CN205683404U - Wearable cardiac pacing device - Google Patents

Abstract

The utility model discloses a kind of wearable cardiac pacing device, including wearable body, this wearable body is provided with pacemaker, and this pacemaker includes microcontroller, heart rate sensor, cardiac pacemaker and temperature sensor.Heart rate sensor, cardiac pacemaker and temperature sensor are all connected on microcontroller by holding wire.Heart rate sensor is for monitoring the heart rate data of patient.Microcontroller makes cardiac pacemaker produce impulse oscillation to assist the heart of patient to beat as regularity for producing cardiac pacing pulse according to heart rate data.Temperature sensor is for sensing the chest temperature of patient.Microcontroller is additionally operable to produce pulse regulation signal according to chest temperature, and according to the impulse oscillation frequency of pulse regulation Signal Regulation cardiac pacemaker.This utility model can not only assist patient's heart pace-making to beat as regularity, additionally it is possible to regulates cardiac pacing speed to mate patient body situation according to the chest temperature of patient.

Description

Wearable cardiac pacing device

Technical field

This utility model relates to medical monitoring arts, particularly relates to a kind of wearable cardiac pacing device.

Background technology

When the heart of patient itself naturally pace can not meet the heart rate that patient health requires beat time, it usually needs pass through Cardiac pacemaker accessory heart pace-making provides electric excitation to heart.Usually, heart rate can be with age, sex, work and emotion etc. Factor and change.General women than men is fast, and child is faster than adult, and old man is relatively slow, can temporarily speed when moving and be excited, Have a rest and sleep time slower.The people of such as all ages and classes, heart rate is different, and the age is the least, and heart rate is the fastest.Disease causes Increased heart rate, the when of at most seeing heating, body temperature often raises 1 DEG C, and heart beating is per minute increases by 10～15 times.Due to each trouble The health of person is different, and therefore the speed of heartbeat needs regulation to mate the health of patient.But, existing heart Pacemaker can not regulate cardiac pacing speed to mate patient body situation according to patient body situation.

Utility model content

Main purpose of the present utility model is to provide a kind of wearable cardiac pacing device, it is intended to solve existing heart Pacemaker can not be according to patient body situation regulation cardiac pacing speed with the problem mating patient body situation.

For achieving the above object, this utility model provides a kind of wearable cardiac pacing device, including wearable Body, described wearable body is provided with pacemaker, described pacemaker include microcontroller, heart rate sensor, Cardiac pacemaker and temperature sensor, holding wire is all passed through in described heart rate sensor, cardiac pacemaker and temperature sensor It is connected on described microcontroller, wherein:

Described heart rate sensor is for monitoring the heart rate data of patient, and sends the heart rate data of patient to described micro-control Device processed；

Described microcontroller produces cardiac pacing pulse for the heart rate data according to patient makes described cardiac pacemaker produce Raw impulse oscillation is beated as regularity with the heart of auxiliary patient；

Described temperature sensor is for sensing the chest temperature of patient, and sends the chest temperature of patient to described micro- Controller；

Described microcontroller is additionally operable to the chest temperature according to patient and produces pulse regulation signal, and adjusts according to described pulse The impulse oscillation frequency of cardiac pacemaker described in joint Signal Regulation.

Preferably, the edge of described wearable body is respectively symmetrically and is provided with paste section, the stickup of described paste section Face is provided with medical viscose glue.

Preferably, the front of described wearable body is provided with display screen, and this display screen is for showing the heart rate number of patient According to this and the chest temperature of patient.

Preferably, the front of described wearable body is additionally provided with shift knob, and this shift knob is connected by conductor wire To described microcontroller, it is used for being turned on and off described pacemaker.

Preferably, described pacemaker is a kind of non-intrusion type heart vibration machine being made up of two arrays of electrodes, This pacemaker is arranged on the reverse side of described wearable body.

Preferably, the reverse side of described wearable body is additionally provided with minicell, and this minicell is used for as described heart Pacemaker provides working power.

Preferably, described minicell is chargeable lithium cell or button cell.

Preferably, described minicell is connected by conductor wire charging port, and this charging port is arranged on described can be worn Wear any position, side of body.

Preferably, described pacemaker also includes being connected to the communication unit on described microcontroller by holding wire Unit, this communication unit leads to for the movement heart rate data of patient and chest temperature sent to care provider or medical personnel In letter terminal.

Preferably, described wearable body be shaped as rectangle, square, circle or elliptical shape.

Compared to prior art, wearable cardiac pacing device described in the utility model uses technique scheme, reaches To following technique effect: patient's heart pace-making can not only be assisted to beat as regularity, additionally it is possible to according to the chest temperature of patient Regulation cardiac pacing speed is to mate patient body situation.

