WO2011040306A1 - Dental material setting device, dental material processing data generation device, and dental material processing device - Google Patents

Abstract

The selection of a dental material block having a non-uniform color distribution and the fabrication of an appropriate prosthetic appliance can be facilitated. Provided is a dental material setting device (1) comprising: a block color distribution storage unit (10) for storing the color distributions in the direction along the surfaces of a plurality of dental material blocks; a tooth color distribution storage unit (9) for storing the color distributions in the direction along the surfaces of patients' teeth; a comparison unit (11) for comparing a tooth color distribution stored in the tooth color distribution storage unit (9) with each of the dental material block color distributions stored in the block color distribution storage unit (10); and a block specifying unit (12) for, as a result of the comparison by the comparison unit (11), selecting the dental material block having the nearest color distribution to a patient's tooth color distribution.

Description

Dental material setting device, dental material processing data generation device, and dental material processing device

The present invention relates to a dental material setting device, a dental material processing data generation device, and a dental material processing device.

2. Description of the Related Art Conventionally, a shade analysis system that measures the color of a patient's teeth and selects a shade guide that approximates the color from built-in shade guide data is known (see, for example, Patent Document 1).

US Pat. No. 5,766,006

In conventional shade analysis systems, shade guides with uniform color distribution can be selected. However, a dental material block for forming a prosthesis for prosthesis of a patient's missing tooth may have a non-uniform color distribution in order to be applied to an actual patient's tooth having a color distribution. In such a case, the conventional shade analysis system has a disadvantage that it is difficult to select an appropriate dental material block and to manufacture an appropriate prosthesis.

The present invention has been made to solve the above-described problem, and even when the color distribution of a dental material block is not uniform, an appropriate dental material block can be selected and an appropriate prosthesis can be manufactured. An object of the present invention is to provide a dental material setting device, a dental material processing data generation device, and a dental material processing device.

In order to solve the above problems, the present invention employs the following means.
A first aspect of the present invention includes a block color distribution storage unit that stores color distribution in a direction along the surfaces of a plurality of dental material blocks, and a tooth color distribution storage that stores color distribution in a direction along the surface of a patient's tooth. A comparison unit comparing the tooth color distribution stored in the tooth color distribution storage unit with the tooth color distribution stored in the block color distribution storage unit and the color distribution of each dental material block stored in the block color distribution storage unit As a result, the dental material setting device includes a block specifying unit that selects a dental material block having a color distribution closest to the color distribution of the patient's tooth.

According to the dental material setting device according to the first aspect of the present invention, the color distribution in the direction along the surface of the dental material block stored in the block color distribution storage unit and the patient stored in the tooth color distribution storage unit The color distribution in the direction along the surface of the tooth is compared in the comparison unit, and based on the comparison result, the block specifying unit selects a dental material block having a color distribution closest to the color distribution of the patient's tooth. Since the dental material block is selected based on the color distribution of the dental block and the color distribution of the dental material block, the proper one that can reproduce the patient's teeth even if the dental material block has a non-uniform color distribution can do.

In the dental material setting device, the comparison unit sets a color distribution comparison region in the dental material block, and the color distribution in a plurality of comparison regions whose positions are changed in the direction in which the color changes, The tooth color distribution stored in the tooth color distribution storage unit may be compared.
In this way, the comparison unit compares the color distribution of the patient's tooth with a plurality of comparison regions having different color distributions in the dental material block, so that the color closer to the color distribution of the patient's tooth is obtained. A dental material block having a distribution portion can be selected.

In the dental material setting device, as a result of comparison by the comparison unit, a cutout for setting a color distribution comparison area in the dental material block having a color distribution closest to the color distribution of a patient's tooth as a cutout position of a prosthesis A position setting unit may be provided.
By doing in this way, based on the comparison result by a comparison part, the cut-out position of the prosthesis cut out from the dental material block which the block specific | specification part selected is set by the cut-out position setting part. Thereby, data for cutting out a prosthesis having a color distribution closer to the color distribution of the patient's teeth can be generated.

