KR101839792B1 - Hair transplantation training system possible implant power measurement and analysis - Google Patents

Abstract

Disclosed is a hair transplantation training system capable of measuring and analyzing an insertion force. The hair implantation training system according to the present invention is characterized in that an implantability detection pad for outputting a detection signal according to an insertion force applied to a scalp pad on which a scalp pad is placed and an implantation force detection pad A pad stand for adjusting a height, a rotation, and a tilt to at least one axis, and a detection signal in real time through a detection signal, and controlling the measured insertion force to be displayed on at least one monitor, And a main controller that displays and controls the measured insertion force measured during the set period so as to be able to monitor and compare with the previously stored evaluation reference data or the expert data.

Description

[0001] HAIR TRANSPLANTATION TRAINING SYSTEM [0002] POSITION IMPLANT POWER MEASUREMENT AND ANALYSIS [0003]

The present invention relates to a training system for training hair transplantation. More particularly, the present invention relates to a training system for training hair transplantation, And more particularly, to a hair transplantation training system capable of measuring and analyzing an implantability.

In case of loss of hair or hair on the human skin due to illness or accident, the hair or hair is transferred to the area where the hair or hairs are lost. In this case, eyebrows, beard, pubic hair and hair are to be implanted using a hair transplanting mosquito do.

In the case of single-parent hair removal, the hair roots are separated one by one and are transplanted by the needles of the needles. Therefore, there is no bleeding and no scarring, and the direction, angle and density of the hair can be arbitrarily adjusted. Eyebrows, beard, eyelashes, and conspiracy are also widely used.

As the hair-implanting hairpin, hair roots that are connected with the hair during hair-raising operation are placed on the inside of the hairpin of the mosquito, and then the hairpin is inserted into the scalp. And is placed in the scalp. Particularly, there is a method of using a mandibular rod that slidably moves in the inside of the hair removal needle to push the hair root into the skin tissue in the scalp and a method of forming a guide plate protruding from the front of the sliding member to serve as a mandrel rod, So that it does not come out any more.

When a hair transplanting mosquito is used for hair implantation, the thickness of the skin tissue in a human scalp is different from each other. Therefore, the practitioner must learn and control the embryo's ability to be inserted into the scalp by the experience. If the insertion force is too weak, it can not be reliably implanted, and if it is too strong, damage to the scalp tissue may occur, resulting in excessive bleeding or inflammation. Because the scalp layer is different according to the scalp of the individual and the insertion force is finely adjusted according to the position of the head, training using a hair transplanting mosquito is necessary.

However, since the hair-implanting training system has not been separately invented in the prior art, the use of a general-purpose sheet-type pressure distribution measuring module is used to measure the insertion force and the hair-implanting training is performed with a separate artificial scalp pad. However, And can not provide the results of the analysis.

Domestic Utility Model Bulletin No. 20-2010-0009117 "Mannequin for Beauty Practice"

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to solve the above-mentioned problems, and an object of the present invention is to provide a method and apparatus for measuring and displaying a setting force of hair during real time training of a hair transplantation, The present invention provides a hair transplantation training system capable of measuring and analyzing an implantability to further enhance a hair transplantation training effect.

According to another aspect of the present invention, there is provided a hair transplantation training system for measuring and analyzing an implantation force, comprising: an implantation force detection pad for outputting a detection signal according to an implantation force applied to a scalp pad, A pad stand on which the abovementioned force sensing pad is seated to adjust the height, rotation and tilt of at least one axis on which the abovementioned insertion force detection pad is seated, and a pad stand for measuring the insertion force in real time, And a main controller for displaying and controlling the display force so as to be comparatively analyzed with previously stored evaluation reference data or expert data for monitoring.

According to the above-described method for measuring and analyzing the pulling force of the present invention, it is possible to measure and display the force of the hair in real time during the training of the hair transplantation, and to measure and compare the measured force The hair transplantation training effect can be further improved.

In particular, it is possible to monitor the implantation force in real time while training the hair transplantation, and furthermore, the training effect can be further improved by displaying a sound corresponding to the implantation force at the time of implantation.

In addition, it is possible to reduce the development cost and manufacturing cost by lowering the unit price and measuring the setting force of the hair without using the expensive general-purpose sheet type pressure distribution measuring module. In addition, the sensor pad can be replaced to match the training area, so that customized training can be performed for each site.

