CN204680153U - A kind of multi-functional location monitor device - Google Patents

Abstract

The utility model discloses a kind of multi-functional location monitor device, comprise microcontroller, power module and the wireless communication module connected with microcontroller and data-carrier store, the input end of microcontroller is connected to compass sensor, GPS locating module, 3-axis acceleration sensor, baroceptor and magnetic field detection module, and the output terminal of microcontroller is connected to display module, flashing light alarm module and sound alarm module; Magnetic field detection module comprises the probe head of electromagnetic sensor, the first operational amplification circuit, the second operational amplification circuit and the multipath A/D converter that connect successively, the output terminal of multipath A/D converter connects with the input end of microcontroller, and the input end of multipath A/D converter is connected to blood pressure instrument, blood glucose meter and temperature monitor.The utility model circuit structure is simple, reasonable in design, and realization is convenient and cost is low, and can realize accurate location, functional diversities and monitor in real time, result of use is good, is convenient to promote the use of.

Description

A kind of multi-functional location monitor device

Technical field

The utility model belongs to monitoring technology field, is specifically related to a kind of multi-functional location monitor device.

Background technology

Now, the safety problem of children and old man's trip is the problem that each family pays close attention to, in recent years, old man without autonomous monitoring ability continues to rise, and this kind of old man there will be the symptoms such as memory disorders, aphasia, n-back test obstacle, and children loss phenomenon also happens occasionally, and this kind of the elderly and young children are once wander away, deliverer is difficult to know its identity information, thus cannot be sent back to, thus brings many misfortune to associated home.For this situation, investigated a kind of tracking means in prior art, this tracking means mainly comprises mobile communication module and the locating module connected with mobile communication module respectively and button inputting circuits.Concrete principle of work is: the children or the old man that wear this tracking means input the telephone number of household by button inputting circuits, now the telephone number of this household stores by mobile communication module, locating module passes through satnav, the locating information of the children or old man that wear this tracking means is sent to mobile communication module, the locating information of the children received or old man is sent on the telephone number of this household by mobile communication module automatically, thus makes household can be known the positional information of these children or old man by note.But above-mentioned tracking means only has positioning function, and wear the children of this tracking means or old man needs the telephone number by inputting household could realize seeking help, function singleness, and the real-time monitoring of household to children or old man cannot be realized, be not easy to promote the use of.

Utility model content

Technical problem to be solved in the utility model is for above-mentioned deficiency of the prior art, a kind of multi-functional location monitor device is provided, its circuit structure is simple, reasonable in design, realization is convenient and cost is low, can realize accurate location, functional diversities and monitor in real time, result of use is good, is convenient to promote the use of.

For solving the problems of the technologies described above, the technical solution adopted in the utility model is: a kind of multi-functional location monitor device, it is characterized in that: comprise microcontroller, for the power module of each electricity consumption module for power supply, and to connect with microcontroller and to carry out the data-carrier store that stores for the Signal transmissions that received by microcontroller to the wireless communication module of Surveillance center and the signal that is used for microcontroller to receive, the input end of described microcontroller is connected to compass sensor, GPS locating module, 3-axis acceleration sensor, for gather the elevation information of user present position baroceptor and for gathering ambient magnetic field strength signal and the ambient magnetic field strength signal of collection being carried out the magnetic field detection module that processes, the output terminal of described microcontroller is connected to display module, flashing light alarm module and sound alarm module, described power module is that the compass sensor circuit of powering is in series with the first switch, described magnetic field detection module comprises the probe head of electromagnetic sensor, the first operational amplification circuit, the second operational amplification circuit and the multipath A/D converter that connect successively, the output terminal of described multipath A/D converter connects with the input end of described microcontroller, described power module is that the probe head of electromagnetic sensor circuit of powering is in series with second switch, and the input end of described multipath A/D converter is connected to blood pressure instrument, blood glucose meter and temperature monitor.

Above-mentioned one multi-functional location monitor device, is characterized in that: described microcontroller comprises single-chip microcomputer STC12C5A60S2 and the crystal oscillating circuit that connects with described single-chip microcomputer STC12C5A60S2 and reset circuit.

