CN219629825U - Multifunctional navigation tool for full-mouth planting - Google Patents

Abstract

The utility model discloses a full-port planting multifunctional navigation tool, which relates to the technical field of full-port planting, and particularly relates to a full-port planting multifunctional navigation tool. By applying the technology, the requirement of experience of clinicians is greatly reduced, and the accuracy of implant implantation is greatly improved. Through the application of the technology, a clinician has more visual predictability for later repair. Through the accessory that this patent technique provided, clinician need not to shift the mode such as and acquires the positional data of planting body, can directly perceivedly select the base station of corresponding model, from this with repair time significantly reduced, and improved work efficiency.

Description

Multifunctional navigation tool for full-mouth planting

Technical Field

The utility model relates to the technical field of full-mouth planting, in particular to a full-mouth planting multifunctional navigation tool.

Background

At present, the dental implant technology is mature day by day, the popularity is improved year by year, the dental implant technology brings more convenience for patients, and the dental implant technology shows irreplaceable effects on the recovery function. One technology from birth to perfection requires continuous exploration and research by a large number of technicians to be more perfect.

Through clinical verification and with the deep clinical application and research, the following defects are found in the planting and repairing process: the whole mouth has no teeth or serious teeth are missing, and the life quality and physical and mental health of the old are greatly damaged. By the scheme of full-mouth implant restoration, the problem that a dentognathic patient cannot eat normally can be solved effectively and fundamentally, and the high-efficiency function of the dental implant greatly improves the life quality of the dentognathic patient. The traditional planting scheme needs a clinician to have enough experience accumulation to finish the planting, and the direction, the position and the like of the controlled implant cannot be accurately controlled in the operation, so that uncertainty in the operation process is increased, predictability in later-stage repair is greatly reduced, the final planting repair effect is seriously deviated from the expectation of the clinician, the traditional planting repair mode needs to acquire data of the implant position after the implant implantation operation is performed on a patient, a proper repair base is selected, and the normal occlusion and other functions of the patient can be realized after the manufactured repair body is installed. Wherein, the position data information of the implant needs to be transferred to the outside of the mouth by a clinician by using a series of tools or accessories such as a transfer rod, a substitute and the like, the position data of the implant is judged and identified by using a special scanner or equipment, the proper repair base or the manufactured base is selected according to the position data, the manufacturing of the implant repair body is continued, after the clinician sends the patient intraoral data or the actual model information to a dental laboratory, the dental technician selects the proper base or the manufactured base according to the actual condition of the patient, and then sends the patient to the doctor again, if the base or the manufactured base selected according to the actual condition of the data is an angle base, the clinician often cannot find the positioning direction and the specific position of the angle base in the patient mouth due to limited visual field or occlusion space obstacle, the occurrence of a series of conditions such as unsetting is caused, poor planting and repairing experience is brought to a patient, when the traditional planting guide plate is used, the patient is required to open a mouth to a sufficient width, the planting guide plate can be placed in the mouth of the patient, however, the opening degree of part of patients is insufficient or the arc degree of dental arch is limited, the planting guide plate can not be applied to patients with various occlusion types or large arc degree deviation, the planting guide plate adaptability is greatly reduced, meanwhile, the heat dissipation problem caused by rotation of a dental drill in the planting operation is greatly influenced by the characteristics of the structure of the traditional planting guide plate, a clinician is required to repeatedly lift and press the planting guide plate in the drilling process of the dental drill, the planting efficiency is greatly reduced, and the mouth opening time of the patient is increased.

Disclosure of Invention

(one) solving the technical problems

Aiming at the defects of the prior art, the utility model provides a full-mouth planting multifunctional navigation tool, which solves the problems in the background art.

(II) technical scheme

In order to achieve the above purpose, the utility model is realized by the following technical scheme: the utility model provides a multifunctional navigation instrument is planted to full mouth, includes upper portion screw thread fastening structure, main part screw thread fastening structure, annex passageway structure, annex view the structure, bolt location structure, limit structure portion, navigation instrument bolt passageway, nut cooperation structure, accessory location structure, navigation instrument main part structure, navigation instrument identification structure, annex elastic plate includes: a midline identification structure, an angle identification structure and a model identification structure; a fitting main bolt comprising: a main bolt fastening thread and a main bolt anti-skid structure; accessory slave bolt includes: a secondary bolt tightening thread, an anti-rotation retention feature; a fitting nut, comprising: an internal thread structure and a nut anti-slip structure; a functional assembly, comprising: the device comprises a zero degree identification structure, an angle alpha identification structure, an angle beta identification structure, a component bolt channel, a rotating structure part, a base station matching structure and a base station reinforcing structure; a composite base station retaining rod, a threaded reinforcing structure, a retaining rod anti-skid structure and a retaining rod wrench groove; a measuring line structure, a distance L identification structure and an implant connection structure.

Optionally, the upper thread fastening structure is located at the top of the main body structure of the navigation tool, is directly connected with the accessory channel structure and is coaxially arranged, and the thread specification series are M1.4-M1.6-M1.8 respectively; the main body thread fastening structure is arranged in the middle of the right front of the main body structure of the navigation tool, is arranged vertically to the upper thread fastening structure, is in uniform specification with the upper thread fastening structure, and has thread specification series of M1.4-M1.6-M1.8 respectively; the accessory channel structure is arranged on the side surface of the main body structure of the navigation tool and is communicated with the main body structure of the navigation tool, so that the accessory elastic plate can pass through the main body structure of the navigation tool, the whole height of the accessory channel structure is 9mm-13.5mm, and the width of the accessory channel structure is 0.5mm-0.8mm; the accessory checking structure is positioned on the front surface of the main body structure of the navigation tool and is intersected with the accessory channel structure, so that the specific position of the accessory elastic plate is checked in the accessory elastic plate after the accessory elastic plate passes through the accessory channel structure, the whole height of the accessory checking structure is 6mm-9mm, and the width of the accessory checking structure is 0.4mm-0.6mm.

