CN113974873A - Bracket positioner design system and bracket bonding method - Google Patents

Abstract

The invention relates to the technical field of bracket positioners and discloses a bracket positioner design system and a bracket bonding method, wherein the automatic positioning system is formed by combining S1-S6, and the S1 teeth are cut; s2 simulating tooth arrangement; s3, adjusting the position; s4 positioning; s5 parameterization of a model; s6 generating a positioner, transmitting data to a 3D printing assembly through a wireless signal according to the data generated by parameters of the integral model, generating the positioner through the 3D printing assembly, determining the optimal position of a bracket through simulated tooth arrangement adopted by an automatic positioning system, realizing personalized generation of the bracket positioner through model parameterization design, so that the bracket positioner can improve the positioning precision of bracket sticking, realize the personalized positioning of patients based on standard brackets, reduce the working strength of technicians and doctors, reduce the production cost and the production period of the bracket sticking template, and effectively reduce and reduce orthodontic side effect caused by bracket positioning deviation.

Description

Bracket positioner design system and bracket bonding method

Technical Field

The invention relates to the technical field of building decorative plates, in particular to a bracket positioner design system and a bracket bonding method.

Background

The prior art is used for fixing orthodontic brackets and pasting and positioning the orthodontic brackets:

1. direct sticking-a doctor directly sticks a bracket according to the tooth condition of a patient (the sticking position and the bottom plate angle of the bracket are judged according to the experience of a clinician);

2. indirect pasting (3D printing indirect pasting guide method):

digitizing the patient model;

aligning teeth in software;

carrying out bracket positioning and adjustment on the digital model, and adding bracket position mark points;

printing the dental model, the bracket positioning mark and the indirect positioning guide plate frame;

temporarily mounting the bracket on the printing model;

transferring the bracket on the model to a bracket indirect positioning template, and positioning by using silica gel;

and seventhly, pasting the intraoral bracket of the patient by the clinician through the indirect positioning guide plate.

3. Indirect sticking (hot press molding indirect sticking guide plate method):

digitizing the patient model;

aligning teeth in the middle of software;

carrying out bracket positioning and adjustment on the digital model, and adding bracket position mark points;

printing the dental model and the bracket positioning mark;

temporarily mounting the bracket on the printing model;

transferring the bracket to the polymer membrane by hot press molding;

and seventhly, pasting the intraoral bracket of the patient by the clinician through the indirect positioning guide plate.

The problems that exist are that:

1. the direct pasting mode depends on more clinical experience of doctors, the position is selected and positioned, and the time consumption for adjustment is long;

2. the indirect pasting mode (3D printing) needs to print a model and carry out simulation pasting in a technician room of a bracket, has high requirements on technicians, adopts a silica gel positioning mode, is easy to cause the problems of falling off of accessories in the transportation process and the like, and influences the positioning precision;

3. the indirect sticking mode (hot-pressing forming mode) increases the hot-pressing forming process compared with the 3D printing mode, has certain technical requirements on the hot-pressing forming process, increases the workload of a technician room, simultaneously lowers the positioning precision after the hot-pressing forming, and easily causes the problems of separation, dislocation and the like of a bracket and a diaphragm in the transportation and bonding processes, so that the working requirements of a bracket positioner design system and a bracket bonding method cannot be met, and the bracket positioner design system and the bracket bonding method are provided.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a bracket positioner design system and a bracket bonding method, so as to solve the technical problems.

