CN105717884A - System for monitoring safety of production, storage and conveying processes of fireworks and crackers - Google Patents
System for monitoring safety of production, storage and conveying processes of fireworks and crackers Download PDFInfo
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- CN105717884A CN105717884A CN201410733893.0A CN201410733893A CN105717884A CN 105717884 A CN105717884 A CN 105717884A CN 201410733893 A CN201410733893 A CN 201410733893A CN 105717884 A CN105717884 A CN 105717884A
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Abstract
The invention discloses a system for monitoring the safety of the production, storage and conveying processes of fireworks and crackers, and the system comprises a production workshop monitoring terminal, a warehouse monitoring terminal, a conveying vehicle monitoring terminal, a monitoring server, and a monitoring computer. The production workshop monitoring terminal, the warehouse monitoring terminal, the conveying vehicle monitoring terminal, the monitoring server and the monitoring computer are connected and communicate with each other through the Internet. The production workshop monitoring terminal comprises a workshop environment detection device and a workshop environment analysis and processing device. The warehouse monitoring terminal comprises a first ARM microcontroller module, a first DSP digital signal processor, a first camera, a second camera, a third camera, and a fourth camera. The conveying vehicle monitoring terminal comprises a carriage environment detection device and a carriage environment monitoring device. The system is convenient to use and operate, avoids fire and explosion accidents, improves the safety of the production, storage and conveying of the fireworks and crackers, and is high in work stability and reliability.
Description
Technical field
The invention belongs to fireworks and crackers safety technical field, be specifically related to a kind of fireworks and firecrackers production, storage, transportation safety monitoring system.
Background technology
At present, the fireworks and firecrackers that China is maximum in the world produces, consumes and exported country.Fireworks and firecrackers belongs to inflammable explosive article, the ultimate challenge faced to consumption overall process from production is safety problem, the links such as including production, storage, transport, circulation, the security incident thus caused is of common occurrence, and the security monitoring of fireworks and firecrackers product is always up a difficult problem for enterprise and administration section with supervision.Produce particularly with fireworks and firecrackers, store and transit link exists more unsafe factor, administration section lacks effective monitoring system and technical method, the accident hazard existed in fireworks and firecrackers production process cannot be carried out early warning and warning, thus the generation of Accident prevention;For the accident potential in the daily production of fireworks and firecrackers, storage and transport and administrative vulnerability, administration section lacks effective regulatory measure, and accident also cannot obtain the relevant information of the scene of the accident in time after occurring, has a strong impact on carrying out of emergency management and rescue work.
Summary of the invention
The technical problem to be solved is in that for above-mentioned deficiency of the prior art, it is provided that a kind of fireworks and firecrackers production, storage, transportation safety monitoring system, and its simple in construction is reasonable in design, it is simple to promote the use of.
For solving above-mentioned technical problem, the technical solution used in the present invention is: a kind of fireworks and firecrackers produces, storage, transportation safety monitoring system, it is characterized in that: include the workshop monitor terminal being arranged in fireworks and firecrackers workshop, it is arranged on the warehouse monitor terminal in fireworks and firecrackers warehouse, it is arranged on the transport vehicle monitor terminal in fireworks and firecrackers transport vehicle and is arranged on the monitoring server of Surveillance center, described monitoring server is connected to monitoring calculation machine by switch, described workshop monitor terminal, warehouse monitor terminal, transport vehicle monitor terminal, monitoring server and monitoring calculation machine connect each through Internet network and communicate;
Described workshop monitor terminal includes the workshop condition detecting device being arranged on fireworks and firecrackers workshop ceiling and the workshop condition APU being arranged on fireworks and firecrackers workshop wall, described workshop condition detecting device includes hemispherical shell and is arranged on the first electronic circuit board within described hemispherical shell, described first electronic circuit board is integrated with workshop condition testing circuit, described workshop condition testing circuit includes a MSP430 single-chip microcomputer and is the first button cell of each electricity consumption module for power supply in described workshop condition detecting device, and the first crystal oscillating circuit module connected with a described MSP430 single-chip microcomputer, first reset circuit module and a ZigBee wireless communication module, the input of a described MSP430 single-chip microcomputer is connected to the first digital temperature-humidity sensor for the humiture in fireworks and firecrackers workshop carries out in real time detection and for analogue signal being amplified and the first signal pre-processing circuit of Filtering Processing, the input of described first signal pre-processing circuit is connected to the first Smoke Sensor for the smokescope in fireworks and firecrackers workshop carries out detection in real time, for the pressure in fireworks and firecrackers workshop being carried out the first pressure transducer of detection in real time and for the dust concentration in fireworks and firecrackers workshop being carried out the first sensor of dust concentration of detection in real time;Described workshop condition APU includes cube shaped housing and is arranged on the second electronic circuit board of described cube shaped enclosure interior, described second