CN113017576A - Intelligent sphygmus instrument - Google Patents

Abstract

The invention provides an intelligent pulse instrument which comprises a measuring end, wherein the measuring end comprises a wrist strap, a collector arranged on the wrist strap and at least 3 pulse sensors arranged in the collector, each pulse sensor is provided with an inflation bag, the inflation bags are connected with an inflation pipeline, and the tail end of the inflation pipeline is connected with a pipeline concentrator; the control end comprises a control module, a power supply module and a micropump, the pipeline concentrator is connected with the micropump through a preposed pipeline, and the control module and the micropump are respectively connected with the power supply module.

Description

Intelligent sphygmus instrument

Technical Field

The invention relates to a pulse monitoring technology, in particular to an intelligent pulse instrument.

Background

In the traditional Chinese medicine, yin and yang are taken as theoretical basis, the human body is regarded as the unity of qi, shape and spirit, the etiology, the disease property and the disease position are explored, the pathogenesis and the change of internal organs, channels, collaterals, joints, qi, blood and body fluids of the human body are analyzed, the elimination of pathogenic factors and healthy qi is judged by means of the method of 'asking and hearing' for making a look at and making a look at the four diagnostic methods, the disease name is obtained, the syndrome type is concluded, and the treatment scheme is obtained according to the principle of syndrome differentiation and treatment. In the "looking and hearing" approach, the pulse information contains a lot of physiological and pathological information of human body, and is an important parameter for clinical assessment of human health status.

In the prior art, as disclosed in publication nos.: "CN 107714004A" discloses a pulse signal collecting wrist strap, which comprises a pulse collector body, a first wrist strap and a second wrist strap, wherein the first wrist strap and the second wrist strap are respectively arranged on two sides of the pulse collector body, the pulse collector body further comprises a pulse collector shell, and a power module, a microcontroller, a pulse sensor, a signal conversion module, a wireless communication module and a signal lamp which are connected by a line are arranged in the pulse collector shell; the pulse collector shell is provided with a pulse probe, the pulse probe is arranged opposite to the pulse sensor, and the pulse probe is wrapped by a silica gel outer sleeve; the pulse collector shell is arc-shaped, the silica gel outer sleeve is an arc-shaped bulge matched with the pulse collector shell, and the pulse sensor is arc-shaped matched with the silica gel outer sleeve; the outer end of first wrist strap is connected with the latch closure, be provided with the thread gluing area on the outer end of second wrist strap, wherein: the power supply module is used for providing working electric energy for the pulse signal acquisition wrist strap; the pulse probe is used for receiving a pulse vibration signal; a pulse sensor for extracting a pulse signal from the pulse vibration signal; the signal conversion module is used for converting the pulse signals extracted by the pulse sensor into pulse data digital signals; the microcontroller is used for sending the pulse data digital signal to the wireless communication module; the wireless communication module is used for transmitting the pulse data digital signals to pulse data analysis equipment connected with the pulse signal acquisition wrist strap through a wireless network; the microcontroller is also used for lighting the signal lamp when receiving the pulse data digital signal.

Because the pulse imaging of the human body varies from person to person and the strength of the pulse imaging varies at any time due to the variation of the body, the pulse signals cannot be accurately picked up by adopting a common sensor, and the acquired pulse signals are inaccurate.

Disclosure of Invention

In view of the above, the main object of the present invention is to provide an intelligent pulse meter.

The technical scheme is as follows:

an intelligent pulsimeter comprises

The measuring end comprises a wrist strap, a collector arranged on the wrist strap, and at least 3 pulse sensors arranged in the collector, wherein each pulse sensor is provided with an inflation bag, the inflation bags are connected with an inflation pipeline, and the tail end of the inflation pipeline is connected with a pipeline concentrator;

a control end which comprises a control module, a power supply module and a micro pump,

the pipeline concentrator is connected with the micro pump through a preposed pipeline, the control module and the micro pump are respectively connected with the power supply module,

the pulse sensor is used for acquiring pulse signals;

a signal conversion module for converting the acquired pulse signal into a digital signal,

a processing module for acquiring and processing the digital signal to obtain the pulse waveform within the period T,

a monitoring module for detecting the end value of the obtained pulse waveform,

the inflation control unit controls the micro pump to inject gas of at least one unit into one or more inflation bags through the pipeline concentrator and the electronic valve through the preposed pipeline if the end value monitored by the monitoring module is smaller than a set threshold value, so that the pulse sensor is pressed down by at least one unit to acquire pulse signals again, and controls the micro pump to perform backflow operation on the gas in one or more inflation bags through the pipeline concentrator and the electronic valve through the preposed pipeline if the end value monitored by the monitoring module is larger than the set threshold value, so that the inflation bags reduce the gas of at least one unit, the pulse sensor returns pressure by at least one unit to acquire the pulse signals again,

and the communication module is used for transmitting the acquired pulse signals to the analysis end.

