CN115330002A - Intelligent building operation and maintenance management system - Google Patents

Abstract

The invention provides an intelligent building operation and maintenance management system, which comprises: at least one relay terminal and an operation and maintenance server; the operation and maintenance server comprises: an analysis module; an analysis control logic module; a control module; the decoding module, this application is through at least one detected signal of discernment each operating device state detection, obtains the parameter information of the operating device that each detected signal corresponds through the decoding module, and analysis module dispatches in proper order from the task management unit the parameter information of the operating device that detected signal and detected signal correspond to carry out the comparison analysis based on the discernment to the parameter information of operating device, look over whether in setting for the threshold value, if not in setting for the threshold value, select corresponding regulation and control instruction from the emergency plan according to the difference between detected signal and the standard signal, will regulation and control instruction sends to control module, control module is based on the emergency plan that regulation and control instruction corresponds carries out early warning or control to the operating device.

Description

Intelligent building operation and maintenance management system

Technical Field

The invention relates to the technical field of operation and maintenance of building operation equipment, in particular to an intelligent building operation and maintenance management system.

Background

Traditional building fortune dimension management platform carries out integrated monitoring to building operation equipment usually, because the control that different equipment used or the equipment that detects are different, can not provide and have the same detected signal, consequently, traditional method sends to the backstage after with different equipment detected signal acquisition, carry out manual analysis through the backstage and whether have unusually, manual analysis has great randomness, also receive the judgement of analyst's experience, generally, the small fluctuation of a detected signal, probably all can have great risk.

Disclosure of Invention

In view of the above, the main objective of the present invention is to provide an intelligent building operation and maintenance management system. The technical scheme adopted by the invention is as follows:

intelligent building operation and maintenance management system includes:

at least one relay terminal configured to:

receiving at least one detection signal for detecting the state of each running device from a plurality of running devices, identifying the serial number of the detection signal, and transmitting the identified detection signal to an operation and maintenance server;

the operation and maintenance server comprises:

an analysis module;

an analysis control logic module;

a control module;

the decoding module is coupled with the analysis control logic module, receives the detection signals from the relay terminal sequentially according to a clock time sequence through a reference clock provided by the analysis control logic module, and inputs the received detection signals to the decoding module, and the decoding module acquires a serial number corresponding to the detection signals according to a decoding program provided by the analysis control logic module and acquires parameter information of running equipment corresponding to the detection signals through the serial number;

the analysis module is coupled with the analysis control logic module, the analysis module is configured to sequentially schedule the detection signals and the parameter information of the operation equipment corresponding to the detection signals from a task management unit of the analysis control logic module, call reference signals from a standard library to perform comparison analysis on the detection signals based on the identification of the parameter information of the operation equipment, check whether the reference signals are within a set threshold value, select corresponding regulation and control instructions from emergency plans according to the difference between the detection signals and the standard signals if the reference signals are not within the set threshold value, and send the regulation and control instructions to the control module, and the control module performs early warning or control on the operation equipment based on the emergency plans corresponding to the regulation and control instructions.

Further, the relay terminal is connected to a detection device disposed at a plurality of operating devices, and is configured to obtain at least one detection signal of each operating device.

Further, the detection device has:

a controller;

the detection end is arranged on the running equipment and used for acquiring at least one detection signal of the running equipment;

the configuration end is connected with the configuration interface and coupled with the controller, reads configuration information from the configuration interface based on a configuration program provided by the controller, and writes parameter information of the running equipment into the configuration end based on the configuration information;

and the output module is connected with the controller and outputs the detection signal and a serial number formed based on the parameter information of the running equipment after being combined based on a combination program provided by the controller.

Further, the decoding module is connected with the storage module;

the storage module is used for storing the equipment standing book, comprises parameter information and position information of each operating equipment, and constructs an index table according to the equipment standing book, wherein the index table is correspondingly matched with the serial number.

Further, the analysis control logic module has:

a clock unit coupled to the decoding module for providing a reference clock to the decoding module;

a memory for storing a decoding program having a decoding code and program instructions corresponding to the decoding code;

when the decoding module receives the detection signals from the relay terminal sequentially according to a clock time sequence through a reference clock provided by the analysis control logic module, the program instruction operates the decoding code to obtain a serial number corresponding to the detection signals; acquiring parameter information of the operating equipment corresponding to the detection signal through the serial number,

the task management unit is internally provided with a buffer which is used for sequentially storing the serial number corresponding to the detection signal and the parameter information of the corresponding running equipment based on the progress of the decoding task; and the task management unit is used for scheduling the detection signals and the parameter information of the running equipment corresponding to the detection signals from the buffer to the analysis module in sequence based on the progress of the analysis task.

