TW202130463A - Anti-slip fastener driver - Google Patents

Abstract

An anti-slip fastener driver includes a body portion and a driving portion formed at an end of the body portion. The driving portion is provided with a virtual rotating axis, and a first peripheral face is disposed at an outer periphery of the driving portion along a radial direction of the virtual rotating axis. The first peripheral face extends in a direction parallel to the virtual rotating axis. A terminal end of the driving portion opposite to the body portion is provided with a first end face connected to the first peripheral face. The first end face is provided with a first side and a first corner not on the first side. One end of the driving portion opposite to the body portion is provided with a virtual reference plane. The first side is on the virtual reference plane, and one end of the first side opposite to the virtual rotating axis is connected to the first peripheral face. The first corner is between the virtual reference surface and the body portion. Thus, the fastener driver can achieve a good anti-slip effect through the above structure.

Description

Driving tool with anti-slip function

The present invention mainly discloses a driving tool, especially a driving tool with anti-slip function.

Conventional driving tools such as hexagonal wrenches and screwdrivers are commonly used hand tools, which are used to drive a part to be driven, such as bolts or screws. However, since the part to be driven is generally based on cost considerations and the part to be driven is a large number of consumables, the material used in the manufacture of the driving part is softer than the material of the driving tool, so the driving tool is driven The part to be driven will cause abrasion of the part to be driven. Furthermore, using a driving tool whose size specification does not match the part to be driven to forcibly drive the part to be driven will also cause abrasion of the part to be driven. The abrasion of the to-be-driven component causes the drive hole to break teeth, so that the drive hole of the to-be-driven component is worn into an approximately circular hole, which causes the driving tool to be caught in the drive hole and pull the to-be-driven component, Relative sliding occurs between the two and cannot effectively drive the part to be driven.

In view of the shortcomings of the above-mentioned conventional structure, the present inventor designed a driving tool with anti-slip function, which can overcome all the shortcomings of the above-mentioned conventional structure.

The main purpose of the driving tool with anti-slip function of the present invention is to provide a driving tool including a body and a driving part. The driving part is formed at one end of the body, and the driving part is provided with a virtual rotating shaft. A first peripheral surface is provided on the outer peripheral edge of the imaginary shaft in the radial direction. The driving part is provided with a first end surface opposite to the end of the body. The first end surface is connected to the first peripheral surface. One end surface is provided with a first side and a first corner not on the first side, and the end of the driving portion opposite to the body is provided with a virtual reference surface, the virtual reference surface is perpendicular to the virtual rotation axis, and the first The side is on the virtual reference surface, one end of the first side is adjacent to the virtual rotation axis, the end of the first side opposite to the virtual rotation axis is connected to the first peripheral surface, and the first angle is located between the virtual reference surface and the body. Between the parts, the driving tool can achieve a good anti-slip effect through the above-mentioned structure.

The first peripheral surface extends in a direction parallel to the virtual shaft, the first end surface is connected to a first driving surface, the first driving surface extends in a direction parallel to the virtual shaft, and the first driving surface is connected to the first Angle, one of the corners of the first driving surface is on the virtual rotation axis, and the side of the first driving surface away from the first end surface is on the virtual reference surface.

The driving portion is provided with a second peripheral surface along the radial outer periphery of the virtual rotating shaft, the second peripheral surface extends in a direction parallel to the virtual rotating shaft, and the driving portion is provided with a second peripheral surface at an end opposite to the body An end surface, the second end surface is connected to the second peripheral surface, the second peripheral surface is adjacent to the first peripheral surface, and the second end surface is provided with a second side and a second corner not on the second side , The second side is on the virtual reference plane and connected to the first driving surface, the end of the first side adjacent to one end of the virtual shaft is on the virtual shaft, and one end of the second side is connected to the first side , The connection point of the first side and the second side is on the virtual shaft, the end of the second side opposite to the virtual shaft is connected to the second peripheral surface, and the second angle is located between the virtual reference surface and the body Between the Ministry.

The driving portion is provided with a third peripheral surface, a fourth peripheral surface, a fifth peripheral surface, and a sixth peripheral surface along the outer peripheral edge of the virtual shaft in the radial direction. The third peripheral surface, the fourth peripheral surface, The fifth peripheral surface and the sixth peripheral surface respectively extend in a direction parallel to the virtual axis of rotation, and an end of the driving portion opposite to the body portion is provided with a third end surface, a fourth end surface, a fifth end surface, and a A sixth end surface, the third end surface is connected to the third peripheral surface, the third peripheral surface is adjacent to the second peripheral surface and is located on the side of the second peripheral surface opposite to the first peripheral surface, the third peripheral surface The end surface is provided with a third side and a third corner not on the third side, the third side is on the virtual reference plane, one end of the third side is connected to the first side, and the first side is connected to the first side. The connection point of the three sides is on the virtual shaft, the end of the third side opposite to the virtual shaft is connected to the third peripheral surface, the third angle is located between the virtual reference surface and the body, and the fourth end surface is connected On the fourth peripheral surface, the fourth peripheral surface is adjacent to the third peripheral surface and located on the side of the third peripheral surface opposite to the second peripheral surface, and the fourth peripheral surface is parallel to the first peripheral surface , The fourth end surface is provided with a fourth side and a fourth corner not on the fourth side, the fourth side is on the virtual reference plane, one end of the fourth side is connected to the first side, and the first side One side is on the same line as the fourth side and the connection point between the two is on the virtual rotation axis, the end of the fourth side opposite to the virtual rotation axis is connected to the fourth peripheral surface, and the fourth corner is located on the virtual reference plane Between the body and the body, the fifth end surface is connected to the fifth peripheral surface, and the fifth peripheral surface is adjacent to the fourth peripheral surface and located on the side of the fourth peripheral surface opposite to the third peripheral surface, The fifth peripheral surface is parallel to the second peripheral surface, the fifth end surface is provided with a fifth side and a fifth corner not on the fifth side, the fifth side is on the virtual reference plane, and the fifth end One end of the side is connected to the second side, the connection point of the second side and the fifth side is on the virtual shaft, the end of the fifth side opposite to the virtual shaft is connected to the fifth peripheral surface, and the fifth side The angle is located between the virtual reference plane and the body, the sixth end surface is connected to the sixth peripheral surface, the sixth peripheral surface is located between the first peripheral surface and the fifth peripheral surface, the sixth peripheral surface Parallel to the third peripheral surface, the sixth end surface is provided with a sixth side and a hexagon that is not on the sixth side, the sixth side is on the virtual reference plane, and one end of the sixth side is connected to The third side, the third side and the sixth side are on the same line and the connection point of the two is on the virtual rotation axis, the end of the sixth side opposite to the virtual rotation axis is connected to the sixth circumferential surface, the first The hexagon is located between the virtual reference surface and the body, the third end surface is connected with a second driving surface, the second driving surface extends in a direction parallel to the virtual rotation axis, and the second driving surface is connected to the third corner , One of the corners of the second driving surface is on the virtual rotation axis, the side of the second driving surface away from the third end surface is on the virtual reference surface, the fourth side is connected to the second driving surface, and the fifth end surface A third driving surface is connected, the third driving surface extends in a direction parallel to the virtual rotation axis, and the third driving surface is connected to the first Five corners, one of the corners of the third driving surface is on the virtual shaft, the side of the third driving surface away from the fifth end surface is on the virtual reference surface, the sixth side is connected to the third driving surface, and the second The end surface is connected with a fourth driving surface, the fourth driving surface extends in a direction parallel to the virtual rotation axis, the fourth driving surface is connected to the second corner, one of the corners of the fourth driving surface is on the virtual rotation axis, the The side of the fourth driving surface away from the second end surface is on the virtual reference surface, the third side is connected to the fourth driving surface, the fourth end surface is connected to a fifth driving surface, and the fifth driving surface is parallel to the The fifth driving surface is connected to the fourth corner, one of the corners of the fifth driving surface is on the virtual rotation axis, and the side of the fifth driving surface away from the fourth end surface is on the virtual reference surface. , The fifth side is connected to the fifth driving surface, the sixth end surface is connected to a sixth driving surface, the sixth driving surface extends in a direction parallel to the virtual rotation axis, and the sixth driving surface is connected to the hexagon One of the corners of the sixth driving surface is on the virtual rotation axis, the side of the sixth driving surface away from the sixth end surface is on the virtual reference surface, and the first side is connected to the sixth driving surface.

The first end surface, the second end surface, the third end surface, the fourth end surface, the fifth end surface, and the sixth end surface are inclined planes that are not parallel to the virtual reference surface.

The driving portion is provided with a second peripheral surface along the radial outer periphery of the virtual rotating shaft, the second peripheral surface extends in a direction parallel to the virtual rotating shaft, and the driving portion is provided with a second peripheral surface at an end opposite to the body An end surface, the second end surface is connected to the second peripheral surface, the second peripheral surface is adjacent to the first peripheral surface, and the second end surface is provided with a second side and a second corner not on the second side , The second end surface is a plane perpendicular to the virtual axis of rotation, the second side and the second angle are on the virtual reference plane, one end of the second side is connected to the first side, the first side and the second side The connecting point of the side is on the virtual rotating shaft, and one end of the second side opposite to the virtual rotating shaft is connected to the second peripheral surface.

The driving portion is provided with a third peripheral surface, a fourth peripheral surface, a fifth peripheral surface, and a sixth peripheral surface along the outer peripheral edge of the virtual shaft in the radial direction. The third peripheral surface, the fourth peripheral surface, The fifth peripheral surface and the sixth peripheral surface respectively extend in a direction parallel to the virtual axis of rotation, and an end of the driving portion opposite to the body portion is provided with a third end surface, a fourth end surface, a fifth end surface, and a A sixth end surface, the third end surface is connected to the third peripheral surface, the third peripheral surface is adjacent to the second peripheral surface and is located on the side of the second peripheral surface opposite to the first peripheral surface, the third peripheral surface The end surface is provided with a third side and a third corner not on the third side, the third side is on the virtual reference plane, the third side is connected to the second end surface, and one end of the third side is connected to the The first side, the connection point of the first side and the third side is on the virtual rotation axis, the end of the third side opposite to the virtual rotation axis is connected to the third peripheral surface, and the third angle is located between the virtual reference plane and Between the bodies, the fourth end surface is connected to the fourth peripheral surface, and the fourth peripheral surface is adjacent to the third peripheral surface and is located on the side of the third peripheral surface opposite to the second peripheral surface. The fourth peripheral surface is parallel to the first peripheral surface, the fourth end surface is provided with a fourth side and a fourth corner not on the fourth side, and the fourth end surface is a plane perpendicular to the virtual axis of rotation. The side and the fourth corner are on the virtual reference plane, one end of the fourth side is connected to the first side, the first side and the fourth side are on the same line, and the connection point between the two is on the virtual rotation axis, The end of the fourth side opposite to the virtual shaft is connected to the fourth peripheral surface, the fourth corner is located between the virtual reference surface and the body, the fifth end surface is connected to the fifth peripheral surface, and the fifth end surface is connected to the fifth peripheral surface. The peripheral surface is adjacent to the fourth peripheral surface and is located on the side of the fourth peripheral surface opposite to the third peripheral surface, the fifth peripheral surface is parallel to the second peripheral surface, and the fifth end surface is provided with a fifth peripheral surface. Side and a fifth corner not on the fifth side, the fifth side is on the virtual reference plane, the fifth side is connected to the fourth end surface, one end of the fifth side is connected to the second side, the The connection point of the second side and the fifth side is on the virtual shaft, the end of the fifth side opposite to the virtual shaft is connected to the fifth peripheral surface, and the fifth corner is located between the virtual reference surface and the body. In between, the sixth end surface is connected to the sixth peripheral surface, the sixth peripheral surface is located between the first peripheral surface and the fifth peripheral surface, the sixth peripheral surface is parallel to the third peripheral surface, and the first peripheral surface is parallel to the third peripheral surface. The side is connected to the sixth end surface, and the sixth end surface is provided with a sixth side and a hexagon that is not on the sixth side. The sixth end surface is a plane perpendicular to the virtual axis of rotation. The hexagon is on the virtual reference plane, one end of the sixth side is connected to the third side, the third side and the sixth side are on the same line, and the connection point between the two is on the virtual shaft, the sixth side On the contrary, one end of the virtual shaft is connected to the sixth peripheral surface, the sixth hexagon is located between the virtual reference surface and the body, the third end surface is connected to a second driving surface, and the second driving surface is parallel to each other. The direction of the virtual rotation axis extends, the second driving surface is connected to the third corner, one corner of the second driving surface is on the virtual rotation axis, and the second driving surface is The side of the driving surface away from the third end surface is on the virtual reference surface, the fourth side is connected to the second driving surface, the fifth end surface is connected to a third driving surface, and the third driving surface is parallel to the virtual rotation axis Extends in the direction of, the third driving surface is connected to the fifth corner, one of the corners of the third driving surface is on the virtual rotation axis, the side of the third driving surface away from the fifth end surface is on the virtual reference surface, the The sixth side is connected to the third driving surface.

The first end surface, the third end surface, and the fifth end surface are inclined planes that are not parallel to the virtual reference surface.

The end of the first side adjacent to the virtual shaft is not on the virtual shaft, the first end surface is connected with a first driving surface, the first driving surface extends in a direction parallel to the virtual shaft, and the first driving surface is connected At the first angle, the first driving surface does not intersect the virtual rotation axis, and the side of the first driving surface away from the first end surface is on the virtual reference surface.

The driving portion is provided with a second peripheral surface along the radial outer periphery of the virtual rotating shaft, the second peripheral surface extends in a direction parallel to the virtual rotating shaft, and the driving portion is provided with a second peripheral surface at an end opposite to the body An end surface, the second end surface is connected to the second peripheral surface, the second peripheral surface is adjacent to the first peripheral surface, and the second end surface is provided with a second side and a second corner not on the second side , The second side is on the virtual reference surface, one end of the second side is adjacent to the virtual rotation axis and its end is not on the virtual rotation axis, and the end of the second side opposite to the virtual rotation axis is connected to the second circumferential surface , The second angle is located between the virtual reference plane and the body.

The driving portion is provided with a third peripheral surface, a fourth peripheral surface, a fifth peripheral surface, and a sixth peripheral surface along the outer peripheral edge of the virtual shaft in the radial direction. The third peripheral surface, the fourth peripheral surface, The fifth peripheral surface and the sixth peripheral surface respectively extend in a direction parallel to the virtual axis of rotation, and an end of the driving portion opposite to the body portion is provided with a third end surface, a fourth end surface, a fifth end surface, and a A sixth end surface, the third end surface is connected to the third peripheral surface, the third peripheral surface is adjacent to the second peripheral surface and is located on the side of the second peripheral surface opposite to the first peripheral surface, the third peripheral surface The end surface is provided with a third side and a third corner not on the third side, the third side is on the virtual reference plane, one end of the third side is adjacent to the virtual rotation axis and the end point is not on the virtual rotation axis, The end of the third side opposite to the virtual shaft is connected to the third peripheral surface, the third angle is located between the virtual reference surface and the body, the fourth end surface is connected to the fourth peripheral surface, and the fourth peripheral surface The surface is adjacent to the third peripheral surface and is located on the side of the third peripheral surface opposite to the second peripheral surface, the fourth peripheral surface is parallel to the first peripheral surface, and the fourth end surface is provided with a fourth side And a fourth corner not on the fourth side, the fourth side is on the virtual reference plane, one end of the fourth side is adjacent to the virtual rotation axis and its end is not on the virtual rotation axis, and the fourth side is opposite to One end of the virtual shaft is connected to the fourth peripheral surface, the fourth corner is located between the virtual reference surface and the body, the fifth end surface is connected to the fifth peripheral surface, and the fifth peripheral surface is connected to the fourth peripheral surface. The peripheral surface is adjacent and located on the side of the fourth peripheral surface opposite to the third peripheral surface, the fifth peripheral surface is parallel to the second peripheral surface, and the fifth end surface is provided with a fifth side and a second peripheral surface. The fifth corner of the five sides, the fifth side is on the virtual reference plane, one end of the fifth side is adjacent to the virtual rotation axis and its end is not on the virtual rotation axis, and the fifth side is opposite to one end of the virtual rotation axis Connected to the fifth peripheral surface, the fifth corner is located between the virtual reference surface and the body, the sixth end surface is connected to the sixth peripheral surface, the sixth peripheral surface is located between the first peripheral surface and the first peripheral surface Among the five peripheral surfaces, the sixth peripheral surface is parallel to the third peripheral surface, and the sixth end surface is provided with a sixth side and a hexagon that is not on the sixth side. The sixth side is on the virtual datum. On the surface, one end of the sixth side is adjacent to the virtual shaft and its end is not on the virtual shaft, the end of the sixth side opposite to the virtual shaft is connected to the sixth circumferential surface, and the sixth hexagon is located on the virtual reference Between the surface and the body, the second end surface is disposed on the side of the first driving surface opposite to the first end surface and is not connected with the first driving surface, and the second side is located at the second end surface adjacent to the first driving surface. One side of a driving surface, the third end surface is connected with a second driving surface, the second driving surface extends in a direction parallel to the virtual rotation axis, the second driving surface is connected to the third corner, and the second driving surface is not Intersecting the virtual shaft, the side of the second driving surface away from the third end surface is on the virtual reference surface, and the fourth end surface is disposed on the side of the second driving surface opposite to the third end surface and not connected to the first end surface. The two driving surfaces are connected, and the fourth side is located adjacent to the fourth end surface On one side of the second driving surface, the fifth end surface is connected with a third driving surface, the third driving surface extends in a direction parallel to the virtual rotation axis, the third driving surface is connected to the fifth corner, and the third driving surface is connected to the fifth corner. The driving surface does not intersect the virtual rotation axis, the side of the third driving surface away from the fifth end surface is on the virtual reference surface, and the sixth end surface is disposed on the side of the third driving surface opposite to the fifth end surface. Connected with the third driving surface, the sixth side is located on the side of the sixth end surface adjacent to the third driving surface, the second end surface is connected with a fourth driving surface, and the fourth driving surface is along a line parallel to the virtual axis of rotation. Extending direction, the fourth driving surface is connected to the second corner, the fourth driving surface does not intersect the virtual rotation axis, the side of the fourth driving surface away from the second end surface is on the virtual reference surface, and the third end surface Is arranged on the side of the fourth driving surface opposite to the first end surface and not connected to the fourth driving surface, the third side is located on the side of the third end surface adjacent to the fourth driving surface, and the fourth end surface is connected There is a fifth driving surface, the fifth driving surface extends in a direction parallel to the virtual rotation axis, the fifth driving surface is connected to the fourth corner, the fifth driving surface does not intersect the virtual rotation axis, the fifth driving surface The side far away from the fourth end surface is on the virtual reference surface, the fifth end surface is disposed on the side of the fifth driving surface opposite to the fourth end surface and is not connected to the fifth driving surface, and the fifth side is located at the The fifth end surface is adjacent to one side of the fifth driving surface, the sixth end surface is connected with a sixth driving surface, the sixth driving surface extends in a direction parallel to the virtual rotation axis, and the sixth driving surface is connected to the sixth hexagon , The sixth driving surface does not intersect the virtual rotation axis, the side of the sixth driving surface away from the sixth end surface is on the virtual reference surface, and the first end surface is disposed on the sixth driving surface opposite to the sixth end surface. One side is not connected to the sixth driving surface, and the first side is located on a side of the first end surface adjacent to the sixth driving surface.

