阅读说明：本技术 立即式牙科植牙手术导引装置及其方法 (Immediate dental implant operation guiding device and method thereof ) 是由 刘昭麟 于 2020-06-18 设计创作，主要内容包括：本发明提供一种立即式牙科植牙手术导引装置及其方法,主要结构包括一座体、一容置空间、一球体、一穿孔、及一调整件。凭借上述结构,当牙医师将座体放入患者口中缺牙处,以胶体固定后拍摄电脑断层,经牙医师诊断评估,即可控制调整件以带动球体于容置空间中移动,以改变球体中穿孔的角度及位置,进而令牙医师得以将植牙钻针沿着球体中穿孔所形成的预设路径钻入,以利后续使用不同尺寸的钻针对骨内植入路径进行扩大,与置入植体等动作。如此达到安全准确定位、立即方便、节省时间,同时节省成本的效果,并且可有效降低植牙医疗纠纷的产生。(The invention provides an immediate dental implant surgery guiding device and a method thereof. By means of the structure, when a dentist puts the base body into the edentulous position of the mouth of a patient, the colloid is used for fixing and then shooting a computer fault, the adjustment piece can be controlled to drive the ball body to move in the accommodating space through diagnosis and evaluation of the dentist, so that the angle and the position of the through hole in the ball body can be changed, the dentist can drill the tooth implantation drill needle along the preset path formed by the through hole in the ball body, and the follow-up operation of expanding the path for implanting into bones by using drills with different sizes, implanting an implant and the like is facilitated. Therefore, the effects of safe and accurate positioning, immediate convenience, time saving and cost saving are achieved, and the generation of dental implantation medical disputes can be effectively reduced.)

1. An immediate dental implant surgery guiding device is characterized by mainly comprising:

a seat body, wherein the seat body is provided with an accommodating space;

the ball body is arranged in the accommodating space and is provided with a through hole;

an adjusting piece, which is partially arranged in the through hole in a penetrating way;

the sphere positioning pieces are respectively arranged at two sides of the seat body, penetrate into the accommodating space from the outer side of the seat body and abut against the sphere; and

at least one seat body positioning piece, which is arranged on the seat body.

2. The immediate dental implant surgical guide of claim 1, wherein the holder positioning member has at least one positioning rib thereon.

3. The immediate dental implant surgery guiding device as defined in claim 1, wherein at least one gap-filling partition is connected to the holder positioning member and is located at a side of the holder.

4. The immediate dental implant surgery guiding device as defined in claim 1, wherein the base is provided with a fixing element, the fixing element is disposed at one side of the base, and the fixing element penetrates into the base from the outside of the base and abuts against the positioning member of the base.

5. The immediate dental implant surgery guiding device as defined in claim 1, wherein the base is provided with a measuring member, and the measuring member is located corresponding to the adjusting member.

6. A method of using a guidance device for an immediate dental implant procedure, comprising the steps of:

(a) placing a seat body in the position of a patient mouth where teeth are to be implanted, wherein the seat body is provided with an accommodating space, a ball is arranged in the accommodating space, the seat body is provided with at least one seat body positioning piece, and then the seat body positioning piece leans against the adjacent teeth;

(b) firstly, preliminarily fixing the seat body positioning piece by using a colloid, coating an impression material on the seat body positioning piece and the adjacent side teeth, and waiting until the impression material is solidified;

(c) carrying out computer tomography on the mouth of the patient and judging whether the angle and the position of the sphere need to be adjusted or not;

(d) moving a plurality of ball positioning pieces which are arranged on the seat body and are abutted against the ball body to enable each ball positioning piece to be far away from the ball body so as to adjust the ball body;

(e) controlling an adjusting member partially penetrating the ball body and incapable of being penetrated by X-rays to drive the ball body to rotate and slide in the accommodating space, so as to adjust the ball body to a correct position;

(f) then, moving each ball positioning piece to abut against the ball at the correct position again to achieve the positioning effect on the ball; and

(g) then the adjusting piece is taken out from a through hole on the sphere, and a tooth implantation drill needle is drilled into the position to be implanted in the mouth of the patient along the through hole after the angular position is adjusted, so as to obtain a correct expansion and implantation path, and finally, the implant can be smoothly and safely placed into the preset position.

