CN216877607U - Defibrillation device capable of performing cardio-pulmonary resuscitation - Google Patents

Abstract

The utility model discloses a defibrillation device capable of performing cardio-pulmonary resuscitation, which comprises a defibrillator main body and a winding assembly, wherein the winding assembly for winding is arranged above the outer part of the defibrillator main body, the winding assembly comprises a top block, a twisting block, a connecting block, a clamping block, a bottom block, a wire groove, a winding block, a clamping groove and a bearing block, the twisting block is arranged above the top block, the bottom of the twisting block is connected with the connecting block, the clamping block is connected below the connecting block, the bottom block is arranged below the outer part of the clamping block, the wire groove is formed in the outer wall of the bottom block, and the winding block is arranged at the center position of the inner part of the bottom block. This can carry out cardiopulmonary resuscitation's device of defibrillating passes through the rolling subassembly, avoids connecting wire intertwine, leads to the inconvenience that the staff used, increases the device self practicality, through the centre gripping subassembly, can reduce the unnecessary flow when medical personnel carry out the heart resuscitation to the patient, increases the rescue time, win the time for the patient.

Description

Defibrillation device capable of performing cardio-pulmonary resuscitation

Technical Field

The utility model relates to the field of hearts, in particular to a defibrillation device capable of performing cardio-pulmonary resuscitation.

Background

Sudden cardiac arrest refers to the sudden termination of the blood-ejecting function of the heart, the disappearance of the pulsation and heart sound of the aorta, severe ischemia and hypoxia of important organs (such as the brain) to cause life termination, the sudden cardiac arrest is more and more common in modern society, and besides some problems of the heart itself, the work pressure, the life pressure, unreasonable life rest, unhealthy diet, long-term lack of exercise and the like are all the root causes of the sudden cardiac arrest. In the rescue of a cardiac arrest victim, the use of an Automated External Defibrillator (AED), a portable medical device that diagnoses a particular arrhythmia and delivers shock defibrillation, in conjunction with cardiopulmonary resuscitation (CPR), is a medical device that can be used by lay people to rescue the cardiac arrest victim to provide greater survival. During cardiac arrest, defibrillation and cardiopulmonary resuscitation are performed on a patient by using an AED within the 'gold 4 minutes' of the optimal rescue time, which is the most effective method for stopping sudden death. Meanwhile, the AED is set in a self-contained program, after electric shock or when the AED diagnoses the heart rhythm and does not need electric shock defibrillation, the AED can prompt rescuers to carry out cardio-pulmonary resuscitation by voice, and the final aim of the cardio-pulmonary resuscitation is to improve perfusion blood flow of the heart and the brain of a patient with cardiac arrest, avoid the heart and the brain from entering an irreversible death state and gradually repair the work functions of the heart and brain organ officers. The continuous and effective external chest compression is necessary, rapid and powerful, and is uninterrupted as much as possible, because excessive compression interruption can interrupt coronary artery and cerebral blood flow, and the resuscitation success rate is obviously reduced.

The current device of defibrillating has the not good problem of connecting wire rolling function, and the device is generally used in comparatively urgent medical treatment and treatment, and if inside line twines together when using, be convenient for influence the staff and use, reduce the device self practicality, to above-mentioned problem, carry out technical innovation on current device basis.

SUMMERY OF THE UTILITY MODEL

It is an object of the present invention to provide a defibrillation apparatus capable of performing cardiopulmonary resuscitation to solve the above-mentioned problems of the background art.

In order to achieve the purpose, the utility model provides the following technical scheme: the utility model provides a can carry out cardiopulmonary resuscitation's defibrillation device, includes defibrillator main part and rolling subassembly, defibrillator main part outside top is provided with the rolling subassembly that is used for the rolling, the rolling subassembly includes the kicking block, twists reverse piece, connecting block, fixture block, end piece, wire casing, rolling piece, draw-in groove and bearing block, the kicking block top is provided with twists reverse piece, and twists reverse piece bottom and be connected with the connecting block, the connecting block below is connected with the fixture block, the outside below of fixture block is provided with the end piece, and the end piece outer wall has seted up the wire casing, the inside central point of end piece puts and is provided with the rolling piece, and is provided with the draw-in groove above the rolling piece, rolling piece below is provided with the bearing block, defibrillator main part back is installed and is used for quick fixed centre gripping subassembly of installation.

