KR20190058905A - Mixing ratio measurement method of Mixed impression material - Google Patents

Abstract

An objective of the present invention is to measure a mixing ratio of a mixed impression material in which an impression material used for an impression for impressing a shape in a mouth for dental diagnosis and treatment and a hardener for hardening the impression material are mixed. A mixing ratio measurement method of a mixed impression material comprises: a step of extracting a sectional image of a mixed impression material; a step of setting a virtual area on the extracted sectional image; a step of measuring brightness values of the set virtual area; a step of measuring change rates of the measured brightness values; and a step of a measuring a mixing ratio of an impression material and a mixing material based on the measured change rates of the brightness values of the virtual area. Therefore, a cross section of a mixed impression material mixed and discharged from a mixing tip is photographed to extract an image without using expensive equipment for measuring and analyzing a mixing ratio. A virtual area is set on the image. Then brightness values of the virtual area and changes rates of the brightness values are measured to determine whether the mixed impression material is mixed at a prescribed mixing ratio to reduce costs for measuring and inspecting the mixing ratio.

Description

{Mixing ratio measurement method of mixed impression material}

The present invention relates to a method for measuring the mixing ratio of a mixed impression material, more particularly, to a method for measuring a mixing ratio of a mixed impression material to measure a mixing ratio of a mixed impression material mixed with an impression material mixed with a hardener, .

In dentistry, a dental impression material is used to quickly cure by mixing a curing agent in a liquid silicone base to obtain a tooth impression. Dental impression materials are typically used in impression material cartridge assemblies. The impression cartridge assembly is used with a mixing tip that mixes and discharges the impression material cartridge containing the silicone base and the hardener, respectively.

Japanese Patent Application No. 10-0954836 discloses a coupling structure of a conventional impression material cartridge and a mixing tip. FIG. 1 is an exploded perspective view showing a configuration of a conventional mixing tip 10, and FIG. 2 is an exemplary view showing a conventional impression material discharging process of the mixing tip 10. The impression material is mixed at a certain rate in the mixing space C in the mixing tip 10 and the silicon base A and the curing agent B are mixed and discharged while moving along the mixer 17. [

There is a problem that the mixing ratio of the silicon base A and the curing agent B mixed in the mixing space C of the mixing tip 10 is not constant and is discharged to the mixing tip 10, The mixture ratio of the silicon base (A) and the curing agent (B) is not uniform and the pulling up of the teeth can not be achieved uniformly. Thus, the mixing ratio of the silicon base (A) A need exists for a technique for measuring the temperature of a liquid.

The present invention has been made in order to meet the above-mentioned need, and it is an object of the present invention to provide a mixing impression material mixed with an impression material and a settling material discharged to a mixing tip by imaging a mixed impression material without using expensive equipment, The present invention provides a method for measuring the mixing ratio of a mixed impression material which can determine the mixing efficiency of an impression material and a setting material by measuring a variation rate of a contrast value of the impression material.

In order to accomplish the above object, the present invention provides a method for dental diagnosis and treatment, which comprises mixing the impression material used for impression in the oral cavity and the mixed impression material mixed with the hardening material for hardening the impression material, Extracting a cross-sectional image of the composite impression material for measurement; Setting a virtual area in the extracted cross-sectional image; Measuring a contrast value of the set virtual area; Measuring a variation rate of the measured contrast value; And measuring the mixing efficiency of the impression material and the mixed material based on the variation rate of the lightness value of the measured virtual area.

In the method of measuring the mixing ratio of the mixed impression material according to the present invention, the step of extracting the cross-sectional image of the mixed impression material may include the steps of photographing the cross-sectional image of the mixed impression material, And converting it into a monochrome image.

The virtual region set in the step of setting the virtual region in the extracted cross-sectional image may be any one of a single straight line and a complex curve. In the step of measuring the variation rate of the measured lightness value, , And 10-point average blending ratio.

The step of measuring the mixing efficiency of the impression material and the mixed material based on the measured variation ratio of the lightness value of the virtual area may include a step of graphing the variation of the measured lightness value, It is possible to judge the mixing efficiency of the mixed impression material.

