CN104027098A - Vehicular mobile medical monitoring apparatus - Google Patents
Vehicular mobile medical monitoring apparatus Download PDFInfo
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- CN104027098A CN104027098A CN201410261544.3A CN201410261544A CN104027098A CN 104027098 A CN104027098 A CN 104027098A CN 201410261544 A CN201410261544 A CN 201410261544A CN 104027098 A CN104027098 A CN 104027098A
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Abstract
The invention discloses a vehicular mobile medical monitoring apparatus. A power manager is powered by an interior cigarette lighter and charges a battery; the battery powers a whole system. A vital sign measuring module comprises a body temperature measuring module, a pulse measuring module, a breath measuring module, an ECG measuring module, and a blood pressure measuring module; the five modules transmit information to a CPU in real time; a CCD camera module and a GPSone mobile positioning module transmit video information and location of an ambulance to the CPU in real time; the CPU shares the formation with a network through a CDMA wireless communication module; a hospital side gains access to corresponding data through a network; a liquid crystal display displays various reminders. The vehicular mobile medical monitoring apparatus has the advantages that real-time interaction of information of patients in the ambulance with the hospital is achieved, real-time guidance and scheduling are performed in the hospital when the patients are transferred in the ambulance, rescue time is saved maximally, disease deterioration is prevented, and rescue rate is increased.
Description
Technical field
The present invention relates to the mobile device of the every vital sign information of a kind of monitoring human, especially refer to be used in the many information monitoring systems on ambulance.
Background technology
At present, along with the fast development of China's all trades and professions, the occurrence frequency of various work safety accidents is corresponding increase also, ensures that production safety and rescue in time have become the Social Events that the whole society pays close attention to.
Tradition ambulance mode of operation is, emergency center receives after rescuing telephone, arrange scheduling to set out ambulance, at ambulance, in transit patient is done simple process such as stopping blooding, clear up wound, cardio-pulmonary resuscitation, then go to nearest hospital to carry out rescue treatment in institute, hospital is according to patient's situation arrangement operation, and process as shown in Figure 1.In traditional medical first aid pattern, ambulance shift the wounded during this period of time in, any vital sign information that hospital cannot the Real-time Obtaining wounded, exist the phenomenon that information disconnects, so hospital cannot make corresponding scheduling and rescue and instruct.
Summary of the invention
In order to make up traditional first aid pattern, wasted the leak of valuable rescue time, the invention provides a kind of vehicle-mounted mobile medical monitoring device, this device can be realized in sufferer transfer process, ambulance docks with hospital aspect real time information, facilitate hospital conveniently to provide rescue to instruct, and carry out in advance related surgical preparation, save time.As expansion, this equipment also possesses real-time navigation capability, and hospital side can the current ambulance geographical location information of Real-time Obtaining, and according to this scheduling of being correlated with.
The technical solution adopted for the present invention to solve the technical problems is: develop a set of multiple vital sign monitor device that possesses.Wherein, vital sign detector has comprised the measurement modules such as temperature pulse respiration, blood pressure, electrocardio; Locating module refers to GPSone mobile position-fixed module; Photographic head refers to CCD photographic head; Display refers to liquid crystal display; Communication interface refers to 3G communication.By these module cooperative, work, make hospital side can Real-time Obtaining ambulance on patient's vital sign information and ambulance real time information, reach the object of more efficient rescue.
The invention has the beneficial effects as follows: realize patient information and hospital's real-time, interactive on ambulance, hospital carries out real-time instruction, scheduling when ambulance shifts patient, at utmost saves rescue time, prevents that sb.'s illness took a turn for the worse, improves rescue rate.
Accompanying drawing explanation
Fig. 1 is medical aid process block diagram;
Fig. 2 is system functional block diagram of the present invention;
Fig. 3 is one embodiment of the present of invention;
Fig. 4 is LCD MODULE of the present invention;
Fig. 5 is 3G communication module of the present invention;
Fig. 6 is GPS locating module of the present invention;
Fig. 7 is camera module of the present invention;
Fig. 8 is measurement of bldy temperature module of the present invention;
Fig. 9 is respiration measurement module of the present invention;
Figure 10 is electrocardio measurement module of the present invention;
Figure 11 is blood pressure measurement module of the present invention;
Figure 12 is pulses measure module of the present invention;
Figure 13 is reference voltage module of the present invention;
Figure 14 is MCU reset circuit of the present invention;
Figure 15 is jtag interface modular circuit of the present invention;
Figure 16 is MCU system module circuit of the present invention.
