CN209826714U - Portable wireless transmission and medication voice reminding monitor device - Google Patents

Portable wireless transmission and medication voice reminding monitor device Download PDF

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Publication number
CN209826714U
CN209826714U CN201822078737.1U CN201822078737U CN209826714U CN 209826714 U CN209826714 U CN 209826714U CN 201822078737 U CN201822078737 U CN 201822078737U CN 209826714 U CN209826714 U CN 209826714U
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communication module
wifi communication
signal
filtering
amplifying circuit
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CN201822078737.1U
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Chinese (zh)
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赵琢
张发坤
宋云腾
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Weihai Weigao Medical Imaging Technology Co Ltd
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Weihai Weigao Medical Imaging Technology Co Ltd
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Abstract

The utility model provides a portable wireless transmission reminds monitor device with pronunciation of using medicine, including ECG sensor unit, SPO2The blood pressure sensor comprises a sensor unit, a TEMP sensor unit and a blood pressure sensor unit, wherein the sensor units are respectively connected with an ECG filtering and amplifying circuit and an SPO (sinusoidal pulse) through WIFI (wireless fidelity) communication modules2The filtering and amplifying circuit, the TEMP filtering and amplifying circuit and the blood pressure filtering and amplifying circuit are connected; each filter mentioned aboveAnd the amplifying circuit is connected with the analog-to-digital conversion circuit, the analog-to-digital conversion circuit is also connected with the central processing unit, and the central processing unit is also respectively connected with the display unit, the medication reminding module and the WIFI communication module. The monitor device can improve the portability of the monitor, is convenient for medical staff to check the information of the patient in real time, and has wider wireless coverage range; according to the change of the patient condition, medical staff can adjust the medication time and dosage at the mobile client, and the monitor can receive information sent by the mobile client to remind the patient to take the medicine according to the dosage on time.

