CN213607054U - Multifunctional auxiliary tool for dental implant abutment - Google Patents

Abstract

The utility model relates to the technical field of dental implants, in particular to a multifunctional auxiliary tool for a dental implant abutment, which is characterized in that various abutments are required to be disassembled for many times in the traditional dental implant restoration process, which causes the complex and long operation process and the pollution and deformation of parts, the multifunctional auxiliary tool for the dental implant abutment comprises an auxiliary tool body connected with the head of a planting machine, the auxiliary tool body sequentially comprises a connecting structure, a body stabilizing structure, a thread part, a wrench structure and a vertex angle structure from top to bottom, the connecting structure is provided with a clamping groove corresponding to the head of the planter, the body stabilizing structure comprises a chamfer part, set up angle measurement hole and set up measuring stick and angle measurement hole cooperation and use on the body stable structure, easily realize the separation of base station and planting body, save expense and time, have good development prospect in dental implant technical field.

Description

Multifunctional auxiliary tool for dental implant abutment

Technical Field

The utility model relates to a dental implant technical field especially relates to the multi-functional appurtenance of kind implant base station.

Background

With the development of medical and health fields in recent years, more and more people begin to pay attention to oral health, and the oral restoration by means of an implant restoration method is a common choice, wherein the implant is also called a dental implant and also called an artificial tooth root, is implanted into upper and lower jaws of an edentulous part of a human body by means of a surgical operation, and the implant restoration is finally carried out by mounting a prosthetic tooth on the upper part of the implant after an operation wound of the implant is healed.

However, through clinical verification and with the deepening of clinical application and research, the following defects are found in the implant repairing process:

1. in the mold-taking repair stage of the oral implant clinical operation, the existing common and common method and sequence are as follows: the first transfer base station and the implant that will do benefit to the reduction of the outer model of mouth of using of transfer base station spanner will be connected, then the combination of silicon rubber and dental tray is used and is shifted out the condition in the mouth, need reuse at this moment to shift the intraoral transfer base station spanner and take off the intraoral transfer base station, it will be used for the fashioned healing base station of gum cuff and implant connection to change healing base station special spanner again, wait for the denture preparation to accomplish the back, reuse healing base station spanner will heal the base station and take off, the torque wrench who is changed to the restoration base station at this moment will finally prosthetic base station and implant connection, the artificial denture of portion installation above that.

By above-mentioned tradition mould taking and prosthetic process difficult to see out, various base stations need be dismantled repeatedly to this process, and need change for corresponding spanner and appurtenance, but the appurtenance that has the dismantlement now and take out the base station is hand tool, and it is hard that the process of taking out often can appear, can increase the sick pain for the patient again, increased treatment cost, and increased clinician's working strength.

When the special spanner is used, the spanner needs to be replaced repeatedly and repeatedly, the time of the treatment process is prolonged, the time beside the patient chair is prolonged, inconvenience is brought to the patient, and additional cost is generated.

In the dental implant restoration of the prior art, the abutment for restoration is relatively small, so as to facilitate accurate and effective restoration in various oral environments, but because the abutment itself is too small, the following risks are liable to occur: if there is unreliable fixation during the surgical procedure, detachment can occur, the patient can present a swallowing reflex, which can lead to the risk of this component entering the patient's throat or being inhaled into the respiratory tract, and these potentially risky and harmful events are most likely to occur during the placement or removal of the abutment within the patient's mouth by the clinician.

In addition to the above, the dental prosthetic abutment may be unstable to hold or may be improperly manipulated during carrying outside the mouth (e.g., during removal of the abutment from its sterile package and transfer of the abutment into the patient's mouth) and may fall off; when the base station is made of metal parts, the base station is likely to deform after falling off, or the time in a harmful environment is increased to cause pollution, and the base station needs to be disinfected and sterilized again; when the abutment material is a ceramic material, the abutment is likely to break after falling off, and as the repair abutment in dentistry is a customized component, the same abutment cannot be used for equivalent substitution at the first time, so that the time beside the chair is prolonged for a patient; this not only causes inconvenience to the patient, but also creates a corresponding additional cost.

