CN109599018B - Cardiopulmonary resuscitation trains and examines integrative device - Google Patents

Abstract

The invention discloses a cardiopulmonary resuscitation training and assessment integrated device, which comprises a trunk structure, a head structure connected with the trunk structure and skin covered on the trunk structure, wherein the head structure is connected with the trunk structure; a lung bag component is arranged between the sternum position on the front surface of the trunk structure and the skin, and the lung bag component is connected with the mouth of the head structure; the trunk structure is also internally provided with a main control circuit board and a measurement assembly for measuring the pressing depth, the pressing rebound value and the pressing frequency during simulated cardiopulmonary resuscitation, wherein the measurement assembly is connected with the main control circuit board and feeds back each measurement data to the main control circuit board; the head structure is also provided with a lamplight feedback assembly which is connected with the main control circuit board; in a cardiopulmonary resuscitation training mode, the main control circuit board controls the light feedback component to be opened, and feeds back the light feedback component in real time according to the acquired data; in the cardiopulmonary resuscitation check mode, the main control circuit board controls the light feedback component to be closed.

Description

Cardiopulmonary resuscitation trains and examines integrative device

Technical Field

The invention relates to the technical field of training model design, in particular to a cardiopulmonary resuscitation training and assessment integrated device.

Background art

Cardiopulmonary resuscitation is the core content of modern rescue, is the most important first-aid knowledge skills, and is an effective first-aid measure taken when life is at risk.

In teaching or popularizing cardiopulmonary resuscitation, a cardiopulmonary resuscitation training model is usually required for cooperation; the high-end cardiopulmonary resuscitation device on the market at present cannot distinguish between a training mode and an assessment mode.

Disclosure of Invention

In order to solve the problems in the background technology, the invention provides a cardiopulmonary resuscitation training and assessment integrated device, which comprises a trunk structure, a head structure connected with the trunk structure and skin covered on the trunk structure, wherein the head structure is connected with the head structure; a lung bag component is arranged between the sternum position on the front surface of the trunk structure and the skin, and the lung bag component is connected with the mouth of the head structure; the trunk structure is a hollow structure, an elastic structure is arranged in the trunk structure, the elastic structure is supported between the sternum position and the back and presses the sternum position, and the elastic structure stretches and contracts to simulate cardiopulmonary resuscitation;

the trunk structure is internally provided with a main control circuit board and a measuring assembly for measuring the pressing depth, the pressing rebound value and the pressing frequency during simulated cardiopulmonary resuscitation, wherein the measuring assembly is connected with the main control circuit board and feeds back each measuring data to the main control circuit board;

the head structure is also provided with a lamplight feedback assembly, and the lamplight feedback assembly is connected with the main control circuit board; in a cardiopulmonary resuscitation training mode, the main control circuit board controls the light feedback assembly to be opened, and feeds back the light feedback assembly in real time according to the acquired data; and in a cardiopulmonary resuscitation assessment mode, the main control circuit board controls the light feedback assembly to be closed.

Preferably, the measuring assembly includes:

the displacement sensor is arranged on the back in the trunk structure and is connected with the main control circuit board; the displacement sensor is used for measuring the pressing depth and the pressing rebound value during the simulated cardiopulmonary resuscitation and feeding back to the main control circuit board;

the vibration sensor is arranged on one side of the sternum position facing the back and is connected with the main control circuit board; the vibration sensor is used for measuring the pressing frequency during simulated cardiopulmonary resuscitation and feeding back to the main control circuit board;

when the pressing depth, the pressing rebound value and the pressing frequency received by the main control circuit board reach a preset effective pressing value, the lamplight feedback assembly is controlled to give a feedback indication.

Preferably, the vibration sensor is arranged at the intersection point of the two breast connecting lines on the front surface of the trunk structure and the middle branch line of the trunk, when the position of the intersection point is correctly pressed, the pressing position is correct, and the vibration sensor is fed back to the main control circuit board.