electronic circuit board is integrated with workshop condition analyzing and processing circuit, described workshop condition analyzing and processing circuit includes the 2nd MSP430 single-chip microcomputer and is the second button cell of each electricity consumption module for power supply in described workshop condition detecting device, and the second crystal oscillating circuit module connected with described 2nd MSP430 single-chip microcomputer, second reset circuit module, data storage circuitry for data storage, for with ZigBee wireless communication module wireless connections the 2nd ZigBee wireless communication module communicated and the GPRS wireless communication module for being connected in Internet network by GPRS network, the input of described 2nd MSP430 single-chip microcomputer is connected to the first button operation circuit module arranged for parameter being arranged in described cube shaped housing outer surface, the outfan of described 2nd MSP430 single-chip microcomputer is connected to sound and light alarm drive circuit module and the first LCDs being arranged in described cube shaped housing outer surface, the outfan of described sound and light alarm drive circuit module is connected to the first audible-visual annunciator being arranged in described cube shaped housing outer surface and for sending sound and light alarm signal when fireworks and firecrackers workshop is dangerous;
Described warehouse monitor terminal includes the first ARM microcontroller module and is the ac-dc converter circuit of each electricity consumption module for power supply in system, and the 3rd crystal oscillator circuit module connected with described first ARM microcontroller module, 3rd reset circuit module, hard-disc storage circuit module and for being connected to the 2nd GPRS wireless communication module in Internet network by GPRS network, the input of described first ARM microcontroller module is connected to the second button operation circuit module arranged for parameter, for fireworks and firecrackers warehouse environment image being carried out the first DSP of process in real time, for the humiture in fireworks and firecrackers warehouse being carried out the second digital temperature-humidity sensor of in real time detection and for analogue signal being amplified and the secondary signal pretreatment circuit of Filtering Processing, the input of described first DSP is connected to the first photographic head for compartment environment carries out video capture, second camera, 3rd photographic head and the 4th photographic head, described first photographic head, second camera, 3rd photographic head and the 4th photographic head are laid on four angles of ceiling in described fireworks and firecrackers warehouse respectively;The input of described secondary signal pretreatment circuit is connected to the second Smoke Sensor for the smokescope in fireworks and firecrackers warehouse carries out in real time detection, for the pressure in fireworks and firecrackers warehouse carrying out the second pressure transducer of detection in real time and for the dust concentration in fireworks and firecrackers warehouse carries out the second sensor of dust concentration of detection in real time;The outfan of described first ARM microcontroller module is connected to the second LCDs for showing information and for sending the rising tone light crossing-signal of sound and light alarm signal when the appearance of fireworks and firecrackers warehouse is dangerous, and described second LCDs and rising tone light crossing-signal are all exposed on the outer surface of the entry door in described fireworks and firecrackers warehouse;
Described transport vehicle monitor terminal includes the railway carriage environmental detection set being arranged in fireworks and firecrackers transport vehicle carriage and the railway carriage environmental monitoring installation being arranged in fireworks and firecrackers transport vehicle driver's cabin, described railway carriage environmental detection set includes the second DSP and the first voltage conversion circuit module for each electricity consumption module for power supply of described railway carriage environmental detection set, and the 4th crystal oscillating circuit module connected with described second DSP, 4th reset circuit module and the first CAN communication circuit module, the input of described second DSP is connected to Video Decoder and the 3rd digital temperature-humidity sensor, the input of described Video Decoder is connected to the 5th photographic head for compartment environment carries out video capture, 6th photographic head, 7th photographic head and the 8th photographic head, described 5th photographic head, 6th photographic head, 7th photographic head and the 8th photographic head are laid on four angles of described fireworks and firecrackers transport vehicle carriage inner top respectively;Described railway carriage environmental monitoring installation includes the second ARM microcontroller module and is the second voltage conversion circuit module of each electricity consumption module for power supply in described railway carriage environmental monitoring installation, and the 5th crystal oscillating circuit module connected with described second ARM microcontroller module, 5th reset circuit module, for storing the SD card data storage circuitry module of data, for the second CAN communication circuit module being connected with the first CAN communication circuit module by CAN and communicate and the 3rd GPRS wireless communication module for being connected in Internet network by GPRS network, the input of described second ARM microcontroller module is connected to the 3rd button operation circuit module for inputting control signal, the outfan of described second ARM microcontroller module is connected to voice alarm circuit module and for by the 5th photographic head, 6th photographic head, the video phase locked synthesizer of the compartment environment video that Video Composition one that the 7th photographic head and the 8th camera collection arrive is complete, the outfan of described video phase locked synthesizer is connected to the 3rd LCDs being carried out display for compartment environment video;Described first voltage conversion circuit module and the second voltage conversion circuit module all connect with the outfan of Vehicular accumulator cell.