Above-mentioned one multi-functional location monitor device, it is characterized in that: described compass sensor comprises chip MMC2120,10th pin of described chip MMC2120 connects with the 40th pin of described single-chip microcomputer STC12C5A60S2, and the 9th pin of described chip MMC2120 connects with the 41st pin of described single-chip microcomputer STC12C5A60S2.

Above-mentioned one multi-functional location monitor device, it is characterized in that: described GPS locating module comprises chip NEO-5Q, 20th pin of described chip NEO-5Q connects with the 7th pin of described single-chip microcomputer STC12C5A60S2, and the 21st pin of described chip NEO-5Q connects with the 5th pin of described single-chip microcomputer STC12C5A60S2.

Above-mentioned one multi-functional location monitor device, it is characterized in that: described 3-axis acceleration sensor comprises chip ADXL345,13rd pin of described chip ADXL345 connects with the 20th pin of described single-chip microcomputer STC12C5A60S2, and the 14th pin of described chip ADXL345 connects with the 19th pin of described single-chip microcomputer STC12C5A60S2.

Above-mentioned one multi-functional location monitor device, it is characterized in that: described baroceptor comprises chip MS5611,7th pin of described chip MS5611 connects with the 18th pin of described single-chip microcomputer STC12C5A60S2, and the 8th pin of described chip MS5611 connects with the 21st pin of described single-chip microcomputer STC12C5A60S2.

Above-mentioned one multi-functional location monitor device, it is characterized in that: described probe head of electromagnetic sensor comprises chip EP330, described first operational amplification circuit comprises chip AD620, described second operational amplification circuit comprises chip OP07, described multipath A/D converter comprises chip ADC0809, the positive output end of described chip EP330+connected with the 3rd pin of described chip AD620 by resistance R24, the negative output terminal of described chip EP330-connected with the 2nd pin of described chip AD620 by resistance R23, 6th pin of described chip AD620 is connected with the 2nd pin of described chip OP07 by the electric capacity C12 of series connection mutually and resistance R28, 3rd pin of described chip OP07 connects with the output terminal of power module, 6th pin of described chip OP07 is connected with the 1st pin of described chip ADC0809 by electric capacity C13, 8th pin of described chip ADC0809, 14th pin, 15th pin, 17th pin, 18th pin, 19th pin, 20th pin and the 21st pin respectively with the 37th pin of described single-chip microcomputer STC12C5A60S2, 36th pin, 35th pin, 34th pin, 33rd pin, 32nd pin, 31st pin and the 30th pin connect, the 7th pin of described chip ADC0809, 23rd pin, 24th pin and the 25th pin respectively with the 8th pin of described single-chip microcomputer STC12C5A60S2, 9th pin, 10th pin and the 11st pin connect.

Above-mentioned one multi-functional location monitor device, it is characterized in that: described wireless communication module comprises chip CC1100, 20th pin of described chip CC1100 connects with the 1st pin of described STC12C5A60S2, 2nd pin of described chip CC1100 connects with the 2nd pin of described STC12C5A60S2, 1st pin of described chip CC1100 connects with the 3rd pin of described STC12C5A60S2, 7th pin of described chip CC1100 connects with the 44th pin of described STC12C5A60S2, 3rd pin of described chip CC1100 connects with the 12nd pin of described STC12C5A60S2, 6th pin of described chip CC1100 connects with the 13rd pin of described STC12C5A60S2.

Above-mentioned one multi-functional location monitor device, it is characterized in that: described flashing light alarm module comprises light emitting diode D1 and resistance R70, the anode of described light emitting diode D1 is connected with the output terminal of power module by resistance R70, and the negative electrode of described light emitting diode D1 connects with the 23rd pin of described single-chip microcomputer STC12C5A60S2; Described audible alarm module comprises PNP triode Q1, resistance R22 and hummer K1, the base stage of described PNP triode Q1 is connected with the 24th pin of described single-chip microcomputer STC12C5A60S2 by resistance R22, the collector of described PNP triode Q1 connects with the power end of described hummer K1, and the emitter of described PNP triode Q1 connects with the output terminal of power module.