(II) technical scheme

In order to achieve the purpose, the invention provides the following technical scheme: a bracket locator design system and a bracket bonding method comprise a design system main body, wherein a multifunctional base is fixedly installed at the bottom of the design system main body, the multifunctional base is cuboid, storage cavities are respectively formed in two sides of the lower portion of the multifunctional base, lifting wheels are screwed in the inner cavities of the storage cavities through threads, an electric box is embedded in the middle of the inner cavity of the multifunctional base through threads, a system component is embedded in the left side of the upper surface of the multifunctional base through threads, a main control screen is embedded in the front end of the system component through threads, a main control box is embedded in the rear portion of the system component through threads, a 3D printing component is embedded in the right side of the upper surface of the multifunctional base through threads, a printing cavity is formed in the left side of the 3D printing component through threads, and a raw material box is fixedly installed on the right side of the 3D printing component through threads, the outside of 3D print assembly has outer frame through screw thread fixed mounting, the outer wall right side of 3D print assembly has the bonding step through magnetism piece absorption.

Preferably, the accommodating cavity is a cylinder, and the lifting wheels are formed by combining an electric lifter on the upper part and a universal wheel on the lower part.

Preferably, the outside of system's subassembly is through the fixed outer casing that inlays of screw thread, outer casing is the cuboid, outer casing is formed by the combination of ABS engineering plastics, the main control screen passes through the fixed front end that inlays of screw thread and adorns in outer casing, the main control case passes through the fixed rear portion that inlays of inner chamber of threaded fixed dress in outer casing, the lower part fixed dress of outer casing has infrared keyboard.

Preferably, the interior of the main control box is provided with an automatic positioning system through software, the automatic positioning system is formed by combining S1-S6,

s1 tooth segmentation;

s2 simulated tooth arrangement

Tooth arrangement is carried out according to the standard of a normal jaw of clinical medicine through an automatic positioning system, and the six elements of Andrews are as follows: relationship between upper and lower dental arches and occlusal contact relationship, inclination of teeth in the mesial and distal directions (crown angle, axial inclination), inclination of teeth in the labial, buccal and lingual directions (crown inclination, crown torque), rotation, contact of adjacent surfaces and curves;

s3 position adjustment

The position of the bracket on the dental crown is adjusted simultaneously by simulating the tooth arrangement of the target position and the matching of the bracket and the standard arch wire;

s4 position location

The optimal fit of the positions of the brackets on the dental crowns is carried out by simulating the matching of the tooth arrangement and the brackets at the target position with the standard arch wire, so as to realize the positioning of the brackets;

s5 model parameterization

Generating parameters of the integral model through the basic structure and by simultaneously referring to the spatial position relation between the connecting part on the bracket and the basic structure and the position relation between the connecting part and the dental crown;

s6 generating locator

And transmitting the data to the 3D printing component through a wireless signal according to the data generated by carrying out parameter generation on the integral model, and generating the locator through the 3D printing component.

Preferably, the inner chamber upper portion of printing the chamber has connect the horizontal sliding rod through the screw thread soon, the both ends of horizontal sliding rod are all inlayed and are equipped with the front and back sliding rod, the fixed block is all installed at the both ends of front and back sliding rod, the surface of horizontal sliding rod is inlayed and is equipped with the printing shower nozzle, the upper portion inner wall of printing the shower nozzle is inlayed and is equipped with the solenoid valve, the middle part inner wall of printing the shower nozzle runs through to inlay and is equipped with the electric plate, the bottom screw thread of printing the shower nozzle has connect the shower nozzle soon, the inner chamber both sides fixed mounting in printing the chamber has vertical sliding rod, the surface of vertical sliding rod all inlays and is equipped with the sliding block, inhale the fixed plate through threaded connection heating magnetism between the sliding block.

Preferably, a motion logic main control chip assembly is installed on the lower portion of the raw material box, and a remote wireless control system is installed on the right side of the motion logic main control chip assembly.

Preferably, outer frame is the cuboid, outer frame is formed by the combination of metal steel, all fixed the inlaying between the outer frame is equipped with toughened glass, it inlays the inner chamber left side of installing in outer frame through the screw thread to print the chamber, the raw materials tank passes through the screw thread fixation and inlays the inner chamber right side of installing in outer frame, the inner chamber upper portion fixed mounting of outer frame has constant temperature filtration system.