Accompanying drawing explanation

Fig. 1 is the Facad structure schematic diagram of this utility model wearable cardiac pacing device preferred embodiment；

Fig. 2 is the inverse layer structure schematic diagram of this utility model wearable cardiac pacing device preferred embodiment；

Fig. 3 is the internal circuit attachment structure schematic diagram of the wearable cardiac pacing device of this utility model.

The realization of this utility model purpose, functional characteristics and advantage will in conjunction with the embodiments, are described further referring to the drawings.

Detailed description of the invention

By further illustrating the technological means and effect that this utility model taked by reaching above-mentioned purpose, below in conjunction with Accompanying drawing and preferred embodiment, be described in detail to detailed description of the invention of the present utility model, structure, feature and effect thereof.Should Working as understanding, specific embodiment described herein, only in order to explain this utility model, is not used to limit this utility model.

As it is shown in figure 1, the Facad structure signal of Fig. 1 wearable cardiac pacing device preferred embodiment that is this utility model Figure.As in figure 2 it is shown, the inverse layer structure schematic diagram of Fig. 2 wearable cardiac pacing device preferred embodiment that is this utility model.

In the present embodiment, described wearable cardiac pacing device includes wearable body 1 and is arranged on wearable Paste section 2 on body 1, described paste section 2 can be two or four, is symmetrically arranged at the surrounding of wearable body 1 Edge.Described wearable body 1 uses lightweight metal material or vulcanie to make, and the shape of described wearable body 1 can To be, but it is not limited to, rectangle, square, circle or elliptical shape.The sticking veneer of described paste section 2 is provided with medical viscose glue, Described paste section 2 can be pasted on do not fall off on human chest skin.Described wearable body 1 use flexible resin or Flexible rubber material is made, and its size is advisable can cover body chest positions's size.

In the present embodiment, described wearable body 1 includes display screen 3, shift knob 4, pacemaker 5, miniature Battery 6 and charging port 7.Described display screen 3 and shift knob 4 are arranged at the front of described wearable body 1, the described heart Dirty pacemaker 5 is arranged at the reverse side of described wearable body 1 (i.e. with make human chest contact one with minicell 6 Face), described charging port 7 is arranged on any position, side of wearable body 1.

Described display screen 3 is for showing heart rate data (such as electrocardiogram) and the chest temperature of patient of patient.Described Shift knob 4 is used for being turned on and off described pacemaker 5.Described pacemaker 5 is for monitoring the heart rate of patient And chest temperature, normally beat according to the heart rate of patient and the heart of chest temperature auxiliary patient.Described minicell 6 is used for Thering is provided working power to described pacemaker 5, this minicell 6 is the chargeable lithium cell of a kind of Low emissivity, low-power consumption Or button cell, the health of patient will not be brought impact by it.Described charging port 7 can be a kind of USB interface or other The battery charging inlet of standard, this charging port 7 is directly inserted into external power source, and (such as computer USB interface or low pressure are steady Depressor etc.) on described minicell 6 is charged.

As it is shown on figure 3, the internal circuit attachment structure signal of Fig. 3 wearable cardiac pacing device that is this utility model Figure.In the present embodiment, described pacemaker 5 include but not limited to, microcontroller 50, heart rate sensor 51, heart Pacemaker 52, temperature sensor 53 and communication unit 54.Described heart rate sensor 51, cardiac pacemaker 52, temperature sensor 53 and communication unit 54 be all connected on described microcontroller 50 by holding wire.Described display screen 3 is connected by holding wire To described microcontroller 50, described shift knob 4 is connected on described microcontroller 50 by conductor wire.Described minicell 6 are connected on described shift knob 4 by conductor wire, and described charging port 7 is connected to described minicell 6 by conductor wire On.

Described heart rate sensor 51 is for monitoring the heart rate data of patient, and sends the heart rate data of patient to described micro- Controller 50.Described temperature sensor 53 is for sensing the chest temperature of patient, and sends the chest temperature of patient to described Microcontroller 50.

Those skilled in the art understand, and owing to the health of each patient is different, therefore the speed of heartbeat is the most different.One As, heart rate can change with factors such as age, sex, work and emotions.Women than men is fast, and child is faster than adult, old man Relatively slow, motion can temporarily speed with time excited, slower when having a rest and sleep.Such as, the people of all ages and classes, heart rate is different , the age is the least, and heart rate is the fastest.The increased heart rate that disease causes, the when of at most seeing heating, body temperature often raises 1 DEG C, the heart Jumping per minute increases by 10～15 times.If the body temperature of patient is more slightly higher than common people, heart rate also compares common people the fastest Point, therefore can regulate the speed of heartbeat to mate the health of patient according to the chest temperature of patient.

