CN218676266U - AED and CPR integral type learning - Google Patents

Abstract

The utility model discloses a AED and CPR integral type learning, including fuselage, screen, camera module, false chest model and press the subassembly, camera module, screen and the equal fixed connection of false chest model are on the fuselage, the picture of dummy model department can be shot to the camera module, be equipped with pressure sensor on the false chest model, press the subassembly in false chest model below, establish ultrasonic sensor and controller in addition, ultrasonic sensor is in and presses the subassembly below, camera module, pressure sensor, screen and ultrasonic sensor all are connected with the controller electricity, the fuselage embeds there is AED equipment. The utility model discloses still be equipped with AED equipment and first-aid kit in, the user both can the utility model discloses go up the application method of study AED and first-aid kit, also can take out AED equipment and first-aid kit from the learning built-in and carry out emergency rescue to the patient when having real disease to take place.

Description

AED and CPR integral type learning

Technical Field

The utility model belongs to the technical field of teaching equipment, concretely relates to AED and CPR integral type learning.

Background

CPR is an emergency treatment technology adopted for patients with sudden cardiac arrest, and achieves the purpose of recovering spontaneous respiration and spontaneous circulation by performing chest compression and artificial respiration on the patients at a certain frequency. Most sudden cardiac arrest occurs outside hospitals, the mortality rate is extremely high, and the gold time for rescue is only about 4 minutes. Reports show that the success rate of cardiopulmonary resuscitation in our country is less than 1%.

An automated external defibrillator, abbreviated AED, is a portable medical device that diagnoses certain arrhythmias and delivers shock defibrillation, and is a medical device that can be used by non-professionals to rescue patients with cardiac arrest. In cardiac arrest, defibrillation and cardiopulmonary resuscitation with an Automated External Defibrillator (AED) are the most effective way to stop sudden death only within the gold 4 minutes of optimal rescue time. Therefore, the popularization of cardiopulmonary resuscitation and the use of automatic external defibrillators in the public is of great significance for rescuing patients with sudden cardiac arrest.

Chinese patent 202121143212.7 discloses a self-help type cardiopulmonary resuscitation learning machine, which detects the actions of learners through a pressure sensor and a counter, so that learners can clearly know whether the degree and frequency of pressing are proper or not, and check the simulation effect of learners. However, the learning machine cannot correspondingly guide how learners use the AED and the first-aid kit, and in addition, the learning machine cannot accurately evaluate the actions of the users, so that the learning machine still has defects, and first-aid materials corresponding to the mechanical study method can be obtained when real patients are met.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an AED and CPR integral type learning, the purpose is solved the masses and can't realize CPR and the self-service study simulation of AED and the technical problem who is not convenient for popularize to guarantee that the user standardizes the first aid action of oneself.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides an AED and CPR integral type learning machine, includes fuselage, screen, camera module, false chest model and presses the subassembly, camera module, screen and the equal fixed connection of false chest model are on the fuselage, the picture of dummy model department can be shot to the camera module, be equipped with pressure sensor on the false chest model, press the subassembly and be in false chest model below, establish ultrasonic sensor and controller in addition, ultrasonic sensor is in and presses the subassembly below, camera module, pressure sensor, screen and ultrasonic sensor all are connected with the controller electricity, the fuselage embeds there is AED equipment.

Further, the AED and CPR integrated learning machine described above, wherein the pressing assembly includes a pressing plate and a spring guide rod assembly, the spring guide rod assembly includes a first guide rod and a spring, the first guide rod is fixedly connected in the machine body, the pressing plate is connected to the first guide rod in a penetrating manner, so that the pressing plate can slide along the first guide rod, the spring is sleeved on the periphery of the first guide rod and located below the pressing plate, the spring gives an upward movement tendency to the pressing plate, a circuit board is further provided, the circuit board is integrated with the ultrasonic sensor, and the ultrasonic sensor is located below the pressing plate and faces the pressing plate.

