KR20070094283A - Power nut and its manufacturing method - Google Patents

Abstract

A power nut and a manufacturing method thereof are provided to generate a coupling or loosing torque having a simple structure and to simplify a manufacturing process. A power nut includes a female screw unit. The female screw unit is formed in a body to be engaged with a male screw such as a nut or the like. The female screw unit has a normal female screw part(21) and a transformed female screw part(22). The normal female screw part is formed corresponding to a male screw for a male screw part to be normally coupled thereto. The transformed female screw part is coupled to the male screw part to increase a coupling torque according to an amount of transformation by being transformed simultaneously with the normal female screw part within an elasticity range.

Description

Power nut and its manufacturing method

1 is a perspective view of a structure according to an embodiment of a power nut of the present invention.

FIG. 2A is a front view of FIG. 1, and FIG. 2B is a sectional view.

3 to 5 are front views for explaining a process according to an embodiment of the manufacturing method of the power nut of the present invention.

6 is a cross-sectional view for explaining the action of the power nut of FIG.

7 is a cross-sectional view corresponding to FIG. 2B of a structure according to another embodiment of the power nut of the present invention.

FIG. 8 is a cross-sectional view for describing an operation when the power nut of FIG. 7 is fastened. FIG.

<Description of the symbols for the main parts of the drawings>

10: power nut 11: body

11a: normal body portion 11b: round body portion

11c: deformation body 13, 14: stress concentration prevention hole

15: incision 21: normal female thread

22: deformable female thread part 30: deforming tool

50: bolt 51: male

The present invention relates to a power nut and a method of manufacturing the same, which can generate a strong tightening or loosening torque with a simple configuration and are also easy to manufacture.

Conventionally, in order to prevent loosening or loosening, a lock nut is added to a fastening nut, or a nut having a structure having an insertion hole of a lock pin has been developed. That is, the loosening prevention device of the nut of Publication No. 20-1998-0060388, the elastic bushing is coupled between the two nuts that are fastened so that the bolts and nuts used for joining various machinery or structures are not loosened after tightening , The two nuts to be fastened are different in the direction of tightening, or form a wavy protrusion on the surface where the two nuts to be fastened to the bolt and install an anti-loosening plate in the elastic bush coupled between them to tighten the fastening force by elastic force By preventing the loosening by preventing the loosening of the fastening part without the use of a separate adhesive to prevent loosening, the fastening state at the time of construction can be firmly maintained for a long time and can be easily and easily disassembled or recombined as necessary. It is practical and invented to keep the reliability of the fastening part perfectly.

Similar configurations are disclosed in Japanese Patent Application Laid-Open No. 5-71513 (1993.3.23), Japanese Patent Application Laid-Open No. 6-173929 (1994.6.21), and Japanese Patent Application Laid-open No. H7-4418 (1995.1.10). And the like are known.

However, the above-described ones have different configurations such as varying the outer diameter of the threaded portion of the bolt, or forming a female threaded portion inwardly at the end of the threaded portion of the bolt, so that the machining is complicated and difficult. The screw portion having a small outer diameter also has a problem that its fastening force is small, and since the two nuts are to be in contact with each other at the time of fastening, there is a problem such as a more complicated structure in the above configuration where the outer diameter of the screw is different.

In addition, it is easy to process and manufacture and fasten and assemble, and also the fastening nut screw and the fastening nut are fastened to the opposite direction from the fastening nut so that the fastening prevention screw can be completely completed. Some of the opposite screws for the anti-loosening nut are superimposed on the same outer diameter, but the processing method is still difficult, and when the bolt length is not correct, it cannot be used or becomes too weak bolt. There is a problem, and in order to alleviate such a problem, there is a problem such as lengthening of the thread part.

Therefore, the present invention not only solves this problem, but also provides a fastening or loosening torque with a simple configuration, and the object of the present invention is to provide a power nut and a method of manufacturing the same.

In order to achieve the above object, a power nut according to an embodiment of the present invention is a nut having a female thread formed in a body to be engaged with a male thread such as a bolt, wherein the female thread is formed to correspond to a male thread so that the male thread is normally fastened. It is characterized in that it comprises a deformed female screw portion to increase the tightening torque in accordance with the amount of deformation by fastening the same as the normal female screw portion within the elastic range by the elasticity when tightening the normal female thread and the male screw.

In addition, the present invention is to increase the tightening torque according to the deformation amount by being deformed and fastened in the same manner as the normal female screw portion is formed to correspond to the male screw and the male screw is normally fastened within the elastic range by the elasticity when the male screw is tightened. In the method of the nut for forming a female screw portion consisting of a deformed female screw portion in the body, forming a cut portion in the body, and on any one side after the formation of the female screw portion so that the body of any one side of the cut portion has a modified female screw portion It provides a method of manufacturing a power nut comprising the step of forming a deformation body by applying plastic deformation.