The specific embodiment
Below in conjunction with the drawings and specific embodiments, the technology of the present invention is elaborated.
In order to make those skilled in the art can further understand feature of the present invention and technology contents, refer to following relevant detailed description of the present invention and accompanying drawing.
As shown in Figures 2 and 3, power supervisor is power taking cigar lighter in car, and power supervisor is to charge in batteries, and accumulator is powered to whole system, and whole system consumed power should be less than 200W, otherwise Vehicular power system is by unstable; Each life sign measurement module, comprises body temperature, pulse, breathing, electrocardio, blood pressure measurement module and in real time the information transmission is arrived to CPU; CCD camera module, GPSone mobile position-fixed module arrive CPU by video information and the ambulance position information transmission in real time.CPU arrives network by cdma wireless communication module by information sharing, and hospital's end can arrive corresponding data by access to netwoks.Display shows various informations.
Be illustrated in figure 4 the LCD MODULE of system, comprise 3.2 cun of TFT modules, double slot U6.TFT module is by slot U6 place in circuit.Second pin of U6 connects the 38 pin of chip STM32F103VET6.The 3rd pin of U6 connects the 5th pin of chip STM32F103VET6.The 4th pin of U6 connects the 39 pin of chip STM32F103VET6.The 5th pin of U6 connects 16 pins of chip STM32F103.The 6th pin of U6 connects the 40 pin of chip STM32F103VET6.The 7th pin of U6 connects the 17 pin of chip STM32F103VET6.The 8th pin of U6 connects the 41 pin of chip STM32F103VET6.The 9th pin of U6 connects the 18 pin of chip STM32F103VET6.The tenth pin of U6 connects the 42 pin of chip STM32F103VET6.The 11 pin of U6 connects the 29 pin of chip STM32F103VET6.The 12 pin of U6 connects the 43 pin of chip STM32F103VET6.The 13 pin of U6 connects the 30 pin of STM32F103VET6.The 14 pin of U6 connects the 44 pin of chip STM32F103VET6.The 15 pin of U6 connects the 31 pin of chip STM32F103VET6.The 16 pin of U6 connects the 45 pin of chip STM32F103VET6.The 17 pin of U6 connects the 32 pin of chip STM32F103VET6.The 18 pin of U6 connects the 46 pin of chip STM32F103VET6.The 19 pin of U6 connects the 33 pin of chip STM32F103VET6.The 20 pin of U6 connects the 98 pin of chip STM32F103VET6.The 21 pin of U6 connects the 34 pin of chip STM32F103VET6.The 22 pin of U6 connects the 97 pin of chip STM32F103VET6.The 23 pin of U6 connects the 35 pin of chip STM32F103VET6.The 24 pin of U6 connects the 96 pin of chip STM32F103VET6.The 25 pin of U6 connects the 36 pin of chip STM32F103VET6.The 26 pin of U6 connects the 95 pin of chip STM32F103VET6.The 27 pin of U6 connects the 37 pin of chip STM32F103VET6.The 28 pin of U6 connects the 94 pin of chip STM32F103VET6.The 29 pin of U6 connects power supply ground.The 30 pin of U6 connects 3.3V power supply.
Be illustrated in figure 5 the 3G communication module of system, cdma wireless communication module, comprises Huawei EM660 cdma communication module, single slot U7.3G communication module is by U7 place in circuit.First pin of U7 connects the 61 pin of chip STM32F103VET6.Second pin of U7 connects the 62 pin of chip STM32F103VET6.
The 3rd pin of U7 connects the 63 pin of chip STM32F103VET6.The 4th pin of U7 connects the 64 pin of chip STM32F103VET6.The 5th pin of U7 connects the 65 pin of chip STM32F103VET6.The 6th pin of U7 connects the 68 pin of chip STM32F103VET6.
The 7th pin of U7 connects the 67 pin of chip STM32F103VET6.The 8th pin of U7 connects power supply ground.The 9th pin of U7 connects 3.3V power supply.
