CN201413564Y

CN201413564Y - Popular earthquake alarm for civil use

Info

Publication number: CN201413564Y
Application number: CN2009201033079U
Authority: CN
Inventors: 高军; 田文理; 仲华雷; 丰光银; 元艳素; 张朋新
Original assignee: Northeastern University Qinhuangdao Branch
Current assignee: Northeastern University Qinhuangdao Branch
Priority date: 2009-06-12
Filing date: 2009-06-12
Publication date: 2010-02-24
Anticipated expiration: 2019-06-12

Abstract

The utility model discloses a popular earthquake alarm for civil use, which comprises a life detection device in wireless connection with a wireless receiving unit. The wireless receiving unit and anearthquake wave detection unit are embedded into a microprocessor; and the microprocessor is respectively connected with an alarming unit, a wireless SOS (Save Our Souls) unit, an emergency indicatorlamp control unit, a voice prompt unit, a voice SOS unit and a main/stand-by power supply. A three-way vibration acceleration sensor is used for detecting P waves (longitudinal waves) and S waves (transversal waves) of the earthquake waves. Emergency lighting is automatically switched on upon detecting an earthquake; and the infrared life detection device provides the life information at the periphery before and after the earthquake, which helps to judge whether people are trapped under collapsed buildings, and then sends out wireless distress calls and voice distress calls, thereby providinghelp for rescue personnel to rapidly position and salvage the trapped people. Moreover, as the main/stand-by power supply is provided, the alarm works as usual even under the circumstance of current failure.

Description

Popular civil earthquake alarm

Technical field

The utility model relates to a kind of alarm, is the popular civil earthquake alarm that is used to detect seismic event specifically, and it provides effectively to the warning of earthquake with to the function of external world emergency.

Background technology

Earthquake is a kind of inevitable disaster in the world today, last year, the Wenchuan violent earthquake of China brought immeasurable loss for the Sichuan people, casualties is very heavy, and causes the reason of casualties to mainly contain two aspects: the one, and before arriving, ruinous earthquake can not in time give alarm; The 2nd, the rescue difficulty is big after the calamity, because of the position of very difficult location trapped personnel, and it in time can not be rescued.

Disclose some easy civil earthquake alarms on the market now, they have mostly adopted contact or contactless magnetic induction switch as detecting element, and sensitivity is lower.Seismic event mainly is divided into two kinds in P ripple (compressional wave) and S ripple (shear wave) by the direction of propagation, and these earthquake Alarms can only detect the seismic event of a direction, are subjected to the vibration influence of extraneous non-earthquake factor bigger.Therefore, the degree of accuracy that these earthquake Alarms detect seismic signal is lower, and rate of false alarm is also higher relatively.Have again, there is the single problem of functions of use in these alarms, have only realized the earthquake alarm function basically, i.e. report to the police to the external world by loudspeaker when earthquake arrives, as for then providing the locating information of trapped personnel, thereby be difficult to apply to the rescue after the shake.

Summary of the invention

In view of above-mentioned present situation, the utility model provides a kind of popular style civilian alarm, possesses the function that can detect compressional wave and shear wave quickly and accurately, reminds the people in the buildings can flee from the safety area rapidly in time before ruinous earthquake arrives.Simultaneously, the infrared life detection element circuit and the wireless rescuing element circuit of alarm configuration can provide great help for the search-and-rescue work after the calamity.

For realizing above-mentioned functions, technical solution of the present utility model is achieved in that popular civilian alarm, has realized the wireless connections of life detecting device and radio receiving unit, and this radio receiving unit and seismic event detecting unit are embedded in the alarm; Microprocessor is connected with power supply etc. with active/standby with alarm unit, wireless rescuing unit, emergent pilot lamp, voice alerting unit, voice help-asking unit respectively.The seismic event detecting unit is passed to microprocessor with its detected earthquake information, and after microprocessor was handled these information by analysis, the control alarm unit sends reported to the police and emergent pilot lamp of unlatching and voice suggestion; After the shake, when life detecting device detects life-information, send a signal to radio receiving unit, microprocessor is by the analysis of information that these are received, control wireless unit and the voice help-asking unit of seeking help, thereby send wireless rescuing signal and voice help-asking signal to the external world.

