CN103552891A - Remote elevator monitoring method and remote elevator monitoring device - Google Patents

Abstract

The invention discloses a remote elevator monitoring method and a remote elevator monitoring device. The method includes the following steps that communication connection is established between an embedded server and an elevator data collection device; the embedded server receives on-site elevator data from the elevator data collection device; the embedded server sends the received on-site elevator data to a pre-determined user terminal. By the method, the embedded server receives the on-site elevator data from the elevator data collection device and sends the received on-site elevator data to the pre-determined user terminal, so that the received on-site elevator data can be sent to the user terminal timely, and monitoring reliability is improved.

Description

A kind of elevator long-distance monitorng method and device

Technical field

The present invention relates to field of elevator monitoring, specially refer to a kind of elevator long-distance monitorng method and device.

Background technology

Along with economic fast development, skyscraper emerges in multitude, and elevator obtains applying more and more widely as the desirable instrument of taking, and the safe operation of elevator is also more and more paid attention to.Traditional elevator monitoring system comprises a supervisory computer, the running state of this Management Calculation machine monitoring elevator, people can be by checking that this supervisory computer is to understand elevator operation, but this supervisory computer cannot initiatively send to user terminal by monitor data, and this elevator monitoring system relies on larger to this supervisory computer, when elevator breaks down, and when this supervisory computer also has fault, elevator faults just can not found in time, and service personnel cannot provide service targetedly the very first time.

Summary of the invention

Main purpose of the present invention, for a kind of elevator long-distance monitorng method and device are provided, is intended in time elevator on-site data be sent to predetermined user terminal, makes predetermined user terminal to provide service targetedly in the very first time.

The invention provides a kind of elevator long-distance monitorng method, the method comprises the following steps:

Embedded server and elevator data acquisition unit establish a communications link;

Embedded server receives elevator on-site data from described elevator data acquisition unit;

Embedded server sends to predetermined user terminal by the elevator on-site data of reception.

Preferably, described embedded server is after described elevator data acquisition unit receives the step of elevator on-site data, and the method also comprises:

Embedded server is preserved the elevator on-site data that receive, and to described elevator on-site data analysis, to determine that whether elevator is in unusual condition;

If described elevator is in unusual condition, by described elevator, the field data when the unusual condition is sent to predetermined user terminal to described embedded server.

Preferably, the described embedded server step that the field data when the unusual condition is sent to predetermined user terminal by described elevator comprises:

By described elevator, the field data when the unusual condition is sent to predetermined user terminal by note or lettergram mode to described embedded server.

Preferably, described embedded server is preserved the elevator on-site data that receive, and to described elevator on-site data analysis, and to determine that elevator is whether after the step in unusual condition, the method comprises:

If described elevator is in unusual condition, described embedded server sends image capture instruction to the image capture device in elevator, so that described image capture device obtains image scene;

Described embedded server receives the image scene that described image capture device feeds back, and field data and image scene when unusual condition is appearred in described elevator send to predetermined user terminal together.

Preferably, described embedded server is preserved the elevator on-site data that receive, and to described elevator on-site data analysis, and to determine that elevator is whether after the step in unusual condition, the method comprises:

If described elevator is in unusual condition, described embedded server sends prompting message by cordless communication network to the read-out in elevator, so that described read-out shows described prompting message.

The present invention also provides a kind of elevator long-distance monitorng device, and described device comprises embedded server, and described embedded server comprises: communication module, the acquisition module being connected with described communication module, the control module being connected with described acquisition module; Wherein:

Described communication module is for establishing a communications link described embedded server and elevator data acquisition unit;

Described acquisition module is for receiving elevator on-site data from described elevator data acquisition unit;

Described control module is for sending to predetermined user terminal by the elevator on-site data of reception.

Preferably, described embedded server also comprises memory module, and described memory module is connected with described acquisition module, and described control module comprises analytic unit and is connected the first Transmit-Receive Unit with described analytic unit;

Described memory module is for preserving the elevator on-site data of reception;

Described analytic unit is used for to described elevator on-site data analysis, to determine that whether elevator is in unusual condition;

Described the first Transmit-Receive Unit is at the analysis result of described analytic unit being elevator during in unusual condition, and the field data by described elevator when the unusual condition is sent to predetermined user terminal.

