CN110751815A - Intelligent control system and method for mine audible and visual alarm - Google Patents
Intelligent control system and method for mine audible and visual alarm Download PDFInfo
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- 230000002159 abnormal effect Effects 0.000 claims abstract description 9
- 238000005065 mining Methods 0.000 claims description 7
- 239000003245 coal Substances 0.000 description 1
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- G—PHYSICS
- G08—SIGNALLING
- G08B—SIGNALLING OR CALLING SYSTEMS; ORDER TELEGRAPHS; ALARM SYSTEMS
- G08B21/00—Alarms responsive to a single specified undesired or abnormal condition and not otherwise provided for
- G08B21/18—Status alarms
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- E—FIXED CONSTRUCTIONS
- E21—EARTH OR ROCK DRILLING; MINING
- E21F—SAFETY DEVICES, TRANSPORT, FILLING-UP, RESCUE, VENTILATION, OR DRAINING IN OR OF MINES OR TUNNELS
- E21F17/00—Methods or devices for use in mines or tunnels, not covered elsewhere
- E21F17/18—Special adaptations of signalling or alarm devices
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Abstract
The invention discloses an intelligent control system and method of a mine audible and visual alarm. The device comprises a device, a device communication module, a data caching module, an alarm content processing module, an instruction issuing module and an audible and visual alarm; the device communication module communicates with the device using a communication protocol; at a certain moment, the installation position of a certain device in the devices is changed, and a new access device is provided; the equipment communication module identifies the change of the equipment, automatically acquires the latest information of the equipment and stores the latest information in the data cache module; when the equipment is in power failure, alarm, abnormal feed and failure, the alarm content processing module processes the basic equipment information and the equipment state information in the data cache module by combining the acquired alarm content formula to obtain the character string data of the voice alarm, and then the character string data is encoded into a word array instruction by the instruction issuing module and finally issued to the audible and visual alarm. The method effectively identifies the change of the state of the equipment and automatically updates the change of the newly added or installed position of the equipment.
Description
Technical Field
The invention relates to an alarm control method, in particular to an intelligent control system and method of a mining audible and visual alarm.
Background
In the daily application process of the coal mine safety monitoring system, due to the fact that the environments of all mines are different, the installation positions of various hardware devices are different, new increase or replacement can occur, and an existing control method needs an operator to manually configure an alarm mode for the new hardware devices. When the hardware equipment is powered off, alarms, faults and the like occur, the audible and visual alarm can send out voice alarm with a fixed format.
Because the installation environment of equipment in the mine is complicated and can change often, consequently there is following defect in current mining audible-visual annunciator's control mode: (1) an alarm mode needs to be manually configured for the newly added equipment by an operator, so that the burden of the operator is increased; (2) the alarm contents concerned by technicians are different due to different equipment and different states, and the existing control method has too fixed alarm contents and does not support self-definition.
Disclosure of Invention
1. Objects of the invention
The invention provides an intelligent control method of a mine audible and visual alarm, aiming at the problem of poor expandability of the existing mine alarm.
2. The technical scheme adopted by the invention
The invention discloses an intelligent control system of a mine audible and visual alarm, which comprises equipment, an equipment communication module, a data caching module, an alarm content processing module, an instruction issuing module and an audible and visual alarm; the device communication module communicates with the device using a communication protocol; at a certain moment, the installation position of a certain device in the devices is changed, and a new access device is provided; the device communication module identifies changes in the device using the following algorithm:
the device communication module acquires the latest state information of all devices;
comparing the last communication equipment information cached in the data caching module with the latest state information, detecting that the number of the equipment is changed, comparing the basic information of the equipment one by one, detecting that the installation position of a certain equipment is changed, and automatically updating the voice alarm content; detecting and automatically configuring voice alarm content;
and transmitting the updated voice alarm content configuration to an alarm content processing module.
Furthermore, the latest information of the equipment is automatically acquired and stored in the data cache module; when the equipment is in power failure, alarm, abnormal feed and failure, the alarm content processing module combines the basic equipment information and the equipment state information in the data cache module with an alarm content formula obtained by the following algorithm:
configuring a voice alarm formula by using wildcard characters and custom content through upper computer software, and storing the formula in an alarm content processing module;
the alarm content processing module replaces wildcard characters in the voice alarm formula with the basic equipment information and the state equipment information in the data cache module to obtain a voice alarm character string, and sends the voice alarm character string to the instruction issuing module;
the instruction issuing module encodes the voice alarm character string to obtain a word array instruction for communication, and sends the instruction to the audible and visual alarm;
the audible and visual alarm decodes the instruction and sends out a corresponding audible and visual alarm;
the character string data of the voice alarm is obtained after the processing, then the voice character string is coded into a word array instruction through the instruction issuing module, and finally the word array instruction is issued to the audible and visual alarm.