Above-mentioned one multi-functional location monitor device, it is characterized in that: described data-carrier store comprises chip AT24C02,5th pin of described chip AT24C02 connects with the 43rd pin of described single-chip microcomputer STC12C5A60S2, and the 6th pin of described chip AT24C02 connects with the 6th pin of described single-chip microcomputer STC12C5A60S2.

The utility model compared with prior art has the following advantages:

1, the utility model circuit structure is simple, reasonable in design, and realization is convenient and cost is low.

2, the utility model can realize accurate location by the combination of GPS locating module and baroceptor.

3, the utility model adopts the first Switch Controller compass sensor function to control, and when user needs to obtain directional information, user closes the first switch, makes compass sensor work, thus can provide great convenience for the user of sense of direction difference; And the utility model adopts second switch to control magnetic field detection function, if user is pregnant woman, then realize the detection to surrounding environment magnetic field intensity by closed second switch, when the magnetic field intensity of surrounding environment is greater than preset value, then remind pregnant woman away from the stronger place of radiation by flash alarm circuit and sound warning circuit, practical function variation.

4, the user profile received can be transferred to Surveillance center by wireless communication module by microcontroller of the present utility model, realizes monitoring in real time.

5, the utility model result of use is good, is convenient to promote the use of.

In sum, the utility model circuit structure is simple, reasonable in design, and realization is convenient and cost is low, and can realize accurate location, functional diversities and monitor in real time, result of use is good, is convenient to promote the use of.

Below by drawings and Examples, the technical solution of the utility model is described in further detail.

Accompanying drawing explanation

Fig. 1 is schematic block circuit diagram of the present utility model.

Fig. 2 is the connecting circuit schematic diagram of the utility model microcontroller, flash alarm circuit and sound warning circuit.

Fig. 3 is the circuit theory diagrams of the utility model compass sensor.

Fig. 4 is the circuit theory diagrams of the utility model GPS locating module.

Fig. 5 is the circuit theory diagrams of the utility model 3-axis acceleration sensor.

Fig. 6 is the circuit theory diagrams of the utility model baroceptor.

Fig. 7 is the circuit theory diagrams of the utility model electromagnetic detection circuitry.

Fig. 8 is the circuit theory diagrams of the utility model wireless communication module.

Fig. 9 is the circuit theory diagrams of the utility model data-carrier store.

Description of reference numerals:

1-microcontroller; 2-power module; 3-wireless communication module;

4-data-carrier store; 5-compass sensor; 6-GPS locating module;

7-3-axis acceleration sensor; 8-baroceptor; 9-magnetic field detection module;

9-1-probe head of electromagnetic sensor; 9-2-the first operational amplification circuit;

9-3-the second operational amplification circuit; 9-4-multipath A/D converter;

10-display module; 11-flashing light alarm module;

12-audible alarm module; 13-blood pressure instrument; 14-blood glucose meter;

15-temperature monitor; 16-the first switch; 17-second switch.

Embodiment

As shown in Figure 1, the utility model comprises microcontroller 1, for the power module 2 of each electricity consumption module for power supply, and to connect with microcontroller 1 and to carry out the data-carrier store 4 that stores for the Signal transmissions that received by microcontroller 1 to the wireless communication module 3 of Surveillance center and the signal that is used for microcontroller 1 to receive, the input end of described microcontroller 1 is connected to compass sensor 5, GPS locating module 6, 3-axis acceleration sensor 7, for gather the elevation information of user present position baroceptor 8 and for gathering ambient magnetic field strength signal and the ambient magnetic field strength signal of collection being carried out the magnetic field detection module 9 that processes, the output terminal of described microcontroller 1 is connected to display module 10, flashing light alarm module 11 and sound alarm module 12, described power module 2 be compass sensor 5 power circuit on be in series with the first switch 16, described magnetic field detection module 9 comprises the probe head of electromagnetic sensor 9-1, the first operational amplification circuit 9-2, the second operational amplification circuit 9-3 and multipath A/D converter 9-4 that connect successively, the output terminal of described multipath A/D converter 9-4 connects with the input end of described microcontroller 1, the circuit that described power module 2 is powered for probe head of electromagnetic sensor 9-1 is in series with second switch 17, and the input end of described multipath A/D converter 9-4 is connected to blood pressure instrument 13, blood glucose meter 14 and temperature monitor 15.