3. In the existing restoration abutment used for dental implantation restoration, the angle of the restoration abutment needs to be parallel to the adjacent teeth of the missing teeth of a patient and perpendicular to the direction of the occlusion force, so that the restored denture structure can perform a normal occlusion function. However, since the clinician does not have a corresponding measuring tool, the clinician is often required to transfer the implant situation in the patient's mouth, send the implant situation to a technician's room, and then select the model and angle of the base station according to the requirement of the clinician, wherein the time for selecting the base station and the time for delivering goods by the base station manufacturer result in too long waiting time of the patient, and finally result in prolonged repair time, which not only brings inconvenience to the patient, but also causes additional cost for selecting the base station.

In view of the above-mentioned drawbacks of the prior art, the present patent application discloses a multifunctional auxiliary tool for a dental implant abutment, which can perfectly solve the above-mentioned problems.

SUMMERY OF THE UTILITY MODEL

To the above-mentioned condition, for overcoming prior art's defect, the utility model provides a multi-functional appurtenance of kind implant base station solves the problem that needs many times to dismantle various base stations and cause that the operation process is complicated, time is long and spare part pollutes, warp among the traditional kind implant restoration process.

The technical scheme is that the multifunctional auxiliary tool for the dental implant abutment comprises an auxiliary tool body connected with a planter head, wherein the auxiliary tool body sequentially comprises a connecting structure, a body stabilizing structure for enhancing the structural strength of the tool, a threaded part, a wrench structure and a vertex angle structure from top to bottom, a clamping groove corresponding to the planter head is arranged on the connecting structure and can be connected with and fixed on the planter head in clinical operation, so that the tool is quickly disassembled and assembled, clockwise rotation or anticlockwise rotation is given to the tool by the planter head, the body stabilizing structure comprises a chamfer part, so that the tool can realize stable posture in a hole of a customized abutment, corresponding shaking is not easy to cause, the abrasion of the abutment is avoided, an angle measuring hole is arranged on the body stabilizing structure, and a measuring rod is arranged to be matched with the angle measuring hole for use, through the cooperation of measuring stick and angular surveying hole, measure planting body inclination, screw thread portion realizes the effect that firmly carries the base station to connect this instrument through the planter and rotate, upwards or the downstream of base station part can be realized to the clockwise or anticlockwise rotation of helicitic texture, and the apex angle structure can cooperate with various planting body bottom outlet angles, realizes perfect matching, and avoids because the apex angle structure when planting body inside rotary motion, causes the risk of destroying the planting body.

Furthermore, the angle measuring holes comprise a plurality of measuring holes with different deflection angles relative to the central axis of the whole tool, and the deflection angles of the measuring holes are sequentially increased from top to bottom so as to achieve the purpose of more accurate measurement.

Furthermore, the angle measuring holes comprise an upper measuring hole and a lower measuring hole, the corresponding angle of the upper measuring hole deviates 15 degrees relative to the central axis of the whole tool, the measuring requirement of the implant angle of 15 degrees can be realized by matching with the measuring rod, the corresponding angle of the lower measuring hole deviates 25 degrees relative to the central axis of the whole tool, and the measuring requirement of the implant angle of 25 degrees can be realized by matching with the measuring rod.

Furthermore, the two ends of the measuring rod are provided with chamfers, so that the accurate introduction of the measuring rod and the angle measuring hole can be realized.

Furthermore, the wrench structure is a regular polygon structure with taper, the taper is a central axis vertex angle relative to the whole tool, the torque wrench effect in the operation process can be realized, the taper can be smoothly inserted into a corresponding wrench groove, and the fastening effect can be realized.

Further, the wrench structure is a regular hexagon.

Furthermore, the wrench structure is designed corresponding to the shape of each planting system.