The invention discloses an intelligent control method of a mine audible and visual alarm.A host computer automatically identifies and monitors other equipment in a network to obtain the current information of the equipment, including basic information and installation environment of the equipment, converts the basic information and the state information of the equipment into wildcards, provides wildcards of a formula or adds custom content, and organizes a voice alarm formula for the equipment; when the equipment is in power failure, alarm, abnormal feed and failure, the upper computer replaces wildcard characters in the formula with the acquired real-time alarm information, and finally generates voice alarm information corresponding to the equipment alarm by combining user-defined content, and sends the information code to the acousto-optic alarm of the lower computer to enable the acousto-optic alarm to send out voice alarm.
Furthermore, the installation position of a certain device in the devices at a certain moment is changed, and a new access device is provided;
the device communication module acquires the latest state information of all devices;
comparing the last communication equipment information cached in the data caching module with the latest state information, detecting that the number of the equipment is changed, comparing the basic information of the equipment one by one, detecting that the installation position of a certain equipment is changed, and automatically updating the voice alarm content; detecting and automatically configuring voice alarm content;
and transmitting the updated voice alarm content configuration to an alarm content processing module.
Furthermore, the latest information of the equipment is automatically acquired and stored in the data cache module; when the equipment is in power failure, alarm, abnormal feed and failure, the alarm content processing module combines the basic equipment information and the equipment state information in the data cache module with an alarm content formula obtained by the following algorithm:
configuring a voice alarm formula by using wildcard characters and custom content through upper computer software, and storing the formula in an alarm content processing module;
the alarm content processing module replaces wildcard characters in the voice alarm formula with the basic equipment information and the state equipment information in the data cache module to obtain a voice alarm character string, and sends the voice alarm character string to the instruction issuing module;
the instruction issuing module encodes the voice alarm character string to obtain a word array instruction for communication, and sends the instruction to the audible and visual alarm;
the audible and visual alarm decodes the instruction and sends out a corresponding audible and visual alarm;
the character string data of the voice alarm is obtained after the processing, then the voice character string is coded into a word array instruction through the instruction issuing module, and finally the word array instruction is issued to the audible and visual alarm.
3. Advantageous effects adopted by the present invention
(1) The method effectively identifies the change of the equipment state through the equipment state comparison algorithm, and realizes the automatic updating of the change of the newly added or installed position of the equipment.
(2) The method abstracts various information of the equipment into wildcards and formulates the alarm content to help technicians customize the voice alarm content suitable for the environment of different mines.
Drawings
Fig. 1 is a schematic structural diagram of an intelligent control method according to the present invention.
FIG. 2 is a flow chart of the device state comparison algorithm of the present invention.
FIG. 3 is a flow chart of the present invention for formulating the content of a voice alarm.
Detailed Description
The technical solutions in the examples of the present invention are clearly and completely described below with reference to the drawings in the examples of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present invention without inventive step, are within the scope of the present invention.
The present invention will be described in further detail with reference to the accompanying drawings.
The software of the upper computer automatically identifies and monitors other equipment in the network to obtain information such as the current installation environment of the equipment, and converts basic information and state information of the equipment into wildcards, so that wildcards of formulas are provided for technicians, and the technicians can add custom content to organize corresponding voice alarm formulas for the equipment. When the equipment is in power failure, alarm, abnormal feed and failure, the upper computer replaces wildcard characters in the formula with the acquired real-time alarm information, and finally generates voice alarm information corresponding to the equipment alarm by combining user-defined content, and sends the information code to the acousto-optic alarm of the lower computer to enable the acousto-optic alarm to send out voice alarm.
Example 1
Referring to fig. 1, the present embodiment includes a device 1, a device communication module 2, a data caching module 3, an alarm content processing module 4, an instruction issuing module 5, and an audible and visual alarm 6.
The device communication module 2 communicates with the device 1 using a communication protocol.
The device communication module 2 adopts the algorithm of fig. 2 to identify the change of the device 1, automatically obtains the latest information of the device 1, and stores the latest information in the data cache module 3. When the device is in power failure, alarm, abnormal feed and failure, the alarm content processing module 4 processes the device basic information and the device state information in the data cache module 3 by combining the alarm content formula obtained by the method of fig. 3 to obtain the character string data of the voice alarm, and then the character string data is coded into a word array command by the command issuing module 5 and finally issued to the audible and visual alarm 6.
Example 2
Referring to fig. 2, the method of use of example 1, comprising the steps of:
at a certain time, the installation position of a certain device in the device 1 changes, and a new access device is provided.
The device communication module 2 acquires the latest status information of all the devices 1.
Comparing the last communication equipment information cached in the data caching module 3 with the latest state information, detecting that the number of the equipment is changed, comparing the basic information of the equipment one by one, detecting that the installation position of a certain equipment is changed, and automatically updating the voice alarm content; and detecting and automatically configuring voice alarm content.
And transmitting the updated voice alarm content configuration to the alarm content processing module 4.
