JP3245345U - Hand tool fitting structure - Google Patents

Abstract

The present invention provides a hand tool fitting structure that can prevent the formation of bite marks. A hand tool fitting structure includes a main body 10. The main body has a first side 11, a second side 12, a third side 13, and a fourth side 14. The first side and the second side are provided on both sides of the pair. The first side, the third side, the fourth side, and the second side constitute a first hexagon. The first hexagon is a regular hexagon and has a first axis. Each side length of the first hexagon is the first length. The first hexagon has a first line, a second line, a third line, a fourth line, a first corner end, a second corner end, and a third corner end. The lengths of the first line, second line, third line and fourth line are the first length. The first line is aligned to the first side. The second line is aligned to the second side. The third line is aligned to the third side. The fourth line is aligned to the fourth side. [Selection diagram] Figure 1

Description

The present invention relates to a hand tool fitting structure, in particular, the main body rotates the threaded member clockwise, the first surface is used as the main rotating surface, and the first side surface is rotated by the first surface. The present invention relates to a hand tool fitting structure in which bite marks are not formed on the first surface even when the screwing member is rotated because the first surface has a relatively large area.

In the conventional hand tool fitting structure, for example, as shown in FIGS. 5 and 7 of Patent Document 1 and Patent Document 2 "Socket to Prevent Nut Head from Damage", the threaded member 20 is connected to the nut head. When fitted into the portion 40, the engagement diagonal protrusions 24 were engaged with the center portions of each side of the nut head 40, and the nut head 40 could be rotated.

However, the conventional hand tool fitting structure has the following drawbacks (1) and (2).
(1) Since the engagement diagonal protrusion 24 has an acute angle, when the engagement diagonal protrusion 24 is engaged with the hexagonal surface and the hexagonal surface is rotated, the acute angle of the engagement diagonal protrusion 24 will cause the hexagonal surface to Sometimes bite marks were formed.
(2) The six engagement diagonal protrusions 24 have an acute angle shape, and due to the structure of the engagement diagonal protrusions 24, only six lines and six sides are engaged with each other. The rotational torque between the protrusion 24 and the threaded member was sometimes insufficient.

US Patent Application Publication No. 2006/0117917A1 Taiwan Utility Model Registration No. M270886

The purpose of the present invention is to use the first surface as the main rotating surface when the main body rotates the screwing member clockwise, and to rotate the first side surface by the first surface, but the screwing member is rotated clockwise by the main body. The object of the present invention is to provide a hand tool fitting structure that can prevent bite marks from being formed on the first side surface because the first surface to be rotated has a larger area.