7. The method as claimed in claim 6, wherein the holder positioning member has at least one positioning rib.

8. The method as claimed in claim 6, wherein step (a1) is performed after step (a), and the holder positioning member is connected to at least one gap-filling partition plate located at the side of the holder to stabilize the positioning of the holder.

9. The method as claimed in claim 6, wherein step (a1) is performed after step (a), and a fixing element is added to the base and penetrates into the base from the outside of the base and abuts against the positioning member of the base to stabilize the positioning of the base.

10. The method as claimed in claim 6, wherein step (e1) is performed after step (e), and a measuring member is disposed on the base, and the adjusting member is adjusted to obtain a precise value through the measuring member, so that the ball is moved to a precise position.

Technical Field

The invention relates to an immediate dental implant operation guiding device and a method thereof, which can be safely and accurately positioned, are immediately and conveniently positioned, save time and simultaneously save cost.

Background

The tooth implantation is a tooth repairing technology for mounting false teeth by artificial tooth roots to make up for missing teeth. The artificial tooth root is also called as an implant, the implant can be placed in an alveolar bone at the position of the edentulous tooth through an operation, the implant is used for replacing the tooth root of a natural tooth to become a root base for installing the dental crown, and the artificial dental crown can be installed on the implant after the integration of the alveolar bone and the implant bone of a patient is completed. The artificial tooth root is provided with the artificial tooth, so that the occlusal force close to natural teeth can be provided, the comfort and the aesthetic property are better than those of the traditional movable artificial tooth and a dental bridge, the dental implant can be used for a long time under the condition of good maintenance if the oral cavity can be kept clean and sanitary after the dental implant is implanted and the dental examination is received regularly, and therefore, the artificial tooth root is an important tooth missing repairing method.

In the conventional tooth implantation method, a drill bit is directly or not turned into a bone, and an implant body is locked after an implantation path is obtained. However, the risks and dangers are hidden, and there is a possibility that serious harm is caused to patients, and even medical disputes are derived. Then, a tooth implantation method using a guide plate matched with a computer tomography is derived, and the method has the characteristic of high safety, and the guide plate is used for diagnosis and operation. Conventionally, to use the method, firstly, a tooth mold belonging to a patient needs to be copied, then, teeth filling the vacant positions are sculptured at the tooth missing positions in the tooth mold by using wax materials, at the moment, a new tooth mold of the patient is copied by using materials such as algin, plaster and the like again, the tooth mold which is in accordance with the shape of the patient and has no missing teeth is formed, then, a thin plastic plate is arranged on the tooth mold without missing teeth, then, the plastic plate is attached to the surface of the tooth mold in a heating and vacuum compression mode, and after finishing, a lead sheet is attached to the tooth missing positions of the patient, so that the positioning plate for the computer tomography is formed. Thus, the plastic plate can be matched with the teeth of the patient, and the plastic plate with the shape of the tooth mold is the approximately transparent 'maintainer'.

Furthermore, the patient wears the diagnosis guide plate in the retainer type and shoots the computer tomography, the mouth part of the patient and the marked edentulous position can be displayed in the computer, in addition, a hole can be drilled on the diagnosis guide plate and an X-ray impermeable material is put in the hole, and the positioning mark of the preset implantation path can be obtained after the computer tomography.

After the computerized tomography is completed, some dentists ' clinics will send the computerized tomography data and the patient's dental model to the dental technician's office. In the digital era of dentistry, the oral cavity scanner installed in some clinics can scan the oral cavity condition of the patient directly, and the oral cavity condition is transmitted to the digital laboratory together with the computerized tomography file, so that the surgical guide plate can be directly manufactured. The current technician will print out the surgical guide plate by 3D printing method, and after receiving the surgical guide plate, the dentist's office will start the dental implant operation, and implant the implant into the missing tooth position of the patient's mouth at the correct angle and position by means of the guide plate.

However, the above-mentioned existing dental implant procedure has the following problems and disadvantages to be improved:

first, it is costly and time consuming to ask the technician to manufacture a conventional or digital guide plate for diagnosis or surgery.

