CN114889103A - Manufacturing method of invisible flat inclined plane orthodontic guide plate - Google Patents

Abstract

The invention discloses a method for manufacturing an invisible flat inclined plane orthodontic guide plate, which comprises the following steps: 1) making a tooth jaw model; 2) manufacturing a template; 3) mounting the dental model on a template; 4) forming an invisible flat inclined plane orthodontic guide plate on the diaphragm; 5) taking the formed diaphragm off the template; 6) and shearing the diaphragm to form the independent invisible flat inclined plane orthodontic guide plate. The middle part of the invisible flat inclined plane orthodontic guide plate manufactured by the invention is close to the inner side to form a flat inclined plane guide plate II along the side wall, the upper surface of the flat inclined plane guide plate II is close to one side of the invisible flat inclined plane orthodontic guide plate to form a low plane II, the upper surface is close to the inner side to form a convex surface II, and an annular inclined plane II is formed between the low plane II and the convex surface II. In the occlusion process of the upper and lower teeth, when the lower front teeth contact the flat inclined guide plate II, the inclined plane II of the flat inclined guide plate II can guide the lower front teeth to slide forwards, so that the lower front teeth are occluded on the low plane II of the flat inclined guide plate II, and the lower front teeth lip side inclination is effectively avoided or reduced.

Description

Manufacturing method of invisible flat inclined plane orthodontic guide plate

Technical Field

The invention relates to a medical appliance used in an oral cavity, in particular to a manufacturing method of an invisible flat inclined plane orthodontic guide plate.

Background

The orthodontic inclined guide plate is used on the upper jaw, the outer side face of the orthodontic inclined guide plate is matched with the inner side face of upper teeth, the height of the upper surface of the orthodontic inclined guide plate is gradually reduced from the inner side to the outer side, and when the front teeth of the lower jaw contact the orthodontic inclined guide plate in the occlusion process of the upper teeth and the lower teeth, the upper surface of the orthodontic inclined guide plate inclines outwards, the orthodontic inclined guide plate can apply pressure to the lower teeth towards the labial side, and the front teeth of the lower jaw are easy to slowly incline towards the labial side, so that the phenomenon that the lower front teeth incline towards the labial side is easily caused.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides the manufacturing method of the invisible flat inclined plane orthodontic guide plate, and the invisible flat inclined plane orthodontic guide plate manufactured by the method can avoid or reduce the inclination of the lower anterior labial direction.

In order to solve the technical problems, the invention adopts the following technical scheme:

a method for manufacturing an invisible flat inclined plane orthodontic guide plate comprises the following steps:

1) making a model

The method comprises the following steps that an odonto-maxillary model is manufactured through a digital oral scanning technology, a flat inclined plane guide plate I is arranged at the middle part of the odonto-maxillary model close to the inner side along the side wall, a low plane I is formed on one side of the flat inclined plane guide plate I close to the odonto-maxillary model along the annular direction, a convex surface I is formed on the upper surface of the flat inclined plane guide plate I close to the inner side along the annular direction, an annular inclined plane I is formed on the odonto-maxillary model and located between the low plane I and the convex surface I, and the inclined plane I is an inclined plane gradually rising from the outer side to the inner side;

2) Making a template

A plurality of rows of mutually parallel through holes I are arranged on the template;

3) mounting the dental model on a template;

4) using the oral cavity retainer film pressing machine, rotating the upper cover of the oral cavity retainer film pressing machine, putting the diaphragm between the upper sleeve frame, and pulling down the ball pull rod to clamp the diaphragm; resetting the upper cover, and pressing down the lifting wrench to lift the sleeve frame; placing the template provided with the dental jaw model on a screen plate in a lower frame, starting a heating switch, heating the diaphragm, turning off the heating switch when the diaphragm is heated to be lower than the plane of the lower frame, putting down the sleeve frame, simultaneously starting a vacuum motor, gradually sleeving the heated diaphragm on the dental jaw model when downwards vacuumizing, and forming an invisible flat inclined plane orthodontic guide plate on the diaphragm; after the invisible flat inclined plane orthodontic guide plate is formed, the vacuum motor is closed;

of course, other similar processing methods may also be employed;

5) taking out the template, and taking the formed membrane off the template;

