JP2016142815A - Dental model - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a dental model capable of providing an experience of examining mobility of a tooth.SOLUTION: The dental model is provided with a model tooth 30 having a crown part 31 and a root part 32, and an alveolar bone part 10 having an alveolar bone root arrangement hole 10A, the alveolar bone root arrangement hole 10A being composed of an alveolar bone hole inner wall 101 and an alveolar bone hole bottom part 102, the root part 32 being disposed in the alveolar bone root arrangement hole 10A, the model tooth 30 being movable with respect to the alveolar bone part 10. The model tooth 30 is enabled to move with respect to the alveolar bone part 10 due to a structure in which the root part 32 has a root bottom part 322, the root bottom part 322 and the alveolar bone hole bottom part 102 are separated from each other, a first elastic member S is disposed between the root bottom part 322 and the alveolar bone hole bottom part 102, and the first elastic member S is deformable so as to allow a change in distance between the root bottom part 322 and the alveolar bone hole bottom part 102.SELECTED DRAWING: Figure 6

Description

  The present invention relates to a dental model.

  Conventionally, in dental education institutions (dental universities, hygienist schools, etc.), a dental model is used when a practitioner conducts practical training for dental treatment. The dental model is composed of an alveolar bone part, a gingival part, a model tooth, and the like. The dental model simulates a human jaw (mandible and / or upper jaw) including alveolar bone, gums, and teeth.

  As a dental model used when a practitioner conducts practical training for dental treatment, a model imitating a jaw portion having a pathological part is known (see, for example, Patent Document 1 and Patent Document 2). The dental models of Patent Document 1 and Patent Document 2 simulate a jaw part suffering from periodontal disease, and a periodontal pocket part simulating a periodontal pocket is provided in the gingival part.

JP 2008-310276 A JP 2007-210302 A

  By the way, in the field of dental treatment, there is a case in which a method of judging a medical condition of alveolar bone, gingiva, teeth, etc. by examining the degree of tooth mobility is sometimes employed. Tooth mobility is a term that means the degree to which a tooth moves relative to the alveolar bone. For example, the degree of tooth movement is adopted as a reference for determining the degree of progression of periodontal disease.

  Therefore, in the practical training of dental treatment, the practitioner needs to experience the degree of tooth movement. Therefore, a dental model that can provide an experience of examining the degree of tooth movement is required in the training field for dental treatment.

  In addition, orthodontic treatment may be performed in which a device called a bracket is attached to a tooth and the tooth is moved through an arched wire. In this orthodontic treatment, the person who performs the treatment uses the force that the wire passed through the bracket tries to return to its original shape, and shakes the teeth. The operator moves the teeth little by little while adjusting the strength and shape of the wire. Therefore, there is a demand for a dental model that can provide an experience of examining the degree of tooth movement in addition to the practical training of dental treatment.

  An object of the present invention is to provide a dental model capable of providing an experience of examining the degree of tooth mobility.

  The present invention comprises a model tooth having a crown portion and a root portion, and an alveolar bone portion having an alveolar bone root placement hole, wherein the alveolar bone root placement hole is formed from an alveolar bone hole inner wall and an alveolar bone hole bottom The tooth root portion is arranged in the alveolar bone root placement hole, and the model tooth relates to a dental model that can be swung with respect to the alveolar bone portion.

  Further, the root portion has a tooth root side surface facing the inner wall of the alveolar bone hole, the side surface of the tooth root portion is separated from the inner wall of the alveolar bone hole, and the side surface of the tooth root portion and the inner wall of the alveolar bone hole It is preferable that the distance between the model tooth and the alveolar bone part can be swayed.

  In addition, the root portion has a root portion, the root portion and the alveolar bone hole bottom portion are spaced apart, and a first elastic member is provided between the root root portion and the alveolar bone hole bottom portion. Is arranged, and the first elastic member is configured to be deformable so that the distance between the root and the alveolar bone hole bottom changes, so that the model tooth can be swung with respect to the alveolar bone. It is preferable that

  The first elastic member is preferably a spring.

  Further, a second elastic member is disposed on the inner wall of the alveolar bone hole, and a gingival part having a gingival part root placement hole, wherein the gingival part root placement hole is formed from a gingival hole inner wall, The alveolar root placement hole and the gingival part root placement hole communicate with each other and include a gingival part arranged so as to cover the alveolar bone part. The root part includes the alveolar bone root placement hole and the gingiva. It is preferable that it is arrange | positioned ranging over a part tooth root arrangement | positioning hole.

  Further, it is preferable that a periodontal pocket portion simulating a periodontal pocket is formed on the inner wall of the gingival hole.