Secondly, pre-operation preparation work such as computerized tomography evaluation, wax carving, repeated impression, vacuum compression manufacturing of a retainer-type diagnostic guide plate and the like is complicated and tedious in operation process, so that a patient can be formally operated after waiting for a certain time after seeing a doctor.

Third, some dentists are reluctant to use the above-described guide plates for diagnosis and surgery for the sake of convenience, thus increasing the risk of the patient's dental implant surgery.

Fourth, although dentist digitization is a world trend, the current dentist digitization equipment is expensive and complex to operate, and professionals must be trained to operate computers, equipment, and specialized software. Due to factors such as manpower, material resources, or financial resources, not all clinics and dentists can enter full digitalization immediately.

Disclosure of Invention

The main purposes of the invention are as follows: the ball body arranged in the accommodating space is controlled by the adjusting piece, so that the through hole in the ball body can move to a correct angle and position, the space height from the top end of the through hole to the gum is measured, and the length of the drill point required for drilling the bone to a preset position can be calculated. After the adjusting piece is removed, the dentist can drill the tooth implantation drill needle along the through hole to generate an accurate implantation path for subsequently placing the implant.

In order to achieve the purpose, the invention adopts the technical scheme that:

an immediate dental implant surgery guiding device is characterized by mainly comprising:

a seat body, wherein the seat body is provided with an accommodating space;

the ball body is arranged in the accommodating space and is provided with a through hole;

an adjusting piece, which is partially arranged in the through hole in a penetrating way;

the sphere positioning pieces are respectively arranged at two sides of the seat body, penetrate into the accommodating space from the outer side of the seat body and abut against the sphere; and

at least one seat body positioning piece, which is arranged on the seat body.

The immediate dental implant surgery guiding device is characterized in that the base body positioning piece is provided with at least one positioning rib.

The immediate dental implant surgery guiding device is characterized in that the base body positioning piece is connected with at least one gap filling partition board, and the gap filling partition board is positioned at the side edge of the base body.

The immediate dental implant surgery guiding device is characterized in that the base body is provided with a fixing element, the fixing element is arranged at one side of the base body, and the fixing element penetrates into the base body from the outer side of the base body and abuts against the base body positioning piece.

The immediate dental implant operation guiding device is characterized in that the base body is provided with a measuring piece, and the position of the measuring piece corresponds to the adjusting piece.

The adjusting member is made of a material which can not be penetrated by X-ray, and the seat body, the ball body positioning member and the seat body positioning member can be penetrated by the X-ray.

A method of using a guidance device for an immediate dental implant procedure, comprising the steps of:

(a) placing a seat body in the position of a patient mouth where teeth are to be implanted, wherein the seat body is provided with an accommodating space, a ball is arranged in the accommodating space, the seat body is provided with at least one seat body positioning piece, and then the seat body positioning piece leans against the adjacent teeth;

(b) firstly, preliminarily fixing the seat body positioning piece by using a colloid, coating an impression material on the seat body positioning piece and the adjacent side teeth, and waiting until the impression material is solidified;

(c) carrying out computer tomography on the mouth of the patient and judging whether the angle and the position of the sphere need to be adjusted or not;

(d) moving a plurality of ball positioning pieces which are arranged on the seat body and are abutted against the ball body to enable each ball positioning piece to be far away from the ball body so as to adjust the ball body;

(e) controlling an adjusting member partially penetrating the ball body and incapable of being penetrated by X-rays to drive the ball body to rotate and slide in the accommodating space, so as to adjust the ball body to a correct position;

(f) then, moving each ball positioning piece to abut against the ball at the correct position again to achieve the positioning effect on the ball; and

(g) then the adjusting piece is taken out from a through hole on the sphere, and a tooth implantation drill needle is drilled into the position to be implanted in the mouth of the patient along the through hole after the angular position is adjusted, so as to obtain a correct expansion and implantation path, and finally, the implant can be smoothly and safely placed into the preset position.

The use method of the immediate dental implant surgery guiding device is characterized in that the base body positioning piece is provided with at least one positioning rib.

