CN217932989U - Three-in-one intelligent cardio-pulmonary resuscitation training model - Google Patents

Abstract

The utility model relates to a trinity intelligent cardiopulmonary resuscitation trains the model, belong to medical teaching apparatus field, including model shell, training subassembly and model rubber skin, can dismantle between model shell and the model rubber skin and be connected, the installation is equipped with the training subassembly in the model shell, the training subassembly includes unable adjustment base, the grafting hollow tube, press plate, the plug-in post, regulating spring, sensor and power, unable adjustment base installs the middle part position in the model shell, unable adjustment base is last fixed mounting to be equipped with the grafting hollow tube, press plate bottom center fixed mounting to be equipped with the plug-in post, plug-in post adaptation activity grafting is at the plug-in post, the activity cup joints on the plug-in hollow tube and is equipped with regulating spring, the sensor installation sets up on the model shell; the utility model discloses the effectual current cardiopulmonary resuscitation model training standard nature of having solved is poor, is difficult to the problem of statistics press the data of exercise and frequency, the utility model discloses can freely adjust intensity to be fit for different crowds and learn to use cardiopulmonary resuscitation.

Description

Three-in-one intelligent cardio-pulmonary resuscitation training model

The technical field is as follows:

the utility model relates to a medical teaching apparatus field, concretely relates to trinity intelligence cardiopulmonary resuscitation training model.

Background art:

cardiopulmonary resuscitation is an emergency measure for rescuing patients with sudden cardiac arrest, and maintains normal cardiopulmonary function through artificial chest compression and artificial respiration until natural respiration and blood circulation are recovered. In the first time of an emergency, proper and effective first aid treatment can be obtained. Is one of the first aid skills that the public must master. The existing cardio-pulmonary resuscitation training model is single, the object to be subjected to cardio-pulmonary resuscitation can be children, teenagers or adults, the pressing force degrees of people of different age groups to be subjected to cardio-pulmonary resuscitation are different, the existing cardio-pulmonary resuscitation training model is basically an adult, the using requirement is difficult to meet, and the requirement for ensuring different people including children, teenagers or adults is met. Therefore, the utility model provides a trinity intelligent cardiopulmonary resuscitation training model to solve not enough and the shortcoming that prior art exists.

The utility model has the following contents:

the utility model aims at overcoming the shortcomings existing in the prior art and providing a three-in-one intelligent cardio-pulmonary resuscitation training model.

The utility model adopts the technical proposal that:

the utility model provides a trinity intelligence cardiopulmonary resuscitation trains model, includes that model shell, training subassembly and model rubber are outer, model shell with can dismantle the connection between the model rubber outer, the installation is equipped with in the model shell the training subassembly, the training subassembly includes unable adjustment base, the hollow tube of pegging graft, presses platen, plug column, adjusting spring, sensor and power, unable adjustment base installs middle part position in the model shell, unable adjustment base is last to be equipped with the hollow tube of pegging graft, press platen bottom center fixed mounting to be equipped with the plug column, plug column adaptation activity is pegged graft the plug column, the activity cup joints on the plug hollow tube and is equipped with adjusting spring, the sensor installation sets up on the model shell, press the platen top be equipped with the dog that the sensor adaptation used, sensor electric connection the power.

Preferably, two sides of the inserting hollow pipe are arranged in a concave manner, two sides of the inserting column are arranged in a convex manner, and the convex portions are inserted into the concave portions in a matched manner.

Preferably, a protection pad is arranged at the bottom of the outer layer of the model rubber, an insertion groove and a positioning column are fixedly arranged at the upper end and the lower end of the bottom of the protection pad, the stop block is movably inserted into the insertion groove in a matched mode, a positioning hole is formed in the pressing plate, and the positioning column is inserted into the positioning hole.

Preferably, reinforcing blocks are arranged between the model shells, and the training component is positioned between the reinforcing blocks.

Preferably, a feedback information display screen is arranged on the outer layer of the model rubber.

