CN110226979B - Planting is equipped with hole system of boring with from navigation drill bushing - Google Patents

Abstract

The invention discloses a planting standby drill system with a self-guiding drill sleeve, which comprises a standby drill, a guiding drill sleeve and a guiding bushing, wherein the standby drill is sleeved with the guiding drill sleeve, and the guiding drill sleeve is matched with the guiding bushing; the backup drill is provided with a guide part and a cutting part, the cutting part is arranged below, the guide part is arranged above, a step is arranged between the cutting part and the guide part, the guide drill sleeve is in clearance fit with the guide part, the backup drill and the guide drill sleeve form a whole, a tooth-groove structure is arranged between the guide bush and the guide drill sleeve, and the degrees of freedom of the guide bush and the guide drill sleeve are unified when teeth enter the groove. The invention can change the mode of double-hand operation in the current dental implantation operation, and can ensure that a doctor can execute the whole operation process by one hand on the basis of keeping the accuracy and the safety of the operation unchanged.

Description

Planting is equipped with hole system of boring with from navigation drill bushing

Technical Field

The invention relates to the field of dental implantation backup drills, in particular to a dental implantation backup drill system with a self-navigation drill sleeve.

Background

The following background is provided to aid the reader in understanding the invention and is not admitted to be prior art.

Among the options for restoration of dental defects, restoration of dental implants is becoming increasingly popular. The implantation accuracy of the implant directly influences the position accuracy of the final implant denture, and in order to obtain an ideal repairing effect, the position, angle and depth of the implant are ensured by using an implant guide plate. A doctor can realize safe and accurate implantation operation by using the implantation guide plate, so that the lower alveolar nerve can be prevented from being damaged, the maxillary sinus floor can be penetrated, and the implant can be placed at an ideal position.

In particular, during dental implantation surgery, forming a specific-aperture implant socket in an alveolar bone often requires several steps of drilling, expanding, tapping and the like, so that different-diameter drills sequentially pass through the same guide hole from small to large to prepare the hole. In order to ensure that each time a drill is made in the centre of the pilot hole, each specific size drill bit requires a drill sleeve structure with an outer diameter equal to the inner diameter of the pilot hole of the planting guide and an inner diameter equal to the outer diameter of the drill bit. For this construction to be convenient to use, a sub-handle is provided to which the entire tool is called a platen.

Except planting baffle and clamp plate, tooth planting instrument still includes planting cell-phone and backup hole drill, and the doctor needs to hold the planting cell-phone in one hand when implanting the tooth for patient, holds the clamp plate in one hand, compares in traditional planting operation, and is accurate, convenient, but because the operation space is limited, both hands operation still has inconvenient place, and both hands all tie in the operation, can't liberate one of them hand.

Disclosure of Invention

The invention aims to provide a planting hole-preparing system with a self-guiding drill sleeve, which can change the mode of double-hand operation in the current dental implantation operation, and can enable a doctor to execute the whole operation process by one hand on the basis of keeping the operation precision and the safety unchanged.

The technical scheme adopted for solving the technical problems is as follows: a planting standby drill system with a self-guiding drill sleeve comprises a standby drill, a guiding drill sleeve and a guiding bushing, wherein the standby drill is sleeved with the guiding drill sleeve, and the guiding drill sleeve is matched with the guiding bushing; the backup drill is provided with a guide part and a cutting part, the cutting part is arranged below, the guide part is arranged above, a step is arranged between the cutting part and the guide part, the guide drill sleeve is in clearance fit with the guide part, the backup drill and the guide drill sleeve form a whole, a tooth-groove structure is arranged between the guide bush and the guide drill sleeve, and the degrees of freedom of the guide bush and the guide drill sleeve are unified when teeth enter the groove.

The guiding drill sleeve and the backup drill form a whole, and when the backup drill for the operation is planted, the corresponding guiding drill sleeve can be obtained only by selecting the matched drill bit model, and the drill sleeve does not need to be selected. When the backup hole drills naturally downwards, the guide drill sleeve is held by the step. The tooth-groove between the guide bushing and the guide drill sleeve is not matched, when the motor of the backup drill is started, the backup drill rotates, the step supports the guide drill sleeve, and the guide drill sleeve rotates along with the rotation; when the gear rotates to the gear-groove alignment, the gear enters the groove, the guide drill sleeve and the guide bushing are relatively fixed, and the guide drill sleeve stops rotating.

As a preferable scheme, the bottom surface of the guide bushing is provided with teeth, and the top surface of the guide bushing is provided with a groove; alternatively, the bottom surface of the guide bushing is provided with grooves and the top surface of the guide bushing is provided with teeth.

