CN110104516A - Elevator monitoring systems and method - Google Patents

Abstract

This application involves elevator monitoring systems and method, comprising: elevator controlling module, protenchyma networking module and background data center；Protenchyma networking module is communicated to connect with elevator controlling module and background data center respectively when being in communication pattern；Protenchyma networking module is used for when meeting preset wake-up condition, the communication pattern is converted to from sleep pattern, the running state data that elevator controlling module is sent is received in a communication mode, and running state data is transferred to background data center, since protenchyma networking module can be in sleep pattern in the most of the time, communication pattern is only just in when needing to communicate, this working mechanism matches with the communication requirement of elevator, power consumption can be reduced in the case where guaranteeing elevator controlling module and background data center timed communication；Meanwhile compared to communication equipments such as traditional 4G for, it is lower using the power consumption cost of protenchyma networking module.

Description

Elevator monitoring systems and method

Technical field

This application involves monitoring fields, more particularly to a kind of elevator monitoring systems and method.

Background technique

With the fast development of urbanization, elevator has become apparatus of transport indispensable in people's life and work, The safety of elevator, reliability also ever more important, therefore, the requirement to elevator monitoring system is higher and higher.

By elevator monitoring systems, it can be achieved that elevator faults, operating status etc. monitor, traditional elevator monitoring systems are usual It is to acquire car movement data in real time using elevator controlling module, and then elevator is run by number by 2G, 3G, 4G even 5G network It is transmitted to background data center when factually, and then realizes the real time monitoring of elevator by background data center.

However, aforesaid way has that power consumption is high, at high cost.

Summary of the invention

Based on this, it is necessary in view of the above technical problems, provide a kind of elevator monitoring systems and side low in energy consumption, at low cost Method.

A kind of elevator monitoring systems, the system comprises: in elevator controlling module, protenchyma networking module and back-end data The heart；The protenchyma networking module is when being in communication pattern, respectively and in the elevator controlling module and the back-end data Heart communication connection；

The elevator controlling module for acquiring the running state data of elevator in real time；

The protenchyma networking module is used for when meeting preset wake-up condition, is converted to the communication from sleep pattern Mode, receives the running state data that the elevator controlling module is sent under the communication pattern, and by the operation Status data transfers give the background data center；

The background data center controls the operating status of the elevator for data according to the operation state.

The wake-up condition includes that the timer internal of the protenchyma networking module is super in one of the embodiments, When, the protenchyma networking module receive the wake-up signal that the elevator controlling module is sent；The wake-up signal is used to indicate The protenchyma networking module is converted to communication pattern from sleep pattern.

The elevator controlling module includes wake-up switch in one of the embodiments,；The elevator controlling module is also used In after monitoring the wake-up switch starting, Xiang Suoshu protenchyma networking module sends the wake-up signal.

The elevator controlling module is also used to that there are different judging the running state data in one of the embodiments, Chang Shi, Xiang Suoshu protenchyma networking module send the wake-up signal.

The protenchyma networking module includes multiple interfaces in one of the embodiments, and different interfaces is corresponding different Elevator type；The protenchyma networking module is connect by the multiple interface with the elevator controlling module.

The protenchyma networking module, which is also used in, in one of the embodiments, receives what the background data center was sent Instruction is deleted, and deletes the deletion stored in the protenchyma networking module and instructs corresponding running state data.

The protenchyma networking module is integrated with eSIM card in one of the embodiments,.

A kind of Elevator Monitoring method, which comprises

When detecting that protenchyma networking module meets preset wake-up condition, the protenchyma networking module is controlled from sleep Mode is converted to communication pattern；

Receive the running state data of elevator；

The running state data is transferred to background data center.

The wake-up condition includes that the timer internal of the protenchyma networking module is super in one of the embodiments, When, the protenchyma networking module receive the wake-up signal that the elevator controlling module is sent；The wake-up signal is used to indicate The protenchyma networking module is converted to communication pattern from sleep pattern.

The wake-up signal is that elevator controlling module is monitoring the wake-up switch starting in one of the embodiments, When or detect that the running state data deposits the signal sent when abnormal.

In one of the embodiments, the method also includes: receive the deletion instruction that the background data center sends； It is instructed according to the deletion, the deletion for deleting storage instructs corresponding running state data.

