CN108969339A - A kind of method of device for resuscitating heart and pulmones and its CPR - Google Patents

Abstract

The invention discloses a kind of device for resuscitating heart and pulmones and its methods of CPR, belong to CPR technical field, including vital sign monitoring bracelet, sheath and pressing belt；Sheath is placed on torso model, and sheath is equipped with lock, and sheath is equipped with press head, and the lower end surface of press head is that elasticity presses press strip, and elasticity is equipped with displacement sensor by press strip；Pressure control cavity is equipped in press head, the side of pressure control cavity is equipped with air inlet；It is fixedly connected with controller on press head, is equipped with pressure control unit in controller, the two sides of pressure control unit, which are separately connected, is provided with tightening device, and pressing belt one end is connect with tightening device, and the other end is connect with sheath；Controller is wirelessly connected with vital sign monitoring bracelet, displacement sensor respectively.The present invention uses mechanical device for resuscitating heart and pulmones, by the control of controller and the effect of press head, carries out mechanical CPR movement to patient, avoids artificial rescue operation, high-efficient.

Description

A kind of method of device for resuscitating heart and pulmones and its CPR

Technical field

The invention belongs to CPR technical field, in particular to the side of a kind of device for resuscitating heart and pulmones and its CPR Method.

Background technique

Sudden arrest of heart beat once occur, such as cannot rescue recovery in time at once, will cause patient's brain and its after 4~6min The irreversible damage of other people body organs in adult, therefore the CPR (cardiopulmonary after sudden arrest of heart beat Resuscitation, CPR) it must carry out immediately at the scene.Cardiopulmonary arrest readily occurs in the public affairs of not medical aid In total place or gerontal patient family, when cardiopulmonary arrest occurs, patient unconscious can not call rescue；Field Force is not It can skillfully be rescued using cardiopulmonary resuscitation, or wait ambulance arrival time too long, be difficult to adhere to personal physical strength Prolonged cardiopulmonary resuscitation causes patient to lose valuable rescue opportunity.

Summary of the invention

It is an object of the invention to: in view of the above problems, the present invention provides one kind can be to sudden cardiac arrest The method that patient carries out the device for resuscitating heart and pulmones and its CPR of mechanical CPR rescue movement.

To achieve the goals above, the present invention adopts the following technical scheme:

A kind of device for resuscitating heart and pulmones, including vital sign monitoring bracelet, sheath and pressing belt；The sheath is placed on torso model On, sheath is equipped with lock, and the sheath is equipped with press head, and the lower end surface of the press head is that elasticity presses press strip, the bullet Property by press strip be equipped with displacement sensor；Pressure control cavity is equipped in the press head, the side of the pressure control cavity is equipped with Air inlet；It is fixedly connected with controller on the press head, pressure control unit, the pressure control are equipped in the controller The two sides of unit, which are separately connected, is provided with tightening device, and described pressing belt one end is connect with the tightening device, the other end and institute State sheath connection；The controller is wirelessly connected with vital sign monitoring bracelet, displacement sensor respectively.

Further, gps locator and wireless signal alarm are additionally provided on the vital sign monitoring bracelet.Gps is fixed Position device, wireless signal alarm can be when vital sign monitoring bracelet monitor patient's absence of vital signs, can be anxious from trend 120 The center of rescuing sends the positioning of oneself and automatic alarm, and medical staff finds that patient position is further to be rescued as soon as possible.

Further, the tightening device includes tightening wheel and tightening motor, and the motor is connected with power supply, the motor It is connect with the pressure control unit.Tightening wheel driven by the motor tightens pressing belt, and the degree of tightening is controlled by pressure Unit control.

Further, it is additionally provided with bracket on the sheath, artificial respiration resuscitators, institute are fixedly installed on the bracket Stating artificial respiration resuscitators includes emergency resuscitation sacculus, and emergency resuscitation sacculus bottom is equipped with intake valve, and the intake valve connects It is connected to oxygenerator；The top of the emergency resuscitation sacculus is equipped with check valve, and the check valve is connected with mask.Mask is fixed on The face of patient, oxygenerator convey oxygen to emergency resuscitation sacculus, by squeezing emergency resuscitation sacculus, do to patient and manually exhale It inhales, send oxygen 400-600ml, 10-12 times/min of frequency every time.It is multiple using artificial respiration since sheath is contractile sheath When Soviet Union's device practices artificial respiration, tightening device is in most loose state for the control of belt tensioner at this time, and belt tensioner is to sheath The treatment to patient's CPR is improved so sheath will not influence the expansion of thorax to thoracic cavity no pressure without any drawing force Effect.