The use method of the immediate dental implant surgery guiding device comprises the step (a1) of connecting the base positioning piece with at least one gap-filling partition board located at the side of the base to stabilize the positioning of the base.

The use method of the immediate dental implant surgery guiding device comprises the step (a1) of adding a fixing element to the base body after the step (a), wherein the fixing element penetrates into the base body from the outer side of the base body and abuts against the base body positioning piece to stabilize the positioning of the base body.

The use method of the immediate dental implant surgery guiding device comprises the following steps of (e1) and then (e1), arranging a measuring piece on the base body, and obtaining an accurate value through the measuring piece when adjusting the adjusting piece so as to enable the sphere to move to an accurate position.

When a dentist wants to implant teeth of a patient with missing teeth, the base body can be placed at the position of the patient mouth where the teeth are to be implanted, the base body positioning piece on the base body leans against the teeth on the adjacent side, the base body positioning piece is firstly preliminarily fixed by using a colloid, then an impression material is coated and covered on the base body positioning piece and the teeth on the adjacent side, and after the impression material is solidified, computer tomography scanning can be carried out on the mouth of the patient to judge whether the position and the angle of the through hole in the ball body need to be adjusted.

When the computer tomography evaluation result is needed to be adjusted, the sphere positioning piece abutting against the sphere is controlled to move away from the sphere, and the sphere is not limited any more, so that a dentist can control the adjusting piece partially penetrating through the through hole to adjust the position and the angle of the sphere, and further change the position and the angle of the through hole in the sphere. After the adjustment is finished, the ball body adjusting piece reversely moves in the mode and pushes against the ball body again to limit the ball body, the ball body is fixed at the correct position after the adjustment, the space height from the top end of the through hole to the gum can be measured through the scale on the adjusting piece, and the length of the drill point needed to be used when the drill point drills into the bone to the preset position can be calculated. Finally, only the adjusting piece is taken out from the perforation, and a dentist can drill a tooth implantation drill needle into the alveolar bone at the tooth missing position of the mouth of the patient along the direction of the perforation, so that the correct and accurate implantation direction and depth are obtained. Therefore, not only is the cost for manufacturing a series of tooth molds, guide plates for diagnosis and guide plates for operation saved, but also a great deal of time consumed by preparation work before tooth implantation operation is saved, and meanwhile, expensive digital machines and training devices of operators are not required to be added immediately, so that the effects of safe and accurate positioning, immediate convenience, time saving and cost saving are achieved.

Drawings

FIG. 1 is a perspective view of a preferred embodiment.

Fig. 2 is an exploded view of the preferred embodiment.

FIG. 3 is a flowchart illustrating steps in accordance with a preferred embodiment.

FIG. 4 is a schematic view of the coating process according to the preferred embodiment.

FIG. 5 is a disassembled view (one) of the preferred embodiment.

FIG. 6 is a second disassembled view of the preferred embodiment.

FIG. 7 is a schematic view of an angle adjustment according to a preferred embodiment.

FIG. 8 is a diagram illustrating the forward and backward adjustment of the preferred embodiment.

FIG. 9 is a second schematic diagram of the front-back adjustment of the preferred embodiment.

FIG. 10 is a schematic diagram of the left and right adjustment of the preferred embodiment.

Fig. 11 is an implantation schematic of the preferred embodiment.

FIG. 12 is a schematic view of the stabilization of still another preferred embodiment.

FIG. 13 is a schematic view of the stabilization of another preferred embodiment.

FIG. 14 is a schematic view of the installation of another preferred embodiment.

Description of reference numerals: base bodies 1, 1a, 1b, 1 c; an accommodating space 11; a ball positioning member 12; seat positioning members 13, 13a, 13b, 13 c; positioning ribs 131 c; a fixing element 14 a; spheres 2, 2 c; a perforation 21; the adjusting members 3, 3 c; an impression material 4; a tooth implantation drill needle 5; a gap-filling partition 6 b; and a measuring member 7 c.