Furthermore, the diameter of the body and the stable structure is set to be between 2.3mm and 2.65mm corresponding to each implant system, and the height dimension is set to be 3mm, 5mm and 7mm corresponding to each implant system.

Still further, the measuring stick has a diameter of between 2.3mm and 3.0mm, a height dimension of between 10mm and 13.5mm, and a small size, so that it can be operated in a narrow space in the oral cavity without interfering with adjacent teeth, gum tissue, or bone tissue.

Furthermore, the taper of the wrench structure is 1-4 degrees.

Still further, the apex angle configuration tapers preferably at 117 °, 120 °, 125 °, 130 °.

Furthermore, the thread part is a standard metric external thread, and the metric external thread is designed to match the internal thread of the customized abutment of each planting system.

Further, the nominal diameter of the threaded portion is preferably the external thread of M1.6, M1.8, M2.

A use method of a multifunctional auxiliary tool for a dental implant abutment,

s1: implanting an implant with a bolt channel into a jawbone at the edentulous part;

s2: the auxiliary tool body is disinfected and sterilized and is directly inserted into a bolt channel in an implant, when the vertex angle structure of the auxiliary tool body reaches the bottom of the bolt channel, the auxiliary tool body is rotated to enable the angle measuring hole of the auxiliary tool body to be parallel to the far middle adjacent tooth of the missing position and the near middle adjacent tooth of the missing position, at the moment, the measuring rod is inserted into any measuring hole of the upper measuring hole or the lower measuring hole, whether the measuring rod is parallel to the adjacent tooth of the missing position tooth of a patient and is perpendicular to the direction of the occlusion force is observed, if the measuring rod is not parallel to the adjacent tooth of the missing position tooth, the measuring rod is replaced into the other measuring hole of the upper measuring hole or the lower measuring hole, after the requirement is met, a required fixed base station can be directly selected according to the measured angle value, and the visual measuring method greatly saves the round trip time for selecting the base station, and can save a considerable expense for this purpose;

s3: taking the auxiliary tool body out of the implant, installing the auxiliary tool body to the head of the planter, screwing the healing base station of the implant into the wrench structure of the auxiliary tool body, and waiting for the forming of the gum cuff, wherein the time is usually 2-3 months;

s4: after the gum cuff is formed, the healing abutment in the mouth of a patient is taken down by using the wrench structure of the auxiliary tool body, the aseptically packaged customized abutment is taken out, the internal thread of the abutment is clockwise screwed into the thread part of the auxiliary tool body, the customized abutment is stable and does not shake, the customized abutment is transferred into the implant in the mouth of the patient, after the customized abutment is in place, the implanter drives the auxiliary tool body to rotate anticlockwise and come out, at the moment, the central retention screw matched with the customized abutment is installed on the wrench structure of the auxiliary tool body, and is clockwise screwed into the central bolt channel of the customized abutment to be connected and fastened with the implant, compared with the prior operation process, the operation time for replacing different tools or different wrench structures is greatly reduced, the time beside a chair is reduced, and the satisfaction degree of the patient is increased;

s5: the prosthesis is installed and fixed, and compared with the traditional prosthesis, the whole repair process is more efficient in installation.

Furthermore, after the restoration is finished for 1-2 months, the restoration can be scheduled to be slightly adjusted when the actual use process of the patient feels uncomfortable, and the specific operation steps are as follows:

s6: the auxiliary tool body is used for screwing out the central retention screw in the bolt channel anticlockwise, the base station is placed on a flat and sterile operating platform, the auxiliary tool body is screwed into the bolt channel of the base station again, and the planter rotates clockwise to drive the customized base station to move upwards by using the threaded part of the auxiliary tool body, so that the process is more convenient, rapid and effective to take out compared with the prior customized base station 21;

s7: after each prosthesis is adjusted or maintained, the steps 1-5 are repeated, the prosthesis is installed and try-on is carried out in the mouth, if a small error exists, the prosthesis can be repaired after being properly milled in the mouth, if a large error exists, all the steps need to be checked, and after the problem is determined, the steps are repeated.

