CN115159283B - Building vertical elevator and other ladder information management system - Google Patents

Abstract

The invention discloses a building vertical elevator and other elevator information management system, which comprises a user mobile terminal, a cloud server, an acquisition unit, an elevator thing networking system and an elevator calling unit, wherein the elevator calling unit is used for acquiring elevator calling signals and transmitting the elevator calling signals to the cloud server, the cloud server is communicated with the elevator thing networking system and the acquisition unit, the cloud server activates the elevator thing networking system and the acquisition unit based on the elevator calling signals, the elevator thing networking system is used for controlling elevator dispatching service and feeding elevator dispatching information back to the cloud server, the acquisition unit is used for acquiring user elevator taking information, the cloud server is used for acquiring user and other elevator information based on the elevator dispatching information and the user elevator taking information, and the user mobile terminal is used for displaying the user and other elevator information. The invention discloses a building vertical elevator and other elevator information management system, which solves the problems that when a user takes an elevator in a high-rise building and at a peak elevator taking time, the information on the running condition of the elevator and the number of passengers in an elevator car is unclear, and the elevator taking time is inconvenient to arrange reasonably.

Description

Building vertical elevator and other ladder information management system

Technical Field

The invention relates to the technical field of elevator internet of things and information communication, in particular to a building vertical elevator and other elevator information management system.

Background

As a means of transportation in daily life, elevators have been developed from an initial type of mechanical and electrical equipment to mechanical and electrical and electronic equipment, and the structure and function of elevators have been relatively stable, and the operation of elevators during riding is very simple and consistent. With the gradual progress of the whole society into the digital age, the elevator is not only mechanical, electrical and electronic equipment, but also information equipment.

At present, passengers in a building can only acquire the position information and the running direction information of the elevator through digital display equipment or liquid crystal equipment around the elevator hoistway door when waiting for the elevator, and can see the full-load information of the elevator under individual conditions. However, when waiting for a passenger, especially in a high-rise building and in a peak boarding time, it is often desirable to know information about the time situation and the number of passengers in the elevator car, so that the boarding time is reasonably arranged.

Disclosure of Invention

The invention provides a building vertical elevator and other elevator information management system, which aims to solve the problems that when passengers waiting for an elevator in a high-rise building and in a peak elevator taking time, the information on the running condition of the elevator and the number of passengers in an elevator car is unclear, and the elevator taking time is inconvenient to arrange reasonably.

In order to achieve the above object, the technical scheme of the present invention is as follows:

a building vertical elevator information management system comprises a user mobile terminal, a cloud server, an acquisition unit, an elevator internet of things system and a ladder calling unit;

the elevator calling unit is in communication connection with the cloud server, and is used for acquiring elevator calling signals and transmitting the elevator calling signals to the cloud server, wherein the elevator calling signals comprise system activation instructions and floor information;

the cloud server is respectively in communication connection with the elevator internet of things system and the acquisition unit, the cloud server activates the elevator internet of things system and the acquisition unit simultaneously based on the system activation instruction, the elevator internet of things system is used for controlling elevator dispatching service and feeding elevator dispatching information back to the cloud server, the acquisition unit is used for acquiring user elevator taking information, and the user elevator taking information at least comprises floor information of an elevator, information of the number of people in the current elevator, information of the number of people of the elevator, information of rated load of the elevator and information of actual load of the elevator;

the cloud server obtains user waiting information based on the elevator scheduling information and user waiting information, wherein the user waiting information comprises reserved elevator service information, cancelling waiting information, elevator real-time position information, elevator running floor number information of a destination floor, elevator passenger capacity information of the destination floor, waiting time information of the destination floor, number of stops of the destination floor and arrival reminding information;

the user mobile terminal is in communication connection with the cloud server and is used for displaying ladder information of a user and the like.

Further, the elevator dispatching information at least comprises data information of rated speed of elevator operation, elevator floor height, elevator operation floor number, door opening and closing time length when stopping elevator and average time length when a user enters and exits the elevator, and the data information is uploaded to a cloud server.

