Disclosure of Invention
The invention aims to overcome the defects of the prior art, and provides a monitoring and displaying system and a method for hotel equipment fault self-checking and mutual check feedback, which can determine the area of a fault equipment according to the ID code of the fault equipment when fault information reported by equipment self-checking is received, and intensively compare and process the operation parameters fed back by other matched equipment in the area with the operation parameters of the fault equipment to realize mutual check of the equipment in the same area; and the monitoring equipment in the area is called, the video information and the environmental parameters of the operation site are increased and improved, the information processing and feedback are comprehensively carried out, and more accurate basis is provided for the analysis of fault reasons and the decision of workers.
The purpose of the invention is realized by the following technical scheme: a monitoring display system for hotel equipment fault self-checking and mutual check feedback comprises:
the area dividing module is used for dividing the hotel into a plurality of areas;
the regional engineering equipment configuration module is used for configuring engineering equipment for each region of the hotel and establishing a corresponding relation between the ID codes of the engineering equipment and the regions according to the fixed ID codes of the engineering equipment in each region;
the comprehensive data interface module is used for establishing communication with engineering equipment configured in each area of the hotel and receiving fault information or operation parameters uploaded by equipment self-check in each area of the hotel;
the system comprises a region monitoring equipment configuration module, a region monitoring equipment configuration module and a region monitoring equipment configuration module, wherein the region monitoring equipment configuration module is used for configuring monitoring equipment of videos and environments for each region of the hotel and establishing a corresponding relation between the ID codes of the monitoring equipment and the regions according to the fixed ID codes of the monitoring equipment in each region;
the monitoring equipment management module is used for managing the monitoring equipment in each area of the hotel and uploading data of the monitoring equipment;
the regional linkage rule setting module is used for setting a regional linkage control rule;
the area linkage control module is used for determining the area where the fault equipment is located according to the ID code of the fault equipment when fault information reported by the self-checking of the engineering equipment is received according to the set linkage control rule, and intensively comparing and processing the operation parameters fed back by other matched equipment in the area with the operation parameters of the fault equipment to realize the mutual checking of the equipment in the same area; and the monitoring equipment in the area is called, the video information and the environmental parameters of the operation site are increased and perfected, and the information processing and feedback are comprehensively carried out.
Further, the monitoring display system further comprises: and the threshold configuration management module is used for setting upper and lower limit thresholds of the operation parameters of the engineering equipment and upper and lower limit thresholds of the environmental parameters of the monitoring equipment.
Correspondingly, the area linkage control module is also used for marking the corresponding equipment as abnormal equipment when the operation parameters of the engineering equipment exceed an upper limit threshold according to a set linkage control rule, determining the area where the corresponding equipment is located according to the ID of the abnormal equipment, and intensively comparing and processing the operation parameters fed back by other matched equipment in the area with the operation parameters of the abnormal equipment to realize mutual detection of the equipment in the same area; and the monitoring equipment in the area is called, the video information and the environmental parameters of the operation site are increased and perfected, and the information processing and feedback are comprehensively carried out.
Further, the monitoring and displaying system further comprises a fault/anomaly alarm module, which is used for performing fault/anomaly alarm when the engineering equipment reports fault information through self-checking, or the operation parameters of the engineering equipment exceed an upper limit threshold, or the environmental parameters of the monitoring equipment exceed upper and lower limit thresholds.
The monitoring and displaying system further comprises a message pushing subsystem for pushing the information fed back by the regional linkage control module to corresponding staff for decision making.
In order to more intuitively show the fault/abnormal condition of the hotel equipment, the monitoring and displaying system can further comprise a 3D live-action engine, wherein the 3D live-action engine is used for establishing a 3D live-action model of the hotel according to the area division and the corresponding relation between the engineering equipment ID codes and the areas, and displaying the areas where the fault/abnormal engineering equipment is located in the 3D live-action model.