The utility model has the technical effects that the auxiliary tool provided by the utility model can easily realize the separation of the base station and the implant, and has the function of a torque wrench, thereby saving the operation time of a clinician; the thread structure of the auxiliary tool realizes the effect of stable carrying, thereby preventing the extension of the time beside the subsequent chair caused by misoperation and the increase of corresponding additional cost; through the matching of the measuring rod and the angle measuring hole, the clinician can directly measure the angle of the implant in the mouth of the patient to select the corresponding base station, so that the round-trip time for selecting the base station is saved, and a considerable expense can be saved; in addition, the small size of the measuring rod enables the measuring rod to be operated in a narrow space in the oral cavity without interfering with adjacent teeth, gum tissues or bone tissues, and a more efficient and safe mode is provided for implant repair.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic sectional structure diagram of the present invention.

Fig. 3 is a schematic view of the structure of the present invention cooperating with the implant.

Fig. 4 is a schematic view of the cross-sectional structure of the present invention in cooperation with the implant.

Fig. 5 is a schematic view of the split structure of the portable base station of the present invention.

Fig. 6 is a schematic view of the structure combination of the portable base of the present invention.

Fig. 7 is a three-dimensional schematic split view of the wrench of the present invention.

Fig. 8 is a perspective schematic combination view of the wrench according to the present invention.

In the figure: 111-connection structure, 112-body-stabilizing structure, 113-angle measuring hole, 1131-upper measuring hole, 1132-lower measuring hole, 1133-measuring rod, 114-thread part, 115-spanner structure, 116-vertex angle structure, 21-customized abutment, 211-central retaining screw, 212-internal thread, 22-implant, 331-missing far and middle adjacent tooth, and 332-missing near and middle adjacent tooth.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

It should be noted that in the description of the present invention, the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. indicating the directions or positional relationships are based on the directions or positional relationships shown in the drawings, which are only for convenience of description, and do not indicate or imply that the device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," "third," and "fourth" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Furthermore, it should be noted that, in the description of the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

The first embodiment is as follows: as shown in fig. 1 to 8, the multifunctional auxiliary tool for dental implant abutment comprises an auxiliary tool body connected with an implanter handpiece, the auxiliary tool body sequentially comprises a connecting structure 111, a body stabilizing structure 112 for enhancing the structural strength of the tool, a threaded portion 114, a wrench structure 115 and an apex angle structure 116 from top to bottom, the connecting structure 111 is provided with a clamping groove corresponding to the implanter handpiece and can be connected and fixed with the implanter handpiece in clinical operation, so as to realize the rapid disassembly and assembly of the tool, and the implanter handpiece is used for endowing the tool with clockwise rotation or counterclockwise rotation, the body stabilizing structure 112 comprises a chamfer portion, so that the tool can realize stable posture in a fixed standard abutment hole, is not easy to cause corresponding shaking, avoids abrasion of the abutment, the body stabilizing structure 112 is provided with an angle measuring hole 113 and a measuring rod 1133 matched with the angle measuring hole for use, through the cooperation of measuring stick 1133 and angle measurement hole 113, measure implant inclination, screw thread portion 114 realizes the effect of firmly carrying the base station to connect this instrument through the planter and rotate, upwards or the downstream of base station part can be realized to the clockwise or anticlockwise rotation of helicitic texture, and apex angle structure 116 can cooperate with various implant bottom outlet angles, realizes perfect the matching, and avoids because apex angle structure when the inside rotary motion of implant, causes the risk of destroying the implant.

Example two: on the basis of embodiment one, it all has the chamfer to measure stick 1133 both ends, can realize measuring the accurate introduction of stick and angle measurement hole, spanner structure 115 is the regular polygon structure who has the tapering, and the tapering is for the center pin apex angle for whole instrument, can realize the torque wrench effect of operation in-process, and its tapering can be realized inserting corresponding spanner groove smoothly to realize the effect of fastening.