In order to solve the above problems, according to a first aspect of the present invention, there is provided a hand tool fitting structure including a main body, wherein the main body has an opening spanner structure or is used for various hand tools. The body has a hand tool fitting structure, and the main body has a first side, a second side, a third side, and a fourth side, and the first side and the second side are opposite to each other. The first side, the third side, the fourth side, and the second side are arranged in a ring in this order, and the first side, the third side, The fourth side and the second side constitute a first hexagon, the first hexagon is a regular hexagon, and the first hexagon has a first axis. Each side length of the first hexagon is a first length, and when viewed on a two-dimensional plane, the first axis has a first vertical line, and the first hexagon has a first axis. The hexagon has a first line, a second line, a third line, a fourth line, a first corner end, a second corner end, and a third corner end, and the first line , the lengths of the second line, the third line, and the fourth line are a first length, and the first line is aligned with the first side and the length of the fourth line is a first length, and the first line is aligned with the first side and 2 lines are aligned to the second side, the third line is aligned to the third side, the fourth line is aligned to the fourth side, and the third line is aligned to the fourth side, The first line overlaps a portion of the line on the first side, the second line overlaps a portion of the line on the second side, and the third line overlaps a portion of the line on the third side. the fourth line slightly overlaps a side, the fourth line slightly overlaps the fourth side, the first side has a first surface and a first groove, and the first vertical line passes through the first surface, the first surface has a planar shape, the first surface is asymmetric with respect to the first vertical line, and the first surface is The first groove extends to the open end, the first groove is located on the right side of the first vertical line, the first groove is connected to the third side, and the first groove is has a first arc surface and a second arc surface, the first arc surface is connected to the first surface, the first arc surface is tangent to the first surface, The first arc surface is tangent to the second arc surface, the second arc surface is connected to the third side, and the integer value of the radius dimension of the first arc surface is: If the integer value of the distance between the first line and the second line is equal to, that is, the integer value of the distance between the first line and the second line is 19MM, then the first arc The integer value of the radius of the surface is 19MM, and if the integer value is 18MM, it is 18MM, and the second side has a second groove, a second surface, and a third groove, The second groove is located on the left side of the first vertical line, the second groove has a single arcuate shape, and the first vertical line is located on the left side of the first vertical line. , the second surface is opposite to the first surface, the second surface has a planar shape, and the second surface is asymmetrical with respect to the first perpendicular line, The third groove is connected to the fourth side, the second surface is located between the second groove and the third groove, and the third groove is connected to the fourth side. has a single arcuate shape and is not tangent to the second surface, the radian of the second groove is larger than the radian of the third groove, and the fourth side is , has a fourth groove, the fourth groove is provided near the third groove, the fourth groove has a single arcuate shape, and the fourth groove has a single arcuate shape, The radian of the groove is larger than the radian of the fourth groove, the radian of the fourth groove is larger than the radian of the third groove, and the radian of the fourth groove is larger than the radian of the third groove. forms a first angle, the first angle is less than 115 degrees or 120 degrees, the second side and the fourth side form a second angle, and the first angle is less than 115 degrees or 120 degrees; The second angle is smaller than 120 degrees, the second angle is slightly larger than the first angle, and a fifth groove is formed at the connection point between the third side and the fourth side. is provided, the fifth groove has a third arc surface, a fourth arc surface and a first intersection point, the third arc surface is connected to the third side, and the fifth groove has a third arc surface, a fourth arc surface and a first intersection point, and the third arc surface is connected to the third side, A fourth arc surface is connected to the fourth side, the third arc surface is larger than the fourth arc surface, and the first intersection point is connected to the third arc surface and the third arc surface. Provided is a hand tool fitting structure, characterized in that it is provided at a connection point with a side of the hand tool.

In the hand tool fitting structure of the present invention, when the main body rotates the screwing member clockwise, the first surface is used as the main rotation surface, and the first side surface is rotated by the first surface, Since the screwing member is rotated by the first surface having a larger area, the first surface does not form bite marks on the first side surface due to its structure. In addition, since the first groove, the second groove, the third groove, and the fifth groove are aligned with the first acute angle part, the first acute angle part is prevented from being worn. It can be prevented. When the screwing member is rotated by the main body, bite marks can be prevented from being formed on the six first side surfaces, and the six first acute angle parts can be prevented from being abraded and protected. When the main body rotates the threaded member counterclockwise, the first surface, second surface, first intersection, and fourth side are pressed onto the four first side surfaces of the threaded member. . Since the first side and the second side have different structures, each can play its own role.

FIG. 1 is a perspective view showing a hand tool fitting structure according to a first embodiment of the present invention. FIG. 2 is an explanatory diagram showing a hand tool fitting structure according to a first embodiment of the present invention. FIG. 2 is a top view showing the hand tool fitting structure according to the first embodiment of the present invention. FIG. 2 is a top view showing a first operating state of the hand tool fitting structure according to the first embodiment of the present invention. FIG. 3 is a top view showing a second operating state of the hand tool fitting structure according to the first embodiment of the present invention. FIG. 6 is an explanatory diagram showing rotation of the hand tool fitting structure in the second operating state according to the first embodiment of the present invention. FIG. 7 is a top view showing a hand tool fitting structure according to a second embodiment of the present invention.