FIG. 1 is a block diagram illustrating a hair transplantation training system capable of measuring and analyzing an insertion force according to an embodiment of the present invention.
2 is a side view showing the pad stand shown in FIG.
FIG. 3 is a front view showing the pad stand shown in FIG. 2 in detail.
4 is a block diagram specifically showing the main controller shown in FIG.
FIG. 5 is a graph showing the total sum of the insertion forces according to the insertion force data and the evaluation data analyzed by the main controller of FIG.
FIG. 6 is a graph showing the maximum value of the insertion force according to the insertion force data and the evaluation data analyzed by the main controller of FIG.
Fig. 7 is an analysis screen showing differently the set-up force data analyzed by the main controller.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a block diagram illustrating a hair transplantation training system capable of measuring and analyzing an insertion force according to an embodiment of the present invention.

The hair implantation training system shown in FIG. 1 includes an implantation force detection pad 150 and an implantation force detection pad 150, which output a detection signal according to an implanting force applied to the scalp pad 160, A pad stand 100 for adjusting the height, rotation, and inclination of at least one axis of the placement force detection pad 150 to be seated, and a pad stand 100 for measuring a placement force in real time through a detection signal, And displays and controls the display force of the at least one monitor (115, 200) so as to be able to monitor and compare the measured insertion force measured in advance with previously stored evaluation reference data or expert data 300).

The placement force detection pad 150 is seated on the upper front seat surface of the pad stand 100 and fixes the scalp pad 160 to be seated on the upper front surface. A plurality of pressure measurement sensors are arranged on the placing force detection pad 150 and output detection signals according to the insertion force applied to the scalp pad 160 through the respective pressure measurement sensors. The sensing force detection pad 150 may be manufactured in various sizes, thicknesses, and various shapes, and may be used in place of the scalp pad 160 according to the shape, type, and location of the scalp pad 160.

During the hair transplant training, the scalp pad 160 is placed on the placing force detection pad 150, and the hair is implanted into the scalp pad 160 using a hair transplantation type mosquito. The pressure measurement sensors of the insertion force detection pad 150 detect the insertion force applied to the scalp pad 160 by the hair transplantation type mosquito and output the analog detection signals corresponding to the insertion force to the connected wirings .

FIG. 2 is a side view showing the pad stand shown in FIG. 1, and FIG. 3 is a front view showing the pad stand shown in FIG.

2 and 3, the pad stand 100 includes a seating plate 111 on which the seating force detection pad 150 is seated, an x, y, z axis inclination and rotation of the seating plate 111 A tilt angle control unit 114 for controlling the tilt angle control unit 114 and a height control unit 112 for adjusting the height of the z-axis of the seating plate 111, a support plate 111 for supporting the tilt angle control unit 114 and the height control unit 112, A switch unit 116 for controlling the tilt angle control unit 114 and the height control unit 112 to control the height, rotation and inclination of the seating plate 111 to at least one axis, And a sub monitor 115 for displaying the result of comparing the placement force measured in real time and the placement force measured for a predetermined period with the stored evaluation reference data or expert data.

The tilt angle control unit 114 is configured such that the circular axis is fixed to the back surface of the seating plate 111 and is capable of holding and fixing at least a part of the circular axis. Accordingly, the tilt angle control unit 114 controls the inclination of the x, y, and z axes while allowing the seating plate 111 to rotate in a horizontal direction on the paper surface. The tilt angle control unit 114 can be fixed by a separate fixing screw or nut structure.

The height control unit 112 supports the tilt angle control unit 114 and is fixed to the support unit 113 at the bottom. The height control unit 112 may include a height adjusting structure using a motor or a height adjusting structure using a linear actuator to adjust the z-axis height of the seating plate 111 and fix the z-axis height. In addition, the height controller 112 may include a height adjusting structure using a hydraulic or pneumatic piston arrangement to adjust the z-axis height. When the height control unit 112 is configured to perform the piston movement by electric power, the height of the seating plate 111 can be adjusted by electric control under the control of the switch unit 116.

The practitioner performing the hair transplant training may sequentially stack and fix the insertion force detection pad 150 and the scalp pad 160 on the seating plate 111 and then fix the seating plate 110 and the scalp pad 160 on the seating plate 111 according to the operation posture, Thereby adjusting the height and tilt of the substrate 111. Then, the hair is transplanted to the scalp pad 160 using a hair transplantation mosquito after the adjusted placement plate 111 is fixed.

