CN204723046U - Human body physiological parameter monitoring equipment - Google Patents

Abstract

This utility model provides a kind of human body physiological parameter monitoring equipment, it to comprise in wearable device and human implantable and with the chip of described wearable device wireless connections, described chip comprises substrate, is located at described suprabasil data processor, is electrically connected and is located at described suprabasil data acquisition unit and data storage with described data processor.Implanted chip can gather the physiological parameter at human body certain or each position, and physiological parameter is sent on wearable device by the mode of wireless telecommunications, thus realizes the monitoring of the physiological parameter to human body certain or each position.

Description

Human body physiological parameter monitoring equipment

[technical field]

This utility model relates to intelligent wearable device field, particularly relates to a kind of human body physiological parameter monitoring equipment.

[background technology]

Along with the development of intelligent wearable device, people can not be satisfied with the function such as communication, amusement, office of wearable device.The attention of people to health requires intelligent wearable device constantly towards the future development that people expect.

Therefore, be necessary to provide a kind of novel human body physiological parameter monitoring equipment.

[utility model content]

The purpose of this utility model be to provide a kind of can the checkout equipment of Real-Time Monitoring human body physiological parameter.

The technical solution of the utility model is as follows: a kind of human body physiological parameter monitoring equipment, it to comprise in wearable device and human implantable and with the chip of described wearable device wireless connections, described chip comprises substrate, is located at described suprabasil data processor, is electrically connected and is located at described suprabasil data acquisition unit and data storage with described data processor.

Preferably, described data acquisition unit comprises at least one in pressure transducer, cranium pressure sensor or heart rate sensor.

Preferably, bluetooth, NFC or WIFI wireless connections are passed through between described wearable device and described chip.

Preferably, described chip is also provided with energy storage units.

Preferably, be provided with electromagnetic radiation end in described wearable device, described chip is provided with electromagnetic wave receiving terminal and the power conversion circuits for the electromagnetic wave received being converted to electric energy, and described power conversion circuits is connected with described energy storage units.

Preferably, described energy storage units is accumulator.

Preferably, described wearable device comprises intelligent watch, intelligent glasses or Intelligent bracelet.

The beneficial effects of the utility model are: implanted chip can gather the physiological parameter at human body certain or each position, and physiological parameter be sent on wearable device by the mode of wireless telecommunications, thus realize the monitoring of the physiological parameter to human body certain or each position.

[accompanying drawing explanation]

Fig. 1 is the structural representation of a kind of human body physiological parameter monitoring equipment of this utility model;

Fig. 2 is the principle sketch of human body physiological parameter monitoring equipment of the present utility model.

[detailed description of the invention]

Below in conjunction with drawings and embodiments, the utility model is described in further detail.

As depicted in figs. 1 and 2, a kind of human body physiological parameter monitoring equipment comprises wearable device 100 and the chip 200 with wearable device 100 wireless connections.Wearable device 100 and chip 200 can pass through bluetooth, NFC or WIFI wireless connections, and only on wearable device 100 and chip 200, signalization transmitting terminal and signal receiving end can realize wireless telecommunications to needs respectively.

In the preferred embodiment, wearable device 100 is intelligent watch, and it also can be other wearable devices such as Intelligent bracelet or intelligent glasses.Chip 200 is human implantables, according to implanted position, can gather the physiological parameter at this position.Chip 200 comprises substrate, is located at suprabasil data processor 202, is electrically connected and is located at suprabasil data acquisition unit 201, data storage 203 and energy storage units 206 with data processor 202.Data acquisition unit 201 can be one or more in pressure transducer, cranium pressure sensor or heart rate sensor.When data acquisition unit 201 is pressure transducers, chip 200 has the function of real-time human body blood pressure.Now, pressure transducer can adopt pressure film to make.When data acquisition unit 201 is cranium pressure sensor, chip 200 can the brain of implanted human body, thus detects the cranium pressure numerical value of brain inside.When data acquisition unit 201 is heart rate sensor, chip 200 can implanted heart, detects the heart rate of heart.

That is, the kind of data acquisition unit 201 determines the function that chip 200 has, and it can be the single-sensor for detecting certain physiological parameter, also can be the intersection of multiple sensors.The physiological parameter collected is issued data processor 202 by data acquisition unit 201, and data processor 202 can be single-chip microcomputer, and then the physiological parameter information processed is stored on data storage 203 by data processor 202.When wearable device 100 initiates to call the request of physiological parameter, the physiological parameter information be stored on data storage 203 is fed back to wearable device 100 by data processor 202.People just can know the physiological parameter information at certain position or certain several position according to wearable device 100.

For the energy supply of chip 200, several mode can be had realize.One adopts external power source, and that is energy storage units 206 is as an accumulator, and now, substrate can arrange electrode usually, and electrode is connected with storage battery, by accumulator to chip power supply.The defect of this mode is apparent, and accumulator all has certain service life, when the electricity of accumulator itself exhausts, then needs chip to take out to change accumulator.Another kind adopts wireless charging, concrete methods of realizing is, electromagnetic radiation end 101 is set in wearable device, and electromagnetic wave receiving terminal 204 is set on chip 200 and the electromagnetic wave received is converted to the power conversion circuits 205 of electric energy, power conversion circuits 205 by the power storage that transforms in energy storage units 206.The advantage of wireless charging is apparent, namely whenever and wherever possible to chip charging, can not worry the problem that electricity exhausts.In addition, chip can also adopt self-powered technology, and namely chip self utilizes the material that in human body, certain is convenient to obtain to carry out self power generation.

Above-described is only embodiment of the present utility model; it should be pointed out that for the person of ordinary skill of the art at this, under the prerequisite not departing from this utility model creation design; improvement can also be made, but these all belong to protection domain of the present utility model.

Claims (7)

1. a human body physiological parameter monitoring equipment, it is characterized in that, it to comprise in wearable device and human implantable and with the chip of described wearable device wireless connections, described chip comprises substrate, is located at described suprabasil data processor, is electrically connected and is located at described suprabasil data acquisition unit and data storage with described data processor.

2. human body physiological parameter monitoring equipment according to claim 1, is characterized in that, described data acquisition unit comprises at least one in pressure transducer, cranium pressure sensor or heart rate sensor.

3. human body physiological parameter monitoring equipment according to claim 1, is characterized in that, by bluetooth, NFC or WIFI wireless connections between described wearable device and described chip.

4. human body physiological parameter monitoring equipment according to claim 1, is characterized in that, described chip is also provided with energy storage units.

5. human body physiological parameter monitoring equipment according to claim 4, it is characterized in that, electromagnetic radiation end is provided with in described wearable device, described chip is provided with electromagnetic wave receiving terminal and the power conversion circuits for the electromagnetic wave received being converted to electric energy, and described power conversion circuits is connected with described energy storage units.

6. human body physiological parameter monitoring equipment according to claim 4, is characterized in that, described energy storage units is accumulator.

7. the human body physiological parameter monitoring equipment according to any one of claim 1-6, is characterized in that, described wearable device comprises intelligent watch, intelligent glasses or Intelligent bracelet.