Preferably, the guiding drill sleeve comprises a sleeve and a ring edge positioned at the top of the sleeve, and the bottom surface of the ring edge is provided with teeth. Preferably, the teeth are circular arc shaped. The sleeve is a hollow cylinder. Preferably, the teeth are perpendicular to the rim.

Preferably, the top surface of the guide bushing is provided with an arc-shaped groove which is in clearance fit with the teeth. Preferably, the teeth are arc wedges, the teeth being matched to the shape of the arc grooves. Preferably, the number of the teeth is at least one, and the teeth are in one-to-one correspondence with the arc-shaped grooves. Preferably, all teeth are located on the same circumference, all arc-shaped grooves are located on the same circumference, and the arc-shaped grooves are distributed at equal intervals.

The working process of the invention comprises the following steps: when a doctor is in tooth implantation for a patient, the guide bushing is sleeved outside the whole body formed by the backup hole drill and the guide drill sleeve, firstly, the backup hole drill can be accurately positioned to the correct position for preparing the planting nest, secondly, the backup hole drill can move along the guide drill sleeve, at the moment, the guide drill sleeve is positioned on the step surface, when the teeth on the lower end surface of the guide drill sleeve are screwed into the corresponding grooves on the guide bushing, the tooth-groove structure can restrict the guide drill sleeve, the guide drill sleeve is prevented from rotating along with the rotation of the backup hole drill, and the whole operation process is realized by only one hand of the doctor.

The invention has the advantages that:

1. the guide drill sleeve and the backup hole are provided with steps, the step is arranged to prevent the guide drill sleeve from falling off, so that the guide drill sleeve and the backup hole are integrated, and when the guide drill sleeve is used, the integrated guide drill sleeve and the backup hole and the guide bushing are placed into the planting guide plate, the whole operation process can be executed by one hand by holding the planting mobile phone, and one hand is released.

2. The guiding drill sleeve and the backup drill form a whole, and when the backup drill for the operation is planted, the corresponding guiding drill sleeve can be obtained only by selecting the matched drill bit model, and the drill sleeve does not need to be selected.

3. When the backup hole drill is withdrawn, the backup hole drill and the guide drill sleeve can be withdrawn together conveniently through the step.

4. The tooth-groove structure prevents the pilot sleeve from rotating with the rotation of the backup drill.

Drawings

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

Fig. 2 is a schematic structural view of the backup hole drill.

Fig. 3 is a schematic view of the structure of the pilot sleeve.

Fig. 4: (a) is a top view of the tooth and (b) is a side view of the tooth.

The marks in the figure are as follows: the drill bushing 1, the guide bushing 2, the backup hole drill 3, the tooth-groove structure 4, the guide part 31, the cutting part 32, the step 33, the sleeve 11, the annular rim 12, the tooth 13 and the arc-shaped groove 21.

Detailed Description

The structure to which the present invention relates or these terms of technology are further described below. These descriptions are merely illustrative of how the present invention may be implemented and are not intended to be in any way limiting.

As shown in fig. 1, a planting backup drill system with a self-guiding drill bushing comprises a backup drill 3, a guiding drill bushing 1 and a guiding bushing 2, wherein the backup drill 3 is sleeved with the guiding drill bushing 1, and the guiding drill bushing 1 is matched with the guiding bushing 2; the backup drill 3 is provided with a guide part 31 and a cutting part 32, the cutting part 32 is arranged below, the guide part 31 is arranged above, a step 33 is arranged between the cutting part 32 and the guide part 31, the guide drill sleeve 1 is in clearance fit with the guide part 31, the backup drill 3 and the guide drill sleeve 1 form a whole, a tooth-groove structure is arranged between the guide bush 2 and the guide drill sleeve 1, and the degrees of freedom of the guide bush 2 and the guide drill sleeve 1 are unified when teeth enter the groove.

The guiding drill sleeve 1 and the backup drill 3 form a whole, and when the backup drill for the implant operation is used, the corresponding guiding drill sleeve 1 can be obtained only by selecting the matched drill bit model, and the drill sleeve is not required to be selected. When the backup drill 3 is naturally downward, the pilot drill bushing 1 is held by the step 33. The tooth-groove between the guide bushing 2 and the guide bushing 1 is not matched, when the motor of the backup drill 3 is started, the backup drill 3 rotates, the step 33 supports the guide bushing 1, and the guide bushing 1 rotates along with the rotation; when the gear rotates to the gear-groove alignment, the gear enters the groove, the guide drill sleeve 1 and the guide bushing 2 are relatively fixed, and the guide drill sleeve 1 stops rotating.

