CN106390257A - Intelligent CPR (Cardio-Pulmonary Resuscitation) device - Google Patents

Abstract

The invention discloses an intelligent CPR (Cardio-Pulmonary Resuscitation) device. The intelligent CPR device is characterized in that a defibrillation pulse output circuit, a high-pressure generator, a control module comprising a microprocessor, an intelligent voice module, an external communication interface, a high-pressure oxygen bottle and an air source are arranged in a shell; respiration assistance failure signal lamps, a respiration assistance failure display screen, a respiration assistance control button and a respiration assistance switch button are arranged on the side surface of the shell; an air outlet and an oxygen outlet are formed in the back surface of the shell, and a respiration mask and a mask handle are arranged on the back surface of the shell; a defibrillation system and a respiration assistance system are formed. The intelligent CPR device disclosed by the invention has the advantages of high efficiency, small size, complete functions, convenience in carrying and the like.

Description

A kind of intelligent device for resuscitating heart and pulmones

Technical field

The present invention relates to armarium, especially a kind of intelligent device for resuscitating heart and pulmones.

Background technology

With the quickening of people's rhythm of life, sudden increasing, also more unpredictable of disease.According to incomplete Statistics, the whole world can account for 1/3rd of total death toll due to the dead people of cardiovascular disease, each in daily life Class heart disease takes place frequently, and through all age group.Also living habit is bad and environmental factorss are likely to cause Ventricular fibrillation or ventricle all standing.Without timely being rescued, will have and greatly may injure life.Initially people Adopt electric defibrillation, this is a kind of very important rescue instrument, but the survival rate of sudden illness people be as wait electricity remove Time of quivering and reduce.In order to be that patient is obtained in that and timely rescues, crash equipment must be to be carried to patient's body Side, wants the energy that can charge rapidly and reach more than 200 joules when defibrillation simultaneously.

In addition, the first-aid apparatus species on market is also a lot, such as monitoring formula defibrillator, respirator etc, but this A little instruments are to be operated by professional in hospital or rescue in-car mostly.Be inconvenient to be carried to rescue scene, operation is compared Specialty is complicated, and non-medical staff is difficult to grasp correct frequency and the power of cardio-pulmonary resuscitation pressing.Non-medical staff is difficult on quick Handss, thus optimal rescue time can be missed so that patient is absorbed in dangerous situation.

Content of the invention

Present invention aim at providing a kind of complete function, intelligent device for resuscitating heart and pulmones easy and simple to handle, easy to carry.

For achieving the above object, employ technical scheme below：The invention mainly comprises shell, handle, electrode slice A, electricity Pole piece B, described shell is rectangular structure, and top is provided with handle；In the inside of shell, defibrillation pulse output circuit, high pressure are installed Generator, the control module containing microprocessor, intelligent sound module, external communication interface, high-pressure oxygen cylinder and air source of the gas；

It is provided with power interface, self-test signal lamp, attention gatter, shift knob, mode signal lamp, electrode slice in the front of shell Mounting groove, shock button；The outfan of the control module containing microprocessor respectively with high tension generator, external communication interface, Intelligent sound module connects, and forms defibrillation system；External communication interface respectively with self-test signal lamp, attention gatter, shift knob, mould Formula signal lighties, shock button connect；The outfan of high tension generator is connected with defibrillation pulse output circuit, defibrillation pulse output electricity The feeder ear on road is connected with the power interface on shell, and electrode slice A, electrode slice B are connected with power interface by connecting plug；Remove The impulse output circuit that quivers separately is connected with the control module containing microprocessor, and pulse data is sent to the control containing microprocessor Molding block；

The side of shell be provided with Respiration assistance emergency light, Respiration assistance failure screen, Respiration assistance control by Button, Respiration assistance shift knob；It is provided with air outlet, oxygen gas outlet, breathing mask, mask handle at the back side of shell； The outlet passageway of high-pressure oxygen cylinder, the outlet passageway of air source of the gas are connected with air storage chamber air inlet pipe respectively, the going out of air storage chamber Trachea is connected with lung capacity tests machine, air outlet, oxygen gas outlet respectively, and air outlet, oxygen gas outlet can be distinguished Communicated with breathing mask by airway；Respiration assistance emergency light, Respiration assistance failure screen respectively with controller Signal output part is connected, and Respiration assistance control knob, Respiration assistance shift knob are connected with the signal input part of controller respectively.

Further, oxygen pressure gauge is installed on high-pressure oxygen cylinder.