Optionally, when the auxiliary bolt passes through the bolt retention structure, the anti-rotation retention structure can realize the anti-rotation effect in the structure; the bolt retaining structure is a regular polygon structure, the limiting structure part is positioned on the front surface of the navigation tool accessory retaining structure and penetrates through the navigation tool accessory retaining structure, the structural characteristics of the limiting structure part realize the anti-displacement effect of the functional component, and meanwhile, the clamping effect on the functional component is realized due to the characteristics of the penetrating structure; the navigation tool bolt channel is coaxial with the bolt retention structure and penetrates through the bolt retention structure, so that a screw rod of the auxiliary bolt can pass through the navigation tool bolt channel conveniently; the nut matching structure is positioned on the side surface of the navigation tool accessory retention structure and is arranged like a counter bore, and the counter bore is arranged so that the nut is tightly attached to the nut matching structure when screwed; the accessory retention structure is positioned below the main body structure of the navigation tool, and the bottom arc shape of the accessory retention structure is matched with the upper part of the functional component; the cross section of the main body structure of the navigation tool is rectangular, and the intersecting parts of all planes are subjected to fillet chamfering treatment, so that the conditions of scratching soft tissues and the like can be avoided when the navigation tool is placed in a mouth of a patient.

Optionally, the nut matching structure is located on the side surface of the navigation tool accessory retention structure and is a counter bore-like structure, and the counter bore-like structure enables the nut to be tightly attached to the nut matching structure when the nut is screwed; the accessory retention structure is positioned below the main body structure of the navigation tool, and the bottom arc shape of the accessory retention structure is matched with the upper part of the functional component; the cross section of the main body structure of the navigation tool is rectangular, and the intersection of each plane is subjected to fillet chamfering treatment, so that the conditions of scratching soft tissues and the like can be avoided when the navigation tool is placed in a mouth of a patient; the navigation tool identification structure is positioned at the bottom of the navigation tool accessory retention structure and is arranged in line with the central axis of the side surface of the navigation tool; the shape is an isosceles triangle, the vertex angle faces to the bottom to play a role in indication, and the angle of the vertex angle is 15-30 degrees; the integral form of the elastic plate is set based on the actual arc form of the dental arch, and the elastic plate is respectively provided with a midline mark structure, an angle mark structure and a model mark structure, and marks are displayed by laser etching; information such as laser etching position, direction and distance respectively corresponds to side incisors, first premolars and first molars on the arc of the dental arch, and is symmetrically arranged relative to a central line identification structure; the thickness of the elastic plate is 0.2mm-0.4mm; the angle sign structure includes: three angles of 0 degree, 17 degree and 30 degree can be directly selected after planting is finished; the model identification structure comprises three specifications, namely: w type, R type, N type, clinician can select the elastic plate of corresponding model according to patient's interlock condition and dental arch radian, and adaptability greatly promotes.

Optionally, the main bolt anti-slip structure is arranged at the maximum diameter edge of the main bolt, so that friction force can be increased, and the main bolt fastening thread of the main bolt can be screwed into the upper thread fastening structure or the main body thread fastening structure; the thread specification series are M1.4-M1.6-M1.8 respectively; the anti-rotation retention structure of the auxiliary bolt is matched with the navigation tool bolt retention structure to realize the position fixation of the anti-rotation retention structure, and the auxiliary bolt fastening threads can penetrate the navigation tool accessory retention structure and the functional component through the bolt channel; the anti-skid structure of the nut can be easily realized; the internal thread structure is in threaded connection with the fastening threads of the auxiliary bolt, and the position locking of the functional component is realized;

optionally, the zero degree identification structure of the side surface of the functional component is arranged at the collinear position of the central axis of the side surface, and the angle alpha identification structure and the angle beta identification structure on the zero degree identification structure are symmetrically arranged relative to the central axis; the component bolt channel is arranged in a side through way, so that the passage of the auxiliary bolt can be realized; the rotating structure is positioned on the side surface of the functional component, the bottom of the rotating structure is in an arc shape and is symmetrically arranged relative to the central axis of the front surface of the functional component; the base station matching structure is positioned at the bottom of the functional component, and the structural form of the base station matching structure can be selected according to the used repairing base station; the zero-degree mark structure is in the shape of an isosceles triangle, the vertex angle faces the top, the indication function is achieved, and the vertex angle is 15-30 degrees; the angle alpha mark structure is offset by 17 degrees relative to the center of a component bolt channel on the central axis and is symmetrically arranged according to the central axis of the side surface of the functional component; the angle beta mark structure is offset relative to the center of a component bolt channel on the central axis and symmetrically arranged according to the central axis of the side surface of the functional component; the component bolt channel can enable the navigation tool accessory retention structure to rotate a designated angle around the circle center position of the structure after being connected with the functional component;

Optionally, the relative distance of the front surface of the rotating structure part is smaller than that of the limiting structure part of the navigation tool, the bottom of the structure is in an arc shape, and the arc size is larger than that of the bottom of the limiting structure part, so that the rotating structure part of the functional component can rotate around the circle center of the structure by a certain angle after the accessory retaining structure is connected with the functional component; the structure form of the base station matching structure can be divided into three types of snap-fastener base stations, ball cap base stations and composite base stations according to the existing repairing base stations on the market, and the corresponding base station matching structure has inner dimensions larger than those of the upper connecting structures of the existing snap-fastener base stations, ball cap base stations and composite base stations, so that the upper parts of the existing base stations and the base station matching structure can be firmly connected; the base reinforcing structure is arranged according to the upper connecting structure of the existing composite base, and the structure function of the base reinforcing structure is to assist in fixing the connection between the composite base and the matching structure of the base, so that the reliability and the stability of the base reinforcing structure are greatly improved; the composite base station retaining rod is an accessory for assisting in retaining connection between the composite base station and the base station matching structure, the threaded reinforcing structure is screwed into the internal threaded channel of the composite base station through the retaining rod anti-skid structure, and the composite base station retaining rod can be taken out through the retaining rod wrench groove during disassembly; the screw thread specification of the screw thread reinforcing structure is common M1.4-M1.6-M1.8;

Optionally, the functional component further comprises a measurement function with the greatest clinical operation, the bottom of the structure is a threaded structure, the measurement line structure is a groove, after the threads at the bottom of the structure are screwed into the implant, the bottom of the implant connecting structure is tightly attached to the upper plane of the implant, and at the moment, a clinician can judge the gingival penetration height of the implant in the mouth of the patient according to the measurement line structure; the measuring line structure is arranged for one circle of rotation of the central axis of the functional component, and the heights of the grooves of the measuring line structure relative to the bottom of the implant connecting structure are 1mm,2mm,4mm,6mm and 8mm respectively; the distance L marking structure is formed by rotating the central axis of the functional component for one circle, and the heights of the grooves of the distance L marking structure relative to the bottom of the implant connecting structure are 3mm,5mm,7mm and 9mm respectively; the height in the groove is higher than that in the groove of the measuring line structure, and the method is more beneficial for a clinician to intuitively identify the gingival penetration height of the implant after blackening; the functional component comprises a reference pin, the pioneer drill is installed by using the planter, and after the pioneer drill is drilled, the diameter of the reference pin is smaller than that of the pioneer drill at the moment, so that the pioneer drill can be smoothly inserted into the pioneer drill, and the functions of stability and positioning are realized.

