JP3223127U - Socket structure for damaged nuts - Google Patents

Abstract

The present invention provides a socket structure for removing a nut, and dedicated to a damaged nut. A socket structure is provided with a hexagonal matching fixing hole 11 at one end of a socket 10 and a mating hole at the other end. The inner wall of the mate fixing hole 11 has an inclined surface, and the inclined surface gradually contracts and inclines at an inclination of 2 to 4 degrees, so that the end of the mate fixing hole 11 expands to the outside so that a nut can easily enter. . The avoidance grooves at the corners of each side of the matching fixing hole 11 are partitioned by action blocks 15. The action block 15 has a shape in which the center is indented, and both sides are relatively outwardly convex to form interlocking angles 16. A ring groove 17 that passes through each action block 15 is provided in the matching fixing hole 11, and by installing the ring groove 17, an inner apex angle 18 that corresponds to the ring groove 17 on each action block 15 and that is adjacent to each other below. Is formed. [Selection] Figure 1

Description

  The present invention is for removing a nut, and relates to a socket structure for a damaged nut, which is suitable for a nut with a worn corner without rubbing the corner of the nut.

  Nuts are used in large quantities in the manufacturing industry because of their ease of tightening. In particular, a nut is generally rotated in conjunction with a driver using a socket, and the nut can be tightened or removed from the work by turning the driver.

  However, according to the design principle of the machine unit, the above-mentioned nut is a consumable item that can be replaced, so that the socket becomes a necessary tool. Since the hardness of the socket far exceeds the above-mentioned nut, and the above-mentioned nut is inserted smoothly during use, there is usually a gap between the above-mentioned nut and the socket, rather than being closely matched. However, when the user tightens or loosens the force, the gap slips, the force is transferred and concentrated on the corner of the nut, and the socket material is hard. After turning, the corner is severely worn and rounded, and slips on the way of turning thereafter, making it difficult to loosen the nut.

  Therefore, research and improvement on the shortcomings of the conventional socket as described above is a goal to be solved by the related industries. We designed and made a prototype while pursuing various fields, and obtained the present invention as a result of numerous improvements and improvements.

  The conventional socket solves the above-mentioned drawback that it is difficult to turn the corner of the nut during use and makes it difficult to turn the nut after the corner is worn, and provides a socket structure dedicated to a damaged nut.

  A socket structure dedicated to a damaged nut is provided for mating with the nut, provided with a hexagonal mating fixing hole at one end of the socket. The other end is provided with a mating hole, and the socket is connected to cover the hand tool. The inner wall of the mating fixing hole has an inclined surface, and the inclined surface gradually contracts and inclines at an inclination of 2 to 4 degrees, and the end of the mating fixing hole expands to the outside so that the nut enters. It becomes easy. Further, the avoidance grooves at the corners of each side of the matching fixing hole are partitioned by action blocks. The action block has a shape in which the center is indented, and both sides are relatively outwardly convex to form interlocking angles. A ring groove that passes through each action block is provided in the mating fixing hole, and the installation of the ring groove forms an inner apex angle that is adjacent to each of the action blocks above and below the ring groove. This provides a socket structure specifically for damaged nuts.

  (1) When the socket is turned, the interlocking angle and the inner apex angle are matched by meshing with the top and bottom of each side of the nut at the same time. When done, the socket maintains the overall shape of the nut without being worn against the corners of the nut.

  (2) By installing the avoidance groove, action block, ring groove and inner apex angle, the socket can be used for a nut whose angle has already been worn. When used, the interlocking angle and the inner apex angle are matched by engaging the top and bottom of each side of the nut, so the worn nut is forced out. Since the opposing nut angles are rounded, there is a problem that they are not turned out, and the interlocking angles are provided on both sides of the action block, and are not restricted in the direction in which the socket is turned, and are suitable for both forward rotation and inversion. .

  (3) By adding the inner apex angle, the meshing position is increased and the nut is completely meshed and fixed, so that the turning force can be reliably transmitted.