Further, the AED and CPR integrated learning machine described above wherein the machine body comprises a machine body base and a machine body upper shell, the machine body upper shell comprises a first plate-shaped portion, a second plate-shaped portion and a third plate-shaped portion, the second plate-shaped portion is connected between the first plate-shaped portion and the third plate-shaped portion, the plate-shaped portions are bent, the first plate-shaped portion covers the machine body base, and the chest prosthesis model is located on the first plate-shaped portion.

Further, according to the AED and CPR integrated learning machine, a storage bin is arranged in the machine body base, the AED equipment is arranged in the storage bin, a storage door is further arranged on the machine body base and is positioned outside the storage bin, and the storage bin can be opened or closed by the storage door.

Further, above-mentioned AED and CPR integral type learning, wherein, still put first-aid kit in the storing storehouse.

Further, the AED and CPR integrated learning machine described above wherein the screen comprises an upper screen and a lower screen, the upper screen being fixedly attached to the third plate portion and the lower screen being fixedly attached to the second plate portion.

Further, the top of the third plate-shaped part is provided with an alarm.

Further, the AED and CPR integrated learning machine is characterized in that a supporting seat is arranged in the machine body base, the first guide rod is fixedly connected to the supporting seat, the circuit board is also arranged on the supporting seat, a limiting groove is formed in the supporting seat, a second guide rod is arranged additionally, the upper end of the second guide rod is connected with the pressing plate, the lower end of the second guide rod is inserted into the limiting groove, and the second guide rod can slide along the limiting groove.

Further, the AED and CPR integrated learning machine is further provided with a light strip which is fixedly connected to the third plate portion.

The utility model discloses a substantive characteristics lie in with the technological progress that is showing: (1) the utility model can be placed in crowded places such as airports, office buildings and markets by the learning machine, so that people can learn and perform CPR simulation flexibly without being limited by time and place, the popularization of CPR is effectively enlarged, CPR popular science video and related operation instructions are played on a screen, so that people can learn conveniently, and people can learn without face-to-face teaching of professional medical personnel, (2) the utility model comprehensively evaluates the actions of users by a camera module, a pressure sensor and an ultrasonic sensor, can display the related actions of users by the screen, and clearly know whether the own pressing actions, pressing intensity and pressing frequency are appropriate or not, so as to check the simulation effect of themselves, thereby completing the learning of CPR in the training process, and enhancing the learning effect, (3) the utility model discloses a wearable suit is arranged on the outer surface of a chest model, helps users to develop certain habits of loosening the clothes of patients before performing cardiopulmonary resuscitation, and can play a role in shielding and protecting the chest model; (4) The utility model discloses still be equipped with AED equipment and first-aid kit in, the user both can the utility model discloses go up the application method of study AED and first-aid kit, also can take out AED equipment and first-aid kit from the learning built-in and carry out emergency rescue to the patient when having real disease to take place.

Drawings

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

FIG. 2 is a schematic view of a pressing assembly;

FIG. 3 is a schematic view of a wearable suit;

figure 4 is a schematic view of another embodiment of a wearable suit.

In the figure: 1. an alarm; 2. uploading a screen; 3. a camera module; 4. a light strip; 5. a screen is down; 6. a machine body base 61, a supporting seat 62 and a limiting groove; 7. a storage door 8, an upper shell of the machine body 9 and a false chest model; 10. wearable suit; 101. a left half portion; 102. a right half portion; 103. a zipper; 104. a button; 11. an AED device; 12. a first-aid kit; 13. a pressing plate; 14. a circuit board; 15. an ultrasonic sensor; 16. a spring guide rod assembly; 161. a first guide bar; 162. a spring; 163. a second guide bar.

Detailed Description

In order to further understand the contents, features and functions of the present invention, the following embodiments are illustrated and described in detail with reference to the accompanying drawings. Referring to fig. 1 to 4, an AED and CPR integrated learning machine according to an embodiment of the present invention will be described in detail below with reference to the drawings.