Furthermore, the rolling block is rotationally connected with the bottom block through the bearing block, and the rolling block, the bearing block and the bottom block are distributed on the same central axis.

Furthermore, the size of the outer wall of the clamping block is matched with the size of the inner wall of the clamping groove, and the twisting block is rotatably connected with the clamping block through the connecting block.

Furthermore, an operating switch is arranged on the upper surface of the defibrillator body, and a display panel is arranged below the operating switch.

Further, display panel left side below is provided with voice broadcast, and the voice broadcast below is provided with the handle.

Furthermore, a connecting wire is connected to the upper portion of the defibrillator body, and a first patch and a second patch are arranged at the tail end of the connecting wire respectively.

Further, the centre gripping subassembly includes grip block, slider, slide rail, connecting rod, expanding spring and inside groove, the grip block bottom is provided with the slider, and the slider opposite side is provided with the slide rail, the grip block both sides all are provided with the connecting rod, and the connecting rod inboard installs expanding spring, the defibrillator main part corresponds the position with the connecting rod and has seted up the inside groove.

Further, the acquisition method comprises the following steps:

s1, mounting equipment: the equipment is placed on the ground or is arranged near a patient bed, so that an operator can use the equipment conveniently, and the equipment is used in emergency, and whether the equipment is fixed or not is determined to avoid falling.

S2, connecting equipment: the device is attached to the part corresponding to the body of the patient, the power supply of the device is turned on, the condition of the patient is analyzed, and corresponding actions are made along with the voice made by the device.

S3, operating equipment: after the condition of the patient is known, whether the cardiac resuscitation work is done or not is judged, the cardiac resuscitation is performed on the patient, and the equipment is always connected with the patient.

Compared with the prior art, the utility model has the beneficial effects that: the defibrillation device capable of performing cardio-pulmonary resuscitation avoids the inconvenience caused by the mutual winding of connecting wires and the use of workers due to the winding assembly, increases the practicability of the device, and can reduce unnecessary processes, increase rescue time and win time for patients when medical workers perform cardio resuscitation on the patients through the clamping assembly;

1. according to the utility model, through the arrangement of the winding assembly, the top block, the twisting block, the connecting block, the clamping block, the bottom block, the wire groove, the winding block, the clamping groove and the bearing block, the connecting wire can be effectively wound, the connecting wire is placed in the winding block, then the top block and the bottom block are combined, the clamping block is inserted into the clamping groove, then the twisting block is rotated to drive the clamping block below the connecting block to rotate, the clamping block enables the winding block to rotate through the bearing block, the connecting wires on two sides are stored inwards, the connecting wire is wound in the inner part, when the connecting wire is taken out, the connecting blocks on two sides are dragged to be normally used, the connecting wires are prevented from being wound with each other, the inconvenience in use of workers is caused, and the practicability of the device is increased;

2. according to the utility model, through the arrangement of the clamping assembly, the clamping blocks, the sliding block, the sliding rail, the connecting rod, the telescopic spring and the inner groove, the device can be effectively and rapidly installed, when medical workers transfer a bed to resuscitate and press a patient, the clamping blocks on two sides are pulled open, the device is fixed on an external device and then loosened, and the telescopic spring drives the clamping blocks to do reset motion in the sliding rail through the sliding block, so that the medical workers can rapidly clamp and install the medical workers, and can prevent the medical workers from falling off, so that the medical workers can more conveniently resuscitate the heart of the patient;

3. the utility model can reduce unnecessary processes and increase the rescue time when medical workers resuscitate the heart of a patient, the patient wins time, ventricular fibrillation is 85-90% of the patients with cardiac arrest at the early stage, the most effective method for treating ventricular fibrillation is to defibrillate by using AED at the early stage, and the survival rate is reduced by 7-10% after defibrillation is delayed for 1 minute. CPR and the early effective cooperation use of AED are the most effective rescue means of rescuing the patient with sudden cardiac arrest of breathing, and the simpler and effective operation mode can be the probability of rescue success by one more minute.

Drawings

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is a schematic view of a three-dimensional explosion structure of the winding assembly of the present invention;

FIG. 3 is a schematic view of a rear view structure of the present invention;

FIG. 4 is an enlarged schematic view of the structure of the point A in FIG. 3 according to the present invention.