  Further, the third elastic member is disposed between the gingival part and the alveolar bone part and has a third elastic member tooth root arrangement hole, wherein the third elastic member tooth root arrangement hole is a third elastic member hole inner wall. A third elastic member disposed on the alveolar bone part such that the third elastic member tooth root placement hole communicates with the alveolar bone root placement hole and the gingival part root placement hole, The root portion is disposed across the alveolar bone root disposition hole, the gingival portion root disposition hole, and the third elastic member tooth disposition hole, and the root portion and the third elastic member hole inner wall are in close contact with each other. Is preferred.

  ADVANTAGE OF THE INVENTION According to this invention, the dental model which can provide the experience which investigates the degree of tooth mobility can be provided.

1 is an overall perspective view of a dental model 1 according to a first embodiment of the present invention. FIG. 2 is an exploded perspective view of FIG. 1. It is AA sectional drawing of FIG. FIG. 4 is an exploded view of FIG. 3. It is a figure which shows a mode that the depth of a periodontal pocket is read. It is sectional drawing of the dental model 1A of 2nd Embodiment of this invention.

[First Embodiment]
Hereinafter, a first embodiment of the present invention will be described with reference to the drawings. FIG. 1 is an overall perspective view of a dental model 1 according to the first embodiment of the present invention. FIG. 2 is an exploded perspective view of FIG. 3 is a cross-sectional view taken along the line AA in FIG. FIG. 4 is an exploded view of FIG.

  As shown in FIGS. 1 and 2, the dental model 1 includes an alveolar bone part 10, a third elastic member 21, a gingival part 22, and 14 (plural) model teeth 30. The dental model 1 is a model of a human lower jaw.

In the following description, a row formed by the 14 model teeth 30 may be referred to as a tooth row T.
In the following description, the direction from the alveolar bone portion 10 toward the model tooth 30 is the upward direction D1, the opposite direction to the upward direction D1 is the downward direction D2, and is substantially orthogonal to the upward direction D1 and the downward direction D2. The direction toward the inner side of the row T (the side where the tongue is located in the case of human lower jaw, the lingual side) is the lingual side direction D3, which is the direction opposite to the lingual side direction D3 and outside the dentition T ( In the case of a human lower jaw, the direction toward the lip side) is defined as the lip side direction D4, and the directions substantially perpendicular to the upward direction D1, the downward direction D2, the lingual side direction D3, and the lip side direction D4. The near-centrifugal direction D5.

  As shown in FIGS. 2 to 4, the alveolar bone portion 10 includes an alveolar bone hole inner wall 101, an alveolar bone hole bottom wall 102 as an alveolar bone hole bottom, an alveolar bone upper wall 103, and an alveolar bone outer wall 104, Have The alveolar upper wall 103 is formed with 14 (plural) alveolar bone root placement holes 10A. These alveolar bone root placement holes 10A are formed along the dentition T. Each alveolar bone root placement hole 10 </ b> A is a hole formed from an alveolar bone hole inner wall 101 and an alveolar bone hole bottom wall 102.

  An elastic layer 105 as a second elastic member is formed on the entire surface of the alveolar bone hole inner wall 101. The elastic layer 105 is formed of a material softer than the material of the alveolar bone part 10. The third elastic member is made of rubber, soft urethane resin, soft epoxy resin, thiocol rubber, unsaturated polyester resin, elastomer, nylon, fluororesin (PTFE), shape memory alloy, or the like. Further, on the lingual side D3 side of the alveolar bone hole inner wall 101, an engaging convex portion 101A is provided. The engaging protrusion 101A protrudes in the labial direction D4.

As shown in FIGS. 2 to 4, a third elastic member 21 is disposed between the alveolar bone portion 10 and the gingival portion 22.
The third elastic member 21 includes a third elastic member upper wall 211, a third elastic member lower wall 212, and a third elastic member hole inner wall 213. The third elastic member 21 is a U-shaped member along the tooth row T as viewed in the downward direction D2. The third elastic member 21 is formed with 14 (plural) third elastic member tooth root arrangement holes 21A. These third elastic member tooth root arrangement holes 21A are formed along the tooth row T. Each third elastic member tooth root arrangement hole 21 </ b> A is a through hole formed from the third elastic member hole inner wall 213.

  The third elastic member 21 is arranged on the alveolar bone upper wall 103 so that the third elastic member tooth root arrangement hole 21A and the alveolar bone root arrangement hole 10A communicate with each other. As shown in FIGS. 3 and 4, the size of the third elastic member root placement hole 21A viewed in the downward direction D2 is smaller than the size of the alveolar root placement hole 10A viewed in the downward direction D2.

  The shape of the third elastic member lower wall 212 is substantially equal to the shape of the alveolar upper wall 103. Therefore, when the third elastic member 21 is disposed on the alveolar bone upper wall 103, the third elastic member lower wall 212 and the alveolar bone upper wall 103 are in close contact with each other. Therefore, the third elastic member 21 is disposed in close contact with the alveolar upper wall 103.