Further, the acquisition unit includes the weighing equipment of outer camera of ladder, the interior camera of ladder, infrared human body meter and car pedestal mounting, weighing equipment includes weight or pressure sensor, the acquisition unit carries out human body discernment and statistics based on camera and infrared human body meter, and simultaneously, the acquisition unit carries out whether overload when analyzing and calculating elevator operation to the target floor according to car pedestal mounting's weighing equipment.

Further, the cloud server comprises an equal-elevator duration calculation unit and an elevator riding number calculation unit, wherein the equal-elevator duration calculation unit obtains time required for reaching a target floor based on elevator scheduling information, and the elevator riding number calculation unit obtains riding information reaching the target floor based on user riding information.

Furthermore, the mobile terminal is provided with system software capable of performing data interaction with the cloud server based on ladder information of users and the like, and the system software can send a ladder calling signal through the cloud server.

Further, the user mobile terminal comprises a mobile phone or a tablet, and the mobile device has network communication capability and network identification capability and has a liquid crystal display function.

Further, the elevator comprises an outer elevator unit, the outer elevator unit comprises a graphic information code which can be identified by a user mobile terminal or a device which can be in close-range communication and comprises elevator identity information, and the outer elevator unit is scanned, identified and in communication connection through system software installed by the user mobile terminal to obtain the elevator information of a user and the like stored in a cloud server.

Further, the cloud server acquires the user ladder information according to a preset strategy, wherein the specific strategy is as follows:

step 1: acquiring elevator taking demand information of all users based on an elevator calling unit and an acquisition unit and uploading the information to a cloud server, wherein the demand information at least comprises expected floors and expected elevator taking people;

step 2: the method comprises the steps that all user waiting information is obtained through analysis and processing of a cloud server based on user waiting demand information, wherein the user waiting information comprises reserved elevator service information, cancelling waiting information, elevator real-time position information, destination floor elevator running floor number information, destination floor elevator passenger capacity information, destination floor waiting time information, destination floor stopping number information and arrival reminding information;

step 3: acquiring an initial elevator driving route through the elevator object system based on the elevator information of the user and the like, determining standard time according to the elevator object system and according to data statistics experience values, wherein the standard time at least comprises each elevator stopping time, each passenger entering and exiting time and each floor driving time, and controlling an elevator to automatically ascend or descend to a target floor through the elevator object system;

step 4: based on the initial elevator driving route, the elevator calling unit and the elevator collecting unit continuously collect elevator taking demand information of the user in real time, the cloud server re-analyzes and calculates to obtain elevator information such as the latest user based on the elevator taking demand information of the user, the elevator object connection system obtains the latest elevator driving route based on the elevator information such as the latest user and sends the latest elevator driving route to the user mobile terminal, and user mobile terminal system software prompts warning information when the elevator is fully loaded;

step 5: the elevator thing system controls the elevator to run to the target floor based on the latest elevator driving route.

Further, the cloud server further comprises a memory, a processor and a control program stored in the memory and capable of running on the processor.

Further, the elevator internet of things system can control one or more elevators to schedule operation.

The invention has the beneficial effects that:

the invention discloses a building vertical elevator and other elevator information management system, which is used for presetting elevator stopping floor information for passengers in an elevator car when the elevator runs and transmitting elevator taking information of passengers taking on floors and other elevators taking on the users outside the elevator to a cloud server in an elevator internet of things mode, obtaining the elevator information of the users and the like through processing and calculating the data information of the server side and displaying the elevator information on a user mobile terminal, and meanwhile, obtaining the data information of the number of elevator car personnel, load conditions and the like through the elevator data acquisition and the internet of things mode by the server side. The elevator system solves the problems that when a user takes an elevator in a high-rise building and at a peak, the information of the elevator running condition and the number of passengers in an elevator car is unclear, and the elevator taking time is inconvenient to arrange reasonably.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions of the prior art, the drawings that are needed in the embodiments or the description of the prior art will be briefly described below, it will be obvious that the drawings in the following description are some embodiments of the present invention, and that other drawings can be obtained according to these drawings without inventive effort to a person skilled in the art.

