KR101477734B1 - Hybrid driving tool - Google Patents

Abstract

The present invention relates to a body part formed to extend in the longitudinal direction and having a first end and a second end which is an opposite end to the first end; A mounting portion formed at the first end and configured to allow the body to be mounted to the tool; A driving unit formed in the area defined by a rectangular cross section at the second end and having a plurality of drives stacked in the longitudinal direction; And a reference projection protruding from a free end of the driving unit and having a cross sectional area smaller than that of the driving unit, wherein the driving unit is disposed at a portion near the reference projection of the driving unit, A first drive of a cross-section in which parts except for the diagonals of the first cross-section are removed; And a second drive having a rectangular cross-sectional shape corresponding to a shape defined by the rectangular cross-section and positioned between the first drive and the body portion, wherein the object having the cross-sectional drive groove and the drive Each of the four free edges of the two diagonals forming the same line as a corresponding one of the four corners of the second drive, And is located at an intersection of the two diagonals of the cross section.

Description

[0001] HYBRID DRIVING TOOL [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a composite driving tool used for rotationally driving a target object, for example, for placing an implant.

Generally, implants include Maxillofacial Plate, Cervical Cage, and Dental. For convenience of explanation, the dental implant system is described as an example. The dental implant system consists of a fixture that is inserted and bonded to the alveolar bone, and a prosthesis such as an abutment for fixing the artificial tooth (crown). Also, auxiliary tools such as a mount, a cover screw, a healing abutment, and a positioning cylinder are used until the completion of the implant treatment.

Implant systems are performed using a variety of fastening and assembly mechanisms. For example, various drills are used to form a basic hole such as a point drill and a tab drill. There are also various drivers that use a variety of elements of the implant system and various drills using handling tools such as handpieces or torque wrenches. This is described in Korean Patent No. 10-0840352.

In such a driver, when the shape of the drive groove of the plate-shaped object to be driven by the driver is different, there is an inconvenience that the driver must be replaced according to the shape of the groove.

An object of the present invention is to provide a composite drive tool having two or more drives provided in a single tool so as to be compatible with different types of objects and having a strong support structure that is easy to align with drive holes.

A composite drive tool according to an embodiment of the present invention for realizing the above-mentioned problem is provided with a body portion having a first end portion and a second end portion which is an end opposite to the first end portion, ; A mounting portion formed at the first end and configured to allow the body to be mounted to the tool; A driving unit formed in the area defined by a rectangular cross section at the second end and having a plurality of drives stacked in the longitudinal direction; And a reference projection protruding from a free end of the driving unit and having a cross sectional area smaller than that of the driving unit, wherein the driving unit is disposed at a portion near the reference projection of the driving unit, A first drive of a cross-section in which parts except for the diagonals of the first cross-section are removed; And a second drive having a rectangular cross-sectional shape corresponding to a shape defined by the rectangular cross-section and positioned between the first drive and the body portion, wherein the object having the cross-sectional drive groove and the drive Each of the four free edges of the two diagonals forming the same line as a corresponding one of the four corners of the second drive, And may be located at the intersection of the two diagonals of the cross section.

Here, a chamfer may be formed at the corner of the rectangular cross section of the second drive.

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According to the composite drive tool of the present invention configured as described above, two or more drives are provided in one tool, so that different types of objects can be handled as one tool.

Therefore, it is possible to reduce the inconvenience that the user has to change the tool for each object. In addition, the reference protrusion facilitates alignment with the drive hole, and the first drive strongly supports the second drive, resulting in a high overall rigidity.

1 is a perspective view showing a composite drive tool 100 according to an embodiment of the present invention.
2 is a bottom view of the complex drive tool 100 for explaining the drive unit 150 of FIG.
3 is a conceptual diagram for explaining a mode in which the compound driving tool 100 of FIG. 1 is used to drive a target object.

Hereinafter, a composite drive tool according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings. In the present specification, the same or similar reference numerals are given to different embodiments in the same or similar configurations.

1 is a perspective view showing a composite drive tool 100 according to an embodiment of the present invention.

Referring to FIG. 1, the complex driving tool 100 may include a body 110, a mounting portion 130, and a driving portion 150.

The body 110 may have the same shape as a rod that is formed to extend in the longitudinal direction as a whole. Both ends of the body portion 110 can be referred to as a first end 111 and a second end 113, respectively. Along the longitudinal direction, the first end 111 is an end opposite the second end 113. [

A mounting portion 130 is formed at the first end 111 to allow the body portion 110 to be mounted to the tool. In this embodiment, the mounting portion 130 has upper and lower portions having a generally polygonal cross-section. At this time, a portion having a narrower cross sectional area is formed between the upper portion and the lower portion. Since the shape of the mounting portion 130 is formed corresponding to the mounting of the tool on which the composite drive tool 100 is mounted, it can be formed in other forms.