Have 10 high-precision A in the microprocessor of mentioning in above-mentioned.

According to scheme of the present utility model, related seismic event detection cell circuit comprises: 26,27 pin that 1 and 2 pin of acceleration transducer are connected to single-chip microcomputer are controlled the sensitivity of sensor, can select different precision according to different occasions; The end of 15 pin connecting resistance R10 of acceleration transducer; Another termination capacitor C 3 and ground connection of resistance R 10; Draw 25 pin that a lead connects single-chip microcomputer between resistance R 10 and the capacitor C 3; The end of 14 pin connecting resistance R11 of acceleration transducer, another termination capacitor C 4 and ground connection of R11; Draw 24 pin that a lead connects single-chip microcomputer between resistance R 11 and the capacitor C 4; 13 pin of acceleration transducer are by connecting resistance R12, and another termination capacitor C 5 of R12 is ground connection also; Draw 23 pin that a lead connects single-chip microcomputer between resistance R 12 and the capacitor C 5; 12 pins of acceleration transducer connect 20 pins of single-chip microcomputer, by the mode of operation and the park mode of Single-chip Controlling sensor; 3 pins of acceleration transducer meet power supply VCC, 4 pin ground connection of acceleration transducer; Connect a capacitor C 7 between 3 pin of acceleration transducer and the ground.

The model that acceleration transducer in above-mentioned is selected for use is MMA7260Q.

The model that single-chip microcomputer in above-mentioned is selected for use is STC12C5412AD.

According to scheme of the present utility model, related microprocessor unit circuit comprises: power supply VCC connecting resistance R1 and LED 2 series connection ground connection; Power supply VCC meets button S1, and S1 connects ground connection, wherein R2, C10 parallel connection behind R2, the C10; The 3 pin RST end of S1 one termination single-chip microcomputer; The two ends that 6 and 7 pin of single-chip microcomputer meet crystal oscillator Y1Y1 connect capacitor C 13, capacitor C 14 back ground connection respectively; 28 pin of single-chip microcomputer meet power supply VCC, single-chip microcomputer 14 pin ground connection.

According to scheme of the present utility model, related voice suggestion and voice help-asking element circuit comprise: meet power supply VCC behind the 12 pin connecting resistance R3 of speech chip, and 1 pin ground connection of speech chip, 13,14 pin meet loudspeaker SPK; 15 pin of speech chip meet power supply VCC, and two shunt capacitance C17, C18 ground connection are drawn in the centre; 4 pin of speech chip and 5 pin of single-chip microcomputer link to each other, and 5 pin of speech chip and 17 pin of single-chip microcomputer link to each other, and 24 pin of speech chip and 8 pin of single-chip microcomputer link to each other.

Speech chip in above-mentioned is selected PM50100 for use.

According to scheme of the present utility model, related life-information radio receiving unit circuit comprises: 3 pin of wireless transmitter module meet power supply VCC, 5 pin ground connection of wireless transmitter module, and 10 pin connect button S2 ground connection; 6 of wireless transmitter module is connected with 2 pin with 1 of single-chip microcomputer respectively with 7 pin.

That the wireless transmitter module in above-mentioned is selected for use is 9916B.

According to scheme of the present utility model, related wireless rescuing element circuit comprises: 5 pin of wireless transmitter module meet power supply VCC, 6 pin ground connection, and 1,2,3,4 pin of wireless transmitter module link to each other with 13,15,16,12 pin of single-chip microcomputer respectively.

That the wireless transmitter module in above-mentioned is selected for use is 9902A.