Wherein, display module 10 is LCD 12864 LCDs, or is LCD 1206 LCDs.

As shown in Figure 2, in the present embodiment, described microcontroller 1 comprises single-chip microcomputer STC12C5A60S2 and the crystal oscillating circuit that connects with described single-chip microcomputer STC12C5A60S2 and reset circuit.

During actual use, described crystal oscillating circuit is made up of crystal oscillator Y1, electric capacity C2 and electric capacity C3, one end of described crystal oscillator Y1 and one end of electric capacity C2 all connect with the 15th pin of described single-chip microcomputer STC12C5A60S2, the other end of described crystal oscillator Y1 and one end of electric capacity C3 all connect with the 14th pin of described single-chip microcomputer STC12C5A60S2, the other end of described electric capacity C2 and the equal ground connection of the other end of described electric capacity C3; Described reset circuit is made up of resistance R1 and electric capacity C1, one end of described resistance R1 and one end of electric capacity C1 all connect with the 4th pin of described single-chip microcomputer STC12C5A60S2, the other end of described electric capacity C1 connects with the output terminal of power module 2, the other end ground connection of described resistance R1.

It should be noted that, described microcontroller 1 can also be the single-chip microcomputer of ARM microcontroller or other models, does not limit this.

As shown in Figure 3, described compass sensor 5 comprises chip MMC2120,10th pin of described chip MMC2120 connects with the 40th pin of described single-chip microcomputer STC12C5A60S2, and the 9th pin of described chip MMC2120 connects with the 41st pin of described single-chip microcomputer STC12C5A60S2.

During actual use, 2nd pin of described chip MMC2120 is by electric capacity C8 ground connection, 3rd pin of described chip MMC2120 is divided into two-way, one tunnel connects with the output terminal of power module 2, separately lead up to electric capacity C7 ground connection, 4th pin of described chip MMC2120 is connected with the 5th pin of described chip MMC2120 by electric capacity C9, 7th pin of described chip MMC2120 is by electric capacity C10 ground connection, 9th pin of described chip MMC2120 is also connected with the output terminal of power module 2 by resistance R21, 10th pin of described chip MMC2120 is also connected with the output terminal of power module 2 by resistance R20, the 6th pin ground connection of described chip MMC2120.

As shown in Figure 4, described GPS locating module 6 comprises chip NEO-5Q, 20th pin of described chip NEO-5Q connects with the 7th pin of described single-chip microcomputer STC12C5A60S2, and the 21st pin of described chip NEO-5Q connects with the 5th pin of described single-chip microcomputer STC12C5A60S2.

During actual use, 8th pin of described chip NEO-5Q is connected with the signal output part of antenna T1 by the resistance R7 of series connection mutually and inductance L 1, 11st pin of described chip NEO-5Q also connects with the signal output part of antenna T1, 14th pin of described chip NEO-5Q is by resistance R6 ground connection, 15th pin of described chip NEO-5Q is by resistance R5 ground connection, 16th pin of described chip NEO-5Q is by resistance R4 ground connection, 18th pin of described chip NEO-5Q is connected with the output terminal of power module 2 by resistance R3, 19th pin of described chip NEO-5Q is connected with the output terminal of power module 2 by resistance R2, 23rd pin of described chip NEO-5Q connects with the output terminal of power module 2, 10th pin of described chip NEO-5Q, 12nd pin, 13rd pin and the equal ground connection of the 24th pin.

As shown in Figure 5, described 3-axis acceleration sensor 7 comprises chip ADXL345,13rd pin of described chip ADXL345 connects with the 20th pin of described single-chip microcomputer STC12C5A60S2, and the 14th pin of described chip ADXL345 connects with the 19th pin of described single-chip microcomputer STC12C5A60S2.

During actual use, 1st pin of described chip ADXL345 is divided into two-way, one tunnel connects with the output terminal of power module 2, separately lead up to electric capacity C15 parallel with one another and electric capacity C16 ground connection, 13rd pin of described chip ADXL345 is also connected with the output terminal of power module 2 by resistance R2a, 14th pin of described chip ADXL345 is also connected with the output terminal of power module 2 by resistance R1a, 2nd pin of described chip ADXL345, 3rd pin, 4th pin, 5th pin, 10th pin, 11st pin and the equal ground connection of the 12nd pin, 6th pin of described chip ADXL345 connects with the 1st pin of described chip ADXL345, 7th pin of described chip ADXL345 connects with the output terminal of power module 2.