  The gingival part 22 has a gingival part surface 221, a gingival part back surface 222, and a gingival part hole inner wall 223. The gingival part 22 is formed with 14 (plural) gingival part root placement holes 22A. These gingival root placement holes 22A are formed along the tooth row T. Each gingival part root placement hole 22 </ b> A is a through hole formed from the gingival part hole inner wall 223. In the gingival hole inner wall 223, a periodontal pocket recess 224 is formed as a periodontal pocket part simulating a periodontal pocket. The periodontal pocket recessed part 224 is provided in the lingual side direction D3 side and the labial direction D4 side of the gingival hole inner wall 223.

  The gingival portion 22 is formed so that the gingival portion root placement hole 22A communicates with the alveolar bone root placement hole 10A and the third elastic member root placement hole 21A and covers the alveolar bone portion 10 and the third elastic member 21. It is disposed on the bone part 10 and the third elastic member 21. As shown in FIGS. 3 and 4, the size of the gingival root placement hole 22A viewed in the downward direction D2 is substantially the same as the size of the third elastic member root placement hole 21A viewed in the downward direction D2, and The alveolar bone root placement hole 10A is smaller than the size.

The shape of the gingival surface 221 is similar to the shape of a human gingival surface.
The shape of the gingival part back surface 222 is substantially equal to the shape of the alveolar bone outer wall 104. Therefore, when the gingival part back surface 222 is disposed on the alveolar bone outer wall 104 and the third elastic member 21, the gingival part back surface 222 and the alveolar bone outer wall 104 come into close contact with each other. Therefore, the gingival part 22 is disposed in close contact with the alveolar bone outer wall 104.

  The third elastic member 21 and the gingival part 22 are formed of a flexible member. Examples of the flexible member include rubber, soft urethane resin, soft epoxy resin, thiocol rubber, unsaturated polyester resin, elastomer, nylon, fluororesin (PTFE), shape memory alloy, and the like. The third elastic member 21 is formed of a member that is harder than the gingival portion 22.

  As shown in FIG. 2, the 14 model teeth 30 each have a crown portion 31 and a root portion 32. The shape of the crown portion 31 and the root portion 32 is a shape simulating the shape of a human crown and root. Therefore, the shape of the model tooth 30 is a shape imitating the shape of a human tooth as a whole.

  As shown in FIGS. 3 and 4, the root portion 32 includes a root portion side surface 321 and a root portion bottom surface 322 as a root portion. The tooth root side surface 321 is configured by a tooth root upper side surface 321A on the upper direction D1 side and a tooth root lower side surface 321B on the lower direction D2 side. An engagement concave portion 321C corresponding to the engagement convex portion 101A is provided on the lingual side direction D3 side of the tooth root lower side surface 321B.

  As shown in FIGS. 3 and 4, the root portion 32 is inserted into the alveolar bone root placement hole 10 </ b> A, the gingival portion root placement hole 22 </ b> A, and the third elastic member root placement hole 21 </ b> A that communicate with each other. As a result, the root portion 32 is disposed across the alveolar bone root placement hole 10A, the gingival portion root placement hole 22A, and the third elastic member root placement hole 21A. More specifically, the tooth root lower side surface 321B is disposed in the alveolar bone root placement hole 10A, and the tooth root upper side surface 321A is disposed in the gingival tooth root placement hole 22A and the third elastic member tooth root placement hole 21A.

  The root side lower surface 321B is opposed to the alveolar bone hole inner wall 101 over the entire circumference. Further, the tooth root lower side surface 321B is separated from the alveolar bone hole inner wall 101 over the entire circumference. The shape defined by the lower root surface 321B and the shape defined by the alveolar bone hole inner wall 101 are substantially similar, and the shape defined by the tooth root side surface 321 is defined by the alveolar bone inner wall 101. Smaller than the shape.

  Therefore, when the force of one or more direction components of the lingual direction D3, the labial direction D4, and the near-distal direction D5 is applied to the model tooth 30, the model tooth 30 moves in the direction in which the force is applied. . Therefore, the model tooth 30 can be swung with respect to the alveolar bone portion 10 in the alveolar bone root placement hole 10A.

  Here, when the model tooth 30 moves in the direction in which force is applied, the distance between the root side lower surface 321B and the alveolar bone hole inner wall 101 changes. That is, the model tooth 30 is configured so that the distance between the root side lower surface 321B and the alveolar bone hole inner wall 101 can be changed. Therefore, the dental model 1 is configured such that the distance between the root side lower surface 321B and the alveolar bone hole inner wall 101 is changed, so that the model tooth 30 can be swung with respect to the alveolar bone part 10. I can say that.