In the dental material setting apparatus, an image acquisition unit that acquires an image of the dental material block and an image of a patient's tooth, and an image acquired by the image acquisition unit to process the color distribution of the dental material block and the patient's You may provide the color distribution acquisition part which acquires the color distribution of a tooth.
By doing in this way, based on the image of the dental material block acquired by the image acquiring unit and the image of the patient's tooth, the color distribution acquiring unit acquires the color distribution of the dental material block and the color distribution of the patient's tooth. And stored in the block color distribution storage unit and the tooth color distribution storage unit. Then, using the stored dental material block and each color distribution of the patient's tooth, comparison by the comparison unit and selection of the dental material block by the block specifying unit are performed.

In the dental material setting device, the comparison unit may compare a color distribution in a specific part of the dental material block with a color distribution in a specific part of the patient's tooth.
By doing in this way, a dental material block can be selected easily in a short time compared with the case where a dental material block is specified by comparing the color distribution of the whole dental material block and the whole tooth of a patient.

In the dental material setting device, the color distribution in a plurality of comparison regions in which the comparison region of the color distribution in the dental material block specified by the block specifying unit is set and the positions are changed in the color changing direction. And an intra-block comparison unit for comparing the tooth color distribution stored in the tooth color distribution storage unit, and a color distribution in the dental material block having a color distribution closest to the color distribution of the patient's tooth A cutout position setting unit that sets the comparison region as the cutout position of the prosthesis may be provided.
By doing in this way, in the easily selected dental material block, the part having the color distribution closest to the color distribution of the patient's tooth is set as the cutting position of the prosthesis, and is closer to the color distribution of the patient's tooth Data for cutting a prosthesis having a color distribution can be generated.

The second aspect of the present invention is based on any dental material setting device described above, information on the dental material block specified by the block specifying unit, and the cutout position set by the cutout position setting unit, A dental material processing data generation device includes a processing data generation unit that generates processing data for processing a dental material block.
According to the dental material processing data generation device according to the second aspect of the present invention, processing data generation based on the dental material block selected by the dental material setting device and the cutting position of the prosthesis from the dental material block The processing data for processing the dental material block is generated by the unit. Thereby, the processing data for manufacturing the prosthesis having a color distribution closer to the color distribution of the patient's teeth can be generated, and appropriate information supporting the processing of the dental material block can be provided.

According to a third aspect of the present invention, any one of the dental material setting device and the dental material block specified by the block specifying unit is cut out from the cut-out position set by the cut-out position setting unit. It is a dental material processing apparatus provided with the dental material block processing part to process.
According to the dental material processing device according to the third aspect of the present invention, based on the dental material block selected by the dental material setting device and the cutting position of the prosthesis from the dental material block, the dental material block processing unit With this, the dental material block is processed. Thereby, a dental material block can be processed and the appropriate prosthesis which has a color distribution close | similar to the color distribution of a patient's tooth can be manufactured.

According to the present invention, even when the color distribution of the dental material block is not uniform, there is an effect that an appropriate dental material block can be selected and an appropriate prosthesis can be manufactured.

1 is a block diagram showing an overall configuration of a dental material setting device, a dental material processing data generation device, and a dental material processing device according to an embodiment of the present invention. It is a perspective view which shows the coordinate system of the tooth acquired by the dental material setting apparatus of FIG. It is a figure which shows an example of xy two-dimensional image of the tooth of FIG. It is a perspective view which shows an example of the dental material block selected by the tooth material setting apparatus of FIG. It is a figure which shows the graph of an example of the color distribution by the L * value in alignment with the y-axis direction of the tooth of FIG. It is a figure which shows the graph of an example of the color distribution by the L * value in alignment with the y-axis direction of the multiple types of dental material block of FIG. It is a figure which shows the table | surface of an example of the color distribution of the tooth memorize | stored in the memory of FIG. It is a figure which shows the table | surface of an example of the color distribution of the dental material block memorize | stored in the memory of FIG. It is a figure which shows the table | surface of the other example of the color distribution of the tooth memorize | stored in the memory of FIG. It is a figure which shows the table | surface of the other example of the color distribution of the dental material block memorize | stored in the memory of FIG. It is a figure which shows the graph explaining the comparison with the color distribution of FIG. 5, and the color distribution of FIG. 6, selection of a dental material block, and the setting of a cut-out position. It is a block diagram which shows the whole structure of the modification of the dental material setting apparatus of FIG. 1, a dental material processing data generation apparatus, and a dental material processing apparatus.

