CN114712210A

CN114712210A - Intracardiac branch of academic or vocational study emergency auxiliary device for cardiac resuscitation

Info

Publication number: CN114712210A
Application number: CN202210360072.1A
Authority: CN
Inventors: 王翠翠; 崔茵茵
Original assignee: First Affiliated Hospital of Henan University of Science and Technology
Current assignee: First Affiliated Hospital of Henan University of Science and Technology
Priority date: 2022-04-07
Filing date: 2022-04-07
Publication date: 2022-07-08

Abstract

The invention relates to an emergency auxiliary device for cardiac resuscitation, belonging to the technical field of medical instruments and aiming at solving the problem that the prior emergency auxiliary device for automatically pressing the heart is difficult to defibrillate the patient and causes poor rescue effect, a first defibrillation mounting main body and a second defibrillation mounting main body are respectively arranged on two sides of the cardiac pressing main body, the outer wall of a mounting rack is provided with a monitoring terminal, the monitoring terminal comprises an emergency call module and a non-professional operation module, the emergency call module is electrically connected with a single chip microcomputer, the single chip microcomputer is electrically connected with a signal transceiver module, the signal transceiver module is electrically connected with a moving end, the non-professional operation module is electrically connected with a real-time voice module, a first defibrillation mechanism is arranged at the lower end of the first defibrillation mounting main body, a second defibrillation mechanism is arranged at the lower end of the second defibrillation mounting main body, and the cardiac pressing is automatically performed on the patient by the cardiac pressing main body, the first defibrillation mechanism and the second defibrillation mechanism are matched to defibrillate the patient, and the rescue effect is remarkable.

Description

Intracardiac branch of academic or vocational study emergency auxiliary device for cardiac resuscitation

Technical Field

The invention relates to the technical field of medical instruments, in particular to an emergency auxiliary device for a cardiology department for cardiac resuscitation.

Background

Cardiopulmonary resuscitation refers to a phenomenon that when a human body suffers from external or self basic injury, shock occurs to cause sudden stop of respiration and heartbeat, and emergency rescue measures are taken to avoid irreversible injury caused by the fact that brain cells and organ tissues cannot obtain enough blood and oxygen due to the stop of the respiration and the heartbeat. The heart suddenly stops beating or undergoes ventricular fibrillation due to some temporary cause, so that blood circulation cannot be maintained, especially the blood supply to the central nerves, and a correct and active resuscitation should be immediately performed or else a person will die in a short period of time due to systemic hypoxia.

If ventricular fibrillation occurs to a patient, the patient finally causes heartbeat and respiration to stop, and cardiac compression must be started immediately, but medical staff know that a certain time is needed and the best rescue period is likely to be missed, so that an emergency auxiliary device capable of automatically compressing the heart appears in the market, and family members can take rescue measures in advance before the medical staff arrive, however, the existing emergency auxiliary device capable of automatically compressing the heart is difficult to defibrillate the patient, and the rescue effect is poor.

To solve the above problems. Therefore, the emergency auxiliary device for the cardiology department for cardiac resuscitation is provided.

Disclosure of Invention

The invention aims to provide an emergency auxiliary device for a cardiology department for cardiac resuscitation, which solves the problems in the background art.

In order to achieve the purpose, the invention provides the following technical scheme: a cardiac resuscitation emergency auxiliary device for department of cardiology comprises a mounting frame movably arranged at the upper end of a sickbed, wherein a cardiac compression main body is movably arranged in an inner cavity of the mounting frame, a first defibrillation mounting main body and a second defibrillation mounting main body are respectively arranged on two sides of the cardiac compression main body, and a monitoring terminal is arranged on the outer wall of the mounting frame;

the monitoring terminal comprises an emergency call module and a non-professional operation module, the emergency call module is electrically connected with the single chip microcomputer, the single chip microcomputer is electrically connected with the signal receiving and transmitting module, the signal receiving and transmitting module is electrically connected with the mobile terminal, and the non-professional operation module is electrically connected with the real-time voice module;

the outer wall of one end, far away from the monitoring terminal, of the mounting frame is provided with a conversion mechanism, a first defibrillation mechanism is installed at the lower end of the first defibrillation installation main body, a second defibrillation mechanism is installed at the lower end of the second defibrillation installation main body, the first defibrillation mechanism and the second defibrillation mechanism are identical in composition structure, the first defibrillation mechanism and the second defibrillation mechanism are symmetrically distributed in the center of the heart pressing main body, and a control panel is installed on one side of the mounting frame.