Further, the pressure control cavity is the arching pressure control chamber of cambered surface upward.The pressure control cavity energy of arc It is enough that there is preferably pressing effect by press strip to elasticity.

Further, the displacement sensor is also connected with displacement display.Displacement display can display device to trouble The depth of person's chest compression.

Further, the displacement sensor is set to the center position that the elasticity presses press strip.It is available more quasi- True displacement.

A kind of CPR method, comprising the following steps:

Step 1: setting controller while setting receives absence of vital signs signal, first carries out 30 cardiac compressions, pressing Position be located at lower 1/3 in the double nipple line midpoint, that is, breastbones of patient；Depth, that is, displacement sensor displacement of pressing is 5cm, frequency are 100 times/min, and the lock on sheath is then unlocked before practicing artificial respiration, and sheath and press head is made to deviate chest Chamber, then practiced artificial respiration by artificial respiration resuscitators to patient, mask clasps mouth and nose, squeezes emergency resuscitation sacculus, every time Send oxygen 400-600ml, 10-12 times/min of frequency；

Step 2: bracelet is monitored by the vital sign that patient wears, vital sign patient is monitored in real time, once the patient respiratory heart Stop jumping is stopped, and device for resuscitating heart and pulmones is started, and is sent and is asked to 120 first-aid centres simultaneously by gps locator and wireless signal alarm Information and accurate positionin are rescued, if Field Force assists to wear, and it is multiple to start cardiopulmonary without vital sign monitoring bracelet is worn Soviet Union's device；The vital sign includes heart rate, blood pressure, transcutaneous oxygen saturation；

Step 3: bracelet being monitored by vital sign and assesses whether heart rate, blood pressure, blood oxygen saturation are restored, such as Successful Resuscitation Stop recovery, otherwise continues CPR.

The operation principle of the present invention is that: upper jacket is covered on the thoracic cavity of heart disease patients, and patient wears life on hand Sign monitors bracelet, when vital sign monitoring bracelet monitoring is less than life entities such as the hearts rate, blood pressure, transcutaneous oxygen saturation of patient When sign, signal is sent to controller by wireless network；Since sheath is equipped with press head, the lower end surface of press head is elasticity By press strip, elasticity is equipped with displacement sensor by press strip；Pressure control cavity is equipped in press head, the side of pressure control cavity is equipped with Air inlet；It is fixedly connected with controller on press head, pressure control unit, the two sides point of pressure control unit are equipped in controller It is not connected with tightening device, described pressing belt one end is connect with the tightening device, and the other end is connect with the sheath；Control Device processed is wirelessly connected with vital sign monitoring bracelet, displacement sensor respectively；After controller receives absence of vital signs signal, control Pressure control unit in device processed controls tightening device, and pressing belt is tightened, and press head moves downward, and by air inlet, squeezes Elasticity presses press strip, presses the thoracic cavity of patient, and the position of pressing is located at lower 1/3 in the double nipple line midpoint, that is, breastbones of patient, when When displacement sensor senses that displacement is 5cm, pressure control unit control tightening device stops working, and press head is replied To original operating position, pressure control unit does repetitive operation to press head repeatedly, carries out CPR movement, frequency to patient Rate is 100 times/min, and after monitoring that patient has vital sign, controller stops working.

The invention has the benefit that

1, in the present invention, bracelet is monitored to carry out real-time monitoring to patient using vital sign, and monitor bracelet in vital sign On gps locator and wireless alarm are installed, when patient's absence of vital signs, can quickly from 120 first-aid centre of trend send out The positioning of oneself and automatic alarm are given, medical staff finds that patient position is further to be rescued as soon as possible.

2, in the present invention, using mechanical device for resuscitating heart and pulmones, pass through the control of controller and press head, sheath Collective effect carries out mechanical CPR to patient and presses standard operation, allows thorax sufficiently to spring back, avoid artificial rescue Operation, it is high-efficient.

3, in the present invention, bracelet discovery morbidity at the first time is monitored by vital sign, starts cardiopulmonary at the first time Recovery device carries out mechanical resuscitation, has held the nearest rescue time of 4~6min of sudden arrest of heart beat, improve rescue at Power.

