CN220232586U - Universal cardiopulmonary resuscitation data training equipment - Google Patents

Abstract

The scheme discloses a general cardiopulmonary resuscitation data training device. The scheme includes a shell, two sides of which are respectively provided with an air hole: the data acquisition and processing module is arranged inside the shell and is electrically connected with the upper computer equipment; the distance measuring structure, the gas flow sensor and the voice module are electrically connected with the data acquisition and processing module, and the gas flow sensor is communicated with a lung bag arranged in the simulated person; and the bonding layer is arranged on the bottom surface of the shell and is fixed with the simulator. The integrated design provided by the scheme protects the internal sensor, ensures stability, and is simple in appearance and easy to operate and use; in the simulation person with the built-in main module, the simulation person can not be interfered by other factors, and the accuracy of data is ensured; the scheme adopts non-hard structure contact type detection, equipment is easy to install and use, is not limited by the simulated artificial signboards, and has great adaptability.

Description

Universal cardiopulmonary resuscitation data training equipment

Technical Field

The scheme relates to the technical field of medical teaching aids, in particular to a universal cardiopulmonary resuscitation data training device.

Background

At present, the data transmission of the cardiopulmonary resuscitation simulator on the market is directly built-in by a special simulator, the selling price of the simulator is often higher, the data belongs to a private format, and a data interface is not provided for a third party.

The other cardiopulmonary resuscitation data acquisition mode is an external independent product mode, through the scheme of combination of an acceleration sensor, a communication module and the like, data of the sensor are acquired, the data of the sensor are simulated and calculated through an algorithm, the scheme has ideal effect on personnel use conditions with normal operation, but larger calculation errors are easy to generate for beginners or under the condition of nonstandard placement and use.

Therefore, a device for training cardiopulmonary resuscitation data is needed, which can enable a common simulator to have the function of intelligently simulating a person, and has the integrated design for protecting an internal sensor, so that the stability is ensured, and meanwhile, the appearance is simpler, and the operation and the use are easy.

Disclosure of Invention

This scheme is for solving above-mentioned problem, provides a cardiopulmonary resuscitation data training with equipment, has the inside sensor of integrated design protection, ensures stability, and lets the outward appearance simpler simultaneously, easily operation and use.

In order to achieve the above purpose, the technical scheme adopted by the scheme is as follows: the utility model provides a general cardiopulmonary resuscitation data training is with equipment, includes the casing, and both sides offer a gas pocket respectively;

the data acquisition and processing module is arranged inside the shell and is electrically connected with the upper computer equipment;

the distance measuring structure, the gas flow sensor and the voice module are electrically connected with the data acquisition and processing module, and the gas flow sensor is communicated with a lung bag arranged in the simulated person;

and the bonding layer is arranged on the bottom surface of the shell and is fixed with the simulator.

Further, the air holes are arranged on two sides of the air flow sensor and are used for the air flow sensor to butt-simulate a lung bag in a human.

Further, the air hole comprises an air inlet hole on one side and an air outlet hole on the other side.

Further, the detection head of the distance measuring structure is exposed through the square through hole on the upper side of the shell.

Further, the ranging structure is a ranging sensor, the model is LGUB500-18GM45A, the response time is 32ms, and the resolution is 0.17mm.

Further, the adhesive layer is a fixed adhesive layer.

Further, the gas flow sensor model is AFM3020, flow range: -10-200 s lm, precision 2.5%.

Further, the model number of the voice module is JQ8900N16.

In summary, the scheme has the following advantages:

the integrated design provided by the scheme protects the internal sensor, ensures stability, and is simple in appearance and easy to operate and use;

in the simulation person with the built-in main module, the simulation person can not be interfered by other factors, and the accuracy of data is ensured;

the universal training equipment provided by the scheme can be suitable for most common simulators, and the common simulators can play a larger role.

The scheme adopts non-hard structure contact type detection, equipment is easy to install and use, is not limited by the simulated artificial signboards, and has great adaptability.

Drawings

Fig. 1 is a schematic diagram of a generic cardiopulmonary resuscitation data training device.

Wherein:

1. a housing; 11. air holes; 12. square through holes; 2. a data acquisition and processing module; 3. a ranging structure; 4. a gas flow sensor; 5. a voice module; 6. an adhesive layer.