The method for measuring the mixing ratio of the mixed impression material according to the present invention is a method for measuring the mixing ratio of the mixed impression material according to the present invention without using an equipment for measuring and analyzing an expensive mixing ratio, It is possible to determine whether or not the mixed impression materials are mixed at a certain ratio, and it is possible to reduce the cost of measuring and checking the mixing ratio.

1 is an exploded perspective view of a conventional impression material tip.
2 is a view showing a discharge structure of an impression material through a conventional impression material tip.
3 is a flowchart showing a procedure of a method of measuring a mixing ratio of a mixed impression material according to the present invention.
4 is a view showing the constitution of the mixed impression material.
5 is a view showing a state in which a virtual area is displayed on a cross-sectional image of a mixed impression material.
FIG. 6 is an exemplary diagram showing the brightness values of the virtual area graphically.
7 is a diagram showing a concept of obtaining an arithmetic average mixing ratio.
8 is a view showing a concept of obtaining a maximum height mixture ratio.
9 is a diagram showing a concept of obtaining a 10-point average mixing ratio.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately The present invention should be construed in accordance with the meaning and concept consistent with the technical idea of the present invention.

FIG. 3 is a flow chart showing a procedure of a mixing ratio measurement method of a mixed impression material according to the present invention, FIG. 4 is a view showing a composition of a mixed impression material, and FIG. 5 is a cross- FIG. 7 is a view showing a concept of obtaining an arithmetic average blending ratio, FIG. 8 is a view showing a concept of obtaining a maximum height blending ratio, and FIG. 9 is a diagram showing a concept of obtaining a 10-point average blending ratio.

3 to 9, a method of measuring the mixing ratio of the mixed impression material according to an embodiment of the present invention includes an impression material 100 used for impression in the oral cavity for diagnosis and treatment, (S100) for measuring a mixing ratio of the mixed impression material mixed with the set material (200) for hardening the impression material (100), the step (S100) of extracting a cross section image of the mixed impression material, A step S300 of measuring the lightness and darkness of the set virtual area, a step S400 of measuring the rate of change of the measured lightness and darkness, a step S200 of measuring the mixing efficiency of the mixed impression materials (S500).

  The step S100 of extracting the cross-sectional image of the mixed impression material 300 includes a step S110 of photographing the cross-sectional image 400 of the mixed impression material 300, a step of converting the photographed image into a monochrome image S120).

4, the mixed impression material 300 is composed of an impression material 100 and a set material 200. When the mixed impression material 300 is discharged to the outside from the inside of a mixing tip (not shown) The mixed material 100 and the curing material 200 are mixed at a predetermined ratio and then discharged. The discharged mixed impression material 300 is hardened by the curing material 200 after a lapse of a predetermined time. The step S110 of photographing the cross-sectional image 400 of the mixed impression material 300 is a step of photographing the cross-section of the hardened specimen after cutting using the photographing means such as a camera. After performing the step S110 of photographing the cross-sectional image 400, the cross-sectional image 400 is converted into a monochrome image (S120). The step 120 of transforming the photographed cross-sectional image 400 into a monochrome image is a step of converting the photographed cross-sectional image into a monochrome image using an image processing program, wherein the cross-sectional image 400 is a white- Lt; / RTI >

When the step S100 of extracting the cross-sectional image 400 of the mixed impression material 300 is completed, a step S200 of setting a virtual region in the extracted cross-sectional image 400 is performed.

Referring to FIG. 5, it is preferable that the virtual area in the extracted cross-sectional image 400 has a shape of a single straight line from A to B and a complex curve from A to B, The mixing ratio of the entire cross-sectional image 400 can be measured by setting a plurality of straight lines or curved virtual regions in the cross-sectional image 400, thereby measuring the mixing ratio of the mixed-up material 300 more accurately.

  When the step S200 of setting the virtual region in the extracted cross-sectional image 400 is completed, a step S300 of measuring the lightness value of the set virtual region is performed. The lightness and darkness values of the virtual region are displayed in white to black, and preferably the lightness and darkness values are classified from 0 to 256, and the lightness and darkness values are measured to measure and check the lightness value of the virtual region between A and B. do.