A seventh end surface of the driving portion opposite to the body portion is provided with a seventh end surface, the seventh end surface is a plane perpendicular to the virtual rotation axis, the seventh end surface is on the virtual reference surface, and the seventh end surface is simultaneously connected to the first end surface. One end face, the first drive face, the second end face, the second drive face, the third end face, the third drive face, the fourth end face, the fourth drive face, the fifth end face, the fifth The driving surface, the sixth end surface and the sixth driving surface, and the outer peripheral edge of the seventh end surface along the radial direction of the virtual rotating shaft is simultaneously connected to the first peripheral surface, the second peripheral surface, the third peripheral surface, and the The fourth circumferential surface, the fifth circumferential surface, and the sixth circumferential surface.

An end of the driving portion opposite to the body is provided with a recessed hole, the recessed hole is centered on the virtual rotating shaft and extending axially along the virtual rotating shaft, and the first end surface is connected to a side opposite to the first peripheral surface In the concave hole, the first side and one end of the first driving surface adjacent to the virtual shaft are connected to the concave hole.

The driving portion is provided with a second peripheral surface along the radial outer periphery of the virtual rotating shaft, the second peripheral surface extends in a direction parallel to the virtual rotating shaft, and the driving portion is provided with a second peripheral surface at an end opposite to the body An end surface, the second end surface is connected to the second peripheral surface, the second end surface is connected to the recessed hole on a side opposite to the second peripheral surface, the second peripheral surface is adjacent to the first peripheral surface, and the first peripheral surface The two end surfaces are provided with a second side and a second corner not on the second side, the second side is on the virtual reference plane, one end of the second side is adjacent to the virtual rotation axis and the end point is not on the virtual rotation axis , The end of the second side adjacent to the virtual shaft is connected to the concave hole, the end of the second side opposite to the virtual shaft is connected to the second peripheral surface, and the second angle is located between the virtual reference surface and the body between.

The driving portion is provided with a third peripheral surface, a fourth peripheral surface, a fifth peripheral surface, and a sixth peripheral surface along the outer peripheral edge of the virtual shaft in the radial direction. The third peripheral surface, the fourth peripheral surface, The fifth peripheral surface and the sixth peripheral surface respectively extend in a direction parallel to the virtual axis of rotation, and an end of the driving portion opposite to the body portion is provided with a third end surface, a fourth end surface, a fifth end surface, and a A sixth end surface, the third end surface is connected to the third peripheral surface, the third peripheral surface is adjacent to the second peripheral surface and is located on the side of the second peripheral surface opposite to the first peripheral surface, the third peripheral surface The end surface is provided with a third side and a third corner not on the third side, the third side is on the virtual reference plane, one end of the third side is adjacent to the virtual rotation axis and the end point is not on the virtual rotation axis, The end of the third side opposite to the virtual shaft is connected to the third peripheral surface, the third angle is located between the virtual reference surface and the body, the fourth end surface is connected to the fourth peripheral surface, and the fourth peripheral surface The surface is adjacent to the third peripheral surface and is located on the side of the third peripheral surface opposite to the second peripheral surface, the fourth peripheral surface is parallel to the first peripheral surface, and the fourth end surface is provided with a fourth side And a fourth corner not on the fourth side, the fourth side is on the virtual reference plane, one end of the fourth side is adjacent to the virtual rotation axis and its end is not on the virtual rotation axis, and the fourth side is opposite to One end of the virtual shaft is connected to the fourth peripheral surface, the fourth corner is located between the virtual reference surface and the body, the fifth end surface is connected to the fifth peripheral surface, and the fifth peripheral surface is connected to the fourth peripheral surface. The peripheral surface is adjacent and located on the side of the fourth peripheral surface opposite to the third peripheral surface, the fifth peripheral surface is parallel to the second peripheral surface, and the fifth end surface is provided with a fifth side and a second peripheral surface. The fifth corner of the five sides, the fifth side is on the virtual reference plane, one end of the fifth side is adjacent to the virtual rotation axis and its end is not on the virtual rotation axis, and the fifth side is opposite to one end of the virtual rotation axis Connected to the fifth peripheral surface, the fifth corner is located between the virtual reference surface and the body, the sixth end surface is connected to the sixth peripheral surface, the sixth peripheral surface is located between the first peripheral surface and the first peripheral surface Among the five peripheral surfaces, the sixth peripheral surface is parallel to the third peripheral surface, and the sixth end surface is provided with a sixth side and a hexagon that is not on the sixth side. The sixth side is on the virtual datum. On the surface, one end of the sixth side is adjacent to the virtual shaft and its end is not on the virtual shaft, the end of the sixth side opposite to the virtual shaft is connected to the sixth circumferential surface, and the sixth hexagon is located on the virtual reference Between the surface and the body, the second end surface is disposed on the side of the first driving surface opposite to the first end surface and is not connected with the first driving surface, and the second side is located at the second end surface adjacent to the first driving surface. One side of a driving surface, the third end surface is connected with a second driving surface, the second driving surface extends in a direction parallel to the virtual rotation axis, the second driving surface is connected to the third corner, and the second driving surface is not Intersecting the virtual shaft, the side of the second driving surface away from the third end surface is on the virtual reference surface, and the fourth end surface is disposed on the side of the second driving surface opposite to the third end surface and not connected to the first end surface. The two driving surfaces are connected, and the fourth side is located adjacent to the fourth end surface On one side of the second driving surface, the fifth end surface is connected with a third driving surface, the third driving surface extends in a direction parallel to the virtual rotation axis, the third driving surface is connected to the fifth corner, and the third driving surface is connected to the fifth corner. The driving surface does not intersect the virtual rotation axis, the side of the third driving surface away from the fifth end surface is on the virtual reference surface, and the sixth end surface is disposed on the side of the third driving surface opposite to the fifth end surface. Connected with the third driving surface, the sixth side is located on the side of the sixth end surface adjacent to the third driving surface, the second end surface is connected with a fourth driving surface, and the fourth driving surface is along a line parallel to the virtual axis of rotation. Extending direction, the fourth driving surface is connected to the second corner, the fourth driving surface does not intersect the virtual rotation axis, the side of the fourth driving surface away from the second end surface is on the virtual reference surface, and the third end surface Is arranged on the side of the fourth driving surface opposite to the first end surface and not connected to the fourth driving surface, the third side is located on the side of the third end surface adjacent to the fourth driving surface, and the fourth end surface is connected There is a fifth driving surface, the fifth driving surface extends in a direction parallel to the virtual rotation axis, the fifth driving surface is connected to the fourth corner, the fifth driving surface does not intersect the virtual rotation axis, the fifth driving surface The side far away from the fourth end surface is on the virtual reference surface, the fifth end surface is disposed on the side of the fifth driving surface opposite to the fourth end surface and is not connected to the fifth driving surface, and the fifth side is located at the The fifth end surface is adjacent to one side of the fifth driving surface, the sixth end surface is connected with a sixth driving surface, the sixth driving surface extends in a direction parallel to the virtual rotation axis, and the sixth driving surface is connected to the sixth hexagon , The sixth driving surface does not intersect the virtual rotation axis, the side of the sixth driving surface away from the sixth end surface is on the virtual reference surface, and the first end surface is disposed on the sixth driving surface opposite to the sixth end surface. One side is not connected to the sixth driving surface, the first side is located on the side of the first end surface adjacent to the sixth driving surface, and one end of the fourth driving surface adjacent to the virtual shaft is connected to the concave hole, and the third The side of the end surface opposite to the third peripheral surface is connected to the recessed hole, the third side and the second driving surface are connected to the recessed hole at one end adjacent to the virtual shaft, and the fourth end surface is opposite to the fourth peripheral surface. One side is connected to the concave hole, the fourth side and one end of the fifth driving surface adjacent to the virtual shaft are connected to the concave hole, and the fifth end surface is connected to the concave hole on the side opposite to the fifth peripheral surface. One end of the fifth side and the third driving surface adjacent to the virtual shaft is connected to the concave hole, the sixth end surface is connected to the concave hole on the side opposite to the sixth peripheral surface, and the sixth side is connected to the sixth driving surface One end adjacent to the virtual rotating shaft is connected to the concave hole.

The driving portion is provided with a seventh end surface, an eighth end surface, a ninth end surface, a tenth end surface, an eleventh end surface, and a twelfth end surface at an end of the body portion opposite to the body portion. The seventh end surface, The eighth end surface, the ninth end surface, the tenth end surface, the eleventh end surface, and the twelfth end surface are planes perpendicular to the virtual axis of rotation. The seventh end surface, the eighth end surface, the ninth end surface, The tenth end surface, the eleventh end surface, and the twelfth end surface are on the virtual reference surface, the seventh end surface is disposed on the side of the first end surface opposite to the first driving surface, and one end of the seventh end surface Is connected to the recessed hole and the other end is connected to the first peripheral surface, one side of the seventh end surface is connected to the first end surface, the first side is formed between the first end surface and the seventh end surface, the eighth The end surface is arranged on a side of the second end surface opposite to the fourth driving surface, one end of the eighth end surface is connected to the concave hole and the other end is connected to the second peripheral surface, and one side of the eighth end surface is connected to the The second end surface, the second side is formed between the second end surface and the eighth end surface, the ninth end surface is disposed on the side of the third end surface opposite to the second driving surface, and one end of the ninth end surface is connected to The concave hole and the other end is connected to the third peripheral surface, one side of the ninth end surface is connected to the third end surface, the third side is formed between the third end surface and the ninth end surface, and the tenth end surface is disposed On the side of the fourth end surface opposite to the fifth driving surface, one end of the tenth end surface is connected to the concave hole and the other end is connected to the fourth peripheral surface, and one side of the tenth end surface is connected to the fourth peripheral surface. An end surface, the fourth side is formed between the fourth end surface and the tenth end surface, the eleventh end surface is disposed on the side of the fifth end surface opposite to the third driving surface, and one end of the eleventh end surface is connected to The concave hole and the other end is connected to the fifth peripheral surface, one side of the eleventh end surface is connected to the fifth end surface, the fifth side is formed between the fifth end surface and the eleventh end surface, the tenth Two end surfaces are arranged on the side of the sixth end surface opposite to the sixth driving surface, one end of the twelfth end surface is connected to the concave hole and the other end is connected to the sixth peripheral surface, one side of the twelfth end surface Connected to the sixth end surface, and the sixth side is formed between the sixth end surface and the twelfth end surface.

The width of the first peripheral surface along the radial direction of the virtual rotating shaft forms a side width, and the distance between the first side adjacent to the virtual rotating shaft and the end connected to the first peripheral surface forms a first length. The length is less than 0.5 times the width of the side.

The width of the first peripheral surface along the radial direction of the virtual rotating shaft forms a side width, and the distance between one end of the first side adjacent to the virtual rotating shaft and the end connected to the first peripheral surface forms a first length. The length is less than 0.5 times the width of the side, the distance between the end of the second side adjacent to the virtual rotating shaft and the end connecting the second peripheral surface forms a second length, and the second length is less than 0.5 times the width of the side, The distance between the end of the third side adjacent to the virtual shaft and the end connected to the third peripheral surface forms a third length, the third length is less than 0.5 times the width of the side, and the fourth side is adjacent to the virtual shaft. The distance between one end and the end connecting the fourth peripheral surface forms a fourth length, the fourth length is less than 0.5 times the width of the side, and the fifth side is adjacent to the end of the virtual rotating shaft to the end connecting the fifth peripheral surface. The distance between one end forms a fifth length, the fifth length is less than 0.5 times the width of the side, and the distance between the end of the sixth side adjacent to the virtual shaft and the end connected to the sixth peripheral surface forms a sixth Length, the sixth length is less than 0.5 times the width of the side.

The side of the first driving surface connecting the seventh end surface intersects the first side and forming a first included angle between the two. The angle of the first included angle is greater than 80 degrees, and the fourth driving surface is connected to the seventh end surface. One side intersects the second side and forms a second included angle between the two. The angle of the second included angle is greater than 80 degrees. A third included angle is formed between the third included angle, and the angle of the third included angle is greater than 80 degrees. The angle of the third driving surface is greater than 80 degrees, and the side of the third driving surface connecting the seventh end surface intersects the fifth side and a fifth included angle is formed between the two. The fifth included angle is greater than 80 degrees, and the sixth driving surface The side connecting the seventh end surface and the sixth side intersect and form a sixth included angle between the two, and the angle of the sixth included angle is greater than 80 degrees.

The end point of the first side adjacent to one end of the virtual shaft is not on the virtual shaft, and the first driving surface does not form an intersection with the first side.

The driving portion is provided with a second peripheral surface along the radial outer periphery of the virtual rotating shaft, the second peripheral surface extends in a direction parallel to the virtual rotating shaft, and the driving portion is provided with a second peripheral surface at an end opposite to the body An end surface, the second end surface is connected to the second peripheral surface, the second peripheral surface is adjacent to the first peripheral surface, and the second end surface is provided with a second side and a second corner not on the second side , One end of the second side is adjacent to the virtual shaft and its end is not on the virtual shaft, one end of the second side adjacent to the virtual shaft is connected to the first driving surface, and the second side is connected to an end opposite to the virtual shaft On the second peripheral surface, the second angle is located between the virtual reference surface and the body.

The driving portion is provided with a third peripheral surface, a fourth peripheral surface, a fifth peripheral surface, and a sixth peripheral surface along the outer peripheral edge of the virtual shaft in the radial direction. The third peripheral surface, the fourth peripheral surface, The fifth peripheral surface and the sixth peripheral surface respectively extend in a direction parallel to the virtual axis of rotation, and an end of the driving portion opposite to the body portion is provided with a third end surface, a fourth end surface, a fifth end surface, and a A sixth end surface, the third end surface is connected to the third peripheral surface, the third peripheral surface is adjacent to the second peripheral surface and is located on the side of the second peripheral surface opposite to the first peripheral surface, the third peripheral surface The end surface is provided with a third side and a third corner not on the third side, the third side is on the virtual reference plane, one end of the third side is adjacent to the virtual rotation axis and the end point is not on the virtual rotation axis, The end of the third side opposite to the virtual shaft is connected to the third peripheral surface, the third angle is located between the virtual reference surface and the body, the fourth end surface is connected to the fourth peripheral surface, and the fourth peripheral surface The surface is adjacent to the third peripheral surface and is located on the side of the third peripheral surface opposite to the second peripheral surface, the fourth peripheral surface is parallel to the first peripheral surface, and the fourth end surface is provided with a fourth side And a fourth corner not on the fourth side, the fourth side is on the virtual reference plane, one end of the fourth side is adjacent to the virtual rotation axis and its end is not on the virtual rotation axis, and the fourth side is opposite to One end of the virtual shaft is connected to the fourth peripheral surface, the fourth corner is located between the virtual reference surface and the body, the fifth end surface is connected to the fifth peripheral surface, and the fifth peripheral surface is connected to the fourth peripheral surface. The peripheral surface is adjacent and located on the side of the fourth peripheral surface opposite to the third peripheral surface, the fifth peripheral surface is parallel to the second peripheral surface, and the fifth end surface is provided with a fifth side and a second peripheral surface. The fifth corner of the five sides, the fifth side is on the virtual reference plane, one end of the fifth side is adjacent to the virtual rotation axis and its end is not on the virtual rotation axis, and the fifth side is opposite to one end of the virtual rotation axis Connected to the fifth peripheral surface, the fifth corner is located between the virtual reference surface and the body, the sixth end surface is connected to the sixth peripheral surface, the sixth peripheral surface is located between the first peripheral surface and the first peripheral surface Among the five peripheral surfaces, the sixth peripheral surface is parallel to the third peripheral surface, and the sixth end surface is provided with a sixth side and a hexagon that is not on the sixth side. The sixth side is on the virtual datum. On the surface, one end of the sixth side is adjacent to the virtual shaft and its end is not on the virtual shaft, the end of the sixth side opposite to the virtual shaft is connected to the sixth circumferential surface, and the sixth hexagon is located on the virtual reference Between the surface and the body, the third end surface is connected with a second driving surface, the second driving surface extends in a direction parallel to the virtual rotation axis, the second driving surface is connected to the third corner, the second driving surface One of the corners of the second driving surface is on the virtual shaft, the side of the second driving surface away from the third end surface is on the virtual reference surface, one end of the fourth side adjacent to the virtual shaft is connected to the second driving surface, the second driving surface Without forming an intersection with the third side, the fifth end surface is connected with a third driving surface, the third driving surface extends in a direction parallel to the virtual rotation axis, the third driving surface is connected to the fifth corner, and the third driving surface is connected to the fifth corner. One corner of the driving surface is on the virtual axis, The side of the third driving surface away from the fifth end surface is on the virtual reference surface, one end of the sixth side adjacent to the virtual shaft is connected to the third driving surface, and the third driving surface does not form an intersection with the fifth side, The second end surface is connected with a fourth driving surface, the fourth driving surface extends in a direction parallel to the virtual rotation axis, the fourth driving surface is connected to the second corner, and one of the corners of the fourth driving surface is on the virtual rotation axis , The side of the fourth driving surface away from the second end surface is on the virtual reference surface, one end of the third side adjacent to the virtual shaft is connected to the fourth driving surface, and the fourth driving surface is not formed with the second side At the point of intersection, the fourth end surface is connected to a fifth driving surface, the fifth driving surface extends in a direction parallel to the virtual rotation axis, the fifth driving surface is connected to the fourth corner, and one of the corners of the fifth driving surface is at the On the virtual rotating shaft, the side of the fifth driving surface away from the fourth end surface is on the virtual reference surface, one end of the fifth side adjacent to the virtual rotating shaft is connected to the fifth driving surface, and the fifth driving surface is not connected to the fourth polygon At the transaction point, the sixth end surface is connected with a sixth driving surface, the sixth driving surface extends in a direction parallel to the virtual rotation axis, the sixth driving surface is connected to the sixth hexagon, and one of the corners of the sixth driving surface is at On the virtual shaft, the side of the sixth driving surface away from the sixth end surface is on the virtual reference surface, one end of the first side adjacent to the virtual shaft is connected to the sixth driving surface, and the sixth driving surface is not connected to the first side. The six sides form an intersection.