Above-mentioned fireworks and firecrackers produces, storage, transportation safety monitoring system, it is characterised in that: a described MSP430 single-chip microcomputer and the 2nd MSP430 single-chip microcomputer are chip MSP430F169.
Above-mentioned fireworks and firecrackers produces, storage, transportation safety monitoring system, it is characterised in that: a described ZigBee wireless communication module and the 2nd ZigBee wireless communication module are all mainly made up of chip CC2530.
Above-mentioned fireworks and firecrackers produces, storage, transportation safety monitoring system, it is characterised in that: described first ARM microcontroller module and the second ARM microcontroller module are ARM microcontroller chip LPC2132.
Above-mentioned fireworks and firecrackers produces, storage, transportation safety monitoring system, it is characterised in that: described first DSP and the second DSP are DSP chip TMS320C6211.
Above-mentioned fireworks and firecrackers produces, storage, transportation safety monitoring system, it is characterised in that: described first digital temperature-humidity sensor and the second digital temperature-humidity sensor are digital temperature-humidity sensor chip SHT11.
Above-mentioned fireworks and firecrackers produces, storage, transportation safety monitoring system, it is characterised in that: the first photographic head, second camera, the 3rd photographic head, the 4th photographic head, the 5th photographic head, the 6th photographic head, the 7th photographic head and the 8th photographic head are infrared night vision camera.
The present invention compared with prior art has the advantage that
1, present invention employs design integrated, modular, simple in construction, reasonable in design, it is achieved convenience and cost are low.
2, the installation of the present invention is laid conveniently, uses simple operation.
3, the potential safety hazard that fireworks and firecrackers can be produced, stores, occur in transportation by the present invention carries out early finding, early early warning, remind staff to take corresponding measure in time, it is to avoid breaking out of fire and explosion accident, improve fireworks and firecrackers produce, storage, transport safety.
4, the job stability of the present invention and reliability are high, it is not necessary to often maintenance and repair, have saved the man power and material that maintenance and repair expends.
5, the present invention's is practical, and result of use is good, it is simple to promote the use of.
In sum, present configuration is simple, reasonable in design, uses simple operation, it is to avoid breaking out of fire and explosion accident, improve fireworks and firecrackers produce, storage, transport safety, job stability and reliability are high, practical, it is simple to promote the use of.
Below by drawings and Examples, technical scheme is described in further detail.
Accompanying drawing explanation
Fig. 1 is the schematic block circuit diagram of the present invention.