(III) beneficial effects

The utility model provides a full-mouth planting multifunctional navigation tool, which has the following beneficial effects:

The beneficial effect of this patent technique: by applying the technology, the requirement of experience of clinicians is greatly reduced, and the accuracy of implant implantation is greatly improved. Through the application of the technology, a clinician has more visual predictability for later repair. Through the accessory that this patent technique provided, clinician need not to shift the mode such as and acquires the positional data of planting body, can directly perceivedly select the base station of corresponding model, from this with repair time significantly reduced, and improved work efficiency. Through the combined use of this patent technique and annex, can make the doctor more accurate place the correction abutment angle and direction position, avoided consequently because of the abutment position is placed inaccurately, cause the emergence of the final circumstances such as not taking one's place of correction body. Through the application of this patent technique, clinician can select the annex of corresponding model according to patient's interlock condition and dental arch radian, and adaptability greatly promotes. Through the application of this patent technical structure, avoid appearing the circumstances emergence of planting inefficiency because of the heat dissipation problem causes, reduced patient clinical diagnosis and treat time thereupon, promoted patient's planting restoration simultaneously and experienced.

Drawings

FIG. 1 is a perspective assembly of the functional assembly of the present patent FIG. 1;

FIG. 2 is a perspective assembly of the functional assembly of the present patent, FIG. 2;

FIG. 3 is a side view of the mounting function assembly of the present patent;

FIG. 4 is a side view, partially enlarged, of the functional component of the present patent;

FIG. 5 is a perspective view of the multi-function navigation tool 11 of the present patent;

FIG. 6 is a perspective view of the multi-function navigation tool 11 of the present patent;

FIG. 7 is a side view of the multi-function navigation tool 11 of the present patent, shown in FIG. 1;

FIG. 8 is a side view of the multi-function navigation tool 11 of the present patent, shown in FIG. 2;

FIG. 9 is a side view, partially enlarged, of the multi-function navigation tool 11 of the present patent;

FIG. 10 is a schematic illustration of three types of the accessory spring plate 21 of FIG. 1;

FIG. 11 is a schematic illustration of three types of the accessory spring plate 21 of FIG. 2;

FIG. 12 is a schematic view of three types of the accessory spring plate 21 of FIG. 3;

FIG. 13 is a perspective view of the present patent assembled on the maxillofacial midline;

FIG. 14 is a side view of the present patent assembled in perspective on the maxillofacial midline;

FIG. 15 is a perspective assembly view of the present patent with a prosthetic base mounted on the implant;

fig. 16 is a portable perspective view of the enhanced portable abutment mating structure 256;

fig. 17 is a perspective view of the functional module 25 carrying a base station and parallel positioning;

fig. 18 is a perspective view of the spherical cap-type functional module 25;

FIG. 19 is a side view of the spherical cap functional assembly 25;

FIG. 20 is a cross-sectional view of the enhanced carry ball cap functional assembly 25;

FIG. 21 is a perspective view of the snap-button functional assembly 25;

FIG. 22 is a side view of the snap-button functional assembly 25;

FIG. 23 is a perspective view of the composite function element 25;

FIG. 24 is a cross-sectional view of the composite functional element 25;

FIG. 25 is a perspective view of composite abutment retention bar 2562;

FIG. 26 is a front view of the measurement function assembly 25;

FIG. 27 is an enlarged view of a portion of a measurement function assembly;

fig. 28 is a front view of the fiducial pin functional assembly.

In the figure: 111. an upper screw fastening structure; 112. a main body screw fastening structure; 113. an accessory channel structure; 114. an attachment viewing structure; 115. a bolt retention structure; 116. a limit structure part; 117. a navigation tool bolt passage; 118. a nut mating structure; 119. a fitting retention structure; 120. a navigation tool body structure; 121. a navigation tool identification structure; 21. an accessory elastic plate; 211. a midline identification structure; 212. an angle identification structure; 213. a model identification structure; 22. a fitting main bolt; 221. a main bolt fastening thread; 222. a main bolt anti-skid structure; 23. a fitting sub-bolt; 231. a secondary bolt fastening thread; 232. an anti-rotation retention structure; 24. a fitting nut; 241. an internal thread structure; 242. a nut anti-slip structure; 25. a functional component; 251. a zero degree identification structure; 252. the angle alpha identifies the structure; 253. the angle beta identifies the structure; 254. a component bolt passage; 255. a rotating structure portion; 256. a base station matching structure; 2561. a base reinforcing structure; 2562. a composite abutment retention bar; 25621. a thread reinforcing structure; 25622. a retention bar anti-slip structure; 25623. a retention bar wrench slot; 257. a measuring line structure; 2571. a distance L identifies the structure; 2572. an implant connection structure; 41. an implant; 42. repairing the base station.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