6) shearing the invisible flat inclined plane orthodontic guide plate from the formed diaphragm to form an independent invisible flat inclined plane orthodontic guide plate; the middle part of the invisible flat inclined plane orthodontic guide plate is close to the inner side to form a flat inclined plane guide plate II along the side wall, the upper surface of the flat inclined plane guide plate II is close to the outer side to form a low plane II along the annular direction, the upper surface of the flat inclined plane guide plate II is close to the inner side to form a convex surface II along the annular direction, the invisible flat inclined plane orthodontic guide plate is provided with an annular inclined plane II between the low plane II and the convex surface II, and the inclined plane II is an inclined plane gradually rising from the outer side to the inner side.

As a preferable scheme of the invention, a cavity is arranged in the dental model along the annular direction, an opening is formed at the bottom of the cavity in the dental model, a through hole II and a through hole III are arranged on the dental model, one end of the through hole II and one end of the through hole III are respectively communicated with the cavity, the other end of the through hole II extends to the upper surface of the low plane I, and the other end of the through hole III extends to the lower surface of the flat inclined plane guide plate I.

As a preferred scheme of the invention, mounting pieces are respectively arranged at the bottom of the dental model close to two ends, and through holes IV are arranged on the mounting pieces; the die plate is provided with threaded holes, and after the dental jaw model is placed on the die plate, screws penetrate through the through holes IV in the mounting sheet and are screwed in the threaded holes.

In a preferable scheme of the invention, the low plane II on the flat inclined plane guide plate II is lower than the top surface of the invisible flat inclined plane orthodontic guide plate.

As a preferable scheme of the invention, a cavity structure is formed between the flat inclined plane guide plate II and the inner side of the invisible flat inclined plane orthodontic guide plate.

As a preferable scheme of the invention, the flat inclined plane guide plate I is provided with reinforcing ribs I in the longitudinal direction or/and the transverse direction, and the flat inclined plane guide plate II is provided with reinforcing ribs II in the longitudinal direction or/and the transverse direction.

As a preferable scheme of the invention, the flat inclined plane guide plate II and the invisible flat inclined plane orthodontic guide plate are integrally formed.

As a preferable scheme of the invention, a clamping groove is arranged on one side, close to a flat inclined guide plate I, of the dental model, the clamping groove penetrates through the upper part of the dental model upwards, a clamping block is arranged on one side, close to the dental model, of the flat inclined guide plate I, and the clamping block on the flat inclined guide plate I slides into the clamping groove on the dental model from top to bottom; one or more pairs of clamping grooves 34 on the dental model and clamping blocks 35 on the flat inclined guide plate I2 are provided.

The invention has the technical effects that: according to the invisible flat inclined plane orthodontic guide plate manufactured by the invention, the flat inclined plane guide plate II is formed at the middle part of the invisible flat inclined plane orthodontic guide plate close to the inner side, the lower plane II, the convex surface II and the inclined plane II are arranged on the upper surface of the flat inclined plane guide plate II, the inclined plane II is an inclined plane gradually rising from the outer side to the inner side, and when lower anterior teeth contact the flat inclined plane guide plate II in the occlusion process of the upper teeth and the lower jaw teeth, the inclined plane of the flat inclined plane guide plate II can guide the lower anterior teeth to slide forwards, so that the lower anterior teeth are occluded on the lower plane II of the flat inclined plane guide plate II, and the side inclination of the lower anterior lip is effectively avoided or reduced.

Drawings

FIG. 1 is a schematic view of a dental model;

FIG. 2 is a schematic cross-sectional view taken along the line A-A in FIG. 1;

FIG. 3 is a schematic structural view of the front side of the stencil;

FIG. 4 is a schematic view of the structure of the back side of the template;

FIG. 5 is a schematic view of the dental model mounted on the template;

FIG. 6 is a schematic diagram of a construction of a dental retainer film press;

FIG. 7 is a schematic view of a template with a dental model mounted thereon placed on a mesh plate of a laminator for oral care;

FIG. 8 is a schematic view of the invisible flat inclined plane orthodontic guide worn on the maxillary teeth;

FIG. 9 is a schematic cross-sectional view taken along line B-B of FIG. 8;

FIG. 10 is another schematic view of the dental model;

FIG. 11 is a schematic structural view of an invisible flat inclined plane orthodontic guide formed by manufacturing another dental model;

fig. 12 is a schematic view of the upper and lower teeth engaged.