As shown in Figure 6, described baroceptor 8 comprises chip MS5611,7th pin of described chip MS5611 connects with the 18th pin of described single-chip microcomputer STC12C5A60S2, and the 8th pin of described chip MS5611 connects with the 21st pin of described single-chip microcomputer STC12C5A60S2.

During actual use, 1st pin of described chip MS5611 is divided into two-way, one tunnel connects with the output terminal of power module 2, separately lead up to electric capacity C4 parallel with one another and electric capacity C5 ground connection, 2nd pin of described chip MS5611 connects with the 1st pin of described chip MS5611,7th pin of described chip MS5611 is also connected with the output terminal of power module 2 by resistance R31, and the 8th pin of described chip MS5611 is also connected with the output terminal of power module 2 by resistance R30.

As shown in Figure 7, described probe head of electromagnetic sensor 9-1 comprises chip EP330, described first operational amplification circuit 9-2 comprises chip AD620, described second operational amplification circuit 9-3 comprises chip OP07, described multipath A/D converter 9-4 comprises chip ADC0809, the positive output end of described chip EP330+connected with the 3rd pin of described chip AD620 by resistance R24, the negative output terminal of described chip EP330-connected with the 2nd pin of described chip AD620 by resistance R23, 6th pin of described chip AD620 is connected with the 2nd pin of described chip OP07 by the electric capacity C12 of series connection mutually and resistance R28, 3rd pin of described chip OP07 connects with the output terminal of power module 2, 6th pin of described chip OP07 is connected with the 1st pin of described chip ADC0809 by electric capacity C13, 8th pin of described chip ADC0809, 14th pin, 15th pin, 17th pin, 18th pin, 19th pin, 20th pin and the 21st pin respectively with the 37th pin of described single-chip microcomputer STC12C5A60S2, 36th pin, 35th pin, 34th pin, 33rd pin, 32nd pin, 31st pin and the 30th pin connect, the 7th pin of described chip ADC0809, 23rd pin, 24th pin and the 25th pin respectively with the 8th pin of described single-chip microcomputer STC12C5A60S2, 9th pin, 10th pin and the 11st pin connect.

During actual use, 2nd pin of described chip AD620 also connects with one end of resistance R25 and one end of electric capacity C11 respectively, the other end ground connection of resistance R25, the other end of electric capacity C11 connects with one end of resistance R26, the other end ground connection of resistance R26,1st pin of described chip AD620 is connected with the 8th pin of described chip AD620 by resistance R27, and the 7th pin of described chip AD620 connects with the output terminal of power module 2, the 4th pin ground connection of described chip AD620.

During actual use, the 2nd pin of described chip OP07 is also connected with the 6th pin of described chip OP07 by resistance R80, and the 7th pin of described chip OP07 connects with the output terminal of power module 2, the 4th pin ground connection of described chip OP07.

During actual use, 1st pin of described chip ADC0809 is also by resistance R29 parallel with one another and electric capacity C14 ground connection, 6th pin of described chip ADC0809 connects with the 22nd pin of described chip ADC0809, the 13rd pin of described chip ADC0809 and the 16th pin ground connection.

As shown in Figure 8, described wireless communication module 3 comprises chip CC1100, 20th pin of described chip CC1100 connects with the 1st pin of described STC12C5A60S2, 2nd pin of described chip CC1100 connects with the 2nd pin of described STC12C5A60S2, 1st pin of described chip CC1100 connects with the 3rd pin of described STC12C5A60S2, 7th pin of described chip CC1100 connects with the 44th pin of described STC12C5A60S2, 3rd pin of described chip CC1100 connects with the 12nd pin of described STC12C5A60S2, 6th pin of described chip CC1100 connects with the 13rd pin of described STC12C5A60S2.