Description of reference numerals:
1 the oneth MSP430 single-chip microcomputer;2 first button cells;
3 first crystal oscillating circuit modules;4 first reset circuit modules;
5 the oneth ZigBee wireless communication modules;6 first digital temperature-humidity sensors;
7 first signal pre-processing circuits;8 first Smoke Sensors;
9 first pressure transducers;10 first sensor of dust concentration;
11 the 2nd MSP430 single-chip microcomputers;12 second button cells;
13 second crystal oscillating circuit modules;14 second reset circuit modules;
15 data storage circuitries;16 the 2nd ZigBee wireless communication modules;
17 GPRS network;18 Internet network;
19 the oneth GPRS wireless communication modules;20 first button operation circuit modules;
21 sound and light alarm drive circuit modules;22 first LCDs;
23 first audible-visual annunciators;24 first ARM microcontroller modules;
25 ac-dc converter circuits;26 the 3rd crystal oscillator circuit modules;
27 the 3rd reset circuit modules;28 hard-disc storage circuit modules;
29 the 2nd GPRS wireless communication modules;30 second button operation circuit modules;
31 first DSP;32 second digital temperature-humidity sensors;
33 secondary signal pretreatment circuit;34 first photographic head;
35 second cameras;36 the 3rd photographic head;37 the 4th photographic head;
39 second Smoke Sensors;40 second pressure transducers;
41 second sensor of dust concentration;42 second ARM microcontroller modules;
43 second LCDs;44 rising tone light crossing-signals;
45 second DSP;46 first voltage conversion circuit modules;
47 the 4th crystal oscillating circuit modules;48 the 4th reset circuit modules;
49 first CAN communication circuit modules;50 Video Decoders;
51 the 5th photographic head;52 the 6th photographic head;53 the 7th photographic head;
54 the 8th photographic head;55 second voltage conversion circuit modules;
56 the 5th crystal oscillating circuit modules;57 the 5th reset circuit modules;
58 SD card data storage circuitry modules;59 the 3rd digital temperature-humidity sensors;
60 second CAN communication circuit modules;61 the 3rd GPRS wireless communication modules;
62 the 3rd button operation circuit modules;63 voice alarm circuit modules;
64 video phase locked synthesizer;65 the 3rd LCDs;66 Vehicular accumulator cells;
67 monitoring servers;68 monitoring calculation machines;69 switches.
Detailed description of the invention
As shown in Figure 1, the present invention includes the workshop monitor terminal being arranged in fireworks and firecrackers workshop, the warehouse monitor terminal being arranged in fireworks and firecrackers warehouse, the transport vehicle monitor terminal being arranged in fireworks and firecrackers transport vehicle and the monitoring server 67 being arranged on Surveillance center, described monitoring server 67 is connected to monitoring calculation machine 68, described workshop monitor terminal, warehouse monitor terminal, transport vehicle monitor terminal, monitoring server 67 and monitoring calculation machine 68 by switch 69 connect each through Internet network 18 and communicate;
Described workshop monitor terminal includes the workshop condition detecting device being arranged on fireworks and firecrackers workshop ceiling and the workshop condition APU being arranged on fireworks and firecrackers workshop wall, described workshop condition detecting device includes hemispherical shell and is arranged on the first electronic circuit board within described hemispherical shell, described first electronic circuit board is integrated with workshop condition testing circuit, described workshop condition testing circuit includes a MSP430 single-chip microcomputer 1 and is the first button cell 2 of each electricity consumption module for power supply in described workshop condition detecting device, and the first crystal oscillating circuit module 3 connected with a described MSP430 single-chip microcomputer 1, first reset circuit module 4 and a ZigBee wireless communication module 5, the input of a described MSP430 single-chip microcomputer 1 is connected to the first digital temperature-humidity sensor 6 for the humiture in fireworks and firecrackers workshop carries out in real time detection and for analogue signal being amplified and the first signal pre-processing circuit 7 of Filtering Processing, the input of described first signal pre-processing circuit 7 is connected to the first Smoke Sensor 8 for the smokescope in fireworks and firecrackers workshop carries out detection in real time, for the pressure in fireworks and firecrackers workshop being carried out the first pressure transducer 9 of detection in real time and for the dust concentration in fireworks and firecrackers workshop being carried out the first sensor of dust concentration 10 of detection in real time;Described workshop condition APU includes cube shaped housing and is arranged on the second electronic circuit board of described cube shaped enclosure interior, described second electronic circuit board is integrated with workshop condition analyzing and processing circuit, described workshop condition analyzing and processing circuit includes the 2nd MSP430 single-chip microcomputer 11 and is the second button cell 12 of each electricity consumption module for power supply in described workshop condition detecting device, and the second crystal oscillating circuit module 13 connected with described 2nd MSP430 single-chip microcomputer 11, second reset circuit module 14, data storage circuitry 15 for data storage, for with ZigBee wireless communication module 5 wireless connections the 2nd ZigBee wireless communication module 16 communicated and the GPRS wireless communication module 19 for being connected in Internet network 18 by GPRS network 17, the input of described 2nd MSP430 single-chip microcomputer 11 is connected to the first button operation circuit module 20 arranged for parameter being arranged in described cube shaped housing outer surface, the outfan of described 2nd MSP430 single-chip microcomputer 11 is connected to sound and light alarm drive circuit module 21 and the first LCDs 22 being arranged in described cube shaped housing outer surface, the outfan of described sound and light alarm drive circuit module 21 is connected to the first audible-visual annunciator 23 being arranged in described cube shaped housing outer surface and for sending sound and light alarm signal when fireworks and firecrackers workshop is dangerous;