Preferably, described the first Transmit-Receive Unit is also for by described elevator, the field data when the unusual condition is sent to predetermined user terminal by note or lettergram mode.

Preferably, described control module also comprises the second Transmit-Receive Unit being connected respectively with the first Transmit-Receive Unit with described analytic unit;

Described the second Transmit-Receive Unit is at the analysis result of described analytic unit being elevator during in unusual condition, and the image capture device in elevator sends image capture instruction, so that described image capture device obtains image scene;

The image scene that described the second Transmit-Receive Unit also feeds back for receiving described image capture device;

Described the first Transmit-Receive Unit also field data and the image scene when unusual condition is appearred in described elevator sends to predetermined user terminal together.

Preferably, described the first Transmit-Receive Unit, at the analysis result of described analytic unit being elevator during in unusual condition, sends reminder message by cordless communication network to the read-out in elevator, so that described read-out shows described prompting message.

Adopt the embodiment of the present invention, embedded server receives elevator on-site data from described elevator data acquisition unit, then the elevator on-site data of reception are sent to predetermined user terminal; The elevator on-site data of reception can be sent to user terminal in time, improve the reliability of monitoring.

Accompanying drawing explanation

Fig. 1 is the first embodiment schematic flow sheet of elevator long-distance monitorng method of the present invention;

Fig. 2 is the second embodiment schematic flow sheet of elevator long-distance monitorng method of the present invention;

Fig. 3 is the 3rd embodiment schematic flow sheet of elevator long-distance monitorng method of the present invention;

Fig. 4 is the 4th embodiment schematic flow sheet of elevator long-distance monitorng method of the present invention;

Fig. 5 is the first example structure block diagram of elevator long-distance monitorng device of the present invention;

Fig. 6 is the second example structure block diagram of elevator long-distance monitorng device of the present invention.

The realization of the object of the invention, functional characteristics and advantage, in connection with embodiment, are described further with reference to accompanying drawing.

The specific embodiment

Should be appreciated that specific embodiment described herein, only in order to explain the present invention, is not intended to limit the present invention.

With reference to Fig. 1, Fig. 1 is the first embodiment schematic flow sheet of elevator long-distance monitorng method of the present invention, and the method comprises:

S10, embedded server and elevator data acquisition unit establish a communications link.

This elevator data acquisition unit comprises infrared pickoff, contact switch (opto-electronic pickup), photoelectric switch, speed sensor etc., this infrared pickoff is arranged in elevator, for detection of whether there being passenger in elevator, this contact switch is arranged on the top of elevator two side door plates, for detection of elevator door, whether close, photoelectric switch is arranged on the wall of elevator rail side, and a photoelectric switch is at least installed on each floor wall, the floor position being positioned at for detection of elevator, this speed sensor is for detection of the up-downgoing speed of elevator.

In this step S10, this embedded server and elevator data acquisition unit can establish a communications link by wired or wireless mode, as connected by CAN bus, cordless communication network or internet.

S20, embedded server receive elevator on-site data from this elevator data acquisition unit.

In this step S20, embedded server receives elevator on-site data, and the data that elevator data acquisition unit collects as received are: in elevator, have people, elevator door is opened, and elevator runs to 2nd floors, and elevator speed is 0.

S30, embedded server send to predetermined user terminal by the elevator on-site data of reception.

This predetermined user terminal is the user terminal that need to check these elevator on-site data, user terminal as predetermined in this is terminal A, illustrate that this terminal A need to receive elevator on-site data, to understand elevator running state, monitors elevator.

This embedded server can be in real time or the elevator on-site data by reception regularly send to predetermined user terminal, this embedded server can send to predetermined user terminal by the elevator on-site data of reception by internet or cordless communication network (as gsm communication module), as sent to predetermined user terminal by note or lettergram mode.

Adopt above-described embodiment, can receive each data that elevator data acquisition unit gathers by embedded server, each data that can centralized and unified management elevator data acquisition unit gather, improve the high efficiency gathering, and this embedded server by the elevator on-site data of reception in real time or regularly send to predetermined user terminal, can make this predetermined user terminal obtain timely elevator on-site data, improve the reliability of monitoring, user terminal can provide service targetedly in the very first time according to the elevator on-site data that receive.

