CN116040425B - Intelligent control system for hoistway lifter - Google Patents

Abstract

The application relates to the technical field of elevators, and discloses an intelligent control system of a hoistway elevator, which comprises a field terminal, wherein the field terminal comprises an elevator control unit and a man-machine interaction unit, the elevator control unit is used for controlling the starting and stopping of the elevator and monitoring the running state of the elevator, the man-machine interaction unit is used for giving instructions to the elevator by a user and a driver, and the elevator control unit is electrically connected with the man-machine interaction unit; and the remote control platform is used for an administrator to remotely monitor the operation of the lifter, and is in communication connection with the lifter control unit. This well lift intelligence control system for the human-computer interaction action that human-computer interaction unit noted and lift control unit note the operation data of car can be transmitted to remote control platform and show and record, and the staff can be through the operation of remote control platform control elevator simultaneously, has solved the problem that the administrator is difficult to long-range each item operation data of mastering the lift.

Description

Intelligent control system for hoistway lifter

Technical Field

The application relates to the technical field of elevators, in particular to an intelligent control system for a hoistway elevator.

Background

Hoistway elevators, collectively known as hoistway type construction elevators, are commonly used in high-rise building construction and are capable of lifting as the building main structure is raised. Compared with the traditional elevator attached to the outer facade of the building, the well type elevator not only can meet the construction requirement of the complex outer facade building, but also has the advantages of high efficiency, energy saving, safety, convenience and the like.

At present, most hoistway elevator control systems are still in a state of locally processing and storing data, and few elevators capable of communicating with external equipment are used, so that an administrator is difficult to remotely grasp various operation data of the elevators due to the problem of an interface, and the control of the elevators by the administrator is not facilitated.

Disclosure of Invention

Aiming at the defects of the prior art, the application provides an intelligent control system for a well elevator, which solves the problem that an administrator is difficult to remotely master various operation data of the elevator.

In order to achieve the above purpose, the present application provides the following technical solutions: an intelligent control system for a hoistway elevator, comprising:

the field terminal comprises an elevator control unit and a man-machine interaction unit, wherein the elevator control unit is used for controlling the starting and stopping of the elevator and monitoring the running state of the elevator, the man-machine interaction unit is used for a user and a driver to send instructions to the elevator, and the elevator control unit is electrically connected with the man-machine interaction unit;

the remote control platform is used for an administrator to remotely monitor the operation of the lifter, and is in communication connection with the lifter control unit.

Preferably, the man-machine interaction unit comprises a car control module, wherein the car control module is used for controlling components in a car with the elevator control unit.

Preferably, the man-machine interaction unit further comprises a display and a voice broadcasting module, the display is used for displaying operation information of the elevator, the voice broadcasting module is used for broadcasting the operation information of the elevator, the display is electrically connected with the car control module, and the voice broadcasting module is electrically connected with the display.

Preferably, the man-machine interaction unit further comprises a biological information identification module, wherein the biological information identification module is electrically connected with the car control module and is used for identifying the identity of an elevator operator.

Preferably, the man-machine interaction unit further comprises an instruction board, a plurality of buttons are arranged on the instruction board, each button corresponds to an instruction, the instruction board is electrically connected with the car control module, and the instruction board is used for an elevator operator to send instructions.

Preferably, the man-machine interaction unit comprises an outbound receiver and a plurality of outbound extensions, the plurality of outbound extensions are respectively arranged on different floors, the outbound receiver is arranged on an elevator car, the plurality of outbound extensions are all in communication connection with the outbound receiver, and the outbound receiver is electrically connected with the elevator control unit.

Preferably, the field terminal further comprises a cage door state detection module, a height monitoring module, a weight limiting module, a power monitoring module, a people number identification module, a GPS positioning module, a cab video camera and an environment video camera, wherein the cage door state detection module, the height monitoring module, the weight limiting module, the power monitoring module, the people number identification module, the GPS positioning module, the cab video camera and the environment video camera are all electrically connected with the elevator control unit.

Preferably, the elevator control unit further comprises a first signal transceiver module, the remote control platform comprises a second signal transceiver module, and the first signal transceiver module is in communication connection with the second signal transceiver module.