Preferably, the bonding step is a combination of S7-S9,

s7 impression jaw model;

s8 temporary bonding brackets on the dental model;

the S9 bracket was wrapped with a water soluble adhesive and transferred into the cavity of the positioner.

(III) advantageous effects

Compared with the prior art, the invention provides a bracket positioner design system and a bracket bonding method, which have the following beneficial effects:

1. the bracket positioner design system and the bracket bonding method determine the optimal position of a bracket through simulated tooth arrangement adopted by an automatic positioning system, generate the positioner through parameterization, improve the controllability, the precision and the efficiency of bracket positioning and bonding, determine the adding position of the bracket and the inclination angle of a bottom plate through tooth alignment, and realize the personalized generation of the bracket positioner through model parameterization design, so that the bracket positioner can improve the positioning precision of bracket bonding, realize the personalized positioning and bonding of patients based on standard (commercial) brackets, improve the controllability of bracket bonding, reduce the technicians and the working strength of doctors, reduce the production cost and the period of bracket bonding templates, and effectively reduce and reduce the orthodontic side acting force generated by bracket positioning deviation.

2. This support groove locator design system and support groove bonding method, make the constant temperature of 3D printer through the form that adopts constant temperature filtration system, moisturize and the filtration of air and promote, heating magnetism is inhaled the fixed plate and is made the steadiness of locator promote, add the flow that the solenoid valve of establishing can control printing shower nozzle blowout raw materials, the quantity that is used for calculating this locator, avoid the shower nozzle ejection of compact too much simultaneously, lead to the rocking of printing the shower nozzle, it has strengthened the plasticity of raw materials simultaneously to be equipped with the electric plate and is used for controlling the softening of raw materials, the solenoid valve makes the stability of printing the shower nozzle ejection of compact under the composite state with the electric plate combination, controllability and automatic heating obtain further promotion, it has the printing that the shower nozzle can be accurate under the composite state to add the design of having motion logic main control chip and long-range wireless control system structure.

Drawings

FIG. 1 is a schematic view of the internal structure of the body of the slot locator design system of the present invention;

FIG. 2 is a schematic structural view of a slot locator design system component of the present invention;

FIG. 3 is a schematic flow chart of a slot locator design system of the present invention;

FIG. 4 is a flow chart illustrating a bracket bonding method according to the present invention.

