CN221687106U - A spliced medical skills training simulator - Google Patents

Abstract

The utility model relates to the technical field of training simulators, and discloses a spliced medical skill training simulators, which is characterized in that the shape of a half body is approximately the same as that of the upper half part of a human body, and a battery is arranged in the half body; the display is arranged on the half body and is connected with the battery through an electric wire to supply power; the connecting limb is detachably arranged on the half body; and is connected with the display and the battery through wires; wherein, the sensors are covered in the connecting limbs and the half body; a positioning contact and a Bluetooth pen are arranged on the outer surface of the body and the limb. Through the cooperation setting between half health and the connection limbs, can be based on the difference of different operating personnel operation experiment positions, singly select required operating structure can to need not carry and occupy the large tracts of land place and operate, reach the effect of convenient equipment operation.

Description

Spliced medical skill training simulator

Technical Field

The utility model relates to the technical field of training simulators, in particular to a spliced medical skill training simulators.

Background

With the transition of medical modes, patients' self-protection consciousness is continuously improved, and the chances of medical staff to conduct clinical practice are becoming smaller and smaller. Therefore, teaching modes based on medical simulation are accepted by the public in the context of new medical departments. Medical simulators are a type of simulation equipment specifically designed for medical training and clinical simulation. The training tool adopts medical knowledge such as human anatomy, physiology and the like, and provides a safe and controllable learning environment for medical staff through truly simulating human body structures and functions.

However, most of the existing simulators refer to human body structures, 1:1 simulation is large and heavy, and trouble is brought to daily storage and transportation. Taking abdominal cavity puncture as an example, only a single abdominal part needs to be operated, and other structures such as limbs are redundant; meanwhile, for some misoperations, the operation is mostly known by naked eyes, for example, when the sterilization operation before the abdominal cavity puncture is performed, the operation key point is that sterilization is performed by taking a puncture point as a center, the diameter of each sterilization is 15cm, and the diameter of each sterilization is smaller than that of the previous sterilization for 3 times. At present, most of the prior art is lack of accuracy in judging the diameter distance by naked eyes of operators. When taking part in the examination, the operator may also have a situation that erroneous judgment occurs due to lack of tools that can be accurately measured.

In view of the above, the application provides a spliced medical skill training simulator for solving the above problems, which can achieve the operation of splicing the simulation parts at the opposite parts, reduce maintenance work of the parts which do not need to be operated, and increase an operation judging function at the same time, so as to more accurately judge whether errors occur in the steps.

Disclosure of utility model

Aiming at the defects of the prior art, the utility model provides a spliced medical skill training simulator, which solves the problems in the prior art.

In order to achieve the above purpose, the utility model is realized by the following technical scheme:

A spliced medical skill training simulator comprises,

The shape of the half body is approximately the same as that of the upper half part of the human body, and a battery is arranged in the half body;

the display is arranged on the half body and is connected with the battery through an electric wire to supply power;

The connecting limb is detachably arranged on the half body; and is connected with the display and the battery through wires;

Wherein, the sensors are covered in the connecting limbs and the half body; a positioning contact and a Bluetooth pen are arranged on the outer surface of the body and the limb.

Optionally, grooves matched with the bluetooth pen are formed in the connecting limbs and the half body.

Optionally, the bluetooth pen is adsorbed and arranged in the groove.

Optionally, the bluetooth pen is connected with the display through bluetooth signals.

Optionally, the display is electrically connected with the positioning contact.

Optionally, the bluetooth pen is in contact with the positioning contact to transmit signals to the display.

Optionally, a plurality of interfaces for connecting with the connecting limbs are arranged on one side of the half body.

The utility model provides a spliced medical skill training simulator, which has the following beneficial effects:

1. Through the cooperation setting between half health and the connection limbs, can be based on the difference of different operating personnel operation experiment positions, singly select required operating structure can to need not carry and occupy the large tracts of land place and operate, reach the effect of convenient equipment operation.

2. Through the cooperation setting between the Bluetooth pen and the sensor, the movement steps of an operator can be recorded in operation, so that the display judges whether the steps are wrong or not; meanwhile, the sensor can further achieve the effect of increasing judgment.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of a battery structure according to the present utility model;

FIG. 3 is a schematic diagram of a sensor structure according to the present utility model;

Fig. 4 is a schematic diagram of a display structure according to the present utility model.

In the figure: 1. a half body; 2. a battery; 3. a display; 4. connecting limbs; 5. a sensor; 6. positioning the contact; 7. bluetooth pen; 8. a groove; 9. an interface.