Described warehouse monitor terminal includes the first ARM microcontroller module 24 and is the ac-dc converter circuit 25 of each electricity consumption module for power supply in system, and the 3rd crystal oscillator circuit module 26 connected with described first ARM microcontroller module 24,3rd reset circuit module 27, hard-disc storage circuit module 28 and for being connected to the 2nd GPRS wireless communication module 29 in Internet network 18 by GPRS network 17, the input of described first ARM microcontroller module 24 is connected to the second button operation circuit module 30 arranged for parameter, for fireworks and firecrackers warehouse environment image being carried out the first DSP 31 of process in real time, for the humiture in fireworks and firecrackers warehouse being carried out the second digital temperature-humidity sensor 32 of in real time detection and for analogue signal being amplified and the secondary signal pretreatment circuit 33 of Filtering Processing, the input of described first DSP 31 is connected to the first photographic head 34 for compartment environment carries out video capture, second camera 35,3rd photographic head 36 and the 4th photographic head 37, described first photographic head 34, second camera 35,3rd photographic head 36 and the 4th photographic head 37 are laid on four angles of ceiling in described fireworks and firecrackers warehouse respectively;The input of described secondary signal pretreatment circuit 33 is connected to the second Smoke Sensor 39 for the smokescope in fireworks and firecrackers warehouse carries out in real time detection, for the pressure in fireworks and firecrackers warehouse carrying out the second pressure transducer 40 of detection in real time and for the dust concentration in fireworks and firecrackers warehouse carries out the second sensor of dust concentration 41 of detection in real time;The outfan of described first ARM microcontroller module 24 is connected to the second LCDs 43 for showing information and for sending the rising tone light crossing-signal 44 of sound and light alarm signal when the appearance of fireworks and firecrackers warehouse is dangerous, and described second LCDs 43 and rising tone light crossing-signal 44 are all exposed on the outer surface of entry door in described fireworks and firecrackers warehouse;
Described transport vehicle monitor terminal includes the railway carriage environmental detection set being arranged in fireworks and firecrackers transport vehicle carriage and the railway carriage environmental monitoring installation being arranged in fireworks and firecrackers transport vehicle driver's cabin, described railway carriage environmental detection set includes the second DSP 45 and the first voltage conversion circuit module 46 for each electricity consumption module for power supply of described railway carriage environmental detection set, and the 4th crystal oscillating circuit module 47 connected with described second DSP 45,4th reset circuit module 48 and the first CAN communication circuit module 49, the input of described second DSP 45 is connected to Video Decoder 50 and the 3rd digital temperature-humidity sensor 59, the input of described Video Decoder 50 is connected to the 5th photographic head 51 for compartment environment carries out video capture, 6th photographic head 52,7th photographic head 53 and the 8th photographic head 54, described 5th photographic head 51,6th photographic head 52,7th photographic head 53 and the 8th photographic head 54 are laid on four angles of described fireworks and firecrackers transport vehicle carriage inner top respectively;Described railway carriage environmental monitoring installation includes the second ARM microcontroller module 42 and is the second voltage conversion circuit module 55 of each electricity consumption module for power supply in described railway carriage environmental monitoring installation, and the 5th crystal oscillating circuit module 56 connected with described second ARM microcontroller module 42,5th reset circuit module 57, for storing the SD card data storage circuitry module 58 of data, for the second CAN communication circuit module 60 being connected with the first CAN communication circuit module 49 by CAN and communicate and the 3rd GPRS wireless communication module 61 for being connected in Internet network 18 by GPRS network 17, the input of described second ARM microcontroller module 42 is connected to the 3rd button operation circuit module 62 for inputting control signal, the outfan of described second ARM microcontroller module 42 is connected to voice alarm circuit module 63 and for by the 5th photographic head 51,6th photographic head 52, the video phase locked synthesizer 64 of the compartment environment video that Video Composition one that the 7th photographic head 53 and the 8th photographic head 54 collect is complete, the outfan of described video phase locked synthesizer 64 is connected to the 3rd LCDs 65 being carried out display for compartment environment video;Described first voltage conversion circuit module 46 and the second voltage conversion circuit module 55 all connect with the outfan of Vehicular accumulator cell 66.