(First embodiment)
See Figures 1 to 3. FIG. 1 is a perspective view showing a hand tool fitting structure according to a first embodiment of the present invention. FIG. 2 is an explanatory diagram showing the structure of the hand tool fitting part according to the first embodiment of the present invention. FIG. 3 is a top view showing the hand tool fitting structure according to the first embodiment of the present invention. As shown in FIGS. 1 to 3, the hand tool fitting structure according to the first embodiment of the present invention includes at least a main body 10. As shown in FIGS.

The main body 10 has an opening spanner structure or a hand tool fitting structure used for various hand tools. The main body 10 has a first side 11, a second side 12, a third side 13, and a fourth side 14. The first side 11 and the second side 12 are provided on both sides of the pair. The first side 11, the third side 13, the fourth side 14, and the second side 12 are arranged in a ring in this order.

The first side 11, the third side 13, the fourth side 14, and the second side 12 constitute a first hexagon 15. The first hexagon 15 is a regular hexagon. The first hexagon 15 has a first axis 150. Each side length of the first hexagon 15 is a first length 151. When viewed in a two-dimensional plane, the first axis 150 has a first vertical line 152. The first hexagon 15 has a first line 153, a second line 154, a third line 155, a fourth line 156, a first corner end 157, a second corner end 158 and a third corner. It has an end 159. The lengths of the first line 153, the second line 154, the third line 155, and the fourth line 156 are the first length 151. The first line 153 is aligned with the first side 11. Second line 154 is aligned with second side 12. Third line 155 is aligned with third side 13. Fourth line 156 is aligned with fourth side 14. The first line 153 partially overlaps the line of the first side 11. The second line 154 partially overlaps the line of the second side 12. The third line 155 slightly overlaps the third side 13. The fourth line 156 slightly overlaps the fourth side 14.

The first side 11 has a first surface 112 and a first groove 113. A first vertical line 152 passes through the first surface 112. The first surface 112 has a planar shape. First surface 112 is asymmetrical with respect to first vertical line 152. First surface 112 extends to the open end. The first groove 113 is located on the right side of the first vertical line 152. The first groove 113 is connected to the third side 13. The first groove 113 has a first arc surface 114 and a second arc surface 115. First arc surface 114 is connected to first surface 112. The first arcuate surface 114 contacts the first surface 112. The first arc surface 114 contacts the second arc surface 115. The second arc surface 115 is connected to the third side 13.

The integer value of the radial dimension of the first arc surface 114 is equal to the integer value of the distance between the first line 153 and the second line 154. That is, when the integer value of the distance between the first line 153 and the second line 154 is 19MM, the integer value of the radius of the first arc surface 114 is 19MM, and when the integer value is 18MM, the integer value is 18MM. It is. The dimensions of the first arcuate surface 114 are larger than the dimensions of the second arcuate surface 115. The numerical value of the dimension of the first arc surface 114 is 7 to 9 times the numerical value of the dimension of the second arc surface 115, or 8 times the numerical value of the dimension of the second arc surface 115.

There is a first distance 116 between the right end point of the first surface 112 and the first vertical line 152. The first length 151 is between 7 and 15 times the first distance 116. The first length 151 is 8 to 10 times the first distance 116. The first length 151 is nearly nine times the first distance 116.

The second side 12 has a second groove 121, a second surface 122, and a third groove 123. The second groove 121 is located on the left side of the first vertical line 152. The second groove 121 has a single arcuate shape. A first vertical line 152 passes through the second surface 122. Second surface 122 faces first surface 112. The second surface 122 has a planar shape. The second surface 122 is asymmetrical about the first vertical line 152. The third groove 123 is connected to the fourth side 14. The second surface 122 is located between the second groove 121 and the third groove 123. The third groove 123 has a single arcuate shape and is not tangent to the second surface 122. The radian of the second groove 121 is larger than the radian of the third groove 123.