A method of controlling operation of a hoistway elevator, comprising the steps of:

s1: a person needing to take an elevator presses down the outer calling extension at a corresponding floor;

s2: the outbound receiver receives signals of the outbound machine and transmits the signals to the elevator control unit, and the elevator control unit transmits the signals to the remote control platform and the car control module;

s3: the server of the remote control platform stores the signals transmitted by the elevator control unit in the server, the car control module translates the signals and transmits the signals to the display and the voice broadcasting module, the display displays the floor where the outbound call is located, and the voice broadcasting module broadcasts corresponding information;

s4: if the elevator driver confirms that the elevator can run to the corresponding floor, the elevator driver scans the biological information of the driver by using the biological information identification module, the biological information identification module compares the biological information of the driver with the prestored biological information, if the biological information of the driver is consistent with the prestored biological information, the elevator enters the next step, and if the biological information of the driver is inconsistent with the prestored biological information, the biological information identification module gives an alarm;

s5: the biological information identification module transmits biological information and comparison results of a driver to the car control module, the car control module transmits the information to the elevator control unit, and the elevator control unit transmits the information to the remote control platform for storage; and the elevator control unit controls the elevator car to run to the floor where the outbound call is located.

Preferably, the step S2 further includes:

s3: the server of the remote control platform stores the signals transmitted by the elevator control unit in the server, and an administrator inputs an instruction allowing operation according to the signal information, and the instruction is transmitted to the elevator control unit through the remote control platform;

s4: and the elevator control unit controls the elevator car to run to the floor where the outbound call is located.

The application provides an intelligent control system for a hoistway lifter, which has the following beneficial effects:

this well lift intelligence control system, through setting up remote control platform, make remote control platform and lift control unit be connected, lift control unit is connected with man-machine interaction unit for man-machine interaction action and the lift control unit that man-machine interaction unit noted record the operation data of car can transmit remote control platform and demonstrate and record, and the staff can be through the operation of remote control platform control elevator simultaneously, has solved the problem that the administrator is difficult to long-range each item operation data of mastering the lift.

Drawings

In order to more clearly illustrate the embodiments of the application or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the application, and that other drawings can be obtained from these drawings without inventive faculty for a person skilled in the art.

Fig. 1 is a schematic overall electrical structure of embodiment 1 of the present application.

Fig. 2 is a flowchart of embodiment 2 of the present application.

Detailed Description

In order to make the application object, feature and advantage of the present application more obvious and understandable, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is apparent that the embodiments described below are only some embodiments of the present application, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

In the description of the present application, it should be understood that the directions or positional relationships indicated by the terms "upper", "lower", "top", "bottom", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present application and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present application.

The technical scheme of the application is further described below by means of specific embodiments with reference to fig. 1-2.

Example 1:

the application provides a technical scheme that: an intelligent control system for a hoistway elevator, comprising: the field terminal comprises an elevator control unit and a man-machine interaction unit, wherein the elevator control unit is used for controlling the starting and stopping of the elevator and monitoring the running state of the elevator, the man-machine interaction unit is used for enabling a user and a driver to send instructions to the elevator, the elevator control unit is electrically connected with the man-machine interaction unit, and in the embodiment, the elevator control unit is an elevator integrated machine controller which controls the running of a motor; and the remote control platform is used for an administrator to remotely monitor the operation of the lifter, and is in communication connection with the lifter control unit.

The man-machine interaction unit comprises a car control module, a display, a voice broadcasting module, a biological information identification module, an instruction board, an outbound receiver and a plurality of outbound machines, wherein the car control module and the elevator control unit are used for controlling components in a car. In this embodiment, the car control module is a roof plate. The display is used for displaying the operation information of the elevator, the voice broadcasting module is used for broadcasting the operation information of the elevator, the display is electrically connected with the car control module, and the voice broadcasting module is electrically connected with the display.

The biological information identification module is electrically connected with the car control module and is used for identifying the identity of an elevator operator. The biological recognition module comprises, but is not limited to, a fingerprint recognizer, a face recognizer, a sound wave recognizer, an iris recognizer and the like, and meanwhile, the biological recognition module can also be a comprehensive recognizer formed by any combination of the fingerprint recognizer, the face recognizer, the sound wave recognizer, the iris recognizer and the like. When the biological recognition module is a comprehensive identifier, the biological recognition module generates a qualified signal only after all the information passes the inspection.

The field terminal further comprises a cage door state detection module, a height monitoring module, a weight limiting module, a power monitoring module, a person number identification module, a GPS positioning module, a cab video camera and an environment video camera, wherein the cage door state detection module, the height monitoring module, the weight limiting module, the power monitoring module, the person number identification module, the GPS positioning module, the cab video camera and the environment video camera are electrically connected with the elevator control unit. The cage door state detection module, the weight limiting module and the people number identification module are used for ensuring the safety of the elevator, the height monitoring module and the GPS positioning module are used for judging the position of the elevator, and the cab video shooting and the environment video shooting are used for recording the images of passengers and the elevator.