Be illustrated in figure 6 the GPS locating module of system, GPSone mobile position-fixed module, comprises UBLOX NEO-6M high accuracy global location device, pricking with needle P0, serial ports female D Connector9.Localizer is by female place in circuit, and second pin of D9 connects the 47 pin of chip STM32F103VET6.The 3rd pin of D9 connects the 48 pin of chip STM32F103VET6.The 5th pin of D9 connects power supply ground.
Be illustrated in figure 7 the camera module of system, comprise OV7670 camera module, single slot U9.Camera module is by U9 place in circuit.First pin of U9 connects the 66 pin of chip STM32F03VET6.Second pin of U9 connects the 69 pin of chip STM32F03VET6.The 3rd pin of U9 connects the 70 pin of chip STM32F03VET6.The 4th pin of U9 connects the 71 pin of chip STM32F03VET6.The 5th pin of U9 connects the 78 pin of chip STM32F03VET6.The 6th pin of U9 connects the 79 pin of chip STM32F03VET6.The 7th pin of U9 connects the 80 pin of chip STM32F03VET6.The 8th pin of U9 connects the 81 pin of chip STM32F03VET6.The 9th pin of U9 connects the 82 pin of chip STM32F03VET6.The tenth pin of U9 connects the 83 pin of chip STM32F03VET6.The 11 pin of U9 connects the 84 pin of chip STM32F03VET6.The 12 pin of U9 connects the 85 pin of chip STM32F03VET6.The 13 pin of U9 connects the 86 pin of chip STM32F03VET6.The 14 pin of U9 connects the 87 pin of chip STM32F03VET6.The 15 pin of U9 connects the 88 pin of chip STM32F03VET6.The 16 pin of U9 connects the 91 pin of chip STM32F03VET6.The 17 pin of U9 connects the 92 pin of chip STM32F03VET6.The 18 pin of U9 connects the 93 pin of chip STM32F03VET6.
The measurement of bldy temperature module that is illustrated in figure 8 system, comprises sensor MLX90615, pull-up resistor R14, R15.First pin of sensor connects the 3rd pin of chip STM32F103VET6, and second pin connects the 4th pin of chip STM32F103VET6, and the 3rd pin meets 3.3 volts of VCC, and the 4th pin connects power supply ground.First pin of resistance R 14 1 termination sensor, 3.3 volts of VCC of another termination; Second pin of resistance R 15 1 termination sensor, 3.3 volts of VCC of another termination.
The respiration measurement module that is illustrated in figure 9 system, comprises sensor assembly HKH-11C, chip LM324, capacitance C1, feedback resistance R0, pull down resistor R4, divider resistance R1, pricking with needle J1.Respiration pickup is by interface with regard to J1 place in circuit, and first pin of J1 connects 3.3V power supply, and second foot connects a foot of capacitor C 1, and the another foot of capacitor C 1 connects the 3rd foot of chip LM324, and the 3rd foot of J1 connects power supply ground.The 3rd pin of resistance R 4 one chip termination LM324, a termination power ground, resistance R 1 one termination power ground, second of a chip termination LM324 pin, the 3rd foot of resistance R 0 one chip termination LM324, first foot of a chip termination LM324.The 4th foot of chip LM324 connects 5V power supply, and the 11 pin connects power supply ground, and first pin connects second pin of chip STM32F103VET6.
Be the electrocardio measurement module of system as shown in figure 10, comprise HKD-10A module.The 3rd, the 5th, the 6th, the 7th, the 8th foot of module connects power supply ground, and the tenth foot of module connects 5V power supply, and the 11 foot of module connects the 15th pin of chip STM32F103VET6.
Be the blood pressure measurement module of system as shown in figure 11, comprise HKB-08 module, USB interface J3.Blood pressure measurement sensor is by USB interface place in circuit, and first pin of J3 connects 5V power supply, and second pin and the 3rd pin connect respectively the 25 pin and the 26 pin of chip STM32F103VET6.The 4th pin connects power supply ground.
Be the pulses measure module of system as shown in figure 12, comprise HK-2000A pulse transducer, audio interface J4, chip LM324, decoupling capacitor C3.HK-2000A pulse transducer is by audio interface with regard to J4 place in circuit, and first foot of J4 meets power supply VCC, and second foot connects the 3rd foot of chip LM324, and the 3rd foot of J4 connects power supply ground.Foot of decoupling capacitor C3 meets power supply VCC, and another foot connects power supply ground.First foot of chip LM324 connects first pin of chip STM32F103VET6, and second foot is connected with first foot, and the 4th foot meets power supply VCC, and the 11 foot connects power supply ground.