According to scheme of the present utility model, related emergency alarm element circuit comprises: 4 pin ground connection of

relay

1, and 4 pin of relay 1 link to each other the 6 and 4 pin loudspeaker SPEAK taking alarm of relay 1 by diode D2 with the collector of triode Q3; 2 pin of relay 1 meet power supply VCC; The emitter of triode Q3 meets power supply VCC through

resistance R

6, and 3 pin of relay 1 connect the collector of triode Q3; The base stage of triode Q3 connects 21 pin of single-chip microcomputer through resistance R 13.

According to scheme of the present utility model, related emergency light control unit circuit comprises: 3 pin of relay 2 connect the collector of triode Q7; 4 pin ground connection of relay 2 also connect the collector of triode Q7 by diode D6; 2 and 6 pin of relay 2 scoop out the two ends of anxious indicator light switch; The emitter of triode Q7 is connected to power supply VCC by connecting resistance R 7; The base stage of triode Q7 connects 22 pin of single-chip microcomputer through resistance R 14.

According to scheme of the present utility model, related active and standbyly comprise with power circuit: the active/standby power supply automatic switchover circuit of using, external power source enters from W-Vcc, is connected with emitter, the negative pole of diode D1, the resistance R 17 of triode Q1 respectively; The base stage of triode Q1 links to each other by the collector of resistance R 5 and triode Q2, and the base stage of triode Q2 is connected by the collector of resistance R 7 with triode Q1; The base stage of triode Q2 links to each other by the positive pole of resistance R 6 and diode D1, and the positive pole of D1 links to each other and ground connection by the emitter of resistance R 16 and triode Q2; The collector of triode Q1 links to each other by the positive pole of resistance R 9 and standby power supply, and the positive pole of standby power supply links to each other with the negative pole of diode D2; The collector of triode Q1 respectively with the ground connection that links to each other by capacitor C 1, C2, be the input end VCC of alarm from the collector of triode Q1.

In a word, the popular civil earthquake alarm that the utility model provides adopts the three-way vibration acceleration transducer to detect the P ripple (compressional wave) and the S ripple (shear wave) of seismic event simultaneously; The speech chip that embeds not only can send earthquake warning, and has the escape sound prompt function, and how fast the indication people escape, and sends different voice help-asking signals to the external world; The urgent emergency light that is equipped with can be opened when detecting earthquake, automatically for people provide emergency lighting; The life-information on every side that front and back are provided takes place by analyzing the infrared life detecting device that is equipped with in earthquake in earthquake Alarm, judge in the house that collapses whether trapped personnel is arranged, and can send wireless rescuing signal and corresponding voice help-asking signal to the external world, for afterwards rescue worker locatees trapped personnel fast, and in time it is rescued and provide a great help; In addition, the standby power supply of being furnished with is even alarm also can operate as normal under the situation of outage.

Description of drawings

Fig. 1 is the theory diagram of this earthquake alarm;

Fig. 2 is the circuit theory diagrams of seismic event detecting unit among Fig. 1;

Fig. 3 is a microprocessor circuit schematic diagram among Fig. 1;

Fig. 4 is the circuit theory diagrams of voice suggestion and voice help-asking unit among Fig. 1;

Fig. 5 is the circuit theory diagrams of life-information radio receiving unit among Fig. 1;

Fig. 6 is the circuit theory diagrams of wireless rescuing unit among Fig. 1;

Fig. 7 is the circuit theory diagrams of alarm unit among Fig. 1;

Fig. 8 is the circuit theory diagrams of emergent pilot lamp control module among Fig. 1;

Fig. 9 is the active/standby power circuit schematic diagram of using among Fig. 1.

Embodiment

Below in conjunction with the accompanying drawing example, the utility model is done to describe further.

As shown in Figure 1, popular civil earthquake alarm mainly comprises seismic event detection cell circuit 2, radio receiving unit circuit 4, alarm unit circuit 5, wireless rescuing element circuit 6, emergent pilot lamp control unit circuit 7, voice suggestion and voice help-asking element circuit 8 and active/standby with power supply 9 seven parts, and they are connected with microprocessor 1 respectively; Wherein radio receiving unit circuit 4 and life detecting device 3 wireless connections.