In the figure: 1. a defibrillator main body; 2. an operating switch; 3. a display panel; 4. voice broadcasting; 5. a handle; 6. a connecting wire; 7. a winding component; 701. a top block; 702. a twisting block; 703. connecting blocks; 704. A clamping block; 705. a bottom block; 706. a wire slot; 707. winding blocks; 708. a card slot; 709. a bearing block; 8. a first patch; 9. a second patch; 10. a clamping assembly; 1001. a clamping block; 1002. a slider; 1003. a slide rail; 1004. a connecting rod; 1005. a tension spring; 1006. an inner tank.

Detailed Description

As shown in fig. 1-2, a defibrillation apparatus capable of performing cardiopulmonary resuscitation, a winding assembly 7 for winding is arranged above the exterior of a main body 1 of the defibrillation apparatus, the winding assembly 7 includes a top block 701, a twisting block 702, a connecting block 703, a fixture block 704, a bottom block 705, a wire groove 706, a winding block 707, a clamping groove 708 and a bearing block 709, the twisting block 702 is arranged above the top block 701, the connecting block 703 is connected to the bottom of the twisting block 702, the fixture block 704 is connected below the connecting block 703, the bottom block 705 is arranged below the exterior of the fixture block 704, the wire groove 706 is arranged on the outer wall of the bottom block 705, the winding block 707 is arranged at the center position inside the bottom block 705, the clamping groove 708 is arranged above the winding block 707, the bearing block 709 is arranged below the winding block 707, a clamping assembly 10 for fast winding and fixing is arranged on the back of the defibrillation apparatus main body 1, the winding block 707 is rotatably connected with the fixture block 704 through the bearing block 709, the winding block 707, the bearing block 709 and the bottom block 705 are distributed on the same central axis, the size of the outer wall of the clamping block 704 is matched with the size of the inner wall of the clamping groove 708, the twisting block 702 forms the rotating structure clamping block 704 through the connecting block 703, the upper surface of the defibrillator main body 1 is provided with the operating switch 2, the display panel 3 is arranged below the operating switch 2, the voice broadcast 4 is arranged below the display panel 3, the handle 5 is arranged below the voice broadcast 4, the connecting wire 6 is connected above the defibrillator main body 1, the tail end of the connecting wire 6 is respectively provided with the first patch 8 and the second patch 9, the connecting wire 6 is placed inside the winding block 707, then the top block 701 and the bottom block 705 are combined, the clamping block 704 is inserted into the clamping groove 708, then the twisting block 702 is rotated to drive the clamping block below the connecting block 703 to rotate, and the clamping block 707 rotates through the bearing block 709 by the clamping block 704, the connecting wires 6 on the two sides are accommodated inside, so that the connecting wires 6 are wound inside, when the connecting wires are taken out, the connecting blocks 703 on the two sides are dragged to be normally used, the connecting wires 6 are prevented from being wound with each other, inconvenience in use of workers is avoided, and the practicability of the device is improved;

as shown in fig. 3-4, the clamping assembly 10 includes a clamping block 1001, a sliding block 1002, a sliding rail 1003, a connecting rod 1004, a telescopic spring 1005 and an inner groove 1006, the bottom of the clamping block 1001 is provided with the sliding block 1002, the other side of the sliding block 1002 is provided with the sliding rail 1003, both sides of the clamping block 1001 are provided with the connecting rod 1004, the inner side of the connecting rod 1004 is provided with the telescopic spring 1005, the inner groove 1006 is provided at a position corresponding to the connecting rod 1004 of the main body 1 of the defibrillator, when a medical staff transfers a bed to resuscitate a patient, the clamping blocks 1001 at both sides are pulled open, the device is fixed on an external device and then released, the telescopic spring 1005 drives the clamping block 1001 to do a reset motion inside the sliding rail 1003 through the sliding block 1002, so that the medical staff can perform quick clamping installation and prevent falling off, so that the medical staff can more conveniently perform cardiac resuscitation on the patient, and reduce unnecessary processes when the medical staff performs cardiac resuscitation on the patient, the rescue time is increased, the time is won for the patient, 85% -90% of patients with cardiac arrest are ventricular fibrillation, the most effective method for treating ventricular fibrillation is to defibrillate by using AED early, and the survival rate is reduced by 7% -10% after defibrillation is delayed for 1 minute. The CPR and the AED are effectively matched in the early stage and are the most effective rescue means for rescuing the patient with sudden cardiac arrest and respiratory arrest, and the simpler and more effective operation mode can increase the rescue success rate by one more time;