On the basis of the second embodiment, the angle measuring holes 113 include a plurality of measuring holes having different offset angles with respect to the central axis of the whole tool, and the offset angles of the measuring holes are sequentially increased from top to bottom, so as to achieve a more accurate measurement.

Example three: on the basis of the second embodiment, the angle measuring holes 113 include an upper measuring hole 1131 and a lower measuring hole 1132, the upper measuring hole 1131 is offset by 15 ° relative to the central axis of the whole tool in correspondence to an angle, the measurement requirement of the implant angle of 15 ° can be achieved by matching with the measuring rod 1133, the lower measuring hole 1132 is offset by 25 ° relative to the central axis of the whole tool in correspondence to an angle, the measurement requirement of the implant angle of 25 ° can be achieved by matching with the measuring rod 1133, and the upper measuring hole and the lower measuring hole are respectively marked with letters U and D on the product, so as to play a definite identification role.

Example four: on the basis of the embodiment, the diameters of the body and the stabilizing structure are set to be 2.3mm-2.65mm corresponding to each implant system, the height sizes are set to be 3mm, 5mm and 7mm corresponding to each implant system, the diameter of the measuring rod 1133 is 2.3mm-3.0mm, the height size is 10mm-13.5mm, and the smaller size enables the operation in a narrow space in the oral cavity without interfering with adjacent teeth, gum tissues or bone tissues, the taper of the wrench structure 115 is 1-4 degrees, and the taper of the apex angle structure 116 is preferably 117 degrees, 120 degrees, 125 degrees and 130 degrees.

On the basis of the above embodiment, the wrench structure 115 has a regular hexagon shape.

On the basis of the above embodiments, the wrench structure 115 is designed to correspond to the shape of each planting system.

On the basis of the above embodiment, the thread part is a standard metric external thread, and the metric external thread is designed to match with the internal thread of the customized abutment of each planting system.

In the above embodiment, the nominal diameter of the threaded portion is preferably the external thread of M1.6, M1.8, M2.

Example five: on the basis of the above embodiments, the use method of the multifunctional auxiliary tool for the dental implant abutment,

s1: implanting an implant 22 with a bolt passage into a jawbone at a tooth-missing part;

s2: the auxiliary tool body is sterilized and disinfected and is directly inserted into a bolt channel in the implant 22, when the vertex angle structure 116 of the auxiliary tool body reaches the bottom of the bolt channel, the auxiliary tool body is rotated to enable the angle measuring hole 113 of the auxiliary tool body to be parallel to the far middle adjacent tooth 331 at the missing position and the near middle adjacent tooth 332 at the missing position, at the moment, the measuring rod 1133 is inserted into any measuring hole of the upper measuring hole or the lower measuring hole, whether the measuring rod 1133 is parallel to the adjacent tooth of the tooth at the missing position of a patient and is perpendicular to the direction of the occlusal force is observed, if the measuring rod is not parallel to the adjacent tooth of the tooth at the missing position, the measuring rod is replaced into the other measuring hole of the upper measuring hole or the lower measuring hole, after the requirements are met, the required customized abutment 21 can be directly selected according to the measured angle value, and the visual measuring method greatly saves the round trip time of abutment selection, and can save a considerable expense for this purpose;

s3: taking the auxiliary tool body out of the implant 22, installing the auxiliary tool body on the head of the implanter, screwing the healing abutment of the implant into the auxiliary tool body by using the wrench structure 115 of the auxiliary tool body, and waiting for the formation of the gum cuff, wherein the time is usually 2-3 months;