Preferably, the lamplight feedback assembly comprises a rotary LED lamp;

when the rotary LED lamp is pressed to the correct position and the effective pressing depth, the rotary LED lamp is controlled to be lightened by the main control circuit board;

after being continuously pressed for N times, the rotary LED lamp is controlled to be lightened and rotated through the main control circuit board;

during the period, if the pressing position and depth are incorrect, the rotary LED lamp is turned off; if the pressing position is correct, the pressing frequency value and the pressing rebound value are incorrect, and the rotary LED lamp is lighted but not rotated.

Preferably, the front surface of the head structure is provided with a concave mounting part, the rotary LED lamp is mounted on a head lamp panel, the head lamp panel is arranged in the concave mounting part, and the upper cover of the head lamp panel is provided with a head indicating lamp lens.

Preferably, the lung bag assembly comprises:

a large lung bag arranged between the sternum and the skin, and the mouth of the large lung bag is fixed on the neck of the trunk structure;

a small lung bag which is arranged in the large lung bag, and the bag mouth of the small lung bag extends out from the bag mouth of the large lung bag and is communicated with one end of the air passage of the mouth; the other end of the air passage is provided with a mouth connecting piece.

Preferably, an elastic silica gel sheet is arranged in the air passage, and when the air is blown into the air passage through the mouth connecting piece, the elastic silica gel sheet is opened to enable air to enter the small lung bag; when the blowing is stopped, the elastic silica gel piece rebounds to seal the air passage under the action of self elastic force.

Preferably, the trunk structure is provided with a neck part, the back neck part of the neck part is rotationally connected with the head structure, and the air passage communicated with the lung bag component is opened or closed in the rotation process of the head structure;

a travel switch is arranged at the rear neck of the neck part, and a travel switch pressing piece is also arranged at the corresponding position of the head structure; when the head structure rotates and is lifted, the air passage is opened, the travel switch is just pressed down by the travel switch, and the travel switch sends out a voice prompt through a circuit component.

Preferably, the rear neck of the neck is connected with the head structure through a rotating shaft assembly, the rotating shaft assembly comprises a rotating shaft arranged at the rear neck of the neck and a shaft sleeve arranged on the head structure, and the shaft sleeve is sleeved on the rotating shaft.

Preferably, a rotation stopping rib is arranged on the rotating shaft, a rotation stopping notch is arranged on the shaft sleeve, and when the head structure rotates and leans back to the target position, the rotation stopping rib is clamped into the rotation stopping notch to limit the head structure to continue rotating.

Preferably, the heart position on the front side of the trunk structure is also provided with an assessment feedback lamp structure, which comprises a heart indication lamp panel and a heart indication lamp lens, wherein the heart indication lamp panel is arranged on the trunk structure, and the heart indication lamp lens is covered on the heart indication lamp panel;

the heart pilot lamp plate still with main control circuit board, main control circuit board is according to the depth of pressing that obtains, press rebound value, press whether the frequency reaches the effective value of pressing of predetermineeing, comes the control the opening or closing of light on the heart pilot lamp plate.

Compared with the prior art, the invention has the following advantages and positive effects due to the adoption of the technical scheme:

according to the cardiopulmonary resuscitation training and assessment integrated device provided by the invention, different compression and assessment results and training and assessment are integrated under the cardiopulmonary resuscitation training and assessment mode through the cooperation of the main control circuit board, the light feedback assembly and the measuring assembly, so that the application range is greatly improved.

Drawings

The above and other features and advantages of the present invention will be more clearly understood from the following detailed description taken in conjunction with the accompanying drawings, in which:

FIG. 1 is a schematic structural view of an integrated cardiopulmonary resuscitation training and assessment device provided by the present invention;

FIG. 2 is a top view of an integrated cardiopulmonary resuscitation training and assessment device provided by the present invention;

FIG. 3 is a bottom view of an integrated cardiopulmonary resuscitation training and assessment device provided by the present invention;

FIG. 4 is a rear view of the cardiopulmonary resuscitation training and assessment integrated device provided by the present invention;

FIG. 5 is a side view of an integrated cardiopulmonary resuscitation training and assessment device provided by the present invention;

FIG. 6 is a cross-sectional view of the integrated cardiopulmonary resuscitation training and assessment device of the present invention in a head structure non-lifted state;

FIG. 7 is a cross-sectional view of the integrated cardiopulmonary resuscitation training and assessment device of the present invention in a raised head configuration;

FIG. 8 is a schematic view of a torso structure of the present invention;

FIG. 9 is a schematic view of a spindle on a head structure according to the present invention;

FIG. 10 is a cross-sectional view of the test feedback lamp structure of the present invention;

FIG. 11 is a cross-sectional view of a snap fastener assembly of the present invention.