The driving portion is provided with a seventh end surface, an eighth end surface, a ninth end surface, a tenth end surface, an eleventh end surface, and a twelfth end surface at an end of the body portion opposite to the body portion. The seventh end surface, The eighth end surface, the ninth end surface, the tenth end surface, the eleventh end surface, and the twelfth end surface are planes perpendicular to the virtual axis of rotation. The seventh end surface, the eighth end surface, the ninth end surface, The tenth end surface, the eleventh end surface, and the twelfth end surface are on the virtual reference surface, the seventh end surface connects the first peripheral surface, the first end surface and the sixth driving surface, the first end surface and The first side is formed between the seventh end surface, the eighth end surface connects the second peripheral surface, the second end surface and the first driving surface, and the second side is formed between the second end surface and the eighth end surface , The ninth end surface is connected to the third peripheral surface, the third end surface and the fourth driving surface, the third side is formed between the third end surface and the ninth end surface, and the tenth end surface is connected to the fourth peripheral surface , The fourth end surface and the second driving surface, the fourth side is formed between the fourth end surface and the tenth end surface, and the eleventh end surface connects the fifth peripheral surface, the fifth end surface and the fifth driving surface Surface, the fifth side is formed between the fifth end surface and the eleventh end surface, the twelfth end surface connects the sixth peripheral surface, the sixth end surface and the third driving surface, the sixth end surface and the first The sixth side is formed between the twelve end faces.

The first circumferential surface, the second circumferential surface, the third circumferential surface, the fourth circumferential surface, the fifth circumferential surface, and the sixth circumferential surface form a 120-degree angle between every two adjacent ones Inner corner.

The main purpose of the driving tool with anti-slip function of the present invention is to provide a driving tool including a body and a driving part. The driving part is formed at one end of the body, and the driving part is provided with a virtual rotating shaft. A first circumferential surface, a second circumferential surface, and a third circumferential surface are provided on the outer peripheral edge of the virtual shaft in the radial direction. The driving portion is provided with an end surface opposite to the end of the body, and the end surface is connected to The first peripheral surface, the second peripheral surface, and the third peripheral surface, the second peripheral surface is adjacent to the first peripheral surface, and the third peripheral surface is adjacent to the second peripheral surface and is located at the second peripheral surface. The peripheral surface is opposite to the side of the first peripheral surface. The end surface is provided with a first corner and a second corner. The first corner is set at the junction of the first peripheral surface and the second peripheral surface. Two corners are provided at the junction of the second peripheral surface and the third peripheral surface, the driving portion is recessed with a first groove, one end of the first groove is connected to the end surface and the other end is connected to the second peripheral surface , The end of the first groove connected to the end surface forms a first edge, the end of one end of the first edge is on the second corner, the first edge does not pass through the first corner, and the driving tool passes through the structure Able to achieve a good anti-slip effect.

The driving part is provided with a fourth peripheral surface, a fifth peripheral surface, and a sixth peripheral surface along the outer peripheral edge of the virtual shaft in the radial direction. The first peripheral surface, the second peripheral surface, the third peripheral surface, The fourth peripheral surface, the fifth peripheral surface, and the sixth peripheral surface respectively extend in a direction parallel to the virtual axis of rotation, and the end surface is simultaneously connected to the first peripheral surface, the second peripheral surface, the third peripheral surface, The fourth peripheral surface, the fifth peripheral surface, and the sixth peripheral surface, the fourth peripheral surface is adjacent to the third peripheral surface and located on the side of the third peripheral surface opposite to the second peripheral surface, the The fourth peripheral surface is parallel to the first peripheral surface, the fifth peripheral surface is adjacent to the fourth peripheral surface and is located on the side of the fourth peripheral surface opposite to the third peripheral surface, and the fifth peripheral surface is adjacent to the third peripheral surface. The second peripheral surface is parallel, the sixth peripheral surface is located between the first peripheral surface and the fifth peripheral surface, the sixth peripheral surface is parallel to the third peripheral surface, and the end surface is provided with a third corner and a fourth peripheral surface. Corner, a fifth corner and a first hexagon, the third corner is set at the junction of the third peripheral surface and the fourth peripheral surface, and the fourth corner is set at the junction of the fourth peripheral surface and the fifth peripheral surface At the junction, the fifth corner is set at the junction of the third peripheral surface and the sixth peripheral surface, the sixth hexagon is set at the junction between the sixth peripheral surface and the first peripheral surface, and the driving portion is recessed There is a second groove and a third groove. One end of the second groove is connected to the end surface and the other end is connected to the fourth peripheral surface. The end of the second groove connected to the end surface forms a second edge. The end point of one end of the second edge is on the fourth corner, the second edge does not pass through the third corner, one end of the third groove is connected to the end surface and the other end is connected to the sixth circumferential surface, the third groove One end connected to the end surface forms a third edge, the end of one end of the third edge is at the first hexagon, and the second edge does not pass through the fifth corner.

The driving portion is recessed with a fourth groove, a fifth groove, and a sixth groove. One end of the fourth groove is connected to the end surface and the other end is connected to the first peripheral surface, and the fourth groove is connected to One end of the end surface forms a fourth edge, the end of one end of the fourth edge is at the first corner, the fourth edge does not pass through the sixth hexagon, one end of the fifth groove is connected to the end surface and the other end Connecting to the third peripheral surface, one end of the fifth groove connected to the end surface forms a fifth edge, the end of one end of the fifth edge is at the third corner, and the fifth edge does not pass through the second corner. One end of the six grooves is connected to the end surface and the other end is connected to the fifth circumferential surface. One end of the sixth groove connected to the end surface forms a sixth edge. The end of one end of the sixth edge is at the fifth corner. The sixth edge does not pass through the fourth corner.

The first circumferential surface, the second circumferential surface, the third circumferential surface, the fourth circumferential surface, the fifth circumferential surface, and the sixth circumferential surface form a 120-degree angle between every two adjacent ones In the inner corner, the first edge, the second edge, the third edge, the fourth edge, the fifth edge, and the sixth edge are not connected to each other and are in a circular arc shape.

The main purpose of the driving tool with anti-slip function of the present invention is to provide a driving tool including a body and a driving part. The driving part is formed at one end of the body, and the driving part is provided with a virtual rotating shaft. A first peripheral surface is provided on the outer peripheral edge of the imaginary shaft in the radial direction. The driving part is provided with a front cone surface and a first end surface opposite to the end of the body part, and the front cone surface is the virtual shaft. Is a conical surface of the central axis, the first end surface is connected to the first peripheral surface, the first end surface is provided with a first side and a first angle not on the first side, and the first side is in the front cone On the surface, one end of the first side is adjacent to the virtual rotating shaft, the end of the first side opposite to the virtual rotating shaft is connected to the first circumferential surface, and the position of the first angle along the axial direction of the virtual rotating shaft is located on the front cone surface Between the body and the driving tool, the above-mentioned structure can achieve a good anti-slip effect.

The first peripheral surface extends in a direction parallel to the virtual rotating shaft, the end of the first side adjacent to the virtual rotating shaft is not on the virtual rotating shaft, the first end surface is connected with a first driving surface, and the first driving surface extends along Extending parallel to the direction of the virtual rotation axis, the first driving surface is connected to the first corner, the first driving surface does not intersect the virtual rotation axis, and the side of the first driving surface away from the first end surface is on the front cone surface .

The driving portion is provided with a second peripheral surface along the radial outer periphery of the virtual rotating shaft, the second peripheral surface extends in a direction parallel to the virtual rotating shaft, and the driving portion is provided with a second peripheral surface at an end opposite to the body An end surface, the second end surface is connected to the second peripheral surface, the second peripheral surface is adjacent to the first peripheral surface, and the second end surface is provided with a second side and a second corner not on the second side , The second side is on the front cone surface, one end of the second side is adjacent to the virtual shaft and its end point is not on the virtual shaft, and the end of the second side opposite to the virtual shaft is connected to the second circumferential surface , The position of the second angle along the axial direction of the virtual shaft is located between the front cone surface and the body.

The driving portion is provided with a third peripheral surface, a fourth peripheral surface, a fifth peripheral surface, and a sixth peripheral surface along the outer peripheral edge of the virtual shaft in the radial direction. The third peripheral surface, the fourth peripheral surface, The fifth peripheral surface and the sixth peripheral surface respectively extend in a direction parallel to the virtual axis of rotation, and an end of the driving portion opposite to the body portion is provided with a third end surface, a fourth end surface, a fifth end surface, and a A sixth end surface, the third end surface is connected to the third peripheral surface, the third peripheral surface is adjacent to the second peripheral surface and is located on the side of the second peripheral surface opposite to the first peripheral surface, the third peripheral surface The end surface is provided with a third side and a third corner not on the third side, the third side is on the front cone surface, one end of the third side is adjacent to the virtual rotation axis and the end point is not on the virtual rotation axis, The end of the third side opposite to the virtual shaft is connected to the third peripheral surface, the position of the third angle along the axial direction of the virtual shaft is located between the front cone surface and the body, and the fourth end surface is connected to the first A peripheral surface, the fourth peripheral surface is adjacent to the third peripheral surface and located on the side of the third peripheral surface opposite to the second peripheral surface, the fourth peripheral surface is parallel to the first peripheral surface, and the first peripheral surface The four end surfaces are provided with a fourth side and a fourth corner not on the fourth side, the fourth side is on the front cone surface, one end of the fourth side is adjacent to the virtual rotation axis and the end point is not on the virtual rotation axis , The end of the fourth side opposite to the virtual shaft is connected to the fourth peripheral surface, the position of the fourth corner along the axial direction of the virtual shaft is located between the front cone surface and the body, and the fifth end surface is connected On the fifth peripheral surface, the fifth peripheral surface is adjacent to the fourth peripheral surface and located on the side of the fourth peripheral surface opposite to the third peripheral surface, and the fifth peripheral surface is parallel to the second peripheral surface , The fifth end surface is provided with a fifth side and a fifth corner not on the fifth side, the fifth side is on the front cone surface, one end of the fifth side is adjacent to the virtual shaft and its end is not On the virtual shaft, an end of the fifth side opposite to the virtual shaft is connected to the fifth peripheral surface, the position of the fifth corner along the axial direction of the virtual shaft is located between the front cone surface and the body, and the first Six end surfaces are connected to the sixth peripheral surface, the sixth peripheral surface is located between the first peripheral surface and the fifth peripheral surface, the sixth peripheral surface is parallel to the third peripheral surface, and the sixth end surface is provided with a The sixth side and a hexagon that is not on the sixth side, the sixth side is on the front cone, one end of the sixth side is adjacent to the virtual shaft and the end point is not on the virtual shaft, the sixth side One end opposite to the virtual shaft is connected to the sixth circumferential surface, the position of the sixth hexagon along the axial direction of the virtual shaft is located between the front cone surface and the body, and the second end surface is disposed on the first drive The surface is opposite to the side of the first end surface and is not connected to the first driving surface, the second side is located on the side of the second end surface adjacent to the first driving surface, and the third end surface is connected with a second driving surface , The second driving surface extends in a direction parallel to the virtual rotation axis, the second driving surface is connected to the third corner, the second driving surface does not intersect the virtual rotation axis, and one side of the second driving surface away from the third end surface On the front cone surface, the fourth end surface is disposed on a side of the second driving surface opposite to the third end surface and is not connected to the The second driving surface is connected, the fourth side is located on the side of the fourth end surface adjacent to the second driving surface, the fifth end surface is connected to a third driving surface, and the third driving surface extends in a direction parallel to the virtual rotation axis , The third driving surface is connected to the fifth corner, the third driving surface does not intersect the virtual axis of rotation, the side of the third driving surface away from the fifth end surface is on the front cone surface, and the sixth end surface is disposed at The third drive surface is opposite to the fifth end surface and is not connected to the third drive surface. The sixth side is located on the side of the sixth end surface adjacent to the third drive surface. The second end surface is connected with a The fourth driving surface extends in a direction parallel to the virtual rotation axis, the fourth driving surface is connected to the second corner, the fourth driving surface does not intersect the virtual rotation axis, and the fourth driving surface is far away from the virtual rotation axis. One side of the second end surface is on the front cone surface, the third end surface is disposed on the side of the fourth drive surface opposite to the first end surface and is not connected to the fourth drive surface, and the third side is located on the third drive surface. The end surface is adjacent to one side of the fourth driving surface, the fourth end surface is connected with a fifth driving surface, the fifth driving surface extends in a direction parallel to the virtual rotation axis, the fifth driving surface is connected to the fourth corner, the The fifth driving surface does not intersect the virtual rotation axis, the side of the fifth driving surface away from the fourth end surface is on the front cone surface, and the fifth end surface is disposed on the side of the fifth driving surface opposite to the fourth end surface And not connected with the fifth driving surface, the fifth side is located on the side of the fifth end surface adjacent to the fifth driving surface, the sixth end surface is connected with a sixth driving surface, and the sixth driving surface is parallel to the virtual The direction of the rotation axis extends, the sixth driving surface is connected to the sixth hexagon, the sixth driving surface does not intersect the virtual rotation axis, the side of the sixth driving surface away from the sixth end surface is on the front cone surface, and the One end surface is disposed on a side of the sixth driving surface opposite to the sixth end surface and not connected to the sixth driving surface, and the first side is located on a side of the first end surface adjacent to the sixth driving surface.

An end of the driving part opposite to the body is provided with a front plane, the front plane being a circular plane perpendicular to the virtual rotation axis and centered on the virtual rotation axis, and the front cone surface surrounds the front plane.

The first end surface, the second end surface, the third end surface, the fourth end surface, the fifth end surface, and the sixth end surface are inclined planes that are not perpendicular to the virtual rotation axis.

The first circumferential surface, the second circumferential surface, the third circumferential surface, the fourth circumferential surface, the fifth circumferential surface, and the sixth circumferential surface form a 120-degree angle between every two adjacent ones Inner corner.

Other purposes, advantages, and novelty of the present invention will be more apparent from the following detailed description and related drawings.

Regarding the technology, means and effects of the present invention, eight preferred embodiments are described in conjunction with the drawings as follows. These are for illustrative purposes only, and are not limited by this structure in the patent application.

1 to 3, which are a three-dimensional appearance view, a side plan appearance view, and a plan appearance view of the end surface of the driving part of the first embodiment of the driving tool with anti-slip function of the present invention. The driving tool 10 of the present invention includes a body 20 and a driving part 30; among them:

The driving part 30 is formed at one end of the body 20. The driving part 30 is provided with a virtual rotation axis L, and the cross section of the driving part 30 taken along the virtual rotation axis L in the radial direction is a regular hexagon.

The driving portion 30 is provided with a first peripheral surface 31, a second peripheral surface 311, a third peripheral surface 312, a fourth peripheral surface 313, and a fifth peripheral surface 314 along the outer peripheral edge of the virtual rotation axis L in the radial direction. And a sixth circumferential surface 315, the first circumferential surface 31, the second circumferential surface 311, the third circumferential surface 312, the fourth circumferential surface 313, the fifth circumferential surface 314, and the sixth circumferential surface 315, respectively Extending in a direction parallel to the virtual rotation axis L, the first peripheral surface 31, the second peripheral surface 311, the third peripheral surface 312, the fourth peripheral surface 313, the fifth peripheral surface 314, and the sixth peripheral surface In 315, an internal angle of 120 degrees is formed between every two adjacent two.

The driving portion 30 is provided with a first end surface 32 opposite to the end of the body portion 20. The first end surface 32 is connected to the first peripheral surface 31. The first end surface 32 is provided with a first side 321 and an At the first corner 322 on the first side 321, the driving portion 30 is provided with a virtual reference plane P at one end opposite to the body 20, the virtual reference plane P is perpendicular to the virtual rotation axis L, and the first side 321 is at the On the virtual reference plane P, one end of the first side 321 is adjacent to the virtual rotation axis L, the end of the first side 321 opposite to the virtual rotation axis L is connected to the first circumferential surface 31, and the first corner 322 is located on the virtual reference plane. Between the face P and the body 20.

The first end surface 32 is connected to a first driving surface 323, the first driving surface 323 extends in a direction parallel to the virtual rotation axis L, the first driving surface 323 is connected to the first corner 322, the first driving surface 323 One of the corners of is on the virtual rotation axis L, and the side of the first driving surface 323 away from the first end surface 32 is on the virtual reference plane P.

The driving portion 30 is provided with a second end surface 33 opposite to the end of the body 20, the second end surface 33 is connected to the second peripheral surface 311, and the second peripheral surface 311 is adjacent to the first peripheral surface 31 , The second end surface 33 is provided with a second side 331 and a second corner 332 not on the second side 331, the second side 331 is on the virtual reference plane P and connected to the first driving surface 323, The end point of the first side 321 adjacent to one end of the virtual shaft L is on the virtual shaft L in this embodiment, one end of the second side 331 is connected to the first side 321, and the first side 321 is connected to the second side 321. The connection point of the side 331 is on the virtual rotation axis L, the end of the second side 331 opposite to the virtual rotation axis L is connected to the second peripheral surface 311, and the second angle 332 is located between the virtual reference plane P and the body 20 between.

The driving portion 30 is provided with a third end surface 34, a fourth end surface 35, a fifth end surface 36, and a sixth end surface 37 at an end opposite to the body portion 20, and the third end surface 34 is connected to the third circumference. The third peripheral surface 312 is adjacent to the second peripheral surface 311 and is located on the side of the second peripheral surface 311 opposite to the first peripheral surface 31. The third end surface 34 is provided with a third side 341 And a third corner 342 that is not on the third side 341, the third side 341 is on the virtual reference plane P, one end of the third side 341 is connected to the first side 321, and the first side 321 is connected to the first side 321. The connection point of the three sides 341 is on the virtual rotation axis L, the end of the third side 341 opposite to the virtual rotation axis L is connected to the third circumferential surface 312, and the third angle 342 is located between the virtual reference plane P and the body 20 In between, the fourth end surface 35 is connected to the fourth peripheral surface 313, and the fourth peripheral surface 313 is adjacent to the third peripheral surface 312 and is located on a side of the third peripheral surface 312 opposite to the second peripheral surface 311 Side, the fourth peripheral surface 313 is parallel to the first peripheral surface 31, the fourth end surface 35 is provided with a fourth side 351 and a fourth corner 352 not on the fourth side 351, the fourth side 351 is On the virtual reference plane P, one end of the fourth side 351 is connected to the first side 321, the first side 321 and the fourth side 351 are on the same line, and the connection point between the two is on the virtual rotation axis L, the An end of the fourth side 351 opposite to the virtual rotation axis L is connected to the fourth peripheral surface 313, the fourth corner 352 is located between the virtual reference plane P and the body 20, and the fifth end surface 36 is connected to the fifth A peripheral surface 314. The fifth peripheral surface 314 is adjacent to the fourth peripheral surface 313 and is located on the side of the fourth peripheral surface 313 opposite to the third peripheral surface 312. The fifth peripheral surface 314 and the second peripheral surface 314 are adjacent to each other. The surface 311 is parallel. The fifth end surface 36 is provided with a fifth side 361 and a fifth corner 362 that is not on the fifth side 361. The fifth side 361 is on the virtual reference plane P. One end is connected to the second side 331, the connection point of the second side 331 and the fifth side 361 is on the virtual rotation axis L, and the end of the fifth side 361 opposite to the virtual rotation axis L is connected to the fifth circumferential surface 314. The fifth corner 362 is located between the virtual reference plane P and the body 20, the sixth end surface 37 is connected to the sixth peripheral surface 315, and the sixth peripheral surface 315 is located between the first peripheral surface 31 and the Between the fifth peripheral surface 314, the sixth peripheral surface 315 is parallel to the third peripheral surface 312, and the sixth end surface 37 is provided with a sixth side 371 and a sixth hexagon 372 not on the sixth side 371, The sixth side 371 is on the virtual reference plane P, one end of the sixth side 371 is connected to the third side 341, the third side 341 and the sixth side 371 are on the same line, and the connection point of the two is on the On the virtual shaft L, the sixth side 371 is connected to the sixth peripheral surface 315 at an end opposite to the virtual shaft L, and the sixth hexagon 372 is located at the Between the virtual reference plane P and the body 20.