In the figure: 1. designing a system main body; 2. a system component; 3. a 3D printing assembly; 11. a multifunctional base; 12. a receiving cavity; 13. a lifting wheel; 14. an electric box; 21. a master control screen; 22. a master control box; 23. an outer housing; 24. an infrared keyboard; 25. an automatic positioning system; 31. a printing chamber; 32. a raw material tank; 33. an outer frame; 34. a bonding step; 35. and printing the spray head.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The invention provides a technical scheme, in particular to a bracket positioner design system and a bracket bonding method, which comprise a design system main body 1, a system component 2, a 3D printing component 3, a multifunctional base 11, a containing cavity 12, lifting wheels 13, an electric box 14, a main control screen 21, a main control box 22, an outer shell 23, an infrared keyboard 24, an automatic positioning system 25, a printing cavity 31, a raw material box 32, an outer frame 33, a bonding step 34 and a printing spray head 35, referring to figure 1, the bottom of the design system main body 1 is fixedly provided with the multifunctional base 11, the multifunctional base 11 is cuboid, the two sides of the lower part of the multifunctional base 11 are respectively provided with the containing cavity 12, the inner cavity of the containing cavity 12 is respectively screwed with the lifting wheels 13 through threads, the containing cavity 12 is cylindrical, the lifting wheels 13 are respectively formed by combining an electric lifter on the upper part and a universal wheel on the lower part, the electric box 14 is fixedly arranged in the middle of the inner cavity of the multifunctional base 11 through threads, the right side of the upper surface of the multifunctional base 11 is embedded with a 3D printing component 3 through thread fixing, the left side of the 3D printing component 3 is provided with a printing cavity 31 through thread fixing, the right side of the 3D printing component 3 is provided with a raw material box 32 through thread fixing, the outside of the 3D printing component 3 is provided with an outer frame 33 through thread fixing, the right side of the outer wall of the 3D printing component 3 is adsorbed with a bonding step 34 through a magnetic suction block, the upper part of the inner cavity of the printing cavity 31 is screwed with a transverse sliding rod through threads, both ends of the transverse sliding rod are embedded with a front sliding rod and a rear sliding rod, both ends of the front sliding rod and the rear sliding rod are provided with fixing blocks, the outer surface of the transverse sliding rod is embedded with a printing nozzle 35, the inner wall of the upper part of the printing nozzle 35 is embedded with an electromagnetic valve, the inner wall of the middle part of the printing nozzle 35 is embedded with an electric heating plate in a penetrating way, the thread of the bottom of the printing nozzle 35 is screwed with a nozzle, both sides of the inner cavity of the printing cavity 31 are fixedly provided with longitudinal sliding rods, the outer surface of longitudinal sliding rod all inlays and is equipped with the sliding block, inhale the fixed plate through threaded connection with heating magnetism between the sliding block, the motion logic main control chip subassembly is installed to the lower part of raw material tank 32, remote wireless control system is installed on the right side of motion logic main control chip, outer frame 33 is the cuboid, outer frame 33 is formed by the metal steel combination, all fixed the inlaying has toughened glass between the outer frame 33, it inlays in the inner chamber left side of outer frame 33 through the screw thread to print chamber 31, raw material tank 32 inlays in the inner chamber right side of outer frame 33 through threaded connection, the inner chamber upper portion fixed mounting of outer frame 33 has constant temperature filtration system.

Referring to fig. 2, a system component 2 is fixedly embedded on the left side of the upper surface of the multifunctional base 11 through threads, a main control screen 21 is fixedly embedded at the front end of the system component 2 through threads, a main control box 22 is fixedly embedded at the rear end of the system component 2 through threads, an outer casing 23 is fixedly embedded outside the system component 2 through threads, the outer casing 23 is cuboid, the outer casing 23 is formed by combining ABS engineering plastics, the main control screen 21 is fixedly embedded at the front end of the outer casing 23 through threads, the main control box 22 is fixedly embedded at the rear end of an inner cavity of the outer casing 23 through threads, and an infrared keyboard 24 is fixedly embedded at the lower part of the outer casing 23.

Referring to fig. 3, the automatic positioning system 25 is installed inside the main control box 22 through software, the automatic positioning system 25 is formed by combining S1-S6,

s1 tooth segmentation;

s2 simulated tooth arrangement

Tooth arrangement is performed by an automatic positioning system 25 according to the standard of a normal jaw of clinical medicine, Andrews six elements: the relationship between the upper and lower dental arches and the occlusal contact relationship, the proximal and distal oblique crown angles of the teeth, the inclination of the axis, the inclination of the labial, buccal and lingual oblique crowns of the teeth, the crown torque, the rotation, the adjacent surface contact and the curve;

s3 position adjustment

The position of the bracket on the dental crown is adjusted simultaneously by simulating the tooth arrangement of the target position and the matching of the bracket and the standard arch wire;

s4 position location

The optimal fit of the positions of the brackets on the dental crowns is carried out by simulating the matching of the tooth arrangement and the brackets at the target position with the standard arch wire, so as to realize the positioning of the brackets;

s5 model parameterization

Generating parameters of the integral model through the basic structure and by simultaneously referring to the spatial position relation between the connecting part on the bracket and the basic structure and the position relation between the connecting part and the dental crown;

s6 generating locator

And transmitting the data to the 3D printing component through a wireless signal according to the data generated by carrying out parameter generation on the integral model, and generating the locator through the 3D printing component.