Be with 10 high-precision AD in the microprocessor 1 in this example.

Seismic event detection cell circuit as shown in Figure 2,1 pin of 3-axis acceleration sensor, 2 pin are connected the sensitivity of controlling sensor with 26 pin, 27 pin of single-chip microcomputer in this circuit, can select different precision according to different occasions; The end of 15 pin connecting resistance R10 of acceleration transducer, another termination capacitor C 3 and ground connection of R10; Between R10 and C3, draw a lead and connect 25 pin of single-chip microcomputer; The end of 14 pin connecting resistance R11 of acceleration transducer, another termination capacitor C 4 and ground connection of R11; Between resistance R 11 and capacitor C 4, draw 24 pin that a lead connects single-chip microcomputer; 13 pin of acceleration transducer are by connecting resistance R12, and another termination capacitor C 5 of resistance R 12 is ground connection also; Between resistance R 12 and capacitor C 5, draw 23 pin that a lead connects single-chip microcomputer; 12 pin of acceleration transducer connect 20 pin of single-chip microcomputer, by the mode of operation and the park mode of Single-chip Controlling sensor; 3 pin of acceleration transducer meet power supply VCC, and 4 pin ground connection of acceleration transducer connect a capacitor C 7 and strobe between 3 pin and ground.

Microcontroller circuit as shown in Figure 3, power supply VCC connection resistance R 1 is connected to LED 2 positive terminals in this circuit, by LED 2 negative pole end ground connection; VCC connects button S1, button S1 connecting resistance R2, capacitor C 10 back ground connection; Wherein resistance R 2, capacitor C 10 parallel connections; The 3 pin RST end of button S1 one termination single-chip microcomputer; 6 and 7 pin of single-chip microcomputer meet crystal oscillator Y1, and the two ends of Y1 connect capacitor C 13, capacitor C 14 back ground connection respectively; 28 pin of single-chip microcomputer meet power supply VCC, single-chip microcomputer 14 pin ground connection.

Voice suggestion as shown in Figure 4 and voice help-asking element circuit, 12 pin of speech chip are by connecting the 1 pin ground connection that resistance R 3 connects power supply VCC speech chip in this circuit; 13 pin, 14 pin of speech chip meet loudspeaker SPK; 15 pin of speech chip are connected to power supply VCC and middle capacitor C 17, capacitor C 18 ground connection of drawing two parallel connections; 4 pin of speech chip and 5 pin of single-chip microcomputer are connected; 5 pin of speech chip and 17 pin of single-chip microcomputer are connected; 24 pin of speech chip and 8 pin of single-chip microcomputer are connected.

Life-information radio receiving unit circuit as shown in Figure 5,3 pin of wireless transmitter module 9916B meet power supply VCC in this circuit, the 5 pin ground connection of wireless transmitter module 9916B; 10 pin of wireless transmitter module 9916B connect button S2 ground connection; 6 pin of

wireless transmitter module

9916B and 7 pin are connected to 1 pin and 2 pin of single-chip microcomputer respectively.

Wireless rescuing element circuit as shown in Figure 6,5 pin of wireless transmitter module 9902A meet power supply VCC in this circuit; The 6 pin ground connection of wireless transmitter module 9902A; 1,2,3,4 pin of wireless transmitter module 9902A are connected to 13,15,16,12 pin of single-chip microcomputer respectively.

Alarm unit circuit as shown in Figure 7,4 pin, one tunnel ground connection of this circuit relay electrical equipment 1, another road is by connecting the collector that diode D2 is connected to triode Q3; 6 pin of

relay

1 and 4 pin loudspeaker SPEAK taking alarm; 2 pin of relay 1 meet power supply VCC; The emitter of triode Q3 is connected to power supply VCC by connecting resistance R 6; 3 pin of relay 1 connect the collector of triode Q3; The base stage of triode Q3 is by connecting 21 pin that resistance R 13 is connected to single-chip microcomputer.