the working principle is as follows: when the defibrillation device capable of performing cardiopulmonary resuscitation is used, firstly, when medical staff performs resuscitation and pressing on a patient on a transfer bed, the clamping blocks 1001 on two sides are pulled open, the device is fixed on an external device and then loosened, the telescopic spring 1005 drives the clamping blocks 1001 to perform reset motion in the sliding rail 1003 through the sliding block 1002, so that the medical staff can perform quick clamping and installation, the connecting wire 6 is placed in the winding block 707, then the top block 701 and the bottom block 705 are combined, the fixture block 704 is inserted into the clamping groove 708, then the twisting block 702 is rotated to drive the fixture block 704 below the connecting block 703 to rotate, the winding block 707 is rotated through the bearing block 709 by the fixture block 704, the connecting wire 6 on two sides is stored inwards, the connecting wire 6 is wound internally, when the connecting block 703 on two sides is pulled to be normally used, and then the first patch 8 and the second patch 9 are pasted to a designated position, the operating switch 2 is turned on, the heart rate of the patient is watched through the display panel 3, and the voice broadcast 4 can broadcast data, which is the working principle of the defibrillation device capable of performing cardio-pulmonary resuscitation.

Claims (7)

1. A defibrillation device capable of performing cardio-pulmonary resuscitation comprises a defibrillator main body (1) and a rolling assembly (7), and is characterized in that the rolling assembly (7) for rolling is arranged above the outer portion of the defibrillator main body (1), the rolling assembly (7) comprises a top block (701), a twisting block (702), a connecting block (703), a clamping block (704), a bottom block (705), a wire slot (706), a rolling block (707), a clamping groove (708) and a bearing block (709), the twisting block (702) is arranged above the top block (701), the connecting block (703) is connected to the bottom of the twisting block (702), the clamping block (704) is connected to the lower portion of the connecting block (703), the bottom block (705) is arranged below the outer portion of the clamping block (704), the wire slot (706) is formed in the outer wall of the bottom block (705), the rolling block (707) is arranged in the center of the bottom block (705), and a clamping groove (708) is arranged above the rolling block (707), a bearing block (709) is arranged below the rolling block (707), and a clamping component (10) for quick installation and fixation is installed on the back of the defibrillator main body (1).

2. The defibrillation apparatus according to claim 1, wherein the rolling block (707) is rotatably connected to the bottom block (705) via a bearing block (709), and the rolling block (707), the bearing block (709) and the bottom block (705) are distributed on the same central axis.

3. The defibrillation apparatus according to claim 1, wherein the size of the outer wall of the latching block (704) matches the size of the inner wall of the latching groove (708), and the twisting block (702) is rotatably connected to the latching block (704) via the connecting block (703).

4. The defibrillation apparatus capable of performing cardiopulmonary resuscitation according to claim 1, wherein an operation switch (2) is disposed on an upper surface of the defibrillator main body (1), and a display panel (3) is disposed below the operation switch (2).

5. The defibrillation apparatus capable of performing cardiopulmonary resuscitation according to claim 4, wherein the voice broadcast (4) is provided on a lower left side of the display panel (3), and the handle (5) is provided below the voice broadcast (4).

6. The defibrillation apparatus capable of performing cardiopulmonary resuscitation according to claim 1, wherein a connection line (6) is connected to the upper portion of the defibrillator main body (1), and the ends of the connection line (6) are respectively provided with a first patch (8) and a second patch (9).

7. The defibrillation apparatus capable of performing cardiopulmonary resuscitation according to claim 1, wherein the clamping assembly (10) comprises a clamping block (1001), a sliding block (1002), a sliding rail (1003), a connecting rod (1004), a telescopic spring (1005) and an internal groove (1006), the sliding block (1002) is arranged at the bottom of the clamping block (1001), the sliding rail (1003) is arranged at the other side of the sliding block (1002), the connecting rod (1004) is arranged at both sides of the clamping block (1001), the telescopic spring (1005) is installed at the inner side of the connecting rod (1004), and the internal groove (1006) is formed in the defibrillator main body (1) corresponding to the connecting rod (1004).

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