As shown in fig. 1 and fig. 2, the AED and CPR integrated learning machine of the present invention comprises a machine body, a screen, a camera module 3, a dummy chest model 9 and a pressing assembly, wherein the camera module 3, the screen and the dummy chest model 9 are all fixedly connected to the machine body, the camera module 3 can shoot the image of the dummy chest model 9, a pressure sensor is arranged on the dummy chest model 9, the pressing assembly is arranged below the dummy chest model 9, the dummy chest model 9 is pressed to drive the pressing plate assembly to move, the pressing assembly comprises a pressing plate 13 and a spring guide rod assembly 16, the spring guide rod assembly 16 comprises a first guide rod 161 and a spring 162, the first guide rod 161 is fixedly connected to the machine body, the pressing plate 13 is connected to the first guide rod 161 in a penetrating manner, so that the pressing plate 13 can slide along the first guide rod 161, the spring 162 is sleeved on the periphery of the first guide rod 161 and arranged below the pressing plate 13, and gives an upward movement trend to the pressing plate 13, a circuit board 14 and a controller are additionally arranged, the ultrasonic sensor 15 is integrated on the circuit board 14, the ultrasonic sensor 15 is arranged below the pressing plate 161, and is arranged towards the pressing plate 13, and the camera module, the pressure sensor module and the screen module and the pressing plate control unit and the screen control unit are electrically connected to the ultrasonic sensor 15.

Specifically, as shown in fig. 1 and fig. 2, the body includes a body base 6 and a body shell 8, the body shell 8 is fixedly connected to the body base 6, the body shell 8 includes a first plate-shaped portion, a second plate-shaped portion and a third plate-shaped portion, the second plate-shaped portion is connected between the first plate-shaped portion and the third plate-shaped portion, the plate-shaped portions are bent, the first plate-shaped portion covers the body base 6, the chest prosthesis model 9 is located on the first plate-shaped portion, the screen includes an upper screen 2 and a lower screen 5, the upper screen 2 is fixedly connected to the third plate-shaped portion, the lower screen 5 is fixedly connected to the second plate-shaped portion, the camera module 3 is fixedly connected to the third plate-shaped portion, and a light strip 4 is further provided, and the light strip 4 is fixedly connected to the third plate-shaped portion and is close to the lower edge of the third plate-shaped portion. The top of the third plate-shaped part is provided with an alarm 1, and the alarm 1 is used for sending out an alarm signal when the AED or the first-aid kit is taken out during emergency drilling or when a real patient happens.

Preferably, as shown in fig. 2, a supporting seat 61 is disposed in the body base 6, the first guide rod 161 is fixedly connected to the supporting seat 61, the circuit board 14 is also disposed on the supporting seat 61, a limiting groove 62 is disposed on the supporting seat 61, a second guide rod 163 is further disposed, an upper end of the second guide rod 163 is connected to the pressing plate 13, a lower end of the second guide rod 163 is inserted into the limiting groove 62, the second guide rod 163 can slide along the limiting groove 62, the limiting groove 62 limits the second guide rod 163, and the pressing plate 13 can be prevented from rotating along the first guide rod 161 in the process of being pressed by the second guide rod 163 matching with the limiting groove 62.

Be equipped with a storing storehouse in the fuselage base 6, be equipped with AED equipment 11 and first-aid kit 12 in the storing storehouse, still be equipped with a storing door 7 on the fuselage base 6, storing door 7 is in the storing storehouse outside, and storing door 7 can open or seal the storing storehouse.

As shown in fig. 3 and 4, preferably, the wearable suit 10 is arranged on the outer surface of the artificial chest model 9, the wearable suit 10 comprises a left half part 101 and a right half part 102, the outer edges of the left half part 101 and the right half part 102 are connected to the periphery of the artificial chest model, and the edges of the opposite sides of the left half part 101 and the right half part 102 are connected through a zipper 103 or a button 104. The left half 101 and the right half 102 are connected to each other, and completely cover the outer surface of the artificial chest model 9.