With reference to Fig. 2, Fig. 2 is the second embodiment schematic flow sheet of elevator long-distance monitorng method of the present invention.

The first embodiment based on above-mentioned elevator long-distance monitorng method, after step S20, the method comprises:

S40, embedded server are preserved the elevator on-site data that receive, and to this elevator on-site data analysis, to determine that whether elevator is in unusual condition, if elevator, in unusual condition, performs step S50.

This embedded server can pre-determine some standard threshold values, as the running velocity threshold values of elevator.In this step S40, this embedded server is analyzed the field data receiving, as the field data receiving is: have people, elevator door to open in elevator, elevator is in service, elevator speed is 1.5m/s, can determine that this elevator is in abnormal condition, because of when elevator door is opened, the running velocity of elevator should be 0, and elevator is not 0 o'clock (elevator is in operation) at running velocity in other words, and elevator door should cut out.

The field data when the unusual condition is sent to predetermined user terminal by this elevator for S50, this embedded server.

In this step S50, the field data that this embedded server by this elevator in unusual condition is sends to predetermined user, as field data " have people, elevator door to open in elevator, elevator is in service, elevator speed is 1.5m/s " is sent to predetermined user terminal, can send by note or lettergram mode.This predetermined terminal can receive the field data that this embedded server sends in real time.

With reference to Fig. 3, Fig. 3 is the 3rd embodiment schematic flow sheet of elevator long-distance monitorng method of the present invention.

The second embodiment based on above-mentioned elevator long-distance monitorng method, if the analysis result of step S40 be elevator in unusual condition, carry out following steps:

S60, this embedded server send image capture instruction to the image capture device in elevator, so that this image capture device obtains image scene.

In elevator, top is provided with image capture device, as top in elevator arranges digital camera.By this image capture device, can take the image scene in elevator.In this step S60, this embedded server sends image capture instruction to the image capture device in elevator, as sent image capture instruction by wired or wireless mode to image capture device.This image capture device receives after the image capture instruction of embedded server, catches image scene, and the image scene of catching is fed back to embedded server.

S70, this embedded server receive the image scene that this image capture device feeds back, and field data and image scene when unusual condition is appearred in this elevator send to predetermined user terminal together.

In this step S70, embedded server receives the image scene that this capture device feeds back, and field data and image scene when unusual condition is appearred in this elevator send to predetermined user terminal together, can make user terminal when obtaining elevator on-site data, also can see the graphicinformation that unusual condition scene occurs, as seen in the elevator that unusual condition occurs having how many people, and crowd's classification: adult, child, old man etc.

With reference to Fig. 4, Fig. 4 is the 4th embodiment schematic flow sheet of elevator long-distance monitorng method of the present invention.

The second embodiment based on above-mentioned elevator long-distance monitorng method, if the analysis result of step S40 be elevator in unusual condition, carry out following steps:

S80, this embedded server send prompting message by cordless communication network to the read-out in elevator, so that this read-out shows this prompting message.

This prompting message can set in advance, if this prompting message is " this elevator occurs abnormal now, please stay calm, and maintainer Under Repair, estimates that after 5 minutes, elevator will recover normal ".In this step S80, by cordless communication network, send to the read-out in elevator to show prompting message, can pacify the mood of passenger in elevator, Accident prevention further expands.

With reference to Fig. 5, Fig. 5 is the first example structure schematic diagram of elevator long-distance monitorng device of the present invention, and this device comprises embedded server, and this embedded server comprises: communication module 10, the acquisition module 20 being connected with this communication module 10, the control module 30 being connected with this acquisition module 20; Wherein:

This communication module 10 is for establishing a communications link this embedded server and elevator data acquisition unit;

This acquisition module 20 is for receiving elevator on-site data from this elevator data acquisition unit;

This control module 30 is for sending to predetermined user terminal by the elevator on-site data of reception.

This elevator data acquisition unit comprises infrared pickoff, contact switch (opto-electronic pickup), photoelectric switch, speed sensor etc., this infrared pickoff is arranged in elevator, for detection of whether there being passenger in elevator, this contact switch is arranged on the top of elevator two side door plates, for detection of elevator door, whether close, photoelectric switch is arranged on the wall of elevator rail side, and a photoelectric switch is at least installed on each floor wall, the floor position being positioned at for detection of elevator, this speed sensor is for detection of the up-downgoing speed of elevator.

