CN214003718U

CN214003718U - Calling landing system

Info

Publication number: CN214003718U
Application number: CN202021940331.0U
Authority: CN
Inventors: 邓志辉; 李钟东; 曾皇卉
Original assignee: Guangzhou Guangri Electricity Facilities Co Ltd
Current assignee: Guangzhou Guangri Electricity Facilities Co Ltd
Priority date: 2020-09-07
Filing date: 2020-09-07
Publication date: 2021-08-20
Anticipated expiration: 2030-09-07

Abstract

The utility model discloses a calling landing system, which comprises a terminal module, a calling landing module and a calling landing module, wherein the terminal module is used for inputting calling landing commands and displaying the state information of an elevator car in real time by using a designated identifier, and the state information comprises the current busy state of the elevator and the floor where the current elevator is located; the background server is in bidirectional signal communication with the terminal module and is used for receiving the call calling command sent by the terminal module; the command receiving devices are arranged on the control arm of each elevator car and are communicated with the background server in a bidirectional signal mode and used for receiving the call calling commands sent by the background server after successful authorization and authentication so as to control the elevator control arm to execute corresponding operation; the instruction receiving device is also used for acquiring the state information of the elevator car in real time and feeding back the background server of the elevator car to the terminal module for display. The utility model discloses reducible user waits for the time of elevator, improves user's use and experiences the sense.

Description

Calling landing system

Technical Field

The utility model relates to an elevator control field especially relates to a calling landing system.

Background

At present, a plurality of elevators are generally arranged in a building with a relatively high floor, each elevator is internally provided with a key panel, a user needs to control the elevator to run to an appointed floor by pressing the key panel, but the key panel is repeatedly contacted, so that bacteria and viruses in the key panel are more, and the user is easy to infect bacteria and viruses by contacting the mouth and the nose after contacting the key panel, thereby causing harm to human health;

secondly, in the actual elevator taking process, when a plurality of elevators have more people to queue up to take the elevator, the user can not know the current floor and running direction of each elevator in advance, so that the user often blindly selects one of the teams to queue up, and the user can take the elevator only after consuming longer waiting time; if the user walks to the elevator display panel to check the floor and the running direction of each elevator before queuing, then selecting one of the elevators to wait in line, wherein the queuing queue is longer and longer in the checking process of the user, so that the user can only follow the last of the queue, and the waiting time is also too long; furthermore, the user cannot know the congestion condition in the elevator, and if the user waits for a long time, if the relatively congested elevator reaches the floor where the user is located, the user may not take the elevator, so that the user experience is poor.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to provide a calling landing system can let the user know the state information of every elevator, reduces the time that the user waits for the elevator, and the use that improves the user is experienced and is felt.

The purpose of the utility model is realized by adopting the following technical scheme:

a call system, comprising:

the terminal module is used for inputting a calling command and displaying the state information of the elevator car in real time by using the designated identification, wherein the state information comprises the current busy state of the elevator and the floor where the current elevator is located;

the background server is in bidirectional signal communication with the terminal module and is used for receiving the call calling command sent by the terminal module after the authentication is successful;

the command receiving device is arranged on the control arm of each elevator car and is in bidirectional signal communication with the background server, and the command receiving devices are used for receiving the call calling command sent by the background server after successful authorization and authentication so as to control the elevator control arm to execute corresponding operation; the instruction receiving device is also used for acquiring the state information of the elevator car in real time and feeding the authorized background server back to the terminal module for display.

Further, the call command comprises an elevator selection instruction, a floor selection instruction of the user and a destination floor selection instruction.

Further, the specified identifications are display colors and/or display patterns respectively representing different busy states of the elevator.

Further, the current busy state of the elevator comprises at least three states, wherein one state is an idle state accounting for 0-60% of the load-limiting people of the elevator, one state is a crowded state accounting for 60-90% of the load-limiting people of the elevator, and the other state is a full state accounting for 90-100% of the load-limiting people of the elevator.

Further, the display colors of the terminal module at least comprise three colors, wherein one color is green for displaying that the elevator is in an idle state, the other color is yellow for displaying that the elevator is in a crowded state, and the other color is red for displaying that the elevator is in a full state.

Further, the state information also includes the direction of travel of the elevator car, the estimated time required for the elevator to return from the current floor to the user's floor, and the estimated time required for the elevator to move from the user's floor to the user's selected destination floor.

