KR102083613B1 - Human model system for evaluation of acupoint position education achievement and method for determinating of acupuncture using it - Google Patents

Abstract

The present invention relates to a human body model system for evaluating achievement of acupuncture point education and, more specifically, to a human body model system which repeatedly performs acupuncture point learning for a plurality of trainees, and is capable of evaluating effective learning results for trainees participating in an acupuncture point learning process. Although the arrangement of an optical sensor is different according to parts of the body, it is possible to repeatedly learn acupuncture points for the plurality of trainees by arranging the optical sensor in the acupuncture points and non-acupuncture points, and it is possible to effectively determine whether the positioning of target acupuncture points is successful or unsuccessful.

Description

HUMAN MODEL SYSTEM FOR EVALUATION OF ACUPOINT POSITION EDUCATION ACHIEVEMENT AND METHOD FOR DETERMINATING OF ACUPUNCTURE USING IT}

The present invention relates to a human body model system for evaluating the achievement of acupuncture point education, and more specifically, it is possible to repeatedly perform acupuncture point learning for a plurality of trainees, and is effective for trainees participating in the acupuncture point learning process. The present invention relates to an anthropomorphic system that can evaluate learning outcomes.

In general, acupuncture is a treatment method of oriental medicine originated in Korea for a long time, and refers to the act of applying various types of acupuncture to the body's acupuncture points. This acupuncture, which is performed in Oriental medicine, can be performed with certain accuracy without any error on specific acupuncture points.

However, acupuncture points in which acupuncture points are widely spread in various parts of the body of a person, and since the effects of symptoms are different for each acupuncture points, it is difficult to remember all of them. Therefore, in order to learn acupuncture, as well as volunteers for oriental medicine, to learn acupuncture, acupuncture education programs or learning through books, etc., there is a problem that it is difficult to practice acupuncture.

In order to solve this problem, conventionally, acupuncture training was performed by allowing acupuncture to be inserted at each acupuncture point in a model similar to a human body and determining whether a needle was inserted through a sensor.

However, in the case of the structure that directly inserts the needle into a specific area of the model as described above, since the acupuncture marks remain at the point where the needle is inserted after the first insertion of the needle, subsequent trainees visually recognize the acupuncture position. There is a problem that can not be repeated because acupuncture training.

In addition, the conventional model has a problem that the acupuncture points are displayed on the surface of the model and cannot be used to evaluate the achievement of the acupuncture points. Therefore, in the achievement evaluation of the conventional menstrual blood position education, the evaluator visually checks whether the position designated by the trainee is correct. However, this conventional evaluation method has a problem that the subjectivity of the evaluator can be involved, so that the achievement of menstrual blood education cannot be objectively and fairly evaluated.

In addition, according to the conventional method, when acupuncture is correctly performed on specific acupuncture points, it is possible to determine whether acupuncture succeeds. However, it is difficult to determine whether acupuncture is performed after acupuncture points. Since the structure is different, there is a problem in that the arrangement of an effective sensor for sensing acupuncture is difficult.

The present invention is to solve the above problems, it is possible to repetitive learning of acupuncture points for a large number of trainees, and to effectively determine whether the acupuncture points location and success, the sensor in consideration of the part of the body The purpose is to provide an anthropomorphic system for evaluating the achievement of deployable acupuncture points.

In order to achieve the above object, in one aspect, the present invention is made similar to the human body, the human body device attached to the optical sensor on the inner surface corresponding to the acupuncture points and non-acupuncture points, and specifics of the human body model device It may include a light emitting device capable of irradiating light with respect to the position.

The human body model device may have a structure corresponding to a whole body of a person, or a structure corresponding to a part of a body.

When the human body apparatus is visually observed from the outside, the human body apparatus may have an opacity such that the optical sensor located inside the human body apparatus cannot be recognized.

The human body model is acupuncture acts according to the appearance of the human body model made of silicon, foamed urethane, or a material similar to a human body, an optical sensor for detecting light emitted from the light emitting device, and an amount of light detected from the optical sensor. A control unit for determining success of the control unit, an output device for outputting the determination result, an input device for inputting a reference value for determining whether the acupuncture is successful, and a reference value input through the input device. Memory may be included.

