CN114601582B - Auxiliary positioning carrying body for immediate restoration of implanted tooth - Google Patents

Abstract

The application relates to the field of medical instruments, in particular to an auxiliary positioning carrying body for immediate restoration of implanted teeth, which comprises a connecting section, an artificial abutment and a guide section which are fixedly connected in sequence; the dental implant is characterized in that one end of the connecting section, which is far away from the abutment, is used for being connected with an implant, the connecting section and the implant rotate synchronously, the guiding section is used for guiding a dental crown to be installed on the abutment, and one end of the guiding section, which is far away from the abutment, extends out of the dental crown for a doctor to operate. The method and the device can reduce the probability of deviation after the implant is implanted, and help the implant to be implanted, the dental crown can be directly installed on the implant at the correct position.

Description

Auxiliary positioning carrying body for immediate restoration of implanted tooth

Technical Field

The application relates to the field of medical instruments, in particular to an auxiliary positioning carrying body for immediate restoration of implanted teeth.

Background

At present, there are two ways to simulate immediate repair for a single implant, the first is: after a doctor implants an implant in a patient mouth, an impression is made in a traditional mode or a digital scanning mode, a dental crown is made and processed according to the impression, and then the dental crown is installed and worn on the implant, so that the time period required by the mode is long, and the implant cannot be worn immediately after operation, and many clinical requirements cannot be met; the second method is as follows: the preoperative dental crown is designed and manufactured according to the implant in advance, after the implant is implanted into the mouth of a patient, the dental crown can be directly worn on the implant, the postoperative immediate tooth wearing is realized, the time is saved, and the process of postoperative impression can be avoided.

The second mode is more suitable for clinic and is more popular for patients because the teeth can be worn immediately after the implantation, and the time is shorter. However, in the second method, there has been a problem that a deviation may occur between a post-implant position and a pre-surgery designed implant position, so that the crown cannot be smoothly mounted on the implant. At the moment, a doctor is required to adjust the position of the implant in the mouth of a patient according to the approximate position of the crown deviation, multiple adjustments are often required, the accuracy is not high, the method is time-consuming and labor-consuming, the pain of the patient is increased, and the initial stability of the implant is influenced by multiple adjustments.

Disclosure of Invention

In order to reduce the probability of deviation after the implant is implanted and help the implant to be implanted, the dental crown can be directly installed on the implant at the correct position, and the application provides an auxiliary positioning carrier for immediate restoration of the implant.

The utility model provides a planting tooth is restoreed assistance-localization real-time and is carried body adopts following technical scheme:

an auxiliary positioning carrying body for immediate restoration of a dental implant comprises a connecting section, an artificial abutment and a guiding section which are fixedly connected in sequence; the dental implant is characterized in that one end of the connecting section, which is far away from the abutment, is used for being connected with an implant, the connecting section and the implant rotate synchronously, the guiding section is used for guiding a dental crown to be installed on the abutment, and one end of the guiding section, which is far away from the abutment, extends out of the dental crown for a doctor to operate.

By adopting the technical scheme, when the dental implant is used, the connecting section and the implant are directly connected, then the dental crown is installed and worn on the guide section, a doctor directly operates the guide section to rotate the guide section far away from one end of the abutment imitation, and then the implant can be driven to rotate so as to adjust the implant to the correct position, so that the implant adjustment of the implant is realized. In the implanting process, the dental crowns are positioned on the guide sections, so that the mounting positions of the dental crowns can be positioned in real time, and the situation that the dental crowns cannot be worn on the implant due to the deviation of the implanting positions of the implant is avoided. After the operation guide section is adjusted the implant to the existing position, can take off this carrying body by the direct operation guide section, then even install abutment and dental crown as an organic whole on the implant, accomplish the implantation and restore, the operation is more simple and convenient, greatly reduced the probability that produces the deviation after the implant is planted to help the dental crown at the correct position direct mount on the implant.

Optionally, the connecting section includes a connecting rod, the connecting rod is in insertion fit with the implant, and at least one section of the connecting rod is non-circular.

Through adopting above-mentioned technical scheme, when doctor's operation linkage segment rotated, the cross-section of connecting rod non-perfect circle will drive the implant rotation also to realize the adjustment of implant position. After the position of the implant is adjusted, the connecting rod is directly pulled out of the implant, and then the dental crown can be installed.

Optionally, the connecting section includes a cylindrical connecting rod and a rotating cylinder fixedly connected to the connecting rod.