Hereinafter, a dental material setting device 1, a dental material processing data generation device 2, and a dental material processing device 3 according to an embodiment of the present invention will be described with reference to the drawings.
A dental material processing apparatus 3 according to an embodiment of the present invention includes a dental material processing data generation apparatus 2 that generates processing data for processing a dental material block A to cut out a prosthesis, and the dental material processing data generation apparatus. And a dental material block processing unit 5 that processes the dental material block A based on the processing data generated by the processing 2.

The dental material processing data generation device 2 selects the dental material block A from which the prosthesis is to be cut out and sets the cutout position, and the dental material setting device 1 according to the present embodiment, and the adjacent teeth, counter teeth or gingiva of the patient. Prosthesis shape data is generated from the information, and the processing data of the dental material block A is generated based on the information of the dental material block A selected by the dental material setting device 1 and the cutting position. Part 6.

As shown in FIG. 1, the dental material setting device 1 according to the present embodiment includes a color measurement unit (image acquisition unit) 7 that acquires images of a patient's tooth B and dental material block A, and the color measurement unit 7. A color distribution acquisition unit 8 that acquires the color distribution of the patient's tooth B and the color distribution along the surface of the dental material block A from the acquired image, and a tooth color distribution memory that stores the acquired color distribution of the patient's tooth B (Tooth color distribution storage unit) 9, block color distribution memory (block color distribution storage unit) 10 that stores the acquired color distribution of the dental material block A, and the color distribution stored in these memories 9 and 10 are compared. A comparison unit 11, a block specifying unit 12 for selecting the dental material block A based on the comparison result, a cutout position setting unit 13 for setting the cutout position of the prosthesis in the specified dental material block A, And a part 14.

The input unit 14 is a keyboard, a mouse, or other input means for inputting patient identification information, a tooth type number of the tooth B, identification information of the dental material block A, and the like.
The color measuring unit 7 acquires the color of each part of the tooth B and the coordinates where the color is arranged by acquiring the image of the tooth B. Examples of the color measurement unit 7 include a two-dimensional color measurement device, a dental 3D camera, an electronic optical loupe, an intraoral camera, a digital camera, a silver lead camera, and a spot color measurement device.

As shown in FIG. 2, the colorimetric unit 7 has the x-axis direction as the arrangement direction of the teeth B, the y-axis direction as the direction along the tooth tip from the gum, and the z-axis direction as the direction along the tongue side from the cheek side. A two-dimensional image of xy, yz, xz is acquired. In particular, since an xy two-dimensional image is the most important for producing a prosthesis, a case where an xy two-dimensional image is used will be described below as shown in FIG. In FIG. 3, the symbol C is gingiva.

Further, when producing a prosthesis of tooth B, there are more cases where the corresponding tooth B is a defective tooth lost due to caries or the like than when the tooth B is present as a healthy tooth. An image having a distribution cannot be acquired. In that case, an image of alternative teeth such as adjacent teeth and counter teeth may be acquired.

Also, the color measuring unit 7 acquires a two-dimensional image of the dental material block A. As shown in FIG. 4, the dental material block A includes a shaft 15 that is gripped by the chuck of the dental material block processing unit 5, and a flange-like abutting portion 16 provided at the tip of the shaft 15. In some cases, a rectangular parallelepiped dental material 17 is attached to the abutting portion 16. This dental material block A has a gradation in which the color gradually changes along one direction orthogonal to the shaft 15. The color measurement unit 7 acquires a two-dimensional image for a plurality of dental material blocks A having different color distributions.

The color distribution acquisition unit 8 processes the two-dimensional image of the tooth B acquired by the color measurement unit 7 and calculates a color distribution along one direction. More specifically, an xy two-dimensional image of the tooth B is processed, and as shown in FIG. 5, for example, a color distribution B1 along the y-axis direction is calculated. As the color distribution B1, colorimetric values (L *, a *, b *), (L *, C *, u *), (L *, u *, v *), (X, Y, Z), (R, G, B) distribution or spectral reflection spectrum. FIG. 5 illustrates the y-axis direction distribution of L * values as colorimetric values having the most influence on appearance.