In the figure: 1-dental model; 2-a flat inclined plane guide plate I; 3-low plane i; 4-convexity I; 5-inclined plane I; 6, template; 7-through hole I; 8-oral cavity keeper film pressing machine; 9, covering the upper cover; 10-a membrane; 11-a frame; 12-ball tie rod; 13-lifting spanner; 14-lower frame; 15-screen plate; 16-a heating switch; 17-invisible flat inclined plane orthodontic guide plate; 18-flat inclined plane guide plate II; 19-lower plane ii; 20-convexity II; 21-bevel ii; 22-a cavity; 23-through hole ii; 24-via iii; 25-mounting the sheet; 26-through hole IV; 27-reinforcing rib I; 28-a threaded hole; 29-screw; 30-a support column; 31-upper teeth; 32-mandibular teeth; 33-reinforcing rib II; 34, a card slot; 35, a fixture block.

Detailed Description

The invention is described in further detail below with reference to the figures and the detailed description.

A method for manufacturing an invisible flat inclined plane orthodontic guide plate comprises the following steps:

1) making a model

Make dental model 1 through digital oral cavity scanning technique, dental model 1's middle part is leaned on the inboard to set up flat inclined plane baffle I2 along the lateral wall, flat inclined plane baffle I2's upper surface leans on dental model 1 one side to form low plane I3 along the annular direction, flat inclined plane baffle I2's upper surface leans on the inboard to form convex surface I4 along the annular direction, dental model 1 is last and be located and form an annular inclined plane I5 between low plane I3 and the convex surface I4, inclined plane I5 is the inclined plane that gradually rises by the outside to the inboard, as shown in fig. 1 and fig. 2.

In this embodiment, a cavity 22 is arranged in the dental model 1 along the annular direction, an opening is formed at the bottom of the cavity 22 in the dental model 1, a through hole ii 23 and a through hole iii 24 are arranged on the dental model 1, one end of the through hole ii 23 and one end of the through hole iii 24 are respectively communicated with the cavity 22, the other end of the through hole ii 23 extends to the upper surface of the lower plane i 3, and the other end of the through hole iii 24 extends to the lower surface of the flat inclined guide plate i 2, as shown in fig. 2. After the dental model 1 is arranged on the template 6, the cavity 22 is communicated with the corresponding through hole I7 on the template 6, and when the vacuum pumping is performed downwards, the gas on the low plane I3 is pumped away through the mutually communicated through hole I7, the cavity 22 and the through hole II 23, so that the diaphragm 10 on the corresponding part of the low plane I3 is sucked onto the low plane I3; the air at the bottom of the flat inclined guide plate I2 is pumped away through the through hole I7, the cavity 22 and the through hole III 24 which are communicated with each other, so that the diaphragm 10 at the corresponding part at the bottom of the flat inclined guide plate I2 is sucked to the bottom of the flat inclined guide plate I2.

2) Making a template

A plurality of rows of mutually parallel through holes i 7 are provided in the template 6, as shown in fig. 3. In this embodiment, four support posts 30 are provided at the bottom of the template 6, as shown in fig. 4. When the template 6 is placed on the screen plate 15 of the mouth retainer laminator 8, the template 6 is supported above the screen plate 15 by the support columns 30 so that there is a space between the template 6 and the screen plate 15, which does not affect the vacuum.

3) Mounting the dental model 1 on the template 6

The bottom of the dental model 1 is respectively provided with mounting pieces 25 near two ends, through holes IV 26 are arranged on the mounting pieces 25, threaded holes 28 are arranged on the template 6, and after the dental model 1 is placed on the template 6, screws 29 penetrate through the through holes IV 26 on the mounting pieces 25 and are screwed in the threaded holes 28, as shown in figure 5. For the installation of the dental model 1 on the template 6, the dental model can be connected to the template 6 by the screw 29 in the embodiment, and other methods such as buckling, binding and the like can also be adopted.