4, in the present invention, artificial respiration resuscitators are provided with, mask is fixed on to the face of patient, oxygenerator is multiple to first aid Sacculus of reviving conveys oxygen, by squeezing emergency resuscitation sacculus, does artificial respiration to patient, send oxygen 400-600ml, frequency every time 10-12 times/min, the therapeutic effect to patient's CPR is improved, provides oxygen in time to patient in During Cardiopulmonary Resuscitation Gas further increases salvage success rate.

Detailed description of the invention

Fig. 1 is schematic structural view of the invention；

Fig. 2 is artificial respiration resuscitators structural schematic diagram in the present invention.

In figure, 1- torso model, 2- elasticity presses press strip, 3- press head, 4- wireless signal alarm, 5-gps locator, 6- Vital sign monitoring bracelet, 7- air inlet, 8- controller, 9- pressure control unit, 10- tightening device, 11- pressure control cavity, 12- displacement sensor, 13- pressing belt, 14- artificial respiration resuscitators, 15- bracket, 16- oxygenerator, 17- lock, 18- sheath, 19- emergency resuscitation sacculus, 20- intake valve, 21- check valve, 22- mask.

Specific embodiment

The following further describes the present invention with reference to the drawings.

Embodiment 1:

As shown in Figure 1, a kind of device for resuscitating heart and pulmones, including vital sign monitoring bracelet 6, sheath 18 and pressing belt 13；The shield Set 18 is placed on torso model 1, and the sheath 18 is equipped with lock 17, and the sheath 18 is equipped with press head 3, the press head 3 lower end surface is that elasticity presses press strip 2, and the elasticity is equipped with displacement sensor 12 by press strip 2；Pressure is equipped in the press head 3 The side of power control chamber 11, the pressure control cavity 11 is equipped with air inlet 7；It is fixedly connected with controller 8 on the press head 3, It is equipped with pressure control unit 9 in the controller 8, the two sides of the pressure control unit 9, which are separately connected, is provided with tightening device 10, described 13 one end of pressing belt is connect with the tightening device 10, and the other end is connect with the sheath 18；The controller 8 divides It is not wirelessly connected with vital sign monitoring bracelet 6, displacement sensor 12.

The working principle of the present embodiment are as follows: upper jacket 18 is covered on the torso model 1 of heart disease patients, and patient is on hand It wears vital sign and monitors bracelet 6, when vital sign monitoring bracelet 6 monitoring is less than the heart rate of patient, blood pressure, percutaneous blood oxygen saturation When the vital signs such as degree, signal is sent to controller 8 by wireless network；Since sheath 18 is equipped with press head 3, press head 3 lower end surface is that elasticity presses press strip 2, and elasticity is equipped with displacement sensor 12 by press strip 2；Pressure control cavity is equipped in press head 3 11, the side of pressure control cavity 11 is equipped with air inlet 7；It is fixedly connected with controller 8 on press head 3, is equipped with pressure in controller 8 Control unit 9, the two sides of pressure control unit 9, which are separately connected, is provided with tightening device 10, described 13 one end of pressing belt with it is described Tightening device 10 connects, and the other end is connect with the sheath 18；Controller 8 incudes with vital sign monitoring bracelet 6, displacement respectively Device 12 is wirelessly connected；The control tightening dress of pressure control unit 9 after controller 8 receives absence of vital signs signal, in controller 8 10 are set, pressing belt 13 is tightened, press head 3 moves downward, and by air inlet 7, squeezes elasticity and presses press strip 2, press the people of patient Body thoracic cavity 1, the position of pressing is located at lower 1/3 in the double nipple line midpoint, that is, breastbones of patient, when displacement sensor sense 12 should arrive When displacement is 5cm, pressure control unit 9 controls tightening device 10 and stops working, and press head 3 is restored to original work Position, pressure control unit 9 do repetitive operation to press head 3 repeatedly, to patient carry out CPR movement, frequency be 100 times/ Min, after monitoring that patient has vital sign, controller 9 stops working.