The driving unit 150 is formed at the second end 113 and is a part inserted into the driving groove of the object for rotationally driving the object. The driving unit 150 may include a reference projection 151 and a plurality of drives 153 and 155. The reference projection 151 protrudes from the center of the driving part 150 and is positioned at the front end of the driving part 150. Drives 153 and 155 are formed behind the reference protrusions 151 and are formed to be stacked along the longitudinal direction of the body 110. In this embodiment, the first drive 153 is located further from the second end 113 than the second drive 155.

The specific form of the first drive 153 and the second drive 155 will be described with reference to FIG.

2 is a bottom view of the complex drive tool 100 for explaining the drive unit 150 of FIG.

Referring to this figure, the area of the cross section of the first drive 153 is smaller than the area of the cross section of the second drive 155. In addition, the cross section of the first drive 153 is contained in the cross section of the second drive 155. In other words, the first drive 153 is projected along the longitudinal direction, and the first drive 153 is located only in the area of the second drive 155. Thus, when a drive groove having a cross-sectional area corresponding to the second drive 155 is formed on the object, the second drive 155 is inserted into the drive groove, but the first drive 153 is not disturbed.

Here, the first drive 153 may have a cross-section and the second drive 155 may have a polygonal cross-section. As an example of such a polygon, in this embodiment, the second drive 155 is illustrated as having a rectangular cross section.

In this embodiment, the four free ends 154 of the first drive 153 are located at the portions where the two adjacent sides of the quadrangular four sides 157 of the second drive 155 meet, in other words, at each of the four corners do. As a result, the free end 154 of the first drive 153 and the corner of the second drive 155 coincide with each other. Therefore, when the second drive 155 is inserted into the drive groove, The end 154 may serve to guide the second drive 155 relative to the drive groove. The free end 154 of the first drive 153 also coincides with the corner of the second drive 155 so that the support of the second drive 155 relative to the first drive 153 is also supported by the free end 154 It can be made more rigid than when the corners are inconsistent.

Further, a chamfer 159 may be formed at the four corners of the second drive 155. The chamfer 159 may be formed at the free end 154 of the first drive 153 as well as the second drive 155. This chamfer 159 can reduce the possibility of interfering with the drive groove while the corner of the second drive 155 is inserted into the drive groove of the object.

3 is a conceptual diagram for explaining a mode in which the compound driving tool 100 of FIG. 1 is used to drive a target object.

3 (a), when the driving groove of the object B1 is shallow and the cross section is cross, the first drive 153 of the driving unit 150 of the composite driving tool 100 is inserted into the driving groove The target object B ₁ can be rotationally driven.

Referring to FIG. 3B, when the driving groove of the object B ₂ is deep and the cross section is polygonal, the second drive 155 is inserted into the drive groove to rotate the object B ₂ have.

In this way, it is possible to drive the different objects B ₁ and B ₂ by using the single compound driving tool 100, thereby reducing the inconvenience of changing tools for each object.

The above-described hybrid driving tool is not limited to the configuration and operation of the embodiments described above. The embodiments may be configured so that all or some of the embodiments may be selectively combined so that various modifications may be made.

100: composite driving tool 110:
111: first end 113: second end
130: mounting part 150:
151: reference projection 153: first drive
154: free end 155: second drive
157: Paragraph 159: chamfer

Claims (7)

A body portion formed to extend in the longitudinal direction and having a first end and a second end that is an opposite end to the first end;
A mounting portion formed at the first end and configured to allow the body to be mounted to the tool;
A driving unit formed in the area defined by a rectangular cross section at the second end and having a plurality of drives stacked in the longitudinal direction; And
A reference projection projecting from a free end of the driving part and having a smaller cross sectional area than the driving part,
The driving unit includes:
A first drive of a cross section, which is located at a portion near the reference projection of the drive section, except a portion except for two diagonal lines connecting the four corners of the rectangular section; And
A second drive positioned between the first drive and the body and having a rectangular cross section corresponding to the shape defined by the rectangular cross section,
The object having the cross-section-shaped drive groove and the object having the drive-groove having the rectangular cross-sectional shape can be rotationally driven,
The four free edges of the two diagonals each forming the same line as the corresponding one of the four corners of the second drive,
Wherein the reference projection is located at an intersection of the two diagonal lines of the cross-section. The method according to claim 1,
And a chamfer is formed at the corner of the rectangular cross section of the second drive. delete delete delete delete delete

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