Detailed Description

Referring to fig. 1 and 2, the present invention includes:

a base body 1, wherein the base body 1 is provided with an accommodating space 11;

a ball 2, the ball 2 is disposed in the accommodating space 11, and the ball 2 has a through hole 21;

an adjusting member 3, wherein the adjusting member 3 is partially inserted into the through hole 21;

a plurality of ball positioning pieces 12, wherein each ball positioning piece 12 is respectively arranged at two sides of the seat body 1, penetrates into the accommodating space 11 from the outer side of the seat body 1 and abuts against the ball 2; and

at least one seat positioning member 13, wherein the seat positioning member 13 is disposed on the seat 1.

The ball positioning element 12 is exemplified by screws, the number of the ball positioning element is three, the seat body 1 is exemplified by an arc shape, the adjusting element 3 is exemplified by a rod-shaped body with scales, the adjusting element 3 is made of a material which can not be penetrated by X-rays, the seat body 1, the ball 2, the ball positioning element 12 and the seat body positioning element 13 can be penetrated by the X-rays, and the seat body positioning element 13 is exemplified by a rod body which can slide in the seat body 1.

Referring to fig. 1 to 11, the using method of the present invention includes the steps of:

(a) placing a seat body in the position of a patient mouth where teeth are to be implanted, wherein the seat body is provided with an accommodating space, a ball is arranged in the accommodating space, the seat body is provided with at least one seat body positioning piece, and then the seat body positioning piece leans against the adjacent teeth;

(b) firstly, preliminarily fixing the seat body positioning piece by using a colloid, coating an impression material on the seat body positioning piece and the adjacent side teeth, and waiting until the impression material is solidified;

(c) carrying out computer tomography on the mouth of the patient and judging whether the angle and the position of the sphere need to be adjusted or not;

(d) moving a plurality of ball positioning pieces which are arranged on the seat body and are abutted against the ball body to enable each ball positioning piece to be far away from the ball body so as to adjust the ball body;

(e) controlling an adjusting member partially penetrating the ball body and incapable of being penetrated by X-rays to drive the ball body to rotate and slide in the accommodating space, so as to adjust the ball body to a correct position;

(f) then, moving each ball positioning piece to abut against the ball at the correct position again to achieve the positioning effect on the ball; and

(g) then the adjusting piece is taken out from a through hole on the sphere, and a tooth implantation drill needle is drilled into the position to be implanted in the mouth of the patient along the through hole after the angular position is adjusted, so as to obtain a correct expansion and implantation path, and finally, the implant can be smoothly and safely placed into the preset position.

When a patient with a missing tooth wants to perform a tooth implantation operation, a dentist will first place the base body 1 at the missing tooth position of the patient's mouth where the tooth is to be implanted, and then coat a colloid on the base body positioning piece 13, where the colloid is a light-cured resin, and the light-cured resin is a composite resin that is cured by irradiation of blue light with a specific wavelength, so as to temporarily and preliminarily adhere the base body positioning piece 13 to the left and right adjacent teeth. The seat positioning members 13 of the seat 1 lean against the teeth on the left and right sides of the edentulous position, and then an impression material 4 is coated on the seat positioning members 13 and the adjacent teeth, the impression material 4 is exemplified by plastic soil (Putty), but not limited thereto. After the impression material 4 is solidified, the inner side of the impression material can form a concave-convex pattern which is in accordance with the shape of the teeth of the patient so as to be firmly arranged on the left and right adjacent teeth, and simultaneously, the impression material still has a certain degree of elasticity after being solidified, so that the impression material can be repeatedly sleeved on or taken off from the left and right adjacent teeth.

Then, the dentist will perform the computer tomography of the mouth of the patient, and through analyzing the scanning result, evaluate whether to adjust the position and angle of the through hole 21, if it needs to adjust, the dentist will take out the seat body 1 coated with the impression material 4 from the mouth of the patient, and the seat body positioning piece 13 which is arranged on the seat body 1 and is temporarily adhered to the adjacent tooth by the light-receiving and curing resin will be taken off with it, and then the angle and position of the through hole 21 on the sphere 2 can be adjusted.