Elevator monitoring systems and method in above-described embodiment, since protenchyma networking module is when being in communication pattern, It is communicated to connect respectively with the elevator controlling module and the background data center, the characteristic based on elevator, operational process is flat Steady safety, without monitoring operation data in real time, it is only necessary to timed communication, using the elevator monitoring systems of the present embodiment, narrowband Internet of Things module can be in sleep pattern in the most of the time, and communication pattern, this work are only just in when needing to communicate Make mechanism to match with the communication requirement of elevator just, can guarantee elevator controlling module and background data center timed communication In the case where, reduce power consumption；For comparing the communication equipments such as traditional 4G simultaneously, using the power consumption cost of protenchyma networking module It is lower.

Detailed description of the invention

Fig. 1 is the structural block diagram of elevator monitoring systems in one embodiment；

Fig. 2 is the structural block diagram of protenchyma networking module in another embodiment；

Fig. 3 is the implementation flow chart of Elevator Monitoring method in one embodiment；

Fig. 4 is the implementation flow chart of Elevator Monitoring method in another embodiment.

Description of symbols:

1: elevator controlling module；

2: protenchyma networking module；

3: background data center；

20: main control chip；

21: RF switch；

22: radio frequency chip；

23: antennal interface；

24: filter.

Specific embodiment

It is with reference to the accompanying drawings and embodiments, right in order to which the objects, technical solutions and advantages of the application are more clearly understood The application is further elaborated.It should be appreciated that specific embodiment described herein is only to explain the application, and do not have to In restriction the application.

Technical solution of the present invention is described in detail with specifically embodiment below.These specific implementations below Example can be combined with each other, and the same or similar concept or process may be repeated no more in certain embodiments.

In one embodiment, as shown in Figure 1, Fig. 1 provides a kind of elevator monitoring systems structural block diagram, the system packet It includes: elevator controlling module 1, protenchyma networking module 2 and background data center 3；The protenchyma networking module 2 is in communication When mode, communicated to connect respectively with the elevator controlling module 1 and the background data center 3；The elevator controlling module 1 is used In the running state data of acquisition elevator in real time；The protenchyma networking module 2 is used for when meeting preset wake-up condition, from Sleep pattern is converted to the communication pattern, and the fortune that the elevator controlling module 1 is sent is received under the communication pattern Row status data, and the running state data is transferred to the background data center 3；The background data center 3 is used for Data control the operating status of the elevator according to the operation state.

Specifically, elevator controlling module 1 may include data acquisition unit, can be multiple lift sensors, for example, pressure Force snesor, displacement sensor etc., the running state datas such as displacement, speed for acquiring elevator；Elevator controlling module 1 may be used also To include data determining unit, for judging the elevator operation data of acquisition with the presence or absence of abnormal.Wherein, operating status number According to pressure data, the displacement data etc. that can be elevator；Wake-up condition can be by setting inside protenchyma networking module 2 itself The wake-up mechanism set；It is also possible to other external wake mechanism, for example, it may be the change rate signal that elevator controlling module is sent Greater than preset threshold, alternatively, being also possible to signal emergence decline etc..

Wherein, protenchyma networking module 2 refer to by narrowband Internet of Things and elevator controlling module 1, background data center 3 or The communication equipment that other equipment carry out data transmission, can be used for realizing the storages of elevator operation data, the transmitting-receiving of information with And logic control；The main operation modes of protenchyma networking module 2 have sleep pattern and communication pattern, protenchyma networking module 2 Communication pattern and sleeping time and duration can be can choose according to different network protocols, operating current one in a sleep mode As be 3.5 μ A；Background data center 3 can be with the server cluster of the either multiple server compositions of independent server come real It is existing, it can be used for analyzing the running state data of elevator.

Optionally, the duration that protenchyma networking module 2 is in sleep pattern is greater than the duration in communication pattern；Specifically Ground, protenchyma networking module 2 periodically in a sleep mode with switch under communication pattern, correspondingly, the week under sleep pattern Phase duration is greater than the cycle duration under communication pattern.