The optical sensor may be a photodiode or a CDS sensor using cadmium sulfide (Cds) as an element.

The optical sensor may be formed in a type in which one or more optical sensors are attached to an acupuncture point adjacent to the inside of the human body apparatus.

The optical sensor includes an optical sensor element, an optical sensor shield that shields the optical sensor element, an electrode connected to the control unit from the optical sensor element, and an optical sensor support unit for stably fixing the optical sensor to the inside of the human body exterior. And a light inflow groove formed on one side of the optical sensor support part to allow light emitted from the light emitting device to flow therein.

The optical sensor may include an optical sensor support attached to an inner surface of the human body exterior, and an optical sensor element in which an optical fiber surrounded by an optical fiber coating from the optical sensor support is extended by a predetermined length from the interior of the human body exterior. It may include.

The optical sensor may have a structure in which an optical sensor corresponding to an acupuncture point and a plurality of optical sensors corresponding to a non-acupuncture point are surrounded by the center.

The light emitting device may emit visible light or infrared light.

In addition, the present invention is a human body device that can sense the light irradiated from the light emitting device, the appearance of the human body made of a material similar to the human body of silicon, urethane, or human, and the inner surface corresponding to acupuncture points and non-acupuncture points An optical sensor attached to the light sensor for detecting light emitted from the light emitting device, a control unit for determining whether acupuncture is successful according to the amount of light detected by the light sensor, an output device for outputting the determination result, and . It may include an input device for inputting a reference value for determining the success of the acupuncture, and a memory for storing the reference value input through the input device.

In addition, the present invention is attached to an internal surface corresponding to the human body appearance, acupuncture points and non-acupuncture points made of silicon, foamed urethane, or a material similar to a human body, and an optical sensor for detecting light emitted from the light emitting device. According to the amount of light detected by the light sensor, a control unit for determining whether the target acupuncture points are successful, an output device for outputting the determination result, and a reference value for determining the success of the acupuncture can be input. A human body device comprising an input device and a memory for storing a reference value input through the input device, the method for determining whether the target acupoint location is successful by detecting light irradiated from the light emitting device, the acupuncture point location Setting an upper reference value and a lower reference value with respect to the amount of light for the determination of a designated action; Determining that the target acupuncture points are successful when the amount of light detected by the optical sensor positioned at a specific point of the exterior is greater than or equal to the upper reference value and the amount of light detected by the remaining optical sensor is less than or equal to the lower reference value. It may include.

In addition, the present invention is attached to an internal surface corresponding to the human body appearance, acupuncture points and non-acupuncture points made of silicon, foamed urethane, or a material similar to a human body, and an optical sensor for detecting light emitted from the light emitting device. According to the amount of light detected by the light sensor, a control unit for determining whether the target acupuncture points are successful, an output device for outputting the determination result, and a reference value for determining the success of the acupuncture can be input. A human body device comprising an input device and a memory for storing a reference value input through the input device, the method for determining whether the target acupoint location is successful by detecting light emitted from the light emitting device, the reference value The amount of light detected by the optical sensor located at a specific point of the external appearance of the body model is greater than or equal to the reference value In this case, the method may include determining that the acupuncture succeeds more than the amount of light detected by the remaining optical sensors.

According to the present invention, the position of the optical sensor is changed depending on the part of the body, and by placing the optical sensor in the acupuncture points and the non-acupuncture points, repetitive learning of the points of the acupuncture points is possible for a large number of trainees. It can provide an effect that can effectively determine the success and failure.

In addition, according to the present invention, when the trainee fails to designate the acupuncture points, by measuring and presenting the error, there is an effect that the effective acupuncture point training and the achievement evaluation can be performed.

In addition, in the case of evaluating the menstrual blood position using the human body model system of the present invention, not only the evaluation result but also an evaluation time can be informed so that an effective evaluation can be made.