Be the reference voltage circuit of system as shown in figure 13, power supervisor, comprises chip LM4040-3.0, resistance R 7, decoupling capacitor C10, shunt capacitance C12 and C17.Capacitor C 12 and capacitor C 17 1 termination 3.3V power supplys, a termination power ground.Resistance R 7 one termination powers, first pin of another chip termination LM4040-3.0.Second foot of chip LM4040-3.0 and the 3rd foot connect power supply ground.First pin of capacitor C 10 1 chip termination LM4040-3.0, another termination power ground.
Be the reset circuit of system as shown in figure 14, comprise pull-up resistor R6 and pull down resistor R7, button S1, decoupling capacitor C9.R6 mono-end is received 3.3V power supply, and the other end is received the 14 pin of chip STM32F103VET6.C9 mono-end is received power supply ground, and the other end is received the 14 pin of chip STM32F103VET6.S1 mono-end is received the 14 pin of chip STM32F103VET6, and one end is connected with R5, another termination power ground of R5.
Be system jtag interface module as shown in figure 15, comprise double-row needle U5, decoupling capacitor C7 and C8, pull down resistor R8, pull-up resistor R9, R10, R11 and R12.C7 and C8 mono-termination 3.3V power supply, another termination power ground.R8 mono-termination 3.3V power supply, the 9th pin of another termination U5.R9 mono-termination 3.3V power supply, the 3rd pin of another termination U5.R10 mono-termination 3.3V power supply, the 5th pin of another termination U5.R11 mono-termination 3.3V power supply, the 7th pin of another termination U5.R12 mono-termination 3.3V power supply, the 13 pin of another termination U5.First and second pin of U5 connects 3.3V power supply, and the 4th, six, eight, ten, 12,14,16,18,20 pins of U5 are received power supply ground.The 15 pin of U5 received the 14 pin of chip STM32F103VET6.
Be MCU circuit system module as shown in figure 16, comprise chip STM32F103VET6, decoupling capacitor C2, C4, C11, C13, C14, C16, resonant capacitance C5 and C6,8M crystal oscillator U4, current-limiting resistance R2, resistance R 3.
But shown in above, be only the preferred embodiment of the invention, be not used for limiting to invention scope of the present invention, therefore utilize the equivalent structure that frame diagram of the present invention and description are done to change, all comprise within the scope of the present invention.
Claims (1)
1. vehicle-mounted mobile medical monitoring equipment, comprise power supervisor, accumulator, GPSone mobile position-fixed module, CCD camera module, cdma wireless communication module, liquid crystal display, life sign measurement module and CPU, it is characterized in that: power supervisor is power taking cigar lighter in car, power supervisor is to charge in batteries, accumulator is powered to whole system, life sign measurement module occlusion body temperature measurement module, pulses measure module, respiration measurement module, electrocardio measurement module, blood pressure measurement module, these five modules arrive CPU by the information transmission in real time; CCD camera module, GPSone mobile position-fixed module arrive CPU by video information and the ambulance position information transmission in real time, CPU arrives network by cdma wireless communication module by information sharing, hospital's end arrives corresponding data by access to netwoks, and liquid crystal display shows various informations;
Described CPU adopts chip STM32F103VET6;
Described LCD MODULE comprises 3.2 cun of TFT modules, double slot U6, and TFT module is by slot U6 place in circuit; Second pin of slot U6 connects the 38 pin of chip STM32F103VET6; The 3rd pin of slot U6 connects the 5th pin of chip STM32F103VET6; The 4th pin of slot U6 connects the 39 pin of chip STM32F103VET6; The 5th pin of slot U6 connects 16 pins of chip STM32F103; The 6th pin of slot U6 connects the 40 pin of chip STM32F103VET6; The 7th pin of slot U6 connects the 17 pin of chip STM32F103VET6; The 8th pin of slot U6 connects the 41 pin of chip STM32F103VET6; The 9th pin of slot U6 connects the 18 pin of chip STM32F103VET6; The tenth pin of slot U6 connects the 42 pin of chip