In the present embodiment, a described MSP430 single-chip microcomputer 1 and the 2nd MSP430 single-chip microcomputer 11 are chip MSP430F169.
In the present embodiment, a described ZigBee wireless communication module 5 and the 2nd ZigBee wireless communication module 16 are all mainly made up of chip CC2530.
In the present embodiment, described first ARM microcontroller module 24 and the second ARM microcontroller module 42 are ARM microcontroller chip LPC2132.
In the present embodiment, described first DSP 31 and the second DSP 45 are DSP chip TMS320C6211.
In the present embodiment, described first digital temperature-humidity sensor 6 and the second digital temperature-humidity sensor 32 are digital temperature-humidity sensor chip SHT11.
In the present embodiment, the first photographic head 34, second camera the 35, the 3rd photographic head the 36, the 4th photographic head the 37, the 5th photographic head the 51, the 6th photographic head the 52, the 7th photographic head 53 and the 8th photographic head 54 are infrared night vision camera.
The potential safety hazard that fireworks and firecrackers can be produced, stores by the present invention, occur in transportation carries out early finding, early early warning, remind staff to take corresponding measure in time, it is to avoid breaking out of fire and explosion accident, improve fireworks and firecrackers produce, storage, transport safety.
The above; it it is only presently preferred embodiments of the present invention; not the present invention is imposed any restrictions, every any simple modification, change and equivalent structure change above example made according to the technology of the present invention essence, all still fall within the protection domain of technical solution of the present invention.
Claims (7)
1. a fireworks and firecrackers produces, storage, transportation safety monitoring system, it is characterized in that: include the workshop monitor terminal being arranged in fireworks and firecrackers workshop, it is arranged on the warehouse monitor terminal in fireworks and firecrackers warehouse, it is arranged on the transport vehicle monitor terminal in fireworks and firecrackers transport vehicle and is arranged on the monitoring server (67) of Surveillance center, described monitoring server (67) is connected to monitoring calculation machine (68) by switch (69), described workshop monitor terminal, warehouse monitor terminal, transport vehicle monitor terminal, monitoring server (67) connects with monitoring calculation machine (68) each through Internet network (18) and communicates;
Described workshop monitor terminal includes the workshop condition detecting device being arranged on fireworks and firecrackers workshop ceiling and the workshop condition APU being arranged on fireworks and firecrackers workshop wall, described workshop condition detecting device includes hemispherical shell and is arranged on the first electronic circuit board within described hemispherical shell, described first electronic circuit board is integrated with workshop condition testing circuit, described workshop condition testing circuit includes a MSP430 single-chip microcomputer (1) and is first button cell (2) of each electricity consumption module for power supply in described workshop condition detecting device, and the first crystal oscillating circuit module (3) connected with a described MSP430 single-chip microcomputer (1), first reset circuit module (4) and a ZigBee wireless communication module (5), the input of a described MSP430 single-chip microcomputer (1) is connected to the first digital temperature-humidity sensor (6) for the humiture in fireworks and firecrackers workshop carries out in real time detection and for analogue signal being amplified and first signal pre-processing circuit (7) of Filtering Processing, the input of described first signal pre-processing circuit (7) is connected to the first Smoke Sensor (8) for the smokescope in fireworks and firecrackers workshop carries out detection in real time, for the pressure in fireworks and firecrackers workshop being carried out first pressure transducer (9) of detection in real time and for the dust concentration in fireworks and firecrackers workshop being carried out first sensor of dust concentration (10) of detection in real time;Described workshop condition APU includes cube shaped housing and is arranged on the second electronic circuit board of described cube shaped enclosure interior, described second electronic circuit board is integrated with workshop condition analyzing and processing circuit, described workshop condition analyzing and processing circuit includes the 2nd MSP430 single-chip microcomputer (11) and is second button cell (12) of each electricity consumption module for power supply in described workshop condition detecting device, and the second crystal oscillating circuit module (13) connected with described 2nd MSP430 single-chip microcomputer (11), second reset circuit module (14), data storage circuitry (15) for data storage, for with ZigBee wireless communication module (5) wireless connections the 2nd ZigBee wireless communication module (16) communicated and the GPRS wireless communication module (19) for being connected in Internet network (18) by GPRS network (17), the input of described 2nd MSP430 single-chip microcomputer (11) is connected to the first button operation circuit module (20) arranged for parameter being arranged in described cube shaped housing outer surface, the outfan of described 2nd MSP430 single-chip microcomputer (11) is connected to sound and light alarm drive circuit module (21) and the first LCDs (22) being arranged in described cube shaped housing outer surface, the outfan of described sound and light alarm drive circuit module (21) is connected to the first audible-visual annunciator (23) being arranged in described cube shaped housing outer surface and for sending sound and light alarm signal when fireworks and firecrackers workshop is dangerous;