The utility model has the advantages that: the utility model discloses the effectual current cardiopulmonary resuscitation model training standard nature of having solved is poor, is difficult to the problem of statistics press the data of exercise and frequency, guarantees the efficient study cardiopulmonary resuscitation's of practitioner gimmick, just the utility model discloses intensity can be adjusted freely to be fit for different crowds and learn to use cardiopulmonary resuscitation, the utility model has the advantages of simple structure can dismantle the maintenance and change, and easy operation has apparent practicality.

Description of the drawings:

FIG. 1: the utility model discloses a three-dimensional explosion schematic diagram.

FIG. 2: the utility model discloses the structural schematic diagram of training subassembly.

FIG. 3: the utility model discloses training assembly's three-dimensional explosion sketch map.

FIG. 4: the utility model discloses the structure sketch map of grafting hollow tube and grafting post.

FIG. 5: the structure of the utility model is schematically illustrated after the protection pad and the pressing plate are combined.

FIG. 6: the utility model discloses the outer structure schematic diagram of model rubber.

FIG. 7: the structure of the utility model is schematically shown.

In the figure: 001. model shell, 002, training subassembly, 201, unable adjustment base, 202, grafting hollow tube, 221, sunken, 203, press plate, 204, grafting post, 241, protruding, 205, adjusting spring, 206, sensor, 207, power, 003, model rubber skin, 004, protection pad, 401, inserting groove, 402, reference column, 005, boss, 231, dog.

Embodiment mode (b):

the drawings are for illustrative purposes only and are not to be construed as limiting the patent; for the purpose of better illustrating the embodiments, certain features of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

As shown in fig. 1-7, a three-in-one intelligent training model for cardiopulmonary resuscitation comprises a model shell 001, a training component 002 and a model rubber outer layer 003, the model shell 001 and the model rubber outer layer 003 are detachably connected, the training component 002 is installed in the model shell 001, the training component 002 comprises a fixed base 201, a plug-in hollow tube 202, a pressing plate 203, a plug-in post 204, an adjusting spring 205, a sensor 206 and a power supply 207, the fixed base 201 is installed at the middle position in the model shell 001, the plug-in hollow tube 202 is fixedly installed on the fixed base 201, the plug-in post 204 is fixedly installed at the center of the bottom of the pressing plate 203, the plug-in post 204 is movably plugged in the plug-in post 204 in an adaptive manner, the adjusting spring 205 is movably sleeved on the plug-in hollow tube 202, the adjusting springs 205 with different elastic strengths are replaced, the pressing force of a user is different when the cardiopulmonary resuscitation training is performed, when a learning object is a child, the adjusting springs 205 can be replaced by springs with lower elastic strengths, the sensor 206 is installed and arranged in the model shell 001, the stop block 231 matched with the sensor 206 for use is arranged at the top of the pressing plate 203, the sensor 206 is electrically connected with the power supply 207, the process that the user presses the model rubber outer layer 003 is in, the distance between the stop block 231 and the sensor 206 is changed, the number of times that the user presses each time can be detected in real time, and the effect of the user on learning cardiopulmonary resuscitation is evaluated by checking the pressed real-time data; a training model for training artificial respiration can be further installed at the neck position of the model shell 001, and the amount of gas blown out by a user is collected through measurement, so that the training effect of artificial respiration is evaluated according to the amount of gas.

The scheme is further optimized to be set as follows: as shown in fig. 4, two sides of the hollow plugging tube 202 are provided with the recesses 221, two sides of the plugging column 204 are provided with the protrusions 241, the protrusions 241 are adapted to be plugged into the recesses 221, and when the plugging column 204 is plugged into the hollow plugging tube 202 to move up and down relatively, the plugging column 204 cannot rotate in the hollow plugging tube 202, that is, the pressing plate 203 cannot horizontally rotate and move during the pressing process.