In above-described embodiment, protenchyma networking module be in communication pattern when, respectively with the elevator controlling module and The background data center communication connection, the characteristic based on elevator, operational process is steadily safe, without monitoring operation number in real time According to, it is only necessary to timed communication, using the elevator monitoring systems of the present embodiment, protenchyma networking module can be in the most of the time In sleep pattern, be only just in communication pattern when needing to communicate, this working mechanism just with the communication requirement of elevator It matches, power consumption can be reduced in the case where guaranteeing elevator controlling module and background data center timed communication；Meanwhile phase It is lower using the power consumption cost of protenchyma networking module for the communication equipments such as traditional 4G.

The wake-up condition includes that the timer internal of the protenchyma networking module is super in one of the embodiments, When, the protenchyma networking module receive the wake-up signal that the elevator controlling module is sent；The wake-up signal is used to indicate The protenchyma networking module is converted to communication pattern from sleep pattern.

Illustratively, first timer and second timer be can configure inside protenchyma networking module, work as first timer When arrival, protenchyma networking module enters sleep pattern；After entering sleep pattern, when second timer reaches, move back automatically Sleep pattern out.

Optionally, the elevator controlling module includes wake-up switch；The elevator controlling module is also used to monitoring After stating wake-up switch starting, Xiang Suoshu protenchyma networking module sends the wake-up signal.Wherein it is possible to pass through pressing elevator control The external wake of molding block switchs, and trigger signal level is abnormal, and then realizes the passive wake-up of protenchyma networking module.

Optionally, elevator controlling module is also used to judging that the running state data deposits when abnormal, the narrowband Xiang Suoshu Internet of Things module sends the wake-up signal.Specifically, if elevator is operating abnormally, and then elevator control system judgement is adopted The elevator operation data of collection are deposited when abnormal, can by abnormal wake-up switch directly by protenchyma networking module from sleep mould Formula wakes up, and abnormal operating condition data are transferred to protenchyma networking module, and protenchyma networking module is directly by misoperation Status data passes to background data center, timing transmission time point will not be waited to transmit data again data storage, after same Platform data center can issue control instruction to elevator by protenchyma networking module when receiving abnormal operation of elevator data, Emergent control is made to abnormal elevator.

In above-described embodiment, since the protenchyma networking module in elevator monitoring systems is provided with different wake-up bars Part, no matter which kind of situation elevator monitoring systems encounter, for example, timer does not work or situations such as abnormal occurs in elevator, It can ensure that the working mode change of protenchyma networking module, not only realize the monitoring to elevator, and ensure the safety of elevator.

The protenchyma networking module includes multiple interfaces in one of the embodiments, and different interfaces is corresponding different Elevator type；The protenchyma networking module is connect by the multiple interface with the elevator controlling module.

Specifically, as shown in Fig. 2, providing the structural block diagram of protenchyma networking module.Protenchyma networking module passes through more A interface realizes the information exchange and logic control to elevator control system.Protenchyma networking module include: main control chip 20, RF switch 21, radio frequency chip 22, antennal interface 23, wherein main control chip 20 may include multiple interfaces, and by described more A interface is connect with elevator control system, for controlling the operating mode of protenchyma networking module, and in protenchyma networking module 2 When in communication pattern, a plurality of types of running state datas of elevator control system 1 are received.RF switch 21, with master control core Piece 20 and the antennal interface 23 are separately connected, for receiving the switching control instruction of the transmission of main control chip 20, and according to switch Control instruction controls Antenna Operation state, carries out the transmitting-receiving of radiofrequency signal；Radio frequency chip 22 and main control chip 20 and RF switch 21 are separately connected, and refer to for receiving the emission control instruction and operation data of the transmission of main control chip 20, and according to emission control It enables, operation data is converted to the radiofrequency signal of protenchyma networking protocol, and launch by antenna；Antennal interface is used for It is connect with antenna；Can also include filter 24 can be to radio frequency chip 22 between radio frequency chip 22 and RF switch 21 The radiofrequency signal of transmission is filtered.