This embedded server can establish a communications link by communication module 10 and elevator data acquisition unit, as established a communications link by wired or wireless mode, as connected by CAN bus, cordless communication network or internet.

Acquisition module 20 receives elevator on-site data, as receives elevator data acquisition unit and collect data and be: in elevator, have people, elevator door is opened, and elevator runs to 2nd floors, and elevator speed is 0.

This predetermined user terminal is the user terminal that need to check these elevator on-site data, user terminal as predetermined in this is terminal A, illustrate that this terminal A need to receive elevator on-site data, to understand elevator running state, monitors elevator.

This embedded server can send to predetermined user terminal by the control module 30 elevator on-site data by reception real-time or timing, as can be the elevator on-site data of reception sent to predetermined user terminal by internet or cordless communication network (as gsm communication module), as sent to predetermined user terminal by note or lettergram mode.

With reference to Fig. 6, the second example structure schematic diagram that Fig. 6 is elevator long-distance monitorng device of the present invention.

The first embodiment based on above-mentioned elevator long-distance monitorng device, this embedded server also comprises memory module 40, this memory module 40 is connected with this acquisition module 20, and this control module 30 comprises analytic unit 31 and is connected the first Transmit-Receive Unit 32 with this analytic unit 31;

This memory module 40 is for preserving the elevator on-site data of reception;

This analytic unit 31 is for to this elevator on-site data analysis, to determine that whether elevator is in unusual condition;

This first Transmit-Receive Unit 32 is elevator when the unusual condition for the analysis result at this analytic unit, and the field data by this elevator when the unusual condition is sent to predetermined user terminal.

This embedded server can pre-determine some standard threshold values, as the running velocity threshold values of elevator.This embedded server is analyzed by the field data of 31 pairs of receptions of analytic unit, as the field data receiving is: have people, elevator door to open in elevator, elevator is in service, elevator speed is 1.5m/s, can determine that this elevator is in abnormal condition, because of when elevator door is opened, the running velocity of elevator should be 0, elevator is not 0 o'clock (elevator is in operation) at running velocity in other words, and elevator door should cut out.

The field data that this first Transmit-Receive Unit 32 by this elevator in unusual condition is sends to predetermined user, as field data " have people, elevator door to open in elevator, elevator is in service, elevator speed is 1.5m/s " is sent to predetermined user terminal, can send by note or lettergram mode.This predetermined terminal can receive the field data that this embedded server sends in real time.

Further, this control module 30 also comprises the second Transmit-Receive Unit 33 being connected respectively with the first Transmit-Receive Unit 32 with this analytic unit 31;

This second Transmit-Receive Unit 33 is elevator when the unusual condition for the analysis result at this analytic unit 31, and the image capture device in elevator sends image capture instruction, so that this image capture device obtains image scene;

The image scene that this second Transmit-Receive Unit 33 also feeds back for receiving this image capture device;

This first Transmit-Receive Unit 32 also field data and the image scene when unusual condition is appearred in this elevator sends to predetermined user terminal together.

In elevator, top is provided with image capture device, as top in elevator arranges digital camera.By this image capture device, can take the image scene in elevator.This embedded server sends image capture instruction by the second Transmit-Receive Unit 33 to the image capture device in elevator, as sent image capture instruction by wired or wireless mode to image capture device.This image capture device receives after the image capture instruction of embedded server, catches image scene, and the image scene of catching is fed back to embedded server.

Embedded server receives by the second Transmit-Receive Unit 33 image scene that this capture device feeds back, and field data and image scene while unusual condition being appearred in this elevator by the first Transmit-Receive Unit 32 send to predetermined user terminal together, can make user terminal when obtaining elevator on-site data, also can see the graphicinformation that unusual condition scene occurs, as seen in the elevator that unusual condition occurs having how many people, and crowd's classification: adult, child, old man etc.

Further, this first Transmit-Receive Unit 32 is elevator when the unusual condition for the analysis result at this analytic unit, sends reminder message, so that this read-out shows this prompting message by cordless communication network to the read-out in elevator.