When the adjustment is desired, the sphere positioning member 12 abutting on the sphere 2 needs to be detached and separated from the sphere 2, so that the sphere 2 is not limited by the sphere positioning member 12, then the dentist can control the adjusting member 3 partially penetrating through the through hole 21 to start adjusting the position and angle of the sphere 2, and the structure of the adjusting member 3 can drive the sphere 2 to move in the accommodating space 11, as shown in fig. 8 and 9, the sphere 2 moves in parallel by 1mm to the inner side, and the adjusting member 3 can rotate the sphere 2 in the accommodating space 11 as shown in fig. 7, so that the angle of the sphere 2 is changed, and further the through hole 21 in the sphere 2 is changed.

After the sphere 2 is adjusted to the position, the sphere positioning member 12 can be moved to the position abutting against the sphere 2 again, so that the sphere 2 is fixed at the correct angle and position, and then the seat body 1 is placed at the tooth missing position in the mouth of the patient according to the original position by the material characteristics of the impression material 4, because the impression material 4 is solidified into the shape conforming to the teeth of the patient, the seat body 1 can be completely positioned while being placed back, and the adjusted sphere 2 is matched, so that the through hole 21 in the sphere 2 is at the correct tooth implantation angle and tooth implantation position.

Finally, the space height from the top of the through hole 21 to the gum is measured by the scale on the adjusting member 3, so as to calculate the length of the drill point required for drilling into the bone to a predetermined position. The dentist only needs to draw out the adjusting piece 3 from the perforation 21 in the sphere 2 and then drill a tooth implantation drill 5 into the alveolar bone of the patient along the perforation 21, and the positioning of the implantation path of the first stage of the tooth implantation operation can be completed. Therefore, the repeated manufacture of the tooth mould is not needed to be carried out for a long time, and the guide plate for diagnosis and operation is not needed to be manufactured by a high-cost commission technician, so that the effects of safe and accurate positioning, immediate convenience, time saving and cost saving are achieved.

Referring to fig. 12, a fixing element 14a is disposed on the seat body 1a, and the fixing element 14a penetrates into the seat body 1a from the outer side of the seat body 1a and abuts against the seat body positioning element 13a, and the fixing element 14a is exemplified by a screw.

Step (a1) may be performed after step (a) of this embodiment, as follows:

(a) placing a seat body in the position of a patient mouth where teeth are to be implanted, wherein the seat body is provided with an accommodating space, a ball is arranged in the accommodating space, the seat body is provided with at least one seat body positioning piece, and then the seat body positioning piece leans against the adjacent teeth;

(a1) the seat body is additionally provided with a fixing element, and the fixing element penetrates into the seat body from the outer side of the seat body and abuts against the seat body positioning piece so as to stabilize the positioning of the seat body.

When a dentist puts the base body 1a into the edentulous position of the mouth of a patient and finds that the base body 1a and the adjacent teeth generate a larger gap, the fixing element 14a can penetrate through the outer side of the base body 1a and enter the base body 1a and abut against the base body positioning piece 13a, so that the relative position of the base body 1a and the base body positioning piece 13a can be fixed, the base body 1a can not slide on the base body positioning piece 13a, and the base body 1a is prevented from shaking in the gap. If the evaluation needs to be adjusted forward or backward after the computer tomography is shot, the fixing element 14a is loosened, and the seat body 1a can be adjusted forward or backward, so that the seat body 1a is adjusted to a better position.

Referring to fig. 13, at least one gap-filling partition plate 6b is connected to the seat positioning member 13b, and the gap-filling partition plate 6b is located at a side of the seat 1b, where the number of the gap-filling partition plates 6b is two, but not limited thereto.

Step (a1) may be performed after step (a) of this embodiment, as follows:

(a) placing a seat body in the position of a patient mouth where teeth are to be implanted, wherein the seat body is provided with an accommodating space, a ball is arranged in the accommodating space, the seat body is provided with at least one seat body positioning piece, and then the seat body positioning piece leans against the adjacent teeth;

(a1) the seat body positioning piece is connected with at least one gap filling partition plate positioned at the side of the seat body so as to stabilize the positioning of the seat body.