s4: after the gum cuff is formed, the healing abutment in the mouth of a patient is taken down by using the wrench structure 115 of the auxiliary tool body, the aseptically packaged customized abutment 21 is taken out, the internal thread 212 of the abutment is clockwise screwed into the thread part 114 of the auxiliary tool body, the customized abutment 21 is stable and free of shaking, the customized abutment 21 is transferred into the implant 22 in the mouth of the patient, after the implant is in place, the implanter drives the auxiliary tool body to anticlockwise rotate out, at the moment, the central retention screw 211 matched with the customized abutment 21 is installed on the wrench structure 115 of the auxiliary tool body and is clockwise screwed into the central bolt channel of the customized abutment 21 to be connected and fastened with the implant 22, compared with the prior operation process, the operation time for replacing different tools or different wrench structures is greatly reduced, the time beside a chair is reduced, and the satisfaction degree of the patient is increased;

s5: the prosthesis is installed and fixed, and compared with the traditional prosthesis, the whole repair process is more efficient in installation.

After the restoration is finished for 1-2 months, the restoration can be scheduled to be slightly adjusted when the actual use process of a patient feels uncomfortable, and the specific operation steps are as follows:

s6: the auxiliary tool body is used for screwing out the central retention screw 211 in the bolt channel anticlockwise, the base station is placed on a flat and sterile operating platform, the auxiliary tool body is screwed into the bolt channel of the base station again, and the planter rotates clockwise to drive the customized base station 21 to move upwards by using the threaded part 114 of the auxiliary tool body, so that the process is more convenient, rapid and effective to take out compared with the traditional customized base station 21;

s7: after each prosthesis is adjusted or maintained, the steps 1-5 are repeated, the prosthesis is installed and try-on is carried out in the mouth, if a small error exists, the prosthesis can be repaired after being properly milled in the mouth, if a large error exists, all the steps need to be checked, and after the problem is determined, the steps are repeated.

The utility model has the technical effects that the auxiliary tool provided by the utility model can easily realize the separation of the base station and the implant, and has the function of a torque wrench, thereby saving the operation time of a clinician; the thread structure of the auxiliary tool realizes the effect of stable carrying, thereby preventing the extension of the time beside the subsequent chair caused by misoperation and the increase of corresponding additional cost; through the matching of the measuring rod and the angle measuring hole, the clinician can directly measure the angle of the implant in the mouth of the patient to select the corresponding base station, so that the round-trip time for selecting the base station is saved, and a considerable expense can be saved; in addition, the small size of the measuring rod enables the measuring rod to be operated in a narrow space in the oral cavity without interfering with adjacent teeth, gum tissues or bone tissues, and a more efficient and safe mode is provided for implant repair.

The present invention has been described in detail with reference to the specific embodiments and examples, but these should not be construed as limitations of the present invention. Numerous variations and modifications can be made by those skilled in the art without departing from the principles of the invention, which should also be considered as within the scope of the invention.

Claims (4)

1. Multi-functional appurtenance of implant tooth base station includes the appurtenance body of being connected with the planter aircraft nose, its characterized in that, appurtenance body top-down includes connection structure (111), body stable structure (112), screw thread portion (114), spanner structure (115) and apex angle structure (116) in proper order, set up the draw-in groove that corresponds with the planter aircraft nose on connection structure (111), body stable structure (112) include chamfer portion, set up angle measurement hole (113) and set up measurement stick (1133) and angle measurement hole cooperation and use on body stable structure (112).

2. The multifunctional auxiliary tool for a dental implant abutment as claimed in claim 1, wherein the angle measurement hole (113) comprises an upper measurement hole (1131) and a lower measurement hole (1132), the upper measurement hole (1131) is angularly offset by 15 ° relative to the central axis of the entire tool, and the lower measurement hole (1132) is angularly offset by 25 ° relative to the central axis of the entire tool.

3. The multifunctional auxiliary tool for a dental implant abutment as claimed in claim 1, wherein the measuring bar (1133) is chamfered at both ends.

4. The multifunctional auxiliary tool for a dental implant abutment as claimed in claim 1, wherein the wrench structure (115) is a tapered regular polygon structure.

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