Compared with the prior art, the beneficial effects of the utility model reside in that:

a corresponding instruction receiving device is arranged on the control arm of each elevator, so that card reading equipment does not need to be additionally arranged, and the elevator refitting cost is reduced; the user can look over the current state information of every elevator on mobile phone terminal, lets the user be steerable elevator's operational aspect promptly on mobile phone terminal, need not that the user contacts the keypad and can realize calling the elevator and take advantage of the ladder, improves the user and uses the experience and feel.

Drawings

FIG. 1 is a block diagram of the calling system of the present invention;

FIG. 2 is one of the signal transmission diagrams of the calling system of the present invention;

fig. 3 is a second schematic diagram of signal transmission of the calling system of the present invention.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that the embodiments or technical features described below can be arbitrarily combined to form a new embodiment without conflict.

The embodiment provides a call system, which is applied to an elevator group, and as shown in fig. 1, the call system at least comprises a terminal module, a background server and an instruction receiving device.

The control arm of each elevator in the elevator group is provided with a corresponding instruction receiving device, and the instruction receiving device can acquire the current position of the control arm to determine the floor where the elevator is located; and the current bearing weight of the elevator can be obtained by acquiring the tension parameters of the control arm so as to determine the busy state of the elevator.

In addition, each instruction receiving device is in bidirectional signal communication with the background server, various parameters acquired by the instruction receiving devices are fed back to the background server for analysis, and meanwhile, the instruction receiving devices can also receive a call calling command sent by the terminal module through the background server and control an elevator control arm to execute corresponding operation according to the call calling command; the running operation comprises ascending of the elevator, descending of the elevator, opening of the elevator door, closing of the elevator door, staying time of each opening of the elevator door and the like.

The background server is in bidirectional connection with the terminal modules, and a user can input a calling command by using the terminal modules, wherein the calling command comprises an elevator selection instruction, a floor selection instruction where the user is located and a target floor selection instruction; the user can select which elevator to take in the terminal module, each elevator has a corresponding number for the user to distinguish, and the user can select which floor the user is at and the destination floor the user wants to reach in the terminal module. Meanwhile, the user can check the state information of each elevator car in the terminal module, wherein the state information comprises the current busy state of the elevator, the floor where the current elevator is located, the running direction of the elevator car, the expected time required for returning the elevator from the current floor to the floor where the user is located, the expected time required for moving the elevator from the floor where the user is located to the target floor selected by the user and the like; the terminal module displays the state information of the elevator car in real time by using the designated identifier, wherein the designated identifier can represent different busy states of the elevator car by different colors, and also can represent different busy states of the elevator car by using designated icons or patterns.

When the instruction receiving device transmits the acquired tension parameters to the background server, the background server calculates the actual number of the elevators corresponding to the tension parameters according to the normal weight range of adults, and then calculates the percentage of the actual number of the elevators to the load limit number of the elevators, so that the current busy state of the elevators is known; in this embodiment, the current busy state of the elevator includes three kinds, one of which is an idle state accounting for 0-60% of the load-limiting people of the elevator, one of which is a crowded state accounting for 60-90% of the load-limiting people of the elevator, and the other one of which is a full state accounting for 90-100% of the load-limiting people of the elevator. Correspondingly, when the busy state is three, the display colors of the terminal module can also include three, wherein one is green for displaying that the elevator is in an idle state, the other is yellow for displaying that the elevator is in a crowded state, and the other is red for displaying that the elevator is in a full state, so that a user can visually check the crowded condition of each elevator through the terminal module, and the user can decide which elevator to take according to the crowded condition.

The background server can send recommendation information to the terminal module according to the current busy state of each elevator and the estimated time of each elevator to reach the floor where the user is estimated to be located, wherein the recommendation information comprises the elevator number suggested to be taken and the geographic position of the elevator, so that the user can purposefully walk to a queue corresponding to the recommended elevator to wait, the waiting time of the user is shortened, and the checking and selecting time of the user is reduced. In addition, the user can also set a default calling command in the terminal module, the default calling command is bound with the account number, and when the user logs in the account number on the terminal module every time, the terminal module quickly generates recommendation information according to the default calling command and information such as the busy state of each elevator at present, so that the repeated operation times of the user are reduced, and the use experience of the user is improved.