  Note that “possible to swing” means that when the model tooth 30 is moved, the position of the tip 31A of the crown portion that is the tip of the upper direction D1 side of the crown portion 31 can be changed by 0.2 mm or more. Means that. The direction in which the position of the tip 31A of the crown portion changes may be any of the upward direction D1, the downward direction D2, the lingual side direction D3, the labial side direction D4, the near distal direction D5, and other directions. When the model tooth 30 is moved, if the position of the crown tip 31A can change by 0.2 mm or more in any direction, it can be said that the model tooth 30 can be shaken. For example, in the dental model 1 of the first embodiment, the model teeth 30 can be rocked at least in the lingual direction D3, the labial direction D4, and the near-distal direction D5.

  As described above, the size of the third elastic member root placement hole 21A viewed in the downward direction D2 is smaller than the size of the alveolar root placement hole 10A viewed in the downward direction D2. The root side upper surface 321A is in close contact with the inner wall 213 of the third elastic member hole without any gap over the entire circumference.

  Further, as described above, the size of the gingival root placement hole 22A viewed in the downward direction D2 is substantially the same as the size of the third elastic member root placement hole 21A viewed in the downward direction D2, and the alveolar bone It is made smaller than the size of the tooth root arrangement hole 10A. The tooth root upper side surface 321A is in close contact with the gingival hole inner wall 223 over the entire circumference except for the periodontal pocket recess 224.

  The root bottom surface 322 faces the alveolar bone bottom wall 102. The root bottom surface 322 is in contact with the alveolar bone bottom wall 102.

  The trainee can use the dental model 1 to experience the following (1) to (2). The experience of the practitioner will be described with reference to the drawings. FIG. 5 is a diagram illustrating a state in which the depth of the periodontal pocket is read.

(1) Experience of examining the degree of tooth mobility The practitioner grasps the crown 31 of the model tooth 30 with tweezers (not shown) and applies force in the lingual direction D3, the labial direction D4, and the near-distal direction D5. Add.

  When the practitioner applies a force in the lingual direction D3 component to the model tooth 30, the model tooth 30 moves so that the distance between the root side lower surface 321B and the alveolar bone hole inner wall 101 changes. A part of the tooth root lower side surface 321B hits the elastic layer 105 formed on the inner wall 101 of the alveolar bone hole on the lingual direction D3 side, and the movement of the model tooth 30 stops.

  When the practitioner applies a force in the labial direction D4 component to the model tooth 30, the model tooth 30 moves so that the distance between the root side lower surface 321B and the alveolar bone hole inner wall 101 changes. Then, a part of the tooth root lower side surface 321B hits the elastic layer 105 formed on the alveolar bone hole inner wall 101 on the labial direction D4 side, and the movement of the model tooth 30 stops.

  The third elastic member hole inner wall 213 of the third elastic member 21 is in close contact with the root side upper surface 321A. However, since the third elastic member 21 is formed of a flexible member, it deforms according to the movement of the model tooth 30. The gingival part inner wall 223 of the gingival part 22 is in close contact with the upper side surface 321A of the root part. However, since the third elastic member 21 is formed of a flexible member, it deforms according to the movement of the model tooth 30. Therefore, the third elastic member 21 and the gingival part 22 do not hinder the movement of the model tooth 30. Further, when the material of the elastic layer 105 or the third elastic member 21 is a resin, it is possible to change the swaying degree of the model teeth 30 by adjusting the hardness of the resin material.

  In the movement of the model tooth 30 described above, the position of the crown portion tip 31A changes by 0.2 mm or more. Therefore, it can be said that the model tooth 30 is oscillating with respect to the alveolar bone part 10 in the alveolar bone root placement hole 10A.

As described above, since the lower root surface 321B of the root portion is spaced from the alveolar bone hole inner wall 101 over the entire circumference, the practitioner has the lower root surface 321B and the alveolar bone hole in the alveolar root placement hole 10A. The model teeth 30 can be moved so that the distance from the inner wall 101 changes. That is, the model teeth 30 are moved relative to the alveolar bone portion 10 by moving the model teeth 30 so that the distance between the lower side surface 321 </ b> B of the root portion and the inner wall 101 of the alveolar bone hole changes.
Therefore, the practitioner can experience using the dental model 1 to examine the degree of tooth movement in one or more of the lingual direction D3, the labial direction D4, and the near-distal direction D5. Is possible.

(2) Experience of reading the depth of the periodontal pocket As shown in FIG. 5, the apprentice moves the tip of the pocket probe P in the downward direction D2 along the boundary between the gingival part 22 and the root upper part 321A. Let As a result, the tip of the pocket probe P enters the periodontal pocket recess 224.

  When the practitioner further moves the tip of the pocket probe P in the downward direction D2, as shown in FIG. 5, the tip of the pocket probe P reaches the third elastic member upper wall 211, and the movement of the pocket probe P stops. . In the state of FIG. 5, the practitioner reads the scale on the side surface of the pocket probe P and measures the depth of the periodontal pocket portion 33. Therefore, the practitioner can experience the depth reading of the periodontal pocket by using the dental model 1.