Referring to fig. 4, the bonding step 34 is composed of S7-S9,

s7 impression jaw model;

s8 temporary bonding brackets on the dental model;

the S9 bracket was wrapped with a water soluble adhesive and transferred into the cavity of the positioner.

The working principle of the device is as follows: the optimal position of the bracket is determined by simulating tooth arrangement adopted by the automatic positioning system 25, the positioner is generated through parameterization to improve the controllability, the precision and the efficiency of bracket positioning and sticking, the adding position of the bracket and the inclination angle of the bottom plate are determined through tooth arrangement, meanwhile, the individualized generation of the bracket positioner is realized through model parameterization design, so that the bracket positioner can improve the positioning precision of bracket sticking, realize the individualized positioning and sticking of patients based on standard (commercial) brackets, improve the controllability of bracket sticking, reduce the craftsman and the working strength of doctors, reduce the production cost and the period of the bracket sticking template, effectively reduce and reduce the orthodontic side effect caused by bracket positioning deviation, and improve the constant temperature, moisture retention and air filtration of the 3D printer by adopting a constant temperature filtration system, the heating magnetic suction fixing plate can improve the stability of the positioner, the constant temperature structure can refer to the prior loose six constant temperature system on the market, the electromagnetic valve can control the flow of the raw material sprayed by the printing nozzle 35 and is used for calculating the using amount of the positioner, and meanwhile, the phenomenon that the printing nozzle 35 shakes due to excessive discharge of the nozzle is avoided, the electric heating plate is arranged for controlling the softening of the raw material and simultaneously enhancing the plasticity of the raw material, the electromagnetic valve and the electric heating plate are combined to further improve the stability, controllability and automatic heating performance of the discharge of the printing nozzle 35 in a combined state, the heating magnetic suction fixing plate is additionally provided with a motion logic main control chip and a remote wireless control system structure to ensure that the printing nozzle 35 can accurately print in the combined state, the positioner in the forming process is provided with a fixing plate for bearing the positioner through the design of the heating magnetic suction fixing plate, and the heating structure can control the plasticity of the raw material of the positioner in the forming process, the magnetic attraction structure can be used for adsorbing metal raw materials with magnetism in the positioner, and the motion logic main control chip can refer to a DCS (distributed control system), an FCS (field bus control system) or a PLC (programmable logic controller) distributed I/O (input/output) system and the like which are common in the market.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides a bracket locator design system and bracket bonding method, includes design system main part (1), its characterized in that: the multifunctional base (11) is fixedly installed at the bottom of the design system main body (1), the multifunctional base (11) is a cuboid, the storage cavities (12) are respectively formed in two sides of the lower portion of the multifunctional base (11), the inner cavities of the storage cavities (12) are respectively screwed with the lifting wheels (13) through threads, the electric box (14) is embedded in the middle of the inner cavity of the multifunctional base (11) through thread fixing, the system component (2) is embedded in the left side of the upper surface of the multifunctional base (11) through thread fixing, the main control screen (21) is embedded in the front end of the system component (2) through thread fixing, the main control box (22) is embedded in the rear portion of the system component (2) through thread fixing, the 3D printing component (3) is embedded in the right side of the upper surface of the multifunctional base (11) through thread fixing, the printing cavity (31) is formed in the left side of the 3D printing component (3) through thread fixing, the right side of 3D print assembly (3) has raw materials case (32) through screw fixed mounting, the outside of 3D print assembly (3) has outer frame (33) through screw fixed mounting, the outer wall right side of 3D print assembly (3) has bonding step (34) through magnetism absorption piece absorption.

2. The bracket locator design system and the bracket bonding method of claim 1, wherein: the accommodating cavity (12) is a cylinder, and the lifting wheels (13) are formed by combining an electric lifter on the upper part and a universal wheel on the lower part.