Figure 1 shows the overall configuration of the human body model for evaluating the achievement of acupuncture points training according to an embodiment of the present invention.
Figure 2 shows the internal configuration of the human body model in the human body system for the achievement evaluation of the menstrual blood position education of the present invention.
Figure 3 shows a screen example in the case of judging the target menstrual blood position positioning behavior of the trainee in the human body system for the achievement evaluation of the menstrual blood position education of the present invention.
FIG. 4 is a diagram illustrating an example of a screen when a trainee determines a target menstrual blood positioning behavior as a failure in the human body model system for evaluating achievement of menstrual blood position training according to the present invention.
FIG. 5 is a diagram illustrating a first type of optical sensor in the human body model system for evaluating the achievement of menstrual blood position education according to an embodiment of the present invention.
FIG. 6 is a diagram illustrating a second type of optical sensor in the human body model system for evaluating the achievement of the menstrual blood position education according to the embodiment of the present invention.
FIG. 7 is a view illustrating a third type of optical sensor in the human body model system for evaluating achievement of menstrual blood position education according to an embodiment of the present invention.

Hereinafter, some embodiments of the present invention will be described in detail through exemplary drawings. In describing the components of the present invention, terms such as first, second, A, B, (a), and (b) can be used. These terms are only for distinguishing the components from other components, and the nature, order or order of the components are not limited by the terms. If a component is described as being "connected", "coupled" or "connected" to another component, that component may be directly connected to or connected to that other component, but there may be another configuration between each component. It is to be understood that the elements may be "connected", "coupled" or "connected".

Figure 1 shows the overall configuration of the human body model for evaluating the achievement of acupuncture points training according to an embodiment of the present invention.

Referring to FIG. 1, the human body model system for evaluating the achievement of menstrual blood position education according to the present invention includes a human body apparatus 100 manufactured similarly to a human body, and a specific position of the human body apparatus 100, that is, acupuncture points It may include a light emitting device 200 that can irradiate light to.

The human body apparatus 100 includes an optical sensor and a device for controlling the same, and is manufactured to have a size similar to that of a real human body, and is preferably configured to express body muscles, bones, and tendons. Do. The exterior of the human body apparatus 100 may be made of a soft material such as silicone or urethane, or a material similar to human skin. At this time, when the trainee observes the human body apparatus 100 with the naked eye, it is preferable to have an opacity such that the trainee does not recognize the optical sensor located inside the human body apparatus 100.

The human body apparatus 100 may be manufactured to be similar to the entire body of the human body from the end of the head to the tip of the foot, but may be manufactured only to a specific part such as an arm, a leg, or a chest as needed. The human body model device 100 manufactured for the entire human body may be used for acupuncture education and achievement evaluation for the whole body, and a human body device manufactured for a part of the body such as an arm, a leg, a head, and a chest. 100 may be used for menstrual blood education and achievement assessment for specific body parts.

The light emitting device 200 is a device for the trainee to irradiate light on the menstrual blood of the human model device 100. The end of the light emitting device 100 has a pointed shape in order to emit light at an accurate position, and is provided with a light emitting groove for emitting light. A light emitting button for irradiating light may be provided at a side or part of the light emitting device 200. Therefore, the trainee may press the light emitting button in the state in which the light emitting device 200 is in contact with a specific position of the manikin apparatus 100 to irradiate light into the inside of the manikin apparatus 100.

At this time, the light emitted from the light emitting device 200 is capable of electromagnetic waves of all wavelengths that can be detected by the optical sensor, but because the light must reach the optical sensor formed inside the human body apparatus 100, It is effective to use light of a wavelength with little scattering and a constant transmittance. In addition, since it is preferable that the human body apparatus 100 is not damaged by the irradiated light, it is preferable to use visible light or infrared light. Meanwhile, the surface of the light emitting device 200 is preferably painted in a dark color such as black so that the light emitted from the light emitting device 200 is not irradiated to a place other than a specific point of the human body apparatus 100. .