Detailed Description

The utility model will be further described with reference to the following embodiments in order to make the technical means, the creation features, the achievement of the objects and the effects of the utility model easy to understand.

In the description of the present utility model, it should be understood that the terms "transverse", "longitudinal", "end", "edge", "side wall", "upper", "lower", "directly above", "surface", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "axial", "radial", "circumferential", "end", "head", "tail", etc. refer to the orientation or positional relationship based on the drawings, are merely for convenience of describing the technical solution of the present utility model and for simplifying the description, and do not indicate or imply that the apparatus or element referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present utility model.

The application provides a spliced medical skill training dummy for facilitating daily training operation of medical students, so that the training effect of the medical students can be facilitated.

The application is mainly composed of a half body 1 simulating the appearance of the upper half part of a human body, a battery 2 arranged in the half body 1, a display 3 arranged on one side of the half body 1 and powered by the battery 2, and a connecting limb 4 detachably connected to the half body 1.

Referring to fig. 1-2, the body half 1 is substantially identical in shape to the upper body half, but does not include a limb portion; the interior of the battery is designed as a cavity for bearing the battery 2 and the circuits for connecting the battery 2 outwards.

Referring to fig. 1-2, the battery 2 is inserted into the inner cavity of the half body 1 at one side of the bottom of the half body 1, and is equipotential-fixed by a mounting member such as a bolt.

Referring to fig. 1-2, the top portion of the body half 1 is detachably connected to the display 3, and the display 3 is connected to the battery 2 located in the body half 1 by penetrating the body half 1 with an electric wire, thereby supplying power to the display 3 through the battery 2.

1-2, Based on the human body construction, with limbs and the like, whereby a detachable connecting limb 4 is provided on the body half 1; wherein the connecting limb 4 comprises two arms, pelvic bones, two leg limbs and the like; for the convenience of operators in use, the connecting limb 4 parts are all arranged into a detachable and assembled structure and are all electrically connected with the half body 1 through lines;

Taking into account that a simulated human volume is too large, a large space is occupied in operation; most limbs of students with directional profession cannot be used in use, so that the required teaching area is increased when the integral model is used, and the required vehicle-mounted using table top is increased; meanwhile, based on the demands of students of different experimental operations,

The matched connecting limbs 4 are selected to be installed and then operated for use, so that the occupied area of the whole model is reduced, and an operator is promoted to better control the simulation experiment body in operation.

1-4, Wherein in order to facilitate the judgment of the connection limb 4 and the half body 1 in operation, the operator's step range is correct, so a Bluetooth pen 7 and a positioning contact 6 are arranged on the surface of the connection limb 4 and the half body 1, wherein in order to store the Bluetooth pen 7 better, a groove 8 matched with the connection limb 4 and the half body 1 is arranged on the connection limb 4 and the half body 1, an adsorption structure is arranged in the groove 8, the Bluetooth pen 7 is placed in the groove 8, and the Bluetooth pen 7 can be firmly adsorbed in the groove 8 to form fixation.

The positioning contact 6 is a contact sensor, and a data model for connecting the limb 4 and the half body 1 is built in the display 3; when the Bluetooth pen 7 based on different positions is contacted with the positioning contact 6 of the relative position, the controller arranged in the half body 1 receives the connected instruction, processes the signals and then presents the position of the Bluetooth pen 7 on the display 3; and when the Bluetooth pen 7 moves, the data model established in the earlier stage displays the moving position of the Bluetooth pen 7 on the data model on the display 3, and further judges the operation range of the student based on the operation range standard and the like set in the display 3 in the earlier stage.

It should be noted that, the data model body corresponding to the bluetooth pen 7 is set in the display 3 in the early stage, when the bluetooth pen 7 contacts with the positioning contact 6, the bluetooth pen 7 transmits data to image and display on the position of the virtual positioning contact 6 corresponding to the data model body through the controller, and then the bluetooth pen 7 is positioned in the movement range of the virtual data model.

It should be noted that, the bluetooth pen 7 may be provided with a connection member to connect with a medical work to be matched with the operation, thereby providing a more real simulation operation; wherein the connection can be a cotton swab, a needle head and other operations.

Further, based on standard operation steps before operation, a corresponding system is embedded in the display 3 to receive signal data accessed by the controller, the signal data are processed by the controller and then displayed on the display 3, and based on different settings, imaging broadcasting can be carried out on the problems that the operation steps exceed an operation area and the like.