3. The bracket locator design system and the bracket bonding method of claim 1, wherein: the outside of system's subassembly (2) is inlayed through the thread tightening and is equipped with outer casing (23), outer casing (23) are the cuboid, outer casing (23) are formed by ABS engineering plastics combination, main control screen (21) are inlayed in the front end of outer casing (23) through the thread tightening, main control box (22) are inlayed in the inner chamber rear portion of outer casing (23) through the thread tightening, the fixed infrared keyboard (24) that are inlayed in the lower part of outer casing (23).

4. The bracket locator design system and the bracket bonding method of claim 1, wherein: the interior of the main control box (22) is provided with an automatic positioning system (25) through software, the automatic positioning system (25) is formed by combining S1-S6,

s1 tooth segmentation;

s2 simulated tooth arrangement

Tooth arrangement is carried out according to the standard of a normal jaw of clinical medicine through an automatic positioning system (25), and Andrews six elements: relationship between upper and lower dental arches and occlusal contact relationship, inclination of teeth in the mesial and distal directions (crown angle, axial inclination), inclination of teeth in the labial, buccal and lingual directions (crown inclination, crown torque), rotation, contact of adjacent surfaces and curves;

s3 position adjustment

The position of the bracket on the dental crown is adjusted simultaneously by simulating the tooth arrangement of the target position and the matching of the bracket and the standard arch wire;

s4 position location

The optimal fit of the positions of the brackets on the dental crowns is carried out by simulating the matching of the tooth arrangement and the brackets at the target position with the standard arch wire, so as to realize the positioning of the brackets;

s5 model parameterization

Generating parameters of the integral model through the basic structure and by simultaneously referring to the spatial position relation between the connecting part on the bracket and the basic structure and the position relation between the connecting part and the dental crown;

s6 generating locator

And transmitting the data to the 3D printing component through a wireless signal according to the data generated by carrying out parameter generation on the integral model, and generating the locator through the 3D printing component.

5. The bracket locator design system and the bracket bonding method of claim 1, wherein: it has horizontal sliding rod to connect soon through the screw thread on the inner chamber upper portion of printing chamber (31), the both ends of horizontal sliding rod are all inlayed and are equipped with the front and back sliding rod, the fixed block is all installed at the both ends of front and back sliding rod, the surface of horizontal sliding rod is inlayed and is equipped with printing shower nozzle (35), the upper portion inner wall of printing shower nozzle (35) is inlayed and is equipped with the solenoid valve, the middle part inner wall of printing shower nozzle (35) runs through to inlay and is equipped with the electric plate, the bottom screw thread of printing shower nozzle (35) has connect the shower nozzle soon, the inner chamber both sides fixed mounting of printing chamber (31) has vertical sliding rod, vertical sliding rod's surface all inlays and is equipped with the sliding block, there is the fixed plate of heating magnetism through threaded connection between the sliding block.

6. The bracket locator design system and the bracket bonding method of claim 1, wherein: the lower part of the raw material box (32) is provided with a motion logic main control chip assembly, and the right side of the motion logic main control chip is provided with a remote wireless control system.

7. The bracket locator design system and the bracket bonding method of claim 1, wherein: outer frame (33) are the cuboid, outer frame (33) are formed by the metal steel combination, all fixed the inlaying between outer frame (33) is equipped with toughened glass, print chamber (31) and inlay the inner chamber left side of adorning in outer frame (33) through the screw thread, head box (32) are inlayed in the inner chamber right side of outer frame (33) through the screw thread fastening, the inner chamber upper portion fixed mounting of outer frame (33) has constant temperature filtration system.

8. The bracket locator design system and the bracket bonding method of claim 1, wherein: the bonding step (34) is a combination of S7-S9,

s7 impression jaw model;

s8 temporary bonding brackets on the dental model;

the S9 bracket was wrapped with a water soluble adhesive and transferred into the cavity of the positioner.

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