Description

Portable wireless transmission and medication voice reminding monitor device
Technical Field
The utility model relates to a monitor equipment field especially relates to a portable wireless transmission reminds monitor device with pronunciation of using medicine.
Background
The current monitors in the market mainly comprise large electrocardiograph monitors and portable monitors. The portable monitor product has the characteristics of portability, real time, high integration level, long continuous working time and the like, the equipment can monitor the vital signs of patients in real time, and when the physiological parameters measured by the human body have problems, the equipment can give out sound alarm and screen information prompt.
Most of the portable monitors in the prior art are connected in a wired manner, and are connected with sensors or displayed in an information transmission manner, so that the range of motion of a patient is limited, and a doctor is greatly inconvenient to check the physiological information of the patient. The existing wireless transmission mostly adopts a Bluetooth transmission mode, and the data transmission rate is low and the transmission distance is short.
SUMMERY OF THE UTILITY MODEL
In order to solve the problems in the prior art, the utility model provides a portable wireless transmission and medication voice reminding monitor device, so as to improve the portability of the monitor and facilitate medical staff to check the information of patients in real time; and can remind the patient to take medicine on time.
In order to realize the above purpose, the utility model provides a portable wireless transmission reminds monitor device with using medicine pronunciation, including setting up the signal acquisition system on one's body of patient, signal acquisition system is including the SPO that is used for gathering human electrocardiosignal's ECG sensor unit, is used for gathering human blood oxygen signal2Sensor unit, be used for gathering human temperature signal's TEMP sensor unit and be used for gathering human blood pressure signal's blood pressure sensor unit, wherein, the signal of ECG sensor unit collection advances through first WIFI communication moduleLine transmission, the SPO2The signals collected by the sensor unit are sent through a second WIFI communication module, the signals collected by the TEMP sensor unit are sent through a third WIFI communication module, and the signals collected by the blood pressure sensor unit are sent through a fourth WIFI communication module; the fifth WIFI communication module is used for receiving the signal sent by the first WIFI communication module and sending the signal to the ECG filtering and amplifying circuit, and the sixth WIFI communication module is used for receiving the signal sent by the second WIFI communication module and sending the signal to the SPO2The seventh WIFI communication module is used for receiving the signal sent by the third WIFI communication module and sending the signal to the TEMP filtering and amplifying circuit, and the eighth WIFI communication module is used for receiving the signal sent by the fourth WIFI communication module and sending the signal to the blood pressure filtering and amplifying circuit; the ECG filtering and amplifying circuit and the SPO2The filtering and amplifying circuit, the TEMP filtering and amplifying circuit and the blood pressure filtering and amplifying circuit are all connected with the analog-to-digital conversion circuit, the analog-to-digital conversion circuit is further connected with the central processing unit, the central processing unit is further respectively connected with the display unit, the medication reminding module and the ninth WIFI communication module, and the ninth WIFI communication module is used for communicating with external equipment.
Preferably, the central processing unit includes a master microprocessor and a memory.
The utility model has the advantages that the portable wireless transmission and medication voice reminding monitor device can greatly improve the portability of the monitor, is convenient for medical personnel to check the information of patients in real time, and has wider wireless coverage range; according to the change of the patient condition, medical staff can adjust the medication time and dosage at the mobile client, and the monitor can receive information sent by the mobile client to remind the patient to take the medicine according to the dosage on time.
Drawings
Fig. 1 shows a schematic view of a monitor device according to the present invention.
Fig. 2 shows a schematic circuit diagram of an ECG sensor unit and a first WIFI communication module according to the present invention.
Fig. 3 shows a fifth WIFI communication module and an ECG filtering and amplifying circuit diagram according to the present invention.
FIG. 4 shows an SPO according to the present invention2A sensor unit and a second WIFI communication module.
Fig. 5 shows a sixth WIFI communication module and SPO related to the present invention2Filtering and amplifying the circuit diagram.
Fig. 6 shows a schematic circuit diagram of a TEMP sensor unit and a third WIFI communication module according to the present invention.
Fig. 7 shows a seventh WIFI communication module and a TEMP filtering and amplifying circuit diagram according to the present invention.
Fig. 8 shows a schematic circuit diagram of the blood pressure sensor unit and the fourth WIFI communication module according to the present invention.
Fig. 9 shows an eighth WIFI communication module and a blood pressure filtering and amplifying circuit diagram according to the present invention.
Fig. 10 shows an analog-to-digital conversion circuit diagram according to the present invention.
Fig. 11 shows a circuit diagram of a master microprocessor according to the present invention.
Fig. 12 is a circuit diagram of a display unit according to the present invention.
Fig. 13 shows a circuit diagram of a medication reminding module according to the present invention.
Fig. 14 shows a circuit diagram of a ninth WIFI communication module according to the present invention.
Reference numerals: 1-ECG sensor unit, 2-first WIFI communication module, 3-SPO2The blood pressure monitoring device comprises a sensor unit, a 4-second WIFI communication module, a 5-TEMP sensor unit, a 6-third WIFI communication module, a 7-blood pressure sensor unit, a 8-fourth WIFI communication module, a 9-fifth WIFI communication module, a 10-ECG filtering and amplifying circuit, a 11-sixth WIFI communication module and a 12-SPO2A filtering and amplifying circuit, 13-a seventh WIFI communication module, 14-TEMP filtering and amplifying circuit, 15-an eighth WIFI communication module, 16-blood pressureThe system comprises a filtering and amplifying circuit, a 17-analog-to-digital conversion circuit, an 18-central processing unit, a 19-main control microprocessor, a 20-memory, a 21-display unit, a 22-medication reminding module, a 23-ninth WIFI communication module and a 24-mobile client.
Detailed Description