Further, the conversion mechanism comprises a motor arranged on the outer wall of the mounting frame, a driving screw is fixedly connected to the output end of the motor, a driving wheel is fixedly connected to one end, away from the motor, of the driving screw, a fixed mounting disc is arranged at one end of the driving wheel, a first driven screw and a second driven screw are respectively arranged on two sides of the driving screw, a first driven wheel and a second driven wheel are respectively arranged on two sides of the driving wheel, the driving wheel is in transmission connection with the first driven wheel and the second driven wheel, the first driven wheel is fixedly connected with one end of the first driven screw, the second driven wheel is fixedly connected with one end of the second driven screw, a first slider is in threaded connection with the outer wall of the driving screw, the lower end of the first slider is connected with the heart pressing main body, a second slider and a third slider are respectively in threaded connection with the outer walls of the first driven screw and the second driven screw, and the lower end of the second slider is connected with the first defibrillation mounting main body, the lower end of the third sliding block is connected with the second defibrillation mechanism.

Furthermore, the threads of the outer walls of the first driven screw and the second driven screw are the same and are symmetrically distributed about the center of the driving screw, and the thread structures of the first driven screw and the driving screw are opposite.

Furthermore, the first defibrillation mechanism comprises a power outer rod arranged at the lower end of the first defibrillation installation main body, a push-down inner rod is arranged in an inner cavity of the power outer rod, the lower end of the push-down inner rod is connected with the defibrillator in a clamping mode, an auxiliary handle is arranged at the upper end of the defibrillator, an elastic rope is installed at the upper end of the defibrillator, and one end, far away from the defibrillator, of the elastic rope is fixedly connected with the power outer rod.

Furthermore, a clamping groove is formed in the upper end of the defibrillator and is matched with the push-down inner rod, an elastic fixing block is installed on the outer wall of the push-down inner rod, a fixing groove matched with the elastic fixing block is formed in the inner wall of the clamping groove, and an auxiliary mechanism is arranged at one end, far away from the clamping groove, of the fixing groove.

Further, the auxiliary mechanism comprises an auxiliary block arranged on the outer wall of the defibrillator, a movable groove is formed in one end of the auxiliary block and communicated with a fixed groove, a middle connecting block is fixedly connected to one end of the auxiliary block, a pushing block is fixedly connected to one end, far away from the auxiliary block, of the middle connecting block, and a first reset spring and a second reset spring are arranged on two sides of the middle connecting block respectively.

Further, the lower extreme of mounting bracket is provided with the fly leaf with sick bed sliding connection, and the junction of fly leaf and sick bed is provided with fixed establishment.

Further, fixed establishment is including setting up first fixed plate and the second fixed plate at the fly leaf inner wall to and the activity sets up the turning block at the fly leaf outer wall, the first threaded rod of one end fixedly connected with of turning block, the one end fixedly connected with center connecting rod of turning block is kept away from to first threaded rod, the one end fixedly connected with second threaded rod of first threaded rod is kept away from to center connecting rod, the helicitic texture of first threaded rod and second threaded rod is opposite, the outer wall threaded connection of first threaded rod has the second fixed plate, the outer wall threaded connection of second threaded rod has first fixed plate.

Furthermore, the lower end of the defibrillator is provided with a bearing plate, the upper end of the bearing plate is provided with a pressing plate, and one end of the pressing plate is connected with a cleaning mechanism.

Further, clearance mechanism includes that the overlap joint is accepting the connecting bottom plate of board upper end, and the upper end of connecting bottom plate articulates there is the clearance swash plate, and the center pivot is installed to the upper end of connecting bottom plate, and the one end of center pivot is provided with the rebound pole, and the one end and the clearance swash plate hub connection of rebound pole, the clean silk floss of arc is installed to the upper end of clearance swash plate.