Further, the decoding module has:

a receiving section for sequentially receiving the detection signal from the relay terminal in accordance with a clock timing;

and the decoding part is used for operating the decoding code embedded in the decoding part based on the program instruction so as to acquire a serial number corresponding to the detection signal, and the serial number is based on the index table so as to acquire parameter information of the operating equipment corresponding to the detection signal by calling the index table.

Further, the analysis module has:

the scheduling unit is used for sequentially scheduling the detection signals and the parameter information of the running equipment corresponding to the detection signals from the task management unit based on the progress of the analysis tasks;

the conversion unit is used for converting the detection signal into an analog signal;

the comparison unit is used for calling a reference signal from a standard library to perform comparison analysis with the analog signal based on the identification of the parameter information of the operating equipment;

the standard library is used for storing a reference signal corresponding to the detection signal of each running device and a set threshold value of the reference signal;

and the regulating and controlling unit is used for calculating the difference value of the analog signal and the standard signal based on the comparison result, selecting a corresponding regulating and controlling instruction from the emergency plan according to the difference value, and sending the regulating and controlling instruction to the control module, wherein the control module performs early warning or control on the operating equipment based on the emergency plan corresponding to the regulating and controlling instruction.

Furthermore, the control module is used for being connected with a control unit or a brake switch of the operating device.

This application is through discerning at least one detected signal that each operation equipment state detected, when decoding, passes through equipment machine account in the storage module, including parameter information, the positional information of each operation equipment, and according the index table is found to equipment machine account, the index table with the serial number corresponds the matching to obtain the parameter information of the operation equipment that each detected signal corresponds, analysis module is configured to follow in the task management unit of analysis control logic module schedules in proper order the parameter information of the operation equipment that detected signal and detected signal correspond to based on the identification to the parameter information of operation equipment in order to call the benchmark signal from the standard library with the detected signal carries out contrastive analysis, look over whether in setting for the threshold value, if not in setting for the threshold value, select corresponding regulation and control instruction from emergency plan according to the difference between detected signal and the standard signal, will regulation and control instruction send to control module, control module is based on the emergency plan that regulation and control instruction corresponds carries out early warning or control to operation equipment.

In the above, the detection signal of each operating device can be identified, the operating condition of each operating device can be analyzed based on the detection signal, each operating device can be accurately controlled, all the acquired detection signals can be identified and analyzed simultaneously, and abnormal conditions can be avoided.

Drawings

The invention is illustrated and described only by way of example and not by way of limitation in the scope of the invention as set forth in the following drawings, in which:

FIG. 1 is a schematic diagram of the framework of the present invention;

fig. 2 is a detailed framework schematic of the present invention.

Detailed Description

In order to make the objects, technical solutions, design methods, and advantages of the present invention more apparent, the present invention will be further described in detail by specific embodiments with reference to the accompanying drawings. It should be understood that the specific embodiments described herein are merely illustrative of the invention and do not limit the invention.

Referring to fig. 1 to 2, the present invention provides an intelligent building operation and maintenance management system, including:

at least one relay terminal connected to a detection apparatus provided at a plurality of operating devices, for acquiring at least one detection signal of each operating device, the relay terminal being configured to: receiving at least one detection signal for detecting the state of each running device from a plurality of running devices, identifying the serial number of the detection signal, and transmitting the identified detection signal to an operation and maintenance server;

the detection device has: a controller;

the detection terminal is arranged on the operating equipment and used for acquiring at least one detection signal of the operating equipment;

the configuration end is connected with the configuration interface and coupled with the controller, reads configuration information from the configuration interface based on a configuration program provided by the controller, and writes parameter information of the running equipment into the configuration end based on the configuration information;

and the output module is connected with the controller and outputs the detection signal and a serial number formed based on the parameter information of the running equipment after being combined based on a combination program provided by the controller.