As described above, in the human body model system of the present invention, a human body model is installed by installing a light emitting device 200 for irradiating light and an optical sensor 120 for detecting light of the light emitting device 200 inside the human body model device 100. The acupuncture points need not be displayed on the outside of the device 100, and the acupuncture points are set by the light emitting device 200, so that a plurality of trainees perform acupuncture, so that acupuncture marks remain on the surface of the human model device 100. If not, repetitive acupuncture training can be performed.

Figure 2 shows the internal configuration of the human body model in the human body system for the achievement evaluation of the menstrual blood position education of the present invention.

Referring to FIG. 2, the human body model 100 of the present invention includes a human body exterior 110, an optical sensor 120, a controller 130, an input device 140, an output device 150, and a memory 160. ) May be included.

As described above, the manikin appearance 110 corresponds to a manikin made of a soft material such as silicone or urethane, or a material similar to human skin. In particular, the human body appearance 110 may have a structure corresponding to the entire human body, or may be manufactured in a structure corresponding to a part of the body, such as an arm, a leg, or a chest.

The optical sensor 120 is located inside the human body exterior 110, and is disposed at a point of acupuncture points or non-acupuncture points, and serves to detect light emitted from the light emitting device 200. The optical sensor 120 may use various types of sensors, such as a photodiode and a CDS sensor using cadmium sulfide (Cds) as an element.

At this time, the optical sensor 120 may be formed in various forms according to the position of the menstrual blood, the shape of the optical sensor 120 will be described in detail below.

The controller 130 performs a function of processing the overall operation of the human body model apparatus 100. That is, according to the amount of light detected from the optical sensor 120, it determines whether the trainee's target acupuncture positioning action is a success or failure, and outputs the result through the output device 150. At this time, the success or failure of the target acupuncture positioning action is input through the input device 140 and is compared with a reference value stored in the memory 160 (a light amount, a current or voltage value indicating the light amount, etc.). Judgment can be made.

In addition, the controller 130 displays the target acupoints stored in the memory 160, or the target acupuncture points input by the evaluator through the input device 140, on the output device 150, whereby the trainees are directed to the target acupuncture points. You may be able to induce acupuncture.

The controller 130 includes an AD-converter 132 for converting the amount of light transmitted from the optical sensor 120 into a digital signal, and an acupuncture act using the digital output signal of the AD converter 132. It may include a CPU (Central Processing Unit) 134 for determining the success. The CPU 134 may include an arithmetic logic unit (ALU) for performing calculations, a register for temporarily storing data and instructions, and a controller for controlling the operation of the controller 130. CPU 134 also includes Digital, Alpha, MIPS Technology, NEC, IDT, Siemens, MIPS, Intel and Cyrix, AMD, and Nexgen. May be a processor with a variety of architectures, such as the company's x86 and IBM's and Powerola's PowerPC.

The input device 140 may be a device capable of recognizing a user's manipulation or touch, such as a mouse or a touch screen, but may also include a physical transducer such as a microphone. As described above, the input device 140 may be used to input a reference value for determining the success or failure of the trainee's target acupoint positioning behavior, in addition to the type or signal of the output signal through the output device 150 It can also be used to input the size of.

The output device 150 refers to a display capable of displaying characters or images, such as a light emitting diode (LED), a liquid crystal display (LCD), and an electronic ink (e-ink), but a speaker A transducer such as may also be included. Therefore, according to the determination result of the control unit 130, the acupuncture behavior of the trainee will be determined as success or failure, and the result will be displayed in sound or color. In addition, the output device 150 may display the evaluation time or the remaining time so that the evaluation for the trainee is performed within a specified time.

The memory 160 stores information about a reference value input through the input device 140 or a target acupuncture point input by the evaluator, and temporarily stores the amount of light detected by the optical sensor 120. The controller 130 may compare the reference value with the reference value to determine whether the target menstrual blood positioning activity is successful. The memory 160 generally uses high-speed main memory in the form of storage media such as random access memory (RAM) and read only memory (ROM), auxiliary memory such as flash memory, and electrical, magnetic, optical, or other storage media. It may include a device for storing data. In addition, the main memory may include a video display memory for displaying an image through the output device 150. It will be apparent to those skilled in the art that the memory 160 is a product having various storage capacities and may have various forms.