Compared with the prior art, the invention has the beneficial effects that:

1. the utility model provides a cardiac resuscitation is with emergent auxiliary device of intracardiac branch of academic or vocational study, when patient appears the room and quivers, at first lead to send distress signal at medical personnel's removal end through singlechip trigger signal transceiver module at emergency call module, patient's family members accessible control panel selects non-professional operation module this moment, can trigger real-time voice module through non-professional operation module and guide family members in real time, press the main part through the heart and carry out the heart to patient and press automatically, the cooperation through first defibrillation mechanism and second defibrillation mechanism can be defibrillated patient, the rescue effect is showing, the current emergent auxiliary device of automatic pressing the heart of having solved is difficult to defibrillate patient, so lead to the not good technical problem of rescue effect.

2. The utility model provides a heart is emergent auxiliary device of intracardiac branch of academic or vocational study for resuscitation, press the main part at the heart and press the back to the heart, the starter motor, it rotates to drive the initiative screw rod through the motor, the initiative screw rod drives the action wheel and rotates, the action wheel is through the cooperation with first follow driving wheel and second follow driving wheel, drive first driven screw rod and second driven screw rod and rotate simultaneously, when the initiative screw rod rotates, the first slider of accessible drives the heart and presses the main part and move backward, because of the helicitic texture between first driven screw rod and the initiative screw rod is opposite, so at this moment, second slider and third slider drive first defibrillation mechanism and second defibrillation mechanism relative movement through first defibrillation installation main part of defibrillation and second defibrillation installation main part, can defibrillate the patient through first defibrillation mechanism and second defibrillation mechanism, the effect is showing, not only cooperate splendid, and each other is not disturbed.

3. An emergency auxiliary device for cardiac resuscitation, when defibrillating a patient, family members can smear conductive paste on a defibrillator under the real-time guidance of a real-time voice module, then press an auxiliary block, drive a middle connecting block to push a push block, push an elastic fixed block out of a fixed groove through the push block, the defibrillator can detach a lower push rod, the family members can electrically shock and defibrillate at the correct position under the guidance, the operation is convenient, after a first defibrillation mechanism and a second defibrillation mechanism are moved away by a conversion mechanism, the defibrillator can be squeezed when passing through a cleaning inclined plate, the cleaning inclined plate can downwards squeeze an internal spring of the rebound rod, the cleaning inclined plate can be driven to be attached to the defibrillator by the counter-acting force of the rebound rod, so that the defibrillator can clean the conductive paste at the bottom end of the defibrillator by arc-shaped cleaning sponge when passing through the cleaning inclined plate, the cleaning effect is obvious.

Drawings

FIG. 1 is a schematic overall structure diagram of the emergency auxiliary device for cardiac resuscitation of the present invention;

FIG. 2 is a schematic view of the interior of the mounting frame of the emergency auxiliary device for cardiac resuscitation in accordance with the present invention;

FIG. 3 is a diagram illustrating the internal structure of a monitoring terminal of the emergency auxiliary device for cardiac resuscitation according to the present invention;

FIG. 4 is a schematic perspective view of a mounting bracket of the emergency auxiliary device for cardiac resuscitation in accordance with the present invention;

FIG. 5 is a schematic structural diagram of a transformation mechanism of the emergency auxiliary device for cardiac resuscitation of the present invention;

FIG. 6 is an exploded view of a first defibrillation mechanism of the emergency cardiac assist device for cardiac resuscitation according to the present invention;

FIG. 7 is an enlarged view at B of FIG. 6 of the cardiac resuscitation emergency assistance device of the present invention;

FIG. 8 is a schematic structural diagram of an auxiliary mechanism of the emergency auxiliary device for cardiac resuscitation of the present invention;

FIG. 9 is an enlarged view at A of FIG. 1 of the cardiac resuscitation emergency assistance device of the present invention;

FIG. 10 is an exploded view of the attachment mechanism of the emergency cardiac assist device for cardiac resuscitation according to the present invention;

FIG. 11 is a schematic structural diagram of a bearing plate, a pressing plate and a cleaning mechanism of the emergency auxiliary device for cardiac medicine for cardiac resuscitation according to the present invention;

fig. 12 is a schematic structural diagram of a cleaning mechanism of the emergency auxiliary device for cardiac resuscitation in the department of cardiology according to the present invention.