Example 1

As shown in fig. 1 and 3, the left half 101 and the right half 102 of the wearable suit 10 can be connected by a zipper 103. The outer edge of the left half part 101 and the outer edge of the right half part 102 are provided with buckles, the first plate-shaped part on the body is also provided with buckles at the position of the edge of the artificial chest model 9, and the outer edges of the left half part 101 and the right half part 102 are provided with buckles matched with the buckles at the edge of the artificial chest model 9, so that the wearable suit 10 is fixedly connected to the outer surface of the artificial chest model 9.

Example 2

As shown in fig. 1 and 3, the left half 101 and the right half 102 of the wearable suit 10 can be connected by a zipper 103. The outer edges of the left half 101 and the right half 102 are sewn to the outer edge of the prosthesis 9 so that the wearable suit 10 is fixedly attached to the outer surface of the prosthesis 9.

Example 3

As shown in fig. 1 and 4, embodiment 3 is different from embodiment 1 and embodiment 2 in that the left half 101 and the right half 102 of the wearable suit 10 can be connected by buttons 104. The outer edges of the left half 101 and the right half 102 are sewn to the outer edge of the breast prosthesis model 9, and can also be connected by a snap-fit manner, so that the wearable suit 10 is fixedly connected to the outer surface of the breast prosthesis model 9.

The utility model has the following using method: (1) The lower screen 5 plays operation instructions, CPR specification requirements or CPR science popularization videos, so that people can conveniently learn, the upper screen 2 can play the same content as the lower screen 5, and is convenient for surrounding people to watch, or advertisements are put in when no one uses the device. The user presses false chest model 9 according to the content on screen 5 down, false chest model 9 is pressed the in-process and is driven and press clamp plate 13 and move down, can detect the user power through the pressure sensor on the false chest model 9, detect the internal displacement volume of press clamp plate at unit interval through ultrasonic sensor 15, thereby detect user's the speed of pressing, user's action can be shot to camera module 3 simultaneously, and convey the picture that the camera was shot to relevant platform, through the platform to user's action, the user carries out comprehensive grade and feedback according to pressure degree and press speed, let the user fully know whether the action of oneself accords with standard requirement. (2) Because in the process of doing cardiopulmonary resuscitation, the requirement must untie patient's clothes, forget in order to prevent first-aid staff, the utility model discloses set up wearable suit 10 at false chest model 9 surface, first-aid staff must untie the clothing of false chest model 9 surface earlier and operate afterwards when carrying out cardiopulmonary resuscitation. (3) Be equipped with AED equipment and first-aid kit in the fuselage, the user can use AED and first-aid kit to imitate the first-aid action according to the broadcast content on screen 5 down, and user's action can be shot to camera module 3 simultaneously to convey the picture that the camera was shot to relevant platform, relevant platform is through moving to the user and carry out comprehensive score through moving to the user.

It can be seen from the above description that the utility model discloses a this learning machine can put in crowded places of people's stream such as airport, office building, market, is convenient for people's nimble study and CPR simulation, not limited by time and place, and the popularization of effectual expansion CPR, through screen play CPR science popularization video and relevant operation instruction, be convenient for people to study, make people need not to learn through professional medical personnel face-to-face teaching, in addition, the utility model discloses a camera module 3, pressure sensor and ultrasonic sensor 15 carry out comprehensive evaluation to user's action, and can show user's relevant action through the screen, let the learner clear understanding oneself press the action, press pressure degree and press frequency suitable or not, inspect oneself simulation effect, thereby make it accomplish the study of CPR in the training process, strengthen the effect of study, in addition, the utility model's wearable suit 10 suit of wearable suit of false chest model 9 surface both can play sheltering from and protection effect to false chest model 9, also can help the user remember to untie the resuscitation action of patient before carrying out cardiopulmonary; furthermore, the utility model discloses interior AED equipment and first-aid kit that still is equipped with, the user both can the utility model discloses go up the application method of study AED and first-aid kit, also can take out AED equipment and first-aid kit from the learning built-in and carry out emergency rescue to the patient when having real disease to take place.