Referring to fig. 2-4, to further determine whether the bluetooth signal structure of the bluetooth pen 7 by the display 3 is accurate, a sensor 5 is disposed in the connecting limb 4 and the body half 1, for sensing the range of the operating area of the connecting limb 4 and the body half 1, and the range is transmitted to the controller for processing and then displayed in the display 3, and in combination with the positioning data transmitted by the bluetooth pen 7, the data combination judgment is generally performed, so that the data combination judgment is more accurate.

It should be noted that, the sensor 5 may be implemented by a patch type sensor tiled on an inner surface of the simulated human body or an existing arrangement such as an embedded sensor embedded in an inner structure of the human body model.

To further explain the line processing, the positioning contact 6, the bluetooth pen 7 and the sensor 5 all transmit electrical signals to the controller, and after being processed by the controller, the imaging is displayed on the display 3, wherein the operating system software arranged in the display 3 is the existing mature operating software, and the application is not further described herein.

In the collection work of the front stage of the display 3, firstly, recording the judgment standard of the position required by training in the software in the display 3, and judging whether an operator operates according to standard steps based on the movement path and the recorded standard movement path when the Bluetooth pen 7 moves; meanwhile, the movement range of the Bluetooth pen 7 is recorded in the record, and the controller further processes the received two data by combining the perception of the human operator to the human operator operation part range through the sensor 5 and displaying the judgment condition through the display 3.

In the utility model, the working steps of the device are as follows:

1. Firstly, the display 3 is turned on to be connected with a power supply transmitted by the battery 2; the selected operated connecting limb 4 is arranged on the half body 1 and connected with the interface 9 of the half body 1 through wires

2. Secondly, the interface of the half body 1 is used for providing power supply and transmitting and receiving electric signal data based on the connecting limb 4, taking out the Bluetooth pen 7 in the groove 8 on the connecting limb 4 in the operated area, and opening the Bluetooth pen 7 to enable the Bluetooth pen 7 to be in wireless connection with the display 3;

3. Then, the bluetooth pen 7 is contacted with the positioning contact 6, the positioning contact 6 receives the bluetooth pen 7 signal and transmits the signal to the display 3, modeling patterns appear in the display 3 corresponding to the connected bluetooth pen 7 based on modeling data recorded in advance, the positioning contact 6 determines the current position of the bluetooth pen 7, and then the movement of the bluetooth pen 7 is recorded in a modeling range based on the position in the movement.

4. Finally, the mobile data of the bluetooth pen 7 can be recorded through the display 3, the display 3 synchronously combines the sensing data of the sensor 5, whether the operation of an operator is wrong or not is judged, and the wrong point is displayed on the display 3 for the operator or a teacher to watch.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be appreciated by persons skilled in the art that the present utility model is not limited to the embodiments described above, but is capable of numerous variations and modifications without departing from the spirit and scope of the utility model as hereinafter claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (7)

1. A spliced medical skill training simulator is characterized in that: comprising the steps of (a) a step of,

A half body (1) which has a shape substantially the same as that of the upper half part of the human body and is internally provided with a battery (2);

The display (3) is arranged on the half body (1) and is connected with the battery (2) through an electric wire to supply power;

The connecting limb (4) is detachably arranged on the half body (1); and is connected with the display (3) and the battery (2) through wires;

Wherein, the sensors (5) are covered in the connecting limbs (4) and the half body (1); a positioning contact (6) and a Bluetooth pen (7) are arranged on the outer surface of the connecting limb (4) and the half body (1).

2. The stitched medical skill training simulator of claim 1, wherein: grooves (8) matched with the Bluetooth pen (7) are formed in the connecting limb (4) and the half body (1).

3. The stitched medical skill training simulator of claim 2, wherein: the Bluetooth pen (7) is adsorbed in the groove (8).

4. The stitched medical skill training simulator of claim 1, wherein: the Bluetooth pen (7) is connected with the display (3) through Bluetooth signals.

5. The stitched medical skill training simulator of claim 1, wherein: the display (3) is in electrical signal connection with the positioning contact (6).

6. The stitched medical skill training simulator of claim 1, wherein: the Bluetooth pen (7) is contacted with the positioning contact (6) to transmit signals to the display (3).

7. The stitched medical skill training simulator of claim 1, wherein: one side of the half body (1) is provided with a plurality of interfaces (9) for connecting with the connecting limbs (4).