In the figure: 1. a hospital bed; 2. a mounting frame; 3. a cardiac compression subject; 4. a first defibrillation mounting body; 5. A second defibrillation mounting body; 6. monitoring a terminal; 61. an emergency call module; 62. a single chip microcomputer; 63. a signal transceiving module; 64. a mobile terminal; 65. a non-professional operation module; 66. a real-time voice module; 7. a conversion mechanism; 71. an electric motor; 72. a driving screw; 73. a driving wheel; 74. fixing the mounting plate; 75. a first driven screw; 76. a second driven screw; 77. a first driven wheel; 78. a second driven wheel; 79. a first slider; 710. a second slider; 711. a third slider; 8. a first defibrillation mechanism; 81. a powered outer pole; 82. pushing down the inner rod; 83. a defibrillator; 84. an auxiliary handle; 85. an elastic cord; 86. a clamping groove; 87. An elastic fixing block; 88. fixing grooves; 89. an auxiliary mechanism; 891. an auxiliary block; 892. a movable groove; 893. A middle connection block; 894. a push block; 895. a first return spring; 896. a second return spring; 810. a bearing plate; 811. pressing a plate; 812. a cleaning mechanism; 8121. connecting the bottom plate; 8122. cleaning the inclined plate; 8123. A central rotating shaft; 8124. a rebound rod; 8125. arc cleaning cotton; 9. a second defibrillation mechanism; 10. A control panel; 11. a movable plate; 12. a fixing mechanism; 121. a first fixing plate; 122. a second fixing plate; 123. rotating the block; 124. a first threaded rod; 125. a central link; 126. a second threaded rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In order to solve the technical problem that the existing emergency auxiliary device for automatically pressing the heart is difficult to defibrillate a patient, so that the rescue effect is poor, as shown in fig. 1 to 4, the following preferred technical scheme is provided:

an emergency auxiliary device for a cardiac medicine department for cardiac resuscitation comprises a mounting frame 2 movably arranged at the upper end of a hospital bed 1, a cardiac compression main body 3 is movably arranged in an inner cavity of the mounting frame 2, a first defibrillation mounting main body 4 and a second defibrillation mounting main body 5 are respectively arranged at two sides of the cardiac compression main body 3, a monitoring terminal 6 is arranged on the outer wall of the mounting frame 2, the monitoring terminal 6 comprises an emergency call module 61 and a non-professional operation module 65, the emergency call module 61 is electrically connected with a single chip microcomputer 62, the single chip microcomputer 62 is electrically connected with a signal transceiver module 63, the signal transceiver module 63 is electrically connected with a moving end 64, the non-professional operation module 65 is electrically connected with a real-time voice module 66, a conversion mechanism 7 is arranged on the outer wall of one end of the mounting frame 2 far away from the monitoring terminal 6, a first defibrillation mechanism 8 is arranged at the lower end of the first defibrillation mounting main body 4, and a second defibrillation mechanism 9 is arranged at the lower end of the second defibrillation mounting main body 5, the first defibrillation mechanism 8 and the second defibrillation mechanism 9 have the same composition structure, are symmetrically distributed about the center of the heart pressing main body 3, and are provided with a control panel 10 on one side of the mounting frame 2.

Concretely, when patient appears the ventricular fibrillation, firstly lead to send distress signal at medical personnel's removal end 64 at emergency call module 61 through singlechip 62 trigger signal transceiver module 63, patient's family members accessible control panel 10 selects non-professional operation module 65 this moment, can trigger real-time voice module 66 through non-professional operation module 65 and instruct family members in real time, press main part 3 through the heart and carry out the heart to patient automatically and press, can defibrillate patient through the cooperation of first defibrillation mechanism 8 and second defibrillation mechanism 9, the rescue effect is showing, it is difficult to defibrillate patient to have solved current automatic emergency auxiliary device who presses the heart, so lead to the not good technical problem of rescue effect.