Described warehouse monitor terminal includes the first ARM microcontroller module (24) and is the ac-dc converter circuit (25) of each electricity consumption module for power supply in system, and the 3rd crystal oscillator circuit module (26) connected with described first ARM microcontroller module (24), 3rd reset circuit module (27), hard-disc storage circuit module (28) and for being connected to the 2nd GPRS wireless communication module (29) in Internet network (18) by GPRS network (17), the input of described first ARM microcontroller module (24) is connected to the second button operation circuit module (30) arranged for parameter, for fireworks and firecrackers warehouse environment image being carried out first DSP (31) of process in real time, for the humiture in fireworks and firecrackers warehouse being carried out second digital temperature-humidity sensor (32) of in real time detection and for analogue signal being amplified and secondary signal pretreatment circuit (33) of Filtering Processing, the input of described first DSP (31) is connected to the first photographic head (34) for compartment environment carries out video capture, second camera (35), 3rd photographic head (36) and the 4th photographic head (37), described first photographic head (34), second camera (35), 3rd photographic head (36) and the 4th photographic head (37) are laid on four angles of ceiling in described fireworks and firecrackers warehouse respectively;The input of described secondary signal pretreatment circuit (33) is connected to the second Smoke Sensor (39) for the smokescope in fireworks and firecrackers warehouse carries out detection in real time, is used for the pressure in fireworks and firecrackers warehouse is carried out second pressure transducer (40) of detection in real time and for the dust concentration in fireworks and firecrackers warehouse carries out the second sensor of dust concentration (41) detected in real time;The outfan of described first ARM microcontroller module (24) is connected to the second LCDs (43) for showing information and for sending the rising tone light crossing-signal (44) of sound and light alarm signal when the appearance of fireworks and firecrackers warehouse is dangerous, and described second LCDs (43) and rising tone light crossing-signal (44) are all exposed on the outer surface of entry door in described fireworks and firecrackers warehouse;
Described transport vehicle monitor terminal includes the railway carriage environmental detection set being arranged in fireworks and firecrackers transport vehicle carriage and the railway carriage environmental monitoring installation being arranged in fireworks and firecrackers transport vehicle driver's cabin, described railway carriage environmental detection set includes the second DSP (45) and the first voltage conversion circuit module (46) for each electricity consumption module for power supply of described railway carriage environmental detection set, and the 4th crystal oscillating circuit module (47) connected with described second DSP (45), 4th reset circuit module (48) and the first CAN communication circuit module (49), the input of described second DSP (45) is connected to Video Decoder (50) and the 3rd digital temperature-humidity sensor (59), the input of described Video Decoder (50) is connected to the 5th photographic head (51) for compartment environment carries out video capture, 6th photographic head (52), 7th photographic head (53) and the 8th photographic head (54), described 5th photographic head (51), 6th photographic head (52), 7th photographic head (53) and the 8th photographic head (54) are laid on four angles of described fireworks and firecrackers transport vehicle carriage inner top respectively;Described railway carriage environmental monitoring installation includes the second ARM microcontroller module (42) and is the second voltage conversion circuit module (55) of each electricity consumption module for power supply in described railway carriage environmental monitoring installation, and the 5th crystal oscillating circuit module (56) connected with described second ARM microcontroller module (42), 5th reset circuit module (57), for storing SD card data storage circuitry module (58) of data, for the second CAN communication circuit module (60) being connected with the first CAN communication circuit module (49) by CAN and communicate and the 3rd GPRS wireless communication module (61) for being connected in Internet network (18) by GPRS network (17), the input of described second ARM microcontroller module (42) is connected to the 3rd button operation circuit module (62) for inputting control signal, the outfan of described second ARM microcontroller module (42) is connected to voice alarm circuit module (63) and for by the 5th photographic head (51), 6th photographic head (52), the video phase locked synthesizer (64) of the compartment environment video that Video Composition one that the 7th photographic head (53) and the 8th photographic head (54) collect is complete, the outfan of described video phase locked synthesizer (64) is connected to the 3rd LCDs (65) being carried out display for compartment environment video;Described first voltage conversion circuit module (46) and the second voltage conversion circuit module (55) all connect with the outfan of Vehicular accumulator cell (66).