The elevator control unit comprises a first signal receiving and transmitting module, the remote control platform comprises a second signal receiving and transmitting module, and the first signal receiving and transmitting module is in communication connection with the second signal receiving and transmitting module. The first signal transceiver module and the second signal transceiver module communicate through a 2G, 4G or 5G network.

To sum up, this well lift intelligence control system, through setting up remote control platform, make remote control platform and lift control unit be connected, lift control unit is connected with man-machine interaction unit for man-machine interaction action and the lift control unit that man-machine interaction unit noted note the operation data of car can be transmitted to remote control platform and show and record, and the staff can be through the operation of remote control platform control elevator simultaneously, has solved the problem that the administrator is difficult to long-range each item operation data of mastering the lift.

Example 2:

the embodiment provides a method for controlling operation of a hoistway lifter, comprising the following steps:

s1: a person needing to take an elevator presses down the outer calling extension at a corresponding floor;

s2: the outbound receiver receives signals of the outbound machine and transmits the signals to the elevator control unit, and the elevator control unit transmits the signals to the remote control platform and the car control module;

s3: the server of the remote control platform stores the signals transmitted by the elevator control unit in the server, the car control module translates the signals and transmits the signals to the display and the voice broadcasting module, the display displays the floor where the outbound call is located, and the voice broadcasting module broadcasts corresponding information;

s4: if the elevator driver confirms that the elevator can run to the corresponding floor, the elevator driver scans the biological information of the driver by using the biological information identification module, the biological information identification module compares the biological information of the driver with the prestored biological information, if the biological information of the driver is consistent with the prestored biological information, the elevator enters the next step, and if the biological information of the driver is inconsistent with the prestored biological information, the biological information identification module gives an alarm;

in addition, the biological information identification module can be set to a short memory function so that the driver does not need to verify the biological information repeatedly for a short time. The biological information identification module is used as a part inherent to the system, and the system cannot be started after being dismantled.

S5: the biological information identification module transmits biological information and comparison results of a driver to the car control module, the car control module transmits the information to the elevator control unit, and the elevator control unit transmits the information and the time of occurrence of an event to the remote control platform for storage; and the elevator control unit controls the elevator car to run to the floor where the outbound call is located.

By storing the driver information together with time, the source can be traced when an accident happens and the data safety can be ensured.

Example 3:

the embodiment provides a method for controlling operation of a hoistway lifter, comprising the following steps:

s1: a person needing to take an elevator presses down the outer calling extension at a corresponding floor;

s2: the outbound receiver receives signals of the outbound machine and transmits the signals to the elevator control unit, and the elevator control unit transmits the signals to the remote control platform and the car control module;

s3: the server of the remote control platform stores the signals transmitted by the elevator control unit in the server, and an administrator inputs an instruction allowing operation according to the signal information, and the instruction is transmitted to the elevator control unit through the remote control platform;

s4: and the elevator control unit controls the elevator car to run to the floor where the outbound call is located.

The manager directly controls the running or stopping of the lift car through the remote control platform, so that the problem that the manager is difficult to remotely master various running data of the lift is solved.

Example 4:

s1: a person needing to take an elevator presses down the outer calling extension at a corresponding floor;

s2: the outbound receiver receives signals of the outbound machine and transmits the signals to the elevator control unit, and the elevator control unit transmits the signals to the remote control platform and the car control module;

s3: the server of the remote control platform stores the signals transmitted by the elevator control unit in the server, the car control module translates the signals and transmits the signals to the display and the voice broadcasting module, the display displays the floor where the outbound call is located, and the voice broadcasting module broadcasts corresponding information;

s4: if the elevator driver confirms that the elevator can run to the corresponding floor, the elevator driver scans the biological information of the driver by using the biological information identification module, the biological information identification module compares the biological information of the driver with the prestored biological information, if the biological information of the driver is consistent with the prestored biological information, the elevator enters the next step, and if the biological information of the driver is inconsistent with the prestored biological information, the biological information identification module gives an alarm;

s5: the biological information identification module transmits biological information of the driver to a server of the remote control platform through the car control module and the elevator control unit, the server of the remote control platform transmits the biological information of the driver to the government supervision platform, the government supervision platform compares the biological information of the driver with biological information pre-stored in a government supervision platform database, if the biological information of the driver is consistent with the pre-stored biological information, a matched passing signal is returned, and if the biological information of the driver is inconsistent with the pre-stored biological information, a matched non-passing signal is returned;

s6: if the car control module receives the matching passing signal, the car control module transmits information to the elevator control unit, and the elevator control unit transmits the information and the time of occurrence of the event to the remote control platform for storage; the elevator control unit controls the running of the lift car to the floor where the outbound call is located; if the car control module receives the matching failing signal, the car control module transmits the information of failing matching to the display and the voice broadcasting module, and the display and the voice broadcasting module warn.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present application have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the application, the scope of which is defined in the appended claims and their equivalents.