In the technical field of the present invention, the human body apparatus 100 may include an operating system (OS) and at least one application program. The OS is a set of software that controls the operation of the human body apparatus 100 and designation of resources. An application program is a set of software for performing tasks requested by an administrator by using computer resources available through the OS. The application program may be an example of an optical sensor control program, an acupuncture judgment program, and an output control program. The OS and applications will reside in memory 160. In accordance with the experience of those skilled in the art of computer programming, unless otherwise described, the present invention will be described in accordance with representations of operations and operations performed by the human body apparatus 100. This operation is computer based and may be performed by the OS or a suitable application. In addition, these operations and functions not only change the operation of the controller 130 for the electrical signal, such as data bits that cause the conversion or interruption of the electrical signal, but also change the operation of the human body apparatus 100, as well as the inside of the memory 160. Management of the data bit signals stored in the area. The internal area in which the data bit signal is managed will be a physical area with electrical, magnetic or optical properties corresponding to the data bit.

FIG. 3 is a diagram illustrating an example of a screen when a trainee's target menstrual blood positioning function is determined to be successful in a human body model system for evaluating achievement of menstrual blood position education according to the present invention, and FIG. An example of the screen when the action is determined to be a failure is also shown.

First, the human body model system of the present invention, in order to determine whether the target acupuncture points are correctly designated when the trainee uses the light emitting device 200 to perform the target acupuncture point positioning action on the human model device 100. The optical sensor 120 is installed at the internal menstrual blood spot of the model exterior 110. Also, non-acupuncture points (light sensor 2) or other points of acupuncture points (light sensor 1) around the target acupuncture points so that the trainee can distinguish between failures that do not specify the target points. In addition, the optical sensor 120 may be additionally installed.

The reason why the light sensor 120 is installed at the non-acupuncture point is to distinguish the case where the trainee irradiates light to a specific point of the exterior of the human body model 110 using the light emitting device 200 and the case where the light is not irradiated. to be. In addition, by installing the optical sensor 120 at the non-acupuncture points, when the trainee fails to designate the acupuncture points, it is possible to determine the error or error content with the exact points.

First, referring to FIG. 3, a case in which the determination of the target menstrual blood position positioning behavior of the trainee as success will be described.

When the trainee irradiates light to a specific point of the human body apparatus 100 using the light emitting device 200, the light sensor 110 at the point where the light emitting device 200 is contacted detects the most amount of light. In addition, the light sensor 110 around it also detects some light because some light is irradiated. In this case, since the light emitting device 200 comes into contact with the light sensor 3 to irradiate light, the amount of light detected by the light sensor 3 will be the highest, and the light sensors around it, that is, the light sensor 2 and the light sensor 4. The amount of light detected at will be less than the amount detected at light sensor 3.

For example, the upper reference value and the lower reference value may be set for the amount of light for determining the target acupoint positioning behavior, and the light detected by the optical sensor (for example, optical sensor 3) located at a specific point may be used. If the amount is above the upper reference value and the amount of light detected by the remaining light sensors (eg, light sensors 1, 2, and 4) is below the lower reference value, the amount of light detected by light sensor 3 is the remainder. In the case of greater than the amount of light detected by the light sensors (light sensors 1, 2, and 4), the trainee's target acupoint positioning behavior may be determined to be successful.

Alternatively, the amount of light detected by an optical sensor (eg, optical sensor 3) positioned at a specific point is greater than or equal to a reference value, and detected by the remaining optical sensors (eg, optical sensors 1, 2, and 4). In more cases than the amount of light, the trainee's target acupoint positioning behavior may be judged as successful.

Such a criterion may set the reference value as a single reference value, or as a dual reference value for the upper reference value and the lower reference value. By varying the relationship with the amount of light sensed by the optical sensor, it will be possible to determine whether the target menstrual blood positioning activity is successful.