The engineering equipment configured for each area by the area engineering equipment configuration module comprises but is not limited to power supply and distribution system equipment, air-conditioning heating and ventilation system equipment, building automatic control system equipment and water supply and drainage system equipment;
the power supply and distribution system devices include, but are not limited to, high voltage distribution subsystem devices, low voltage distribution subsystem devices, lighting distribution subsystem devices, fire protection distribution subsystem devices, and low current distribution subsystem devices; each power supply and distribution system device is connected to the comprehensive data interface module through the power distribution fault self-checking module, and uploads respective fault self-checking report information, operation parameter information and ID codes;
the air conditioning heating and ventilation system equipment comprises but is not limited to air conditioning subsystem equipment, cold source subsystem equipment, heat source subsystem equipment, boiler subsystem equipment, fresh air subsystem equipment and exhaust subsystem equipment; each air-conditioning heating and ventilation system device is connected to the comprehensive data interface module through an air-conditioning heating and ventilation fault self-checking module, and uploads respective fault self-checking reporting information, operation parameter information and ID codes;
the building automatic control system equipment comprises but is not limited to network subsystem equipment, video monitoring subsystem equipment, intrusion alarm subsystem equipment, television subsystem equipment, entrance guard subsystem equipment and building automation subsystem equipment; each building automatic control system device is connected to the comprehensive data interface module through a building intelligent fault self-checking module, and uploads respective fault self-checking report information, operation parameter information and ID codes;
the water supply and drainage system equipment comprises but is not limited to water subsystem equipment and drainage subsystem equipment, each water supply and drainage system equipment is connected to the comprehensive data interface module through the water supply and drainage fault self-checking module, and respective fault self-checking report information, operation parameter information and ID codes are uploaded.
The monitoring equipment configured for each area by the area monitoring configuration module comprises an area camera and an area environment/physical variable monitoring module; the regional camera and the regional environment/physical variable monitoring module are both connected to the monitoring equipment management module through the communication module, so that parameters are uploaded and controlled by the monitoring equipment management module (for example, the equipment management module can control the rotation of the regional camera or the data acquisition of the regional environment/physical variable monitoring module); the area environment/physical variable monitoring module comprises but is not limited to an image sensor, a temperature sensor, a humidity sensor, a pressure sensor, an air quality sensor and a light intensity sensor.
The monitoring display method of the monitoring display system for hotel equipment fault self-checking and mutual check feedback comprises the following steps:
s1, dividing a hotel into a plurality of areas;
s2, carrying out engineering equipment configuration for each area of the hotel, associating and calibrating the engineering equipment configured in each area, and establishing a corresponding relation between an engineering equipment ID code and the area according to a fixed ID code of the engineering equipment in the area;
s3, establishing communication with engineering equipment configured in each area of the hotel;
and S4, configuring monitoring equipment of videos and environments for each area of the hotel, and establishing a corresponding relation between the ID codes of the monitoring equipment and the areas according to the fixed ID codes of the monitoring equipment in each area.
S5, setting a linkage control rule of the region;
s6, performing mutual inspection feedback on fault information or abnormal information of the engineering equipment according to a set linkage control rule;
and S7, pushing information fed back by the regional linkage control module to corresponding workers for decision making.
The step S6 includes the following two cases:
firstly, when fault information reported by self-checking of engineering equipment is received, determining an area where the fault equipment is located according to an ID code of the fault equipment, and carrying out centralized comparison and processing on operation parameters fed back by other supporting equipment in the area and the operation parameters of the fault equipment to realize mutual checking of the equipment in the same area; and calling the monitoring equipment in the area, increasing and improving the video information and environmental parameters of the operation site, and comprehensively processing and feeding back the information;
secondly, when the operation parameters of the engineering equipment exceed the upper limit threshold, marking the corresponding equipment as abnormal equipment, determining the area where the corresponding equipment is located according to the ID of the abnormal equipment, and carrying out centralized comparison and processing on the operation parameters fed back by other supporting equipment in the area and the operation parameters of the abnormal equipment to realize mutual detection of the equipment in the same area; and the monitoring equipment in the area is called, the video information and the environmental parameters of the operation site are increased and perfected, and the information processing and feedback are comprehensively carried out.