Further, described electrode slice A, electrode slice B are arranged on pressing plate, on pressing plate install compression frequency induction apparatuss and According to pressing depth induction apparatuss, described compression frequency induction apparatuss and according to pressing depth induction apparatuss composition sensor assembly, this sensor assembly With sampling holder module, AD converter module, one-chip computer module, D/A converter module, variable connector module, contain microprocessor The control module of device is sequentially connected with；Described sensor assembly turns after sampled for the data collecting keeper module through AD again Parallel operation module converter becomes digital signal, and digital signal sends and carries out contrast process to one-chip computer module, and comparing result is changed through DA The control module containing microprocessor, the control mould containing microprocessor is given by variable connector module feedback after the conversion of device module Block control voice module carries out voice message.

Further, power supply is installed in described air storage chamber and disconnects attention device and switch failure alarm.

Further, the escape pipe of described air storage chamber is connected with the air inlet of fogger, and the outlet pipe of fogger is respectively Connect with lung capacity tests machine, air outlet, oxygen gas outlet.

Further, filter is installed at the air outlet of described air storage chamber.

Further, the escape pipe of described air storage chamber is installed airway pressure meter and relief valve.

Further, the control in built-in humidity sensor in described moistener, this humidity sensor and respiration auxiliary system Device processed is connected.

The work process of defibrillation system approximately as：

Press power knob first, instrument enters self-inspection state, if internal wiring can normally use, instrument can voice Prompting is normal.Then electrode slice enters quick-charge state, so that bipolar electrode piece is connected with main frame, described electrode slice is configured with pressure Power is connected with control circuit with frequency sensor, carries out pasting electrode slice to patient, according to the speed pressing and pressure, it will voice Prompting operator's whether suitable operation, such that it is able to quickly be rescued.

The work process of respiration auxiliary system approximately as：

When supply, gas will enter an air storage chamber, successively through filter impurity screening gas, then filter Gas afterwards enters moistener, and the gas after moistening will be by relief valve after passing through the detection of airway pressure meter, and relief valve regulates and controls Gas afterwards passes through breathing mask to patient's oxygen supply, and simultaneously through spirometer, control knob can regulate and control air inflow Size, in case different disease Man's Demands.

Compared with prior art, the invention has the advantages that：

1st, decrease to the time of high-voltage capacitor charging, which improves the success rate of first aid.

2nd, reduce overall structure, be easy to carry and dispose in megastore and large-scale public place, or make in family With.

3rd, may replace artificial respiration, can reach and while Respiration assistance, carry out electric defibrillation, by reading quick-reading flow sheets And skilled operation is it is adaptable to the rescue to burst patient for the layman.

4th, setting many places warning piece, more safe and reliable during use, instrument has air and oxygen air inlet simultaneously, The sick Man's Demands of different levels can be met.

5th, possess sound prompt function, operation can suitably be cured according to voice message.

Brief description

Fig. 1 is the front view of the present invention.

Fig. 2 is the side view of the present invention.

Fig. 3 is the rearview of the present invention.

Fig. 4 is the schematic diagram of bipolar electrode piece part of the present invention.

Fig. 5 is the defibrillation circuit system diagram of the present invention.

Fig. 6 is the structure principle chart of the respiration auxiliary system of the present invention.

Fig. 7 is the workflow diagram of intelligent sound module in the present invention.

Fig. 8 is the circuit theory diagrams of mesohigh generator of the present invention.

Drawing reference numeral：1- handle；2- power interface；3- self-test signal lamp；4- attention gatter；5- shift knob；6- pattern is believed Signal lamp；7- electrode slice mounting groove；8- shock button；9- Respiration assistance emergency light；10- Respiration assistance failure screen；11- Respiration assistance control knob；12- Respiration assistance shift knob；13- air outlet；14- oxygen gas outlet；15- breathing mask； 16- mask handle；17- compression frequency induction apparatuss；18- electrode slice A；19- according to pressing depth induction apparatuss；20- connecting plug；21- electricity Pole piece B；22- defibrillation pulse output circuit；23- high tension generator；24- contains the control module of microprocessor；25- correspondence with foreign country connects Mouthful；26- air source of the gas；27- high-pressure oxygen cylinder；28- oxygen pressure gauge；29- air outlet passageway；30- oxygen outlet passageway； 31- power supply disconnects attention device；32- switch failure alarm；33- filter；34- moistener；35- airway pressure meter；36- safety Valve；37- lung capacity tests machine；38- one-chip computer module；39-AD conversion module；40- sampling holder module；41- multichannel is opened Close module；42- sensor assembly；43-DA conversion module；44- intelligent sound module；45- charging pulse generator；46- stores up Can core transformers；47- high-power switch tube；48- diode；49- high-voltage energy storage capacitor；50- voltage feedback circuit；51- electricity Pressure comparator；52- and gate circuit；53- drive circuit；54- power circuit.