Embodiment 2:

As shown in Figure 1, a kind of device for resuscitating heart and pulmones, including vital sign monitoring bracelet 6, sheath 18 and pressing belt 13；The shield Set 18 is placed on torso model 1, and the sheath 18 is equipped with lock 17, and the sheath 18 is equipped with press head 3, the press head 3 lower end surface is that elasticity presses press strip 2, and the elasticity is equipped with displacement sensor 12 by press strip 2；Pressure is equipped in the press head 3 The side of power control chamber 11, the pressure control cavity 11 is equipped with air inlet 7；It is fixedly connected with controller 8 on the press head 3, It is equipped with pressure control unit 9 in the controller 8, the two sides of the pressure control unit 9, which are separately connected, is provided with tightening device 10, described 13 one end of pressing belt is connect with the tightening device 10, and the other end is connect with the sheath 18；The controller 8 divides It is not wirelessly connected with vital sign monitoring bracelet 6, displacement sensor 12.

Gps locator 5 and wireless signal alarm 4 are additionally provided on the vital sign monitoring bracelet 6.Gps locator 5, Wireless signal alarm 4 can be when vital sign monitoring bracelet 6 monitors patient's absence of vital signs, can be from 120 first aid of trend Center sends the positioning of oneself and automatic alarm, and medical staff finds that patient position is further to be rescued as soon as possible.

The tightening device 10 includes tightening wheel and tightening motor, and the motor is connected with power supply, the motor with it is described Pressure control unit 9 connects.Tightening wheel driven by the motor tightens pressing belt 13, and the degree of tightening is by pressure control unit 9 controls.

It is additionally provided with bracket 15 on the sheath 18, artificial respiration resuscitators 14, institute are fixedly installed on the bracket 15 Stating artificial respiration resuscitators 14 includes emergency resuscitation sacculus 19, and 19 bottom of emergency resuscitation sacculus is equipped with intake valve 20, described Intake valve 20 is connected with oxygenerator 16；The top of the emergency resuscitation sacculus 19 is equipped with check valve 21, and the check valve 21 connects There is mask 22.Mask 22 is fixed on to the face of patient, oxygenerator 16 conveys oxygen to emergency resuscitation sacculus 19, anxious by squeezing Recovery balloon 19 is rescued, does artificial respiration to patient, send oxygen 400-600ml, 10-12 times/min of frequency, due to sheath 18 every time For contractile sheath, when being practiced artificial respiration using artificial respiration resuscitators, control of the tightening device for belt tensioner at this time In most loose state, belt tensioner without any drawing force, so sheath will not influence the expansion of thorax, improves pair sheath 18 The therapeutic effect of patient's CPR.

The pressure control cavity 11 is the arching pressure control chamber 11 of cambered surface upward.The pressure control cavity 11 of arc can be right Elasticity has preferably pressing effect by press strip 2.

The displacement sensor 12 is also connected with displacement display.Displacement display can display device chest is pressed The depth of pressure.

The displacement sensor 12 is set to the center position that the elasticity presses press strip 2.Available more accurate position Shifting amount.

The present embodiment is identical as the working principle of embodiment 1.

Embodiment 3:

As shown in Figure 1, a kind of CPR method, comprising the following steps:

Step 1: setting controller while setting receives absence of vital signs signal, first carries out 30 cardiac compressions, pressing Position be located at lower 1/3 in the double nipple line midpoint, that is, breastbones of patient；Depth, that is, displacement sensor displacement of pressing is 5cm, frequency are 100 times/min, and the lock on sheath is then unlocked before practicing artificial respiration, and sheath and press head is made to deviate chest Chamber, then practiced artificial respiration by artificial respiration resuscitators to patient, mask clasps mouth and nose, squeezes emergency resuscitation sacculus, every time Send oxygen 400ml, 10 times/min of frequency；

Step 2: bracelet is monitored by the vital sign that patient wears, vital sign patient is monitored in real time, once the patient respiratory heart Stop jumping is stopped, and device for resuscitating heart and pulmones is started, and is sent and is asked to 120 first-aid centres simultaneously by gps locator and wireless signal alarm Information and accurate positionin are rescued, if Field Force assists to wear, and it is multiple to start cardiopulmonary without vital sign monitoring bracelet is worn Soviet Union's device；The vital sign includes heart rate, blood pressure, transcutaneous oxygen saturation；

Step 3: bracelet being monitored by vital sign and assesses whether heart rate, blood pressure, blood oxygen saturation are restored, such as Successful Resuscitation Stop recovery, otherwise continues CPR.