Illustratively, the multiple interface can include but is not limited to UART (Universal Asynchronous Receiver/Transmitter, universal asynchronous receiving-transmitting transmitter), I2C (Inter-Integrated Circuit, twin wire Universal serial bus), SPI (Serial Peripheral Interface, Serial Peripheral Interface (SPI)), I2S (Inter-IC Sound, collection At circuit built-in audio bus), PWM (Pulse Width Modulation, pulse width modulation), ADC (Analog-to- Digital Converter, analog-digital converter), USB (Universal Serial Bus, universal serial bus), keypad (keystroke interface), GPIO (General Purpose Input Output, general I/O port), ISC (IMS Security Control, IP multimedia subsystem service control interface).

By the way that different interfaces is arranged, interface abundant can provide selection abundant for the long-range monitoring of elevator, for A plurality of types of operating status numbers of automatic collection elevator control system can be achieved in different type elevator or different types of data According to avoiding the problem that there are interfaces not to be adapted to.

The protenchyma networking module, which is also used in, in one of the embodiments, receives what the background data center was sent Instruction is deleted, and deletes the deletion stored in the protenchyma networking module and instructs corresponding running state data.

Specifically, memory module is used to store the running state data of elevator in protenchyma networking module.Wherein, mould is stored Block can be main control chip internal module, be also possible to the outer memory module connecting with main control chip, when needs will run shape When state data pass to background data center, that is, when being under communication pattern, main control chip can obtain fortune from memory module Row data, and running state data is passed to by background data center by narrowband Internet of Things；Background data center receives fortune A received information is fed back to protenchyma networking module after row status data, at this moment the master control core in protenchyma networking module Piece will wipe the data stored in memory module.

In above-described embodiment, narrowband is deleted in the deletion instruction that platform data center sends after the receipt of protenchyma networking module The deletion stored in Internet of Things module instructs corresponding running state data, and therefore, it is lesser that memory module can choose capacity Memory module is realized instant wiping, is further reduced the cost.

The protenchyma networking module is integrated with eSIM card in one of the embodiments,.Optionally, the narrowband Internet of Things Net module is integrated with embedded identification card eSIM card, can be used for storing the mark of elevator control system, narrowband Internet of Things Module can provide service corresponding with the mark according to the mark.In above-described embodiment, protenchyma networking module is integrated with ESIM card can be accomplished preferably to encapsulate and better airtightness for the identification card of traditional peripheral hardware type.

In one embodiment, as shown in figure 3, providing a kind of Elevator Monitoring method, which comprises

S301 when detecting that protenchyma networking module meets preset wake-up condition, controls the protenchyma networking module Communication pattern is converted to from sleep pattern.

Wherein, protenchyma networking module refer to by narrowband Internet of Things and elevator controlling module, background data center or its The communication equipment that his equipment carries out data transmission, can be used for realizing the storage of elevator operation data, the transmitting-receiving of information and Logic control；Wake-up condition can be the wake-up mechanism by being arranged inside protenchyma networking module itself；It is also possible to other External wake mechanism, for example, it may be the change rate signal that elevator controlling module is sent is greater than preset threshold, alternatively, can also be with It is signal emergence decline etc..

Illustratively, elevator controlling module can send wake-up signal to narrow in the wake-up switch starting for detecting itself Band Internet of Things module, protenchyma networking module can obtain wake-up signal by the wake-up interface of itself, and then pass through protenchyma The main control chip of networking controls protenchyma networking module from sleep pattern and is converted to communication pattern.

S302 receives the running state data of elevator.

Wherein, running state data can be the pressure data of elevator, displacement data etc..Optionally, narrowband Internet of Things exists Under communication pattern, receive elevator controlling module send elevator running state data, and by the running state data of elevator into Row storage.

The running state data is transferred to background data center by S301.

Wherein, background data center can with the server cluster of independent server either multiple servers composition come It realizes, can be used for analyzing the running state data of elevator.Specifically, when protenchyma networking module is in communication pattern, Running state data is sent to background data center by narrowband Internet of Things, and background data center is receiving elevator operation When status data, running state data can be analyzed, and then control instruction is issued to elevator by protenchyma networking module.