The monitoring display method of the monitoring display system for the hotel equipment fault self-checking and mutual check feedback further comprises the following fault/abnormity alarming steps: and when the engineering equipment reports fault information through self-checking, or the operation parameters of the engineering equipment exceed upper limit threshold values, or the environmental parameters of the monitoring equipment exceed upper and lower limit threshold values, performing fault/abnormity alarm.
The invention has the beneficial effects that: when fault information reported by self-checking of the equipment is received, the area where the fault equipment is located is determined according to the ID code of the fault equipment, and the operation parameters fed back by other supporting equipment in the area are intensively compared with the operation parameters of the fault equipment and processed, so that mutual checking of the equipment in the same area is realized; and the monitoring equipment in the area is called, the video information and the environmental parameters of the operation site are increased and improved, and the information processing and feedback are comprehensively carried out.
Detailed Description
The technical solutions of the present invention are further described in detail below with reference to the accompanying drawings, but the scope of the present invention is not limited to the following.
As shown in fig. 1, a monitoring and displaying system for hotel equipment fault self-checking and mutual check feedback includes:
the area dividing module is used for dividing the hotel into a plurality of areas;
the regional engineering equipment configuration module is used for configuring engineering equipment for each region of the hotel and establishing a corresponding relation between the ID codes of the engineering equipment and the regions according to the fixed ID codes of the engineering equipment in each region;
the comprehensive data interface module is used for establishing communication with engineering equipment configured in each area of the hotel and receiving fault information or operation parameters uploaded by equipment self-check in each area of the hotel;
the system comprises a region monitoring equipment configuration module, a region monitoring equipment configuration module and a region monitoring equipment configuration module, wherein the region monitoring equipment configuration module is used for configuring monitoring equipment of videos and environments for each region of the hotel and establishing a corresponding relation between the ID codes of the monitoring equipment and the regions according to the fixed ID codes of the monitoring equipment in each region;
the monitoring equipment management module is used for managing the monitoring equipment in each area of the hotel and uploading data of the monitoring equipment;
the regional linkage rule setting module is used for setting a regional linkage control rule;
the area linkage control module is used for determining the area where the fault equipment is located according to the ID code of the fault equipment when fault information reported by the self-checking of the engineering equipment is received according to the set linkage control rule, and intensively comparing and processing the operation parameters fed back by other matched equipment in the area with the operation parameters of the fault equipment to realize the mutual checking of the equipment in the same area; and the monitoring equipment in the area is called, the video information and the environmental parameters of the operation site are increased and perfected, and the information processing and feedback are comprehensively carried out.
In an embodiment of the present application, the monitoring display system further includes: and the threshold configuration management module is used for setting upper and lower limit thresholds of the operation parameters of the engineering equipment and upper and lower limit thresholds of the environmental parameters of the monitoring equipment.
Correspondingly, the area linkage control module is also used for marking the corresponding equipment as abnormal equipment when the operation parameters of the engineering equipment exceed an upper limit threshold according to a set linkage control rule, determining the area where the corresponding equipment is located according to the ID of the abnormal equipment, and intensively comparing and processing the operation parameters fed back by other matched equipment in the area with the operation parameters of the abnormal equipment to realize mutual detection of the equipment in the same area; and the monitoring equipment in the area is called, the video information and the environmental parameters of the operation site are increased and perfected, and the information processing and feedback are comprehensively carried out.
In an embodiment of the application, the monitoring and displaying system further includes a fault/anomaly alarm module, configured to perform fault/anomaly alarm when the engineering equipment reports fault information through self-checking, or an operation parameter of the engineering equipment exceeds an upper threshold, or an environmental parameter of the monitoring equipment exceeds an upper threshold and a lower threshold.
The monitoring and displaying system further comprises a message pushing subsystem for pushing the information fed back by the regional linkage control module to corresponding staff for decision making.