Fig. 1 is a flow chart of a building vertical elevator etc. ladder information management system of the present invention;

fig. 2 is a flowchart of a user mobile terminal of a building vertical elevator etc. ladder information management system of the present invention;

fig. 3 is a block diagram of a specific strategy of a building vertical elevator information management system according to the present invention.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments of the present invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The embodiment provides a building vertical elevator and other elevator information management system, which is shown in fig. 1 and comprises a user mobile terminal, a cloud server, an acquisition unit, an elevator internet of things system and a elevator calling unit;

the elevator calling unit is in communication connection with the cloud server, and is used for acquiring elevator calling signals and transmitting the elevator calling signals to the cloud server, wherein the elevator calling signals comprise system activation instructions and floor information, as shown in fig. 2, the elevator calling unit is provided with a fixed end receiver and a mobile terminal receiver, the fixed end receiver receives elevator calling signals triggered by elevator keys and switches, the mobile terminal receiver receives elevator calling signals from a user mobile terminal, and the elevator calling unit is used for acquiring the elevator calling signals and transmitting the elevator calling signals to the cloud server;

the cloud server is respectively in communication connection with the elevator internet of things system and the acquisition unit, the cloud server activates the elevator internet of things system and the acquisition unit simultaneously based on the system activation instruction, the elevator internet of things system is used for controlling elevator dispatching service and feeding elevator dispatching information back to the cloud server, the acquisition unit is used for acquiring user elevator taking information, and the user elevator taking information at least comprises floor information of an elevator, information of the number of people in the current elevator, information of the number of people of the elevator, information of rated load of the elevator and information of actual load of the elevator;

the cloud server obtains user waiting information based on the elevator scheduling information and user waiting information, wherein the user waiting information comprises reserved elevator service information, cancelling waiting information, elevator real-time position information, elevator running floor number information of a destination floor, elevator passenger capacity information of the destination floor, waiting time information of the destination floor, number of stops of the destination floor and arrival reminding information;

the user mobile terminal is in communication connection with the cloud server and is used for displaying ladder information of a user and the like.

The user mobile terminal comprises a mobile phone or a tablet, and mobile equipment with network communication capability, network identification capability and liquid crystal display function, wherein the network identification capability can be used for scanning two-dimension codes or bar code image link communication capability through the mobile phone or the tablet, and the user mobile terminal is used for displaying ladder information of a user and the like. The user mobile terminal can acquire the elevator waiting information of the user in real time and display the elevator waiting information through the touch liquid crystal screen, the user mobile terminal is also provided with a waiting elevator taking and canceling elevator waiting selection key, the user can select whether to continue waiting for taking an elevator according to the elevator waiting information of the user, if the waiting elevator taking selection key is selected, the elevator taking demand information of the user is required to be input, a mobile terminal receiver of the elevator calling unit receives the waiting elevator taking signal and then transmits the elevator taking demand information to a cloud server, and the demand information at least comprises expected floors and expected elevator taking people to finish elevator waiting; and if a 'cancel waiting ladder' selection key is selected, the mobile terminal receiver of the calling ladder unit receives a 'cancel waiting ladder' signal and then transmits the signal to the cloud server for re-analysis and calculation.

In a specific embodiment, the elevator dispatching information at least comprises data information of rated speed of elevator operation, elevator floor height, elevator operation floor number, door opening and closing time duration when stopping elevator and average time duration when a user enters and exits the elevator, and the data information is uploaded to a cloud server.

In a specific embodiment, the acquisition unit comprises an external elevator camera, an internal elevator camera, an infrared human body meter and a weighing device installed on a car base, the weighing device comprises a weight or a pressure sensor, the user elevator taking information acquired by the acquisition unit at least comprises floor information of an elevator, current internal elevator people number information, current external elevator people number information of the elevator, elevator rated load information, elevator actual load information, human body identification and statistics are carried out according to the camera and the infrared human body meter, and meanwhile, whether the elevator is overloaded when running to a target floor or not is analyzed and calculated according to the weighing device installed on the car base. The number of people in the elevator car and the number of people outside the elevator can be counted through a camera or an infrared human body meter with a human body recognition function of the elevator car, the number of people in the elevator car reaching each floor and the number of people to be taken by the elevator can be counted, meanwhile, a weighing device or a pressure sensor at the bottom of the elevator car can detect the load condition of the elevator car and the number of people which can be born in real time, the number of people which can be born also has two calculation modes, namely, the number of actual bearing people is subtracted by the rated bearing number, namely, the number of M is the actual bearing weight, the number of people is subtracted by the rated bearing weight, the weight is converted by the human body conversion formula, and the weight and the human body conversion formula is as follows: m=g/60 (kg) (G is a weight value).