In above-described embodiment, when detecting that protenchyma networking module meets preset wake-up condition, narrowband Internet of Things are controlled Net module is converted to communication pattern from sleep pattern, and then receives the running state data of elevator, and running state data is passed It is defeated by background data center, the characteristic based on elevator, operational process is steadily safe, without monitoring operation data in real time, it is only necessary to Timed communication, using the Elevator Monitoring method of the present embodiment, protenchyma networking module can be in the most of the time sleeps Sleep mode is in communication pattern under fraction of time, and this working mechanism matches with the communication requirement of elevator just, can be with In the case where guaranteeing elevator controlling module and background data center timed communication, power consumption is reduced；Meanwhile compared to traditional 4G etc. It is lower using protenchyma networking module cost for communication equipment.

The wake-up condition includes that the timer internal of the protenchyma networking module is super in one of the embodiments, When, the protenchyma networking module receive the wake-up signal that the elevator controlling module is sent；The wake-up signal is used to indicate The protenchyma networking module is converted to communication pattern from sleep pattern.

Illustratively, first timer and second timer be can configure inside protenchyma networking module, work as first timer When arrival, protenchyma networking module enters sleep pattern；After entering sleep pattern, when second timer reaches, move back automatically Sleep pattern out.

Optionally, the wake-up signal is elevator controlling module when monitoring wake-up switch starting or detects The running state data deposits the signal sent when abnormal.Illustratively, the outside of pressing elevator controlling module can be passed through Wake-up switch, trigger signal level is abnormal, and then realizes the passive wake-up of protenchyma networking module.

Specifically, if elevator is operating abnormally, and then the elevator operation number of elevator control system judgement acquisition It, can be by abnormal wake-up switch directly by protenchyma networking module from sleep mode wakeup, and by abnormal fortune according to depositing when abnormal Row status data transfers give protenchyma networking module, and abnormal operating condition data are directly passed to backstage by protenchyma networking module Data storage will not be waited timing transmission time point to transmit data again by data center, and same background data center is receiving When abnormal operation of elevator data, control instruction can be issued to elevator by protenchyma networking module, abnormal elevator is made promptly Control.

In one of the embodiments, as shown in figure 4, the method also includes:

S401 receives the deletion instruction that the background data center is sent.

Illustratively, protenchyma networking module thinks that background data center sends running state data in a communication mode, after Platform data center can feed back a received information to protenchyma networking module and (delete after receiving running state data Except instruction), and then protenchyma networking module receives the deletion instruction that background data center is sent,

S402 is instructed according to the deletion, and the deletion for deleting storage instructs corresponding running state data.

Specifically, memory module is used to store the running state data of elevator in protenchyma networking module.Wherein, mould is stored Block can be main control chip internal module, be also possible to the outer memory module connecting with main control chip, when needs will run shape When state data pass to background data center, that is, when being under communication pattern, main control chip can obtain fortune from memory module Row data, and running state data is passed to by background data center by narrowband Internet of Things；Background data center receives fortune A received information is fed back to protenchyma networking module after row status data, at this moment the master control core in protenchyma networking module Piece will wipe the data stored in memory module.

In above-described embodiment, since narrowband Internet of Things receives the deletion instruction that background data center is sent, and according to deletion Instruction, the deletion for deleting storage instruct corresponding running state data, and therefore, the memory module of narrowband Internet of Things can choose appearance Lesser memory module is measured, instant wiping is realized, further reduces the cost.

It should be understood that although each step in the flow chart of Fig. 3-4 is successively shown according to the instruction of arrow, These steps are not that the inevitable sequence according to arrow instruction successively executes.Unless expressly stating otherwise herein, these steps Execution there is no stringent sequences to limit, these steps can execute in other order.Moreover, at least one in Fig. 3-4 Part steps may include that perhaps these sub-steps of multiple stages or stage are not necessarily in synchronization to multiple sub-steps Completion is executed, but can be executed at different times, the execution sequence in these sub-steps or stage is also not necessarily successively It carries out, but can be at least part of the sub-step or stage of other steps or other steps in turn or alternately It executes.