In order to ensure the coordination of cardiac compression and defibrillation, as shown in fig. 5, the following preferred technical solutions are provided:

the conversion mechanism 7 comprises a motor 71 arranged on the outer wall of the mounting frame 2, the output end of the motor 71 is fixedly connected with a driving screw 72, one end of the driving screw 72, which is far away from the motor 71, is fixedly connected with a driving wheel 73, one end of the driving wheel 73 is provided with a fixed mounting disc 74, two sides of the driving screw 72 are respectively provided with a first driven screw 75 and a second driven screw 76, two sides of the driving wheel 73 are respectively provided with a first driven wheel 77 and a second driven wheel 78, the driving wheel 73 is in transmission connection with the first driven wheel 77 and the second driven wheel 78, the first driven wheel 77 is fixedly connected with one end of the first driven screw 75, the second driven wheel 78 is fixedly connected with one end of the second driven screw 76, the outer wall of the driving screw 72 is in threaded connection with a first slider 79, the lower end of the first slider 79 is connected with the heart pressing body 3, the outer walls of the first driven screw 75 and the second driven screw 76 are respectively in threaded connection with a second slider 710 and a third slider 711, the lower end of the second slider 710 is connected with the first defibrillation mounting body 4, the lower end of the third slider 711 is connected with the second defibrillation mechanism 9, the threads of the outer walls of the first driven screw 75 and the second driven screw 76 are the same and are symmetrically distributed about the center of the driving screw 72, and the thread structures between the first driven screw 75 and the driving screw 72 are opposite.

Specifically, after the heart pressing body 3 presses the heart, the motor 71 is started, the motor 71 drives the driving screw 72 to rotate, the driving screw 72 drives the driving wheel 73 to rotate, the driving wheel 73 drives the first driven screw 75 and the second driven screw 76 to simultaneously rotate through the cooperation with the first driven wheel 77 and the second driven wheel 78, when the driving screw 72 rotates, the heart pressing body 3 can be driven to move backwards through the first slider 79, and because the thread structures between the first driven screw 75 and the driving screw 72 are opposite, at this time, the second slider 710 and the third slider 711 drive the first defibrillation mechanism 8 and the second defibrillation mechanism 9 to relatively move through the first defibrillation mounting body 4 and the second defibrillation mounting body 5, defibrillation can be performed on the patient through the first defibrillation mechanism 8 and the second defibrillation mechanism 9, and has a remarkable effect and not only excellent cooperation, and do not interfere with each other.

In order to facilitate the operation of defibrillation by the family members, as shown in fig. 6 to 8, the following preferred solutions are provided:

the first defibrillation mechanism 8 comprises a power outer rod 81 arranged at the lower end of the first defibrillation installation body 4, a lower push rod 82 is arranged in an inner cavity of the power outer rod 81, the lower end of the lower push rod 82 is connected with a defibrillator 83 in a clamping mode, an auxiliary handle 84 is arranged at the upper end of the defibrillator 83, an elastic rope 85 is installed at the upper end of the defibrillator 83, one end, far away from the defibrillator 83, of the elastic rope 85 is fixedly connected with the power outer rod 81, a clamping groove 86 is formed in the upper end of the defibrillator 83, the clamping groove 86 is matched with the lower push rod 82, an elastic fixing block 87 is installed on the outer wall of the lower push rod 82, a fixing groove 88 matched with the elastic fixing block 87 is formed in the inner wall of the clamping groove 86, and an auxiliary mechanism 89 is arranged at one end, far away from the clamping groove 86, of the fixing groove 88.

The assisting mechanism 89 comprises an assisting block 891 arranged on the outer wall of the defibrillator 83, a movable groove 892 is arranged at one end of the assisting block 891, the movable groove 892 is communicated with the fixing groove 88, a middle joint block 893 is fixedly connected to one end of the assisting block 891, a push block 894 is fixedly connected to one end, far away from the assisting block 891, of the middle joint block 893, and a first return spring 895 and a second return spring 896 are arranged on two sides of the middle joint block 893 respectively.

Specifically, when defibrillation is performed on a patient, at the moment, family members can paint conductive paste on the defibrillator 83 under the real-time guidance of the real-time voice module 66, then press the auxiliary block 891, drive the middle connecting block 893 to push the push block 894 by using the auxiliary block 891, push the elastic fixing block 87 out of the fixing groove 88 by using the push block 894, at the moment, the defibrillator 83 can be separated from the lower push rod 82, at the moment, the family members can perform electric shock defibrillation at the accurate position under guidance, the operation is convenient, after defibrillation, the defibrillator 83 is clamped with the lower push rod 82 by using the clamping groove 86 again, the first defibrillation mechanism 8 and the second defibrillation mechanism 9 are moved away by using the conversion mechanism 7, and the cardiac compression main body 3 can be simultaneously approached.