Example 3
Referring to fig. 3, the method of use of example 1, comprising the steps of:
technicians configure a voice alarm formula by using wildcards and custom content through upper computer software, and store the formula in the alarm content processing module 4.
The alarm content processing module 4 adopts the method of fig. 3 to replace the wildcard in the voice alarm formula with the basic equipment information and the status equipment information in the data cache module 3 to obtain a voice alarm character string, and sends the voice alarm character string to the instruction issuing module 5.
The instruction issuing module 5 encodes the voice alarm character string to obtain a word array instruction for communication, and sends the instruction to the audible and visual alarm 6.
The audible and visual alarm 6 decodes the instruction and sends out a corresponding audible and visual alarm.
The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention are included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.
Claims (5)
1. The utility model provides a mining audible-visual annunciator's intelligence control system which characterized in that: the device comprises a device, a device communication module, a data caching module, an alarm content processing module, an instruction issuing module and an audible and visual alarm; the device communication module communicates with the device using a communication protocol; at a certain moment, the installation position of a certain device in the devices is changed, and a new access device is provided; the device communication module identifies changes in the device using the following algorithm:
the device communication module acquires the latest state information of all devices;
comparing the last communication equipment information cached in the data caching module with the latest state information, detecting that the number of the equipment is changed, comparing the basic information of the equipment one by one, detecting that the installation position of a certain equipment is changed, and automatically updating the voice alarm content; detecting and automatically configuring voice alarm content;
and transmitting the updated voice alarm content configuration to an alarm content processing module.
2. The intelligent control system of the mining audible and visual alarm according to claim 1, wherein the latest information of the equipment is automatically acquired and stored in the data cache module; when the equipment is in power failure, alarm, abnormal feed and failure, the alarm content processing module combines the basic equipment information and the equipment state information in the data cache module with an alarm content formula obtained by the following algorithm:
configuring a voice alarm formula by using wildcard characters and custom content through upper computer software, and storing the formula in an alarm content processing module;
the alarm content processing module replaces wildcard characters in the voice alarm formula with the basic equipment information and the state equipment information in the data cache module to obtain a voice alarm character string, and sends the voice alarm character string to the instruction issuing module;
the instruction issuing module encodes the voice alarm character string to obtain a word array instruction for communication, and sends the instruction to the audible and visual alarm;
the audible and visual alarm decodes the instruction and sends out a corresponding audible and visual alarm;
the character string data of the voice alarm is obtained after the processing, then the voice character string is coded into a word array instruction through the instruction issuing module, and finally the word array instruction is issued to the audible and visual alarm.
3. An intelligent control method of a mining audible and visual alarm is characterized in that: the upper computer automatically identifies and monitors other equipment in the network to obtain the current information of the equipment, including basic equipment information and an installation environment, converts the basic equipment information and equipment state information into wildcards, provides wildcards of a formula or adds custom content, and organizes the speech alarm formula for the equipment; when the equipment is in power failure, alarm, abnormal feed and failure, the upper computer replaces wildcard characters in the formula with the acquired real-time alarm information, and finally generates voice alarm information corresponding to the equipment alarm by combining user-defined content, and sends the information code to the acousto-optic alarm of the lower computer to enable the acousto-optic alarm to send out voice alarm.
4. The intelligent control method of the mining audible and visual alarm according to claim 3, characterized in that: at a certain moment, the installation position of a certain device in the devices is changed, and a new access device is provided;
the device communication module acquires the latest state information of all devices;
comparing the last communication equipment information cached in the data caching module with the latest state information, detecting that the number of the equipment is changed, comparing the basic information of the equipment one by one, detecting that the installation position of a certain equipment is changed, and automatically updating the voice alarm content; detecting and automatically configuring voice alarm content;
and transmitting the updated voice alarm content configuration to an alarm content processing module.
5. The intelligent control method of the mining audible and visual alarm according to claim 3, characterized in that: the latest information of the equipment is automatically acquired and stored in a data cache module; when the equipment is in power failure, alarm, abnormal feed and failure, the alarm content processing module combines the basic equipment information and the equipment state information in the data cache module with an alarm content formula obtained by the following algorithm:
configuring a voice alarm formula by using wildcard characters and custom content through upper computer software, and storing the formula in an alarm content processing module;
the alarm content processing module replaces wildcard characters in the voice alarm formula with the basic equipment information and the state equipment information in the data cache module to obtain a voice alarm character string, and sends the voice alarm character string to the instruction issuing module;
the instruction issuing module encodes the voice alarm character string to obtain a word array instruction for communication, and sends the instruction to the audible and visual alarm;
the audible and visual alarm decodes the instruction and sends out a corresponding audible and visual alarm;
the character string data of the voice alarm is obtained after the processing, then the voice character string is coded into a word array instruction through the instruction issuing module, and finally the word array instruction is issued to the audible and visual alarm.
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CN113313915A (en) * | 2021-02-19 | 2021-08-27 | 精英数智科技股份有限公司 | Method and system for processing graded alarm short message based on gas system |
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