In the present embodiment, described microcontroller 50 produces cardiac pacing pulse for the heart rate data according to patient and makes institute State cardiac pacemaker 52 and produce impulse oscillation to assist the heart of patient to beat as regularity.Described cardiac pacemaker 52 is a kind of The non-intrusion type heart vibration machine being made up of two arrays of electrodes, its be arranged on wearable body 1 reverse side (i.e. with make human body breast The one side of portion's contact).Described microcontroller 50 is additionally operable to the chest temperature according to patient and produces pulse regulation signal, and according to arteries and veins Reconstitute the impulse oscillation frequency of cardiac pacemaker 52 described in joint Signal Regulation to mate the health of patient.At the present embodiment In, described microcontroller 50 includes signal generating circuit, and this signal generating circuit can produce the heart according to the heart rate data of patient Dirty pacemaker impulse, it is also possible to produce pulse regulation signal according to the chest temperature of patient.

Described communication unit 54 is a kind of communication interface supporting bluetooth and/or WiFi wireless-transmission network, for suffering from The heart rate data of person and chest temperature data send (such as guards to the mobile communication terminal of care provider or medical personnel Personnel or medical personnel), the health of patient is understood in real time for care provider or medical personnel.

These are only preferred embodiment of the present utility model, not thereby limit the scope of the claims of the present utility model, every Utilize equivalent structure or equivalent function conversion that this utility model description and accompanying drawing content made, or be directly or indirectly used in Other relevant technical fields, are the most in like manner included in scope of patent protection of the present utility model.

Claims (10)

1. a wearable cardiac pacing device, including wearable body, it is characterised in that described wearable body is provided with Pacemaker, described pacemaker includes microcontroller, heart rate sensor, cardiac pacemaker and temperature sensing Device, described heart rate sensor, cardiac pacemaker and temperature sensor be all connected on described microcontroller by holding wire, its In:

Described heart rate sensor is for monitoring the heart rate data of patient, and sends the heart rate data of patient to described microcontroller Device；

Described microcontroller produces cardiac pacing pulse for the heart rate data according to patient makes described cardiac pacemaker produce arteries and veins Punching vibration is beated as regularity with the heart of auxiliary patient；

Described temperature sensor is for sensing the chest temperature of patient, and sends the chest temperature of patient to described microcontroller Device；

Described microcontroller is additionally operable to the chest temperature according to patient and produces pulse regulation signal, and believes according to described pulse regulation Number regulate described cardiac pacemaker impulse oscillation frequency.

Wearable cardiac pacing device the most as claimed in claim 1, it is characterised in that the surrounding of described wearable body Edge is symmetrically arranged with paste section respectively, and the sticking veneer of described paste section is provided with medical viscose glue.

Wearable cardiac pacing device the most as claimed in claim 1, it is characterised in that the front of described wearable body sets Being equipped with display screen, this display screen is for showing the heart rate data of patient and the chest temperature of patient.

Wearable cardiac pacing device the most as claimed in claim 3, it is characterised in that the front of described wearable body is also Being provided with shift knob, this shift knob is connected to described microcontroller by conductor wire, is used for being turned on and off described heart Pacemaker.

Wearable cardiac pacing device the most as claimed in claim 1, it is characterised in that described pacemaker is a kind of The non-intrusion type heart vibration machine being made up of two arrays of electrodes, this pacemaker is arranged on the anti-of described wearable body Face.

Wearable cardiac pacing device the most as claimed in claim 5, it is characterised in that the reverse side of described wearable body is also Being provided with minicell, this minicell is for providing working power for described pacemaker.

Wearable cardiac pacing device the most as claimed in claim 6, it is characterised in that described minicell is chargeable lithium Battery or button cell.

Wearable cardiac pacing device the most as claimed in claim 6, it is characterised in that described minicell passes through conductor wire Connecting and have charging port, this charging port is arranged on any position, side of described wearable body.

9. the wearable cardiac pacing device as described in any one of claim 1 to 8, it is characterised in that described cardiac pacing Device also includes being connected to the communication unit on described microcontroller by holding wire, and this communication unit is for by the heart rate of patient Data and chest temperature send to the mobile communication terminal of care provider or medical personnel.

10. the wearable cardiac pacing device as described in any one of claim 1 to 8, it is characterised in that described wearable Body be shaped as rectangle, square, circle or elliptical shape.