Detailed Description

The invention will be described in more detail hereinafter with reference to the accompanying drawings showing embodiments of the invention. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. In the drawings, the size and relative sizes of layers and regions may be exaggerated for clarity.

Referring to fig. 1-11, the present invention provides an integrated cardiopulmonary resuscitation training and assessment device comprising a torso structure 500, a head structure 100 coupled to the torso structure 500, and skin 501 overlaying the torso structure; a lung bag assembly is arranged between the sternum position on the front surface of the trunk structure 500 and the skin 501, and is connected with the mouth of the head structure 100; the trunk structure 500 is a hollow structure, and an elastic structure is arranged in the trunk structure, is supported between the sternum position and the back, presses the sternum position, stretches and contracts, and simulates cardiopulmonary resuscitation; the trunk structure 500 is also internally provided with a main control circuit board 405 and a measurement component for measuring the pressing depth, the pressing rebound value and the pressing frequency during the simulated cardiopulmonary resuscitation, wherein the measurement component is connected with the main control circuit board 405 and feeds back each measurement data to the main control circuit board 405.

The head structure 100 is also provided with a lamplight feedback component which is connected with the main control circuit board 405; in the cardiopulmonary resuscitation training mode, the main control circuit board 405 controls the light feedback component to be turned on, and feeds back the light feedback component in real time according to the acquired data; in cardiopulmonary resuscitation assessment mode, the main control circuit board 405 controls the light feedback assembly to turn off.

According to the cardiopulmonary resuscitation training and assessment integrated device provided by the invention, the main control circuit board 405 is matched with the light feedback assembly and the measuring assembly to reflect different compression and assessment results and integrate the training and assessment in the cardiopulmonary resuscitation training and assessment mode, so that the application range is greatly improved.

In this embodiment, the head structure 100 is formed by splicing a left head shell 101 and a right head shell 102 together left and right, and a mouth 201 is detachably arranged at the front mouth position of the head structure, and the left side and the right side of the specific mouth 201 are detachably connected to the left head shell 101 and the right head shell 102 through a buckle structure 7 respectively; of course, the composition of the head structure 100 in other embodiments is not limited to the above, and may be modified according to circumstances.

In this embodiment, torso structure 500 is comprised of an upper body shell 502 and a lower body shell 504, with releasable connection between the upper body shell 502 and the lower body shell 504 being accomplished by a plurality of snap fastener assemblies; referring to fig. 11, a specific hidden button assembly includes a matched male button body 601 and a female button body 604, the male button body 601 is mounted on the upper body shell 502, the female button body 604 is mounted on the lower body shell 504, the male button body 604 and the male button body 601 are pressed and buckled together, a male button body pressing ring 602 is disposed on a side of the male button body 601 facing the female button body 604, a female button body pressing ring 603 and a male button spring 605 are disposed on a side of the female button body 604 facing the male button body 601, and the male button body pressing ring 602, the female button body pressing ring 603 and the male button spring 605 are formed for buffering and pressing.

Of course, in other embodiments, the specific composition of the torso structure 500 may be adjusted according to the specific situation, and the connection structure between the upper body shell 502 and the lower body shell 504 may be adjusted according to the specific situation, which is not limited herein.

Further, the outer side of the trunk structure 500 is also covered with the skin 501, which is made of special materials, is soft and transparent, and makes the light appear soft and vaporific, so that the visual feeling of the user is very comfortable.

Further, the four corners of the back of the trunk structure 500 are respectively provided with an anti-slip pad 503 for preventing the cardiopulmonary resuscitation training and checking integrated device from sliding during cardiopulmonary resuscitation, which is more convenient to operate.