The third end surface 34 is connected to a second driving surface 343, the second driving surface 343 extends in a direction parallel to the virtual rotation axis L, the second driving surface 343 is connected to the third corner 342, and the second driving surface 343 One of the corners is on the virtual rotation axis L, the side of the second driving surface 343 away from the third end surface 34 is on the virtual reference plane P, and the fourth side 351 is connected to the second driving surface 343. The fifth end surface 36 is connected to a third driving surface 363, the third driving surface 363 extends in a direction parallel to the virtual rotation axis L, the third driving surface 363 is connected to the fifth corner 362, the third driving surface 363 One of the corners of is on the virtual rotation axis L, the side of the third driving surface 363 away from the fifth end surface 36 is on the virtual reference plane P, and the sixth side 371 is connected to the third driving surface 363.

The second end surface 33 is connected to a fourth driving surface 333, the fourth driving surface 333 extends in a direction parallel to the virtual rotation axis L, the fourth driving surface 333 is connected to the second corner 332, the fourth driving surface 333 One of the corners of is on the virtual rotation axis L, the side of the fourth driving surface 333 away from the second end surface 33 is on the virtual reference plane P, and the third side 341 is connected to the fourth driving surface 333. The fourth end surface 35 is connected to a fifth driving surface 353, the fifth driving surface 353 extends in a direction parallel to the virtual rotation axis L, the fifth driving surface 353 is connected to the fourth corner 352, the fifth driving surface 353 One of the corners of is on the virtual rotation axis L, the side of the fifth driving surface 353 away from the fourth end surface 35 is on the virtual reference plane P, and the fifth side 361 is connected to the fifth driving surface 353. The sixth end surface 37 is connected to a sixth driving surface 373, the sixth driving surface 373 extends in a direction parallel to the virtual rotation axis L, the sixth driving surface 373 is connected to the hexagon 372, the sixth driving surface 373 One of the corners of is on the virtual rotation axis L, the side of the sixth driving surface 373 away from the sixth end surface 37 is on the virtual reference plane P, and the first side 321 is connected to the sixth driving surface 373.

The first end surface 32, the second end surface 33, the third end surface 34, the fourth end surface 35, the fifth end surface 36, and the sixth end surface 37 are inclined not parallel to the virtual reference plane P in this embodiment. flat.

The driving tool 10 can achieve a good anti-slip effect through the above structure, and the screw can be rotated smoothly even if the driving hole of the screw is damaged. When the driving tool 10 is in use, the driving part 30 can be inserted into the damaged driving hole in an oblique manner, and the corner of the first driving surface 323 is formed by the recess of the first end surface 32 to contact the inner wall of the driving hole. Helps to push the screw to rotate.

Referring to FIGS. 4 to 6, there are a three-dimensional appearance view, a side plan appearance view, and a plan appearance view of the end surface of the driving part of the second embodiment of the driving tool with anti-slip function of the present invention. The second embodiment of this case is substantially the same as the first embodiment, the main difference is that the second end surface 33a is a plane perpendicular to the virtual rotation axis L, and the second side 331a and the second corner 332a are on the virtual reference plane P , The third side 341a is connected to the second end surface 33a, the fourth end surface 35a is a plane perpendicular to the virtual rotation axis L, the fourth side 351a and the fourth corner 352a are on the virtual reference plane P, the fifth Side 361a is connected to the fourth end surface 35a, the sixth end surface 37a is a plane perpendicular to the virtual rotation axis L, the sixth side 371a and the hexagon 372a are on the virtual reference plane P, and the first side 321a is connected to The sixth end surface 37a.

Referring to FIGS. 7 to 9, there are a three-dimensional appearance view, a side plan appearance view, and a plan appearance view of the end surface of the driving part of the third embodiment of the driving tool with anti-slip function of the present invention. The driving tool 40b of the present invention includes a body part 50b and a driving part 60b; among them:

The driving portion 60b is formed at one end of the body 50b. The driving portion 60b is provided with a virtual rotation axis L, and the cross section of the driving portion 60b taken along the radial direction of the virtual rotation axis L is a regular hexagon.

The driving portion 60b is provided with a first peripheral surface 61b, a second peripheral surface 611b, a third peripheral surface 612b, a fourth peripheral surface 613b, and a fifth peripheral surface 614b along the outer peripheral edge of the virtual rotation axis L in the radial direction. And a sixth peripheral surface 615b, the first peripheral surface 61b, the second peripheral surface 611b, the third peripheral surface 612b, the fourth peripheral surface 613b, the fifth peripheral surface 614b, and the sixth peripheral surface 615b, respectively Extending in a direction parallel to the virtual rotation axis L, the first circumferential surface 61b, the second circumferential surface 611b, the third circumferential surface 612b, the fourth circumferential surface 613b, the fifth circumferential surface 614b, and the sixth circumferential surface In 615b, an internal angle of 120 degrees is formed between every two adjacent ones.

The driving portion 60b is provided with an end surface 62b opposite to the end of the body portion 50b. The end surface 62b is connected to the first peripheral surface 61b, the second peripheral surface 611b, and the third peripheral surface 612b. The second peripheral surface 611b is adjacent to the first peripheral surface 61b, the third peripheral surface 612b is adjacent to the second peripheral surface 611b and is located on the side of the second peripheral surface 611b opposite to the first peripheral surface 61b, and the end surface 62b is provided There is a first corner 621b and a second corner 622b. The first corner 622b is disposed at the junction of the first peripheral surface 61b and the second peripheral surface 611b, and the second corner 622b is disposed on the second peripheral surface 611b. At the junction with the third peripheral surface 612b, the driving portion 60b is recessed with a first groove 63b. One end of the first groove 63b is connected to the end surface 62b and the other end is connected to the second peripheral surface 611b. The boundary between a groove 63b and the end surface 62b forms a first edge 631b, one end of the first edge 631b is on the second corner 622b, and the first edge 631b does not pass through the first corner 621b.

The end surface 62b is simultaneously connected to the first circumferential surface 61b, the second circumferential surface 611b, the third circumferential surface 612b, the fourth circumferential surface 613b, the fifth circumferential surface 614b, and the sixth circumferential surface 615b. The peripheral surface 613b is adjacent to the third peripheral surface 612b and is located on the side of the third peripheral surface 612b opposite to the second peripheral surface 611b. The fourth peripheral surface 613b is parallel to the first peripheral surface 61b. The fifth peripheral surface 614b is adjacent to the fourth peripheral surface 613b and is located on the side of the fourth peripheral surface 613b opposite to the third peripheral surface 612b. The fifth peripheral surface 614b is parallel to the second peripheral surface 611b. The six peripheral surface 615b is located between the first peripheral surface 61b and the fifth peripheral surface 614b, the sixth peripheral surface 615b is parallel to the third peripheral surface 612b, and the end surface 62b is provided with a third corner 623b and a fourth corner 624b, a fifth corner 625b, and a first hexagon 626b. The third corner 623b is set at the junction of the third peripheral surface 612b and the fourth peripheral surface 613b, and the fourth corner 624b is located on the fourth peripheral surface 613b. At the junction with the fifth peripheral surface 614b, the fifth corner 625b is provided at the junction between the third peripheral surface 612b and the sixth peripheral surface 615b, and the sixth hexagon 626b is provided at the junction of the sixth peripheral surface 615b and the sixth peripheral surface 615b. At the junction of the first circumferential surface 61b, the driving portion 60b is recessed with a second groove 64b and a third groove 65b. One end of the second groove 64b is connected to the end surface 62b and the other end is connected to the fourth circumferential surface. On the surface 613b, one end of the second groove 64b connected to the end surface 62b forms a second edge 641b, one end of the second edge 641b is on the fourth corner 624b, and the second edge 641b does not pass through the third corner 623b, one end of the third groove 65b is connected to the end surface 62b and the other end is connected to the sixth peripheral surface 615b, and one end of the third groove 65b connected to the end surface 62b forms a third edge 651b. The end point of one end is at the sixth corner 626b, and the second edge 641b does not pass through the fifth corner 625b.

The driving portion 60b is recessed with a fourth groove 66b, a fifth groove 67b, and a sixth groove 68b. One end of the fourth groove 66b is connected to the end surface 62b and the other end is connected to the first peripheral surface 61b. One end of the fourth groove 66b connected to the end surface 62b forms a fourth edge 661b, one end of the fourth edge 661b is on the first corner 621b, and the fourth edge 661b does not pass through the sixth hexagon 626b One end of the fifth groove 67b is connected to the end surface 62b and the other end is connected to the third peripheral surface 612b. One end of the fifth groove 67b connected to the end surface 62b forms a fifth edge 671b. One end of the fifth edge 671b The end point of is at the third corner 623b, the fifth edge 671b does not pass through the second corner 622b, one end of the sixth groove 68b is connected to the end surface 62b and the other end is connected to the fifth peripheral surface 614b, the sixth groove The end of 68b connected to the end surface 62b forms a sixth edge 681b, one end of the sixth edge 681b is at the fifth corner 625b, and the sixth edge 681b does not pass through the fourth corner 624b.

The first edge 631b, the second edge 641b, the third edge 651b, the fourth edge 661b, the fifth edge 671b, and the sixth edge 681b are not connected to each other and are in a circular arc shape.

Referring to FIGS. 10 to 12, the third embodiment of the driving tool with anti-slip function of the present invention is a three-dimensional appearance view, a side plan appearance view, and a plan appearance view of the end surface of the driving part. The fourth embodiment of this case is substantially the same as the first embodiment, the main difference is that the end of the first side 321c adjacent to the virtual shaft L is not on the virtual shaft L, and one end of the second side 331c is adjacent to the virtual shaft L L and its end point is not on the virtual rotation axis L, one end of the third side 341c is adjacent to the virtual rotation axis L and its end point is not on the virtual rotation axis L, one end of the fourth side 351c is adjacent to the virtual rotation axis L and its end The point is not on the virtual rotation axis L, one end of the fifth side 361c is adjacent to the virtual rotation axis L and its end point is not on the virtual rotation axis L, one end of the sixth side 371c is adjacent to the virtual rotation axis L and its end point is not on the virtual rotation axis L On the shaft L.

The first driving surface 323c does not intersect the virtual rotation axis L, the second driving surface 343c does not intersect the virtual rotation axis L, the third driving surface 363c does not intersect the virtual rotation axis L, and the fourth driving surface 333c does not intersect the virtual rotation axis L. The virtual rotation axis L intersects, the fifth driving surface 353c does not intersect the virtual rotation axis L, and the sixth driving surface 373c does not intersect the virtual rotation axis L.

The second end surface 33c is disposed on the side of the first driving surface 323c opposite to the first end surface 32c and is not connected to the first driving surface 323c. The second side 331c is located at the second end surface 33c adjacent to the first On one side of the driving surface 323c, the fourth end surface 35c is disposed on the side of the second driving surface 343c opposite to the third end surface 34c and is not connected with the second driving surface 343c, and the fourth side 351c is located on the second driving surface 343c. The four end surface 35c is adjacent to one side of the second driving surface 343c, and the sixth end surface 37c is disposed on the side of the third driving surface 363c opposite to the fifth end surface 36c and is not connected to the third driving surface 363c. The sixth side 371c is located on the side of the sixth end surface 37c adjacent to the third driving surface 363c. The third end surface 34c is disposed on the side of the fourth driving surface 333c opposite to the first end surface 32c and not connected to the fourth The driving surfaces 333c are connected, the third side 341c is located on the side of the third end surface 34c adjacent to the fourth driving surface 333c, and the fifth end surface 36c is disposed on a side of the fifth driving surface 353c opposite to the fourth end surface 35c. Side and not connected to the fifth driving surface 353c, the fifth side 361c is located on the side of the fifth end surface 36c adjacent to the fifth driving surface 353c, and the first end surface 32c is disposed on the sixth driving surface 373c opposite to One side of the sixth end surface 37c is not connected to the sixth driving surface 373c, and the first side 321c is located on the side of the first end surface 32c adjacent to the sixth driving surface 373c.

The driving portion 30c is provided with a seventh end surface 38c opposite to the end of the body portion 20c. The seventh end surface 38c is a plane perpendicular to the virtual rotation axis L. The seventh end surface 38c is on the virtual reference plane P. The seven end surfaces 38c are simultaneously connected to the first end surface 32c, the first driving surface 323c, the second end surface 33c, the second driving surface 343c, the third end surface 34c, the third driving surface 363c, and the fourth end surface 35c. , The fourth driving surface 333c, the fifth end surface 36c, the fifth driving surface 353c, the sixth end surface 37c, and the sixth driving surface 373c, and the seventh end surface 38c is along the outer peripheral edge of the virtual rotation axis L in the radial direction Simultaneously connected to the first peripheral surface 31c, the second peripheral surface 311c, the third peripheral surface 312c, the fourth peripheral surface 313c, the fifth peripheral surface 314c, and the sixth peripheral surface 315c.

Referring to FIGS. 13 to 15, which are a perspective view, a side plan view, and a plan view of the end surface of the driving part of the fifth embodiment of the driving tool with anti-slip function of the present invention. The fifth embodiment of the present case is substantially the same as the fourth embodiment. The main difference is that the driving portion 30d is provided with a recessed hole 39d at an end opposite to the body portion 20d, and the recessed hole 39d is centered on the virtual axis of rotation L. Extending axially along the virtual rotation axis L, the first end surface 32d is connected to the recessed hole 39d on the side opposite to the first circumferential surface 31d, and the first side 321d and the first driving surface 323d are adjacent to one end of the virtual rotation axis L Connected to this recessed hole 39d.

The side of the second end surface 33d opposite to the second peripheral surface 311d is connected to the recessed hole 39d, the second side 331d and the fourth driving surface 333d are connected to the recessed hole 39d at one end adjacent to the virtual shaft L, and the second side 331d is connected to the recessed hole 39d. The side of the three end surface 34d opposite to the third peripheral surface 312d is connected to the concave hole 39d, the third side 341d and the second driving surface 343d are connected to the concave hole 39d at one end adjacent to the virtual shaft L, and the fourth end surface The side of 35d opposite to the fourth peripheral surface 313d is connected to the concave hole 39d, the fourth side 351d and the fifth driving surface 353d are connected to the concave hole 39d at one end adjacent to the virtual shaft L, and the fifth end surface 36d is opposite One side of the fifth peripheral surface 314d is connected to the concave hole 39d, the fifth side 361d and the third driving surface 363d are connected to the concave hole 39d at one end adjacent to the virtual rotation axis L, and the sixth end surface 37d is opposite to the One side of the sixth peripheral surface 315d is connected to the concave hole 39d, and the sixth side 371d and the sixth driving surface 373d are connected to the concave hole 39d at one end adjacent to the virtual shaft L.

The driving portion 30d is provided with a seventh end surface 38d, an eighth end surface 381d, a ninth end surface 382d, a tenth end surface 383d, an eleventh end surface 384d, and a twelfth end surface opposite to the end of the body portion 20d. The end surface 385d, the seventh end surface 38d, the eighth end surface 381d, the ninth end surface 382d, the tenth end surface 383d, the eleventh end surface 384d, and the twelfth end surface 385d are planes perpendicular to the virtual rotation axis L, respectively, The seventh end surface 38d, the eighth end surface 381d, the ninth end surface 382d, the tenth end surface 383d, the eleventh end surface 384d, and the twelfth end surface 385d are on the virtual reference plane P, and the seventh end surface 38d Is disposed on the first end surface 32d opposite to the first driving surface 323d. One end of the seventh end surface 38d is connected to the recessed hole 39d and the other end is connected to the first peripheral surface 31d. One side is connected to the first end surface 32d, the first side 321d is formed between the first end surface 32d and the seventh end surface 38d, and the eighth end surface 381d is disposed on the second end surface 33d opposite to the fourth driving surface 333d One end of the eighth end surface 381d is connected to the concave hole 39d and the other end is connected to the second peripheral surface 311d, one side of the eighth end surface 381d is connected to the second end surface 33d, the second end surface 33d The second side 331d is formed between the eighth end surface 381d and the ninth end surface 382d. The ninth end surface 382d is disposed on the side of the third end surface 34d opposite to the second driving surface 343d. One end of the ninth end surface 382d is connected to the concave The other end of the hole 39d is connected to the third peripheral surface 312d, one side of the ninth end surface 382d is connected to the third end surface 34d, and the third side 341d is formed between the third end surface 34d and the ninth end surface 382d, The tenth end surface 383d is disposed on a side of the fourth end surface 35d opposite to the fifth driving surface 353d. One end of the tenth end surface 383d is connected to the concave hole 39d and the other end is connected to the fourth peripheral surface 313d. One side of the tenth end surface 383d is connected to the fourth end surface 35d, the fourth side 351d is formed between the fourth end surface 35d and the tenth end surface 383d, and the eleventh end surface 384d is disposed opposite to the fifth end surface 36d. One end of the third driving surface 363d, one end of the eleventh end surface 384d is connected to the concave hole 39d and the other end is connected to the fifth peripheral surface 314d, and one side of the eleventh end surface 384d is connected to the fifth The fifth side 361d is formed between the fifth end surface 36d and the eleventh end surface 384d. The twelfth end surface 385d is disposed on the side of the sixth end surface 37d opposite to the sixth driving surface 373d. One end of the twelfth end surface 385d is connected to the recessed hole 39d and the other end is connected to the sixth peripheral surface 315d. One side of the twelfth end surface 385d is connected to the sixth end surface 37d. Twelve ends The sixth side 371d is formed between the surfaces 385d.

Referring to FIGS. 16 to 18, there are a three-dimensional appearance view, a side plan appearance view, and a plan appearance view of the end surface of the driving part of the sixth embodiment of the driving tool with anti-slip function of the present invention. The sixth embodiment of the present case is substantially the same as the fourth embodiment. The main difference is that the width of the first peripheral surface 31e along the radial direction of the virtual rotation axis L forms a side width W, and the first side 321e is adjacent to the virtual rotation axis L. The distance between one end and the end connecting the first peripheral surface 31e forms a first length L1, the first length L1 is less than 0.5 times the side width W, and the second side 331e is adjacent to the end of the virtual shaft L to connect The distance between the ends of the second peripheral surface 311e forms a second length L2, the second length L2 is less than 0.5 times the side width W, the third side 341e is adjacent to one end of the virtual shaft L to connect to the third The distance between one end of the peripheral surface 312e forms a third length L3, the third length L3 is less than 0.5 times the side width W, and the fourth side 351e is adjacent to one end of the virtual rotation axis L to connect to the fourth peripheral surface 313e The distance between the one end of the fifth side 361e forms a fourth length L4, and the fourth length L4 is less than 0.5 times the side width W. The distance between the two forms a fifth length L5, the fifth length L5 is less than 0.5 times of the side width W, and the distance between the end of the sixth side 371e adjacent to the virtual rotation axis L and the end connected to the sixth peripheral surface 315e A sixth length L6 is formed, and the sixth length L6 is less than 0.5 times the side width W.