The operation and maintenance server comprises:

an analysis module;

an analysis control logic module;

a control module;

the decoding module is coupled with the analysis control logic module, receives the detection signals from the relay terminal sequentially according to a clock time sequence through a reference clock provided by the analysis control logic module, and inputs the received detection signals to the decoding module, and the decoding module acquires a serial number corresponding to the detection signals according to a decoding program provided by the analysis control logic module and acquires parameter information of running equipment corresponding to the detection signals through the serial number;

the analysis module is coupled with the analysis control logic module, the analysis module is configured to dispatch the detection signals and the parameter information of the operation equipment corresponding to the detection signals in sequence from the task management unit of the analysis control logic module, call reference signals from a standard library to perform comparison analysis on the detection signals based on the identification of the parameter information of the operation equipment, check whether the detection signals are within a set threshold value, select corresponding regulation and control instructions from emergency plans according to the difference between the detection signals and the standard signals if the detection signals are not within the set threshold value, and send the regulation and control instructions to the control module, and the control module performs early warning or control on the operation equipment based on the emergency plans corresponding to the regulation and control instructions.

In the above, the configuration of the relay terminal may be arranged according to the floor, or according to the whole building, and of course, as a preferable mode, the same operation device of each building may be configured with one relay terminal, for example, all elevators of the whole building may use one relay terminal, and the detection device may be a gravity sensor, a photoelectric sensor, or a weight sensor; the photoelectric sensor is used for detecting the opening and closing of the elevator door, the gravity sensor is used for detecting a weightlessness signal, and the weight sensor is used for detecting an overweight signal. Because the gravity sensor, the photoelectric sensor and the weight sensor have different standard signal frequencies, which type of sensor corresponds to the gravity sensor, the photoelectric sensor and the weight sensor can be identified by identifying the frequency of the detection signal, and therefore the serial number corresponding to the detection device can be obtained.

In the above, the decoding module is connected to the storage module;

the storage module is used for storing the equipment machine account, comprises parameter information and position information of each operating equipment, and constructs an index table according to the equipment machine account, and the index table is correspondingly matched with the serial number. This application is through discerning at least one detected signal that each operation equipment state detected, when decoding, passes through equipment machine account in the storage module, including parameter information, the positional information of each operation equipment, and the basis the index table is found to equipment machine account, the index table with the serial number corresponds the matching to obtain the parameter information of the operation equipment that each detected signal corresponds, analysis module follows schedule in proper order in analysis control logic module's the task management unit the parameter information of the operation equipment that detected signal and detected signal correspond to based on the identification to the parameter information of operation equipment with call reference signal from the standard library with detected signal carries out contrastive analysis, look over whether in setting for the threshold value, if not in setting for the threshold value, select corresponding regulation and control instruction from emergent plan according to the difference between detected signal and the standard signal, will regulation and control instruction send to control module, control module is based on the corresponding early warning or control is carried out to operation equipment to emergent plan that regulation and control instruction corresponds. In the above, the detection signal of each operating device can be identified, the operating condition of each operating device can be analyzed based on the detection signal, each operating device can be accurately controlled, all the acquired detection signals can be identified and analyzed simultaneously, and abnormal conditions can be avoided.

In the above, the analysis control logic module includes:

a clock unit coupled to the decoding module for providing a reference clock to the decoding module;

a memory for storing a decoding program having a decoding code and program instructions corresponding to the decoding code;

when the decoding module receives the detection signals from the relay terminal sequentially according to a clock time sequence through a reference clock provided by the analysis control logic module, the program instruction operates the decoding code to obtain a serial number corresponding to the detection signals; acquiring parameter information of the operating equipment corresponding to the detection signal through the serial number,

the task management unit is internally provided with a buffer which is used for sequentially storing the serial number corresponding to the detection signal and the parameter information of the corresponding running equipment based on the progress of the decoding task; and the task management unit is used for scheduling the detection signals and the parameter information of the running equipment corresponding to the detection signals from the buffer to the analysis module in sequence based on the progress of the analysis task.

In the above, the decoding module has:

a receiving section for sequentially receiving the detection signal from the relay terminal in accordance with a clock timing;

and the decoding part is used for operating the decoding code embedded in the decoding part based on the program instruction so as to acquire a serial number corresponding to the detection signal, and the serial number is based on the index table so as to acquire parameter information of the operating equipment corresponding to the detection signal by calling the index table.