The above embodiments are only for illustrating the technical solution of the present application, and not for limiting the same; although the application 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 technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present application.

Claims (4)

1. An intelligent control system for a hoistway elevator, comprising:

the field terminal comprises an elevator control unit and a man-machine interaction unit, wherein the elevator control unit is used for controlling the starting and stopping of the elevator and monitoring the running state of the elevator, the man-machine interaction unit is used for a user and a driver to send instructions to the elevator, and the elevator control unit is electrically connected with the man-machine interaction unit;

the remote control platform is used for an administrator to remotely monitor the operation of the lifter, and is in communication connection with the lifter control unit;

the man-machine interaction unit comprises a car control module, wherein the car control module is in communication connection with the elevator control unit and is used for controlling components in a car;

the man-machine interaction unit further comprises an instruction board, a plurality of buttons are arranged on the instruction board, each button corresponds to an instruction, the instruction board is electrically connected with the car control module, and the instruction board is used for an elevator operator to send out instructions;

the man-machine interaction unit further comprises a display and a voice broadcasting module, wherein the display is used for displaying operation information of the elevator, the voice broadcasting module is used for broadcasting the operation information of the elevator, the display is in communication connection with the car control module, and the voice broadcasting module is in communication connection with the display;

the man-machine interaction unit further comprises a biological information identification module, wherein the biological information identification module is electrically connected with the car control module and is used for identifying the identity of an elevator operator;

the man-machine interaction unit comprises an outbound receiver and a plurality of outbound extensions, the plurality of outbound extensions are respectively arranged on different floors, the outbound receiver is arranged on an elevator car, the plurality of outbound extensions are all in communication connection with the outbound receiver, and the outbound receiver is electrically connected with the elevator control unit;

the intelligent control system of the well elevator is implemented according to the following steps:

s1: a person needing to take an elevator presses down the outer calling extension at a corresponding floor;

s2: the outbound receiver receives signals of the outbound machine and transmits the signals to the elevator control unit, and the elevator control unit transmits the signals to the remote control platform and the car control module;

s3: the server of the remote control platform stores the signals transmitted by the elevator control unit in the server, the car control module translates the signals and transmits the signals to the display and the voice broadcasting module, the display displays the floor where the outbound call is located, and the voice broadcasting module broadcasts corresponding information;

s4: if the elevator driver confirms that the elevator can run to the corresponding floor, the elevator driver scans the biological information of the driver by using the biological information identification module, the biological information identification module compares the biological information of the driver with the prestored biological information, if the biological information of the driver is consistent with the prestored biological information, the elevator enters the next step, and if the biological information of the driver is inconsistent with the prestored biological information, the biological information identification module gives an alarm;

s5: the biological information identification module transmits biological information of the driver to a server of the remote control platform through the car control module and the elevator control unit, the server of the remote control platform transmits the biological information of the driver to the government supervision platform, the government supervision platform compares the biological information of the driver with biological information pre-stored in a government supervision platform database, if the biological information of the driver is consistent with the pre-stored biological information, a matched passing signal is returned, and if the biological information of the driver is inconsistent with the pre-stored biological information, a matched non-passing signal is returned;

s6: the biological information identification module transmits biological information and comparison results of a driver to the car control module, the car control module transmits the information to the elevator control unit, and the elevator control unit transmits the information to the remote control platform for storage; and the elevator control unit controls the elevator car to run to the floor where the outbound call is located.

2. The hoistway elevator intelligent control system of claim 1, wherein the field terminal further comprises a cage door status detection module, a height monitoring module, a weight limiting module, a power monitoring module, a person identification module, a GPS positioning module, a cab video camera, and an environmental video camera, all electrically connected to the elevator control unit.

3. The hoistway elevator intelligent control system of claim 1, wherein the elevator control unit includes a first signal transceiver module and the remote control platform includes a second signal transceiver module, the first signal transceiver module being communicatively coupled to the second signal transceiver module.

4. The intelligent control system for a hoistway lifter according to claim 1, wherein said step S2 is followed by:

the server of the remote control platform stores the signals transmitted by the elevator control unit in the server, and an administrator inputs an instruction allowing operation according to the signal information, and the instruction is transmitted to the elevator control unit through the remote control platform;

and the elevator control unit controls the elevator car to run to the floor where the outbound call is located.