Emergency light control unit circuit as shown in Figure 8,3 pin of this circuit relay electrical equipment 2 connect the collector of triode Q7, and 4 pin ground connection of relay 2 also connect the collector of triode Q7 by diode D6; 2 pin of

relay

2 and 6 pin scoop out the two ends of anxious indicator light switch; Triode Q7 emitter meet power supply VCC through resistance R 7; The base stage of triode Q7 is by connecting 22 pin that resistance R 14 is connected to single-chip microcomputer.

The active/standby power circuit of using as shown in Figure 9, it can realize the main power supply automatic shifting function.External power source enters emitter, diode D1 negative pole and resistance R 17 1 ends that are connected to triode Q1 respectively from W-Vcc; The base stage of triode Q1 is by connecting the collector that resistance R 5 is connected to triode Q2; The base stage of triode Q2 is by connecting the collector that resistance R 7 is connected to triode Q1; The base stage of triode Q2 connects the positive pole of diode D1 and an end of resistance R 6 respectively; Resistance R 16 other ends are connected with the emitter of triode Q2 and ground connection; The collector of triode Q1 connects the standby power supply positive pole by connecting resistance R 9 one tunnel, passes through minus earth; Resistance R 9 another roads connect diode D2 negative pole; The collector of triode Q1 is respectively by connecting capacitor C 1, C2 ground connection; The collector of triode Q1 is the input end VCC of alarm.

When the earthquake alarm powered up, LED 2 was luminous, showed the earthquake Alarm operate as normal.When the seismic event detecting unit of alarm detects earthquake, microprocessor is by analyzing, handle the seismic data that collects, the control alarm unit sends high-decibel to the external world and reports to the police, and open emergent pilot lamp, in time evacuate the masses, the people that are in during for earthquake in flurried save valuable time.After the shake, when alarm receives after infrared life detection module collects life-information in the building of collapsing, can opening voice emergency module and to external world's transmission wireless rescuing signal, make extraneous rescue worker locate trapped personnel fast, in time they are rescued.When the user need remove warning, the S1 button of the device that only need push for emergency, the utility model earthquake Alarm will stop to report to the police, and recovers normal mode of operation.Alarm adopts the active/standby power supply power supply mode of using, even also can operate as normal under the situation of external world's outage.

Claims

1. popular civilian alarm is characterized in that, comprising: the wireless connections of life detecting device (3) and radio receiving unit (4), and this radio receiving unit (4) and seismic event detecting unit (2) are embedded in the alarm (1); Microprocessor (1) is connected with power supply (9) with active/standby with alarm unit (5), wireless rescuing unit (6), emergent pilot lamp control module (7), voice alerting unit (8), voice help-asking unit (8) respectively.

2. by the civilian alarm of the described popular style of claim 1, it is characterized in that described seismic event detection cell circuit, 26 pin of 1 pin of 3-axis acceleration sensor, 2 pin and single-chip microcomputer, 27 pin in this circuit; The end of 15 pin connecting resistance R10 of acceleration transducer, another termination capacitor C 3 and ground connection of R10; Between R10 and C3, draw a lead and connect 25 pin of single-chip microcomputer; The end of 14 pin connecting resistance R11 of acceleration transducer, another termination capacitor C 4 and ground connection of R11; Between resistance R 11 and capacitor C 4, draw 24 pin that a lead connects single-chip microcomputer; 13 pin of acceleration transducer are by connecting resistance R12, and another termination capacitor C 5 of resistance R 12 is ground connection also; Between resistance R 12 and capacitor C 5, draw 23 pin that a lead connects single-chip microcomputer; 12 pin of acceleration transducer connect 20 pin of single-chip microcomputer, by the mode of operation and the park mode of Single-chip Controlling sensor; 3 pin of acceleration transducer meet power supply VCC, and 4 pin ground connection of acceleration transducer connect a capacitor C 7 between 3 pin and ground.