Embodiment 4:

The present embodiment difference from Example 3 is, is manually exhaled by artificial respiration resuscitators patient in step 1 It inhales, mask clasps mouth and nose, squeezes emergency resuscitation sacculus, send oxygen 500ml, 11 times/min of frequency every time.

Embodiment 5:

The present embodiment difference from Example 3 is, is manually exhaled by artificial respiration resuscitators patient in step 1 It inhales, mask clasps mouth and nose, squeezes emergency resuscitation sacculus, send oxygen 600ml, 12 times/min of frequency every time.

Claims (8)

1. a kind of device for resuscitating heart and pulmones, it is characterised in that: including vital sign monitoring bracelet (6), sheath (18) and pressing belt (13)；The sheath (18) is placed on torso model (1), and the sheath (18), which is equipped with, latches (17), on the sheath (18) Equipped with press head (3), the lower end surface of the press head (3) is that elasticity presses press strip (2), and the elasticity is equipped with position by press strip (2) It moves inductor (12)；Pressure control cavity (11) are equipped in the press head (3), the side of the pressure control cavity (11) be equipped with into Port (7)；It is fixedly connected with controller (8) on the press head (3), pressure control unit is equipped in the controller (8) (9), the two sides of the pressure control unit (9), which are separately connected, is provided with tightening device (10), described pressing belt (13) one end with Tightening device (10) connection, the other end are connect with the sheath (18)；The controller (8) respectively with the vital sign Monitor bracelet (6), displacement sensor (12) is wirelessly connected.

2. a kind of device for resuscitating heart and pulmones according to claim 1, it is characterised in that: the vital sign monitors bracelet (6) On be additionally provided with gps locator (5) and wireless signal alarm (4).

3. a kind of device for resuscitating heart and pulmones according to claim 1, it is characterised in that: the tightening device (10) includes tightening Wheel and tightening motor, the motor are connected with power supply, and the motor is connect with the pressure control unit (9).

4. a kind of device for resuscitating heart and pulmones according to claim 1, it is characterised in that: be additionally provided with branch on the sheath (18) Frame (15) is fixedly installed with artificial respiration resuscitators (14) on the bracket (15), and the artificial respiration resuscitators (14) include Emergency resuscitation sacculus (19), emergency resuscitation sacculus (19) bottom are equipped with intake valve (20), and the intake valve (20) is connected with Oxygenerator (16)；The top of the emergency resuscitation sacculus (19) is equipped with check valve (21), and the check valve (21) is connected with mask (22).

5. a kind of device for resuscitating heart and pulmones according to claim 1, it is characterised in that: the pressure control cavity (11) is cambered surface Arching pressure control chamber (11) upward.

6. a kind of device for resuscitating heart and pulmones according to claim 1, it is characterised in that: the displacement sensor (12) is also connected with There is displacement display.

7. a kind of device for resuscitating heart and pulmones according to claim 1, it is characterised in that: the displacement sensor (12) is set to institute Elasticity is stated by the center position of press strip (2).

8. a kind of CPR method, which comprises the following steps:

Step 1: setting controller while setting receives absence of vital signs signal, first carries out 30 cardiac compressions, pressing Position be located at lower 1/3 in the double nipple line midpoint, that is, breastbones of patient；Depth, that is, displacement sensor displacement of pressing is 5cm, frequency are 100 times/min, and the lock on sheath is then unlocked before practicing artificial respiration, and sheath and press head is made to deviate chest Chamber, then practiced artificial respiration by artificial respiration resuscitators to patient, mask clasps mouth and nose, squeezes emergency resuscitation sacculus, every time Send oxygen 400-600ml, 10-12 times/min of frequency；

Step 2: bracelet is monitored by the vital sign that patient wears, vital sign patient is monitored in real time, once the patient respiratory heart Stop jumping is stopped, and device for resuscitating heart and pulmones is started, and is sent and is asked to 120 first-aid centres simultaneously by gps locator and wireless signal alarm Information and accurate positionin are rescued, if Field Force assists to wear, and it is multiple to start cardiopulmonary without vital sign monitoring bracelet is worn Soviet Union's device；The vital sign includes heart rate, blood pressure, transcutaneous oxygen saturation；

Step 3: bracelet being monitored by vital sign and assesses whether heart rate, blood pressure, blood oxygen saturation are restored, such as Successful Resuscitation Stop recovery, otherwise continues CPR.