In this embodiment, the main control circuit board 405 is mounted on the inward side of the lower body case 504, and the upper cover thereof is provided with a shield 404 for protecting the main control circuit board 405; the battery box 408 with an inner cover is arranged on the side facing outwards of the lower body shell 504, a battery 407 for supplying power to various electric components and circuit boards in the device is arranged in the battery box 408, and a battery cover 506 is also arranged on the battery box 408 in a covering manner.

In this embodiment, the measurement assembly includes a displacement sensor 406 and a shock sensor 401.

Specifically, the displacement sensor 406 is disposed on the back inside the torso structure 500 and connected to the main control circuit board 405; the displacement sensor 406 is used for measuring the compression depth and compression rebound value during the simulated cardiopulmonary resuscitation, and feeding back to the main control circuit board 405.

The vibration sensor 401 is connected to a vibration circuit board 402, the vibration circuit board 402 is arranged on one side of the sternum position facing to the back, and a vibration circuit board shield 403 is covered on the vibration circuit board 402 for protecting the vibration circuit board; the vibration circuit board 402 is also connected with the main control circuit board 405, and the vibration sensor 401 is used for measuring the pressing frequency during the simulated cardiopulmonary resuscitation and feeding back to the main control circuit board 405;

in this embodiment, when the pressing depth, the pressing rebound value, and the pressing frequency received by the main control circuit board reach the preset effective pressing values, the light feedback component is controlled to give a feedback indication.

Specifically, the vibration sensor 401 is disposed at the intersection point of the two front breast connecting lines of the trunk structure and the middle branch line of the trunk, when the position of the intersection point is correctly pressed, the pressing position is correct, and the vibration sensor 401 is used for feeding back to the main control circuit board 405.

Further, the lamplight feedback assembly comprises a rotary LED lamp; when pressed to the correct position and the effective pressing depth, the rotary LED lamp is controlled to be lightened by the main control circuit board 405; after N continuous effective presses, the main control circuit board controls the rotary LED lamp to light and rotate, where N is preferably 5, and of course, in other embodiments, the pressing times N may be adjusted according to specific situations, which is not limited herein; during the period, if the pressing position and depth are incorrect, the rotary LED lamp is turned off; if the pressing position is correct, the pressing frequency value and the pressing rebound value are incorrect, and the rotary LED lamp is lightened but not rotated.

In this embodiment, the front surface of the head structure 100 is provided with a concave mounting portion, the rotary LED lamp is mounted on a head lamp panel 410, the head lamp panel 410 is disposed in the concave mounting portion, and the upper cover thereof is provided with a head indicating lamp lens 510. Of course, in other embodiments, the installation manner of the rotary LED lamp may be adjusted according to the specific situation, which is not limited herein.

In this embodiment, the lung bag assembly includes a large lung bag 207 and a small lung bag 208; the large lung bag 207 is arranged between the sternum and the skin, and the bag mouth of the large lung bag is fixed on the neck of the trunk structure 500 through the large lung bag connecting piece 205 and the large lung bag locking ring 206; the small lung bag 208 is arranged in the large lung bag 207, and the bag mouth of the small lung bag 208 extends out from the bag mouth of the large lung bag 207 and is communicated with one end of the air passage 10 of the mouth 201; the other end of the airway 10 is provided with a mouthpiece 202.

Further, an elastic silica gel piece 204 is arranged in the air passage 10, and when air is blown into the air passage 10 through the mouth connecting piece 201, the elastic silica gel piece 204 is opened to enable air to enter the small lung bag; when the blowing is stopped, the elastic silica gel sheet 204 rebounds to seal the air passage under the action of self elastic force.

In the embodiment, a combination mode of double lung bags is adopted, and the air blowing is carried out through the small lung bag 208 to expand so as to drive the large lung bag 207 to expand, so that the large lung bag plays a role in restricting the small lung bag from being damaged due to excessive air blowing; moreover, the small lung bag 208 can be detached and replaced by detaching the mouth 201, so that the operation is simple and convenient, time and labor are saved, and sanitation and subsequent reuse are convenient to keep.