In the above, the analysis module has:

the scheduling unit is used for sequentially scheduling the detection signals and the parameter information of the running equipment corresponding to the detection signals from the task management unit based on the progress of the analysis tasks;

the conversion unit is used for converting the detection signal into an analog signal;

the comparison unit is used for calling a reference signal from a standard library to perform comparison analysis with the analog signal based on the identification of the parameter information of the operating equipment;

the standard library is used for storing a reference signal corresponding to the detection signal of each running device and a set threshold value of the reference signal;

and the regulating and controlling unit is used for calculating the difference value of the analog signal and the standard signal based on the comparison result, selecting a corresponding regulating and controlling instruction from the emergency plan according to the difference value, and sending the regulating and controlling instruction to the control module, and the control module performs early warning or control on the operating equipment based on the emergency plan corresponding to the regulating and controlling instruction.

In the above, the control module is used to connect to a control unit or a brake switch of the operating device.

The principle of this application does: the method comprises the steps that a relay terminal is configured in the intelligent building, the relay terminal is connected with detection devices arranged at a plurality of operating devices and used for obtaining at least one detection signal of each operating device, the relay terminal is configured to receive the at least one detection signal for detecting the state of each operating device from the operating devices, identify the serial number of the detection signal and transmit the identified detection signal to an operation and maintenance server. The detection device has: a controller; the detection terminal is arranged on the operating equipment and used for acquiring at least one detection signal of the operating equipment; the configuration end is connected with the configuration interface and coupled with the controller, reads configuration information from the configuration interface based on a configuration program provided by the controller, and writes parameter information of the running equipment into the configuration end based on the configuration information; and the output module is connected with the controller and outputs the detection signal and a serial number formed based on the parameter information of the running equipment after being combined based on a combination program provided by the controller.

The decoding module is coupled to the analysis control logic module, receives the detection signal from the relay terminal sequentially according to a clock timing by using a reference clock provided by the analysis control logic module, and inputs the received detection signal to the decoding module, where the decoding module includes: a receiving section for sequentially receiving the detection signal from the relay terminal in accordance with a clock timing; and the decoding part is used for operating the decoding code embedded in the decoding part based on the program instruction so as to acquire a serial number corresponding to the detection signal, and the serial number is based on the index table so as to acquire parameter information of an operating device corresponding to the detection signal by calling the index table.

The analysis module is coupled with an analysis control logic module, the analysis module is configured to schedule the detection signal and the parameter information of the running device corresponding to the detection signal in sequence from a task management unit of the analysis control logic module, and the analysis module has: the scheduling unit is used for sequentially scheduling the detection signals and the parameter information of the running equipment corresponding to the detection signals from the task management unit based on the progress of the analysis task; the conversion unit is used for converting the detection signal into an analog signal; the comparison unit is used for calling a reference signal from a standard library to perform comparison analysis with the analog signal based on the identification of the parameter information of the operating equipment; the standard library is used for storing a reference signal corresponding to the detection signal of each running device and a set threshold value of the reference signal; and the regulating and controlling unit is used for calculating the difference value of the analog signal and the standard signal based on the comparison result, selecting a corresponding regulating and controlling instruction from the emergency plan according to the difference value, and sending the regulating and controlling instruction to the control module, and the control module performs early warning or control on the operating equipment based on the emergency plan corresponding to the regulating and controlling instruction.

In the above, the analysis control logic module includes: a clock unit coupled to the decoding module for providing a reference clock to the decoding module; a memory for storing a decoding program having a decoding code and program instructions corresponding to the decoding code; when the decoding module receives the detection signal from the relay terminal sequentially according to a clock time sequence through a reference clock provided by the analysis control logic module, the program instruction runs the decoding code to acquire a serial number corresponding to the detection signal; the task management unit is internally provided with a buffer used for sequentially storing the serial number corresponding to the detection signal and the parameter information of the corresponding running equipment based on the progress of a decoding task; and the task management unit is used for scheduling the detection signals and the parameter information of the running equipment corresponding to the detection signals from the buffer to the analysis module in sequence based on the progress of the analysis task.

Having described embodiments of the present invention, the foregoing description is intended to be exemplary, not exhaustive, and not limited to the embodiments disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art without departing from the scope and spirit of the described embodiments. The terminology used herein is chosen in order to best explain the principles of the embodiments, the practical application, or improvements made to the technology in the marketplace, or to enable others of ordinary skill in the art to understand the embodiments disclosed herein.