The side of the first driving surface 323e connected to the seventh end surface 38e intersects the first side 321e and forms a first included angle A1 therebetween. The first included angle A1 is greater than 80 degrees, and the fourth driving surface 333e The side connecting the seventh end surface 38e intersects the second side 331e and forms a second included angle A2 therebetween. The second included angle A2 is greater than 80 degrees. The second driving surface 343e connects to the seventh end surface 38e. One side of the third side 341e intersects with the third side 341e and a third included angle A3 is formed therebetween. The third included angle A3 is greater than 80 degrees. The fifth driving surface 353e connects one side of the seventh end surface 38e and the fourth side The side 351e intersects and a fourth included angle A4 is formed between the two sides. The fourth included angle A4 is greater than 80 degrees. A fifth included angle A5 is formed between the fifth included angle A5, and the angle of the fifth included angle A5 is greater than 80 degrees. The included angle A6, the angle of the sixth included angle A6 is greater than 80 degrees.

Referring to FIGS. 19 to 21, which are a perspective view, a side plan view, and a plan view view of the end surface of the driving part of the seventh embodiment of the driving tool with anti-slip function of the present invention. The seventh embodiment of this case is substantially the same as the first embodiment, the main difference is that the end of the first side 321f adjacent to the virtual shaft L is not on the virtual shaft L, and one end of the second side 331f is adjacent to the virtual shaft L L and its end point is not on the virtual rotation axis L, one end of the third side 341f is adjacent to the virtual rotation axis L and its end point is not on the virtual rotation axis L, one end of the fourth side 351f is adjacent to the virtual rotation axis L and its end The point is not on the virtual rotation axis L, one end of the fifth side 361f is adjacent to the virtual rotation axis L and its end point is not on the virtual rotation axis L, one end of the sixth side 371f is adjacent to the virtual rotation axis L and its end point is not on the virtual rotation axis L On the shaft L.

One end of the first side 321f adjacent to the virtual shaft L is connected to the sixth driving surface 373f, the first driving surface 323f does not form an intersection with the first side 321f, and one end of the second side 331f adjacent to the virtual shaft L is connected to the The first driving surface 323f, the fourth driving surface 333f does not form an intersection with the second side 331f, the third side 341f is connected to the fourth driving surface 333f adjacent to one end of the virtual shaft L, and the second driving surface 343f is not connected to the The third side 341f forms an intersection. One end of the fourth side 351f adjacent to the virtual rotation axis L is connected to the second driving surface 343f. The fifth driving surface 353f does not form an intersection with the fourth side 351f. The fifth side 361f is adjacent to One end of the virtual shaft L is connected to the fifth driving surface 353f, the third driving surface 363f does not form an intersection with the fifth side 361f, and one end of the sixth side 371f adjacent to the virtual shaft L is connected to the third driving surface 363f, The sixth driving surface 373f does not form an intersection with the sixth side 371f.

The driving portion 30f is provided with a seventh end surface 38f, an eighth end surface 381f, a ninth end surface 382f, a tenth end surface 383f, an eleventh end surface 384f, and a twelfth end surface at an end opposite to the body portion 20f. The end surface 385f, the seventh end surface 38f, the eighth end surface 381f, the ninth end surface 382f, the tenth end surface 383f, the eleventh end surface 384f, and the twelfth end surface 385f are planes perpendicular to the virtual rotation axis L, respectively, The seventh end surface 38f, the eighth end surface 381f, the ninth end surface 382f, the tenth end surface 383f, the eleventh end surface 384f, and the twelfth end surface 385f are on the virtual reference plane P, and the seventh end surface 38f Connecting the first peripheral surface 31f, the first end surface 32f and the sixth driving surface 373f, the first edge 321f is formed between the first end surface 32f and the seventh end surface 38f, and the eighth end surface 381f is connected to the second The peripheral surface 311f, the second end surface 33f, and the first driving surface 323f, the second edge 331f is formed between the second end surface 33f and the eighth end surface 381f, and the ninth end surface 382f connects the third peripheral surface 312f, The third end surface 34f and the fourth driving surface 333f, the third side 341f is formed between the third end surface 34f and the ninth end surface 382f, and the tenth end surface 383f connects the fourth peripheral surface 313f and the fourth end surface 35f and the second driving surface 343f, the fourth side 351f is formed between the fourth end surface 35f and the tenth end surface 383f, and the eleventh end surface 384f connects the fifth peripheral surface 314f, the fifth end surface 36f and the The fifth driving surface 353f, the fifth side 361f is formed between the fifth end surface 36f and the eleventh end surface 384f, and the twelfth end surface 385f connects the sixth peripheral surface 315f, the sixth end surface 37f and the third The driving surface 363f, the sixth side 371f is formed between the sixth end surface 37f and the twelfth end surface 385f.

Referring to FIGS. 22 to 24, there are a three-dimensional appearance view, a side plan appearance view, and a plan appearance view of the end surface of the driving part of the eighth embodiment of the driving tool with anti-slip function of the present invention. The driving tool 70g of the present invention includes a body 80g and a driving part 90g; among them:

The driving portion 90g is formed at one end of the body 80g, the driving portion 90g is provided with a virtual rotation axis L, and the cross section of the driving portion 90g along the radial direction of the virtual rotation axis L is a regular hexagon.

The driving portion 90g is provided with a first peripheral surface 91g, a second peripheral surface 911g, a third peripheral surface 912g, a fourth peripheral surface 913g, and a fifth peripheral surface 914g along the outer peripheral edge of the virtual rotation axis L in the radial direction. And a sixth peripheral surface 915g, the first peripheral surface 91g, the second peripheral surface 911g, the third peripheral surface 912g, the fourth peripheral surface 913g, the fifth peripheral surface 914g, and the sixth peripheral surface 915g, respectively Extending in a direction parallel to the virtual rotation axis L, the first peripheral surface 91g, the second peripheral surface 911g, the third peripheral surface 912g, the fourth peripheral surface 913g, the fifth peripheral surface 914g, and the sixth peripheral surface In 915g, an internal angle of 120 degrees is formed between every two adjacent two.

The driving portion 90g is provided with a front tapered surface 92g and a first end surface 93g at an end opposite to the body portion 80g. The front tapered surface 92g is a conical surface with the virtual rotation axis L as the central axis. The first end surface 93g Connected to the first peripheral surface 91g, the first end surface 93g is provided with a first side 931g and a first corner 932g not on the first side 931g, the first side 931g is on the front cone surface 92g, the One end of the first side 931g is adjacent to the virtual rotation axis L, the end of the first side 931g opposite to the virtual rotation axis L is connected to the first circumferential surface 91g, and the position of the first corner 932g along the axis of the virtual rotation axis L is located at the Between the front cone surface 92g and the body 80g.

The end of the first side 931g adjacent to the virtual rotation axis L is not on the virtual rotation axis L, the first end surface 93g is connected with a first driving surface 933g, and the first driving surface 933g extends in a direction parallel to the virtual rotation axis L The first driving surface 933g is connected to the first corner 932g, the first driving surface 933g does not intersect the virtual rotation axis L, and the side of the first driving surface 933g away from the first end surface 93g is on the front cone surface 92g .

The driving portion 90g is provided with a second end surface 94g opposite to the end of the body portion 80g, the second end surface 94g is connected to the second peripheral surface 911g, and the second peripheral surface 911g is adjacent to the first peripheral surface 91g The second end surface 94g is provided with a second side 941g and a second corner 942g not on the second side 941g, the second side 941g is on the front cone surface 92g, and one end of the second side 941g is adjacent to the The end of the virtual rotation axis L is not on the virtual rotation axis L, the end of the second side 941g opposite to the virtual rotation axis L is connected to the second circumferential surface 911g, and the position of the second angle 942g along the axis of the virtual rotation axis L Located between the front cone surface 92g and the body 80g.

The driving portion 90g is provided with a third end surface 95g, a fourth end surface 96g, a fifth end surface 97g, and a sixth end surface 98g at an end opposite to the body portion 80g. The third end surface 95g is connected to the third circumference. 912g, the third peripheral surface 912g is adjacent to the second peripheral surface 911g and located on the side of the second peripheral surface 911g opposite to the first peripheral surface 91g, the third end surface 95g is provided with a third side 951g And a third corner 952g that is not on the third side 951g, the third side 951g is on the front tapered surface 92g, one end of the third side 951g is adjacent to the virtual rotation axis L and its end is not on the virtual rotation axis L, The end of the third side 951g opposite to the virtual shaft L is connected to the third circumferential surface 912g. The position of the third corner 952g along the axis of the virtual shaft L is located between the front cone surface 92g and the body 80g. The fourth end surface 96g is connected to the fourth peripheral surface 913g. The fourth peripheral surface 913g is adjacent to the third peripheral surface 912g and is located on the side of the third peripheral surface 912g opposite to the second peripheral surface 911g. The peripheral surface 913g is parallel to the first peripheral surface 91g. The fourth end surface 96g is provided with a fourth side 961g and a fourth corner 962g not on the fourth side 961g. The fourth side 961g is on the front cone surface. At 92g, one end of the fourth side 961g is adjacent to the virtual rotation axis L and its end is not on the virtual rotation axis L, and the end of the fourth side 961g opposite to the virtual rotation axis L is connected to the fourth peripheral surface 913g, and the fourth side 961g is connected to the fourth peripheral surface 913g. The position of the four corners 962g along the axis of the virtual rotation axis L is located between the front cone surface 92g and the body 80g, the fifth end surface 97g is connected to the fifth peripheral surface 914g, and the fifth peripheral surface 914g is connected to the fourth peripheral surface 914g. The peripheral surface 913g is adjacent and located on the side of the fourth peripheral surface 913g opposite to the third peripheral surface 912g, the fifth peripheral surface 914g is parallel to the second peripheral surface 911g, and the fifth end surface 97g is provided with a fifth peripheral surface. Side 971g and a fifth corner 972g that is not on the fifth side 971g, the fifth side 971g is on the front cone surface 92g, one end of the fifth side 971g is adjacent to the virtual rotation axis L and its end point is not on the virtual rotation axis On L, the end of the fifth side 971g opposite to the virtual shaft L is connected to the fifth peripheral surface 914g, and the position of the fifth corner 972g along the axis of the virtual shaft L is located on the front cone surface 92g and the body 80g In between, the sixth end surface 98g is connected to the sixth peripheral surface 915g, the sixth peripheral surface 915g is located between the first peripheral surface 91g and the fifth peripheral surface 914g, and the sixth peripheral surface 915g is connected to the third peripheral surface 915g. The peripheral surface 912g is parallel, the sixth end surface 98g is provided with a sixth side 981g and a hexagon 982g not on the sixth side 981g, the sixth side 981g is on the front cone surface 92g, and the sixth side 981g One end is adjacent to the virtual rotation axis L and its end point is not on the virtual rotation axis L, the sixth side 981g is opposite to the virtual rotation axis L One end is connected to the sixth peripheral surface 915g, and the position of the sixth hexagon 982g along the axis of the virtual rotation axis L is located between the front cone surface 92g and the body 80g.

The third end surface 95g is connected to a second driving surface 953g, the second driving surface 953g extends in a direction parallel to the virtual rotation axis L, the second driving surface 953g is connected to the third corner 952g, and the second driving surface 953g is not Intersecting the virtual rotation axis L, the side of the second driving surface 953g away from the third end surface 95g is on the front cone surface 92g. The fifth end surface 97g is connected to a third driving surface 973g, the third driving surface 973g extends in a direction parallel to the virtual rotation axis L, the third driving surface 973g is connected to the fifth corner 972g, and the third driving surface 973g Without intersecting the virtual rotation axis L, the side of the third driving surface 973g away from the fifth end surface 97g is on the front cone surface 92g.

The second end surface 94g is connected to a fourth driving surface 943g, the fourth driving surface 943g extends in a direction parallel to the virtual rotation axis L, the fourth driving surface 943g is connected to the second corner 942g, the fourth driving surface 943g Without intersecting the virtual rotation axis L, the side of the fourth driving surface 943g away from the second end surface 94g is on the front cone surface 92g. The fourth end surface 96g is connected to a fifth driving surface 963g, the fifth driving surface 963g extends in a direction parallel to the virtual rotation axis L, the fifth driving surface 963g is connected to the fourth corner 962g, and the fifth driving surface 963g Without intersecting the virtual rotation axis L, the fifth driving surface 963g is located on the front cone surface 92g on the side of the fifth driving surface 963g away from the fourth end surface 96g. The sixth end surface 98g is connected with a sixth driving surface 983g, the sixth driving surface 983g extends in a direction parallel to the virtual rotation axis L, the sixth driving surface 983g is connected to the hexagon 982g, the sixth driving surface 983g Without intersecting the virtual rotation axis L, the side of the sixth driving surface 983g away from the sixth end surface 98g is on the front cone surface 92g.

The second end surface 94g is disposed on the side of the first driving surface 933g opposite to the first end surface 93g and is not connected to the first driving surface 933g. The second side 941g is located on the second end surface 94g adjacent to the first One side of the driving surface 933g, the fourth end surface 96g is disposed on the side of the second driving surface 953g opposite to the third end surface 95g and is not connected to the second driving surface 953g, and the fourth side 961g is located on the first The fourth end surface 96g is adjacent to one side of the second driving surface 953g, and the sixth end surface 98g is disposed on the side of the third driving surface 973g opposite to the fifth end surface 97g and is not connected to the third driving surface 973g. The sixth side 981g is located on the side of the sixth end surface 98g adjacent to the third driving surface 973g. The third end surface 95g is disposed on the side of the fourth driving surface 943g opposite to the first end surface 93g and not connected to the fourth driving surface 93g. The driving surface 943g is connected, the third side 951g is located on the side of the third end surface 95g adjacent to the fourth driving surface 943g, and the fifth end surface 97g is disposed on a side of the fifth driving surface 963g opposite to the fourth end surface 96g. Side and not connected to the fifth driving surface 963g, the fifth side 971g is located on the side of the fifth end surface 97g adjacent to the fifth driving surface 963g, and the first end surface 93g is disposed on the sixth driving surface 983g opposite to One side of the sixth end surface 98g is not connected to the sixth driving surface 983g, and the first side 931g is located on the side of the first end surface 93g adjacent to the sixth driving surface 983g.

The first end surface 93g, the second end surface 94g, the third end surface 95g, the fourth end surface 96g, the fifth end surface 97g, and the sixth end surface 98g are inclined planes that are not perpendicular to the virtual rotation axis L in this embodiment .

The driving portion 90g is provided with a front plane 99g opposite to the end of the body 80g. The front plane 99g is a circular plane perpendicular to the virtual rotation axis L and centered on the virtual rotation axis L. The front cone surface 92g surrounds the The front plane is 99g.

From the above, it can be concluded that the present invention has the following advantages:

1. The driving tool with anti-slip function of the present invention, wherein the driving tool includes a body and a driving part, the driving part is formed at one end of the body, the driving part is provided with a virtual rotating shaft, and the driving part is along the The radial outer periphery of the virtual shaft is provided with a first peripheral surface, the driving portion is provided with a first end surface opposite to the end of the body, the first end surface is connected to the first peripheral surface, and the first end surface is provided There is a first side and a first corner that is not on the first side. The end of the driving part opposite to the body is provided with a virtual reference surface, the virtual reference surface is perpendicular to the virtual rotation axis, and the first side is on the On a virtual reference surface, one end of the first side is adjacent to the virtual rotation axis, an end of the first side opposite to the virtual rotation axis is connected to the first peripheral surface, and the first angle is located between the virtual reference surface and the body , The driving tool can achieve a good anti-slip effect through the above structure.

2. It is a driving tool with anti-slip function of the present invention, wherein the driving tool includes a body and a driving part, the driving part is formed at one end of the body, the driving part is provided with a virtual rotating shaft, and the driving part is along the A first peripheral surface, a second peripheral surface, and a third peripheral surface are provided on the outer peripheral edge of the virtual rotating shaft in the radial direction. The peripheral surface, the second peripheral surface, and the third peripheral surface, the second peripheral surface is adjacent to the first peripheral surface, and the third peripheral surface is adjacent to the second peripheral surface and located opposite to the second peripheral surface On one side of the first peripheral surface, the end surface is provided with a first corner and a second corner, the first corner is provided at the junction of the first peripheral surface and the second peripheral surface, and the second corner is provided At the junction of the second peripheral surface and the third peripheral surface, the driving portion is recessed with a first groove. One end of the first groove is connected to the end surface and the other end is connected to the second peripheral surface. A groove is connected to one end of the end surface to form a first side. The end of one end of the first side is on the second corner. The first side does not pass through the first corner. The driving tool can achieve good results through the above-mentioned structure. The anti-slip effect.

3. The driving tool with anti-slip function of the present invention, wherein the driving tool includes a body and a driving part, the driving part is formed at one end of the body, the driving part is provided with a virtual rotating shaft, and the driving part is along the The radial outer periphery of the virtual shaft is provided with a first peripheral surface, and an end of the drive portion opposite to the body is provided with a front cone surface and a first end surface, the front cone surface is centered on the virtual shaft The first end surface is connected to the first peripheral surface, the first end surface is provided with a first side and a first angle not on the first side, the first side is on the front cone surface, One end of the first side is adjacent to the virtual shaft, and one end of the first side opposite to the virtual shaft is connected to the first peripheral surface. The position of the first angle along the axial direction of the virtual shaft is located between the front cone surface and the body. Between the parts, the driving tool can achieve a good anti-slip effect through the above-mentioned structure.

However, the above are only the preferred embodiments of the present invention. When they cannot be used to limit the scope of implementation of the present invention, all numerical changes or substitutions of equivalent elements or equivalents made in accordance with the scope of the patent application of the present invention are mentioned. Changes and modifications should still fall within the scope of the invention patent.