3. by the civilian alarm of the described popular style of claim 1, it is characterized in that described microcontroller circuit comprises: the power supply VCC of single-chip microcomputer is with resistance R 1 and LED 2 series connection ground connection; Power supply VCC meets button S1, and S1 connects ground connection behind R2, the C10, wherein the 3 pin RST end of R2, C10 S1 one termination single-chip microcomputer in parallel; 6 and 7 pin of single-chip microcomputer meet crystal oscillator Y1; The two ends of Y1 connect capacitor C 13, capacitor C 14 back ground connection respectively; 28 pin of single-chip microcomputer meet power supply VCC, single-chip microcomputer 14 pin ground connection.

4. by the civilian alarm of the described popular style of claim 1, it is characterized in that, described related voice suggestion and voice help-asking element circuit comprises: meet power supply VCC behind the 12 pin connecting resistance R3 of speech chip, and 1 pin ground connection of speech chip, 13,14 pin meet loudspeaker SPK; 15 pin of speech chip meet power supply VCC, and two shunt capacitance C17, C18 ground connection are drawn in the centre; 4 pin of speech chip and 5 pin of single-chip microcomputer link to each other, and 5 pin of speech chip and 17 pin of single-chip microcomputer link to each other, and 24 pin of speech chip and 8 pin of single-chip microcomputer link to each other.

5. by the civilian alarm of the described popular style of claim 1, it is characterized in that described life-information radio receiving unit circuit comprises: 3 pin of wireless receiving module meet power supply VCC, 5 pin ground connection of wireless transmitter module, 10 pin connect button S2 ground connection; 6 of wireless transmitter module is connected with 2 pin with 1 of single-chip microcomputer respectively with 7 pin.

6. by the civilian alarm of the described popular style of claim 1, it is characterized in that, described wireless rescuing element circuit comprises: 5 pin of wireless transmitter module meet power supply VCC, 6 pin ground connection, and 1,2,3,4 pin of wireless transmitter module link to each other with 13,15,16,12 pin of single-chip microcomputer respectively.

7. by the civilian alarm of the described popular style of claim 1, it is characterized in that, described alarm unit circuit comprises: 4 pin ground connection of relay 1, and 4 pin of relay 1 link to each other the 6 and 4 pin loudspeaker SPEAK taking alarm of relay 1 by diode D2 with the collector of triode Q3; 2 pin of relay 1 meet power supply VCC; The emitter of triode Q3 meets power supply VCC through resistance R 6, and 3 pin of relay 1 connect the collector of triode Q3; The base stage of triode Q3 connects 21 pin of single-chip microcomputer through resistance R 13.

8. by the civilian alarm of the described popular style of claim 1, it is characterized in that described emergency lighting lamp control circuit comprises: 3 pin of relay 2 connect the collector of triode Q7; 4 pin ground connection of relay 2 also connect the collector of triode Q7 by diode D6; 2 and 6 pin of relay 2 scoop out the two ends of anxious indicator light switch; The emitter of triode Q7 is connected to power supply VCC by connecting resistance R 7; The base stage of triode Q7 connects 22 pin of single-chip microcomputer through resistance R 14.

9. by the civilian alarm of the described popular style of claim 1, it is characterized in that, described active/standbyly comprise with power circuit: the active/standby power supply automatic switchover circuit of using, external power source enters from W-Vcc, is connected with emitter, the negative pole of diode D1, the resistance R 17 of triode Q1 respectively; The base stage of triode Q1 links to each other by the collector of resistance R 5 and triode Q2, and the base stage of triode Q2 is connected by the collector of resistance R 7 with triode Q1; The base stage of triode Q2 links to each other by the positive pole of resistance R 6 and diode D1, and the positive pole of D1 links to each other and ground connection by the emitter of resistance R 16 and triode Q2; The collector of triode Q1 links to each other by the positive pole of resistance R 9 and standby power supply, and the positive pole of standby power supply links to each other with the negative pole of diode D2; The collector of triode Q1 respectively with the ground connection that links to each other by capacitor C 1, C2, be the input end VCC of alarm from the collector of triode Q1.