In order to more intuitively show the fault/abnormal condition of the hotel equipment, the monitoring and displaying system can further comprise a 3D live-action engine, wherein the 3D live-action engine is used for establishing a 3D live-action model of the hotel according to the area division and the corresponding relation between the engineering equipment ID codes and the areas, and displaying the areas where the fault/abnormal engineering equipment is located in the 3D live-action model.
The engineering equipment configured for each area by the area engineering equipment configuration module comprises but is not limited to power supply and distribution system equipment, air-conditioning heating and ventilation system equipment, building automatic control system equipment and water supply and drainage system equipment;
the power supply and distribution system devices include, but are not limited to, high voltage distribution subsystem devices, low voltage distribution subsystem devices, lighting distribution subsystem devices, fire protection distribution subsystem devices, and low current distribution subsystem devices; each power supply and distribution system device is connected to the comprehensive data interface module through the power distribution fault self-checking module, and uploads respective fault self-checking report information, operation parameter information and ID codes;
the air conditioning heating and ventilation system equipment comprises but is not limited to air conditioning subsystem equipment, cold source subsystem equipment, heat source subsystem equipment, boiler subsystem equipment, fresh air subsystem equipment and exhaust subsystem equipment; each air-conditioning heating and ventilation system device is connected to the comprehensive data interface module through an air-conditioning heating and ventilation fault self-checking module, and uploads respective fault self-checking reporting information, operation parameter information and ID codes;
the building automatic control system equipment comprises but is not limited to network subsystem equipment, video monitoring subsystem equipment, intrusion alarm subsystem equipment, television subsystem equipment, entrance guard subsystem equipment and building automation subsystem equipment; each building automatic control system device is connected to the comprehensive data interface module through a building intelligent fault self-checking module, and uploads respective fault self-checking report information, operation parameter information and ID codes;
the water supply and drainage system equipment comprises but is not limited to water subsystem equipment and drainage subsystem equipment, each water supply and drainage system equipment is connected to the comprehensive data interface module through the water supply and drainage fault self-checking module, and respective fault self-checking report information, operation parameter information and ID codes are uploaded.
The monitoring equipment configured for each area by the area monitoring configuration module comprises an area camera and an area environment/physical variable monitoring module; the regional camera and the regional environment/physical variable monitoring module are both connected to the monitoring equipment management module through the communication module, so that parameters are uploaded and controlled by the monitoring equipment management module (for example, the equipment management module can control the rotation of the regional camera or the data acquisition of the regional environment/physical variable monitoring module); the area environment/physical variable monitoring module comprises but is not limited to an image sensor, a temperature sensor, a humidity sensor, a pressure sensor, an air quality sensor and a light intensity sensor.
As shown in fig. 2, the monitoring display method of the monitoring display system for hotel equipment fault self-checking and mutual check feedback includes the following steps:
s1, dividing a hotel into a plurality of areas;
s2, carrying out engineering equipment configuration for each area of the hotel, associating and calibrating the engineering equipment configured in each area, and establishing a corresponding relation between an engineering equipment ID code and the area according to a fixed ID code of the engineering equipment in the area;
s3, establishing communication with engineering equipment configured in each area of the hotel;
and S4, configuring monitoring equipment of videos and environments for each area of the hotel, and establishing a corresponding relation between the ID codes of the monitoring equipment and the areas according to the fixed ID codes of the monitoring equipment in each area.
S5, setting a linkage control rule of the region;
s6, performing mutual inspection feedback on fault information or abnormal information of the engineering equipment according to a set linkage control rule;
and S7, pushing information fed back by the regional linkage control module to corresponding workers for decision making.
The step S6 includes the following two cases:
firstly, when fault information reported by self-checking of engineering equipment is received, determining an area where the fault equipment is located according to an ID code of the fault equipment, and carrying out centralized comparison and processing on operation parameters fed back by other supporting equipment in the area and the operation parameters of the fault equipment to realize mutual checking of the equipment in the same area; and calling the monitoring equipment in the area, increasing and improving the video information and environmental parameters of the operation site, and comprehensively processing and feeding back the information;
secondly, when the operation parameters of the engineering equipment exceed the upper limit threshold, marking the corresponding equipment as abnormal equipment, determining the area where the corresponding equipment is located according to the ID of the abnormal equipment, and carrying out centralized comparison and processing on the operation parameters fed back by other supporting equipment in the area and the operation parameters of the abnormal equipment to realize mutual detection of the equipment in the same area; and the monitoring equipment in the area is called, the video information and the environmental parameters of the operation site are increased and perfected, and the information processing and feedback are comprehensively carried out.