10: Drive tools 20: body 30: Drive 31: First week 311: Second Week 312: Third Week 313: The Fourth Week 314: Fifth Week 315: Sixth Week 32: The first end face 321: first side 322: The first corner 323: first drive surface 33: second end face 331: second side 332: The second corner 333: Fourth Drive Surface 34: The third end face 341: The third side 342: The Third Corner 343: second driving surface 35: The fourth end face 351: The fourth side 352: The fourth corner 353: Fifth Drive Surface 36: Fifth end face 361: Fifth Side 362: Fifth Corner 363: Third Drive Surface 37: The sixth end face 371: The Sixth Side 372: Hexagon 373: Sixth Driving Surface 321a: first side 33a: second end face 331a: second side 332a: second corner 341a: third side 35a: Fourth end face 351a: Fourth side 352a: The fourth corner 361a: Fifth side 37a: sixth end face 371a: Sixth side 372a: Hexagon 40b: Drive tool 50b: body 60b: Drive section 61b: First week 611b: Second week surface 612b: Third week 613b: Fourth week 614b: Fifth week 615b: Sixth week 62b: end face 621b: first corner 622b: second corner 623b: third corner 624b: fourth corner 625b: Fifth corner 626b: Hexagon 63b: first groove 631b: first edge 64b: second groove 641b: second edge 65b: third groove 651b: third edge 66b: The fourth groove 661b: The fourth edge 67b: Fifth groove 671b: Fifth Edge 68b: sixth groove 681b: Sixth Edge 20c: body 30c: Drive section 31c: First week 311c: Second week surface 312c: Third week 313c: Fourth week 314c: Fifth week 315c: Sixth week 32c: the first end face 321c: first side 323c: the first drive surface 33c: second end face 331c: second side 333c: the fourth driving surface 34c: third end face 341c: third side 343c: second drive surface 35c: Fourth end face 351c: Fourth side 353c: Fifth driving surface 36c: Fifth end face 361c: Fifth side 363c: the third drive surface 37c: sixth end face 371c: Sixth side 373c: The sixth driving surface 38c: Seventh end face 20d: body 30d: Drive section 31d: First week 311d: Second week surface 312d: Third week 313d: Fourth week 314d: Fifth week 315d: Sixth week 32d: the first end face 321d: first side 323d: the first drive surface 33d: second end face 331d: second side 333d: the fourth driving surface 34d: third end face 341d: third side 343d: second drive surface 35d: the fourth end face 351d: Fourth side 353d: Fifth driving surface 36d: Fifth end face 361d: Fifth side 363d: third drive surface 37d: sixth end face 371d: Sixth side 373d: The sixth driving surface 38d: seventh end face 381d: eighth end face 382d: Ninth end face 383d: Tenth end face 384d: Eleventh end face 385d: Twelfth end face 39d: concave hole 31e: First week 311e: Second week 312e: Third week 313e: Fourth week 314e: Fifth week 315e: Sixth week 321e: first side 323e: the first driving surface 331e: second side 333e: the fourth driving surface 341e: third side 343e: second driving surface 351e: Fourth side 353e: Fifth driving surface 361e: Fifth side 363e: the third driving surface 371e: Sixth side 373e: The sixth driving surface 38e: Seventh end face 30f: Drive section 31f: First week 311f: Second week surface 312f: Third week 313f: Fourth week 314f: Fifth week 315f: Sixth week 32f: the first end face 321f: first side 323f: the first drive surface 33f: second end face 331f: second side 333f: the fourth driving surface 34f: third end face 341f: third side 343f: second driving surface 35f: Fourth end face 351f: Fourth side 353f: Fifth driving surface 36f: Fifth end face 361f: Fifth side 363f: third drive surface 37f: sixth end face 371f: Sixth side 373f: sixth driving surface 38f: Seventh end face 381f: eighth end face 382f: Ninth end face 383f: Tenth end face 384f: Eleventh end face 385f: Twelfth end face 70g: drive tool 80g: body 90g: drive unit 91g: the first week of noodles 911g: second week noodles 912g: third week noodles 913g: Fourth week noodles 914g: Fifth week noodles 915g: Sixth week noodles 92g: front cone 93g: the first end face 931g: the first side 932g: the first corner 933g: the first driving surface 94g: second end face 941g: second side 942g: second corner 943g: the fourth driving surface 95g: third end face 951g: third side 952g: third corner 953g: second driving surface 96g: the fourth end surface 961g: fourth side 962g: fourth corner 963g: Fifth driving surface 97g: Fifth end face 971g: fifth side 972g: fifth corner 973g: third drive surface 98g: sixth end surface 981g: sixth side 982g: Hexagon 983g: sixth drive surface 99g: front plane A1: The first angle A2: The second included angle A3: The third angle A4: The fourth included angle A5: Fifth included angle A6: Sixth included angle L: Virtual shaft L1: first length L2: second length L3: third length L4: fourth length L5: fifth length L6: sixth length P: Virtual datum W: side width

Fig. 1 is a perspective view of the first embodiment of the driving tool with anti-slip function of the present invention. Figure 2 is a side plan view of the first embodiment of the driving tool with anti-slip function of the present invention. Fig. 3 is a plan view of the end surface of the driving part of the first embodiment of the driving tool with anti-slip function of the present invention. Fig. 4 is a perspective view of the second embodiment of the driving tool with anti-slip function according to the present invention. Fig. 5 is a side plan view of the second embodiment of the driving tool with anti-slip function according to the present invention. Fig. 6 is a plan view of the end surface of the driving part of the second embodiment of the driving tool with anti-slip function according to the present invention. Fig. 7 is a perspective view of the third embodiment of the driving tool with anti-slip function according to the present invention. Fig. 8 is a side plan view of the third embodiment of the driving tool with anti-slip function of the present invention. Fig. 9 is a plan view of the end surface of the driving part of the third embodiment of the driving tool with anti-slip function according to the present invention. Fig. 10 is a perspective view of the fourth embodiment of the driving tool with anti-slip function according to the present invention. Fig. 11 is a side plan view of the fourth embodiment of the driving tool with anti-slip function according to the present invention. Fig. 12 is a plan view of the end surface of the driving part of the fourth embodiment of the driving tool with anti-slip function according to the present invention. Fig. 13 is a perspective view of the fifth embodiment of the driving tool with anti-slip function of the present invention. Fig. 14 is a side plan view of the fifth embodiment of the driving tool with anti-slip function of the present invention. Fig. 15 is a plan view of the end surface of the driving part of the fifth embodiment of the driving tool with anti-slip function of the present invention. Fig. 16 is a perspective view of the sixth embodiment of the driving tool with anti-slip function of the present invention. Fig. 17: A side plan view of the sixth embodiment of the driving tool with anti-slip function according to the present invention. Fig. 18 is a plan view of the end surface of the driving part of the sixth embodiment of the driving tool with anti-slip function according to the present invention. Fig. 19 is a perspective view of the seventh embodiment of the driving tool with anti-slip function of the present invention. Fig. 20 is a side plan view of the seventh embodiment of the driving tool with anti-slip function of the present invention. Fig. 21 is a plan view of the end surface of the driving part of the seventh embodiment of the driving tool with anti-slip function according to the present invention. Fig. 22 is a perspective view of the eighth embodiment of the driving tool with anti-slip function of the present invention. Fig. 23 is a side plan view of the eighth embodiment of the driving tool with anti-slip function of the present invention. Fig. 24 is a plan view of the end surface of the driving part of the eighth embodiment of the driving tool with anti-slip function according to the present invention.

10: Drive tools

20: body

30: Drive

31: First week

311: Second Week

312: Third Week

32: The first end face

33: second end face

34: The third end face

343: second driving surface

35: The fourth end face

36: Fifth end face

37: The sixth end face

Claims (36)