Further, the color distribution acquisition unit 8 processes the two-dimensional images of the plurality of dental material blocks A acquired by the color measurement unit 7 and calculates the respective color distributions A1 to A4 along one direction. . As described above, when the Y-axis direction distribution of the L * value is acquired as the color distribution B1 of the tooth B, the L * value distribution of the dental material block A is calculated accordingly. Thereby, the color distributions A1 to A4 of the plurality of dental material blocks A are acquired as shown in FIG.

The color distributions A1 to A4 of each dental material block A are acquired in a form in which a reference position is set and the reference positions are matched. For example, in the case of the dental material block A having the shaft 15 as shown in FIG. 4, for example, the center of the shaft 15, that is, the center position of the rectangular parallelepiped dental material 17 is used as a reference (reference line D in FIG. 9). The color distributions A1 to A4 may be acquired as follows.

The color distribution B1 of the tooth B and the color distributions A1 to A4 of the dental material block A thus obtained are stored in the tooth color distribution memory 9 and the block color distribution memory 10, respectively. At this time, the identification information of the patient and the tooth number of the tooth B input by the input unit 14 are stored in the tooth color distribution memory 9 together with the color distribution B1 of the patient's tooth B, and the dental material input by the input unit 14 The identification information of the block A is stored in the block color distribution memory 10 together with the color distributions A1 to A4 of the dental material block A.

FIG. 7A shows the color distribution B1 of the tooth B when the color distributions B1, A1 to A4 are stored together with the two-dimensional (xy axis direction) position information, and FIG. 7B shows the two-dimensional (xy axis direction) The color distributions A1 to A4 of the dental material block A when the color distributions B1 and A1 to A4 are stored together with the position information are shown. FIG. 8A shows the color distribution B1 of the tooth B when the color distributions B1, A1 to A4 are stored together with the one-dimensional (y-axis direction) position information, and FIG. 8B shows the one-dimensional (y-axis direction) The color distributions A1 to A4 of the dental material block A when the color distributions B1 and A1 to A4 are stored together with the position information are shown.

The comparison unit 11 compares the color distribution B1 of the patient's tooth B stored in the tooth color distribution memory 9 with the color distributions A1 to A4 of the dental material block A stored in the block color distribution memory 10. ing. Specifically, the comparison unit 11 sets a comparison region E for comparison with the color distribution of the tooth B as shown in FIG. 9 for the color distributions A1 to A4 of the dental material blocks A, The absolute value of the difference between the two color distributions B1, A1 to A4 is integrated over the entire comparison area E while moving the comparison area E in the y-axis direction. In this way, the comparison unit 11 calculates an integral value related to the absolute value of the difference between the color distribution B1 and the color distributions A1 to A4 for each comparison region E.

The block specifying unit 12 compares the integrated values related to the absolute values of the differences of the color distributions B1, A1 to A4 in all the comparison regions E of all the dental material blocks A calculated by the comparing unit 11, and the integrated value The dental material block A with the smallest value is selected.
Further, the cut-out position setting unit 13 compares the integral values related to the absolute values of the differences between the color distributions B1, A1 to A4 in all the comparison regions E of all the dental material blocks A calculated by the comparison unit 11, The comparison area E having the smallest integral value is set as the cutting position (cutting range) of the prosthesis in the dental material block A.

The operation of the dental material setting device 1, the dental material processing data generation device 2, and the dental material processing device 3 according to this embodiment configured as described above will be described below.
In order to cut out a prosthesis by processing the dental material block A having a color distribution by using the dental material processing apparatus 3 according to the present embodiment, first, the color distributions A1 to A4 of the dental material block A are created. . In this case, the identification information of the dental material block A is input by the input unit 14, and the color measurement unit 7 is operated to acquire the corresponding image of the dental material block A.

The acquired image is sent to the color distribution acquisition unit 8. In the color distribution acquisition unit 8, a color distribution A1 along the y-axis direction is calculated from the input image of the dental material block A, and is stored in the block color distribution memory 10 in association with the identification information of the dental material block A. .
By repeating this operation for a plurality of dental material blocks A, the color distributions A1 to A4 of the plurality of dental material blocks A are stored in the block color distribution memory 10.