The monitoring display method of the monitoring display system for the hotel equipment fault self-checking and mutual check feedback further comprises the following fault/abnormity alarming steps: and when the engineering equipment reports fault information through self-checking, or the operation parameters of the engineering equipment exceed upper limit threshold values, or the environmental parameters of the monitoring equipment exceed upper and lower limit threshold values, performing fault/abnormity alarm.
Based on the method and the device, the fault/abnormity alarm can be carried out when the engineering equipment reports the fault information through self-checking, or the operation parameter of the engineering equipment exceeds the upper limit threshold value, or the environmental parameter of the monitoring equipment exceeds the upper limit threshold value and the lower limit threshold value, so that the working/management personnel can timely process the fault/abnormity alarm. Moreover, when the engineering equipment fails or runs abnormally, mutual detection of equipment in the same area can be realized; and the monitoring equipment in the area is called, the video information and the environmental parameters of the operation site are increased and improved, the information processing and feedback are comprehensively carried out, and more accurate basis is provided for the analysis of fault reasons and the decision of workers.
For example, in a building automation system in a certain area, when a certain device stops operating, the cause of the failure is various: for example, artificial damage, excessive temperature, or failure to supply power due to equipment failure in the power supply and distribution system; however, the manager can not determine the specific reason at all, and is not favorable for making a decision in time; in the application, after the intelligent building fault self-checking module reports the fault information, the area linkage control module determines the area where the fault equipment is located according to the ID code of the fault equipment, and intensively compares and processes the operation parameters fed back by other supporting equipment in the area with the operation parameters of the fault equipment to realize the mutual check of the equipment in the same area; and calling the monitoring equipment in the area, increasing and improving the video information and environmental parameters of the operation site, and comprehensively processing and feeding back the information;
if the mutual detection result shows that one power supply device which supplies power for the fault device in the area stops running, the fault can be determined to be caused by power supply, and a manager only needs to arrange to maintain the power supply device; if the monitoring equipment in the area is called, and the temperature of the area is found to be too high or too low, the shutdown of the possibly faulty equipment is caused by the temperature, so that corresponding measures can be taken; if the camera in the area monitoring equipment is called to find that the equipment is damaged by man-made malice, security personnel can be arranged to carry out emergency treatment.
For another example, after a piece of air conditioning heating and ventilation system equipment performs long-time cooling and heating, the area still cannot reach the desired temperature set value, the equipment can work continuously, and the operating parameter (continuous operating time) of the equipment may exceed the set upper limit threshold;
in the traditional mode, maintenance personnel can be directly arranged to maintain the equipment, but the traditional mode is very inconvenient (if the abnormity is caused only by unclosed doors and windows, decision errors can be caused, and a large amount of manpower and material resources are wasted);
in the application, the area linkage control module marks the equipment as abnormal equipment, determines the area where the equipment is located according to the ID of the abnormal equipment, intensively compares and processes the operation parameters fed back by other matched equipment in the area with the operation parameters of the abnormal equipment to realize mutual detection of the equipment in the same area, calls the monitoring equipment in the area, increases and perfects the operation field video information and environment parameters, and comprehensively processes information processing and feedback; if the door and window is found not to be closed when the camera in the area is called, the door and window in the area only needs to be closed well, and decision errors can not occur.
In fact, after the fault/abnormal equipment area is determined, any equipment (engineering or monitoring equipment) related to the fault equipment in the area can be used as a mutual inspection basis, and feedback information of mutual inspection can be obtained by detecting data of the related equipment (engineering equipment or monitoring equipment) in the area, so that an accurate basis can be provided for decision making of engineering personnel.