STM32F103VET6; The 11 pin of slot U6 connects the 29 pin of chip STM32F103VET6; The 12 pin of slot U6 connects the 43 pin of chip STM32F103VET6; The 13 pin of slot U6 connects the 30 pin of STM32F103VET6; The 14 pin of U6 connects the 44 pin of chip STM32F103VET6; The 15 pin of slot U6 connects the 31 pin of chip STM32F103VET6; The 16 pin of slot U6 connects the 45 pin of chip STM32F103VET6; The 17 pin of slot U6 connects the 32 pin of chip STM32F103VET6; The 18 pin of slot U6 connects the 46 pin of chip STM32F103VET6; The 19 pin of slot U6 connects the 33 pin of chip STM32F103VET6; The 20 pin of slot U6 connects the 98 pin of chip STM32F103VET6; The 21 pin of slot U6 connects the 34 pin of chip STM32F103VET6; The 22 pin of slot U6 connects the 97 pin of chip STM32F103VET6; The 23 pin of slot U6 connects the 35 pin of chip STM32F103VET6; The 24 pin of slot U6 connects the 96 pin of chip STM32F103VET6; The 25 pin of slot U6 connects the 36 pin of chip STM32F103VET6; The 26 pin of slot U6 connects the 95 pin of chip STM32F103VET6; The 27 pin of slot U6 connects the 37 pin of chip STM32F103VET6; The 28 pin of slot U6 connects the 94 pin of chip STM32F103VET6; The 29 pin of slot U6 connects power supply ground; The 30 pin of slot U6 connects 3.3V power supply;
Described cdma wireless communication module comprises Huawei EM660 cdma communication module, single slot U7; Huawei EM660 cdma communication module is by single slot U7 place in circuit; First pin of single slot U7 connects the 61 pin of chip STM32F103VET6; Second pin of single slot U7 connects the 62 pin of chip STM32F103VET6;
The 3rd pin of single slot U7 connects the 63 pin of chip STM32F103VET6; The 4th pin of single slot U7 connects the 64 pin of chip STM32F103VET6; The 5th pin of single slot U7 connects the 65 pin of chip STM32F103VET6; The 6th pin of single slot U7 connects the 68 pin of chip STM32F103VET6;
The 7th pin of single slot U7 connects the 67 pin of chip STM32F103VET6; The 8th pin of single slot U7 connects power supply ground; The 9th pin of single slot U7 connects 3.3V power supply;
Described GPSone mobile position-fixed module comprises UBLOX NEO-6M high accuracy global location device, pricking with needle P0, serial ports female D Connector9; Localizer is by serial ports female D Connector9 place in circuit, and second pin of serial ports female D Connector9 connects the 47 pin of chip STM32F103VET6; The 3rd pin of serial ports female D Connector9 connects the 48 pin of chip STM32F103VET6; The 5th pin of serial ports female D Connector9 connects power supply ground;
Described CCD camera module comprises OV7670 camera module, single slot U9; OV7670 camera module is by single slot U9 place in circuit; First pin of single slot U9 connects the 66 pin of chip STM32F03VET6; Second pin of single slot U9 connects the 69 pin of chip STM32F03VET6; The 3rd pin of single slot U9 connects the 70 pin of chip STM32F03VET6; The 4th pin of single slot U9 connects the 71 pin of chip STM32F03VET6; The 5th pin of single slot U9 connects the 78 pin of chip STM32F03VET6; The 6th pin of single slot U9 connects the 79 pin of chip STM32F03VET6; The 7th pin of single slot U9 connects the 80 pin of chip STM32F03VET6; The 8th pin of single slot U9 connects the 81 pin of chip STM32F03VET6; The 9th pin of single slot U9 connects the 82 pin of chip STM32F03VET6; The tenth pin of single slot U9 connects the 83 pin of chip STM32F03VET6; The 11 pin of single slot U9 connects the 84 pin of chip STM32F03VET6; The 12 pin of single slot U9 connects the 85 pin of chip STM32F03VET6; The 13 pin of single slot U9 connects the 86 pin of chip STM32F03VET6; The 14 pin of single slot U9 connects the 87 pin of chip STM32F03VET6; The 15 pin of single slot U9 connects the 88 pin of chip STM32F03VET6; The 16 pin of single slot U9 connects the 91 pin of chip STM32F03VET6; The 17 pin of single slot U9 connects the 92 pin of chip STM32F03VET6; The 18 pin of single slot U9 connects the 93 pin of chip STM32F03VET6;