  As described above, the tooth root upper side surface 321A is in close contact with the third elastic member hole inner wall 213 without a gap over the entire circumference. Therefore, when the tip of the pocket probe P reaches the third elastic member 21, the movement of the pocket probe P stops. Therefore, the third elastic member 21 prevents the pocket probe P from entering between the tooth root lower side surface 321 </ b> B and the alveolar bone hole inner wall 101.

  The dental model 1 of the first embodiment includes a model tooth 30 having a crown portion 31 and a root portion 32, and an alveolar bone portion 10 having an alveolar bone root placement hole 10A. An alveolar bone hole inner wall 101 and an alveolar bone hole bottom wall 102 are formed. The root portion 32 is arranged in the alveolar bone root placement hole 10 </ b> A, and the model tooth 30 can be swung with respect to the alveolar bone portion 10. Therefore, the dental model 1 can provide the practitioner with an experience of examining the degree of tooth movement.

  Further, in the dental model 1 of the first embodiment, the root portion 32 has a lower root surface 321 </ b> B facing the alveolar bone inner wall 101, and the lower root surface 321 </ b> B is separated from the alveolar bone inner wall 101. The model tooth 30 can be swayed with respect to the alveolar bone part 10 by being configured such that the distance between the lower side surface 321B of the tooth root part and the inner wall 101 of the alveolar bone hole can be changed. Therefore, the dental model 1 according to the first embodiment provides the practitioner with an experience of examining the degree of tooth sway in any one or more of the lingual direction D3, the labial direction D4, and the near-distal direction D5. It is possible to provide.

  Further, the degree of swaying of the model tooth 30 can be adjusted by adjusting the distance between the root lower surface 321B and the alveolar bone hole inner wall 101. For example, by changing the model teeth 30 arranged in the alveolar bone root arrangement hole 10 </ b> A with the model teeth 30 having different sizes, it is possible to realize different degrees of sway. Further, by exchanging the alveolar bone part 10 in which the model tooth 30 is arranged with an alveolar bone part 10 having a different size of the alveolar bone root placement hole 10A, it is possible to realize different degrees of tooth mobility.

  In addition, the direction in which the model tooth 30 is shaken can be changed by adjusting the positional relationship between the root lower surface 321 </ b> B and the alveolar bone hole inner wall 101. In the dental model 1A of the first embodiment, the root side lower surface 321B was separated from the alveolar bone hole inner wall 101 over the entire circumference. However, for example, the positional relationship between the root base lower side surface 321B and the alveolar bone hole inner wall 101 is adjusted such that the tooth root lower side surface 321B and the alveolar bone hole inner wall 101 are separated only in the lingual side direction D3 and the lip side direction D4. Thus, the model tooth 30 can be shaken only in the lingual direction D3 and the labial direction D4.

  That is, in the dental model 1, by adjusting the separation distance and the part of the tooth root lower side surface 321 </ b> B and the alveolar bone hole inner wall 101, the degree of shaking and the direction of shaking of the model tooth 30 can be adjusted.

  Moreover, the dental model 1 of 1st Embodiment is the gingiva part 22 which has the elastic layer 105 arrange | positioned in the alveolar bone hole inner wall 101, and has a gingival part root placement hole 22A, Comprising: The gingival part root placement hole 22A is a gingiva. A gingival portion 22 is formed from the inner wall 223 of the hole, the alveolar root placement hole 10A and the gingival root placement hole 22A communicate with each other and cover the alveolar bone portion 10; 32 is arranged across the alveolar bone root placement hole 10A and the gingival part root placement hole 22A. Moreover, the gingival part 22 is a flexible member. Therefore, the dental model 1 according to the first embodiment is closer to the actual human lower jaw, and it is possible to provide a more realistic practical experience to the trainee. Furthermore, since the elastic layer 105 is disposed on the inner wall 101 of the alveolar bone hole, it is possible to change the degree of sway of the model tooth 30 by adjusting the hardness of the elastic layer 105.

  In the dental model 1 of the first embodiment, a periodontal pocket recess 224 simulating a periodontal pocket is formed between the root side surface 321 and the gingival hole inner wall 223. Therefore, the dental model 1 according to the first embodiment can provide the practitioner with an experience of measuring the depth of the periodontal pocket.

  Moreover, in the dental model 1 of 1st Embodiment, it is the 3rd elastic member 21 arrange | positioned between the gingiva part 22 and the alveolar bone part 10, and has the 3rd elastic member tooth root arrangement | positioning hole 21A, Comprising: 3rd elasticity The member tooth root arrangement hole 21A is formed from the third elastic member hole inner wall 213, and the third elastic member tooth root arrangement hole 21A communicates with the alveolar bone root arrangement hole 10A and the gingival tooth root arrangement hole 22A. The tooth root 32 is disposed across the alveolar bone root placement hole 10A, the gingival part root placement hole 22A, and the third elastic member root placement hole 21A. The third elastic member hole inner wall 213 is in close contact. Therefore, the dental model 1 of 1st Embodiment can provide the experience which measures the depth of a periodontal pocket correctly with respect to a practitioner. Furthermore, the degree of swaying of the model teeth 30 can be changed by adjusting the hardness of the third elastic member.