Referring to fig. 1 to 28, the present utility model provides the following technical solutions: the utility model provides a multifunctional navigation instrument is planted to full mouth, includes upper portion screw thread fastening structure 111, main part screw thread fastening structure 112, annex passageway structure 113, annex view structure 114, bolt retention structure 115, limit structure portion 116, navigation tool bolt passageway 117, nut cooperation structure 118, accessory retention structure 119, navigation tool main part structure 120, navigation tool identification structure 121, its characterized in that: the accessory elastic plate 21 includes: a midline identification structure 211, an angle identification structure 212, a model identification structure 213; fitting main bolt 22, comprising: a main bolt fastening screw 221, a main bolt anti-slip structure 222; fitting sub-bolt 23 includes: a sub-bolt tightening screw 231, an anti-rotation retention structure 232; fitting nut 24, comprising: an internal thread structure 241, a nut anti-slip structure 242; functional component 25, comprising: zero degree flag structure 251, angle α flag structure 252, angle β flag structure 253, assembly bolt channel 254, rotational structure portion 255, abutment mating structure 256, abutment reinforcement structure 2561; a composite abutment retention bar 2562, a threaded reinforcement structure 25621, a retention bar anti-slip structure 25622, a retention bar wrench groove 25623; a measurement line structure 257, a distance L identifying structure 2571, an implant connecting structure 2572; the upper thread fastening structure 111 is positioned at the top of the navigation tool main body structure 120, is directly connected with the accessory channel structure 113 and is coaxially arranged, and the thread specification series are M1.4-M1.6-M1.8 respectively; the main body screw fastening structure 112 is arranged in the middle position right in front of the navigation tool main body structure 120, is arranged perpendicular to the upper screw fastening structure 111, has a uniform specification with the upper screw fastening structure 111, and has a series of screw specifications of M1.4-M1.6-M1.8 respectively; the accessory channel structure 113 is positioned on the side surface of the navigation tool main body structure 120 and is communicated with the navigation tool main body structure, so that the accessory elastic plate 21 can pass through the structure, the overall height of the accessory channel structure 113 is 9mm-13.5mm, and the width is 0.5mm-0.8mm; the accessory viewing structure 114 is located on the front surface of the navigation tool main body structure 120 and is intersected with the accessory channel structure 113, so that the accessory elastic plate 21 passes through, and then the specific position of the accessory elastic plate 21 is viewed from the inside of the structure, and the overall height of the accessory viewing structure 114 is 6mm-9mm and the width is 0.4mm-0.6mm. When the auxiliary bolt 23 passes through the bolt retention structure 115, the anti-rotation retention structure 232 has anti-rotation effect in the structure; the bolt retaining structure 115 is a regular polygon structure, the limit structure portion 116 is located on the front face of the navigation tool accessory retaining structure 119 and penetrates through the front face of the navigation tool accessory retaining structure 119, the structural characteristics of the bolt retaining structure realize the displacement resistance function of the functional component 25, and meanwhile, the clamping function of the functional component 25 is realized due to the characteristics of the penetrating structure; the navigation tool bolt channel 117 is coaxial with and penetrates through the bolt retaining structure 115, so that the screw of the auxiliary bolt 23 can pass through conveniently; the nut engaging structure 118 is located on a side of the navigation tool accessory retention structure 119 and is a counter bore-like arrangement that enables the nut 24 to be in close proximity to the nut engaging structure 118 when screwed; the accessory retention structure 119 is located below the navigation tool body structure 120, and its bottom circular arc shape matches the upper part of the functional component 25; the cross section of the navigation tool main body structure 120 is rectangular, and the intersection of each plane is provided with a rounded corner for post-treatment, so that the situation of scratching soft tissues and the like can be avoided when the navigation tool main body structure is placed in a mouth of a patient. The nut engaging structure 118 is located on a side of the navigation tool accessory retention structure 119 and is a counter bore-like arrangement that enables the nut 24 to be in close proximity to the nut engaging structure 118 when screwed; the accessory retention structure 119 is located below the navigation tool body structure 120, and its bottom circular arc shape matches the upper part of the functional component 25; the cross section of the main body structure 120 of the navigation tool is rectangular, the intersection of each plane is provided with a round corner for chamfering and then is processed, and when the main body structure is placed in a mouth of a patient, the conditions of scratching soft tissues and the like can be avoided; the navigation tool identification structure 121 is positioned at the bottom of the navigation tool accessory retention structure 119 and is arranged in line with the central axis of the side surface of the navigation tool 11; the shape is an isosceles triangle, the vertex angle faces to the bottom to play a role in indication, and the angle of the vertex angle is 15-30 degrees; the whole shape of the elastic plate 21 is set based on the actual arc shape of the dental arch, and the elastic plate 21 is respectively provided with a center line identification structure 211, an angle identification structure 212 and a model identification structure 213, and the identifications are displayed by laser etching; information such as laser etching position, direction and distance corresponds to the side incisors, the first premolars and the first molars on the arc of the dental arch respectively, and is symmetrically arranged relative to the midline identification structure 211; the thickness of the elastic plate 21 is 0.2mm-0.4mm; the angle identification structure 212 includes: three angles of 0 degree, 17 degree and 30 degree can be directly selected after planting is finished; the model identification structure 213 includes three specifications, from large to small: the W type, the R type and the N type elastic plates 21 with corresponding types can be selected by a clinician according to the occlusion condition and the dental arch radian of a patient, so that the adaptability is greatly improved; the main bolt 22 has a main bolt anti-slip structure 222 at the maximum diameter edge, so that friction force can be increased, and the main bolt fastening screw 221 of the main bolt 22 can be screwed into the upper screw fastening structure 111 or the main screw fastening structure 112; the thread specification series are M1.4-M1.6-M1.8 respectively; the anti-rotation retention structure 232 of the auxiliary bolt 23 is matched with the navigation tool bolt retention structure 115, so that the position of the anti-rotation retention structure 232 is fixed, and the auxiliary bolt fastening threads 231 can penetrate the navigation tool accessory retention structure 119 and the functional component 25 through the bolt channel 117; by the nut anti-slip structure 242 of the nut 24, this can be easily achieved; the internal thread structure 241 is screwed with the sub-bolt fastening thread 231, and realizes the position locking of the functional component 25; the zero-degree identification structure 251 on the side surface of the functional component 25 is arranged at the position of the central axis of the side surface in a collinear way, and the angle alpha identification structure 252 and the angle beta identification structure 253 on the zero-degree identification structure are symmetrically arranged relative to the central axis; the component bolt channel 254 is arranged in a side through way, so that the passage of the auxiliary bolt 23 can be realized; the rotating structure part 255 is positioned on the side surface of the functional component 25, the bottom of the structure is in a circular arc shape, and the rotating structure part 255 is symmetrically arranged relative to the central axis of the front surface of the functional component 25; the abutment mating structure 256 is located at the bottom of the functional module 25 and its structural configuration can be selected according to the repair abutment used; the zero-degree marking structure 251 is in the form of an isosceles triangle, the vertex angle faces the top, the indication function is realized, and the vertex angle is 15-30 degrees; the angle alpha mark structure 252 is offset by 17 degrees relative to the center of the component bolt channel 254 on the central axis, and is symmetrically arranged according to the central axis of the side surface of the functional component 25; the angle beta marking structure 253 is offset by 30 degrees relative to the center of the component bolt channel 254 on the central axis, and is symmetrically arranged according to the central axis of the side surface of the functional component 25; assembly bolt channel 254 allows navigation tool accessory retention structure 119 to rotate a designated angle about the center position of its structure after connection with functional assembly 25; the relative distance of the front surface of the rotating structure part 255 is smaller than that of the navigation tool limiting structure part 116, the bottom of the structure is in an arc shape, and the arc size is larger than that of the bottom of the limiting structure part 116, so that the rotating structure part 255 of the functional component 25 can rotate around the circle center of the structure by a certain angle after the accessory retaining structure 119 is connected with the functional component 25; the structure form of the base station matching structure 256 can be divided into a snap-fastener base station, a ball cap base station and a composite base station according to the existing repair base stations on the market, and the corresponding base station matching structure 256 has an inner dimension larger than that of the existing snap-fastener base station, ball cap base station and composite base station upper connecting structure, so that the upper part of the existing base station and the base station matching structure 256 can be firmly connected; the abutment reinforcing structure 2561 is arranged according to the upper part connecting structure of the existing composite abutment, and has the structural function of assisting in fixing the connection between the composite abutment and the abutment matching structure 256, so that the reliability and stability of the composite abutment are greatly improved; the composite abutment retention bar 2562 is an accessory for assisting in retaining the connection between the composite abutment and the abutment mating structure 256, the threaded reinforcing structure 25621 is screwed into the internal threaded passage of the composite abutment through the retention bar anti-slip structure 25622, and the composite abutment retention bar 2562 can be taken out through the retention bar wrench groove 25623 during disassembly; the screw thread specification of the screw thread reinforcing structure 25621 is common M1.4-M1.6-M1.8; the functional component 25 further comprises a measuring function with the greatest clinical operation, wherein 256 at the bottom of the structure is a threaded structure, the measuring line structure 257 is a groove, after 256 threads at the bottom of the structure are screwed into the implant, the bottom of the implant connecting structure 2572 is tightly attached to the upper plane of the implant 41, and at the moment, a clinician can judge the gingival penetration height of the implant in the mouth of a patient according to the measuring line structure 257; the measuring line structure 257 is arranged for one revolution of the central axis of the functional component 25, and the heights of the grooves of the measuring line structure relative to the bottom of the implant connecting structure 2572 are 1mm,2mm,4mm,6mm and 8mm respectively; the distance L identifying structure 2571 is formed by rotating the central axis of the functional component 25 for one circle, and the heights of the grooves of the distance L identifying structure 2571 relative to the bottom of the implant connecting structure 2572 are 3mm,5mm,7mm and 9mm respectively; the height in the groove is higher than that in the groove of the measuring line structure 257, and the black coating is more beneficial to the visual recognition of the gum penetrating height of the implant 41 by a clinician; the functional module 25 includes a reference pin, and the planter is used to install the pioneer drill, after drilling into the pioneer drill, the reference pin diameter is smaller than the pioneer drill diameter at this time, and the pioneer drill can be smoothly inserted, so as to realize the functions of stabilization and positioning, and the beneficial effects of the technology of the patent are: by applying the technology, the requirement of experience of clinicians is greatly reduced, and the accuracy of implant implantation is greatly improved. Through the application of the technology, a clinician has more visual predictability for later repair. Through the accessory that this patent technique provided, clinician need not to shift the mode such as and acquires the positional data of planting body, can directly perceivedly select the base station of corresponding model, from this with repair time significantly reduced, and improved work efficiency. Through the combined use of this patent technique and annex, can make the doctor more accurate place the correction abutment angle and direction position, avoided consequently because of the abutment position is placed inaccurately, cause the emergence of the final circumstances such as not taking one's place of correction body. Through the application of this patent technique, clinician can select the annex of corresponding model according to patient's interlock condition and dental arch radian, and adaptability greatly promotes. Through the application of this patent technical structure, avoid appearing the circumstances emergence of planting inefficiency because of the heat dissipation problem causes, reduced patient clinical diagnosis and treat time thereupon, promoted patient's planting restoration simultaneously and experienced.