The following description will further describe embodiments of the present invention with reference to the accompanying drawings.
As shown in figure 1, the utility model relates to a portable wireless transmission reminds monitor device with using medicine pronunciation including setting up the signal acquisition system on one's body in the patient, signal acquisition system is including ECG sensor unit 1 that is used for gathering human electrocardiosignal, the SPO that is used for gathering human blood oxygen signal2Sensor unit 3, be used for gathering human temperature signal's TEMP sensor unit 5 and be used for gathering human blood pressure signal's blood pressure sensor unit 7, wherein, the signal of ECG sensor unit 1 collection is sent through first WIFI communication module 2, the SPO2Signals collected by the sensor unit 3 are sent through the second WIFI communication module 4, signals collected by the TEMP sensor unit 5 are sent through the third WIFI communication module 6, and signals collected by the blood pressure sensor unit 7 are sent through the fourth WIFI communication module 8; the fifth WIFI communication module 9 is configured to receive the signal sent by the first WIFI communication module 2 and send the signal to the ECG filtering and amplifying circuit 10, and the sixth WIFI communication module 11 is configured to receive the signal sent by the second WIFI communication module 4 and send the signal to the SPO2The filtering and amplifying circuit 12 is used for receiving the signal sent by the third WIFI communication module 6 and sending the signal to the TEMP filtering and amplifying circuit 14, and the eighth WIFI communication module 15 is used for receiving the signal sent by the fourth WIFI communication module 8 and sending the signal to the blood pressure filtering and amplifying circuit 16; the ECG filtering and amplifying circuit 10, SPO2The filtering and amplifying circuit 12, the TEMP filtering and amplifying circuit 14 and the blood pressure filtering and amplifying circuit 16 are all connected with an analog-digital conversion circuit 17, the analog-digital conversion circuit 17 is also connected with a central processing unit 18, the central processing unit 18 comprises a main control microprocessor 19 and a memory 20, andthe central processing unit 18 is further connected to the display unit 21, the medication reminding module 22 and the ninth WIFI communication module 23, and the ninth WIFI communication module 23 is used for communicating with an external device.
In this embodiment, the ECG sensor unit 1 includes an ECG sensor with a model number of HKD-10A +, and specific circuits of the ECG sensor unit 1 and the first WIFI communication module 2 may adopt a circuit schematic diagram shown in fig. 2; the ECG filtering and amplifying circuit 10 is configured to filter and amplify a signal sent by the fifth WIFI communication module 9, and specifically, the fifth WIFI communication module 9 and the ECG filtering and amplifying circuit 10 may adopt a circuit diagram as shown in fig. 3.
The SPO2The sensor unit 3 comprises an oxygen saturation sensor with the model of HKS-12C +, in particular the SPO2The circuits of the sensor unit 3 and the second WIFI communication module 4 may adopt a circuit schematic diagram as shown in fig. 4; the SPO2The filtering and amplifying circuit 12 is configured to filter and amplify a signal sent by the sixth WIFI communication module 11, specifically, the sixth WIFI communication module 11 and the SPO2The filtering and amplifying circuit 12 may employ a circuit diagram as shown in fig. 5.
The TEMP sensor unit 5 includes a temperature sensor with a model number of HKT-09B therein, and the specific circuits of the TEMP sensor unit 5 and the third WIFI communication module 6 may adopt a circuit schematic diagram as shown in fig. 6; the TEMP filtering and amplifying circuit 14 is configured to filter and amplify a signal sent by the seventh WIFI communication module 13, and specifically, the seventh WIFI communication module 13 and the TEMP filtering and amplifying circuit 14 may adopt a circuit diagram as shown in fig. 7.
The blood pressure sensor unit 7 comprises a pressure sensor with the model of HKB-08B, and the specific circuits of the blood pressure sensor unit 7 and the fourth WIFI communication module 8 can adopt the circuit schematic diagram shown in fig. 8; the blood pressure filtering and amplifying circuit 16 is configured to filter and amplify the signal sent by the eighth WIFI communication module 15, and specifically, the eighth WIFI communication module 15 and the blood pressure filtering and amplifying circuit 16 may adopt a circuit diagram as shown in fig. 9.
The analog-to-digital conversion circuit 17 is used for filtering and amplifying the ECG 10 and SPO2The signals sent by the filtering and amplifying circuit 12, the TEMP filtering and amplifying circuit 14 and the blood pressure filtering and amplifying circuit 16 are analog-to-digital converted, and then the converted signals are sent to the main control microprocessor 19. The specific analog-to-digital conversion circuit 17 may adopt a circuit diagram as shown in fig. 10.
The central processing unit 18 comprises a main control microprocessor 19 and a memory 20, the memory 20 is used for storing relevant data, the main control microprocessor 19 is used for processing the received signals and displaying relevant physiological parameters in a display unit 21, when the physiological parameters of a human body are normal, a green indicator light flashes, and when the physiological parameters are abnormal, a red indicator light flashes; the main control microprocessor 19 further sends the relevant data to a mobile client 24 of the doctor through a ninth WIFI communication module 23, for example, a mobile phone or a tablet computer, and medical staff can check physiological conditions and records of the patient through the mobile client 24, set medication information is sent to the main control microprocessor 19 through WIFI, and the medication information is displayed through the display unit 21 and is reminded through the medication reminding module 22 after the set time. Specifically, the circuit diagram shown in fig. 11 may be adopted as the circuit of the main control microprocessor 19, the circuit diagram shown in fig. 12 may be adopted as the circuit of the display unit 21, the circuit diagram shown in fig. 13 may be adopted as the circuit of the medication reminding module 22, and the circuit diagram shown in fig. 14 may be adopted as the circuit of the ninth WIFI communication module 23.
The portable wireless transmission and medication voice reminding monitor device can greatly improve the portability of the monitor, is convenient for medical staff to check patient information in real time, and has wider wireless coverage range; according to the change of the patient condition, medical staff can adjust the medication time and dosage at the mobile client, and the monitor can receive information sent by the mobile client to remind the patient to take the medicine according to the dosage on time.