Hereinafter, exemplary embodiment (s) of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view of a structure according to an embodiment of the power nut 10 of the present invention, Figure 2a and 2b is a front view and a cross-sectional view of FIG.

1 to 2B, a female thread part is formed in the body 11 to be engaged with a male thread such as a bolt. The female thread part is composed of a normal female thread part 21 and a deformable female thread part 22 according to the present invention. .

The normal female threaded portion 21 is typically formed to correspond to the male threaded 51 so that the male threaded 51 of the bolt 50 is normally fastened, as shown in FIGS. 2B and 6, but the modified female threaded portion (22) is deformed so that it is not normally fastened to the male thread (51).

That is, when the male thread 51 is fastened in FIG. 6, the deformation female screw part is deformed and fastened in the same direction as the normal female screw part 21 in the arrow X direction as shown by the solid line by the elastic deformation of the female thread part 22. Deformation 22 is formed in the state shown by the dashed-dotted line in FIG. 6 (state of FIG. 2B). Therefore, the fastening or dismantling requires a strong torque, so the tightening torque should be large, but the loosening torque should also be large, it is possible to prevent the loosening of the power nut 10 with a simple configuration.

The deformed female screw portion 22 configured as described above is formed in the deformable body portion 11c divided into the cutout portions 15 in the embodiment shown in FIGS. 1 to 2B. That is, a cutout 15 is formed in the body 11 of the power nut 10, and one side of the cutout 15 and the upper side in the drawing have a normal body part 11a having the normal female screw 21. The other side of the cutout portion 15 is composed of a deformable body portion 11c, and after the female thread portion is formed on the body 11, the deformable tool 51 is deformed as shown in FIG. 5 as an example. By punching out the body portion 11c to the outside, that is, upward, the plastic deformation is applied, and thus the deformation female screw portion 22 is formed to be deformed by the inclination angle a from the normal female screw portion 21.

At this time, it is preferable that stress concentration preventing holes 13 and 14 are formed at the inner end of the cutout 15. As the stress concentration preventing holes 13 and 14 are formed in this way, cracks are prevented from being concentrated by the action stress during plastic deformation of the power nut 10, the heat treatment stress during heat treatment, or the elastic stress acting upon tightening to the male thread. It is possible to prevent the occurrence of, and furthermore, to act as a starting point of the elastic deformation acting upon tightening to the male screw so that it can be smoothly tightened under a predetermined high torque. Therefore, the diameter D of the stress concentration preventing holes 13 and 14 is preferably formed larger than the gap d of the cutout 15.

The clearance d of the cutout 15 will usually be the thickness of the carter, but unlike in the embodiment as in FIGS. 7 and 8, the smaller the clearance d, the wider the effective screw thread area, and thus the clearance d. Would be desirable.

In addition, the normal body portion 11a in which the normal female threaded portion 21 is formed should have its effective tightening height h1 set together with conventional nut design and manufacturing conditions such as materials and heat treatment conditions for a predetermined fastening force. Elastic deformation height (h2) of the deformable body portion (11c) should also be set in consideration of the torque required to prevent loosening, but in order to secure the maximum effective screw portion while reducing the height of the nut as much as shown in the drawings as an embodiment As described above, it is preferable that the cutout 15 is formed to be inclined to the upper side at the inclination angle A, that is, to the round body portion 11b. However, when the round body portion 11b is formed at the upper end of the nut as shown in the drawing, the outer end of the cutout portion 15 is formed so as to prevent the fastening torque of the deformation amount from dropping rapidly. It is preferable to incline to at least the point of contact). At higher inclination angles, the round body portion 11b is cut so that when the deformation of the deformable body portion 11c is considered in the nut of the same height, the anti-loosening torque will be lowered.

In addition, the larger the inclination angle (a) of the plastic deformation deformation screw portion 22, the greater the amount of elastic deformation during fastening, thereby increasing the tightening or anti-loosening torque due to the elastic deformation, but limiting the elastic strain by material or heat treatment. The maximum inclination angle (a) is determined to be below a certain value.

3 to 5 illustrate a process according to an embodiment of the method for manufacturing a power nut of the present invention. First, the body 11 of the power nut 10 is formed, and when the stress concentration prevention holes (13, 14) are formed, the drilling, and the incision is formed, it is preferable that the female thread is formed. In the case where the stress concentration prevention holes 13 and 14 are preferably provided, it is preferable to form the cutouts 15 after the stress concentration prevention holes 13 and 14 are formed. As an example, after punching or drilling the stress concentration preventing holes 13 and 14, the cutting operation of the cutout 15 may be easily performed by cutting with a cutting saw blade.

After forming the cutout portion 15 and the female screw portion as described above, the deformation tool 50 is acted on the body of one side of the cutout portion 15, that is, the deformable body portion 11c, as shown in FIG. 5. By applying plastic deformation, the deformable body portion 11c is plastically deformed from the structure shown by the solid line to the structure shown by the double-dotted line, and the internal female portion also forms the deformed female screw portion 22 only at the deformable body portion 11c. Done.