When in use, firstly, a clinician needs to disinfect and sterilize the multifunctional navigation tool 11, accessories and accessories;

B. the elastic plate 21 with the corresponding model is selected according to the occlusion condition and the dental arch radian of a patient, and the R-shaped elastic plate 21 can be directly selected for testing in the mouth of the patient if the elastic plate 21 is not matched with the dental arch radian, namely, when the elastic plate 21 is larger than or smaller than the dental arch of the patient, the elastic plate 21 can be selected more accurately and more appropriately according to the judgment condition at the moment; in the step B, if the clinician can not determine the occlusion condition and the arc degree of the dental arch outside the mouth of the patient, the clinician can directly select the elastic plate 21 with a medium model, namely an R type, for testing, the doctor slightly bends the elastic plate 21 and can easily place the elastic plate 21 into the mouth of the patient, the elastic plate 21 is made of medical titanium alloy, the durability is extremely strong, and the elastic plate has the characteristics of being bendable and sterilizable;

C. the clinician uses a planter to clamp the pioneer drill, drills in the position of the midline of the jaw face and the toothless jaw 31 of the patient, and takes the position as a datum point; in the step C, a clinician needs to use a planter to clamp the pioneer drill, drill in the position of the midline of the jaw face of the patient and the toothless jaw 31, take the drill as a datum point, and then carry out the next step; if the clinician has implanted an implant 41 in the alveolar bone of the anterior dental zone, then selecting a designated repair mode according to the patient's requirements, selecting the same type of functional components 25 according to the type of repair abutment 42;