By adopting the technical scheme, at least one section of the connecting section can be in a non-perfect-circle shape by rotating the cylinder.

Optionally, the guide section comprises a cylindrical guide rod with a diameter of a size that ensures that the preformed dental crown can smoothly reach and be fixed to the artificial abutment through the device through a pre-set abutment thread passage in the middle of the dental crown.

Through adopting above-mentioned technical scheme, when installing the crow on the guide bar through reserving the screw passageway, because the guide bar is cylindric, so the guide bar can smoothly rotate in the crow, and the crow can not cause the influence to the rotation of guide bar, guarantees that the rotation adjustment of implant is not blocked.

Optionally, the guide section still includes the rigid coupling and is in the guide bar is kept away from the action bars of imitative base station one end, the action bars cross-section is the non-normal circular shape and is used for cooperating with external instrument.

Through adopting above-mentioned technical scheme, be convenient for the doctor with external instrument connection on the action bars in order to drive the action bars and rotate to the adjustment to the implant position is realized rotating in the implant that drives and be connected with the connecting rod.

Optionally, the abutment comprises a limiting section fixedly connected to the guide section and an abutting section fixedly connected between the limiting section and the connecting section, and the limiting section is used for limiting the circumferential position of the dental crown.

Through adopting above-mentioned technical scheme, when operation dental crown slides to spacing section on the guide bar, can fix the three-dimensional position of dental crown on the guide bar, detect the judgement to the position of implanting of implant. When the guide rod is operated to drive the implant to rotate, if the space for installing the dental crown is enough, the implant and the dental crown can synchronously rotate along with the guide rod; when the space of installation crown department is not enough, when the implant was rotatory the adjacent tooth had the blocking to the crown, can slide the crown to the direction of keeping away from imitative base for the crown breaks away from with spacing section, and the guide bar can rotate in the crown, and take one's place the crown again on spacing section after the adjustment, whether in place with the adjustment of inspection implant position.

Optionally, the limiting section comprises a limiting cylinder fixedly connected to one end of the guiding section, and at least one section of the limiting cylinder is non-circular.

Through adopting above-mentioned technical scheme, because the setting of spacing section of thick bamboo non-perfect circle for in inserting the dental crown hole with spacing section of thick bamboo, wherein, the dental crown hole is printed or cut through corresponding data and forms, and the dental crown hole matches with spacing section of thick bamboo outline to fix the peripheral position of dental crown and spacing section of thick bamboo.

Optionally, the limiting section comprises a limiting cylinder fixedly connected to one end of the guiding section and a convex edge fixedly connected to the outer wall of the limiting cylinder.

By adopting the technical scheme, the arrangement of the convex ribs can realize the circumferential position of the dental crown fixed by the limiting section, and the circumferential positioning of the dental crown is realized.

Optionally, the abutting section is in a circular truncated cone shape, the diameter of the abutting section gradually increases from one end close to the connecting section to one end close to the guiding section, and the diameter and the height of the abutting section refer to different gum penetrating heights and diameters of corresponding abutment of different planting systems.

By adopting the technical scheme, the requirements of different gum penetrating thicknesses and diameters in a bone horizontal planting system can be met.

Optionally, the butt joint section is a cone, the vertex of a cone or the bottom of a cone of the butt joint section is located between the connecting section and the spacing section, and the butt joint section is sleeved on the connecting section.

By adopting the technical scheme, the requirement of the soft tissue planting system can be met.

In summary, the present application includes at least one of the following beneficial technical effects:

the design of the application can well design the positions of the implant and the dental crown before the implant is implanted, and the dental crown is positioned at the position to be installed in the implanting process; after the implant is implanted, the dental crown can be directly installed on the implant, and the situation that the dental crown cannot be worn in place due to implant deviation is avoided; the damage to the implant and the bone interface caused by the repeated adjustment of the implant implantation position deviation is reduced, and the pain of a patient caused by the adjustment of the implant is reduced;

the guide rod can guide the dental crowns to enter the in-place positions, and can also return the dental crowns to the positions to be installed when the adjacent tooth spaces block the dental crowns, so that the dental crowns can be always positioned on the carrier without being taken down in the process of adjusting the positions of the implants, and the situation of repeated taking and putting adjustment is avoided;

the design of different forms of the imitated base platform and the connecting section enables the positioning carrying body to meet the requirements of different planting systems.

Drawings

Fig. 1 is a schematic view of the overall structure of the present application.

Fig. 2 is a schematic view showing another structure of the connecting section and the position-limiting section.

Figure 3 is a schematic view of another form of abutment section.