This prompting message can set in advance, if this prompting message is " this elevator occurs abnormal now, please stay calm, and maintainer Under Repair, estimates that after 5 minutes, elevator will recover normal ".By this first Transmit-Receive Unit 32, send to the read-out in elevator to show prompting message by cordless communication network, can pacify the mood of passenger in elevator, Accident prevention further expands.

The above is only the preferred embodiments of the present invention; not thereby limit the scope of the claims of the present invention; every equivalent structure or conversion of equivalent flow process that utilizes specification sheets of the present invention and accompanying drawing content to do; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present invention.

Claims (10)

1. an elevator long-distance monitorng method, is characterized in that, the method comprises the following steps:

Embedded server and elevator data acquisition unit establish a communications link;

Embedded server receives elevator on-site data from described elevator data acquisition unit;

Embedded server sends to predetermined user terminal by the elevator on-site data of reception.

2. method according to claim 1, is characterized in that, described embedded server is after described elevator data acquisition unit receives the step of elevator on-site data, and the method also comprises:

Embedded server is preserved the elevator on-site data that receive, and to described elevator on-site data analysis, to determine that whether elevator is in unusual condition;

If described elevator is in unusual condition, by described elevator, the field data when the unusual condition is sent to predetermined user terminal to described embedded server.

3. method according to claim 2, is characterized in that, the described embedded server step that the field data when the unusual condition is sent to predetermined user terminal by described elevator comprises:

By described elevator, the field data when the unusual condition is sent to predetermined user terminal by note or lettergram mode to described embedded server.

4. method according to claim 2, is characterized in that, described embedded server is preserved the elevator on-site data that receive, and to described elevator on-site data analysis, and to determine that elevator is whether after the step in unusual condition, the method comprises:

If described elevator is in unusual condition, described embedded server sends image capture instruction to the image capture device in elevator, so that described image capture device obtains image scene;

Described embedded server receives the image scene that described image capture device feeds back, and field data and image scene when unusual condition is appearred in described elevator send to predetermined user terminal together.

5. method according to claim 2, is characterized in that, described embedded server is preserved the elevator on-site data that receive, and to described elevator on-site data analysis, and to determine that elevator is whether after the step in unusual condition, the method comprises:

If described elevator is in unusual condition, described embedded server sends prompting message by cordless communication network to the read-out in elevator, so that described read-out shows described prompting message.

6. an elevator long-distance monitorng device, is characterized in that, described device comprises embedded server, and described embedded server comprises: communication module, the acquisition module being connected with described communication module, the control module being connected with described acquisition module; Wherein:

Described communication module is for establishing a communications link described embedded server and elevator data acquisition unit;

Described acquisition module is for receiving elevator on-site data from described elevator data acquisition unit;

Described control module is for sending to predetermined user terminal by the elevator on-site data of reception.

7. device according to claim 6, is characterized in that, described embedded server also comprises memory module, and described memory module is connected with described acquisition module, and described control module comprises analytic unit and is connected the first Transmit-Receive Unit with described analytic unit;

Described memory module is for preserving the elevator on-site data of reception;

Described analytic unit is used for to described elevator on-site data analysis, to determine that whether elevator is in unusual condition;

Described the first Transmit-Receive Unit is at the analysis result of described analytic unit being elevator during in unusual condition, and the field data by described elevator when the unusual condition is sent to predetermined user terminal.

8. device according to claim 7, is characterized in that, described the first Transmit-Receive Unit is also for by described elevator, the field data when the unusual condition is sent to predetermined user terminal by note or lettergram mode.

9. device according to claim 7, is characterized in that, described control module also comprises the second Transmit-Receive Unit being connected respectively with the first Transmit-Receive Unit with described analytic unit;

Described the second Transmit-Receive Unit is at the analysis result of described analytic unit being elevator during in unusual condition, and the image capture device in elevator sends image capture instruction, so that described image capture device obtains image scene;

The image scene that described the second Transmit-Receive Unit also feeds back for receiving described image capture device;

Described the first Transmit-Receive Unit also field data and the image scene when unusual condition is appearred in described elevator sends to predetermined user terminal together.

10. install according to claim 7, it is characterized in that, described the first Transmit-Receive Unit is for being that elevator is during in unusual condition at the analysis result of described analytic unit, by cordless communication network, to the read-out in elevator, send reminder message, so that described read-out shows described prompting message.

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