[Second Embodiment]
Next, a second embodiment of the present invention will be described with reference to FIG. FIG. 6 is a sectional view of a dental model according to the second embodiment of the present invention. FIG. 6 corresponds to FIG. 3 of the first embodiment. The second embodiment will be described mainly with respect to differences from the first embodiment, and detailed description of the same configuration as the first embodiment will be omitted. For the points not specifically described, the description of the first embodiment is applied as appropriate.

  As shown in FIG. 6, in the dental model 1 </ b> A of the second embodiment, the root portion bottom surface 322 as the root portion and the alveolar bone hole bottom wall 102 are separated from each other. A spring S as a first elastic member is provided between the root bottom surface 322 and the alveolar bone bottom wall 102.

  In the dental model 1A, when the force of the downward D2 component is applied to the model tooth 30, the spring S contracts and the model tooth 30 moves in the downward direction D2. When the force of the downward D2 component is no longer applied to the model tooth 30, the spring S extends and the model tooth 30 moves in the upward direction D1. At this time, the position of the crown portion tip 31A can change by 0.2 mm or more in the vertical direction. Therefore, in the dental model 1A, the model teeth 30 can be swung in the vertical direction.

  Here, when the model tooth 30 moves in the direction in which the force is applied, the spring S is deformed, and the distance between the root surface 322 and the alveolar bone bottom wall 102 changes. That is, the spring S is configured to be deformable so that the distance between the root portion bottom surface 322 and the alveolar bone hole bottom wall 102 changes. Therefore, the dental model 1A is configured so that the spring S can be deformed so that the distance between the root bottom surface 322 and the alveolar bone hole bottom wall 102 is changed, so that the model tooth 30 can be shaken with respect to the alveolar bone portion 10. It can be said that.

  Further, in the dental model 1A, similarly to the dental model 1 of the first embodiment, the root side lower surface 321B is separated from the alveolar bone hole inner wall 101 over the entire circumference. Therefore, the dental model 1A can be shaken also in the lingual direction D3, the labial direction D4, and the near-centrifugal direction D5.

  The dental model 1A of the second embodiment can provide the following experience in addition to the experience provided by the dental model 1 of the first embodiment to the practitioner.

  When the practitioner grasps the crown portion 31 of the model tooth 30 with tweezers (not shown) and applies a force in the downward direction D2, the spring S contracts, and the model tooth 30 has the root bottom surface 322 and the alveolar bone hole bottom. The distance to the wall 102 moves downward D2 so as to change. When the trainee stops applying a force in the downward direction D2, the spring S extends, and the model tooth 30 moves in the upward direction D1 so that the distance between the root bottom surface 322 and the alveolar bone bottom wall 102 changes. Move.

  The third elastic member hole inner wall 213 of the third elastic member 21 is in close contact with the root side upper surface 321A. However, since the third elastic member 21 is formed of a flexible member, it deforms according to the movement of the model tooth 30. The gingival part inner wall 223 of the gingival part 22 is in close contact with the upper side surface 321A of the root part. However, since the third elastic member 21 is formed of a flexible member, it deforms according to the movement of the model tooth 30. Therefore, the third elastic member 21 and the gingival part 22 do not hinder the movement of the model tooth 30. Moreover, when the material of the 3rd elastic member 21 is resin, it is also possible to change the fluctuation degree of the model tooth 30 by adjusting the hardness of the resin material.

  Further, the position of the crown portion tip 31A changes by 0.2 mm or more due to the movement of the model tooth 30 in the upward direction D1 and the downward direction D2. Therefore, it can be said that the model tooth 30 is oscillating with respect to the alveolar bone part 10 in the alveolar bone root placement hole 10A.

  As described above, the root bottom surface 322 and the alveolar bone bottom wall 102 are separated from each other, and the spring S is provided between the root bottom surface 322 and the alveolar bone bottom wall 102. Therefore, the practitioner can move the model tooth 30 in the alveolar bone root placement hole 10 </ b> A so that the distance between the root surface 322 and the alveolar bone bottom wall 102 changes. In other words, the model teeth 30 are moved relative to the alveolar bone portion 10 by moving the model teeth 30 so that the distance between the root surface 322 and the alveolar bone bottom wall 102 changes.

  Therefore, the practitioner can use the dental model 1A to experience an examination of the degree of sway of the teeth in the upward direction D1 and the downward direction D2. In addition, the practitioner can use the dental model 1 to experience an examination of the degree of sway in one or more of the lingual direction D3, the labial direction D4, and the near-distal direction D5. is there.