4) Using the mouth retainer film press 8, the mouth retainer film press 8 is a prior art product, as shown in fig. 6; the upper cover 9 of the oral cavity retainer film pressing machine 8 is turned open, the diaphragm 10 is placed between the upper sleeve frames 11, and the ball head pull rod 12 is pulled down to clamp the diaphragm; resetting the upper cover 9, and pressing down the lifting wrench 13 to lift the sleeve frame 11 to the working height; then the template 6 provided with the dental model 1 is placed on the screen plate 15 in the lower frame 14, as shown in fig. 7, a certain distance is kept between the template 6 and the screen plate 15 through the supporting column 30 at the bottom, which is beneficial to pumping out all air on the template 6 from the lower part during vacuum pumping; turning on a heating switch 16, heating the membrane 10, turning off the heating switch 16 when the membrane 10 is heated and is lower than the plane of the lower frame 14, putting down the sleeve frame 11, turning on a vacuum motor, gradually sleeving the heated membrane 10 on the dental jaw model 1 when downwards vacuumizing, and forming an invisible flat inclined orthodontic guide plate 17 on the membrane 10; after the invisible flat inclined plane orthodontic guide plate 17 is formed, the vacuum motor is closed.

5) The template 6 is taken out, and the formed membrane 10 is taken off from the template 6.

The diaphragm 10 is made of plastic, and when the formed diaphragm 10 is taken down from the template 6, the formed invisible flat inclined plane orthodontic guide plate 17 has certain elasticity and can be directly taken down from the dental jaw model 1.

6) And cutting the invisible flat inclined orthodontic guide plate 17 from the formed diaphragm 10 to form the independent invisible flat inclined orthodontic guide plate 17, as shown in fig. 8 and 9. The middle part of the invisible flat inclined plane orthodontic guide plate 17 is close to the inner side to form a flat inclined plane guide plate II 18 along the side wall, the upper surface of the flat inclined plane guide plate II 18 is close to the outer side to form a low plane II 19 along the annular direction, the upper surface of the flat inclined plane guide plate II 18 is close to the inner side to form a convex surface II 20 along the annular direction, an annular inclined plane II 21 is formed on the invisible flat inclined plane orthodontic guide plate 17 and is located between the low plane II 19 and the convex surface II 20, and the inclined plane II 21 is an inclined plane gradually rising from the outer side to the inner side.

The low plane II 19 on the flat inclined plane guide plate II 18 is lower than the top surface of the invisible flat inclined plane orthodontic guide plate 17, in the embodiment, the low plane II 19 is slightly lower than the top surface of the invisible flat inclined plane orthodontic guide plate 17, and the low plane II 19, the inclined plane II 21 and the convex plane II 20 are matched to realize that the lower jaw teeth 32 are better leaned against the upper jaw teeth 31 and bitten on the low plane II 19 of the flat inclined plane guide plate II 18. A cavity structure is formed between the flat inclined plane guide plate II 18 and the inner side of the invisible flat inclined plane orthodontic guide plate 17. The weight of the flat inclined guide plate II 18 can be greatly reduced, and the flat inclined guide plate II is more comfortable to wear.

The reinforcing ribs I27 are longitudinally or/and transversely arranged on the flat inclined guide plate I2, the reinforcing ribs II 33 are longitudinally or/and transversely formed on the flat inclined guide plate II 18, the specific arrangement position can be determined according to actual conditions, and if the reinforcing ribs II 33 are selected according to installation positions and the like, the supporting strength of the flat inclined guide plate II 18 can be greatly increased, and the flat inclined guide plate I2 is not easy to deform in use. In this embodiment, a mold groove is formed between adjacent reinforcing ribs I27, the width of the mold groove at the top of the flat inclined guide plate I2 is smaller than that of the mold groove at the bottom of the flat inclined guide plate I2, after the mold piece 10 part corresponding to the mold groove is molded in the mold groove, the width of the reinforcing rib II 33 at the top of the flat inclined guide plate II 18 is smaller than that of the reinforcing rib II 33 at the bottom of the flat inclined guide plate II 18, and the width of the reinforcing rib II 33 is small at the top and large at the bottom, so that the invisible flat inclined orthodontic guide plate 17 can be conveniently stripped from the dental jaw model 1. The flat inclined plane guide plate II 18 and the invisible flat inclined plane orthodontic guide plate 17 can be integrally formed, and the production cost can be greatly reduced during manufacturing.