The distance from the right end point of second surface 122 to first vertical line 152 is second distance 124. Second distance 124 is opposite first distance 116. The distance from the left end point of the second surface 122 to the first vertical line 152 is a third distance 125. The second distance 124 is greater than the third distance 125. The second distance 124 is at least 1.3 times as long as the third distance 125. Third distance 125 is longer than first distance 116. Second distance 124 is at least twice as long as first distance 116.

The fourth side 14 has a fourth groove 141. The fourth groove 141 is provided near the third groove 123. The fourth groove 141 has a single arcuate shape. The radian of the second groove 121 is larger than the radian of the fourth groove 141. The radian of the fourth groove 141 is larger than the radian of the third groove 123.

The first side 11 and the third side 13 form a first angle 16. The first angle 16 is less than 115 degrees or 120 degrees. The second side 12 and the fourth side 14 form a second angle 17. The second angle 17 is less than 120 degrees. The second angle 17 is slightly larger than the first angle 16.

A fifth groove 18 is provided at the connection point between the third side 13 and the fourth side 14. The fifth groove 18 includes a third arc surface 181, a fourth arc surface 182, and a first intersection 183. The third arc surface 181 is connected to the third side 13. Fourth arc surface 182 is connected to fourth side 14. The third arc surface 181 is larger than the fourth arc surface 182. The first intersection 183 is provided at the connection point between the third arc surface 181 and the third side 13.

See Figure 4. FIG. 4 is a top view showing the first operating state of the hand tool fitting structure according to the first embodiment of the present invention. The screw member 20 has six first side surfaces 21 and six first acute angle portions 22. When the screw member 20 is rotated clockwise by the main body 10, the screw member 20 is tightened. The first surface 112, the second surface 122, and the first intersection 183 are pressed onto the three first side surfaces 21 of the screw member 20. The first surface 112 is used as the main surface of rotation. The first surface 112 rotates the first side surface 21. Although the first surface 112 has rotational torque, the first surface 112 can prevent bite marks from being formed on the first side surface 21. The first groove 113, the second groove 121, the third groove 123, and the fifth groove 18 are aligned with the first acute angle part 22, and the first acute angle part 22 is worn. prevent that. Even if the screwing member 20 is rotated by the main body 10, it is possible to prevent bite marks from being formed on the six first side surfaces 21 and also prevent the six first acute angle portions 22 from being worn out. .

The first angle 16 is less than 115 degrees or 120 degrees. When the first surface 112 rotates the first side surface 21, only the first intersection 183 of the third side 13 is pressed against the other first side surface 21. When the second angle 17 is smaller than 120 degrees, the fourth side 14 is prevented from being pressed against the first side surface 21.

See FIGS. 5 and 6. FIG. 5 is a top view showing the second operating state of the hand tool fitting structure according to the first embodiment of the present invention. FIG. 6 is an explanatory diagram showing the rotation of the hand tool fitting structure in the second operating state according to the first embodiment of the present invention. After fitting the main body 10 to the threaded member 20, as shown in FIG. 5, when the main body 10 is rotated slightly counterclockwise, the main body 10 comes into contact with the threaded member 20, as shown in FIG. and rotate the screwing member 20 counterclockwise. When the main body 10 rotates the screw member 20 counterclockwise, the screw member 20 loosens. When the six first acute angle portions 22 are worn and six first corners 23 are already formed, the first surface 112, the second surface 122, the first intersection 183 and the fourth side 14 can be pressed onto the four first side surfaces 21 of the screwing member 20. The second plane 122 is the main plane of rotation, and the first plane 112, the first intersection 183, and the fourth side 14 are the next most important planes of rotation. When the first side surface 21 is rotated by the second surface 122, the screwing member 20 can be loosened.

When the fourth side 14 rotates, only one point is pressed onto the first side surface 21.

When the second angle 17 is smaller than 120 degrees and the second surface 122 rotates the first side surface 21, the fourth side 14 is pressed against the first side surface 21. The first angle 16 is less than 115 degrees or 120 degrees. In the third side 13, only the first intersection 183 is pressed against the other first side surface 21.