In a specific embodiment, the cloud server comprises an equal-elevator duration calculation unit and an elevator taking person number calculation unit, the equal-elevator duration calculation unit obtains the time required by reaching a target floor (equal-elevator duration) based on elevator scheduling information, the elevator scheduling information at least comprises the rated speed of elevator operation, the height of an elevator floor, the number of elevator operation floors, the door opening and closing duration when stopping elevator and the average duration data information of the user entering and exiting the elevator, and the data information is uploaded to the cloud server. The elevator riding number calculation unit obtains the number of people in the current elevator car, the number of people which can ride in the current elevator car and the overload condition based on the elevator riding information of the user. The elevator control method comprises the steps that the floor number is set to be a multi-layer model and a few-layer model according to each single operation of an elevator, the few-layer model is not more than five layers in each single operation, the multi-layer model is more than five layers in each single operation, and the equal-elevator duration calculation unit obtains equal-elevator duration Tj of the multi-layer model and equal-elevator duration t of the few-layer model based on the multi-layer model and the few-layer model:

the elevator waiting duration of the few-layer model is t=ti, i= … 5, wherein t is the elevator waiting duration of the few-layer model, i is the number of running floors, ti is five fixed values, and the ti is the time value when the elevator running floors are different from 1 to 5;

the equal elevator duration of the multilayer model is Tj=t5+T1.Xj, wherein Tj is equal elevator duration of the multilayer model, xj is an operation floor difference value-5, T1 is the duration required by the elevator to operate for one layer at the rated speed, T1=H/v, v is the rated speed of the elevator, and H is the height of a single floor;

the total time required for the elevator to reach the waiting floor of the passenger is Ttotal=Σti+ΣTj+N.T ', wherein N is the number of times the elevator needs to stop before reaching the floor where the inquiring passenger is located, and T' is the average time required for stopping the elevator for each time of getting on and off the passenger.

In a specific embodiment, the system software can be used for reserving elevator service, checking the real-time position of an elevator, checking the number of elevator driving floors, checking the passenger carrying condition of the elevator, checking waiting time for taking the elevator, checking the number of elevator stopping times reaching a target floor and reminding of arriving at the station. Related information of the target elevator is obtained remotely through system software (APP or applet) of the user mobile terminal, and meanwhile, remote real-time reservation of elevator service and cancellation of elevator taking operation can be realized through the system software.

In a specific embodiment, the elevator comprises an external elevator unit, wherein the external elevator unit comprises a graphic information code which can be identified by a user mobile terminal or a device which can be in close-range communication and contains elevator identity information, and the external elevator unit is scanned, identified and in communication connection through system software installed by the user mobile terminal to acquire the elevator information of a user and the like stored in a cloud server. The elevator external unit comprises a two-dimensional code, a bar code, an NFC device and an RFID device, wherein the two-dimensional code and the bar code can be scanned, identified and communicated through a user mobile terminal to obtain the intrinsic information of an elevator, the elevator information such as a user and the like, the intrinsic information of the elevator comprises the model number, the service life, the operation parameters and the like of the elevator, the NFC device and the RFID device can read an NFC chip and an RFID chip of an elevator passenger, and the elevator information such as the user and the like which are uploaded in real time in a cloud server is obtained.