Specific embodiment

The present invention will be further described below in conjunction with the accompanying drawings：

The invention mainly comprises shell, handle 1, electrode slice A18, electrode slice B21, described shell is rectangular structure, top Portion is provided with handle；In the inside of shell, defibrillation pulse output circuit 22, high tension generator 23, the control containing microprocessor are installed Module 24, intelligent sound module 44, external communication interface 25, high-pressure oxygen cylinder 27 and air source of the gas 26；

The front of shell be provided with power interface 2, self-test signal lamp 3, attention gatter 4, shift knob 5, mode signal lamp 6, Electrode slice mounting groove 7, shock button 8；The outfan of the control module containing microprocessor is respectively with high tension generator, externally lead to Letter interface, intelligent sound module connect, and form defibrillation system；External communication interface respectively with self-test signal lamp, attention gatter, switch Button, mode signal lamp, shock button connect；The outfan of high tension generator is connected with defibrillation pulse output circuit, except running pulse The feeder ear rushing output circuit is connected with the power interface on shell, and electrode slice A, electrode slice B pass through connecting plug 20 and power supply Interface is connected；Defibrillation pulse output circuit is separately connected with the control module containing microprocessor, and pulse data is sent to containing The control module of microprocessor；

It is provided with Respiration assistance emergency light 9, Respiration assistance failure screen 10, Respiration assistance control in the side of shell Button 11, Respiration assistance shift knob 12；It is provided with air outlet 13, oxygen gas outlet 14, breathing mask at the back side of shell 15th, mask handle 16；The outlet passageway 30 of high-pressure oxygen cylinder, air source of the gas outlet passageway 31 respectively with air storage chamber air inlet pipe phase Lead to and connect, the escape pipe of air storage chamber is connected with lung capacity tests machine 37, air outlet, oxygen gas outlet respectively, and air is given vent to anger Mouth, oxygen gas outlet can be communicated with breathing mask by airway respectively；Respiration assistance emergency light, Respiration assistance fault show Display screen is connected with the signal output part of controller respectively, Respiration assistance control knob, Respiration assistance shift knob respectively with control The signal input part of device is connected.

Further, oxygen pressure gauge 28 is installed on high-pressure oxygen cylinder.

Further, described electrode slice A, electrode slice B are arranged on pressing plate, install compression frequency induction apparatuss 17 on pressing plate According to pressing depth induction apparatuss 19, described compression frequency induction apparatuss and according to pressing depth induction apparatuss composition sensor assembly 42, this sensing Device module and sampling holder module 40, AD converter module 39, one-chip computer module 38, D/A converter module 43, variable connector Module 41, the control module containing microprocessor are sequentially connected with；Described sensor assembly is by sampled for the data collecting holding Digital signal is become through AD converter module converter again, digital signal sends and carries out at contrast to one-chip computer module after device module Reason, comparing result gives the control module containing microprocessor by variable connector module feedback after the conversion of D/A converter module, Control module control voice module containing microprocessor carries out voice message.

Further, power supply is installed in described air storage chamber and disconnects attention device 31 and switch failure alarm 32.

Further, the escape pipe of described air storage chamber is connected with the air inlet of fogger 34, and the outlet pipe of fogger divides Do not connect with lung capacity tests machine, air outlet, oxygen gas outlet.

Further, filter 33 is installed at the air outlet of described air storage chamber.

Further, the escape pipe of described air storage chamber is installed airway pressure meter 35 and relief valve 36.

Further, the control in built-in humidity sensor in described moistener, this humidity sensor and respiration auxiliary system Device processed is connected.