Detailed Description

The present utility model is further described below with reference to the accompanying drawings and examples:

example 1:

the utility model provides a general cardiopulmonary resuscitation data training device, as shown in figure 1, which comprises a shell 1, two sides of which are respectively provided with an air hole 11;

the data acquisition and processing module 2 is arranged inside the shell 1 and is electrically connected with the upper computer equipment;

the distance measuring structure 3, the gas flow sensor 4 and the voice module 5 are electrically connected with the data acquisition and processing module 2, and the gas flow sensor 4 is communicated with a lung bag arranged in the simulated person;

and the adhesive layer 6 is arranged on the bottom surface of the shell 1 and is fixed with the dummy.

In this solution, the distance measuring structure 3 is mainly used for detecting the distance of the chest of the dummy from the back.

Specifically, the operator presses at the position of pressing, and when the chest is pressed to the standard value from the distance of back, the ranging structure 3 passes through data acquisition and processing module 2 is data acquisition and is transmitted to voice module 5, through voice prompt, the operator stops pressing.

In this embodiment, the ranging structure 3, preferably a ranging sensor, is selected from LGUB500-18GM45A, and has a response time of 32ms and a resolution of 0.17mm.

In the selection of the ranging structure 3, an ultrasonic sensor or a millimeter wave radar, or other ranging structures capable of meeting the ranging requirements can be selected.

In this scheme, the gas flow sensor 4 is mainly used for detecting the size of the gas flow passing through in real time.

Specifically, when artificial respiration is performed, after the gas passes through the gas flow sensor 4, the data acquisition and processing module 2 acquires the gas flow and transmits the gas flow to the upper computer device.

The gas flow sensor 4 has the purchase model of AFM3020 and flow range: -10-200 s lm, precision 2.5%.

Of course, the gas flow sensor 4 may be replaced by an object switch, and the switch is turned on when the gas flow reaches the opening amount, without considering the magnitude of the gas flow value, and without affecting the implementation of the scheme.

In this scheme, the voice module 5 is responsible for starting the pressing and stopping the voice prompts of the pressing, the rhythm prompts of each pressing, and the playing of the interval prompt tones of each group of pressing.

Specifically, after the starting, the voice module 5 sends out a voice prompt for starting to press, and the operator presses according to the pressing rhythm prompt.

Stopping pressing when the hearing voice module 5 sends out interval prompt voice to perform artificial respiration; continuing pressing when the gap prompt tone is sent out again;

when the voice module 5 sends out the voice prompt for stopping pressing, the pressing is finished.

The voice module 5 has a purchase model of JQ8900N16, can support one-to-one voice playing control, and can play corresponding voice according to the instruction of the data acquisition and processing module 2.

The voice module 5 can also be replaced by a buzzer sensor, and the operation is prompted by buzzing with different duration and rhythm.

The voice module 5 has an operation voice prompt, so that a beginner can know whether to start pressing or not, and the pressing rhythm has better guidance.

In this scheme, the data acquisition and processing module 2 is responsible for the data acquisition of ranging structure 3 and gas flow sensor 4 to transmit to host computer equipment through wireless network or wired connection, through the data of gathering, utilize the algorithm to carry out analog computation.

The upper computer equipment can be a computer, a tablet or a mobile phone and is used for displaying the acquired data in a visualized manner.

The data transmission mode of the data acquisition and processing module 2 may be a data transmission mode performed by using bluetooth, WIFI, lora,4g,5g operator networks, and the specific transmission mode is known as a technical common sense of a person skilled in the art, and will not be described herein.

Specifically, the data acquisition and processing module 2 is used as a core data acquisition, calculation and transmission unit, and supports connection modes of WIFI and wired serial ports, including but not limited to a PLC module, and a data acquisition card (not limited to a PCIE acquisition card), and is characterized in that the core is a method and a system for acquiring, collecting, processing, recording, storing and displaying data by a circuit board.

The distance measuring structure 3, the gas flow sensor 4 and the voice module 5 are respectively and electrically connected with the data acquisition and processing module 2.

Specifically, in the simulation process, the ranging structure 3 detects the pressing action of the operator on the simulation person, and the data acquisition and processing module 2 acquires the pressing action and then carries out corresponding feedback through the voice module 5; when an operator breathes artificially, the data acquisition and processing module 2 acquires the data generated by the gas flow sensor 4 and feeds back through the voice module 5.

Corresponding data generated in the pressing and artificial respiration process are stored in the data acquisition and processing module 2, so that data analysis after training is finished is facilitated, and technical improvement is performed by systematic assistance operators.

In this scheme, the casing 1 is further provided with a square through hole 12;

the detection head of the distance measuring structure 3 is exposed from the square through hole 12, and can play a role of a sound playing hole while not shielding the detection head of the distance measuring sensor.