  In the dental model 1A of the second embodiment, the root portion 32 has a root bottom surface 322, the root root bottom surface 322 and the alveolar bone bottom wall 102 are spaced apart, and the root root bottom surface 322 and the alveolar bone hole are separated. A spring S is disposed between the bottom wall 102 and the spring S so that the distance between the root bottom surface 322 and the alveolar bone bottom wall 102 can be deformed. 30 can be rocked with respect to the alveolar bone part 10. Therefore, the dental model 1 </ b> A of the second embodiment can provide the practitioner with an experience of examining the degree of tooth sway in the upward direction D <b> 1 and the downward direction D <b> 2.

  In addition, the dental model 1A of the second embodiment is similar to the dental model 1 of the first embodiment in that the teeth in the directions such as the lingual direction D3, the labial direction D4, and the near centrifugal direction D5 are given to the apprentice. It is also possible to provide an experience to check the degree of sway. In other words, the dental model 1A of the second embodiment can provide an experience for the practitioner to examine the degree of tooth movement in all directions.

According to the dental model of the first embodiment to the second embodiment, the practitioner can experience various tooth fluctuations.
For example, when examining the degree of fluctuation of periodontal disease, the following degrees of fluctuation of 1 to 3 degrees are specified.
(1) 1 degree: shaking 0.2 mm to 1.0 mm in the lingual direction D3 and labial direction D4 (2) 2 degrees: 1.0 mm to 2 in the lingual direction D3, labial direction D4 and near distal direction D5 .. 0 mm shaking (3) 3 degrees: lingual side direction D3, labial side direction D4, near-centrifugal direction D5 and up and down direction 2.0 mm or more

  (1) When realizing 1 degree, the root side lower surface 321B and the alveolar bone hole inner wall 101 are separated from each other only on the lingual direction D3 side and the labial direction D4 side, and the root base bottom surface 322 and the alveolar bone hole bottom wall The dental model 1 according to the first embodiment (or the dental model 1B according to the third embodiment) in which the distance 102 is not separated may be used.

  (2) When realizing 2 degrees, the root side lower surface 321B and the alveolar bone hole inner wall 101 are separated from each other in the lingual direction D3 side, the labial direction D4 side, and the near-distal direction D5, and the root base bottom 322 and the alveoli The dental model 1 of the first embodiment (or the dental model 1B of the third embodiment) in which the bone hole bottom wall 102 is not separated can be used.

  (3) When realizing 3 degrees, the root side lower surface 321B and the alveolar bone hole inner wall 101 are separated from each other in the lingual side direction D3 side, the labial side direction D4 side, and the near distal direction D5, and the root part bottom surface 322 and the alveoli The dental model 1 </ b> A of the second embodiment in which the bone hole bottom wall 102 is separated can be used.

  The embodiment of the present invention has been described above. However, the present invention is not limited to the above embodiment, and can be implemented in various forms.

  In the description of the first embodiment to the second embodiment, the model tooth corresponding to the front tooth (mandibular central incisor) has been described as an example of the model tooth 30, but the shaking model tooth 30 is the front tooth (mandibular central incisor). Model teeth simulating teeth (molar teeth, canine teeth, side incisors, etc.) other than (tooth).

  Moreover, all the 14 model teeth 30 may be able to be shaken, or only some model teeth may be able to be shaken. Moreover, a part or all of the 14 model teeth 30 may be able to be swayed in any direction, and a part or all of the 14 model teeth 30 may be lingual side direction D3, lip side direction D4, It may be possible to sway only in the direction such as the near-centrifugal direction D5, or a part or all of the 14 model teeth 30 may be swayable only in the upward direction D1 and the downward direction D2. Further, a part of the 14 model teeth 30 may not be able to be shaken.

  In description of 1st Embodiment-2nd Embodiment, although the root part lower side surface 321B was spaced apart from the alveolar bone hole inner wall 101 over the perimeter, it is not limited to this. If the model tooth 30 can be swung in any one or more of the lingual direction D3, the labial direction D4, and the near-distal direction D5, the tooth root lower side surface 321B is partly from the alveolar bone hole inner wall 101. May be spaced apart.

  In description of 1st Embodiment-2nd Embodiment, although the 3rd elastic member 21 was formed with the member harder than the gingival part 22, it is not limited to this. The third elastic member 21 may be a member having the same hardness as the gingival part 22.

  In the description of the first embodiment to the second embodiment, the elastic layer 105 is disposed on the alveolar bone hole inner wall 101, but the elastic layer 105 may not be disposed on the alveolar bone hole inner wall 101. The elastic layer 105 may be disposed not on the entire surface of the alveolar bone hole inner wall 101 but on a part of the alveolar bone hole inner wall 101.

  In the description of the first embodiment to the second embodiment, the third elastic member 21 and the gingival portion 22 are configured by two independent members, but are not limited thereto. The 3rd elastic member 21 and the gingival part 22 may be comprised with the member integrated.

