation when the elevator information transmission amount and the height are increased, and also the information transmission paths of the elevators. Since it can be unified, it is useful for network management.

Claims (1)

Group management control unit 21 for the overall control of the operation of the elevator, and the air control unit 22-1 to coupled with the group management control unit 21 to transmit data information on the air allocation through the high-speed serial transmission line 23 22-N and the platform call buttons 25-1 to 25-N, which are provided on each floor to transmit the platform call signals of the platform call buttons 25-1 to 25-N. The cage distribution control units 26-1 to 26-N for distributed control to each platform through the cage and the exhalation control signals of the exhalation control units 22-1 to 22-N via the high speed serial transmission path 23 are caged. The military management control unit 21 through the cage 27-1 to 27-N for receiving the input through the serial transmission path (28-1 to 28-N) to operate the platform and the high-speed serial transmission path (23). And the data information of the exhalation controllers 22-1 to 22-N are received and displayed on the frequency transmission path 30, and the setting of the driving platform, the manual setting of the operation mode, the opening and closing of the power supply, and the like are performed. An instructing remote monitoring unit 29, the high speed serial transmission path 23 and the low speed serial transmission path 24, the high speed serial transmission path 23, and the cage serial transmission paths 28-1 to 28-N; An elevator information transmission apparatus comprising: routers 31 (32-1 to 32-N) 33 which connect frequency transmission paths 30, respectively.