Those of ordinary skill in the art will appreciate that realizing all or part of the process in above-described embodiment method, being can be with Relevant hardware is instructed to complete by computer program, the computer program can be stored in a non-volatile computer In read/write memory medium, the computer program is when being executed, it may include such as the process of the embodiment of above-mentioned each method.Wherein, To any reference of memory, storage, database or other media used in each embodiment provided herein, Including non-volatile and/or volatile memory.Nonvolatile memory may include read-only memory (ROM), programming ROM (PROM), electrically programmable ROM (EPROM), electrically erasable ROM (EEPROM) or flash memory.Volatile memory may include Random access memory (RAM) or external cache.By way of illustration and not limitation, RAM is available in many forms, Such as static state RAM (SRAM), dynamic ram (DRAM), synchronous dram (SDRAM), double data rate sdram (DDRSDRAM), enhancing Type SDRAM (ESDRAM), synchronization link (Synchlink) DRAM (SLDRAM), memory bus (Rambus) direct RAM (RDRAM), direct memory bus dynamic ram (DRDRAM) and memory bus dynamic ram (RDRAM) etc..

Each technical characteristic of above embodiments can be combined arbitrarily, for simplicity of description, not to above-described embodiment In each technical characteristic it is all possible combination be all described, as long as however, the combination of these technical characteristics be not present lance Shield all should be considered as described in this specification.

The several embodiments of the application above described embodiment only expresses, the description thereof is more specific and detailed, but simultaneously It cannot therefore be construed as limiting the scope of the patent.It should be pointed out that coming for those of ordinary skill in the art It says, without departing from the concept of this application, various modifications and improvements can be made, these belong to the protection of the application Range.Therefore, the scope of protection shall be subject to the appended claims for the application patent.

Claims (11)

1. a kind of elevator monitoring systems, which is characterized in that the system comprises: elevator controlling module, protenchyma networking module and Background data center；The protenchyma networking module when being in communication pattern, respectively with the elevator controlling module and described Background data center communication connection；

The elevator controlling module for acquiring the running state data of elevator in real time；

The protenchyma networking module is used for when meeting preset wake-up condition, is converted to the communication mould from sleep pattern Formula, receives the running state data that the elevator controlling module is sent under the communication pattern, and by the operation shape State data are transferred to the background data center；

The background data center controls the operating status of the elevator for data according to the operation state.

2. system according to claim 1, which is characterized in that the wake-up condition includes the protenchyma networking module Timer internal time-out, the protenchyma networking module receive the wake-up signal that the elevator controlling module is sent；The wake-up Signal is used to indicate the protenchyma networking module and is converted to communication pattern from sleep pattern.

3. system according to claim 2, which is characterized in that the elevator controlling module includes wake-up switch；

The elevator controlling module is also used to after monitoring the wake-up switch starting, and Xiang Suoshu protenchyma networking module is sent The wake-up signal.

4. system according to claim 2, which is characterized in that the elevator controlling module is also used to judging the operation Status data is deposited when abnormal, and Xiang Suoshu protenchyma networking module sends the wake-up signal.

5. system according to claim 1-4, which is characterized in that the protenchyma networking module includes multiple connects Mouthful, different interfaces corresponds to different elevator types；The protenchyma networking module passes through the multiple interface and the elevator Control module connection.

6. system according to claim 1-4, which is characterized in that the protenchyma networking module is also used in reception The deletion instruction that the background data center is sent, and it is corresponding to delete the deletion instruction stored in the Internet of Things module Running state data.

7. system according to claim 1-4, which is characterized in that the protenchyma networking module is integrated with eSIM Card.

8. a kind of Elevator Monitoring method, which is characterized in that the described method includes:

When detecting that protenchyma networking module meets preset wake-up condition, the protenchyma networking module is controlled from sleep pattern Be converted to communication pattern；

Receive the running state data of elevator；

The running state data is transferred to background data center.

9. according to the method described in claim 8, it is characterized in that, the wake-up condition includes the protenchyma networking module Timer internal time-out, the protenchyma networking module receive the wake-up signal that the elevator controlling module is sent；The wake-up Signal is used to indicate the protenchyma networking module and is converted to communication pattern from sleep pattern.

10. according to the method described in claim 9, it is characterized in that, the wake-up signal is that elevator controlling module is monitoring When the wake-up switch starts or detect that the running state data deposits the signal sent when abnormal.

11. method according to claim 9 or 10, which is characterized in that the method also includes:

Receive the deletion instruction that the background data center is sent；

It is instructed according to the deletion, the deletion for deleting storage instructs corresponding running state data.