  In description of 1st Embodiment-2nd Embodiment, although the periodontal pocket recessed part 224 was formed in the gingival hole inner wall 223, the periodontal pocket recessed part 224 does not need to be formed.

  In the second embodiment, the spring S is provided between the root portion bottom surface 322 and the alveolar bone hole bottom wall 102, but is not limited thereto. The spring S may be an elastic member such as rubber, soft urethane resin, soft epoxy resin, thiocol rubber, unsaturated polyester resin, elastomer, nylon, fluororesin (PTFE), or shape memory alloy. Further, the spring S and the elastic member may be fixed to one or both of the root bottom surface 322 and the alveolar bone bottom wall 102, or not fixed to the root root bottom surface 322 and the alveolar bone bottom wall 102. Further, it may be disposed between the root portion bottom surface 322 and the alveolar bone hole bottom wall 102.

  In 2nd Embodiment, although the bottom part of the root part 32 was the root part bottom face 322, it is not limited to this. The bottom portion of the tooth root portion 32 may be a portion that does not form a surface (a pointed shape portion or the like). At this time, the alveolar bone hole bottom may be a portion having a shape corresponding to the bottom of the root portion 32 and may be a portion having no wall shape such as the alveolar bone hole bottom wall 102.

  In the second embodiment, the root root bottom surface 322 and the alveolar bone hole bottom wall 102 are separated from each other, and the root lower surface 321B and the alveolar bone hole inner wall 101 are separated from each other. However, the present invention is not limited to this. The root root lower surface 321B and the alveolar bone hole inner wall 101 are not separated from each other, and the root base bottom surface 322 and the alveolar bone hole bottom wall 102 may be separated from each other. In this case, the practitioner can inspect the swaying degree of the teeth in the upward direction D1 and the downward direction D2.

1, 1A, 1B Dental model 10 Alveolar bone portion 10A Alveolar bone root placement hole 101 Alveolar bone hole inner wall 102 Alveolar bone hole bottom wall (alveolar bone hole bottom)
105 Elastic layer (second elastic member)
21 3rd elastic member 21A 3rd elastic member tooth root arrangement hole 213 3rd elastic member hole inner wall 22 Gingival part 22A Gingival part tooth root arrangement hole 223 Gingival part hole inner wall 224 Periodontal pocket recessed part (periodontal pocket part)
30 model teeth 31 crown part 32 tooth root part 321 tooth root side surface 322 root part bottom face (root part)
S Spring (first elastic member)

Claims (7)

A model tooth having a crown and a root, and
An alveolar bone portion having an alveolar bone root placement hole, and
The alveolar bone root placement hole is formed from an alveolar bone hole inner wall and an alveolar bone hole bottom,
The root portion is disposed in the alveolar bone root placement hole,
A dental model in which the model tooth is movable with respect to the alveolar bone. The root portion has a tooth root side surface facing the alveolar bone hole inner wall, and the tooth root side surface is separated from the alveolar bone hole inner wall,
2. The dental model according to claim 1, wherein the model tooth can be swung with respect to the alveolar bone part by being configured such that a distance between the side surface of the root part and the inner wall of the alveolar bone hole is changeable.   The root portion has a root portion, the root portion and the alveolar bone hole bottom portion are separated from each other, and a first elastic member is disposed between the root root portion and the alveolar bone hole bottom portion. The model tooth can be swayed with respect to the alveolar bone part by the first elastic member being configured to be deformable so that the distance between the root root part and the alveolar bone hole bottom part changes. The dental model in any one of Claim 1 or Claim 2.   The dental model according to claim 3, wherein the first elastic member is a spring. A second elastic member is arranged on the inner wall of the alveolar bone hole,
A gingival part having a gingival root placement hole, wherein the gingival part root placement hole is formed from a gingival hole inner wall, and the alveolar bone root placement hole and the gingival part root placement hole communicate with each other, and the alveolus The gingiva part arrange | positioned so that a bone part may be covered is provided, and the said root part is arrange | positioned ranging over the said alveolar bone root arrangement | positioning hole and the said gingival part root arrangement hole. The dental model described in Crab.   The dental model according to claim 5, wherein a periodontal pocket portion simulating a periodontal pocket is formed on the inner wall of the gingival hole.   A third elastic member disposed between the gingival part and the alveolar bone part and having a third elastic member tooth root arrangement hole, wherein the third elastic member tooth root arrangement hole is formed from an inner wall of the third elastic member hole A third elastic member disposed on the alveolar bone portion so that the third elastic member tooth root disposition hole communicates with the alveolar bone root disposition hole and the gingival tooth root disposition hole; Is disposed across the alveolar bone root placement hole, the gingival part root placement hole, and the third elastic member tooth root placement hole, and the root part and the third elastic member hole inner wall are in close contact with each other. Dental model as described in

Images