(Second embodiment)
See Figure 7. FIG. 7 is a top view showing the hand tool fitting structure according to the second embodiment of the present invention. As shown in FIG. 7, the first surface 112 has two first recessed grooves 117. The first recessed groove 117 has a triangular trough shape or an equilateral triangular trough shape. The two first recessed grooves 117 are arranged in a straight line with no spacing from each other. The second surface 122 has two second recessed grooves 126. The second recessed groove 126 faces the first recessed groove 117. The second recessed groove 126 has a triangular trough shape or an equilateral triangular trough shape. The two second recessed grooves 126 are arranged in a straight line with no spacing from each other. The structure of the second recessed groove 126 is the same as the structure of the first recessed groove 117.

The hand tool fitting structure according to the present invention has the following advantages (1) to (5).
(1) When the main body 10 rotates the threaded member 20 clockwise, the first surface 112 is used as the main rotation surface, and the first side surface 21 is rotated by the first surface 112 to create a larger area. Since the screwing member 20 is rotated by the first surface 112 having a shape, the first surface 112 does not form bite marks on the first side surface 21 due to its structure.
(2) When rotating, the first surface 112, the second surface 122, and the first intersection 183 are pressed onto the three first side surfaces 21 of the screwing member 20, and the main body 10 It has two surfaces and one point that can be rotated in accordance with the member 20.
(3) The first groove 113, the second groove 121, the third groove 123, and the fifth groove 18 are aligned with the first acute angle part 22, so the first acute groove 22 from being worn out. To prevent bite marks from being formed on the six first side surfaces 21 when rotating the screwing member 20 by the main body 10, and to prevent and protect the six first acute angle portions from being worn out. Can be done.
(4) When the main body 10 rotates the screwing member 20 counterclockwise, the first surface 112, the second surface 122, the first intersection 183, and the fourth side 14 of the screwing member 20 Pressed onto the first side surface 21, using the second surface 122 as the main rotation surface and using the first surface 112, the first intersection 183 and the fourth side 14 as the next important surface. , can be loosened. The main body 10 has two surfaces and two points that can be rotated in correspondence with the screwing member 20.
(5) To summarize the above (1) to (4), the main body 10 has a first surface 112, a first groove 113, a second groove 121, a second surface 122, and a third groove. Since the first side 11 and the second side 12 have different structures, each plays its own role when tightening or loosening the threaded member 20 by the hand tool fitting structure. be able to.

10 Main body
11 First side
12 Second side
13 Third side
14 Fourth side
15 first hexagon
16 first angle
17 Second angle
18 Fifth groove
20 Screwing member
21 1st side
22 First acute angle part
23 1st Earl
112 First side
113 First groove
114 First arc surface
115 Second arc surface
116 1st distance
117 First recess groove
121 Second groove
122 Second side
123 Third groove
124 Second distance
125 Third distance
126 Second recess groove
141 Fourth groove
150 1st axis
151 1st length
152 1st vertical line
153 1st line
154 Second line
155 Third line
156 4th line
157 1st corner end
158 Second corner end
159 Third corner end
181 Third arc surface
182 4th arc surface
183 1st intersection

Claims (6)