In order to facilitate the adjustment of the position of the device, as shown in fig. 1, 9 and 10, the following preferred solutions are provided:

the lower extreme of mounting bracket 2 is provided with the fly leaf 11 with sick bed 1 sliding connection, the junction of fly leaf 11 and sick bed 1 is provided with fixed establishment 12, fixed establishment 12 is including setting up first fixed plate 121 and the second fixed plate 122 at fly leaf 11 inner wall, and the activity sets up the turning block 123 at fly leaf 11 outer wall, the first threaded rod 124 of one end fixedly connected with of turning block 123, the one end fixedly connected with central connecting rod 125 of turning block 123 is kept away from to first threaded rod 124, the one end fixedly connected with second threaded rod 126 of first threaded rod 124 is kept away from to central connecting rod 125, the helicitic texture of first threaded rod 124 and second threaded rod 126 is opposite, the outer wall threaded connection of first threaded rod 124 has second fixed plate 122, the outer wall threaded connection of second threaded rod 126 has first fixed plate 121.

Specifically, the mounting bracket 2 is matched with the sickbed 1 through the movable plate 11, so that the whole device can move on the sickbed 1, when the device needs to be fixed after moving, the rotating block 123 only needs to be pulled off, the first threaded rod 124 and the second threaded rod 126 can rotate simultaneously, and the first fixing plate 121 and the second fixing plate 122 can move relatively due to the fact that the thread structures of the first threaded rod 124 and the second threaded rod 126 are opposite, so that the bed rod of the sickbed 1 is clamped, and the purpose of fixing is achieved.

In order to facilitate cleaning of the conductive paste applied by the defibrillator, as shown in fig. 11-12, the following preferred solutions are provided:

the lower extreme of defibrillator 83 is provided with accepts board 810, the upper end of accepting board 810 is provided with clamp plate 811, the one end of clamp plate 811 is connected with clearance mechanism 812, clearance mechanism 812 includes the connection bottom plate 8121 of overlap joint in accepting board 810 upper end, the upper end of connecting bottom plate 8121 articulates there is clearance swash plate 8122, central pivot 8123 is installed to the upper end of connecting bottom plate 8121, the one end of central pivot 8123 is provided with resilience pole 8124, the one end and the clearance swash plate 8122 hub connection of resilience pole 8124, clean continuous 8125 of arc is installed to the upper end of clearance swash plate 8122.

Specifically, utilize conversion mechanism 7 to remove back with first defibrillation mechanism 8 and second defibrillation mechanism 9, defibrillator 83 is through clearing up swash plate 8122 when, can extrude it, clearing up swash plate 8122 can be downward with rebound rod 8124's inside spring extrusion state this moment, reaction force through rebound rod 8124 can drive clearance swash plate 8122 laminating defibrillator 83, make defibrillator 83 when clearing up swash plate 8122, the clean continuous 8125 of accessible arc can clean the electrically conductive paste of defibrillator 83's bottom, the cleaning effect is showing.