D. The selected elastic plate 21 is threaded through the accessory channel structure 113 of the multifunctional navigation tool 11, and when the center line identification structure 211 is positioned in the accessory viewing structure 114, the accessory main bolt 22 is screwed into the main body thread fastening structure 112, and at the moment, the elastic plate 21 is fixed in the multifunctional navigation tool 11; in step D, when the selected elastic plate 21 passes through the accessory channel structure 113 of the multifunctional navigation tool 11 and the center line identification structure 211 is located in the accessory viewing structure 114, the main body screw fastening structure 112 is screwed in by using the accessory main screw 22, and the elastic plate 21 is fixed in the multifunctional navigation tool 11; if a clinician has implanted an implant 41 in the alveolar bone of the anterior dental region, the elastic plate 21 is placed according to the radian of the alveolar bone in the mouth, the multifunctional navigation tool 11 is positioned on the upper part of the implanted implant, and the main screw fastening structure 112 is screwed into the main screw 22 by using the accessory main screw 22, at this time, the elastic plate 21 is fixed in the multifunctional navigation tool 11; the clinician uses the main bolt 22 to screw in, if the soft tissue of the lip side of the patient is blocked, the main bolt 22 of the accessory can not be smoothly screwed into the main screw fastening structure 112, at the moment, the main bolt 22 of the accessory can be screwed into the upper screw fastening structure 111, so that the elastic plate 21 is fixed in the multifunctional navigation tool 11, the operation of the doctor is more convenient, and a large amount of operation time is saved;

E. The auxiliary bolt 23, the nut 24 and the assembly 25 reference pins are arranged in the corresponding structure of the multifunctional navigation tool 11, and the nut 24 is kept with allowance and can not be screwed; in step E, the auxiliary bolt 23, the nut 24 and the assembly 25 reference pins are installed in the corresponding structure of the multifunctional navigation tool 11 under the normal operation, and the nut 24 should have a allowance and cannot be screwed; if a clinician has implanted an implant 41 in the alveolar bone of the anterior dental zone, at this time, a designated repair mode is selected according to the patient's requirement, the same type of functional components 25 are selected according to the type of the repair base 42, the auxiliary bolt 23, the nut 24 and the same type of functional components 25 are installed in the corresponding structures of the multifunctional navigation tool 11, and the nut 24 should be kept with allowance and cannot be screwed;

F. placing the assembled multifunctional navigation tool 11 in the mouth of the patient, and inserting the reference needle of the assembly 25 into the reference hole in the mouth of the patient at the position of the toothless jaw 31; placing the assembled multifunctional navigation tool 11 in the mouth of a patient, and inserting the assembly 25 reference needle into the reference hole in the toothless jaw position in the mouth of the patient; if a clinician has implanted an implant 41 in the alveolar bone of the anterior toothless jaw 31, the prosthetic abutment 42 is placed in the implant 41, a torque wrench is used to provide a corresponding torque for the prosthetic abutment and is fixedly connected to the implant 41, and at this time, the abutment mating structure 256 of the same type of functional component 25 is connected to the structure on the upper portion of the prosthetic abutment 42;

G. The bottom of the elastic plate 21 in the multifunctional navigation tool 11 is adjusted according to the alveolar bone plane of the toothless jaw 31 in the mouth of the patient, and the screw cap 24 is screwed at the moment, and the assembly 25 reference needle is fixed on the accessory fixing structure 119; in step G, the bottom of the elastic plate 21 in the multifunctional navigation tool 11 is adjusted according to the alveolar bone plane of the dental alveolus 31 in the mouth of the patient, and the nut 24 is screwed at this time, and the assembly 25 reference needle is fixed in the accessory retention structure 119; if the clinician has implanted an implant 41 in the alveolar bone of the anterior dental zone, the abutment mating structure 256 of the same type functional module 25 is connected to the structure on the upper portion of the prosthetic abutment 42, the bottom of the elastic plate 21 in the multi-functional navigation tool 11 is adjusted and kept consistent according to the plane of the alveolar bone of the dental alveolus 31 in the patient's mouth, and the nut 24 is screwed at this time, and the same prosthetic abutment type functional module 25 is fixed in the accessory retention structure 119;

H. the elastic plate 21 is adjusted according to the dental arch radian in the mouth of the patient and kept as consistent as possible; in the step H, the elastic plate 21 is adjusted according to the arc degree of the dental arch in the mouth of the patient and kept as consistent as possible; if a clinician has implanted an implant 41 in the alveolar bone of the anterior dental zone, the abutment mating structure 256 of the same type of functional components 25 is connected with the structure on the upper part of the prosthetic abutment 42, and the elastic plate 21 in the multifunctional navigation tool 11 is adjusted according to the arc of the dental arch in the mouth of the patient and kept as consistent as possible;

I. Operating the planter to mount a positioning drill, and positioning a specific implantation point in the alveolar bone of the toothless jaw according to the laser etching angle marking structure 212 on the elastic plate 21; in the step I, a planter is operated to mount a positioning drill, and a specific implantation point is positioned in the alveolar bone of the toothless jaw 31 according to the laser etching angle marking structure 212 on the elastic plate 21; if a clinician has implanted an implant 41 in the alveolar bone of the anterior dental zone, the abutment mating structure 256 of the same type of functional components 25 is connected with the structure on the upper part of the prosthetic abutment 42, and the elastic plate 21 in the multifunctional navigation tool 11 is adjusted according to the arc of the dental arch in the mouth of the patient and kept as consistent as possible;

J. replacing the drill bit required by the planter, completing the steps of drilling, reaming and the like, and finally implanting the implant 41 corresponding to each tooth position; in step J, according to different implantation angles and depths, the functional component 25 with the measuring line structure 257 is selected, 256 threads at the bottom of the structure are screwed into the implant 41, the bottom of the implant connecting structure 2572 is tightly attached to the upper plane of the implant, and at the moment, a clinician can judge the gingival penetration height information of the implant 41 in the mouth of the patient according to the measuring line structure 257; when the functional component 25 and the multifunctional navigation tool 11 are assembled, the angle information of the implant 41 can be judged according to the angle alpha mark structure 252 and the angle beta mark structure 253 on the upper part of the functional component 25, so that a clinician does not need to acquire the position data of the implant 41 in a transferring mode or the like, and the corresponding model of the base station 42 can be intuitively selected, thereby greatly reducing the repair time and improving the working efficiency;