During actual use, 8th pin of described chip CC1100 connects with one end of crystal oscillator Y2 and one end of electric capacity C81 respectively, 10th pin of described chip CC1100 connects with the other end of crystal oscillator Y2 and one end of electric capacity C101 respectively, the other end of electric capacity C81 and the equal ground connection of the other end of electric capacity C101, 12nd pin of described chip CC1100 is divided into two-way, lead up to the inductance L 121 of mutually series connection and electric capacity C124 ground connection, another road connects with one end of electric capacity C121, the other end of electric capacity C121 connects with one end of inductance L 122, the other end of inductance L 122 is divided into two-way, lead up to electric capacity C122 ground connection, electric capacity C125 of separately leading up to connects with the signal output part of antenna T2, 13rd pin of described chip CC1100 is divided into two-way, lead up to electric capacity C131 ground connection, another road connects with one end of inductance L 131, the other end of inductance L 131 connects with one end of inductance L 122, 4th pin of described chip CC1100, 11st pin, 14th pin, 15th pin and the 18th pin all connect with the output terminal of power module 2, 17th pin of described chip CC1100 is by resistance R171 ground connection, 5th pin of described chip CC1100 is by electric capacity C51 ground connection, 16th pin of described chip CC1100 and the equal ground connection of the 19th pin.

It should be noted that, wireless communication module 3 of the present utility model can also be bluetooth module, or, the gsm module of 2G network, or the CDMA2000 etc. of 3G network, does not limit this.

As shown in Figure 2, described flashing light alarm module 11 comprises light emitting diode D1 and resistance R70, the anode of described light emitting diode D1 is connected with the output terminal of power module 2 by resistance R70, and the negative electrode of described light emitting diode D1 connects with the 23rd pin of described single-chip microcomputer STC12C5A60S2.

As shown in Figure 2, described audible alarm module 12 comprises PNP triode Q1, resistance R22 and hummer K1, the base stage of described PNP triode Q1 is connected with the 24th pin of described single-chip microcomputer STC12C5A60S2 by resistance R22, the collector of described PNP triode Q1 connects with the power end of described hummer K1, and the emitter of described PNP triode Q1 connects with the output terminal of power module 2.

As shown in Figure 9, described data-carrier store 4 comprises chip AT24C02,5th pin of described chip AT24C02 connects with the 43rd pin of described single-chip microcomputer STC12C5A60S2, and the 6th pin of described chip AT24C02 connects with the 6th pin of described single-chip microcomputer STC12C5A60S2.

Actual when using, the 8th pin of described chip AT24C02 connects with the output terminal of power module 2, the 1st pin of described chip AT24C02, the 2nd pin, the 3rd pin, the 4th pin and the equal ground connection of the 7th pin.

It should be noted that, Surveillance center of the present utility model can be mobile phone, panel computer or computing machine.

It should be noted that, the multi-functional location monitor device that the utility model provides can be made as bracelet or bangle, is convenient to user and carries.