Next, a color distribution B1 of the patient's tooth B is created.
Also in this case, patient identification information and a dental formula number are input by the input unit 14, and the color measurement unit 7 is operated to acquire an image of the corresponding patient's tooth B. When the tooth B is a defective tooth or a missing tooth and it is difficult to obtain a color distribution, an image of an alternative tooth is acquired.
The acquired image is sent to the color distribution acquisition unit 8. In the color distribution acquisition unit 8, the color distribution B 1 along the y-axis direction is calculated from the input tooth B image, and is stored in the tooth color distribution memory 9 in association with the patient identification information and the dental formula number.

The color distribution B1 of the tooth B stored in the tooth color distribution memory 9 and the color distributions A1 to A4 of the dental material block A stored in the block color distribution memory 10 are sent to the comparison unit 11, where the color distribution Comparison between B1, A1 to A4 is performed. In the comparison unit 11, a comparison area E having a size corresponding to the color distribution B1 of the tooth B is set within a range in which the color distribution A1 of any dental material block A has a value, and the range of the comparison area E Thus, the absolute value of the difference between the color distribution A1 and the color distribution B1 of the tooth B is integrated, and an integrated value is calculated. Further, with respect to the same dental material block A, an integrated value of the difference is calculated for the comparison region E at each position while moving the comparison region E in the y-axis direction.
This operation is similarly performed for all dental material blocks A.

All the calculated integral values are sent to the block specifying unit 12, where the integral values are compared, and the dental material block A having the color distribution A3 that minimizes the integral value is selected. Further, the position of the comparison region E that has the smallest integral value is output as the cutout position (cutout range) of the prosthesis by the cutout position setting unit 13.

The identification information of the dental material block A selected by the block specifying unit 12 and the information on the cut-out position set by the cut-out position setting unit 13 are output to the processing data generating unit 6. The processing data generation unit 6 is, for example, a CAD, and stores shape data of a prosthesis created based on separately input information. And the process data generation part 6 is for manufacturing the prosthesis of the shape memorize | stored with respect to the dental material block A by inputting the identification information of dental material block A, and the information of a cutting position. Machining data such as tool selection, machining start position, machining sequence, etc. is generated. The dental material block processing unit 5 cuts out the prosthesis from the dental material block A based on the processing data generated in this manner, whereby the prosthesis is manufactured.

In this case, according to the dental material setting device 1 according to the present embodiment, the color distribution B1 of the patient's tooth B is compared with the color distributions A1 to A4 of the dental material block A, so that the dental color distribution is not uniform. Even for the material block A, a dental material block A capable of producing a prosthesis closer to the color distribution of the patient's tooth B can be selected. Furthermore, since a plurality of comparison areas E are set also in the dental material block A, and the comparison area E having the color distribution closest to the color distribution of the patient's tooth B is set as the cutting position of the prosthesis. It becomes possible to easily manufacture a prosthesis having a color distribution close to the color distribution of the patient's tooth B.
In addition, according to the dental material processing data generation apparatus according to the present embodiment, processing data for manufacturing a prosthesis having a color distribution close to the color distribution of such a patient's tooth B can be generated. Appropriate information for supporting the processing of the material block A can be provided. Furthermore, according to the dental material processing apparatus which concerns on this embodiment, the dental material block A can be processed and the appropriate prosthesis which has a color distribution close | similar to the color distribution of such a patient's tooth B can be manufactured. .

In this embodiment, the colorimetric unit 7 and the color distribution acquisition are performed in order to acquire an image by photographing the patient's tooth B and the dental material block A and acquire the color distributions B1, A1 to A4 from the image. However, instead of this, the input unit 14 supplies the tooth color distribution memory 9 and the block color distribution memory 10 with the color distribution B1 of the patient's tooth B and the dental material block A respectively. Information indicating the color distributions A1 to A4 may be directly written.

In addition, the comparison region E is moved in the dental material block A and the optimum cutout position is set. Instead, the entire dental material block A is set as the comparison region E for each dental material block A. The color distributions A1 to A4 may be compared one by one.