In order to improve the safety of the elevator, only the terminal module logging in the authorized account can send a call command to the background server. The background server can be connected with a property management system of a building where the elevator group is located, managers authorize users with checked personal identity information in advance through the property management system, and account information corresponding to the authorized personal identity information is added into an authorization list; the account information includes, but is not limited to, a user name, a user mobile phone number, a user identification number, a unit to which the user belongs, and the like. When a user logs in an account in the terminal module, the background server can perform authorization comparison according to account information and a prestored authorization list, if the account information of the terminal module exists in the authorization list, the account is a legal account, and a call calling command sent by the terminal module is allowed to be received; if the account information does not exist in the authorization list, the account is represented as an illegal account, and the call command sent by the terminal module is not received or executed.

In addition, when the instruction receiving device receives the call command sent by the background server, the validity of the background server also needs to be judged: the manager can perform information binding with the command receiving device in the elevator group in the background server in advance to generate corresponding authorization information; when the instruction receiving device is accessed to the background server, the authorization information of the background server is obtained, whether the instruction receiving device and the background server are bound or not is judged according to the authorization information, if the instruction receiving device and the background server are bound, the instruction receiving device can receive and execute the call calling command, and if the instruction receiving device and the background server are not bound, the call calling command is not received or not executed.

In order to ensure that a user can control the operation of the elevator in the elevator, 5G signals are covered in the elevator, and the user can generate a corresponding call command in the elevator in time by using the 5G communication signals with medium-low delay to select a target floor, so that the control flexibility and timeliness are improved.

Meanwhile, the background server can be connected with the cloud end, various collected information such as the busy state of the elevator, the tension parameter of the control arm, the account information of the user, a call calling command sent by the user correspondingly and the like are recorded and stored in the cloud end, and elevator taking authority management and elevator operation data real-time monitoring are achieved.

The signal transmission principle of the calling system is as follows:

step S1: as shown in fig. 2, the instruction receiving device collects status information of each elevator, feeds the status information back to the terminal module through the background server, and displays the status information in the terminal module in a designated identifier manner.

The state information comprises the current busy state of the elevator, the floor where the elevator is located at the current time, the running direction of an elevator car, the estimated time required for returning the elevator from the floor where the elevator is located to the floor where the user is located, the estimated time required for moving the elevator from the floor where the user is located to the target floor selected by the user and the like; the terminal module displays the state information of the elevator car in real time by using the designated mark, wherein the designated mark can represent different busy states of the elevator car by different colors, and can also represent different busy states of the elevator car by using designated icons or patterns.

Step S2: as shown in fig. 3, the background server receives a call command sent by a terminal module, and sends the call command to the corresponding instruction receiving device, so that the instruction receiving device controls an elevator control arm to move to a corresponding floor position according to the call command.

Before the background server receives the call calling command sent by the terminal module, the method also comprises the following steps of judging the validity of the terminal module: obtaining account information corresponding to the terminal module, performing authorization comparison on the account information corresponding to the terminal module and a prestored authorization list, if the account information of the terminal module exists in the authorization list, allowing to receive the call calling command sent by the terminal module, and if the account information of the terminal module does not exist in the authorization list, disallowing to receive the call calling command sent by the terminal module.

When the instruction receiving device receives the call calling command, the method also comprises the following steps of: and acquiring authorization information of the background server, judging whether the instruction receiving device and the background server are bound or not according to the authorization information, if so, executing the call calling command by the instruction receiving device, and if not, not executing the call calling command.

The above steps S1 and S2 may be performed simultaneously, and the order of execution of the two steps is not limited herein.

In addition, the background server can also send recommendation information to the terminal module according to the current busy state of each elevator and the estimated time of each elevator estimated to reach the floor where the user is located, wherein the recommendation information comprises the elevator number recommended to take and the geographic position of the elevator.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention cannot be limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are all within the protection scope of the present invention.

Claims

1. A call system, comprising:

2. Call system according to claim 1, characterized in that the call commands comprise elevator selection commands, floor selection commands on which the user is located and destination floor selection commands.

3. Call system according to claim 1, characterized in that the designation marks are display colours and/or display patterns, respectively, representing different busy states of the elevator.

4. Call system according to claim 1, characterized in that the current busy state of the elevator comprises at least three, one being an idle state accounting for 0-60% of the elevator limit, one being a crowded state accounting for 60-90% of the elevator limit, and the other being a full state accounting for 90-100% of the elevator limit.

5. Call system according to claim 4, characterized in that the display colors of the terminal modules comprise at least three, one green for the elevator in idle state, one yellow for the elevator in crowded state and one red for the elevator in full state.

6. Call system according to claim 1, characterized in that the status information also includes the direction of travel of the elevator car, the estimated time required for the elevator to return from the current floor to the user's floor, and the estimated time required for the elevator to move from the user's floor to the user's selected destination floor.