2. fireworks and firecrackers described in claim 1 produce, storage, transportation safety monitoring system, it is characterised in that: a described MSP430 single-chip microcomputer (1) and the 2nd MSP430 single-chip microcomputer (11) are chip MSP430F169.
3. fireworks and firecrackers described in claim 1 produce, storage, transportation safety monitoring system, it is characterised in that: a described ZigBee wireless communication module (5) and the 2nd ZigBee wireless communication module (16) are all mainly made up of chip CC2530.
4. fireworks and firecrackers described in claim 1 produce, storage, transportation safety monitoring system, it is characterised in that: described first ARM microcontroller module (24) and the second ARM microcontroller module (42) are ARM microcontroller chip LPC2132.
5. fireworks and firecrackers described in claim 1 produce, storage, transportation safety monitoring system, it is characterised in that: described first DSP (31) and the second DSP (45) are DSP chip TMS320C6211.
6. fireworks and firecrackers described in claim 1 produce, storage, transportation safety monitoring system, it is characterised in that: described first digital temperature-humidity sensor (6) and the second digital temperature-humidity sensor (32) are digital temperature-humidity sensor chip SHT11.
7. fireworks and firecrackers described in claim 1 produce, storage, transportation safety monitoring system, it is characterised in that: the first photographic head (34), second camera (35), the 3rd photographic head (36), the 4th photographic head (37), the 5th photographic head (51), the 6th photographic head (52), the 7th photographic head (53) and the 8th photographic head (54) are infrared night vision camera.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201410733893.0A CN105717884A (en) | 2014-12-01 | 2014-12-01 | System for monitoring safety of production, storage and conveying processes of fireworks and crackers |
Applications Claiming Priority (1)
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CN201410733893.0A CN105717884A (en) | 2014-12-01 | 2014-12-01 | System for monitoring safety of production, storage and conveying processes of fireworks and crackers |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110111440A (en) * | 2019-05-06 | 2019-08-09 | 常州市瑞德信息科技有限公司 | A kind of safety manufacture supervising information system based on artificial intelligence technology |
CN110149416A (en) * | 2019-06-28 | 2019-08-20 | 浏阳市恒信烟花制造有限公司 | Storage industrial chain monitoring system and method is transported based on digital technology intelligence fireworks production and marketing |
CN114440983A (en) * | 2022-04-06 | 2022-05-06 | 常州市瑞德信息科技有限公司 | Equipment and method for measuring and detecting operation state of firework and firecracker gunpowder mechanical |
-
2014
- 2014-12-01 CN CN201410733893.0A patent/CN105717884A/en active Pending
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110111440A (en) * | 2019-05-06 | 2019-08-09 | 常州市瑞德信息科技有限公司 | A kind of safety manufacture supervising information system based on artificial intelligence technology |
CN110149416A (en) * | 2019-06-28 | 2019-08-20 | 浏阳市恒信烟花制造有限公司 | Storage industrial chain monitoring system and method is transported based on digital technology intelligence fireworks production and marketing |
CN110149416B (en) * | 2019-06-28 | 2023-08-01 | 浏阳市恒信烟花制造有限公司 | Industrial chain monitoring system and method for intelligent firework production, marketing, operation, storage and release based on digital technology |
CN114440983A (en) * | 2022-04-06 | 2022-05-06 | 常州市瑞德信息科技有限公司 | Equipment and method for measuring and detecting operation state of firework and firecracker gunpowder mechanical |
CN114440983B (en) * | 2022-04-06 | 2022-10-25 | 常州市瑞德信息科技有限公司 | Equipment and method for measuring and detecting operation state of firework and firecracker gunpowder mechanical |
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