A hand tool fitting structure comprising a main body,
The main body has an opening spanner structure or a hand tool fitting structure used for various hand tools, and the main body has a first side, a second side, a third side, and a fourth side. The first side and the second side are provided on both sides of the pair, and the first side, the third side, the fourth side, and the second side are arranged in this order. Arranged in a ring,
The first side, the third side, the fourth side and the second side constitute a first hexagon, the first hexagon is a regular hexagon, and the first side The hexagon has a first axis, each side length of the first hexagon has a first length, and when viewed on a two-dimensional plane, the first axis has a first axis. 1 vertical line, the first hexagon has a first line, a second line, a third line, a fourth line, a first corner end, a second corner end and a third and the lengths of the first line, the second line, the third line and the fourth line are a first length, and the first line is: the second line is aligned with the second side, the third line is aligned with the third side, and the fourth line is aligned with the third side; , aligned with the fourth side, the first line overlaps a portion of the line of the first side, and the second line overlaps a portion of the line of the second side. , the third line slightly overlaps the third side, and the fourth line slightly overlaps the fourth side,
The first side has a first surface and a first groove, the first vertical line passes through the first surface, and the first surface has a planar shape, The first surface is asymmetrical with respect to the first vertical line, the first surface extends to an open end, and the first groove is located to the right of the first vertical line. The first groove is connected to the third side, the first groove has a first arc surface and a second arc surface, and the first arc surface is connected to the first surface, the first arc surface is tangential to the first surface, the first arc surface is tangential to the second arc surface, and the second arc surface is tangential to the first surface; the arc surface is connected to the third side,
The integer value of the radial dimension of the first arc surface is equal to the integer value of the distance between the first line and the second line, that is, the distance between the first line and the second line. When the integer value of is 19MM, the integer value of the radius of the first arc surface is 19MM, and when the integer value is 18MM, it is 18MM,
The second side has a second groove, a second surface, and a third groove, the second groove is located on the left side of the first vertical line, and the second side has a second groove, a second surface, and a third groove. The groove has a single arcuate shape, the first vertical line passes through the second surface, the second surface faces the first surface, and the second vertical line passes through the second surface. has a planar shape, the second surface is asymmetrical with respect to the first vertical line, the third groove is connected to the fourth side, and the second surface is , located between the second groove and the third groove, the third groove has a single arcuate shape and is not in contact with the second surface, The radian of the second groove is larger than the radian of the third groove,
The fourth side has a fourth groove, the fourth groove is provided near the third groove, and the fourth groove has a single arcuate groove. The radian of the second groove is larger than the radian of the fourth groove, and the radian of the fourth groove is larger than the radian of the third groove,
The first side and the third side form a first angle, the first angle is less than 115 degrees or 120 degrees, and the second side and the fourth side form a first angle. , forming a second angle, the second angle being less than 120 degrees, and the second angle being slightly larger than the first angle;
A fifth groove is provided at the connection point between the third side and the fourth side, and the fifth groove is connected to the third arc surface, the fourth arc surface, and the first arc surface. the third arc surface is connected to the third side, the fourth arc surface is connected to the fourth side, and the third arc surface is connected to the fourth side. , and the first intersection point is provided at a connection point between the third arc surface and the third side. The dimension of the first arc surface is larger than the dimension of the second arc surface, and the numerical value of the dimension of the first arc surface is 7 to 9 times the numerical value of the dimension of the second arc surface, 2. The hand tool fitting structure according to claim 1, wherein the size is eight times as large as the numerical value of the dimension of the second arc surface. There is a first distance between the right end point of the first surface and the first vertical line, and the first length is between 7 and 15 times the first distance, or the first length is between 7 and 15 times the first distance. 2. The hand tool fitting structure according to claim 1, wherein the first distance is 8 to 10 times the first distance, or nearly 9 times the first distance. The distance from the right end point of the second surface to the first vertical line is a second distance, and the second distance is opposite to the first distance and is opposite to the left end of the second surface. The distance from a point to the first vertical line is a third distance, the second distance is greater than the third distance, and the second distance is at least 1.3 of the third distance. 2. The third distance is longer than the first distance, and the second distance is at least twice as long as the first distance. Hand tool fitting part structure described in 3. The first surface has two first recessed grooves, the first recessed grooves have a triangular trough shape or an equilateral triangular trough shape, and the two first recessed grooves are spaced apart from each other. 2. The hand tool fitting structure according to claim 1, wherein the hand tool fitting structure is arranged in a straight line at a distance. The second surface has two second recess grooves, the second recess groove faces the first recess groove, and the second recess groove has a triangular trough shape or an equilateral triangular shape. It has a tank shape, the two second recess grooves are arranged in a straight line with no spacing from each other, and the structure of the second recess groove is the same as the structure of the first recess groove. 6. The hand tool fitting structure according to claim 5.

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