FIG. 1 is a three-dimensional view showing a socket structure for a damaged nut according to the present invention. FIG. 2 is a plan view showing a socket structure for a damaged nut according to the present invention. 3 is a cross-sectional view taken along the line AA of FIG. 2 of the present invention. 4 is a cross-sectional view taken along the line BB of FIG. 2 of the present invention. FIG. 5 is a cross-sectional view of the present invention used for a nut with worn corners. FIG. 6 is a three-dimensional view of the present invention used for a nut with worn corners.

First, please refer to FIGS. In the socket structure for a damaged nut according to the present invention, a hexagonal matching fixing hole (11) for matching the nut (20) is provided at one end of the socket (10). The other end is provided with a mating hole (12), whereby the socket (10) is connected so as to cover the hand tool. The inner wall of the mate fixing hole (11) has an inclined surface (13), and the inclined surface (13) is gradually contracted and inclined at an inclination of 2 to 4 degrees, so that the end opening of the mate fixing hole (11) is formed. The nut (20) can be easily inserted by expanding outward. Also, the avoidance grooves (14) at the corners of each side of the matching fixing hole (11) are partitioned by action blocks (15). The action block (15) has an indented shape at the center and relatively outwardly projecting on both sides, thereby forming an interlocking angle (16). A ring groove (17) passing through each action block (15) is provided in the matching fixing hole (11), and the ring groove (17) is provided in each action block (15) by installing the ring groove (17). The inner apex angles (18) adjacent to each other above and below are formed.

In actual use, the socket (10) is fitted to the outer periphery of the nut (20) by means of the mating fixing hole (11) (see FIG. 4 at the same time). Since the end opening is extended outside, it is easy to enter. After the complete insertion, the inclined surface (13) is subjected to an inward contracting action, so that it is closely fitted. When turning, there is no slipping phenomenon, so force transfer is avoided and you can concentrate on a specific part. When the socket (10) is turned, the interlocking angle (16) and the inner apex angle (18) are simultaneously meshed with each other above and below each side of the nut (20), and the angle of the nut (20) is Since the avoidance groove (14) is not in contact with the socket (10) at all, the socket (10) is not worn against the corners of the nut (20) when rotated, and the entire nut (20) is not worn. Keep the shape of.

  The socket (10) can also be used for a nut (20) whose corners have already been worn (see simultaneously FIG. 5). When in use, the interlocking angle (16) and the inner apex angle (18) are engaged with each other above and below each side of the nut (20) so that the worn nut (20) is forced out. . Since the opposite nut (20) corners are rounded, there is a problem that they are not turned out, and the interlocking angles (16) are provided on both sides of the action block (15) in the direction in which the socket (10) is turned. Without limitation, it is suitable for both normal rotation and inversion.

The above is only a part of the embodiments according to the present invention, and does not limit the scope of the present invention. That is, changes and modifications made within the scope of the claims of the present invention should belong to the scope of the present invention.

Invention:
10 Socket 11 Matching fixing hole 12 Alignment hole 13 Slope 14 Avoiding groove 15 Action block 16 Interlocking angle 17 Ring groove 18 Inner vertex angle 20 Nut

Claims (1)

A socket structure dedicated to damaged nuts,
One end of the socket is provided with a hexagonal mating fixing hole for mating with the nut, and the other end is provided with a mating hole, so that the socket is connected to cover the hand tool, and the mating fixing The inner wall of the hole exhibits an inclined surface, and the inclined surface gradually contracts and inclines at an inclination of 2 to 4 degrees, so that the end opening of the mating fixing hole expands outward, making it easier for the nut to enter, Further, the avoidance grooves at the corners of each side of the mating fixing hole are partitioned by action blocks, and the action blocks have a shape in which the center is indented, and both sides are relatively outwardly protruded. A ring groove that passes through each action block is provided in the matching fixing hole, and by installing the ring groove, each action block is adjacent to the ring groove above and below the ring groove, respectively. Damaged socket structure of the nut only, characterized in that the apex angle is formed among the.