In this embodiment, the torso structure 500 has a neck portion, and the rear neck portion of the neck portion is rotatably connected to the head structure 100; the air passage communicated with the lung bag component is opened or closed in the rotation process of the head structure 100, and particularly, with reference to fig. 6-7, a pressing plate 9 is arranged at the jaw of the mouth 201 of the head structure 100, and the pressing plate 9 presses on the small lung bag port under the dehumidification condition to realize the closure of the air passage, as shown in fig. 6; in use, the head structure 100 is rotated and the platen 9 is lifted to open the airway.

Further, the rear neck of the neck is connected with the head structure 100 through a rotating shaft assembly, the rotating shaft assembly comprises a rotating shaft 11 arranged at the rear neck of the neck and a shaft sleeve 13 arranged on the head structure 100, and the shaft sleeve 13 is sleeved on the rotating shaft 11. The rotating shaft 11 is provided with a rotation stopping rib 12, the shaft sleeve 13 is provided with a rotation stopping notch 14, and when the head structure 100 rotates and leans back to a target position (namely, a position for guaranteeing the opening of an air passage), the rotation stopping rib 12 is clamped into the rotation stopping notch 14 to limit the head structure 100 to rotate continuously, so that excessive rotation is prevented.

In the present embodiment, a travel switch 409 is provided at the rear neck of the neck portion, and a travel switch pressing piece 509 is also provided at the corresponding position of the head structure 100; when the head structure 100 is turned up, the air passage 10 is opened, the travel switch push piece 508 just presses the travel switch 409, and the travel switch 409 sends out a voice prompt through a circuit component to represent that the air passage is opened.

In this embodiment, the front heart position of the trunk structure is further provided with an assessment feedback lamp structure 300, which includes a heart indication lamp panel 411 and a heart indication lamp lens 511, the heart indication lamp panel 411 is mounted on the trunk structure by a pressing plate 512, and the heart indication lamp lens 511 is covered on the heart indication lamp panel 411; the heart pilot lamp plate 411 still with main control circuit board 405, main control circuit board is according to pressing the degree of depth, pressing the rebound value, pressing whether the frequency reaches the effective value of pressing of predetermineeing, control the opening or closing of light on the heart pilot lamp plate 411, cover the light electric quantity on the heart pilot lamp plate 411 after training or checking qualification promptly.

In this embodiment, the bottom of the trunk structure 500 is further provided with a power switch 413 and an external socket 412, the power switch 413 is used for controlling the start and stop of the whole device, the external socket 412 is used for externally connecting an analog control feedback device or a PAD software end, real-time data of training and assessment can be timely and thoroughly fed back, and data statistics and post-academic research are facilitated.

It will be appreciated by those skilled in the art that the invention can be embodied in many other specific forms without departing from the spirit or scope thereof. Although embodiments of the present invention have been described, it is to be understood that the present invention should not be limited to these embodiments, but that variations and modifications can be made by one skilled in the art within the spirit and scope of the present invention as hereinafter defined in the appended claims.

Claims (7)

1. The integrated cardiopulmonary resuscitation training and assessment device is characterized by comprising a trunk structure, a head structure connected with the trunk structure and skin covered on the trunk structure; a lung bag component is arranged between the sternum position on the front surface of the trunk structure and the skin, and the lung bag component is connected with the mouth of the head structure; the trunk structure is a hollow structure, an elastic structure is arranged in the trunk structure, the elastic structure is supported between the sternum position and the back and presses the sternum position, and the elastic structure stretches and contracts to simulate cardiopulmonary resuscitation;

the trunk structure is internally provided with a main control circuit board and a measuring assembly for measuring the pressing depth, the pressing rebound value and the pressing frequency during simulated cardiopulmonary resuscitation, wherein the measuring assembly is connected with the main control circuit board and feeds back each measuring data to the main control circuit board; the head structure is also provided with a lamplight feedback assembly, and the lamplight feedback assembly is connected with the main control circuit board; in a cardiopulmonary resuscitation training mode, the main control circuit board controls the light feedback assembly to be opened, and feeds back the light feedback assembly in real time according to the acquired data; in a cardiopulmonary resuscitation assessment mode, the main control circuit board controls the light feedback component to be closed;