The dental model 1 and the flat inclined guide plate I2 can also be formed in a split mode and then assembled, as shown in the figure 10, a clamping groove 34 is formed in one side, close to the flat inclined guide plate I2, of the dental model 1, the clamping groove 34 upwards penetrates through the upper portion of the dental model 1, a clamping block 35 is arranged on one side, close to the dental model 1, of the flat inclined guide plate I2, and the clamping block 35 on the flat inclined guide plate I2 slides into the clamping groove 34 in the dental model 1 from top to bottom. When the dental model is assembled, the clamping blocks 35 on the flat inclined plane guide plate I2 are clamped into the clamping grooves 34 from the top of the dental model 1 and slide downwards to the bottom of the clamping grooves 34. When the invisible flat inclined plane orthodontic guide plate 17 is manufactured and demoulded, the dental model 1 is firstly pulled out from the bottom of the invisible flat inclined plane orthodontic guide plate 17, and then the flat inclined plane guide plate II 18 on the invisible flat inclined plane orthodontic guide plate 17 is extruded or knocked, so that the flat inclined plane guide plate I2 can be demoulded from the side surface. The dental jaw model 1 and the flat inclined plane guide plate I2 are formed in a split mode, the clamping groove 34 and the clamping block 35 are matched, demolding is facilitated, the dental jaw model is not affected by the formed reinforcing rib II 33, and the formed reinforcing rib II 33 can be arranged longitudinally or/and transversely as shown in fig. 11. For the installation mode of the dental model 1 and the flat inclined plane guide plate I2, besides the cooperation of the clamping groove 34 and the clamping block 35 adopted in the embodiment, a buckling mode can also be adopted as long as smooth demoulding can be realized. One or more pairs of clamping grooves 34 on the dental model 1 and clamping blocks 35 on the plane inclined plane guide plate I2 are provided.

A flat inclined plane guide plate II 18 is arranged near the inner side of the middle part of an invisible flat inclined plane orthodontic guide plate 17, a low plane II 19, a convex surface II 20 and an inclined plane II 21 are formed on the upper surface of the flat inclined plane guide plate II 18, and the inclined plane II 21 is an inclined plane gradually rising from the outer side to the inner side. When the invisible flat inclined plane orthodontic guide plate 17 is used, the invisible flat inclined plane orthodontic guide plate 17 is worn on the upper teeth 31, and in the occlusion process of the upper teeth 31 and the lower teeth 32, when the lower front teeth contact the flat inclined plane guide plate II 18, the inclined plane of the flat inclined plane guide plate II 18 can guide the lower front teeth to slide forwards, so that the lower front teeth are occluded on the lower plane II 19 of the flat inclined plane guide plate II 18, as shown in fig. 12, the lower front teeth lip side inclination is effectively avoided or reduced.

Finally, although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that various changes and modifications may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (8)

1. The manufacturing method of the invisible flat inclined plane orthodontic guide plate is characterized by comprising the following steps:

1) Making a model

The method comprises the following steps that a dental jaw model (1) is manufactured through a digital oral cavity scanning technology, a flat inclined plane guide plate I (2) is arranged on the middle portion, close to the inner side, of the dental jaw model (1) and along the side wall, a low plane I (3) is formed on one side, close to the dental jaw model (1), of the upper surface of the flat inclined plane guide plate I (2), a convex surface I (4) is formed on the upper surface, close to the inner side, of the flat inclined plane guide plate I (2) and along the annular direction, an annular inclined plane I (5) is formed on the dental jaw model (1) and located between the low plane I (3) and the convex surface I (4), and the inclined plane I (5) is an inclined plane gradually rising from the outer side to the inner side;

2) making a template

A plurality of rows of through holes I (7) which are parallel to each other are arranged on the template (6);

3) mounting the dental model (1) on a template (6);