The course of work of the present utility model is: GPS locating module 6 is by the longitude information of the user present position of Real-time Collection, latitude information and elevation information are sent to microcontroller 1, the elevation information of the user present position of Real-time Collection is also sent to microcontroller 1 by baroceptor 8 simultaneously, the longitude information of the user present position that GPS locating module 6 is sent by microcontroller 1, latitude information and elevation information, and the elevation information of the user present position of baroceptor 8 transmission all transfers to Surveillance center by wireless communication module 3, to make Surveillance center, the position residing for user is monitored in real time, like this, Surveillance center both can receive the elevation information gathered by GPS locating module 6, the elevation information that baroceptor 8 gathers can be received again, can prevent when the elevation information that GPS locating module 6 gathers is inaccurate, the elevation information that can be gathered by baroceptor 8 realizes the accurate location to user, when user is in motion process, this multi-functional location monitor device shakes, and causes the data of collection accurate not, now adopts 3-axis acceleration sensor 7 to play Anti-Jamming, in addition, when user needs to differentiate direction, then closed first switch 16, compass sensor 5 is made to gather directional information, and the directional information of collection is sent to microcontroller 1, the directional information received is shown by display module 10 by microcontroller 1, the direction facilitating user to know to advance, user can also be detected by the closed magnetic field intensity of probe head of electromagnetic sensor 9-1 to surrounding environment that make controlling second switch 17, and be sent to multipath A/D converter 9-4 after the magnetic field intensity of the surrounding environment detected being amplified by the first operational amplification circuit 9-2 and the second operational amplification circuit 9-3, carry out after analog to digital conversion through multipath A/D converter 9-4, digital magnetic field intensity signal is sent in microcontroller 1, the digital magnetic field intensity signal received and the magnetic field intensity signal preset compare by microcontroller 1, when the digital magnetic field intensity signal determining to receive is greater than the magnetic field intensity signal preset, then reported to the police by flashing light alarm module 11 and sound alarm module 12, reminding user is away from the larger environment of magnetic field intensity, and the digital magnetic field intensity signal received is shown by display module 10, facilitate customer analysis, when user needs Measure blood pressure, then the power supply of blood pressure instrument 13 is connected, blood pressure instrument 13 is worked, and is carried out being sent to microcontroller 1 after analog to digital conversion through multipath A/D converter 9-4 by the pressure value of measurement, the pressure value received is shown by display module 10 by microcontroller 1, when user needs take temperature, then the power supply of temperature taking instrument 15 is connected, temperature taking instrument 15 is worked, and the body temperature value of measurement is carried out being sent to microcontroller 1 after analog to digital conversion through multipath A/D converter 9-4, the body temperature value received is shown by display module 10 by microcontroller 1, when user needs to measure blood sugar, then the power supply of blood glucose meter 14 is connected, blood glucose meter 14 is worked, and is carried out being sent to microcontroller 1 after analog to digital conversion through multipath A/D converter 9-4 by the blood glucose value of measurement, the blood sugar received is shown by display module 10 by microcontroller 1, in addition, the directional information received, pressure value, blood glucose value, body temperature value and magnetic field intensity information etc. can also be transferred to Surveillance center by wireless communication module 3 by microcontroller 1, and Surveillance center is monitored in real time to this user.

The above; it is only preferred embodiment of the present utility model; not the utility model is imposed any restrictions; every above embodiment is done according to the utility model technical spirit any simple modification, change and equivalent structure change, all still belong in the protection domain of technical solutions of the utility model.

Claims (10)

1. a multi-functional location monitor device, it is characterized in that: comprise microcontroller (1) and the power module (2) for each electricity consumption module for power supply, and to connect with microcontroller (1) and Signal transmissions for being received by microcontroller (1) carries out the data-carrier store (4) that stores to the wireless communication module (3) of Surveillance center and the signal for being received by microcontroller (1), the input end of described microcontroller (1) is connected to compass sensor (5), GPS locating module (6), 3-axis acceleration sensor (7), for gather the elevation information of user present position baroceptor (8) and for gathering ambient magnetic field strength signal and the ambient magnetic field strength signal of collection being carried out the magnetic field detection module (9) that processes, the output terminal of described microcontroller (1) is connected to display module (10), flashing light alarm module (11) and sound alarm module (12), the circuit that described power module (2) is powered for compass sensor (5) is in series with the first switch (16), described magnetic field detection module (9) comprises the probe head of electromagnetic sensor (9-1) connected successively, first operational amplification circuit (9-2), second operational amplification circuit (9-3) and multipath A/D converter (9-4), the output terminal of described multipath A/D converter (9-4) connects with the input end of described microcontroller (1), the circuit that described power module (2) is powered for probe head of electromagnetic sensor (9-1) is in series with second switch (17), the input end of described multipath A/D converter (9-4) is connected to blood pressure instrument (13), blood glucose meter (14) and temperature monitor (15).

2. according to multi-functional location according to claim 1 monitor device, it is characterized in that: described microcontroller (1) comprises single-chip microcomputer STC12C5A60S2 and the crystal oscillating circuit that connects with described single-chip microcomputer STC12C5A60S2 and reset circuit.

3. according to multi-functional location according to claim 2 monitor device, it is characterized in that: described compass sensor (5) comprises chip MMC2120,10th pin of described chip MMC2120 connects with the 40th pin of described single-chip microcomputer STC12C5A60S2, and the 9th pin of described chip MMC2120 connects with the 41st pin of described single-chip microcomputer STC12C5A60S2.