In a specific embodiment, as shown in fig. 3, the cloud server obtains the ladder information of the user according to a preset policy, where the specific policy is:

step 1: acquiring elevator taking demand information of all users based on an elevator calling unit and an acquisition unit and uploading the information to a cloud server, wherein the demand information at least comprises expected floors and expected elevator taking people;

step 2: the method comprises the steps that all user waiting information is obtained through analysis and processing of a cloud server based on user waiting demand information, wherein the user waiting information at least comprises reservation elevator service information, cancel waiting information, elevator real-time position information, destination floor elevator running floor number information, destination floor elevator passenger capacity information, destination floor waiting time information, destination floor stopping number information and arrival reminding information;

step 3: acquiring an initial elevator driving route through the elevator object system based on the elevator information of the user and the like, determining standard time according to the elevator object system and according to data statistics experience values, wherein the standard time at least comprises each elevator stopping time, each passenger entering and exiting time and each floor driving time, and controlling an elevator to automatically ascend or descend to a target floor through the elevator object system;

step 4: based on the initial elevator driving route, the elevator calling unit and the elevator collecting unit continuously collect elevator taking demand information of the user in real time, the cloud server re-analyzes and calculates to obtain elevator information such as the latest user based on the elevator taking demand information of the user, the elevator object connection system obtains the latest elevator driving route based on the elevator information such as the latest user and sends the latest elevator driving route to the user mobile terminal, and user mobile terminal system software prompts warning information when the elevator is fully loaded;

step 5: the elevator thing system controls the elevator to run to the target floor based on the latest elevator driving route.

In a specific embodiment, the cloud server includes a memory, a processor, and a control program stored in the memory and capable of running on the processor, where the control program is used for analysis, integration, transmission, and the like of data related to the elevator information system of the building vertical elevator.

In a specific embodiment, the elevator internet of things system can control one or more elevators to dispatch and run, the elevator internet of things system is an automatic system for controlling a building, and the elevator internet of things system controls a plurality of elevators to dispatch and run in real time, so that a user can check running conditions of the plurality of elevators in real time and elevator information of users and the like corresponding to the elevators in real time through a user mobile terminal when taking the elevators, and the user can reasonably select and ride according to the elevator information of the users and the like, thereby being convenient for planning travel time and reasonably selecting and riding the elevators.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present invention, and not for limiting the same; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the invention.

Claims (6)

1. The elevator information management system for the building vertical elevator and the like is characterized by comprising a user mobile terminal, a cloud server, an acquisition unit, an elevator internet of things system and an elevator calling unit;

the elevator calling unit is in communication connection with the cloud server, and is used for acquiring elevator calling signals and transmitting the elevator calling signals to the cloud server, wherein the elevator calling signals comprise system activation instructions and floor information;

the cloud server is respectively in communication connection with the elevator internet of things system and the acquisition unit, the cloud server activates the elevator internet of things system and the acquisition unit simultaneously based on the system activation instruction, the elevator internet of things system is used for controlling elevator dispatching service and feeding elevator dispatching information back to the cloud server, the acquisition unit is used for acquiring user elevator taking information, and the user elevator taking information at least comprises floor information of an elevator, information of the number of people in the current elevator, information of the number of people of the elevator, information of rated load of the elevator and information of actual load of the elevator;

the cloud server can also obtain user waiting information based on the elevator scheduling information and user waiting information, wherein the user waiting information comprises reservation elevator service information, cancel waiting information, elevator real-time position information, destination floor elevator running floor number information, destination floor elevator passenger capacity information, destination floor waiting time information, destination floor stopping number information and arrival reminding information; the elevator dispatching information at least comprises rated speed of elevator operation, elevator floor height, elevator operation floor number, door opening and closing time length when stopping elevator and average time length data information of user entering and exiting the elevator;

the cloud server comprises an equal-elevator duration calculation unit and an elevator riding number calculation unit, wherein the equal-elevator duration calculation unit obtains the time required by reaching a target floor based on elevator scheduling information, and the elevator riding number calculation unit obtains riding information reaching the target floor based on user elevator riding information; the elevator riding number calculation unit obtains the number of people in the current elevator car, the number of people which can ride in the current elevator car and the overload condition based on the elevator riding information of the user; the elevator control method comprises the steps that the floor number is set to be a multi-layer model and a few-layer model according to each single operation of an elevator, the few-layer model is not more than five layers in each single operation, the multi-layer model is more than five layers in each single operation, and the equal-elevator duration calculation unit obtains equal-elevator duration Tj of the multi-layer model and equal-elevator duration t of the few-layer model based on the multi-layer model and the few-layer model:

the elevator waiting duration of the few-layer model is t=ti, i= … 5, wherein t is the elevator waiting duration of the few-layer model, i is the number of running floors, ti is five fixed values, and the ti is the time value when the elevator running floors are different from 1 to 5;

the equal elevator duration of the multilayer model is Tj=t5+T1.Xj, wherein Tj is equal elevator duration of the multilayer model, xj is an operation floor difference value-5, T1 is the duration required by the elevator to operate for one layer at the rated speed, T1=H/v, v is the rated speed of the elevator, and H is the height of a single floor;

the total time length required by the elevator to reach the waiting floor of the passenger is Ttotal=Σti+ΣTj+N.T ', wherein N is the number of times the elevator needs to stop before reaching the floor where the inquiring passenger is located, and T' is the average time length required by stopping the elevator for each time of getting on and off the passenger;

the user mobile terminal is in communication connection with the cloud server and is used for displaying ladder information of a user and the like;

the system comprises a cloud server, a user mobile terminal, a network server and an external unit, wherein the external unit comprises a graphic information code which can be identified by the user mobile terminal or a device which can be in close-range communication and contains elevator identity information, and the external unit is scanned, identified and in communication connection through system software installed by the user mobile terminal to obtain the user and other ladder information stored in the cloud server;

and the cloud server acquires the user ladder information according to a preset strategy, wherein the specific strategy is as follows:

step 1: acquiring elevator taking demand information of all users based on an elevator calling unit and an acquisition unit and uploading the information to a cloud server, wherein the demand information at least comprises expected floors and expected elevator taking people;

step 2: the method comprises the steps that all user waiting information is obtained through analysis and processing of a cloud server based on user waiting demand information, wherein the user waiting information comprises reserved elevator service information, cancelling waiting information, elevator real-time position information, destination floor elevator running floor number information, destination floor elevator passenger capacity information, destination floor waiting time information, destination floor stopping number information and arrival reminding information;

step 3: based on the user waiting information, an initial elevator driving route is obtained through the elevator thing connection system, standard time length is determined according to the elevator thing connection system and according to data statistics experience values, the standard time length at least comprises each time of stopping the elevator, time of entering and exiting passengers and driving time of each floor, and the elevator is controlled to automatically ascend or descend to a target floor through the elevator thing connection system;

step 4: based on the initial elevator driving route, the elevator calling unit and the elevator collecting unit continuously collect elevator taking demand information of the user in real time, the cloud server re-analyzes and calculates to obtain elevator information such as the latest user based on the elevator taking demand information of the user, the elevator object connection system obtains the latest elevator driving route based on the elevator information such as the latest user and sends the latest elevator driving route to the user mobile terminal, and user mobile terminal system software prompts warning information when the elevator is fully loaded;

step 5: the elevator thing system controls the elevator to run to the target floor based on the latest elevator driving route.

2. The elevator information management system of claim 1, wherein the acquisition unit comprises an external elevator camera, an internal elevator camera, an infrared human body meter and a car base-mounted weighing device, the weighing device comprises a weight or pressure sensor, the acquisition unit performs human body identification and statistics based on the camera and the infrared human body meter, and meanwhile, the acquisition unit can also analyze and calculate whether the elevator is overloaded when running to a target floor according to the car base-mounted weighing device.

3. The building vertical elevator and other elevator information management system according to claim 1, wherein the mobile terminal is provided with system software capable of performing data interaction with the cloud server based on user and other elevator information, and the system software is capable of sending an elevator calling signal through the cloud server.

4. The information management system of a building vertical elevator according to claim 1, wherein the user mobile terminal comprises a mobile phone or a tablet, and a mobile device having network communication capability, network identification capability and liquid crystal display function.

5. The building vertical elevator and like information management system according to claim 1, wherein the cloud server further comprises a memory, a processor, and a control program stored in the memory and executable on the processor.

6. A building vertical elevator and like elevator information management system according to claim 1, wherein the elevator internet of things system is operable to control one or more elevator dispatch operations.