The scheme is further optimized to be set as follows: as shown in fig. 1 and 5-6, a protection pad 004 is installed at the bottom of the outer layer 003 of model rubber, an insertion groove 401 and a positioning column 402 are fixedly arranged at the upper end and the lower end of the bottom of the protection pad 004, a stop block 231 is movably inserted into the insertion groove 401 in a matching manner, a positioning hole 232 is formed in the pressing plate 203, the positioning column 402 is inserted into the positioning hole 232, the protection pad 004 is installed and fixed on the outer layer 003 of model rubber firstly, and then the outer layer 003 of model rubber is installed on the outer layer 001 of model rubber without the protection pad 004 abutting against the pressing plate 203 in the pressing process.

The scheme is further optimized to be set as follows: as shown in FIG. 1, the model shell 001 is provided with reinforcing blocks 005 between them, and the training member 002 is located between the reinforcing blocks 005, and the reinforcing blocks 005 increase the strength of the model shell 001.

The scheme is further optimized to be set as follows: as shown in fig. 1, be equipped with feedback information display screen 006 on the outer 003 of model rubber, feedback information display screen 006 real-time display user presses the pressure numerical value, and feedback information display screen 006 also can be connected to the real-time supervision on the cell-phone APP through current connected mode.

The utility model discloses a use method or principle do: the user presses model rubber outer 003, press the clamp plate 203 to press and descend, reset under regulating spring 205's effect, the user can realize the exercise of cycle repetition, it makes the interval of dog 231 and sensor 206 change to go up to descend according to clamp plate 203, the number of times that the user pressed at every turn all can real-time detection, through looking over the real-time data who presses, come the effect that the aassessment user study cardiopulmonary resuscitation, regulating spring 205 through changing three kinds of intensity, make cardiopulmonary resuscitation training model can correspond children, teenager and adult, application range is extensive than current single cardiopulmonary resuscitation training model.

In the drawings, the positional relationship is described for illustrative purposes only and is not to be construed as limiting the present patent; it is obvious that the above embodiments of the present invention are only examples for clearly illustrating the present invention, and are not limitations to the embodiments of the present invention. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.

Claims (5)

1. The utility model provides a trinity intelligent cardiopulmonary resuscitation trains model which characterized in that: including model shell (001), training subassembly (002) and the outer (003) of model rubber, model shell (001) with can dismantle the connection between the outer (003) of model rubber, the installation is equipped with in model shell (001) training subassembly (002), training subassembly (002) includes unable adjustment base (201), grafting hollow tube (202), presses clamp plate (203), spliced pole (204), adjusting spring (205), sensor (206) and power (207), unable adjustment base (201) are installed middle part position in model shell (001), fixed mounting is equipped with grafting hollow tube (202) on unable adjustment base (201), press clamp plate (203) bottom center fixed mounting to be equipped with spliced pole (204), spliced pole (204) adaptation activity is pegged graft spliced pole (204), activity cup joints on grafting hollow tube (202) to be equipped with adjusting spring (205), sensor (206) installation sets up in model shell (001), press clamp plate (203) top be equipped with dog (231) that sensor (206) adaptation was used, sensor (206) electric connection power (207).

2. The three-in-one intelligent cardiopulmonary resuscitation training model of claim 1, wherein: the plug-in hollow pipe (202) is provided with recesses (221) on two sides, the plug-in column (204) is provided with protrusions (241) on two sides, and the protrusions (241) are plugged into the recesses (221) in a matching mode.

3. The three-in-one intelligent cardiopulmonary resuscitation training model of claim 1, wherein: the rubber mould is characterized in that a protection pad (004) is arranged at the bottom of the outer layer (003) of the mould rubber, an insertion groove (401) and a positioning column (402) are fixedly arranged at the upper end and the lower end of the bottom of the protection pad (004), a stop block (231) is movably inserted into the insertion groove (401) in a matched mode, a positioning hole (232) is formed in the pressing plate (203), and the positioning column (402) is inserted into the positioning hole (232).

4. The three-in-one intelligent cardiopulmonary resuscitation training model of claim 1, wherein: be equipped with boss (005) between model shell (001), training subassembly (002) are located between boss (005).

5. The three-in-one intelligent cardiopulmonary resuscitation training model of claim 1, wherein: and a feedback information display screen (006) is arranged on the model rubber outer layer (003).

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