K. Selecting a corresponding repair base station 42 according to different implantation angles, and finally installing the base station and locking the repair base station according to required designated torque; in step K, according to different implantation angles, a corresponding repair abutment 42 is selected, when the abutment 42 is installed, the abutment matching structure 256 of the same type of functional components 25 can be used to connect with the structure at the upper part of the repair abutment 42, so as to play a carrying role, prevent the repair abutment 42 from falling off during the period of transferring from outside the mouth to inside the mouth, and the repair abutment 42 needs to be disinfected and sterilized again, which finally results in prolonged treatment time, inconvenience for patients and corresponding additional cost; in step K, during the process of installing the base 42, the base matching structure 256 of the functional component 25 of the same type is used to connect with the structure on the upper portion of the repair base 42, if the base matching structure 256 of the functional component 25 needs to be carried further, the base matching structure 256 can be selectively reinforced and carried, and when the functional component 25 needs to be removed later, only the functional component 25 can be moved in one direction at this time, so that the base matching structure 256 of the functional component 25 of the same type is separated from the structure on the upper portion of the repair base 42; if the conventional abutment matching structure 256 is selected, the functional component 25 can move in two directions at this time, so that the abutment matching structure 256 is separated from the structure at the upper part of the repairing abutment 42, the separation operation time is reduced, but the carrying stability effect is reduced; in step K, when a plurality of repair abutments 42 are installed, the abutment mating structure 256 of the functional module 25 is connected with the structure on the upper portion of the repair abutment 42, and is transferred into the implant 41 corresponding to the dental site in the patient's mouth, then a new structure of the functional module 25 is selected to be connected with the upper portion of the repair abutment 42, and is transferred into the implant 41 corresponding to the dental site in the patient's mouth, if the abutment type is the repair abutment 42 with an angle, the functional module 25 can also act as a parallel rod, so that a clinician can place the angle and the direction position of the repair abutment 42 more accurately, thereby avoiding the occurrence of the conditions that the repair body is finally out of place, etc. due to the inaccurate placement of the abutment 42.

After the planting is finished, the multifunctional navigation tool 11, accessories and accessories used in the operation are disinfected and sterilized again and packaged for the next use;

m, transferring intraoral data information such as the position, depth and angle direction of the repairing base 42 from the intraoral transition of the patient, and manufacturing a final repairing denture;

the working principle and the beneficial effects of the utility model are as follows: by applying the technology, the requirement of experience of clinicians is greatly reduced, and the accuracy of implant implantation is greatly improved. Through the application of the technology, a clinician has more visual predictability for later repair. Through the accessory that this patent technique provided, clinician need not to shift the mode such as and acquires the positional data of planting body, can directly perceivedly select the base station of corresponding model, from this with repair time significantly reduced, and improved work efficiency. Through the combined use of this patent technique and annex, can make the doctor more accurate place the correction abutment angle and direction position, avoided consequently because of the abutment position is placed inaccurately, cause the emergence of the final circumstances such as not taking one's place of correction body. Through the application of this patent technique, clinician can select the annex of corresponding model according to patient's interlock condition and dental arch radian, and adaptability greatly promotes. Through the application of this patent technical structure, avoid appearing the circumstances emergence of planting inefficiency because of the heat dissipation problem causes, reduced patient clinical diagnosis and treat time thereupon, promoted patient's planting restoration simultaneously and experienced.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (8)

1. The utility model provides a multi-functional navigation tool is planted to full mouth, includes upper portion screw thread fastening structure, main part screw thread fastening structure, annex elastic plate, annex channel structure, annex view the structure, bolt location structure, limit structure portion, navigation tool bolt passageway, nut cooperation structure, accessory location structure, navigation tool major structure, navigation tool identification structure, its characterized in that: the accessory elastic plate comprises a midline identification structure, an angle identification structure and a model identification structure; the accessory main bolt comprises a main bolt fastening thread and a main bolt anti-skid structure; the accessory auxiliary bolt comprises an auxiliary bolt fastening thread and an anti-rotation retention structure; the accessory nut comprises an internal thread structure and a nut anti-skid structure; the functional component comprises a zero degree identification structure, an angle alpha identification structure, an angle beta identification structure, a component bolt channel, a rotating structure part, a base station matching structure and a base station reinforcing structure; a composite base station retaining rod, a threaded reinforcing structure, a retaining rod anti-skid structure and a retaining rod wrench groove; a measuring line structure, a distance L identification structure and an implant connection structure.

2. A full port implant multifunctional navigation tool according to claim 1, wherein: the upper thread fastening structure is positioned at the top of the main body structure of the navigation tool, is directly connected and coaxially arranged with the accessory channel structure, and has thread specification series of M1.4-M1.6-M1.8 respectively; the main body thread fastening structure is arranged in the middle of the right front of the main body structure of the navigation tool, is arranged vertically to the upper thread fastening structure, is in uniform specification with the upper thread fastening structure, and has thread specification series of M1.4-M1.6-M1.8 respectively; the accessory channel structure is arranged on the side surface of the main body structure of the navigation tool and is communicated with the main body structure of the navigation tool, so that the accessory elastic plate can pass through the main body structure of the navigation tool, the whole height of the accessory channel structure is 9mm-13.5mm, and the width of the accessory channel structure is 0.5mm-0.8mm; the accessory checking structure is positioned on the front surface of the main body structure of the navigation tool and is intersected with the accessory channel structure, so that the specific position of the accessory elastic plate is checked in the accessory elastic plate after the accessory elastic plate passes through the accessory channel structure, the whole height of the accessory checking structure is 6mm-9mm, and the width of the accessory checking structure is 0.4mm-0.6mm.

3. A full port implant multifunctional navigation tool according to claim 1, wherein: when the auxiliary bolt passes through the bolt retention structure, the anti-rotation effect of the anti-rotation retention structure in the structure is realized; the bolt retaining structure is of a regular polygon structure, the limiting structure part is positioned on the front face of the navigation tool accessory retaining structure and penetrates through the navigation tool accessory retaining structure, and the navigation tool bolt channel is coaxial with the bolt retaining structure and penetrates through the bolt retaining structure, so that a screw rod of the auxiliary bolt can pass through the navigation tool bolt channel conveniently; the nut matching structure is positioned on the side surface of the navigation tool accessory retention structure and is arranged like a counter bore, and the counter bore is arranged so that the nut is tightly attached to the nut matching structure when screwed; the accessory retention structure is positioned below the main body structure of the navigation tool, and the bottom arc shape of the accessory retention structure is matched with the upper part of the functional component; the cross section of the main structure of the navigation tool is rectangular, and the intersection of each plane is subjected to fillet chamfering treatment, so that the situation of scratching soft tissues can be avoided when the navigation tool is placed in a mouth of a patient.