Fig. 4 is a schematic view of a carrier in cooperation with an implant or crown for embodying the present invention.

Fig. 5 is a schematic view of a carrier body according to the present application in use.

Description of reference numerals: 1. a connection section; 11. a connecting rod; 12. a rotating cylinder; 2. imitating a base station; 21. an abutment section; 22. a limiting section; 221. a limiting cylinder; 222. a rib; 3. a guide section; 31. a guide bar; 32. an operating lever.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses an auxiliary positioning carrier for immediate restoration of a dental implant. Referring to fig. 1, the auxiliary positioning carrier for immediate restoration of a dental implant comprises a connecting section 1, a simulated abutment 2 integrally and fixedly connected to one end of the connecting section 1, and a guiding section 3 integrally and fixedly connected to one end of the simulated abutment 2 far away from the connecting section 1.

Connecting segment 1 can be dismantled or be connected with the planting body, and the planting body can rotate along with connecting segment 1 is synchronous, and the crown can overlap and establish on guide segment 3 and with 3 normal running fit of guide segment, and the one end that the butt section 21 was kept away from to guide segment 3 stretches out the crown and supplies the doctor to use special spanner operation. During the implantation, can directly overlap the crown cover on guide section 3, be connected linkage segment 1 and implant, then place the implant in the position of waiting to plant, the crown is located the position of waiting to install the crown promptly this moment. The doctor directly operates the part of the guiding section 3 positioned outside the dental crown to rotate, namely the connecting section 1 can drive the implant to rotate, and the position of the implant can be adjusted. In the implanting process, the dental crown is always in the position of the dental crown to be mounted, the subsequent mounting and wearing of the dental crown which can be smooth are ensured, the condition that the dental crown cannot be correctly mounted on the implant due to the position deviation of the implant is avoided, the probability that the position of the implant deviates is greatly reduced, and the dental crown can be directly worn on the implant after implantation.

It can be understood that a reserved threaded hole is formed in the dental crown, and the dental crown is sleeved on the guide section 3 through the threaded hole.

Referring to fig. 1, the connecting section 1 comprises a connecting rod 11, at least one section of the connecting rod 11 is non-circular, the connecting rod 11 is matched with the implant in an inserting mode, when the doctor operates the guide section 3 to rotate, the non-circular section of the connecting rod 11 is matched with the implant, the implant is driven to rotate synchronously, and the position of the implant is adjusted.

Specifically, the cross-section of connecting rod 11 self can be regular polygon, ellipse, dysmorphism etc. as long as can realize can directly drive the planting body through the grafting cooperation of connecting rod 11 with the planting body and rotate.

Referring to fig. 1 to 3, of course, the connecting rod 11 may be a cylinder, a rotating cylinder 12 with a non-circular cross section is fixedly connected to the outer wall of the connecting rod 11, and the cross section of the rotating cylinder 12 may be a quadrilateral shape, a hexagon shape, an octagon shape, a special shape, or the like, as long as the connecting rod 11 can drive the implant to synchronously rotate through the rotating cylinder 12 when the connecting rod 11 is inserted into the implant through the rotating cylinder 12. The rotary cylinder 12 may be fixed to an end of the connecting rod 11 far from the abutting section 21, or may be fixed to a middle portion of the connecting rod 11 or an end of the connecting rod 11 near the abutting section 21.

Referring to fig. 1, the guide section 3 includes a cylindrical guide rod 31, and when the crown is fitted over the guide rod 31, the guide rod 31 can rotate within the crown so that the crown does not interfere with the position adjustment of the implant. An operating rod 32 is fixedly connected to one end of the guide rod 31 far away from the abutment, and the operating rod 32 extends out of the crown for a doctor to operate by using a special spanner. The section of the operating rod 32 can be non-circular to facilitate connection with an external tool, specifically, the section of the operating rod 32 can be square, hexagonal or elliptical, and the like, and the specific shape of the tool used by a doctor is determined, as long as the operating rod 32 can be connected with the external tool and can rotate synchronously with the external tool.

Referring to fig. 1 and 3, the abutment 2 includes an abutting section 21 near one end of the connecting section 1 and a limiting section 22 fixedly connected to the abutting section and far away from one end of the connecting section 1, the limiting section 22 is used for fixing the three-dimensional position of the dental crown during installation, and one end of the guide rod 31 far away from the operating rod 32 is fixedly connected to one end of the limiting section 22 far away from the abutting section 21.