Subsequently, heat treatment is performed as necessary to further increase the elastic strength, resulting in a more powerful torque power nut 10. For example, in the case of a screw of diameter 12 mm and material S45C, the power nut 10, which was fastened or dismantled by applying a force of about 150 Kgf to a predetermined wrench before heat treatment, was fastened or dismantled by applying a force of 300-400 Kgf after heat treatment. Therefore, even greater tightening to loosening torque was obtained by heat treatment.

As already described with respect to the operation, as shown in Figure 6, in the normal female threaded portion 21, the male thread 51 of the bolt 50 is normally fastened, the deformation body portion reaches the deformed female threaded portion 22 11c is elastically deformed and fastened together with the deformable female threaded portion 22 in the direction of the arrow from the state shown by the double-dotted line to the solid line. Therefore, the tightening torque should be large, but the tightening torque should be large, because the tightening torque should be large because the tightening torque is required as much as the torque required for elastic deformation of the deformable body portion 11c, but the loosening torque is also large to prevent loosening of the power nut 10. You can do it.

7 and 8 show the structure of the power nut 60 according to another embodiment of the present invention. In FIG. 7 and FIG. 8, since the inclination angle b is formed in the opposite direction to the inclination angle a in the above-described embodiment, this is to be manufactured by punching and plastically deforming the round body portion 11b downward in FIG. 5. For this structure, the gap d of the cutout 15 should be largely secured in consideration of the inclination angle b. In this operation, as shown in FIG. 8, the male thread 51 of the bolt 50 is normally fastened in the normal female threaded portion 21, and the deformation body 11c is deformed when the male threaded portion 22 reaches the strained female threaded portion 22. Together with the female threaded portion 22, it is elastically deformed and fastened in the direction of the arrow Y (in the opposite direction to FIG. 6) from the state shown by the double-dotted line to the solid line. Therefore, the tightening torque should be large, but the tightening torque should be large, because the tightening torque should be large because the tightening torque is required as much as the torque required for elastic deformation of the deformable body portion 11c, but the loosening torque is also large to prevent loosening of the power nut 10. You can do it.

Although an embodiment in which the deformed female threaded portion 22 is formed through the inclined cutout 15 is described and illustrated, the present invention may be variously configured without being limited thereto, and the configuration of the cutout 15 also varies. Can be configured. The inner end of the cutout 15 is formed on both sides of one side of the hexagonal nut that is not cut in order to facilitate elasticity and facilitate the manufacture of the stress concentration preventing holes 13 and 14 in the drawing. Without limitation, it may be formed in various positions. In addition, although the hexagon nut is illustrated in the drawing, the present invention may be applied to any nut structure and shape as long as the present invention is not limited thereto.

According to the configuration and operation of the power nut and the manufacturing method according to the embodiment of the present invention described above, a strong fastening or loosening torque can be generated with a simple configuration, there is an effect such as simple manufacturing.

Claims (5)

In a nut in which a female thread part is formed in the body 11 to engage a male thread such as a bolt, The female screw part is deformed and fastened in the elastic range to be equal to the normal female screw part 21 by elasticity when the male screw is formed to correspond to the male screw so that the male screw is normally fastened, and according to the deformation amount. Power nut characterized in that it comprises a deformed female threaded portion 22 to increase the tightening torque. According to claim 1, wherein the cutout portion 15 is formed in the body 11, one side of the cutout portion 15 is composed of a normal body portion (11a) having the normal female screw portion 21, The other side of the cut-out portion 15 is a power nut, characterized in that composed of a deformed body portion (11c) having a deformed female threaded portion 22 is formed by applying plastic deformation after forming the female screw portion on the body (11). According to claim 1 or 2, wherein the stress concentration prevention holes (13, 14) are formed at the inner end of the cut-out portion 15, the cut-out portion 15 is inclined toward the upper side to secure the fastening screw portion to the maximum Power nut, characterized in that formed. The normal female thread portion 21 formed to correspond to the male thread and the normal female thread portion 21 to which the male thread is normally fastened within the elastic range by elasticity when the male thread is tightened are tightened in the same manner, thereby increasing the tightening torque according to the deformation amount. In the method of the nut for forming the female screw portion composed of the modified female screw portion 22 to the body 11, Forming a cutout 15 in the body 11 and applying plastic deformation to either side of the cutout 15 so that the body of any one side of the cutout 15 has the deformed female screw 22. Method for producing a power nut, characterized in that it comprises a step of forming a deformation body portion (11c) by. 5. The method of claim 4, further comprising forming stress concentration preventing holes (13, 14) at the inner end of the cutout portion (15), wherein the cutout portion (15) toward one end of the body (11) Method for producing a power nut, characterized in that formed inclined.

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