Accordingly, the controller 130 may determine that the trainee contacts the light emitting device 200 at the point of the optical sensor 3, and determine that the target acupoint positioning action for the acupuncture point where the light sensor 3 is attached is successful. have.

On the other hand, as shown in FIG. 4, when the trainee does not contact the light emitting device 200 with the target acupuncture points of the human body apparatus 100, but the contact with the non-acupuncture points or other acupuncture points, The amount of light detected by the light sensor located here (in this case light sensor 2) will be greater than the amount of light detected by the located light sensor (here light sensor 3). In this case, since the trainee 130 makes the light emitting device 200 contact the point of the light sensor 2 of the non-acupuncture point, the controller 130 determines that the target acupuncture point designation action is failed. At this time, the acupuncture points positioning behavior of the trainee is not only an error from a target acupuncture point (position of the optical sensor 3) but also to determine how the point at which the trainee touches the light emitting device 200 differs from the acupuncture point. It becomes possible.

As a result, in the case of using the human body model system of the present invention, not only the success or failure of the target acupuncture point positioning action of the trainees, but also the cause and the cause of the failure when the target acupuncture point is failed can be identified. Evaluation and education can be done.

On the other hand, the number of acupuncture points in the entire human body corresponds to hundreds, and acupuncture points below the ankle correspond to 66 pieces in both feet. In addition, acupuncture points may be narrowly located depending on the part of the body, and may be located at wide intervals. Therefore, in order to effectively arrange the optical sensor 120, it is necessary to change the shape according to the distribution of acupuncture points. At this time, it is preferable that the location of the menstrual blood should follow the standard position of menstrual blood defined by the 2009 World Health Organization.

To this end, in the human body model system of the present invention, as an embodiment, the optical sensor 120 attached to the interior of the human body model 100 is divided into three types.

FIG. 5 is a diagram illustrating a first type of optical sensor in the human body model system for evaluating the achievement of menstrual blood position education according to an embodiment of the present invention.

Referring to FIG. 5, the first type of optical sensor exemplarily shows a form in which one optical sensor 120 is attached to an acupuncture point adjacent to the inside of the human body exterior 110. That is, the first type of optical sensor 120 directly attaches the optical sensor 120 to the internal menstrual blood position of the human body exterior 110, but the optical sensor element 121 and the optical sensor shield 122 shielding the optical sensor 120. An electrode 123 extending from the optical sensor element 121 and connected to the controller 130, an optical sensor support 124 for stably fixing the optical sensor 120 to the inside of the human body exterior 110; It may include a light inlet groove 125 formed on one side of the light sensor support 124 to allow the light irradiated from the light emitting device 200 to be introduced. The optical sensor shield 122 and the optical sensor support 124 are formed in a color similar to the skin color of the human body so that the student does not visually locate the optical sensor 120 from the outside of the human body exterior 110. It is preferable.

FIG. 6 is a diagram illustrating a second type of optical sensor in the human body model system for evaluating the achievement of the menstrual blood position education according to the embodiment of the present invention.

Referring to FIG. 6, the second type of optical sensor exemplifies a case in which one or more acupuncture points are concentrated at a narrow point, such as a tip or a foot, and thus it is difficult to attach directly to the inside of the human body exterior 110. Indicated by

Accordingly, in the second type of optical sensor, the optical sensor support 124 is attached to the inner surface of the manikin appearance 110, from which the optical fiber 126 surrounded by the fiber coating 127 is attached to the manikin appearance. The optical sensor element 121 is positioned by extending a predetermined length into the interior of the 110. Therefore, since the area of the optical sensor 120 may be relatively narrow on the inner surface of the human body exterior 110, the optical sensor may be effectively installed even at a location where one or more acupuncture points are concentrated.

When the optical fiber 126 is formed to extend like the second type of optical sensor, the optical sensor support part 124 may not separately form or minimize the optical inflow groove 125 through which light may be introduced. Could be

7 is a view showing a third type of optical sensor in the human body model system for evaluating the achievement of the menstrual blood position education according to the embodiment of the present invention.