4) using a mouth retainer film pressing machine (8), rotating an upper cover (9) of the mouth retainer film pressing machine (8) open, putting a diaphragm (10) between an upper sleeve frame (11), and pulling down a ball head pull rod (12) to clamp the diaphragm; resetting the upper cover (9), and pressing down the lifting wrench (13) to lift the sleeve frame (11); then placing the template (6) provided with the dental jaw model (1) on a screen plate (15) in a lower frame (14), starting a heating switch (16), heating the diaphragm (10), turning off the heating switch (16) when the diaphragm (10) is heated to be lower than the plane of the lower frame (14), putting down the sleeve frame (11), simultaneously starting a vacuum motor, gradually sleeving the heated diaphragm (10) on the dental jaw model (1) during downward vacuum pumping, and forming an invisible flat inclined orthodontic guide plate (17) on the diaphragm (10); after the invisible flat inclined plane orthodontic guide plate (17) is formed, the vacuum motor is closed;

5) Taking out the template (6), and taking the formed membrane (10) down from the template (6);

6) cutting the invisible flat inclined plane orthodontic guide plate (17) from the formed membrane (10) to form an independent invisible flat inclined plane orthodontic guide plate (17); the middle part of the orthodontic guide plate with the invisible flat inclined plane (17) is leaned on the inner side to form a flat inclined plane guide plate II (18) along the side wall, the upper surface of the flat inclined plane guide plate II (18) is leaned on the outer side to form a low plane II (19) along the annular direction, the upper surface of the flat inclined plane guide plate II (18) is leaned on the inner side to form a convex surface II (20) along the annular direction, the orthodontic guide plate with the invisible flat inclined plane (17) is arranged on the low plane II (19) and the convex surface II (20) to form an annular inclined plane II (21), and the inclined plane II (21) is an inclined plane gradually increased from the outer side to the inner side.

2. The manufacturing method of the invisible flat inclined orthodontic guide plate according to claim 1, characterized in that a cavity (22) is arranged in the dental model (1) along the annular direction, an opening is formed at the bottom of the cavity (22) in the dental model (1), a through hole II (23) and a through hole III (24) are arranged on the dental model (1), one end of the through hole II (23) and one end of the through hole III (24) are respectively communicated with the cavity (22), the other end of the through hole II (23) extends to the upper surface of the lower plane I (3), and the other end of the through hole III (24) extends to the lower surface of the flat inclined guide plate I (2).

3. The manufacturing method of the invisible flat inclined orthodontic guide plate according to the claim 1, characterized in that the bottom of the dental model (1) near to two ends is respectively provided with an installation piece (25), and the installation piece (25) is provided with a through hole IV (26); the template (6) is provided with a threaded hole (28), and after the dental model (1) is placed on the template (6), a screw (29) passes through a through hole IV (26) on the mounting sheet (25) and is screwed in the threaded hole (28).

4. The method for manufacturing the invisible flat-inclined orthodontic guide plate according to claim 1, wherein the lower plane II (19) on the flat-inclined guide plate II (18) is lower than the top surface of the invisible flat-inclined orthodontic guide plate (17).

5. The method for manufacturing the invisible flat inclined orthodontic guide plate according to the claim 1, wherein a cavity structure is formed between the flat inclined guide plate II (18) and the inner side of the invisible flat inclined orthodontic guide plate (17).

6. The method for manufacturing the invisible flat inclined orthodontic guide plate according to any one of claims 1 to 5, wherein reinforcing ribs I (27) are longitudinally or/and transversely arranged on the flat inclined guide plate I (2), and reinforcing ribs II (33) are longitudinally or/and transversely formed on the flat inclined guide plate II (18).

7. The method for manufacturing the invisible flat inclined orthodontic guide plate according to claim 6, wherein the flat inclined guide plate II (18) and the invisible flat inclined orthodontic guide plate (17) are integrally formed.

8. The manufacturing method of the invisible flat inclined plane orthodontic guide plate as claimed in any one of claims 1 to 7, wherein a clamping groove (34) is formed in one side, close to the flat inclined plane guide plate I (2), of the dental model (1), the clamping groove (34) penetrates through the upper portion of the dental model (1) upwards, a clamping block (35) is arranged on one side, close to the dental model (1), of the flat inclined plane guide plate I (2), and the clamping block (35) on the flat inclined plane guide plate I (2) slides into the clamping groove (34) on the dental model (1) from top to bottom; the clamping grooves (34) on the dental model (1) and the clamping blocks (35) on the flat inclined plane guide plate I (2) form one or more pairs.

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