A driving tool with anti-slip function, which includes: A body A driving part is formed at one end of the body, the driving part is provided with a virtual rotating shaft, the driving part is provided with a first peripheral surface along the radial outer periphery of the virtual rotating shaft, and the driving part is opposite to the One end of the body is provided with a first end surface, the first end surface is connected to the first peripheral surface, the first end surface is provided with a first side and a first corner not on the first side, the driving portion On the contrary, one end of the body is provided with a virtual reference surface, the virtual reference surface is perpendicular to the virtual rotation axis, the first side is on the virtual reference surface, one end of the first side is adjacent to the virtual rotation axis, and the first side is opposite One end of the virtual rotating shaft is connected to the first peripheral surface, and the first angle is located between the virtual reference surface and the body. The driving tool with anti-slip function according to claim 1, wherein the first peripheral surface extends in a direction parallel to the virtual shaft, the first end surface is connected with a first driving surface, and the first driving surface is parallel to the virtual shaft. The direction of the rotation axis extends, the first driving surface is connected to the first corner, one corner of the first driving surface is on the virtual rotation axis, and the side of the first driving surface away from the first end surface is on the virtual reference surface. The driving tool with anti-slip function according to claim 2, wherein the driving part is provided with a second peripheral surface along the radial outer peripheral edge of the virtual rotating shaft, and the second peripheral surface extends in a direction parallel to the virtual rotating shaft. An end of the driving portion opposite to the body portion is provided with a second end surface, the second end surface is connected to the second peripheral surface, the second peripheral surface is adjacent to the first peripheral surface, and the second end surface is provided with a The second side and a second corner not on the second side, the second side is on the virtual reference plane and connected to the first driving surface, and the end point of the first side adjacent to one end of the virtual shaft is at the virtual On the shaft, one end of the second side is connected to the first side, the connection point of the first side and the second side is on the virtual shaft, and the end of the second side opposite to the virtual shaft is connected to the second side The peripheral surface, the second corner is located between the virtual reference surface and the body. The driving tool with anti-slip function according to claim 3, wherein the driving part is provided with a third peripheral surface, a fourth peripheral surface, a fifth peripheral surface, and a sixth peripheral surface along the outer peripheral edge of the virtual shaft in the radial direction. Peripheral surface, the third peripheral surface, the fourth peripheral surface, the fifth peripheral surface, and the sixth peripheral surface respectively extend in a direction parallel to the virtual rotation axis, and the driving portion is provided with an end opposite to the body portion A third end surface, a fourth end surface, a fifth end surface, and a sixth end surface, the third end surface is connected to the third peripheral surface, the third peripheral surface is adjacent to the second peripheral surface and is located on the second peripheral surface The surface is opposite to the side of the first peripheral surface, the third end surface is provided with a third side and a third corner not on the third side, the third side is on the virtual reference surface, and the third side One end is connected to the first side, the connection point of the first side and the third side is on the virtual shaft, the end of the third side opposite to the virtual shaft is connected to the third peripheral surface, and the third corner is located at the Between the virtual reference surface and the body, the fourth end surface is connected to the fourth peripheral surface, and the fourth peripheral surface is adjacent to the third peripheral surface and located opposite to the third peripheral surface. On one side, the fourth peripheral surface is parallel to the first peripheral surface, the fourth end surface is provided with a fourth side and a fourth corner not on the fourth side, and the fourth side is on the virtual reference plane, One end of the fourth side is connected to the first side, the first side and the fourth side are on the same line and the connection point between the two is on the virtual shaft, and the end of the fourth side opposite to the virtual shaft is connected to The fourth peripheral surface, the fourth corner is located between the virtual reference surface and the body, the fifth end surface is connected to the fifth peripheral surface, the fifth peripheral surface is adjacent to the fourth peripheral surface and is located at the The fourth peripheral surface is opposite to the third peripheral surface, the fifth peripheral surface is parallel to the second peripheral surface, and the fifth end surface is provided with a fifth side and a fifth corner not on the fifth side , The fifth side is on the virtual reference plane, one end of the fifth side is connected to the second side, the connection point of the second side and the fifth side is on the virtual rotation axis, and the fifth side is opposite to the One end of the virtual shaft is connected to the fifth peripheral surface, the fifth corner is located between the virtual reference surface and the body, the sixth end surface is connected to the sixth peripheral surface, and the sixth peripheral surface is located on the first peripheral surface. Between the fifth peripheral surface and the fifth peripheral surface, the sixth peripheral surface is parallel to the third peripheral surface, and the sixth end surface is provided with a sixth side and a hexagon that is not on the sixth side. The sixth side On the virtual reference plane, one end of the sixth side is connected to the third side, the third side and the sixth side are on the same line and the connection point between the two is on the virtual axis of rotation, and the sixth side is opposite to One end of the virtual shaft is connected to the sixth peripheral surface, the sixth hexagon is located between the virtual reference surface and the body, the third end surface is connected to a second driving surface, and the second driving surface is parallel to the virtual The second driving surface is connected to the third corner, one of the corners of the second driving surface is on the virtual rotation axis, and the side of the second driving surface away from the third end surface is on the virtual reference surface. The fourth side is connected to the second driving surface, the fifth end surface is connected to a third driving surface, and the third driving surface is parallel to The direction of the virtual rotation axis extends, the third driving surface is connected to the fifth corner, one of the corners of the third driving surface is on the virtual rotation axis, and the side of the third driving surface away from the fifth end surface is on the virtual reference plane , The sixth side is connected to the third driving surface, the second end surface is connected to a fourth driving surface, the fourth driving surface extends in a direction parallel to the virtual shaft, and the fourth driving surface is connected to the second Angle, one of the corners of the fourth driving surface is on the virtual rotation axis, the side of the fourth driving surface away from the second end surface is on the virtual reference surface, the third side is connected to the fourth driving surface, and the fourth driving surface is A fifth driving surface is connected to the end surface, the fifth driving surface extends in a direction parallel to the virtual rotation axis, the fifth driving surface is connected to the fourth corner, one corner of the fifth driving surface is on the virtual rotation axis, and the The side of the fifth driving surface away from the fourth end surface is on the virtual reference surface, the fifth side is connected to the fifth driving surface, the sixth end surface is connected to a sixth driving surface, and the sixth driving surface is parallel to the Extending in the direction of the virtual rotation axis, the sixth driving surface is connected to the hexagon, one of the corners of the sixth driving surface is on the virtual rotation axis, and the side of the sixth driving surface away from the sixth end surface is on the virtual reference surface , The first side is connected to the sixth driving surface. The driving tool with anti-slip function according to claim 4, wherein the first end surface, the second end surface, the third end surface, the fourth end surface, the fifth end surface, and the sixth end surface are not parallel to the virtual datum The inclined plane of the face. The driving tool with anti-slip function according to claim 2, wherein the driving part is provided with a second peripheral surface along the radial outer peripheral edge of the virtual rotating shaft, and the second peripheral surface extends in a direction parallel to the virtual rotating shaft. An end of the driving portion opposite to the body portion is provided with a second end surface, the second end surface is connected to the second peripheral surface, the second peripheral surface is adjacent to the first peripheral surface, and the second end surface is provided with a The second side and a second corner not on the second side, the second end surface is a plane perpendicular to the virtual axis of rotation, the second side and the second corner are on the virtual reference plane, and the first side is adjacent to the The end point of one end of the virtual shaft is on the virtual shaft, one end of the second side is connected to the first side, the connection point of the first side and the second side is on the virtual shaft, and the second side is opposite to the One end of the virtual rotating shaft is connected to the second peripheral surface. The driving tool with anti-slip function according to claim 6, wherein the driving part is provided with a third peripheral surface, a fourth peripheral surface, a fifth peripheral surface, and a sixth peripheral surface along the outer peripheral edge in the radial direction of the virtual rotating shaft. Peripheral surface, the third peripheral surface, the fourth peripheral surface, the fifth peripheral surface, and the sixth peripheral surface respectively extend in a direction parallel to the virtual rotation axis, and the driving part is provided with an end opposite to the body part. A third end surface, a fourth end surface, a fifth end surface, and a sixth end surface, the third end surface is connected to the third peripheral surface, the third peripheral surface is adjacent to the second peripheral surface and is located on the second peripheral surface The surface is opposite to the side of the first peripheral surface, the third end surface is provided with a third side and a third corner not on the third side, the third side is on the virtual reference surface, and the third side is connected On the second end surface, one end of the third side is connected to the first side, the connection point of the first side and the third side is on the virtual shaft, and the end of the third side opposite to the virtual shaft is connected to The third peripheral surface, the third corner is located between the virtual reference surface and the body, the fourth end surface is connected to the fourth peripheral surface, and the fourth peripheral surface is adjacent to the third peripheral surface and is located at the first peripheral surface. Three peripheral surfaces are opposite to the side of the second peripheral surface, the fourth peripheral surface is parallel to the first peripheral surface, and the fourth end surface is provided with a fourth side and a fourth corner not on the fourth side, The fourth end surface is a plane perpendicular to the virtual axis of rotation, the fourth side and the fourth corner are on the virtual reference plane, one end of the fourth side is connected to the first side, and the first side and the fourth side On the same line and the connecting point of the two is on the virtual shaft, the fourth side is connected to the fourth peripheral surface at an end opposite to the virtual shaft, and the fourth corner is located between the virtual reference surface and the body, The fifth end surface is connected to the fifth peripheral surface, the fifth peripheral surface is adjacent to the fourth peripheral surface and located on the side of the fourth peripheral surface opposite to the third peripheral surface, and the fifth peripheral surface is adjacent to the third peripheral surface. The second peripheral surface is parallel, the fifth end surface is provided with a fifth side and a fifth corner not on the fifth side, the fifth side is on the virtual reference surface, and the fifth side is connected to the fourth end surface , One end of the fifth side is connected to the second side, the connection point of the second side and the fifth side is on the virtual rotation axis, and the end of the fifth side opposite to the virtual rotation axis is connected to the fifth circumferential surface , The fifth corner is located between the virtual reference plane and the body, the sixth end surface is connected to the sixth peripheral surface, the sixth peripheral surface is located between the first peripheral surface and the fifth peripheral surface, the The sixth peripheral surface is parallel to the third peripheral surface, the first side is connected to the sixth end surface, the sixth end surface is provided with a sixth side and a hexagon that is not on the sixth side, the sixth end surface Is a plane perpendicular to the virtual axis of rotation, the sixth side and the sixth side are on the virtual reference plane, one end of the sixth side is connected to the third side, the third side and the sixth side are on the same line and The connection point of the two is on the virtual shaft, the end of the sixth side opposite to the virtual shaft is connected to the sixth peripheral surface, the sixth hexagon is located between the virtual reference surface and the body, and the third end surface Is connected with a second driving surface, the second driving surface extends in a direction parallel to the virtual rotation axis, and the second driving surface is connected to the third corner, One of the corners of the second driving surface is on the virtual rotation axis, the side of the second driving surface away from the third end surface is on the virtual reference surface, the fourth side is connected to the second driving surface, and the fifth end surface is connected to There is a third driving surface, the third driving surface extends in a direction parallel to the virtual rotation axis, the third driving surface is connected to the fifth corner, one of the corners of the third driving surface is on the virtual rotation axis, and the third driving surface The side of the driving surface away from the fifth end surface is on the virtual reference surface, and the sixth side is connected to the third driving surface. The driving tool with anti-slip function according to claim 7, wherein the first end surface, the third end surface, and the fifth end surface are inclined planes that are not parallel to the virtual reference surface. The driving tool with anti-slip function according to claim 1, wherein the end of the first side adjacent to the end of the virtual shaft is not on the virtual shaft, the first end surface is connected with a first driving surface, and the first driving surface Extending in a direction parallel to the virtual rotation axis, the first driving surface is connected to the first corner, the first driving surface does not intersect the virtual rotation axis, and the side of the first driving surface away from the first end surface is on the virtual reference plane superior. The driving tool with anti-slip function according to claim 9, wherein the driving part is provided with a second peripheral surface along the radial outer periphery of the virtual rotating shaft, and the second peripheral surface extends in a direction parallel to the virtual rotating shaft. An end of the driving portion opposite to the body portion is provided with a second end surface, the second end surface is connected to the second peripheral surface, the second peripheral surface is adjacent to the first peripheral surface, and the second end surface is provided with a A second side and a second corner not on the second side, the second side is on the virtual reference plane, one end of the second side is adjacent to the virtual rotation axis and its end is not on the virtual rotation axis, the second side One end of the side opposite to the virtual rotating shaft is connected to the second peripheral surface, and the second angle is located between the virtual reference surface and the body. The driving tool with anti-slip function according to claim 10, wherein the driving part is provided with a third peripheral surface, a fourth peripheral surface, a fifth peripheral surface, and a sixth peripheral surface along the outer peripheral edge of the virtual shaft in the radial direction. Peripheral surface, the third peripheral surface, the fourth peripheral surface, the fifth peripheral surface, and the sixth peripheral surface respectively extend in a direction parallel to the virtual rotation axis, and the driving portion is provided with an end opposite to the body portion A third end surface, a fourth end surface, a fifth end surface, and a sixth end surface, the third end surface is connected to the third peripheral surface, the third peripheral surface is adjacent to the second peripheral surface and is located on the second peripheral surface The surface is opposite to the side of the first peripheral surface, the third end surface is provided with a third side and a third corner not on the third side, the third side is on the virtual reference surface, and the third side is One end is adjacent to the virtual shaft and its end point is not on the virtual shaft, the third side is connected to the third peripheral surface at an end opposite to the virtual shaft, and the third angle is located between the virtual reference surface and the body, the The fourth end surface is connected to the fourth peripheral surface, and the fourth peripheral surface is adjacent to the third peripheral surface and located on the side of the third peripheral surface opposite to the second peripheral surface. The circumferential surface is parallel, the fourth end surface is provided with a fourth side and a fourth corner not on the fourth side, the fourth side is on the virtual reference plane, one end of the fourth side is adjacent to the virtual rotation axis and The end point is not on the virtual shaft, the end of the fourth side opposite to the virtual shaft is connected to the fourth peripheral surface, the fourth corner is located between the virtual reference surface and the body, and the fifth end surface is connected to The fifth peripheral surface, the fifth peripheral surface is adjacent to the fourth peripheral surface and located on the side of the fourth peripheral surface opposite to the third peripheral surface, and the fifth peripheral surface is parallel to the second peripheral surface, The fifth end surface is provided with a fifth side and a fifth corner that is not on the fifth side. The fifth side is on the virtual reference plane. One end of the fifth side is adjacent to the virtual shaft and its end is not on the On the virtual shaft, an end of the fifth side opposite to the virtual shaft is connected to the fifth peripheral surface, the fifth corner is located between the virtual reference surface and the body, and the sixth end surface is connected to the sixth peripheral surface , The sixth peripheral surface is located between the first peripheral surface and the fifth peripheral surface, the sixth peripheral surface is parallel to the third peripheral surface, and the sixth end surface is provided with a sixth side and a sixth side The sixth side on the side, the sixth side is on the virtual reference plane, one end of the sixth side is adjacent to the virtual shaft and its end point is not on the virtual shaft, and the sixth side is connected to the opposite end of the virtual shaft On the sixth peripheral surface, the sixth hexagon is located between the virtual reference surface and the body, and the second end surface is disposed on a side of the first driving surface opposite to the first end surface and not connected to the first driving surface. The second side is located on the side of the second end surface adjacent to the first driving surface, the third end surface is connected with a second driving surface, the second driving surface extends in a direction parallel to the virtual rotating axis, and the first Two driving surfaces are connected to the third corner, the second driving surface does not intersect the virtual shaft, the side of the second driving surface away from the third end surface is on the virtual reference surface, and the fourth end surface is disposed on the second driving surface. The surface is opposite to the side of the third end surface and not with The second driving surface is connected, the fourth side is located on the side of the fourth end surface adjacent to the second driving surface, the fifth end surface is connected to a third driving surface, and the third driving surface is along a direction parallel to the virtual rotation axis Extending, the third driving surface is connected to the fifth corner, the third driving surface does not intersect the virtual rotation axis, the side of the third driving surface away from the fifth end surface is on the virtual reference surface, and the sixth end surface is disposed On the side of the third driving surface opposite to the fifth end surface and not connected to the third driving surface, the sixth side is located on the side of the sixth end surface adjacent to the third driving surface, and the second end surface is connected with A fourth driving surface, the fourth driving surface extends in a direction parallel to the virtual rotation axis, the fourth driving surface is connected to the second corner, the fourth driving surface does not intersect the virtual rotation axis, and the fourth driving surface is far away One side of the second end surface is on the virtual reference surface, the third end surface is disposed on the side of the fourth driving surface opposite to the first end surface and is not connected to the fourth driving surface, and the third side is located on the first end surface. The three end surfaces are adjacent to one side of the fourth driving surface, the fourth end surface is connected with a fifth driving surface, the fifth driving surface extends in a direction parallel to the virtual rotation axis, and the fifth driving surface is connected to the fourth corner, The fifth driving surface does not intersect the virtual rotation axis, the side of the fifth driving surface away from the fourth end surface is on the virtual reference surface, and the fifth end surface is disposed on an opposite side of the fifth driving surface to the fourth end surface. Side and not connected to the fifth driving surface, the fifth side is located on the side of the fifth end surface adjacent to the fifth driving surface, the sixth end surface is connected with a sixth driving surface, and the sixth driving surface runs parallel to the The sixth driving surface extends in the direction of the virtual rotation axis, the sixth driving surface is connected to the sixth hexagon, the sixth driving surface does not intersect the virtual rotation axis, the side of the sixth driving surface away from the sixth end surface is on the virtual reference surface, the The first end surface is disposed on a side of the sixth driving surface opposite to the sixth end surface and is not connected to the sixth driving surface, and the first side is located on a side of the first end surface adjacent to the sixth driving surface. The driving tool with anti-slip function according to claim 11, wherein the driving part is provided with a seventh end surface opposite to the end of the body, the seventh end surface is a plane perpendicular to the virtual rotation axis, and the seventh end surface is On the virtual reference surface, the seventh end surface is simultaneously connected to the first end surface, the first driving surface, the second end surface, the second driving surface, the third end surface, the third driving surface, and the fourth end surface. , The fourth driving surface, the fifth end surface, the fifth driving surface, the sixth end surface, and the sixth driving surface, and the seventh end surface is simultaneously connected to the first circumference along the outer peripheral edge of the virtual shaft in the radial direction Surface, the second peripheral surface, the third peripheral surface, the fourth peripheral surface, the fifth peripheral surface, and the sixth peripheral surface. The driving tool with anti-slip function according to claim 9, wherein the driving part is provided with a recessed hole at an end opposite to the body part, and the recessed hole is centered on the virtual rotating shaft and extending axially along the virtual rotating shaft, The side of the first end surface opposite to the first peripheral surface is connected to the recessed hole, and the first side and the first driving surface are connected to the recessed hole at one end adjacent to the virtual shaft. The driving tool with anti-slip function according to claim 13, wherein the driving part is provided with a second peripheral surface along the radial outer peripheral edge of the virtual rotating shaft, and the second peripheral surface extends in a direction parallel to the virtual rotating shaft. A second end surface of the driving portion opposite to the body portion is provided with a second end surface, the second end surface is connected to the second peripheral surface, and the second end surface is connected to the concave hole on the side opposite to the second peripheral surface. The second peripheral surface is adjacent to the first peripheral surface, the second end surface is provided with a second side and a second corner not on the second side, the second side is on the virtual reference surface, and the second One end of the side is adjacent to the virtual shaft and its end is not on the virtual shaft, one end of the second side adjacent to the virtual shaft is connected to the concave hole, and the end of the second side opposite to the virtual shaft is connected to the second circumferential surface , The second angle is located between the virtual reference plane and the body. The driving tool with anti-slip function according to claim 14, wherein the driving part is provided with a third peripheral surface, a fourth peripheral surface, a fifth peripheral surface, and a sixth peripheral surface along the outer peripheral edge of the virtual shaft in the radial direction. Peripheral surface, the third peripheral surface, the fourth peripheral surface, the fifth peripheral surface, and the sixth peripheral surface respectively extend in a direction parallel to the virtual rotation axis, and the driving part is provided with an end opposite to the body part. A third end surface, a fourth end surface, a fifth end surface, and a sixth end surface, the third end surface is connected to the third peripheral surface, the third peripheral surface is adjacent to the second peripheral surface and is located on the second peripheral surface The surface is opposite to the side of the first peripheral surface, the third end surface is provided with a third side and a third corner not on the third side, the third side is on the virtual reference surface, and the third side is One end is adjacent to the virtual shaft and its end point is not on the virtual shaft, the third side is connected to the third peripheral surface at an end opposite to the virtual shaft, and the third angle is located between the virtual reference surface and the body, the The fourth end surface is connected to the fourth peripheral surface, and the fourth peripheral surface is adjacent to the third peripheral surface and located on the side of the third peripheral surface opposite to the second peripheral surface. The circumferential surface is parallel, the fourth end surface is provided with a fourth side and a fourth corner not on the fourth side, the fourth side is on the virtual reference plane, one end of the fourth side is adjacent to the virtual rotation axis and The end point is not on the virtual shaft, the end of the fourth side opposite to the virtual shaft is connected to the fourth peripheral surface, the fourth corner is located between the virtual reference surface and the body, and the fifth end surface is connected to The fifth peripheral surface, the fifth peripheral surface is adjacent to the fourth peripheral surface and located on the side of the fourth peripheral surface opposite to the third peripheral surface, and the fifth peripheral surface is parallel to the second peripheral surface, The fifth end surface is provided with a fifth side and a fifth corner that is not on the fifth side. The fifth side is on the virtual reference plane. One end of the fifth side is adjacent to the virtual shaft and its end is not on the On the virtual shaft, an end of the fifth side opposite to the virtual shaft is connected to the fifth peripheral surface, the fifth corner is located between the virtual reference surface and the body, and the sixth end surface is connected to the sixth peripheral surface , The sixth peripheral surface is located between the first peripheral surface and the fifth peripheral surface, the sixth peripheral surface is parallel to the third peripheral surface, and the sixth end surface is provided with a sixth side and a sixth side The sixth side on the side, the sixth side is on the virtual reference plane, one end of the sixth side is adjacent to the virtual shaft and its end point is not on the virtual shaft, and the sixth side is connected to the opposite end of the virtual shaft On the sixth peripheral surface, the sixth hexagon is located between the virtual reference surface and the body, and the second end surface is disposed on the side of the first driving surface opposite to the first end surface and not connected to the first driving surface. The second side is located on the side of the second end surface adjacent to the first driving surface, the third end surface is connected with a second driving surface, the second driving surface extends in a direction parallel to the virtual rotating axis, and the first Two driving surfaces are connected to the third corner, the second driving surface does not intersect the virtual shaft, the side of the second driving surface away from the third end surface is on the virtual reference surface, and the fourth end surface is disposed on the second driving surface. The side opposite to the third end The second driving surface is connected, the fourth side is located on the side of the fourth end surface adjacent to the second driving surface, the fifth end surface is connected to a third driving surface, and the third driving surface is along a direction parallel to the virtual rotation axis Extending, the third driving surface is connected to the fifth corner, the third driving surface does not intersect the virtual rotation axis, the side of the third driving surface away from the fifth end surface is on the virtual reference surface, and the sixth end surface is disposed On the side of the third driving surface opposite to the fifth end surface and not connected to the third driving surface, the sixth side is located on the side of the sixth end surface adjacent to the third driving surface, and the second end surface is connected with A fourth driving surface, the fourth driving surface extends in a direction parallel to the virtual rotation axis, the fourth driving surface is connected to the second corner, the fourth driving surface does not intersect the virtual rotation axis, and the fourth driving surface is far away One side of the second end surface is on the virtual reference surface, the third end surface is disposed on the side of the fourth driving surface opposite to the first end surface and is not connected to the fourth driving surface, and the third side is located on the first end surface. The three end surfaces are adjacent to one side of the fourth driving surface, the fourth end surface is connected with a fifth driving surface, the fifth driving surface extends in a direction parallel to the virtual rotation axis, and the fifth driving surface is connected to the fourth corner, The fifth driving surface does not intersect the virtual rotation axis, the side of the fifth driving surface away from the fourth end surface is on the virtual reference surface, and the fifth end surface is disposed on an opposite side of the fifth driving surface to the fourth end surface. Side and not connected to the fifth driving surface, the fifth side is located on the side of the fifth end surface adjacent to the fifth driving surface, the sixth end surface is connected with a sixth driving surface, and the sixth driving surface runs parallel to the The sixth driving surface is connected to the sixth hexagon, the sixth driving surface does not intersect the virtual rotation axis, and the side of the sixth driving surface away from the sixth end surface is on the virtual reference surface. The first end surface is arranged on the side of the sixth driving surface opposite to the sixth end surface and is not connected with the sixth driving surface, the first side is located on the side of the first end surface adjacent to the sixth driving surface, and the first side One end of the four driving surfaces adjacent to the virtual shaft is connected to the concave hole, the