In summary, the following steps: when a patient has ventricular fibrillation, firstly, the emergency call module 61 triggers the signal transceiver module 63 to send a distress signal to the moving end 64 of a medical worker through the single chip microcomputer 62, at the moment, the family members of the patient can select the non-professional operation module 65 through the control panel 10, the non-professional operation module 65 triggers the real-time voice module 66 to guide the family members in real time, the heart pressing main body 3 automatically presses the heart of the patient, the patient can be defibrillated through the cooperation of the first defibrillation mechanism 8 and the second defibrillation mechanism 9, after the heart pressing main body 3 presses the heart, the motor 71 is started, the motor 71 drives the driving screw 72 to rotate, the driving screw 72 drives the driving wheel 73 to rotate, the driving wheel 73 drives the first driven screw 75 and the second driven screw 76 to rotate simultaneously through the cooperation of the first driven wheel 77 and the second driven wheel 78, when the driving screw 72 rotates, the heart pressing body 3 can be driven by the first slide block 79 to move backwards, because the thread structures between the first driven screw 75 and the driving screw 72 are opposite, at this time, the second slide block 710 and the third slide block 711 drive the first defibrillation mechanism 8 and the second defibrillation mechanism 9 to move relatively through the first defibrillation mounting body 4 and the second defibrillation mounting body 5, the patient can be defibrillated through the first defibrillation mechanism 8 and the second defibrillation mechanism 9, when the patient is defibrillated, the family members can apply conductive paste on the defibrillator 83 under the real-time guidance of the real-time voice module 66, then the auxiliary block 891 is pressed, the auxiliary block 891 drives the middle connecting block 893 to push the push block 894, the elastic fixing block 87 is pushed out of the fixing groove 88 through the push block 894, at this time, the defibrillator 83 can be separated from the push-down inner rod 82, at this time, the family members can shock and defibrillate at the correct position under the guidance, convenient operation, utilize conversion mechanism 7 to remove first defibrillation mechanism 8 and second defibrillation mechanism 9 back, defibrillator 83 is through clearance swash plate 8122 during, can extrude it, clearance swash plate 8122 can be downward with rebound rod 8124's inside spring extrusion state this moment, reaction force through rebound rod 8124 can drive clearance swash plate 8122 laminating defibrillator 83, make defibrillator 83 when clearing up swash plate 8122, the clean continuous 8125 of accessible arc can clean the electrically conductive paste of defibrillator 83's bottom, the clearance effect is showing.

It should be noted that, in this document, relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims

1. The utility model provides a heart is emergent auxiliary device of intracardiac branch of academic or vocational study for resuscitation, sets up mounting bracket (2) in sick bed (1) upper end including the activity, and the inner chamber activity of mounting bracket (2) is provided with the heart and presses main part (3), its characterized in that: a first defibrillation mounting main body (4) and a second defibrillation mounting main body (5) are respectively arranged on two sides of the heart pressing main body (3), and a monitoring terminal (6) is arranged on the outer wall of the mounting frame (2);

the monitoring terminal (6) comprises an emergency call module (61) and a non-professional operation module (65), the emergency call module (61) is electrically connected with the single chip microcomputer (62), the single chip microcomputer (62) is electrically connected with the signal receiving and transmitting module (63), the signal receiving and transmitting module (63) is electrically connected with the mobile terminal (64), and the non-professional operation module (65) is electrically connected with the real-time voice module (66);

the one end outer wall that monitoring terminal (6) were kept away from in mounting bracket (2) is provided with conversion mechanism (7), first defibrillation mechanism (8) are installed to the lower extreme of first defibrillation installation main part (4), second defibrillation mechanism (9) are installed to the lower extreme of second defibrillation installation main part (5), first defibrillation mechanism (8) are the same with the component structure of second defibrillation mechanism (9), and press the central symmetric distribution of main part (3) about the heart, control panel (10) are installed to one side of mounting bracket (2).

2. The cardiac resuscitation emergency aid device as set forth in claim 1, wherein said emergency assistance device comprises: the conversion mechanism (7) comprises a motor (71) arranged on the outer wall of the mounting frame (2), the output end of the motor (71) is fixedly connected with a driving screw (72), one end, far away from the motor (71), of the driving screw (72) is fixedly connected with a driving wheel (73), one end of the driving wheel (73) is provided with a fixed mounting disc (74), two sides of the driving screw (72) are respectively provided with a first driven screw (75) and a second driven screw (76), two sides of the driving wheel (73) are respectively provided with a first driven wheel (77) and a second driven wheel (78), the driving wheel (73) is in transmission connection with the first driven wheel (77) and the second driven wheel (78), the first driven wheel (77) is fixedly connected with one end of the first driven screw (75), the second driven wheel (78) is fixedly connected with one end of the second driven screw (76), the outer wall of the driving screw (72) is in threaded connection with a first sliding block (79), the lower end of the first sliding block (79) is connected with the heart pressing main body (3), the outer walls of the first driven screw (75) and the second driven screw (76) are respectively in threaded connection with a second sliding block (710) and a third sliding block (711), the lower end of the second sliding block (710) is connected with the first defibrillation mounting main body (4), and the lower end of the third sliding block (711) is connected with the second defibrillation mechanism (9).