The main controller 300 converts an analog detection signal input in real time through the insertion force detection pad 150 into a digital signal. Then, the controller 100 measures the setting force in real time through the digital signal and performs real-time control so that the measured setting force is displayed on at least one of the monitors 115 and 200. At this time, the main controller 300 displays the measured placement force on the sub monitor 115 of the pad stand 100 so that the practitioner can monitor the implanting power to be implanted while the hair is being implanted. In addition, the main controller 300 can control a separate sound device to sound a sound corresponding to the real time measurement force during training.

The main controller 300 may display the measured power for training during a training period or a preset period so as to be compared with previously stored evaluation reference data for monitoring. At this time, the main controller 300 compares the measured insertion force measurement data measured during a training period or a predetermined period with previously-stored evaluation reference data, comparison with the preset insertion force measurement data of the expert (or expert) data, By marking them so that they can be analyzed and evaluated, they can be supported. The evaluation reference data stored in advance is reference pressure data in which the kind of the scalp pad 160 and the pressure required for placing the hair on the scalp pad 160 are measured and set in advance. The expert data is the pressure data or the average data stored in the course of performing the hair transplant training procedure by experts and experts.

4 is a block diagram specifically showing the main controller shown in FIG.

The main controller 300 shown in FIG. 4 may be a hardware device such as a notebook computer, a personal computer, or a tablet mobile communication device. The main controller 300 includes a signal input unit 310, a monitoring control unit 320, a sound control unit 330, (340), and a database (350).

Specifically, the signal input unit 310 converts an analog detection signal input in real time from the insertion force detection pad 150 into a digital detection signal.

The gripping force analyzer 340 measures and shares the gripping force in real time through the digital detection signal and compares the gripping force data measured during the training or the preset time period with the previously stored evaluation reference data to generate evaluation data do. In addition, the insertion force analysis unit 340 may generate evaluation data by comparing the insertion force data measured during the training period or the preset time period with the insertion force measurement data of the experts performed or stored in advance, that is, expert data.

The monitoring control unit 320 controls the display force analysis unit 340 to display the display force data measured and analyzed in real time on at least one of the monitors 115 and 200. After the training, the evaluation data analyzed by the insertion force analysis unit 340 is controlled to be displayed on at least one monitor 115, 200.

The sound controller 330 generates sound data corresponding to the real-time measuring force using the measuring force data measured and analyzed in real time by the measuring force analyzer 340 so that the sound corresponding to the real- To be generated through a sound device.

On the other hand, the database 350 stores data on the real time measurement and analysis, the evaluation reference data set in advance, the expert data, the measurement data of the skill of the skilled person, and the evaluation data And share and support in real time.

FIG. 5 is a graph showing the total sum of the insertion forces according to the insertion force data and the evaluation data analyzed by the main controller of FIG.

The positioning force analyzer 340 of the main controller 300 may measure the positioning force in real time and perform real time control so that the measured positioning force is displayed on at least one of the monitors 115 and 200. However, The gripping force analysis unit 340 of the controller 300 may generate evaluation data so that the measured gripping force data measured during a training period (or a preset period) may be compared with previously stored evaluation reference data and displayed in a graph . The monitoring control unit 320 displays the evaluation data on at least one of the monitors 115 and 200 so that the surgeon can check the data.

Thus, the trained practitioner can compare and confirm the data of the total amount of the wearer's ability and the total result of the wearer's own ability through the analyzed parameters. Or the expert data can be compared and confirmed with the total of the total of the installation power of the user and the total of the installation power of the user.

FIG. 6 is a graph showing the maximum value of the insertion force according to the insertion force data and the evaluation data analyzed by the main controller of FIG.

6, the insertion force analysis unit 340 of the main controller 300 converts the maximum value of the insertion force measured during the training period (or a preset period) into data and compares the maximum value with the previously stored reference data The evaluation data may be generated so as to be displayed in a graph.

Thus, the trained practitioner can compare and confirm the maximum value of the wearer's maximum value with the maximum value of the wearer's own power through the analyzed parameters. Or the maximum value data of the setting data of the expert data and the data of the maximum value of the setting value of the user.

Fig. 7 is an analysis screen showing differently the set-up force data analyzed by the main controller.

The insertion force analysis unit 340 of the main controller 300 measures the insertion force in real time and generates the insertion force data and the evaluation data so that the measured insertion force can be displayed in at least one of the monitors 115 and 200 in various forms . Particularly, depending on the value of the insertion force, it can be displayed in various space form so that the insertion force can be immediately recognized according to the placement position.