third end surface is connected to the concave hole on the side opposite to the third peripheral surface, and the third side is connected to the second driving surface adjacent to the end of the virtual shaft In the recessed hole, the side of the fourth end surface opposite to the fourth peripheral surface is connected to the recessed hole, the fourth side and the fifth driving surface are connected to the recessed hole at one end adjacent to the virtual shaft, and the fifth end surface The side opposite to the fifth peripheral surface is connected to the recessed hole, the fifth side and the third driving surface are connected to the recessed hole at one end adjacent to the virtual shaft, and the sixth end surface is opposite to a side of the sixth peripheral surface. The side is connected to the concave hole, and the sixth side and the sixth driving surface are connected to the concave hole at one end adjacent to the virtual shaft. The driving tool with anti-slip function according to claim 15, wherein the driving part is provided with a seventh end face, an eighth end face, a ninth end face, a tenth end face, and a first end at an end opposite to the body part. Eleven end surfaces and a twelfth end surface, the seventh end surface, the eighth end surface, the ninth end surface, the tenth end surface, the eleventh end surface, and the twelfth end surface are planes perpendicular to the virtual axis of rotation, The seventh end surface, the eighth end surface, the ninth end surface, the tenth end surface, the eleventh end surface, and the twelfth end surface are on the virtual reference surface, and the seventh end surface is arranged opposite to the first end surface One side of the first driving surface, one end of the seventh end surface connected to the recessed hole and the other end connected to the first peripheral surface, one side of the seventh end surface connected to the first end surface, the first end surface and The first side is formed between the seventh end surface, the eighth end surface is disposed on the side of the second end surface opposite to the fourth driving surface, one end of the eighth end surface is connected to the concave hole and the other end is connected to the A second peripheral surface, one side of the eighth end surface is connected to the second end surface, the second side is formed between the second end surface and the eighth end surface, and the ninth end surface is disposed on the third end surface opposite to the first end surface. On one side of the two driving surfaces, one end of the ninth end surface is connected to the concave hole and the other end is connected to the third peripheral surface, one side of the ninth end surface is connected to the third end surface, and the third end surface is connected to the third peripheral surface. The third side is formed between the nine end surfaces, the tenth end surface is disposed on the side of the fourth end surface opposite to the fifth driving surface, one end of the tenth end surface is connected to the concave hole and the other end is connected to the fourth end surface. Peripheral surface, one side of the tenth end surface is connected to the fourth end surface, the fourth side is formed between the fourth end surface and the tenth end surface, and the eleventh end surface is disposed on the fifth end surface opposite to the third end surface. On one side of the driving surface, one end of the eleventh end surface is connected to the concave hole and the other end is connected to the fifth peripheral surface, one side of the eleventh end surface is connected to the fifth end surface, and the fifth end surface is connected to the fifth peripheral surface. The fifth side is formed between the eleventh end surface, the twelfth end surface is disposed on the side of the sixth end surface opposite to the sixth driving surface, one end of the twelfth end surface is connected to the concave hole and the other end is connected On the sixth peripheral surface, one side of the twelfth end surface is connected to the sixth end surface, and the sixth side is formed between the sixth end surface and the twelfth end surface. The driving tool with anti-slip function according to claim 9, wherein the width of the first peripheral surface along the radial direction of the virtual shaft forms a side width, and the first side is adjacent to one end of the virtual shaft to connect with the first peripheral surface The distance between one ends of the two sides forms a first length, and the first length is less than 0.5 times the width of the side. The driving tool with anti-slip function according to claim 11, wherein the width of the first peripheral surface along the radial direction of the virtual rotating shaft forms a side width, and the first side is adjacent to one end of the virtual rotating shaft to be connected to the first peripheral surface The distance between one end of the second side forms a first length, and the first length is less than 0.5 times the width of the side. Two lengths, the second length is less than 0.5 times the side width, the distance between the end of the third side adjacent to the virtual shaft and the end connected to the third peripheral surface forms a third length, the third length is less than the 0.5 times the side width, the distance between the end of the fourth side adjacent to the virtual shaft and the end connected to the fourth peripheral surface forms a fourth length, the fourth length is less than 0.5 times the side width, the fifth The distance between the end of the side adjacent to the virtual shaft and the end connected to the fifth circumferential surface forms a fifth length, the fifth length is less than 0.5 times the width of the side, and the sixth side is adjacent to the end of the virtual shaft to connect The distance between the ends of the sixth peripheral surface forms a sixth length, and the sixth length is less than 0.5 times the side width. The driving tool with anti-slip function according to claim 12, wherein the side of the first driving surface connected to the seventh end face intersects the first side and forms a first included angle between the two, and the angle of the first included angle Greater than 80 degrees, the side of the fourth driving surface connecting the seventh end surface intersects the second side and forming a second included angle between the two. The second included angle is greater than 80 degrees, and the second driving surface is connected to the One side of the seventh end surface intersects the third side and a third included angle is formed between the two. The third included angle is greater than 80 degrees, and the side of the fifth driving surface connecting the seventh end surface intersects the fourth side And a fourth included angle is formed between the two, the angle of the fourth included angle is greater than 80 degrees, the side of the third driving surface connecting the seventh end surface intersects the fifth side and a fifth included angle is formed between the two, The fifth included angle is greater than 80 degrees, and the side of the sixth driving surface connecting the seventh end surface intersects with the sixth side and a sixth included angle is formed therebetween. The sixth included angle is greater than 80 degrees. The driving tool with anti-slip function according to claim 2, wherein the end point of the first side adjacent to one end of the virtual shaft is not on the virtual shaft, and the first driving surface does not form an intersection with the first side. The driving tool with anti-slip function according to claim 20, wherein the driving part is provided with a second peripheral surface along the radial outer peripheral edge of the virtual rotating shaft, and the second peripheral surface extends in a direction parallel to the virtual rotating shaft. An end of the driving portion opposite to the body portion is provided with a second end surface, the second end surface is connected to the second peripheral surface, the second peripheral surface is adjacent to the first peripheral surface, and the second end surface is provided with a A second side and a second corner not on the second side, one end of the second side is adjacent to the virtual shaft and its end is not on the virtual shaft, and one end of the second side adjacent to the virtual shaft is connected to the first The driving surface, an end of the second side opposite to the virtual rotating shaft is connected to the second peripheral surface, and the second angle is located between the virtual reference surface and the body. The driving tool with anti-slip function according to claim 21, wherein the driving part is provided with a third peripheral surface, a fourth peripheral surface, a fifth peripheral surface, and a sixth peripheral surface along the outer peripheral edge of the virtual shaft in the radial direction. Peripheral surface, the third peripheral surface, the fourth peripheral surface, the fifth peripheral surface, and the sixth peripheral surface respectively extend in a direction parallel to the virtual rotation axis, and the driving part is provided with an end opposite to the body part. A third end surface, a fourth end surface, a fifth end surface, and a sixth end surface, the third end surface is connected to the third peripheral surface, the third peripheral surface is adjacent to the second peripheral surface and is located on the second peripheral surface The surface is opposite to the side of the first peripheral surface, the third end surface is provided with a third side and a third corner not on the third side, the third side is on the virtual reference plane, and the third side is One end is adjacent to the virtual shaft and its end point is not on the virtual shaft, the third side is connected to the third peripheral surface at an end opposite to the virtual shaft, and the third angle is located between the virtual reference surface and the body, the The fourth end surface is connected to the fourth peripheral surface, and the fourth peripheral surface is adjacent to the third peripheral surface and located on the side of the third peripheral surface opposite to the second peripheral surface. The circumferential surface is parallel, the fourth end surface is provided with a fourth side and a fourth corner not on the fourth side, the fourth side is on the virtual reference plane, one end of the fourth side is adjacent to the virtual rotation axis and The end point is not on the virtual shaft, the end of the fourth side opposite to the virtual shaft is connected to the fourth peripheral surface, the fourth corner is located between the virtual reference surface and the body, and the fifth end surface is connected to The fifth peripheral surface, the fifth peripheral surface is adjacent to the fourth peripheral surface and located on the side of the fourth peripheral surface opposite to the third peripheral surface, and the fifth peripheral surface is parallel to the second peripheral surface, The fifth end surface is provided with a fifth side and a fifth corner that is not on the fifth side. The fifth side is on the virtual reference plane. One end of the fifth side is adjacent to the virtual shaft and its end is not on the On the virtual shaft, an end of the fifth side opposite to the virtual shaft is connected to the fifth peripheral surface, the fifth corner is located between the virtual reference surface and the body, and the sixth end surface is connected to the sixth peripheral surface , The sixth peripheral surface is located between the first peripheral surface and the fifth peripheral surface, the sixth peripheral surface is parallel to the third peripheral surface, and the sixth end surface is provided with a sixth side and a sixth side The sixth side on the side, the sixth side is on the virtual reference plane, one end of the sixth side is adjacent to the virtual shaft and its end point is not on the virtual shaft, and the sixth side is connected to the opposite end of the virtual shaft On the sixth peripheral surface, the sixth hexagon is located between the virtual reference surface and the body, the third end surface is connected with a second driving surface, and the second driving surface extends in a direction parallel to the virtual rotation axis. The second driving surface is connected to the third corner, one of the corners of the second driving surface is on the virtual shaft, the side of the second driving surface away from the third end surface is on the virtual reference surface, and the fourth side is adjacent to the virtual reference surface. One end of the rotating shaft is connected to the second driving surface, the second driving surface does not form an intersection with the third side, a third driving surface is connected to the fifth end surface, and the third driving surface extends in a direction parallel to the virtual rotating shaft, The third driving surface is connected to the The fifth corner, one of the corners of the third driving surface is on the virtual rotation axis, the side of the third driving surface away from the fifth end surface is on the virtual reference surface, and the sixth side is adjacent to the virtual rotation axis and connected to the first Three driving surfaces, the third driving surface does not form an intersection with the fifth side, a fourth driving surface is connected to the second end surface, the fourth driving surface extends in a direction parallel to the virtual rotation axis, and the fourth driving surface is connected At the second corner, one of the corners of the fourth driving surface is on the virtual shaft, the side of the fourth driving surface away from the second end surface is on the virtual reference surface, and the third side is adjacent to the virtual shaft. The fourth driving surface, the fourth driving surface does not form an intersection with the second side, a fifth driving surface is connected to the fourth end surface, the fifth driving surface extends in a direction parallel to the virtual rotation axis, the fifth driving surface The surface is connected to the fourth corner, one of the corners of the fifth driving surface is on the virtual shaft, the side of the fifth driving surface away from the fourth end surface is on the virtual reference surface, and the fifth side is adjacent to one end of the virtual shaft Connected to the fifth driving surface, the fifth driving surface does not form an intersection with the fourth side, the sixth end surface is connected to a sixth driving surface, the sixth driving surface extends in a direction parallel to the virtual rotating axis, the sixth driving surface The driving surface is connected to the hexagon, one of the corners of the sixth driving surface is on the virtual rotation axis, the side of the sixth driving surface away from the sixth end surface is on the virtual reference surface, and the first side is adjacent to the virtual rotation axis One end is connected to the sixth driving surface, and the sixth driving surface does not form an intersection with the sixth side. The driving tool with anti-slip function according to claim 22, wherein the driving part is provided with a seventh end face, an eighth end face, a ninth end face, a tenth end face, and a first end at an end opposite to the body part. Eleven end surfaces and a twelfth end surface, the seventh end surface, the eighth end surface, the ninth end surface, the tenth end surface, the eleventh end surface, and the twelfth end surface are planes perpendicular to the virtual axis of rotation, The seventh end surface, the eighth end surface, the ninth end surface, the tenth end surface, the eleventh end surface, and the twelfth end surface are on the virtual reference surface, and the seventh end surface is connected to the first peripheral surface and the twelfth end surface. The first end surface and the sixth driving surface, the first side is formed between the first end surface and the seventh end surface, the eighth end surface connects the second peripheral surface, the second end surface and the first driving surface, the The second side is formed between the second end surface and the eighth end surface, the ninth end surface connects the third peripheral surface, the third end surface and the fourth driving surface, and the third end surface and the ninth end surface are formed between The third side, the tenth end surface connects the fourth peripheral surface, the fourth end surface and the second driving surface, the fourth end surface and the tenth end surface form the fourth side, and the eleventh end surface connects The fifth peripheral surface, the fifth end surface, and the fifth driving surface, the fifth side is formed between the fifth end surface and the eleventh end surface, and the twelfth end surface connects the sixth peripheral surface and the sixth The sixth side is formed between the end surface and the third driving surface, the sixth end surface and the twelfth end surface. The driving tool with anti-slip function according to any one of claim 12, 16 or 22, wherein the first end surface, the second end surface, the third end surface, the fourth end surface, the fifth end surface and the first end surface The six end faces are inclined planes that are not parallel to the virtual reference plane. 5, 7, 8, 11, 12, 16, 18, or 22, wherein the first peripheral surface, the second peripheral surface, the third peripheral surface, the first peripheral surface An internal angle of 120 degrees is formed between every two adjacent ones of the peripheral surface, the fifth peripheral surface and the sixth peripheral surface. A driving tool with anti-slip function, which includes: A body A driving part formed at one end of the body, the driving part is provided with a virtual rotating shaft, the driving part is provided with a first peripheral surface, a second peripheral surface and A third peripheral surface, the drive portion is provided with an end surface opposite to the end of the body portion, the end surface is connected to the first peripheral surface, the second peripheral surface and the third peripheral surface, the second peripheral surface and The first peripheral surface is adjacent, the third peripheral surface is adjacent to the second peripheral surface and is located on the side of the second peripheral surface opposite to the first peripheral surface, and the end surface is provided with a first corner and a first peripheral surface. Two corners, the first corner is provided at the junction of the first peripheral surface and the second peripheral surface, the second corner is provided at the junction of the second peripheral surface and the third peripheral surface, and the driving portion is recessed There is a first groove. One end of the first groove is connected to the end surface and the other end is connected to the second peripheral surface. One end of the first groove connected to the end surface forms a first edge. The end point is on the second corner, and the first edge does not pass through the first corner. The driving tool with anti-slip function according to claim 26, wherein the driving part is provided with a fourth peripheral surface, a fifth peripheral surface, and a sixth peripheral surface along the outer peripheral edge of the virtual shaft in the radial direction, and the first peripheral surface The peripheral surface, the second peripheral surface, the third peripheral surface, the fourth peripheral surface, the fifth peripheral surface, and the sixth peripheral surface respectively extend in a direction parallel to the virtual rotation axis, and the end surface is simultaneously connected to the first peripheral surface. Peripheral surface, the second peripheral surface, the third peripheral surface, the fourth peripheral surface, the fifth peripheral surface and the sixth peripheral surface, the fourth peripheral surface is adjacent to the third peripheral surface and is located at the first peripheral surface Three peripheral surfaces are opposite to the side of the second peripheral surface, the fourth peripheral surface is parallel to the first peripheral surface, the fifth peripheral surface is adjacent to the fourth peripheral surface and is located opposite to the fourth peripheral surface One side of the third peripheral surface, the fifth peripheral surface is parallel to the second peripheral surface, the sixth peripheral surface is located between the first peripheral surface and the fifth peripheral surface, and the sixth peripheral surface is parallel to the third peripheral surface. The peripheral surface is parallel, the end surface is provided with a third corner, a fourth corner, a fifth corner, and a first hexagon. The third corner is set at the junction of the third peripheral surface and the fourth peripheral surface. The corner is set at the junction of the fourth peripheral surface and the fifth peripheral surface, the fifth corner is set at the junction of the third peripheral surface and the sixth peripheral surface, and the sixth hexagon is provided at the sixth peripheral surface. At the junction with the first peripheral surface, the driving portion is recessed with a second groove and a third groove. One end of the second groove is connected to the end surface and the other end is connected to the fourth peripheral surface. One end of the two grooves connected to the end surface forms a second edge, the end of one end of the second edge is on the fourth corner, the second edge does not pass through the third corner, and one end of the third groove connects to the end surface And the other end is connected to the sixth peripheral surface, the end of the third groove connected to the end surface forms a third edge, the end of one end of the third edge is at the sixth hexagon, and the second edge does not pass through the fifth Horn. The driving tool with anti-slip function according to claim 27, wherein the driving portion is recessed with a fourth groove, a fifth groove, and a sixth groove, and one end of the fourth groove is connected to the end surface and The other end is connected to the first peripheral surface, one end of the fourth groove connected to the end surface forms a fourth edge, one end of the fourth edge is at the first corner, and the fourth edge does not pass through the sixth Angle, one end of the fifth groove is connected to the end surface and the other end is connected to the third peripheral surface, the end of the fifth groove connected to the end surface forms a fifth edge, and one end of the fifth edge is at the first Triangle, the fifth edge does not pass through the second corner, one end of the sixth groove is connected to the end surface and the other end is connected to the fifth peripheral surface, the end of the sixth groove connected to the end surface forms a sixth edge, the The end point of one end of the sixth edge is at the fifth corner, and the sixth edge does not pass through the fourth corner. The driving tool with anti-slip function according to claim 28, wherein the first peripheral surface, the second peripheral surface, the third peripheral surface, the fourth peripheral surface, the fifth peripheral surface, and the sixth peripheral surface An internal angle of 120 degrees is formed between every two adjacent two, the first edge, the second edge, the third edge, the fourth edge, the fifth edge and the sixth edge are not connected to each other And each is in the shape of a circular arc. A driving tool with anti-slip function, which includes: A body A driving part is formed at one end of the body, the driving part is provided with a virtual rotating shaft, the driving part is provided with a first peripheral surface along the radial outer periphery of the virtual rotating shaft, and the driving part is opposite to the An end of the body is provided with a front cone surface and a first end surface, the front cone surface is a conical surface with the virtual rotating shaft as the central axis, the first end surface is connected to the first peripheral surface, and the first end surface is disposed There is a first side and a first angle not on the first side, the first side is on the front cone surface, one end of the first side is adjacent to the virtual shaft, and the first side is opposite to the virtual shaft One end is connected to the first peripheral surface, and the position of the first angle along the axial direction of the virtual rotating shaft is located between the front cone surface and the body. The driving tool with anti-slip function according to claim 30, wherein the first peripheral surface extends in a direction parallel to the virtual rotation axis, the end of the first side adjacent to one end of the virtual rotation axis is not on the virtual rotation axis, and the first The end surface is connected with a first driving surface, the first driving surface extends in a direction parallel to the virtual rotation axis, the first driving surface is connected to the first corner, the first driving surface does not intersect the virtual rotation axis, the first driving surface The side of the driving surface away from the first end surface is on the front cone surface. The driving tool with anti-slip function according to claim 31, wherein the driving part is provided with a second peripheral surface along the radial outer periphery of the virtual rotating shaft, and the second peripheral surface extends in a direction parallel to the virtual rotating shaft. A second end surface of the driving portion opposite to the body portion is provided with a second end surface, the second end surface is connected to the second peripheral surface, the second peripheral surface is adjacent to the first peripheral surface, and the second end surface is provided with a The second side and a second angle not on the second side, the second side is on the front cone, one end of the second side is adjacent to the virtual axis and its end is not on the virtual axis, the second An end of the side opposite to the virtual rotating shaft is connected to the second peripheral surface, and the position of the second angle along the axial direction of the virtual rotating shaft is located between the front cone surface and the body. The driving tool with anti-slip function according to claim 32, wherein the driving part is provided with a third peripheral surface, a fourth peripheral surface, a fifth peripheral surface, and a sixth peripheral surface along the outer peripheral edge of the virtual shaft in the radial direction. Peripheral surface, the third peripheral surface, the fourth peripheral surface, the fifth peripheral surface, and the sixth peripheral surface respectively extend in a direction parallel to the virtual rotation axis, and the driving part is provided with an end opposite to the body part. A third end surface, a fourth end surface, a fifth end surface, and a sixth end surface, the third end surface is connected to the third peripheral surface, the third peripheral surface is adjacent to the second peripheral surface and is located on the second peripheral surface The surface is opposite to the side of the first peripheral surface, the third end surface is provided with a third side and a third angle not on the third side, the third side is on the front cone surface, and the third side One end is adjacent to the virtual shaft and its end point is not on the virtual shaft, the third side is connected to the third peripheral surface at an end opposite to the virtual shaft, and the position of the third angle along the axial direction of the virtual shaft is located on the front cone surface Between the body and the body, the fourth end surface is connected to the fourth peripheral surface, the fourth peripheral surface is adjacent to the third peripheral surface and located on the side of the third peripheral surface opposite to the second peripheral surface, The fourth peripheral surface is parallel to the first peripheral surface, the fourth end surface is provided with a fourth side and a fourth corner not on the fourth side, the fourth side is on the front cone surface, the fourth One end of the side is adjacent to the virtual shaft and its end point is not on the virtual shaft, the fourth side is connected to the fourth peripheral surface at an end opposite to the virtual shaft, and the position of the fourth corner along the axis of the virtual shaft is located at the Between the front cone surface and the body, the fifth end surface is connected to the fifth peripheral surface, and the fifth peripheral surface is adjacent to the fourth peripheral surface and is located opposite to the third peripheral surface. On one side, the fifth peripheral surface is parallel to the second peripheral surface, the fifth end surface is provided with a fifth side and a fifth corner not on the fifth side, and the fifth side is on the front cone surface, One end of the fifth side is adjacent to the virtual shaft and its end point is not on the virtual shaft, the fifth side is connected to the fifth circumferential surface at an end opposite to the virtual shaft, and the fifth angle is along the axis of the virtual shaft. Is located between the front cone surface and the body, the sixth end surface is connected to the sixth peripheral surface, the sixth peripheral surface is located between the first peripheral surface and the fifth peripheral surface, the sixth peripheral surface Parallel to the third peripheral surface, the sixth end surface is provided with a sixth side and a hexagon that is not on the sixth side, the sixth side is on the front cone surface, and one end of the sixth side is adjacent to the The virtual shaft and its end point is not on the virtual shaft, the sixth side is connected to the sixth peripheral surface at an end opposite to the virtual shaft, and the position of the sixth hexagon along the axial direction of the virtual shaft is located between the front cone and the Between the bodies, the second end surface is disposed on the side of the first driving surface opposite to the first end surface and is not connected to the first driving surface, and the second side is located at the second end surface adjacent to the first driving surface On one side of the third end surface, a second driving surface is connected to the third end surface, the second driving surface extends in a direction parallel to the virtual shaft, the second driving surface is connected to the third corner, and the second driving surface is not connected to the virtual shaft. The shafts intersect, the side of the second driving surface away from the third end surface is on the front cone surface, and the fourth end surface is provided with Placed on the side of the second driving surface opposite to the third end surface and not connected to the second driving surface, the fourth side is located on the side of the fourth end surface adjacent to the second driving surface, and the fifth end surface is connected There is a third driving surface, the third driving surface extends in a direction parallel to the virtual rotation axis, the third driving surface is connected to the fifth corner, the third driving surface does not intersect the virtual rotation axis, the third driving surface The side far away from the fifth end surface is on the front cone surface, the sixth end surface is disposed on the side of the third driving surface opposite to the fifth end surface and is not connected to the third driving surface, and the sixth side is located at the The sixth end surface is adjacent to one side of the third driving surface, the second end surface is connected to a fourth driving surface, the fourth driving surface extends in a direction parallel to the virtual rotation axis, and the fourth driving surface is connected to the second corner , The fourth driving surface does not intersect the virtual shaft, the side of the fourth driving surface away from the second end surface is on the front cone surface, and the third end surface is disposed on the fourth driving surface opposite to the first end surface. One side is not connected with the fourth driving surface, the third side is located on the side of the third end surface adjacent to the fourth driving surface, the fourth end surface is connected with a fifth driving surface, and the fifth driving surface is parallel to The direction of the virtual rotation axis extends, the fifth driving surface is connected to the fourth corner, the fifth driving surface does not intersect the virtual rotation axis, and the side of the fifth driving surface away from the fourth end surface is on the front cone surface, The fifth end surface is disposed on a side of the fifth driving surface opposite to the fourth end surface and is not connected to the fifth driving surface. The fifth side is located on the side of the fifth end surface adjacent to the fifth driving surface. A sixth driving surface is connected to the sixth end surface, the sixth driving surface extends in a direction parallel to the virtual rotation axis, the sixth driving surface is connected to the sixth hexagon, and the sixth driving surface does not intersect the virtual rotation axis. The side of the sixth driving surface away from the sixth end surface is on the front cone surface, and the first end surface is disposed on the side of the sixth driving surface opposite to the sixth end surface and is not connected with the sixth driving surface. One side is located on the side of the first end surface adjacent to the sixth driving surface. The driving tool with anti-slip function according to claim 33, wherein the driving part is provided with a front plane opposite to the end of the body, and the front plane is a circle perpendicular to the virtual rotation axis and centered on the virtual rotation axis Plane, the front cone surface surrounds the front plane. The driving tool with anti-slip function according to claim 34, wherein the first end surface, the second end surface, the third end surface, the fourth end surface, the fifth end surface and the sixth end surface are not perpendicular to the virtual shaft Inclined plane. The driving tool with anti-slip function according to claim 34, wherein the first peripheral surface, the second peripheral surface, the third peripheral surface, the fourth peripheral surface, the fifth peripheral surface, and the sixth peripheral surface An internal angle of 120 degrees is formed between every two adjacent two.

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