Described measurement of bldy temperature module comprises body temperature trans MLX90615, pull-up resistor R14, R15; First pin of body temperature trans connects the 3rd pin of chip STM32F103VET6, and second pin connects the 4th pin of chip STM32F103VET6, and the 3rd pin meets 3.3 volts of VCC, and the 4th pin connects power supply ground; First pin of resistance R 14 1 terminal body temperature sensor, 3.3 volts of VCC of another termination; Second pin of resistance R 15 1 terminal body temperature sensor, 3.3 volts of VCC of another termination;
Described respiration measurement module comprises respiration pickup HKH-11C, chip LM324, capacitance C1, feedback resistance R0, pull down resistor R4, divider resistance R1 and pricking with needle J1; Respiration pickup is by pricking with needle J1 place in circuit, and first pin of pricking with needle J1 connects 3.3V power supply, and second foot connects a foot of capacitor C 1, and the another foot of capacitor C 1 connects the 3rd foot of chip LM324, and the 3rd foot connects power supply ground; The 3rd pin of resistance R 4 one chip termination LM324, a termination power ground, resistance R 1 one termination power ground, second pin of another chip termination LM324, the 3rd foot of resistance R 0 one chip termination LM324, first foot of another chip termination LM324; The 4th foot of chip LM324 connects 5V power supply, and the 11 pin connects power supply ground, and first pin connects second pin of chip STM32F103VET6;
Described electrocardio measurement module comprises HKD-10A module; The 3rd, the 5th, the 6th, the 7th, the 8th foot of HKD-10A module connects power supply ground, and the tenth foot of module connects 5V power supply, and the 11 foot of module connects the 15th pin of chip STM32F103VET6;
Described blood pressure measurement module comprises HKB-08 module, USB interface J3; HKB-08 module is by USB interface J3 interface place in circuit, and first pin of USB interface J3 connects 5V power supply, and second pin and the 3rd pin connect respectively the 25 pin and the 26 pin of chip STM32F103VET6; The 4th pin connects power supply ground;
Described pulses measure module comprises HK-2000A pulse transducer, audio interface J4, chip LM324, decoupling capacitor C3; HK-2000A pulse transducer is by audio interface J4 place in circuit, and first foot of audio interface J4 meets power supply VCC, and second foot connects the 3rd foot of chip LM324, and the 3rd foot connects power supply ground; Foot of decoupling capacitor C3 meets power supply VCC, and another foot connects power supply ground; First foot of chip LM324 connects first pin of chip STM32F103VET6, and second foot is connected with first foot, and the 4th foot meets power supply VCC, and the 11 foot connects power supply ground;
Described power supervisor comprises chip LM4040-3.0, resistance R 7, decoupling capacitor C10, shunt capacitance C12 and C17; Capacitor C 12 and capacitor C 17 1 termination 3.3V power supplys, another termination power ground; Resistance R 7 one termination 3.3V power supplys, first pin of another chip termination LM4040-3.0; Second foot of chip LM4040-3.0 and the 3rd foot connect power supply ground; First pin of capacitor C 10 1 chip termination LM4040-3.0, another termination power ground.
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| CN201410261544.3A CN104027098A (en) | 2014-06-12 | 2014-06-12 | Vehicular mobile medical monitoring apparatus |
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Citations (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JPH04253839A (en) * | 1991-02-06 | 1992-09-09 | Mitsubishi Electric Corp | Portable type thermometer/pulse meter |
| CN103070675A (en) * | 2012-12-28 | 2013-05-01 | 深圳市元征软件开发有限公司 | Vehicle-mounted medical monitoring system |
| CN103815874A (en) * | 2014-01-21 | 2014-05-28 | 陈立波 | Mobile remote medicine consultation system |
-
2014
- 2014-06-12 CN CN201410261544.3A patent/CN104027098A/en active Pending
Patent Citations (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JPH04253839A (en) * | 1991-02-06 | 1992-09-09 | Mitsubishi Electric Corp | Portable type thermometer/pulse meter |
| CN103070675A (en) * | 2012-12-28 | 2013-05-01 | 深圳市元征软件开发有限公司 | Vehicle-mounted medical monitoring system |
| CN103815874A (en) * | 2014-01-21 | 2014-05-28 | 陈立波 | Mobile remote medicine consultation system |
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