4. A full port implant multifunctional navigation tool according to claim 1, wherein: the nut matching structure is positioned on the side surface of the navigation tool accessory retention structure and is arranged like a counter bore, and the counter bore is arranged so that the nut is tightly attached to the nut matching structure when screwed; the accessory retention structure is positioned below the main body structure of the navigation tool, and the bottom arc shape of the accessory retention structure is matched with the upper part of the functional component; the cross section of the main body structure of the navigation tool is rectangular, the intersection of each plane is provided with a round corner for chamfering and then is processed, and when the navigation tool is placed in a mouth of a patient, the situation of scratching soft tissues can be avoided; the navigation tool identification structure is positioned at the bottom of the navigation tool accessory retention structure and is arranged in line with the central axis of the side surface of the navigation tool; the shape is an isosceles triangle, the vertex angle faces to the bottom to play a role in indication, and the angle of the vertex angle is 15-30 degrees; the integral form of the elastic plate is set based on the actual arc form of the dental arch, and the elastic plate is respectively provided with a midline mark structure, an angle mark structure and a model mark structure, and marks are displayed by laser etching; the laser etching position, direction and distance information respectively correspond to side incisors, first premolars and first molars on the arc of the dental arch and are symmetrically arranged relative to the central line identification structure; the thickness of the elastic plate is 0.2mm-0.4mm; the angle identification structure (212) comprises: three angles of 0 degree, 17 degree and 30 degree can be directly selected after planting is finished; the model identification structure comprises three specifications, namely: w type, R type, N type, clinician can select the elastic plate of corresponding model according to patient's interlock condition and dental arch radian, and adaptability greatly promotes.

5. A full port implant multifunctional navigation tool according to claim 1, wherein: the main bolt anti-skid structure is arranged at the maximum diameter edge of the main bolt, so that friction force can be increased, and the main bolt fastening thread of the main bolt can be screwed into the upper thread fastening structure or the main body thread fastening structure; the thread specification series are M1.4-M1.6-M1.8 respectively; the anti-rotation retention structure of the auxiliary bolt is matched with the navigation tool bolt retention structure to realize the position fixation of the anti-rotation retention structure, and the auxiliary bolt fastening threads can penetrate the navigation tool accessory retention structure and the functional component through the bolt channel; the anti-skid structure of the nut can be easily realized; the internal thread structure is in threaded connection with the fastening threads of the auxiliary bolt, and position locking of the functional component is achieved.

6. A full port implant multifunctional navigation tool according to claim 1, wherein: the zero-degree identification structure of the side surface of the functional component is arranged at the position of the central axis of the side surface in a collinear way, and the angle alpha identification structure and the angle beta identification structure on the zero-degree identification structure are symmetrically arranged relative to the central axis; the component bolt channel is arranged in a side through way, so that the passage of the auxiliary bolt can be realized; the rotating structure is positioned on the side surface of the functional component, the bottom of the rotating structure is in an arc shape and is symmetrically arranged relative to the central axis of the front surface of the functional component; the base station matching structure is positioned at the bottom of the functional component, and the structural form of the base station matching structure can be selected according to the used repairing base station; the zero-degree mark structure is in the shape of an isosceles triangle, the vertex angle faces the top, the indication function is achieved, and the vertex angle is 15-30 degrees; the angle alpha mark structure is offset by 17 degrees relative to the center of a component bolt channel on the central axis and is symmetrically arranged according to the central axis of the side surface of the functional component; the angle beta mark structure is offset by 30 degrees relative to the center of a component bolt channel on the central axis and is symmetrically arranged according to the central axis of the side surface of the functional component; the component bolt channel can enable the navigation tool accessory retention structure to rotate a designated angle around the circle center of the structure after being connected with the functional component.

7. A full port implant multifunctional navigation tool according to claim 1, wherein: the relative distance of the front surface of the rotating structure part is smaller than that of the limiting structure part of the navigation tool, the bottom of the structure is in an arc shape, and the arc size is larger than that of the bottom of the limiting structure part, so that the rotating structure part of the functional component can rotate around the circle center of the structure after the accessory retaining structure is connected with the functional component; the structure form of the base station matching structure can be divided into three types of snap-fastener base stations, ball cap base stations and composite base stations according to the existing repairing base stations on the market, and the corresponding base station matching structure has inner dimensions larger than those of the upper connecting structures of the existing snap-fastener base stations, ball cap base stations and composite base stations, so that the upper parts of the existing base stations and the base station matching structure can be firmly connected; the base reinforcing structure is arranged according to the upper connecting structure of the existing composite base, and the structure function of the base reinforcing structure is to assist in fixing the connection between the composite base and the matching structure of the base, so that the reliability and the stability of the base reinforcing structure are greatly improved; the composite base station retaining rod is an accessory for assisting in retaining connection between the composite base station and the base station matching structure, the threaded reinforcing structure is screwed into the internal threaded channel of the composite base station through the retaining rod anti-skid structure, and the composite base station retaining rod can be taken out through the retaining rod wrench groove during disassembly; the screw thread specification of the screw thread reinforcing structure is common M1.4-M1.6-M1.8.

8. A full port implant multifunctional navigation tool according to claim 1, wherein: the functional component further comprises a measuring function with the greatest clinical operation, the bottom of the structure is of a threaded structure, the measuring line structure is of a groove, after threads at the bottom of the structure are screwed into the implant, the bottom of the implant connecting structure is tightly attached to the upper plane of the implant, and at the moment, a clinician can judge the gingival penetration height of the implant in the mouth of a patient according to the measuring line structure; the measuring line structure is arranged for one circle of rotation of the central axis of the functional component, and the heights of the grooves of the measuring line structure relative to the bottom of the implant connecting structure are 1mm,2mm,4mm,6mm and 8mm respectively; the distance L marking structure is formed by rotating the central axis of the functional component for one circle, and the heights of the grooves of the distance L marking structure relative to the bottom of the implant connecting structure are 3mm,5mm,7mm and 9mm respectively; the height in the groove is higher than that in the groove of the measuring line structure, and the method is more beneficial for a clinician to intuitively identify the gingival penetration height of the implant after blackening; the functional component includes a reference pin.