As shown in figure 8, in defibrillation system, comprising one and contain the control module of microprocessor, a defibrillation pulse output Circuit and a high tension generator.Described high-voltage generator circuit includes charging pulse generator 45, energy storage core transformers 46th, high-power switch tube 47, diode 48, high-voltage energy storage capacitor 49, voltage feedback circuit 50, voltage comparator 51 and door electricity Road 52, drive circuit 53；Described energy storage core transformers source sideline circle one termination positive source, the other end passes through high power switch Pipe is connected to power cathode, and secondary coil is connected to high-voltage energy storage capacitor by diode, and secondary coil is to high-voltage energy storage capacitor Charging is to occur after the circle energy storage of source sideline terminates, and the voltage output of described high-voltage energy storage capacitor connects voltage feedback circuit to control Circuit processed, the two ends of described source sideline circle are connected to the positive-negative input end of a voltage comparator, the output of voltage comparator with One permission charging signals collective effect of control circuit, that is, a permission of the output of voltage comparator and control circuit Charging signals are connected to one and door, and the output with door forms a pulse triggering signal, and pulse triggering signal is connected to charging Pulse generator, the output of this charging pulse generator is connected to the control end of high-power switch tube by drive circuit, described High-voltage energy storage capacitor is also connected with defibrillation pulse output circuit.When microprocessor control module sends charging instruction, microprocessor Device allows the control signal of pulse generator output to put high potential, and now the positive input current potential of voltage comparator is that power end is higher than Negative input current potential, voltage comparator exports high potential, and pulse enabling signal is output as high potential, and the pulse signal of a rising will High-power switch tube is driven to turn on, and energy storage is enclosed in source sideline, and electric current rises；When first end-of-pulsing, high-power switch tube closes Disconnected, because source winding current will not be mutated, so the induced voltage contrast of source sideline circle, the negative input of voltage comparator Terminal potential steeply rises, and the output of such voltage comparator will block the output of next pulse, now secondary for electronegative potential Coil passes through diode and charges to electric capacity, and after this process terminates, the output of voltage comparator has returned to original state is height Current potential, pulse enabling signal is high potential, will start the energy storage charging process of a new round, until microprocessor is from Voltage Feedback Circuit obtains feedback signal and informs that the voltage of electric capacity has reached predetermined value, and microprocessor sends complete charge instruction, microprocessor The control signal allowing pulse generator output is controlled to set low current potential, locking pulse signal output.

As shown in figure 1, first clicking on power knob, carry out the self-inspection of instrument after opening instrument first, self-inspection normally rear number Self-test signal lamp 3 can give a green light and voice prompt operation person's instrument is normal, if self-inspection abnormal then self-test signal lantern festival is bright Red light and point out fault；After self-inspection, high tension generator 23 carries out quick charge to electrode slice, after determination is errorless, by double electricity The connecting plug of pole piece inserts the power supply connector of bipolar electrode piece, patient is carried out pasting electrode slice afterwards.As shown in figure 4, according to The prompting electrode slice A left breast of patch on paster is on the upper side, and the electrode slice B right breast of patch is on the lower side, and then self-test signal lamp and attention gatter can flash, Remind operator need not touch patient, instrument enters analytical model, such as Fig. 7 will gather exhaling of patient by sensor assembly Inhale frequency and heart beating dynamic frequency, the data then collecting becomes the sampled keeper of digital signal through AD converter module converter Module enters back into one-chip computer module and carries out contrast process, and comparing result can pass through variable connector mould after the conversion of D/A converter module Block feeds back to control module, is then exported by voice module, if patient's heart beating stops, voice module can remind behaviour Author shocks by electricity operation immediately, if patient respiration is weaker, heartbeat is slow, then voice module can remind operator to carry out outside breast Pressing and in time electric shock are reminded；When pressing, sensor assembly understands pressing speed and the pressure of acquisition operations person Value, these data enter the mark with setting in one-chip computer module by sampling holder module after AD converter module converter one-tenth Quasi- value is contrasted, and result passes through variable connector module feedback to control module after D/A converter module, finally by voice mould Block exports, if the operator's pressing speed collecting differs larger with pressure value with standard value range, instrument can propose language Sound is reminded, and then operator makes corresponding change to reach standard value range requirement.

As shown in figure 5, being provided with power interface, self-test signal lamp, attention gatter, shift knob, pattern letter in the front of shell Signal lamp, electrode slice mounting groove, shock button；The outfan of the control module containing microprocessor respectively with high tension generator, right Outer communication interface, intelligent sound module connect, and form defibrillation system.

When carrying out Respiration assistance operation, as shown in Fig. 2 being first turned on Respiration assistance shift knob, such as Fig. 6, if shown It is that high-pressure oxygen cylinder provides source of the gas, then need to check whether connection is correct, is provided with oxygen pressure gauge above high-pressure oxygen cylinder, It is connected to power supply at air storage chamber and disconnects attention device and switch failure alarm, feedack will show in face on a display screen Show, will persistently flash if there is fault so emergency light, confirming errorless rear connection breathing mask；If air carries Air supply source, equally has fault diagnosis, confirms errorless rear supply.When supply, gas will enter an air storage chamber, successively Through filter impurity screening gas, the gas after then filtering enters moistener, and the gas after moistening passes through airway pressure meter Will be by relief valve after detection, the gas after relief valve regulation and control passes through breathing mask to patient's oxygen supply, simultaneously through vital capacity Measurement amount, control knob can regulate and control the size of air inflow, in case different disease Man's Demands.