The bottom surface of the guide bushing 2 is provided with teeth, and the top surface of the guide drill sleeve 1 is provided with grooves; alternatively, the bottom surface of the guide bushing 2 is provided with grooves and the top surface of the guide bushing 1 is provided with teeth.

Preferably, the pilot drill sleeve 1 comprises a sleeve 11 and a collar 12 at the top of the sleeve 11, the bottom surface of the collar 12 being provided with teeth 13. Preferably, the teeth 13 are circular arc shaped. The sleeve 11 is a hollow cylinder. Preferably, the teeth 13 are perpendicular to the rim 12.

Preferably, the top surface of the guide bush 2 is provided with an arc-shaped groove 21, and the arc-shaped groove 21 is in clearance fit with the teeth 13. Preferably, the teeth 13 are arc-shaped wedges, the teeth 13 matching the shape of the arc-shaped groove 21. Preferably, the number of the teeth 13 is at least one, and the teeth 13 are in one-to-one correspondence with the arc grooves 21. Preferably, all teeth 13 are located on the same circumference, all arcuate grooves 21 are located on the same circumference, and the arcuate grooves 21 are equally spaced.

The working process of the invention comprises the following steps: when a doctor is used for tooth setting of a patient, the guiding bush 2 is sleeved outside the whole body formed by the backup hole drill 3 and the guiding drill sleeve 1, firstly, the backup hole drill 3 can be accurately positioned to the correct position for preparing a planting nest, secondly, the backup hole drill 3 can move along the guiding drill sleeve 1, at the moment, the guiding drill sleeve 1 is positioned on the surface of the step 33, when the teeth 13 on the lower end surface of the guiding drill sleeve 1 are screwed into the corresponding arc-shaped grooves 21 on the guiding bush 2, the tooth-groove structure can restrict the guiding drill sleeve 1, the guiding drill sleeve 1 is prevented from rotating along with the rotation of the backup hole drill 3, and the whole operation process is realized by the doctor only through one hand operation.

The invention shown and described herein may be practiced without any of the elements, limitations specifically disclosed herein. The terms and expressions which have been employed are used as terms of description and not of limitation, and there is no intention in the use of such terms and expressions of excluding any equivalents of the features shown and described or portions thereof, and it is recognized that various modifications are possible within the scope of the invention. It is therefore to be understood that while the present invention has been specifically disclosed by various embodiments and optional features, modification and variation of the concepts herein described may be resorted to by those skilled in the art, and that such modifications and variations are considered to be within the scope of this invention as defined by the appended claims.

The contents of the articles, patents, patent applications, and all other documents and electronically available information described or documented herein are incorporated by reference in their entirety to the same extent as if each individual publication was specifically and individually indicated to be incorporated by reference. Applicants reserve the right to incorporate any and all materials and information from any such articles, patents, patent applications, or other documents.

Claims (1)

1. The planting standby hole drilling system with the self-guiding drill bushing is characterized by comprising a standby hole drill, a guiding drill bushing and a guiding bushing, wherein the guiding drill bushing is sleeved on the standby hole drill, and the guiding drill bushing is matched with the guiding bushing; the backup hole drill is provided with a guide part and a cutting part, the cutting part is arranged below, the guide part is arranged above, a step is arranged between the cutting part and the guide part, the guide drill sleeve is in clearance fit with the guide part, the backup hole drill and the guide drill sleeve form a whole, a tooth-groove structure is arranged between the guide bush and the guide drill sleeve, and the degrees of freedom of the guide bush and the guide drill sleeve are unified when teeth enter the groove;

the bottom surface of the guide bushing is provided with teeth, and the top surface of the guide bushing is provided with a groove; or the bottom surface of the guide bushing is provided with a groove, and the top surface of the guide bushing is provided with teeth;

the guiding drill sleeve comprises a sleeve and a ring edge positioned at the top of the sleeve, and teeth are arranged on the bottom surface of the ring edge;

the top surface of the guide bushing is provided with an arc-shaped groove which is in clearance fit with the teeth;

the teeth are arc wedge blocks, and the shapes of the teeth and the arc grooves are matched;

the number of the teeth is at least one, and the teeth correspond to the arc-shaped grooves one by one;

all teeth are positioned on the same circumference, all arc-shaped grooves are positioned on the same circumference, and the arc-shaped grooves are distributed at equal intervals;

the guiding drill bushing is positioned on the step surface.