Claims (2)

1. A portable wireless transmission and medication voice reminding monitor device is characterized in that: including setting up the signal acquisition system on one's body, the signal acquisition system is including the SPO that is used for gathering human blood oxygen signal's ECG sensor unit, is used for gathering human electrocardio signal2Sensor unit, be used for gathering human temperature signal's TEMP sensor unit and be used for gathering human blood pressure signal's blood pressure sensor unit, wherein, the signal of ECG sensor unit collection is sent through first WIFI communication module, SPO2The signals collected by the sensor unit are sent through a second WIFI communication module, the signals collected by the TEMP sensor unit are sent through a third WIFI communication module, and the signals collected by the blood pressure sensor unit are sent through a fourth WIFI communication module; the fifth WIFI communication module is used for receiving the signal sent by the first WIFI communication module and sending the signal to the ECG filtering and amplifying circuit, and the sixth WIFI communication module is used for receiving the signal sent by the second WIFI communication module and sending the signal to the SPO2The seventh WIFI communication module is used for receiving the signal sent by the third WIFI communication module and sending the signal to the TEMP filtering and amplifying circuit, and the eighth WIFI communication module is used for receiving the signal sent by the fourth WIFI communication module and sending the signal to the blood pressure filtering and amplifying circuit; the ECG filtering and amplifying circuit and the SPO2The filtering and amplifying circuit, the TEMP filtering and amplifying circuit and the blood pressure filtering and amplifying circuit are all connected with the analog-to-digital conversion circuit, the analog-to-digital conversion circuit is further connected with the central processing unit, the central processing unit is further respectively connected with the display unit, the medication reminding module and the ninth WIFI communication module, and the ninth WIFI communication module is used for communicating with external equipment.
2. The portable wireless transmission and medication voice prompt monitor device according to claim 1, wherein: the central processing unit comprises a main control microprocessor and a memory.
CN201822078737.1U 2018-12-12 2018-12-12 Portable wireless transmission and medication voice reminding monitor device Active CN209826714U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201822078737.1U CN209826714U (en) 2018-12-12 2018-12-12 Portable wireless transmission and medication voice reminding monitor device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201822078737.1U CN209826714U (en) 2018-12-12 2018-12-12 Portable wireless transmission and medication voice reminding monitor device

Publications (1)

Publication Number Publication Date
CN209826714U true CN209826714U (en) 2019-12-24

Family

ID=68889532

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201822078737.1U Active CN209826714U (en) 2018-12-12 2018-12-12 Portable wireless transmission and medication voice reminding monitor device

Country Status (1)

Country Link
CN (1) CN209826714U (en)

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