4. according to multi-functional location according to claim 2 monitor device, it is characterized in that: described GPS locating module (6) comprises chip NEO-5Q, 20th pin of described chip NEO-5Q connects with the 7th pin of described single-chip microcomputer STC12C5A60S2, and the 21st pin of described chip NEO-5Q connects with the 5th pin of described single-chip microcomputer STC12C5A60S2.

5. according to multi-functional location according to claim 2 monitor device, it is characterized in that: described 3-axis acceleration sensor (7) comprises chip ADXL345,13rd pin of described chip ADXL345 connects with the 20th pin of described single-chip microcomputer STC12C5A60S2, and the 14th pin of described chip ADXL345 connects with the 19th pin of described single-chip microcomputer STC12C5A60S2.

6. according to multi-functional location according to claim 2 monitor device, it is characterized in that: described baroceptor (8) comprises chip MS5611,7th pin of described chip MS5611 connects with the 18th pin of described single-chip microcomputer STC12C5A60S2, and the 8th pin of described chip MS5611 connects with the 21st pin of described single-chip microcomputer STC12C5A60S2.

7. according to multi-functional location according to claim 2 monitor device, it is characterized in that: described probe head of electromagnetic sensor (9-1) comprises chip EP330, described first operational amplification circuit (9-2) comprises chip AD620, described second operational amplification circuit (9-3) comprises chip OP07, described multipath A/D converter (9-4) comprises chip ADC0809, the positive output end of described chip EP330+connected with the 3rd pin of described chip AD620 by resistance R24, the negative output terminal of described chip EP330-connected with the 2nd pin of described chip AD620 by resistance R23, 6th pin of described chip AD620 is connected with the 2nd pin of described chip OP07 by the electric capacity C12 of series connection mutually and resistance R28, 3rd pin of described chip OP07 connects with the output terminal of power module (2), 6th pin of described chip OP07 is connected with the 1st pin of described chip ADC0809 by electric capacity C13, 8th pin of described chip ADC0809, 14th pin, 15th pin, 17th pin, 18th pin, 19th pin, 20th pin and the 21st pin respectively with the 37th pin of described single-chip microcomputer STC12C5A60S2, 36th pin, 35th pin, 34th pin, 33rd pin, 32nd pin, 31st pin and the 30th pin connect, the 7th pin of described chip ADC0809, 23rd pin, 24th pin and the 25th pin respectively with the 8th pin of described single-chip microcomputer STC12C5A60S2, 9th pin, 10th pin and the 11st pin connect.

8. according to multi-functional location according to claim 2 monitor device, it is characterized in that: described wireless communication module (3) comprises chip CC1100, 20th pin of described chip CC1100 connects with the 1st pin of described STC12C5A60S2, 2nd pin of described chip CC1100 connects with the 2nd pin of described STC12C5A60S2, 1st pin of described chip CC1100 connects with the 3rd pin of described STC12C5A60S2, 7th pin of described chip CC1100 connects with the 44th pin of described STC12C5A60S2, 3rd pin of described chip CC1100 connects with the 12nd pin of described STC12C5A60S2, 6th pin of described chip CC1100 connects with the 13rd pin of described STC12C5A60S2.

9. according to multi-functional location according to claim 2 monitor device, it is characterized in that: described flashing light alarm module (11) comprises light emitting diode D1 and resistance R70, the anode of described light emitting diode D1 is connected with the output terminal of power module (2) by resistance R70, and the negative electrode of described light emitting diode D1 connects with the 23rd pin of described single-chip microcomputer STC12C5A60S2; Described audible alarm module (12) comprises PNP triode Q1, resistance R22 and hummer K1, the base stage of described PNP triode Q1 is connected with the 24th pin of described single-chip microcomputer STC12C5A60S2 by resistance R22, the collector of described PNP triode Q1 connects with the power end of described hummer K1, and the emitter of described PNP triode Q1 connects with the output terminal of power module (2).

10. according to multi-functional location according to claim 2 monitor device, it is characterized in that: described data-carrier store (4) comprises chip AT24C02,5th pin of described chip AT24C02 connects with the 43rd pin of described single-chip microcomputer STC12C5A60S2, and the 6th pin of described chip AT24C02 connects with the 6th pin of described single-chip microcomputer STC12C5A60S2.