the measuring assembly comprises a displacement sensor and a vibration sensor, wherein the displacement sensor is arranged on the back in the trunk structure and is connected with the main control circuit board; the displacement sensor is used for measuring the pressing depth and the pressing rebound value during the simulated cardiopulmonary resuscitation and feeding back to the main control circuit board; the vibration sensor is arranged on one side of the sternum position facing the back and is connected with the main control circuit board; the vibration sensor is used for measuring the pressing frequency during simulated cardiopulmonary resuscitation and feeding back to the main control circuit board; when the pressing depth, the pressing rebound value and the pressing frequency received by the main control circuit board reach a preset effective pressing value, controlling the light feedback assembly to give a feedback instruction; the vibration sensor is arranged at the intersection point of the two breast connecting lines on the front surface of the trunk structure and the middle branch line of the trunk, when the position of the intersection point is correctly pressed, the pressing position is correct, and the vibration sensor is fed back to the main control circuit board;

the lamplight feedback assembly comprises a rotary LED lamp; when the rotary LED lamp is pressed to the correct position and the effective pressing depth, the rotary LED lamp is controlled to be lightened by the main control circuit board; after being continuously pressed for N times, the rotary LED lamp is controlled to be lightened and rotated through the main control circuit board; during the period, if the pressing position and depth are incorrect, the rotary LED lamp is turned off; if the pressing position is correct, the pressing frequency value and the pressing rebound value are incorrect, and the rotary LED lamp is lightened but not rotated;

the lung bag component comprises a large lung bag and a small lung bag, the large lung bag is arranged between the sternum and the skin, and the bag opening of the large lung bag is fixed on the neck of the trunk structure; the small lung bag is arranged in the large lung bag, and the bag opening of the small lung bag extends out from the bag opening of the large lung bag and is communicated with one end of the air passage of the mouth part; the other end of the air passage is provided with a mouth connecting piece. .

2. The integrated cardiopulmonary resuscitation training and assessment device according to claim 1, wherein the front face of the head structure is provided with a concave mounting portion, the rotary LED lamp is mounted on a head lamp panel, the head lamp panel is disposed in the concave mounting portion, and a head indicator lens is disposed on the upper cover of the head lamp panel.

3. The integrated cardiopulmonary resuscitation training and assessment device according to claim 1, wherein an elastic silicone piece is provided in the airway, and is opened when air is blown into the airway through the mouth connection piece, so that air enters the small lung bag; when the blowing is stopped, the elastic silica gel piece rebounds to seal the air passage under the action of self elastic force.

4. The integrated cardiopulmonary resuscitation training and assessment device of claim 1, wherein said torso structure has a neck portion, a rear neck portion of said neck portion being rotatably connected to said head structure, said head structure opening or closing an airway in communication with said lung bag assembly during rotation;

a travel switch is arranged at the rear neck of the neck part, and a travel switch pressing piece is also arranged at the corresponding position of the head structure; when the head structure rotates and is lifted, the air passage is opened, the travel switch is just pressed down by the travel switch, and the travel switch sends out a voice prompt through a circuit component.

5. The integrated cardiopulmonary resuscitation training and assessment device according to claim 4, wherein the rear neck of the neck is connected with the head structure through a rotating shaft assembly, the rotating shaft assembly comprises a rotating shaft arranged at the rear neck of the neck and a shaft sleeve arranged on the head structure, and the shaft sleeve is sleeved on the rotating shaft.

6. The integrated cardiopulmonary resuscitation training and assessment device according to claim 5, wherein a rotation stopping rib is arranged on the rotating shaft, a rotation stopping notch is arranged on the shaft sleeve, and when the head structure rotates and leans back to a target position, the rotation stopping rib is clamped into the rotation stopping notch to limit the head structure to continue rotating.

7. The integrated cardiopulmonary resuscitation training and assessment device according to claim 5, wherein an assessment feedback lamp structure is further arranged at the position of the heart on the front side of the trunk structure, and comprises a heart indication lamp panel and a heart indication lamp lens, wherein the heart indication lamp panel is installed on the trunk structure, and the heart indication lamp lens is covered on the heart indication lamp panel;

the heart pilot lamp plate still with main control circuit board, main control circuit board is according to the depth of pressing that obtains, press rebound value, press whether the frequency reaches the effective value of pressing of predetermineeing, comes the control the opening or closing of light on the heart pilot lamp plate.