Referring to FIG. 7, the third type of optical sensor may be applied when there is sufficient internal space in which the optical sensor 120 may be located because the menstrual blood is spaced apart at regular intervals, such as a chest or an instep. As such, when the positions of the acupuncture points are relatively spaced apart, if the trainee does not correctly specify the positions of the acupuncture points using the light emitting device 200, the amount of light irradiated to the adjacent optical sensor may be larger than the specified acupuncture points. The optical sensor group in which the optical sensors of the group are formed can be used as the third type of optical sensor.

For example, the third type of optical sensor may form the optical sensor group in a structure surrounded by the optical sensor 120B corresponding to the non-acupoint location, centering on the optical sensor 120A corresponding to the acupuncture point. . At this time, the light sensor 120B corresponding to the non-acupoint location may be provided in one or more.

The above description and the accompanying drawings are merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may combine the configurations within a range not departing from the essential characteristics of the present invention. Various modifications and variations may be made, including separation, substitution, and alteration. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. In other words, within the scope of the present invention, all of the components may be selectively operated in combination with one or more. The scope of protection of the present invention should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

100: human body device 200: light emitting device
110: human body appearance 120, 120A, 120B: light sensor
121: optical sensor element 122: optical sensor shield
123: electrode 124: optical sensor support
125: light inflow groove 126: optical fiber
127: optical fiber coating 130: control unit
132: AD converter 134: CPU
140: input device 150: output device
160: memory

Claims (19)