Claims (8)

1. Intelligent building operation and maintenance management system, its characterized in that includes:

at least one relay terminal configured to:

receiving at least one detection signal for detecting the state of each running device from a plurality of running devices, identifying the serial number of the detection signal, and transmitting the identified detection signal to an operation and maintenance server;

the operation and maintenance server comprises:

an analysis module;

an analysis control logic module;

a control module;

the decoding module is coupled with the analysis control logic module, receives the detection signals from the relay terminal sequentially according to a clock time sequence through a reference clock provided by the analysis control logic module, and inputs the received detection signals to the decoding module, and the decoding module acquires a serial number corresponding to the detection signals according to a decoding program provided by the analysis control logic module and acquires parameter information of running equipment corresponding to the detection signals through the serial number;

the analysis module is coupled with the analysis control logic module, the analysis module is configured to dispatch the detection signals and the parameter information of the operation equipment corresponding to the detection signals in sequence from the task management unit of the analysis control logic module, call reference signals from a standard library to perform comparison analysis on the detection signals based on the identification of the parameter information of the operation equipment, check whether the detection signals are within a set threshold value, select corresponding regulation and control instructions from emergency plans according to the difference between the detection signals and the standard signals if the detection signals are not within the set threshold value, and send the regulation and control instructions to the control module, and the control module performs early warning or control on the operation equipment based on the emergency plans corresponding to the regulation and control instructions.

2. The intelligent building operation and maintenance management system according to claim 1, wherein the relay terminal is connected to the detection devices disposed at the multiple operating devices, and is configured to obtain at least one detection signal of each operating device.

3. The intelligent building operation and maintenance management system according to claim 2, wherein the detection device comprises:

a controller;

the detection end is arranged on the running equipment and used for acquiring at least one detection signal of the running equipment;

the configuration end is connected with the configuration interface and coupled with the controller, reads configuration information from the configuration interface based on a configuration program provided by the controller, and writes parameter information of the running equipment into the configuration end based on the configuration information;

and the output module is connected with the controller and outputs the detection signal and a serial number formed based on the parameter information of the running equipment after being combined based on a combination program provided by the controller.

4. The intelligent building operation and maintenance management system according to claim 1, wherein the decoding module is connected with a storage module;

the storage module is used for storing the equipment standing book, comprises parameter information and position information of each operating equipment, and constructs an index table according to the equipment standing book, wherein the index table is correspondingly matched with the serial number.

5. The intelligent building operation and maintenance management system according to claim 1, wherein the analysis control logic module comprises:

a clock unit coupled to the decoding module for providing a reference clock to the decoding module;

a memory for storing a decoding program having a decoding code and program instructions corresponding to the decoding code;

when the decoding module receives the detection signal from the relay terminal sequentially according to a clock time sequence through a reference clock provided by the analysis control logic module, the program instruction runs the decoding code to acquire a serial number corresponding to the detection signal; obtaining the parameter information of the operating equipment corresponding to the detection signal through the serial number,

the task management unit is internally provided with a buffer which is used for sequentially storing the serial number corresponding to the detection signal and the parameter information of the corresponding running equipment based on the proceeding of the decoding task; and the task management unit is used for scheduling the detection signals and the parameter information of the running equipment corresponding to the detection signals to the analysis module from the buffer in sequence based on the progress of the analysis task.

6. The intelligent building operation and maintenance management system according to claim 1, wherein the decoding module comprises:

a receiving section for sequentially receiving the detection signal from the relay terminal in accordance with a clock timing;

and the decoding part is used for operating the decoding code embedded in the decoding part based on the program instruction so as to acquire a serial number corresponding to the detection signal, and the serial number is based on the index table so as to acquire parameter information of an operating device corresponding to the detection signal by calling the index table.

7. The intelligent building operation and maintenance management system according to claim 1, wherein the analysis module comprises:

the scheduling unit is used for sequentially scheduling the detection signals and the parameter information of the running equipment corresponding to the detection signals from the task management unit based on the progress of the analysis tasks;

the conversion unit is used for converting the detection signal into an analog signal;

the comparison unit is used for calling a reference signal from a standard library to perform comparison analysis with the analog signal based on the identification of the parameter information of the operating equipment;

the standard library is used for storing a reference signal corresponding to the detection signal of each operating device and a set threshold value of the reference signal;

and the regulating and controlling unit is used for calculating the difference value of the analog signal and the standard signal based on the comparison result, selecting a corresponding regulating and controlling instruction from the emergency plan according to the difference value, and sending the regulating and controlling instruction to the control module, and the control module performs early warning or control on the operating equipment based on the emergency plan corresponding to the regulating and controlling instruction.

8. The intelligent building operation and maintenance management system according to claim 1, wherein the control module is used for being connected with a control unit of an operation device or a brake switch.

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