Preferably, the collection package that the outside of collector comprises silica gel, the lower part embedding of collection package has 3 at least pulse sensors, is provided with the inflatable package of the independent work that corresponds the position setting with pulse sensor in the inside of collection package.

Preferably, the wrist strap is provided with a first strap and a second strap, the first strap is provided with a fixing buckle, the second strap is provided with a movable lantern ring, and the inflation pipeline is arranged along one of the first strap and the second strap.

Preferably, the inflation pipeline is provided with an electronic valve at the pipeline hub.

Preferably, the control module comprises a signal conversion module, a processing module, a monitoring module, an inflation control unit and a communication module, the signal conversion module is respectively connected with the pulse sensor and the processing module, the monitoring module is respectively connected with the processing module and the inflation control unit, and the communication module is connected with the pulse sensor.

Preferably, a plurality of threshold values of the magnitude are arranged in the monitoring module,

the device also comprises a comparison module, wherein the comparison module compares the end value monitored by the monitoring module with a threshold value to obtain which one of the threshold values set by a plurality of quantity values the end value is, and the unit of the inflating and refluxing quantity of the inflating bag is determined according to the threshold value.

The invention monitors the strength of the pulse signals by primarily processing the acquired pulse signals while acquiring the pulse signals, and gives a certain pressure through the strength change. The back end can analyze whether the pulse strength is pathological change or the imaging of the own physical sign conveniently.

The invention can provide a technical information means for remote diagnosis by connecting with a terminal (a mobile phone or mobile equipment similar to the mobile phone).

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Detailed Description

The present invention will be described in detail below with reference to examples and the accompanying drawings.

According to the traditional Chinese medicine, inspection, hearing, inquiry and cutting are common means when seeing a doctor, and with the development of the Internet, many people can watch the doctor through online reservation and cannot feel pulse remotely, so that the intelligent pulse instrument is provided.

Referring to fig. 1, the present invention provides an intelligent pulsometer, comprising

A measuring end comprising a wristband 102, said wristband 102 being provided with a first strap 101 and a second strap, a securing clasp 106 being provided on the first strap 101, a mobile collar 100 being provided on the second strap,

the wrist strap type blood collecting device comprises a collector arranged on a wrist strap 102, wherein the outer part of the collector is provided with a collecting bag formed by silica gel, the lower part of the collecting bag is embedded with at least 3 pulse sensors 103, an inflating bag 104 which is arranged in the collecting bag and corresponds to the pulse sensors and works independently is arranged in the collecting bag, the inflating bag is connected with an inflating pipe 105, and the tail end of the inflating pipe is connected with a pipe concentrator 107; the inflation line is disposed along one of the first strap and the second strap.

A control terminal including a control module 110, a power supply module 109 and a micro-pump 108,

the pipeline concentrator is connected with the micropump through a front pipeline, the control module and the micropump are respectively connected with the power module, the control module comprises a signal conversion module, a processing module, a monitoring module, an inflation control unit and a communication module, the signal conversion module is respectively connected with the pulse sensor and the processing module, the monitoring module is respectively connected with the processing module and the inflation control unit, and the communication module is connected with the pulse sensor.

The pulse sensor is used for acquiring pulse signals;

a signal conversion module for converting the acquired pulse signal into a digital signal,

a processing module for acquiring and processing the digital signal to obtain the pulse waveform within the period T,

a monitoring module for detecting the end value of the obtained pulse waveform,

the inflation control unit controls the micro pump to inject gas of at least one unit into one or more inflation bags through the pipeline concentrator and the electronic valve through the preposed pipeline if the end value monitored by the monitoring module is smaller than a set threshold value, so that the pulse sensor is pressed down by at least one unit to obtain pulse signals again, if the end value monitored by the monitoring module is larger than the set threshold value, the inflation control unit controls the micro pump to perform backflow operation on the gas in one or more inflation bags through the pipeline concentrator and the electronic valve through the preposed pipeline, so that the inflation bags reduce the gas of at least one unit, so that the pulse sensor presses back by at least one unit to obtain the pulse signals again, and the comparison module compares the end value monitored by the monitoring module with the threshold value to obtain which one of the threshold values set by a plurality of quantity values, the units of the amount of inflation and backflow of the inflation bag are determined based on the threshold.

And the communication module is used for transmitting the acquired pulse signals to the analysis end.