A human model device which is manufactured similar to a human body and has an optical sensor attached to an inner surface corresponding to acupuncture points and non-acupuncture points; And
It includes a light emitting device for irradiating light to a specific position of the human body device,
The human body model device
A human body appearance made of silicone, foam urethane, or a material similar to a human body;
An optical sensor detecting light emitted from the light emitting device;
A controller configured to determine whether a target menstrual blood positioning operation is successful according to the amount of light detected by the optical sensor;
An output device for outputting the determination result;
An input device configured to input a reference value for determining whether the target acupoint location action is successful; And
A human body system for evaluating the achievement of acupuncture points education comprising a memory for storing the reference value input through the input device. The method of claim 1,
The human body model device
A human body model system for evaluating the achievement of acupuncture point education consisting of a structure corresponding to an entire body of a person or a structure corresponding to a part of a body. The method of claim 1,
The human body model device
An anthropomorphic system for evaluating the achievement of acupuncture point education, which has an opacity that is unrecognizable when visually observed from the outside, to the extent that an optical sensor located inside an anthropometric device is not recognized. delete The method of claim 1,
The optical sensor is a human body model system for evaluating the achievement of acupuncture point training, which is a photodiode or a CDS sensor using cadmium sulfide (Cds) as an element. The method of claim 1,
The optical sensor is a human body model system for evaluating the achievement of acupuncture points education is formed of a type that is attached to one of the optical sensor adjacent to the interior of the human body model device for one menstrual blood. The method of claim 6,
The optical sensor
Optical sensor elements;
An optical sensor shield to shield the optical sensor element;
An electrode connected to the control unit from the optical sensor element;
An optical sensor support for stably fixing an optical sensor to the inside of the human body exterior; And
The human body model system for evaluating the achievement of acupuncture points education formed on one side of the optical sensor support portion including a light inlet groove into which the light irradiated from the light emitting device can be introduced. The method of claim 1,
The optical sensor
An optical sensor supporter attached to an inner surface of the human body exterior; And
The human body system for evaluating the achievement of menstrual blood position education comprising an optical sensor element in which the optical fiber enclosed by the optical fiber coating from the optical sensor support portion is extended by a predetermined length from the inside of the human body exterior. The method of claim 1,
The optical sensor is a human body model system for evaluating the achievement of menstrual blood position education consisting of a structure surrounded by the optical sensor corresponding to the acupuncture points, and a plurality of optical sensors corresponding to the non-acupuncture points centered around it. The method of claim 1,
The light emitting device is a human body system for evaluating the achievement of acupuncture points education to irradiate visible light or infrared light. In the human body device that can sense the light emitted from the light emitting device,
A human body appearance made of silicone, foam urethane, or a material similar to a human body;
An optical sensor attached to an inner surface corresponding to the acupuncture points and the non-acupuncture points to detect light emitted from the light emitting device;
A controller configured to determine whether a target menstrual blood positioning operation is successful according to the amount of light detected by the optical sensor;
An output device for outputting the determination result;
An input device configured to input a reference value for determining whether the target acupoint location action is successful; And
A human body apparatus for evaluating the achievement of acupuncture points education comprising a memory for storing a reference value input through the input device. The method of claim 11,
The human body model device
A human body model for evaluating the achievement of acupuncture point education comprising a structure corresponding to an entire body of a person or a structure corresponding to a part of a body. The method of claim 11,
The optical sensor is a CDS sensor using a photo-diode or cadmium sulfide (Cds) as a device, the human body apparatus for evaluating the achievement of acupuncture point education. The method of claim 11,
The optical sensor is a human body model for evaluating the achievement of acupuncture points education is formed of a type to which one optical sensor is attached adjacent to the inside of the human body apparatus for one acupuncture points. The method of claim 14,
The optical sensor
Optical sensor elements;
An optical sensor shield to shield the optical sensor element;
An electrode connected to the control unit from the optical sensor element;
An optical sensor support for stably fixing an optical sensor to the inside of the human body exterior; And
The human body model for evaluating the achievement of acupuncture points education formed on one side of the optical sensor support portion including a light inflow groove into which the light irradiated from the light emitting device can be introduced. The method of claim 11,
The optical sensor
An optical sensor supporter attached to an inner surface of the human body exterior; And
The human body model for evaluating the achievement of menstrual blood position education comprising an optical sensor element is located in the optical fiber enclosed by the optical fiber covering from the optical sensor support portion is extended by a predetermined length from the inside of the human body exterior. The method of claim 11,
The optical sensor is a human body apparatus for evaluating the achievement of the menstrual blood position education consisting of a structure surrounded by the optical sensor corresponding to the acupuncture points, and a plurality of optical sensors corresponding to the non-acupuncture points centered around it. A human body appearance made of silicone, foam urethane, or a material similar to a human body;
An optical sensor attached to an inner surface corresponding to the acupuncture points and the non-acupuncture points to detect light emitted from the light emitting device;
A controller configured to determine whether a target menstrual blood positioning operation is successful according to the amount of light detected by the optical sensor;
An output device for outputting the determination result;
An input device configured to input a reference value for determining whether the target acupoint location action is successful; And
In the human body device including a memory for storing the reference value input through the input device, Determining the light irradiated from the light emitting device to determine the success of the target acupuncture point location,
Setting an upper reference value and a lower reference value for an amount of light for determining a target menstrual blood positioning activity; And
When the amount of light detected by the optical sensor located at a specific point of the external appearance of the human body model is greater than or equal to the upper reference value, and the amount of light detected by the remaining optical sensor is less than or equal to the lower reference value, the success of target acupoint positioning Determining;
Acupuncture judgment method comprising a. A human body appearance made of silicone, foam urethane, or a material similar to a human body;
An optical sensor attached to an inner surface corresponding to the acupuncture points and the non-acupuncture points to detect light emitted from the light emitting device;
A controller configured to determine whether a target menstrual blood positioning operation is successful according to the amount of light detected by the optical sensor;
An output device for outputting the determination result;
An input device configured to input a reference value for determining whether the target acupoint location action is successful; And
In the human body apparatus including a memory for storing the reference value input through the input device, Determining the light irradiated from the light emitting device to determine the success or failure of a specific acupuncture location designation,
Setting a reference value; And
Determining that the amount of light detected by the optical sensor positioned at a specific point of the external appearance of the human body model is greater than or equal to a reference value and is greater than the amount of light detected by the remaining optical sensor as the success of target acupoint positioning;
Acupuncture judgment method comprising a.

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