As described above, the placement force analyzing unit 340 may be a variety of types such as a two-dimensional space, a three-dimensional graph, and a three-dimensional space form in addition to a two-dimensional graph so that a practitioner can monitor the implanting force To be displayed on the display screen.

Accordingly, the practitioner can select and set various display data of the display force data, and then analyze and monitor the display force data measured in real time in a desired form. At this time, the insertion force analysis unit 340 may display various evaluation data in addition to the two-dimensional graph, such as a two-dimensional space, a three-dimensional graph, and a three-dimensional space form, in addition to the evaluation data compared with the insertion force measurement data of the expert (or expert) So that it can be analyzed and evaluated accurately.

According to the above-described method of measuring and analyzing the pulling force of the present invention, it is possible to measure and display the setting force of the hair in real time during training of the hair transplantation, The hair transplantation training effect can be further improved. In particular, it is possible to monitor the implantation force in real time while training the hair transplantation, and furthermore, the training effect can be further improved by displaying a sound corresponding to the implantation force at the time of implantation.

In addition, it is possible to reduce the development cost and manufacturing cost by lowering the unit price and measuring the setting force of the hair without using the expensive general-purpose sheet type pressure distribution measuring module. In addition, the sensor pad can be replaced to match the training area, so that customized training can be performed for each site.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the following claims And changes may be made without departing from the spirit and scope of the invention.

100: pad stand 111: seat plate
112: height control section 113:
114: tilt angle control unit 115: sub monitor
116: Switch part 150: Insertion force detection pad
160: scalp pad 200: main monitor
300: main controller 310: signal input unit
320: monitoring control unit 330: sound control unit
340: an insertion force analysis unit 350: a database

Claims (6)

A monitor for displaying a screen;
An implantation force detection pad for receiving a scalp pad and outputting a detection signal according to an insertion force applied to the scalp pad;
A pad stand on which the insertion force detection pad is seated and the height of the insertion force detection pad, the rotation thereof, and the tilt of at least one axis are adjusted; And
And controls the display device to display the measured placement force on the monitor, and compares the measured placement force measured for a predetermined period with previously stored evaluation reference data or expert data to generate And outputting the evaluation data to the monitor,
A signal input unit for converting an analog detection signal input in real time from the insertion force detection pad into a digital detection signal, a period during which the insertion force is measured and shared in real time through the digital detection signal, Analyzing unit for comparing the measured evaluation data with previously stored evaluation reference data to generate evaluation data; and controlling the display unit to display the measured force in real time on the monitor, And a main control unit including a monitoring control unit for controlling the main control unit to be displayed on the main control unit,
The main controller includes:
The measured data measured during the training period or the predetermined period is compared with the expert data or the training data of the skilled person performed in advance to generate evaluation data and the evaluation data is displayed on the monitor Controlling implantability measurement and analysis of hair transplantation training system.
The method according to claim 1,
The pad stand
A seating plate on which the placing force detection pad is seated;
A tilt angle control unit for controlling the inclination and rotation of the x, y, and z axes of the seating plate;
A height control unit for controlling a z-axis height of the seating plate;
A tilt angle control unit and a height control unit to control the height, rotation, and inclination of the seating plate to at least one axis; And
A sub monitor for displaying a result obtained by comparing and analyzing the real time measured placement force and the placement force measured during the predetermined time period according to the control of the main controller with previously stored data;
And an implantable force measurement and analysis system.
delete The method according to claim 1,
A sound control unit for controlling the acoustical instrument to generate a sound corresponding to an abutting force measured in real time in the insertion force analyzing unit; And
A data base for storing and sharing the data of the real time measured insertion force, the evaluation reference data, the expert data, the insertion force measurement data of the already performed expert, and the evaluation data;
Wherein the implantable force measuring and analyzing system further comprises:
delete The method according to claim 1,
The main controller
A two-dimensional graph, a two-dimensional space, a three-dimensional graph, and a three-dimensional graph so that the measured placing force can be displayed on the at least one monitor in at least one form of a two-dimensional graph, Dimensional space, and generates at least one of the at least one of the two-
Dimensional graph, a two-dimensional graph, a two-dimensional graph, a three-dimensional graph, and a three-dimensional space so that the result of the comparison between the previously stored data and the insertion force data can be displayed on the at least one monitor in at least one form of a two- A training system for measuring and analyzing an implantable hair, which generates evaluation data in at least one of a three-dimensional space, a three-dimensional space and a three-dimensional space.

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