The principle is as follows: fixing the wrist band at a pulse position through a first bandage and a second bandage, acquiring a pulse signal of an inspector by a pulse sensor, converting the acquired pulse signal into a digital signal by a signal conversion module, acquiring the digital signal by a processing module and processing the digital signal to obtain a pulse waveform within a period T, detecting an end value of the obtained pulse waveform by the monitoring module, if the end value monitored by the monitoring module is smaller than a set threshold value, controlling the micro-pump to inject gas of at least one unit into one or more inflation bags through a front pipeline and a pipeline concentrator and an electronic valve by an inflation control unit to enable the pulse sensor to be pressed down by at least one unit to acquire the pulse signal again, and if the end value monitored by the monitoring module is larger than the set threshold value, controlling the micro-pump to pass through the pipeline concentrator and the pipeline concentrator by the inflation control unit, The electronic valve performs backflow operation on the gas in one or more of the inflation bags, so that the inflation bags reduce the gas by at least one unit, the pulse sensor performs back pressure by at least one unit, and the pulse signals are acquired again.

The invention can actually obtain a plurality of pulse signals of an examinee under different pressures, then transmit the pulse signals to the analysis end, and judge whether the change is pathological or the imaging of the physical sign of the examinee according to the waveform of the pulse signals by a doctor, if the change is pathological, the pathology of the examinee is analyzed. The invention monitors the strength of the pulse signals by primarily processing the acquired pulse signals while acquiring the pulse signals, and gives a certain pressure through the strength change. The back end can analyze whether the pulse strength is pathological change or the imaging of the own physical sign conveniently.

The technical solutions disclosed in the embodiments of the present invention are described in detail above, and the principles and embodiments of the present invention are explained in the present document by using specific embodiments, and the descriptions of the embodiments are only used to help understanding the principles of the embodiments of the present invention; meanwhile, for a person skilled in the art, according to the embodiments of the present invention, there may be variations in the specific implementation manners and application ranges, and in summary, the content of the present description should not be construed as a limitation to the present invention.

Claims (6)

1. An intelligent pulsoximeter, which is characterized by comprising

The measuring end comprises a wrist strap, a collector arranged on the wrist strap, and at least 3 pulse sensors arranged in the collector, wherein each pulse sensor is provided with an inflation bag, the inflation bags are connected with an inflation pipeline, and the tail end of the inflation pipeline is connected with a pipeline concentrator;

a control end which comprises a control module, a power supply module and a micro pump,

the pipeline concentrator is connected with the micro pump through a preposed pipeline, the control module and the micro pump are respectively connected with the power supply module,

the pulse sensor is used for acquiring pulse signals;

a signal conversion module for converting the acquired pulse signal into a digital signal,

a processing module for acquiring and processing the digital signal to obtain the pulse waveform within the period T,

a monitoring module for detecting the end value of the obtained pulse waveform,

the inflation control unit controls the micro pump to inject gas of at least one unit into one or more inflation bags through the pipeline concentrator and the electronic valve through the preposed pipeline if the end value monitored by the monitoring module is smaller than a set threshold value, so that the pulse sensor is pressed down by at least one unit to acquire pulse signals again, and controls the micro pump to perform backflow operation on the gas in one or more inflation bags through the pipeline concentrator and the electronic valve through the preposed pipeline if the end value monitored by the monitoring module is larger than the set threshold value, so that the inflation bags reduce the gas of at least one unit, the pulse sensor returns pressure by at least one unit to acquire the pulse signals again,

and the communication module is used for transmitting the acquired pulse signals to the analysis end.

2. The intelligent pulse meter according to claim 1, wherein the collector is externally provided with a collection bag made of silica gel, at least 3 pulse sensors are embedded in the lower part of the collection bag, and an independently working inflation bag is arranged in the collection bag and corresponds to the pulse sensors.

3. The intelligent pulse meter according to claim 1, wherein the wrist strap is provided with a first strap and a second strap, the first strap is provided with a fixing buckle, the second strap is provided with a movable sleeve ring, and the inflation line is arranged along one of the first strap and the second strap.

4. The intelligent pulse meter according to claim 1, wherein the inflation pipeline is provided with an electronic valve at a pipeline hub.

5. The intelligent pulse meter according to claim 1, wherein the control module comprises a signal conversion module, a processing module, a monitoring module, an inflation control unit and a communication module, the signal conversion module is connected with the pulse sensor and the processing module respectively, the monitoring module is connected with the processing module and the inflation control unit respectively, and the communication module is connected with the pulse sensor.

6. The intelligent pulse meter of claim 1, wherein a plurality of magnitude thresholds are disposed within the monitoring module,

the device also comprises a comparison module, wherein the comparison module compares the end value monitored by the monitoring module with a threshold value to obtain which one of the threshold values set by a plurality of quantity values the end value is, and the unit of the inflating and refluxing quantity of the inflating bag is determined according to the threshold value.

Images