Wherein, at least one section of the limiting section 22 is non-circular. Specifically, the limiting section 22 includes a limiting cylinder 221 fixedly connected to the guide rod 31, the limiting cylinder 221 may be cylindrical, and a protruding rib 222 is fixedly connected to an outer wall of the limiting cylinder 221 along an axial direction thereof, so that at least one section of the limiting cylinder 221 is non-circular. One rib 222 may be provided, or a plurality of ribs may be provided at intervals around the axis of the limiting cylinder 221, and the application takes four ribs 222 arranged at equal intervals as an example for description.

When the crown is slid from the guide rod 31 to the limiting cylinder 221, the limiting cylinder 221 may be inserted into the inner hole of the crown to fix the circumferential position between the crown and the limiting cylinder 221. The limiting cylinder 221 can be arranged to imitate the shape and model of a real abutment, so that the circumferential position of the dental crown can be fixed when the position of the implant is adjusted, and the adjustment degree of the position of the implant can be conveniently judged and detected.

When adjusting the implant position, directly establish the crown of a tooth on spacing section of thick bamboo 221 to fix the crown of a tooth and the circumferential position of spacing section of thick bamboo 221, then the doctor twists the action bars 32 through external instrument, and connecting rod 11 drives the implant rotatory while, and spacing section of thick bamboo 221 will drive the crown of a tooth rotatory. At this time, if the space (the space between the dental crown and the adjacent tooth) for wearing the dental crown is large, the dental crown can synchronously rotate along with the limiting cylinder 221; however, if the space between the dental crown and the adjacent tooth is small, when the limit cylinder 221 drives the dental crown to rotate, the dental crown is limited by the adjacent tooth of the patient and cannot rotate, and the position of the dental crown on the guide rod 31 should be slid towards the side far away from the abutting section 21, so that the dental crown and the limit cylinder 221 are separated from the matching relationship, and the adjustment of the implant position can be continuously performed. In the process of adjusting the position of the implant, the doctor can slide the dental crown onto the limiting cylinder 221 at any time to judge the position of the implant adjustment.

Referring to fig. 2, of course, the cross section of the limiting cylinder 221 itself may also be non-perfect circle, for example, the cross section of the limiting cylinder may be quadrilateral, hexagonal, elliptical, irregular, etc., as long as the driving dental crown can synchronously rotate, and the present application will be described by taking the example that the cross section of the limiting cylinder 221 is substantially quadrilateral.

Referring to fig. 2, in an example of the present application, the abutting section 21 may be in a circular truncated cone shape, and the diameter of the abutting section 21 gradually increases from one end near the connecting section 1 to one end near the guide rod 31 to simulate the transgingival shape of an abutment for connecting a dental crown to an implant, which may meet the requirements of a bone level implantation system.

Referring to fig. 3, in another example of the present application, the abutting section 21 may be in a cone shape, a vertex of the abutting section 21 is located between the limiting section 22 and the connecting rod 11, and a bottom of the abutting section 21 is disposed toward the connecting rod 11 and sleeved on the connecting rod 11, which may meet the needs of the soft tissue implanting system.

Referring to fig. 1, certainly, the conical bottom of the abutting section 21 is fixedly connected between the limiting section 22 and the connecting rod 11 through a connecting ring (not shown in the figure), and the conical top of the abutting section 21 is arranged towards the connecting rod 11 and sleeved on the connecting rod 11, so as to meet the planting requirements of the planting bodies with different shapes.

In practical use, the connecting section 1 and the imitation base station 2 in proper forms can be selected according to the type of the implant, and the application range is wider.

The implementation principle of the auxiliary positioning carrier for immediate restoration of the implanted tooth in the embodiment of the application is as follows: referring to fig. 4, in operation, the connection rod 11 is directly inserted into a hole on the implant for matching with the abutment, and then the crown is sleeved on the guide rod 31, so that the implant, the carrier of the present application and the crown are connected to form a whole.

Referring to fig. 5, in clinical practice, after the implant is initially in place, the carrier of the present application with the crown can be placed in the implant, and an external tool is connected to the operating rod 32, the operating rod 32 is driven to rotate by the external tool, and meanwhile, the connecting rod 11 also drives the implant to rotate, and whether the implant is in place or not is judged according to the position of the crown, so as to adjust the position of the implant. Of course, before the operating rod 32 is rotated, it is necessary to determine whether there is enough space around the crown to ensure that the rotating operation is not blocked by the adjacent teeth, if the space is enough, the crown can rotate synchronously with the limiting cylinder 221, if not, the crown and the limiting section 22 need to be operated to temporarily release the fit relation, the position of the crown on the guide rod 31 is slid to the side away from the abutting section 21, and then the implant position is continuously adjusted. In the process of adjusting the position of the implant, the doctor can slide the dental crown onto the limiting cylinder 221 at any time to judge the position of the implant adjustment. In the process of adjusting the position of the implant, the dental crown is always positioned at the position to be installed and can be checked at any time in the adjustment, so that the situation that the position of the implant is deviated after the implant is implanted, the dental crown is required to be adjusted repeatedly, or the dental crown cannot be worn, and the pain of a patient is increased is avoided.