The air hole 11 on the shell 1 comprises an air inlet hole and an air outlet hole;

the air inlet and the air outlet are respectively used for the air flow sensor, and are placed in the simulated human body and correspond to the lung bags of the simulated human body.

The bottom surface of the shell 1 is provided with an adhesive layer 6, and the adhesive layer 6 is used for being fixed with the existing simulators.

In this embodiment, the adhesive layer 6 is a fixing adhesive. The structure can prevent the situation that the universal cardiopulmonary resuscitation data training equipment deviates from the fixed position of the dummy.

Further described in connection with its mechanism of use:

under the condition of not changing the structure and the appearance of the common simulators, the universal cardiopulmonary resuscitation data training equipment is connected into the common simulators through the fixing glue.

After the start, voice module 5 sends the sound suggestion that begins to press, and operating personnel presses in pressing the position, when pressing down to standard distance, range finding structure 3 is through data acquisition and processing module 2 will data acquisition and transmission give voice module 5, voice module 5 sends rhythm suggestion, and operating personnel presses according to pressing the rhythm suggestion.

During the pressing, the pressing is stopped when the voice module 5 is heard to give out an interval prompt.

After stopping pressing, the artificial respiration is carried out, and after the gas passes through the gas flow sensor 4, the data acquisition and processing module 2 acquires the gas flow and transmits the gas flow to the upper computer equipment.

Continuing pressing when the gap prompt tone is sent out again;

the above operation is repeated until the voice module 5 gives a sound prompt for stopping the pressing, and the pressing is ended.

In summary, the integrated design provided by the scheme protects the internal sensor, ensures stability, and has simple appearance and easy operation and use;

in the simulation person with the built-in main module, the simulation person can not be interfered by other factors, and the accuracy of data is ensured;

the scheme adopts non-hard structure contact type detection, utilizes the adhesive layer to carry out installation, disassembly and positioning, is easy to install and use, is not limited by the simulated artificial board, and has great adaptability.

The foregoing embodiments are merely illustrative of the technical concept and features of the present utility model, and are not intended to limit the scope of the present utility model in any way, as long as they are known to those skilled in the art and can be implemented according to the present utility model. All equivalent changes or modifications made according to the spirit of the present utility model should be covered by the scope of protection of the present utility model.

In the description of the present embodiment, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements.

The specific meaning of the above terms in the present scheme will be understood in a specific case by those of ordinary skill in the art.

It should be understood that the above-described embodiments are exemplary only and not limiting, and that various obvious or equivalent modifications and substitutions to the details described above may be made by those skilled in the art without departing from the underlying principles of the present disclosure, and are intended to be included within the scope of the claims.

Claims (8)

1. A general cardiopulmonary resuscitation data training device, characterized by: comprises a shell (1), two sides of which are respectively provided with an air hole (11);

the data acquisition and processing module (2) is arranged in the shell (1) and is electrically connected with the upper computer equipment;

the distance measuring structure (3), the gas flow sensor (4) and the voice module (5) are electrically connected with the data acquisition and processing module (2), and the gas flow sensor (4) is communicated with a lung bag arranged in the simulation person;

and the adhesive layer (6) is arranged on the bottom surface of the shell (1) and is fixed with the simulator.

2. The apparatus for general cardiopulmonary resuscitation data training according to claim 1, wherein: the air holes (11) are arranged on two sides of the gas flow sensor (4) and are used for the gas flow sensor (4) to butt-joint a lung bag in the simulation person.

3. The apparatus for general cardiopulmonary resuscitation data training according to claim 2, wherein: the air hole (11) comprises an air inlet hole on one side and an air outlet hole on the other side.

4. The apparatus for general cardiopulmonary resuscitation data training according to claim 1, wherein: the detection head of the distance measuring structure (3) is exposed through a square through hole (12) at the upper side of the shell (1).

5. The apparatus for general cardiopulmonary resuscitation data training according to claim 1, wherein: the ranging structure (3) is a ranging sensor, the model is LGUB500-18GM45A, the response time is 32ms, and the resolution is 0.17mm.

6. The apparatus for general cardiopulmonary resuscitation data training according to claim 1, wherein: the adhesive layer (6) is a fixed adhesive layer.

7. The apparatus for general cardiopulmonary resuscitation data training according to claim 1, wherein: the gas flow sensor (4) is of an AFM3020 type and has a flow range: -10-200 slm with an accuracy of 2.5%.

8. The apparatus for general cardiopulmonary resuscitation data training according to claim 1, wherein: the model number of the voice module (5) is JQ8900N16.