The function of the gap-filling partition 6b is equal to that of the fixing element of the above-mentioned another preferred embodiment, and the effect of positioning the seat body 1b is achieved. When the seat body 1b and the adjacent teeth generate a large gap, the gap-filling partition board 6b can be installed at the gap, so that the gap between the seat body 1b and the adjacent teeth is filled with the gap-filling partition board 6b, and the seat body 1b cannot slide on the seat body positioning part 13b, thereby preventing the seat body 1b from shaking in the gap. If the evaluation needs to be adjusted forwards or backwards after the computer tomography is shot, the gap filling partition 6b is taken out or added, namely the seat body 1a can be adjusted to slide forwards or backwards to the optimal position. This embodiment is merely an example of another specific implementation of the stable base 1b, so as to meet different use conditions.

Referring to fig. 14, the base positioning member 13c has at least one positioning rib 131c, and the number of the positioning ribs 131c is two, for example, but not limited thereto. The seat body 1c is further provided with a measuring member 7c, the position of the measuring member 7c corresponds to the adjusting member 3c, and the measuring member 7c is a sleeve member with a protractor and scales. The seat 1c of the present embodiment is also exemplified by a rectangular shape, and is not limited thereto.

Step (e1) may be performed after step (e) of this embodiment, as follows:

(e) controlling an adjusting member partially penetrating the ball body and incapable of being penetrated by X-rays to drive the ball body to rotate and slide in the accommodating space, so as to adjust the ball body to a correct position;

(e1) a measuring piece is arranged on the seat body, and when the adjusting piece is adjusted, an accurate numerical value can be obtained through the measuring piece, so that the ball body moves to be accurately positioned.

When the dentist is controlling the adjusting piece 3c to adjust the angle and position of the sphere 2c, the measuring piece 7c can be sleeved on the seat body 1c, so that the dentist can obtain more accurate values during adjustment, and further adjust the sphere 2c to the optimal position and angle, and thus, the effect of auxiliary measurement can be achieved through the measuring piece 7 c.

In addition, when the dentist places the base body 1c at the position of the missing tooth of the mouth of the patient and performs the coating operation of the impression material, the contact area between the dental cast and the impression material and between the dental cast and the teeth can be increased through the structure of the positioning rib 131c, so that the stability of the dental cast during the disassembly and the assembly can be increased, and the implementation accuracy can be further improved.

Therefore, the immediate dental implant surgery guiding device and the method thereof can improve the prior technical key points that:

firstly, the adjusting member 3 is controlled to drive the ball 2 to rotate, and then the through hole 21 is adjusted to a correct position and angle, so that the procedure of establishing an implantation path can be performed, the time for taking a die, filling gypsum, carving wax and repeating the die is saved, the cost for manufacturing two guide plates by entrusted technicians is saved, and the effects of safe and accurate positioning, immediate convenience, time saving and cost saving are achieved.

Secondly, the structure of the fixing element 14a stabilizes the seat body 1a, thereby preventing the seat body 1a from shaking in the gap, and meanwhile, the seat body 1a can be adjusted in detail.

Thirdly, the seat body 1b is stabilized through the structure of the gap filling partition plate 6b, so that the seat body 1b is prevented from shaking in a gap, and meanwhile, the seat body 1a can be subjected to detail adjustment.

Fourth, the contact area between the present invention and teeth is increased by the structure of the positioning rib 131c, thereby improving the stability and accuracy of the implementation.

Fifthly, the accuracy in adjustment is improved through the structure of the measuring part 7c, so that the whole tooth implantation process can reach safe preset positioning at one time.

Sixth, as mentioned above, the latest dental digital technology at present uses the oral scanner and computer tomography in the clinic to transmit the digital file to the digital dental laboratory, and uses 3D printing method to make the surgical guide plate, and sends it back to the clinic for use. Not only is the shuttle time consuming, but the current oral scanners are also expensive, and require specialized personnel to operate the equipment and software. If a technician and various digital machines are required to be installed in a clinic, the required manpower, material resources and financial resources are not borne by a general dental clinic. Therefore, the invention and the method can save time, safely and conveniently and achieve the same function as the digitally manufactured guide plate for the operation made by the dentistry.