Of course, the above is only a typical example of the present invention, and besides, the present invention can also have other various specific embodiments, and all technical solutions adopting equivalent replacement or equivalent transformation are all within the scope of the present invention as claimed.

Claims (9)

1. An AED and CPR integrated learning machine, characterized in that: including fuselage, screen, camera module (3), false chest model (9) and press the subassembly, camera module (3), screen and the equal fixed connection of false chest model (9) are on the fuselage, the picture of false chest model (9) department can be shot in camera module (3), be equipped with pressure sensor on false chest model (9), press the subassembly and be in false chest model (9) below, establish ultrasonic sensor (15) and controller in addition, ultrasonic sensor (15) are in and press the subassembly below, camera module (3), pressure sensor, screen and ultrasonic sensor (15) all are connected with the controller electricity, the fuselage embeds there is AED equipment (11).

2. The integrated learning machine for AED and CPR according to claim 1, wherein the pressing assembly comprises a pressing plate (13) and a spring guide rod assembly (16), the spring guide rod assembly (16) comprises a first guide rod (161) and a spring (162), the first guide rod (161) is fixedly connected in the machine body, the pressing plate (13) is connected to the first guide rod (161) in a penetrating manner, so that the pressing plate (13) can slide along the first guide rod (161), the spring (162) is sleeved on the periphery of the first guide rod (161) and is positioned below the pressing plate (13), the spring (162) gives the pressing plate an upward movement trend, a circuit board (14) is additionally arranged, the ultrasonic sensor (15) is integrated on the circuit board (14), and the ultrasonic sensor (15) is pressed below the pressing plate (13) and faces to the pressing plate (13).

3. An AED and CPR integrated learning machine according to claim 1, wherein the body comprises a body base (6) and a body upper shell (8), the body upper shell (8) comprises a first plate-shaped portion, a second plate-shaped portion and a third plate-shaped portion, the second plate-shaped portion is connected between the first plate-shaped portion and the third plate-shaped portion, each plate-shaped portion is bent, the first plate-shaped portion covers the body base (6), and the chest prosthesis model (9) is arranged on the first plate-shaped portion.

4. An AED and CPR integrated learning machine according to claim 3, wherein a storage bin is arranged in the machine body base (6), the AED equipment (11) is arranged in the storage bin, a storage door (7) is arranged on the machine body base (6), the storage door (7) is arranged outside the storage bin, and the storage bin can be opened or closed by the storage door (7).

5. The AED and CPR integrated learning machine of claim 4, wherein a first aid kit (12) is further disposed in the storage compartment.

6. An AED and CPR integrated learning machine according to claim 3, wherein the screen comprises an upper screen (2) and a lower screen (5), the upper screen (2) is fixedly connected to the third plate-like part, and the lower screen (5) is fixedly connected to the second plate-like part.

7. An AED and CPR integrated learning machine according to claim 3, wherein the top of the third plate is provided with an alarm (1).

8. The AED and CPR integrated learning machine according to claim 2, wherein a support base (61) is arranged in the machine body base (6), the first guide rod (161) is fixedly connected to the support base (61), the circuit board (14) is also positioned on the support base (61), a limit groove (62) is arranged on the support base (61), a second guide rod (163) is further arranged, the upper end of the second guide rod (163) is connected with the pressing plate (13), the lower end of the second guide rod (163) is inserted into the limit groove (62), and the second guide rod (163) can slide along the limit groove (62).

9. An AED and CPR integrated learning machine according to claim 3, characterized in that a light strip (4) is provided, which light strip (4) is fixedly connected to the third plate.

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