When the step of measuring the lightness value of the set virtual area is completed (S300), a step of measuring a variation rate of the measured lightness value (S400) is performed. In the step S400 of measuring the variation rate of the lightness value, The variation ratio of the contrast value is confirmed by using the mixing ratio, the maximum height mixing ratio, and the 10-point average mixing ratio.

Referring to FIG. 7, the arithmetic average mixing ratio is obtained by calculating an average value of lightness value data obtained by the reference length L in the mixing ratio curve, raising the lower portion based on the average line with the mean value of the lightness value data as an average line, The average of the distances (R _a ) corresponds to the arithmetic average mixing ratio, which is obtained by the following formula (1) in the case of the mixing ratio curve.

Referring to FIG. 8, the maximum height mixing ratio is obtained by measuring the distance between the highest peak and the lowest bottom of the reference length L in the mixing ratio curve, , And the value obtained by the formula (2) becomes the maximum height mixing ratio.

의 절대값 평균과 평균선에서 깊이 방향으로 가장 낮은 골바닥에서 5번째 골바닥 깊이의 합

의 절대값 평균과의 합을 구한 것으로, 이는 [수학식 3]와 같다.Referring to FIG. 9, the 10-point average mixing ratio is a sum of the height from the highest peak to the fifth peak measured from the average line of the sample portion by the reference length (L)

The sum of the bottom depth of the fifth bone from the bottom of the lowest valley in the depth direction

And the average of the absolute values of the absolute values of the absolute values.

After the step of measuring the variation rate of the measured lightness value (S400) is completed, a mixing efficiency of the mixed impression material is measured (S500) based on the variation rate of the lightness value of the measured virtual area.

The step S500 of judging the mixing efficiency of the mixed impression material based on the variation of the lightness value may include a step S510 of graphing the variation of the measured lightness value.

The step S500 of determining the mixing efficiency of the mixed impression material is a step of determining whether the impression material 100 and the set material 200 are uniformly mixed with the mixed impression material 300, And the mixing efficiency of the impression material 100 and the set material 200 is determined on the mixed impression material 300 by judging that the variation rate of the graphical light and shade value is large or small. When the rate of change of the lightness value is large, the impression material 100 and the set material 200 are not mixed uniformly. When the variation of the lightness value is small, the impression material 100 and the set material 200 are not mixed, Are mixed uniformly.

Therefore, without using an apparatus for measuring and analyzing an expensive mixing ratio, a cross section of the mixed impression material 300 mixed and discharged in a mixing tip (not shown) is photographed to extract an image, It is possible to determine whether or not the mixed impression materials 300 are mixed at a predetermined ratio by measuring the lightness value and the variation ratio of the light and dark values of the virtual region, thereby reducing the cost of measuring and checking the mixing ratio.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

100: impression material 200: hardened material
300: Mixed impression material 400: Cross-sectional image

Claims (5)

The present invention relates to a method for measuring a mixing ratio of an impression material used for impression of a mouth in a mouth for dental diagnosis and treatment and a mixed impression material mixed with a hardener for hardening the impression material,
Extracting a cross-sectional image of the composite impression material;
Setting a virtual area in the extracted cross-sectional image;
Measuring a contrast value of the set virtual area;
Measuring a variation rate of the measured contrast value; And
And measuring the mixing efficiency of the impression material and the mixed material based on the variation ratio of the lightness value of the measured virtual area.
The method according to claim 1,
Wherein the step of extracting the cross-sectional image of the mixed impression material comprises:
Taking a cross-sectional image of the composite impression material,
And converting the photographed cross-sectional image into a monochrome image using an image processing program.
The method according to claim 1,
Wherein the virtual region set in the step of setting a virtual region in the extracted cross-sectional image is a shape of a single straight line or a complex curve.
The method according to claim 1,
Wherein the step of measuring the variation of the measured contrast value is performed by measuring the variation rate of the contrast value using the arithmetic average mixing ratio, the maximum height mixing ratio, and the 10-point average mixing ratio.
The method according to claim 1,
The step of measuring the mixing efficiency of the impression material and the mixed material based on the measured shading value variation ratio of the virtual area may include:
And graphing the rate of change of the measured contrast value,
And determining the mixing efficiency of the mixed impression material by judging that the variation rate width of the grayscale value is large or small.

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