Furthermore, as shown in FIG. 10, after the block specifying unit 12 selects the dental material block A, the cutout position setting unit 13 may set the cutout position.
In this case, the comparison unit 11 first compares the color or color distribution of the specific part of the patient's tooth B with the color or color distribution of the specific part of the dental material block A. Based on the comparison result, the block identification unit 12 selects the dental material block A and sends the selection result to the comparison unit 11. Next, the comparison unit 11 sets a comparison region E having a size corresponding to the color distribution B1 of the tooth B within a range in which the color distribution A1 of any selected dental material block A has a value, and the comparison An integral value is calculated by integrating the absolute value of the difference between the color distribution A1 and the color distribution B1 of the tooth B in the region E.

Further, for the same dental material block A, an integral value related to the absolute value of the difference is calculated for the comparison region E at each position while moving the comparison region E in the y-axis direction. All the calculated integral values are sent to the cutout position setting unit 13. Thereafter, the cutout position setting unit 13 compares the integrated values in the selected dental material block A, and sets the cutout position at which the integrated value is the smallest. In this case, in the block color distribution memory 10, in addition to the color distributions A1 to A4 of the entire dental material block A, a specific portion for comparison when selecting the dental material block A, for example, the dental material block A The color or color distribution in the vicinity of the center position may be stored.
By doing in this way, the selection operation | work of the dental material block A can be performed more simply and rapidly, and the production | generation of the process data for manufacturing a proper prosthesis can be performed easily.

A Dental material block B Tooth B1, A1 to A4 Color distribution E Comparison area 1 Dental material setting device 2 Dental material processing data generation device 3 Dental material processing device 5 Dental material block processing unit 6 Processing data generation unit 7 Colorimetry unit (image) Acquisition department)
8 Color distribution acquisition unit 9 Tooth color distribution memory (tooth color distribution storage unit)
10 Block color distribution memory (Block color distribution storage unit)
11 Comparison part (in-block comparison part)
12 Block identification part 13 Cutout position setting part

Claims (8)

1. A block color distribution storage unit for storing a color distribution in a direction along the surface of the plurality of dental material blocks;
   A tooth color distribution storage unit for storing a color distribution in the direction along the surface of the patient's tooth;
   A comparison unit that compares the tooth color distribution stored in the tooth color distribution storage unit with the color distribution of each dental material block stored in the block color distribution storage unit;
   A dental material setting device comprising: a block specifying unit that selects a dental material block having a color distribution closest to the color distribution of a patient's tooth as a result of comparison by the comparison unit.
2. The comparison unit sets a color distribution comparison region in the dental material block, and stores the color distribution in a plurality of comparison regions whose positions are changed in the direction of color change and the tooth color distribution storage unit. The dental material setting device according to claim 1, wherein the dental material setting device compares the color distribution of the teeth.
3. The cut-out position setting part which sets the comparison area | region of the color distribution in the said dental material block which has a color distribution nearest to the color distribution of a patient's tooth as a result of the comparison by the said comparison part as a cut-out position of a prosthesis. The dental material setting device described in 1.
4. An image acquisition unit for acquiring an image of the dental material block and an image of a patient's tooth;
   The dental material setting device according to claim 1, further comprising: a color distribution acquisition unit that processes an image acquired by the image acquisition unit to acquire a color distribution of a dental material block and a color distribution of a patient's tooth.
5. The dental material setting device according to claim 1, wherein the comparison unit compares a color distribution in a specific part of the dental material block with a color distribution in a specific part of the patient's tooth.
6. A color distribution comparison region in the dental material block specified by the block specifying unit is set, and the color distribution in a plurality of comparison regions whose positions are changed in the color changing direction, and the tooth color distribution storage unit An in-block comparison unit that compares the tooth color distribution stored in
   The dental material setting according to claim 5, further comprising: a cutting position setting unit that sets a color distribution comparison area in the dental material block having a color distribution closest to the color distribution of the patient's tooth as a cutting position of a prosthesis. apparatus.
7. The dental material setting device according to claim 3 or 6,
   A processing data generation unit that generates processing data for processing the prosthesis based on the information on the dental material block specified by the block specifying unit and the cutting position set by the cutting position setting unit. Dental material processing data generator.
8. The dental material setting device according to claim 3 or 6,
   A dental material processing apparatus comprising: a dental material block processing unit that processes a prosthesis by cutting out a dental material block specified by the block specifying unit from a cut-out position set by the cut-out position setting unit.

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