3. A cardiology emergency aid device for cardiac resuscitation as claimed in claim 2, wherein: the threads of the outer walls of the first driven screw (75) and the second driven screw (76) are the same and are symmetrically distributed about the center of the driving screw (72), and the thread structures between the first driven screw (75) and the driving screw (72) are opposite.

4. A cardiology emergency aid device for cardiac resuscitation as claimed in claim 3, wherein: the first defibrillation mechanism (8) comprises a power outer rod (81) arranged at the lower end of the first defibrillation mounting main body (4), a push-down rod (82) is arranged in an inner cavity of the power outer rod (81), the lower end of the push-down rod (82) is connected with a defibrillator (83) in a clamping mode, an auxiliary handle (84) is arranged at the upper end of the defibrillator (83), an elastic rope (85) is mounted at the upper end of the defibrillator (83), and one end, far away from the defibrillator (83), of the elastic rope (85) is fixedly connected with the power outer rod (81).

5. The cardiac resuscitation emergency aid device as claimed in claim 4, wherein said emergency assistance device comprises: the upper end of defibrillator (83) has been seted up and has been blocked groove (86), block groove (86) and push down interior pole (82) phase-match, push down the outer wall of interior pole (82) and install elasticity fixed block (87), the inner wall of block groove (86) is seted up with elasticity fixed block (87) assorted fixed slot (88), the one end that block groove (86) were kept away from in fixed slot (88) is provided with complementary unit (89).

6. The cardiac resuscitation emergency aid device as claimed in claim 5, wherein said emergency assistance device comprises: the auxiliary mechanism (89) comprises an auxiliary block (891) arranged on the outer wall of the defibrillator (83), a movable groove (892) is formed in one end of the auxiliary block (891), the movable groove (892) is communicated with a fixing groove (88), a middle connecting block (893) is fixedly connected to one end of the auxiliary block (891), a push block (894) is fixedly connected to one end, far away from the auxiliary block (891), of the middle connecting block (893), and a first reset spring (895) and a second reset spring (896) are arranged on two sides of the middle connecting block (893) respectively.

7. The cardiac resuscitation emergency aid device as set forth in claim 1, wherein said emergency assistance device comprises: the lower end of the mounting rack (2) is provided with a movable plate (11) which is connected with the sickbed (1) in a sliding way, and a fixing mechanism (12) is arranged at the joint of the movable plate (11) and the sickbed (1).

8. The cardiac resuscitation emergency aid device as claimed in claim 7, wherein said emergency assistance device comprises: fixed establishment (12) are including setting up first fixed plate (121) and second fixed plate (122) at fly leaf (11) inner wall to and the activity sets up turning block (123) at fly leaf (11) outer wall, the one end fixedly connected with first threaded rod (124) of turning block (123), one end fixedly connected with central connecting rod (125) of turning block (123) are kept away from in first threaded rod (124), one end fixedly connected with second threaded rod (126) of first threaded rod (124) are kept away from in central connecting rod (125), the helicitic texture of first threaded rod (124) and second threaded rod (126) is opposite, the outer wall threaded connection of first threaded rod (124) has second fixed plate (122), the outer wall threaded connection of second threaded rod (126) has first fixed plate (121).

9. The cardiac resuscitation emergency aid device as claimed in claim 5, wherein said emergency assistance device comprises: the lower end of the defibrillator (83) is provided with a bearing plate (810), the upper end of the bearing plate (810) is provided with a pressing plate (811), and one end of the pressing plate (811) is connected with a cleaning mechanism (812).

10. The cardiac resuscitation emergency aid device according to claim 9, further comprising: clearance mechanism (812) are including lapping in connection bottom plate (8121) of accepting board (810) upper end, the upper end of connection bottom plate (8121) articulates there is clearance swash plate (8122), central pivot (8123) are installed to the upper end of connection bottom plate (8121), the one end of central pivot (8123) is provided with resilience pole (8124), the one end and the clearance swash plate (8122) hub connection of resilience pole (8124), clean continuous (8125) of arc is installed to the upper end of clearance swash plate (8122).