After the implantation is finished, the positioning carrying body is directly taken out, and the dental crown is worn on the implant through the abutment. The method reduces the probability of the position deviation of the implant and helps the dental crown to be directly worn on the implant at the correct position after the implantation.

It can be understood that the carrier can be applied to guide the implantation of the implant, when the implant has a bone cutting function (self-tapping property), the external tool drives the implant guide to adjust to the preoperatively designed position through the carrier, and the position of the implant is determined through the crown position designed and manufactured on the carrier before the operation. Of course, the carrier may also be used to adjust the implant position of the implant, and when the implant itself does not have the bone cutting function, the position of the implant may be adjusted in the two-dimensional crown root direction, and the position of the implant may be adjusted and confirmed by the position of the crown designed and made before the operation on the carrier, which may be specifically selected according to the actual situation.

It can be understood that the specific size and shape of each part of the carrier can be changed according to different tooth treatment positions and different implant system designs, and the specific size and shape can be selected according to actual conditions.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (7)

1. An auxiliary positioning carrier for immediate restoration of a dental implant, which is characterized in that: comprises a connecting section (1), an imitation base station (2) and a guide section (3) which are fixedly connected in sequence; one end, far away from the abutment (2), of the connecting section (1) is used for being connected with an implant, the connecting section (1) is in inserting fit with the implant to drive the implant to rotate synchronously, the guide section (3) is used for guiding a dental crown to be installed on the abutment (2), and one end, far away from the abutment (2), of the guide section (3) extends out of the dental crown for a doctor to operate; the artificial abutment (2) comprises a butting section (21) close to one end of the connecting section (1) and a limiting section (22) fixedly connected to the butting section and far away from one end of the connecting section (1), the limiting section (22) is used for fixing the three-dimensional position of the dental crown during installation, one end of the guide rod (31) far away from the operating rod (32) is fixedly connected to one end of the limiting section (22) far away from the butting section (21), at least one section of the limiting section (22) is in a non-orthocircular shape, and the limiting section (22) comprises a limiting cylinder (221) fixedly connected to the guide rod (31); the guide section (3) comprises a cylindrical guide rod (31); the guide section (3) further comprises an operating rod (32) fixedly connected to one end, far away from the imitation base station (2), of the guide rod (31), and the section of the operating rod (32) is non-circular and used for being matched with an external tool; during implantation, the dental crown is sleeved on the guide section (3), the connecting section (1) is connected with the implant, and then the implant is placed at a position to be implanted, namely the dental crown is positioned at the position to be provided with the dental crown; in the process of adjusting the position of the implant, a doctor can slide the dental crown to the limiting cylinder (221) at any time to judge the position of the implant.

2. The carrier of claim 1, wherein the carrier comprises: the connecting section (1) comprises a connecting rod (11), the connecting rod (11) is in inserting fit with the implant, and at least one section of the connecting rod (11) is in a non-circular shape.

3. The carrier of claim 1, wherein the carrier comprises: the connecting section (1) comprises a cylindrical connecting rod (11) and a rotating cylinder (12) fixedly connected to the connecting rod (11).

4. The carrier of claim 1, wherein the carrier comprises: the limiting cylinder (221) at least has one section which is non-circular.

5. The carrier of claim 1, wherein the carrier comprises: the limiting section (22) further comprises a convex rib (222) fixedly connected to the outer wall of the limiting barrel (221).

6. The carrier of claim 1, wherein the carrier comprises: the abutting section (21) is in a circular truncated cone shape, and the diameter of the abutting section (21) is gradually increased from one end close to the connecting section (1) to one end close to the guide section (3).

7. The carrier of claim 1, wherein the carrier comprises: the butt joint section (21) is a cone-shaped cylinder, the top of the cone or the bottom of the cone of the butt joint section (21) is located between the connecting section (1) and the limiting section (22), and the butt joint section (21) is sleeved on the connecting section (1).

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