Embodiment described above is only that the preferred embodiment of the present invention is described, the not model to the present invention Enclose and be defined, on the premise of without departing from design spirit of the present invention, the technical side to the present invention for the those of ordinary skill in the art Various modifications and improvement that case is made, all should fall in the protection domain of claims of the present invention determination.

Claims (8)

1. a kind of intelligent device for resuscitating heart and pulmones, mainly include shell, handle, electrode slice A, electrode slice B it is characterised in that：Institute Stating shell is rectangular structure, and top is provided with handle；The inside of shell install defibrillation pulse output circuit, high tension generator, Control module containing microprocessor, intelligent sound module, external communication interface, high-pressure oxygen cylinder and air source of the gas；

It is provided with power interface in the front of shell, self-test signal lamp, attention gatter, shift knob, mode signal lamp, electrode slice are laid Groove, shock button；The outfan of the control module containing microprocessor respectively with high tension generator, external communication interface, intelligence Voice module connects, and forms defibrillation system；External communication interface is believed with self-test signal lamp, attention gatter, shift knob, pattern respectively Signal lamp, shock button connect；The outfan of high tension generator is connected with defibrillation pulse output circuit, defibrillation pulse output circuit Feeder ear is connected with the power interface on shell, and electrode slice A, electrode slice B are connected with power interface by connecting plug；Except running pulse Rush output circuit to be separately connected with the control module containing microprocessor, pulse data is sent to the control mould containing microprocessor Block；

It is provided with Respiration assistance emergency light, Respiration assistance failure screen, Respiration assistance control knob, exhales in the side of shell Inhale auxiliary switch button；It is provided with air outlet, oxygen gas outlet, breathing mask, mask handle at the back side of shell；Hyperbaric oxygen The outlet passageway of gas cylinder, the outlet passageway of air source of the gas are connected with air storage chamber air inlet pipe respectively, and the escape pipe of air storage chamber divides Do not connect with lung capacity tests machine, air outlet, oxygen gas outlet, air outlet, oxygen gas outlet can be passed through to lead respectively Trachea is communicated with breathing mask；Respiration assistance emergency light, Respiration assistance failure screen are defeated with the signal of controller respectively Go out end to be connected, Respiration assistance control knob, Respiration assistance shift knob are connected with the signal input part of controller respectively.

2. a kind of intelligent device for resuscitating heart and pulmones according to claim 1 it is characterised in that：High-pressure oxygen cylinder is installed Oxygen pressure gauge.

3. a kind of intelligent device for resuscitating heart and pulmones according to claim 1 it is characterised in that：Described electrode slice A, electrode slice B is arranged on pressing plate, installs compression frequency induction apparatuss and according to pressing depth induction apparatuss on pressing plate, described compression frequency induction apparatuss with According to pressing depth induction apparatuss composition sensor assembly, this sensor assembly and sampling holder module, AD converter module, single-chip microcomputer Module, D/A converter module, variable connector module, the control module containing microprocessor are sequentially connected with；Described sensor assembly Digital signal will be become through AD converter module converter again, digital signal sends after sampled for the data collecting keeper module Carry out contrast process to one-chip computer module, comparing result is contained by variable connector module feedback after the conversion of D/A converter module There is the control module of microprocessor, the control module control voice module containing microprocessor carries out voice message.

4. a kind of intelligent device for resuscitating heart and pulmones according to claim 1 it is characterised in that：Electricity is installed in described air storage chamber Source disconnects attention device and switch failure alarm.

5. a kind of intelligent device for resuscitating heart and pulmones according to claim 1 it is characterised in that：The escape pipe of described air storage chamber Connect with the air inlet of fogger, the outlet pipe of fogger respectively with lung capacity tests machine, air outlet, oxygen gas outlet Connect.

6. a kind of intelligent device for resuscitating heart and pulmones according to claim 1 it is characterised in that：The outlet side of described air storage chamber Filter is installed at mouthful.

7. a kind of intelligent device for resuscitating heart and pulmones according to claim 1 it is characterised in that：The escape pipe of described air storage chamber Upper installation airway pressure meter and relief valve.

8. a kind of intelligent device for resuscitating heart and pulmones according to claim 5 it is characterised in that：Built-in wet in described moistener Degree sensor, this humidity sensor is connected with the controller in respiration auxiliary system.