TWM477942U - Hand tool structure with both fast-rotating and torsion modes - Google Patents

Description

Hand tool structure with fast turning and torque mode (2)

This creation is related to a hand tool structure (2) that has both a fast-turn and torsion mode, especially an innovative structure that has both a large torque transmission output and a fast-rotation output mode and can be switched relatively.

According to the detailed use of the screwdriver tool structure, there are still some shortcomings, the main reasons are as follows: the structure is used to tighten or loosen the screwdriver head, so when the screwdriver handle rotates relative to the rotating head The screwdriver handle will drive the circular shaft block to rotate relative to the rotating head. Since the circular shaft block is connected with the rotating head and the driver handle body, the frictional resistance is large, so that when the screwdriver handle body rotates relative to the rotating head, the round shaft is driven together. The block and the bottom seat are rotated together. Since the set seat is additionally provided with a plurality of sets of screwdriver heads, the overall weight is very heavy, so that the handle body is extremely heavy relative to the rotating head, and the whole screwdriver is used. Very unsmooth.

Therefore, in view of the problems existing in the above-mentioned conventional structure, how to develop an innovative structure that is more ideal and practical, and to use the eagerly awaited by consumers, is also the goal and direction of the relevant industry to strive to develop breakthroughs.

In view of this, the creator has been engaged in the manufacturing development and design experience of related products for many years. After the detailed design and careful evaluation of the above objectives, the creator will have a practical and practical creation.

That is, the main purpose of this creation is to provide a kind of quick turn and torque The hand tool structure of the model (2); the problem to be solved is that it is extremely difficult to rotate the relative rotation head of the conventional screwdriver, and the improvement of the whole screwdriver is not smooth. The technical feature of the problem is mainly composed of: a handle body having two rotary seats at the upper end thereof, a spiral groove is formed between the two rotary seats, and a built-in hole is provided on one side of the rotary groove, the built-in hole The hole is provided with a built-in component, wherein the inner part is provided with a perforation, the one side of the perforation is provided with a side groove, and one end of the rotation seat is provided with one side assembly, and the other end of the rotation seat is provided with a group of rooms, the group indoor The group is provided with a guiding component, the guiding component is provided with a bead at a predetermined position on one side thereof, and one end of the guiding component is provided with a set of holes, and the guiding component is sleeved with an elastic member, and is further sleeved After the one end of the elastic member is supported by a spacer, the set of holes is screwed to the set of components of the guiding component; and the first guiding unit is provided with a set of sockets at one end. a seat shaft set in the slot of the handle body, the set The inner guiding unit is formed with a side hole, and the other end of the first guiding unit is provided with a connecting edge. The connecting edge is axially provided with a front group hole; and a second guiding unit is provided with a non-circular end. The other end is provided with a plurality of inlet ends, and the group of the inlet ends is correspondingly formed in the front group hole of the first guiding unit, and the axial direction of the grouping end is provided with a shaft hole at a predetermined position, and the shaft hole is radially opened. There is a plurality of recesses, and one side of the shaft hole is provided with an inner hole, the inner hole is axially received with a spring and a bead body, and the outer edge of the set end has a fin, wherein the shaft hole and the plurality of embedded The concave system is provided corresponding to the component group axis group, and the beading activity of the guiding group component is embedded in the one of the embedded recesses for positioning in multiple segments; and the axial end face of the second guiding unit is provided with an assembly a transmission shaft, which is provided with a guiding and rotating section at one end thereof, and the guiding and rotating section is inserted into the assembly hole of the second guiding unit, and the guiding section is provided with a forced ring groove at a predetermined position. Then, the forcing ring groove is sequentially inserted into the card to assemble a pad and a firmware, and the side of the guiding portion is put on the sleeve. a spacer, the non-circular section is disposed adjacent to the guiding segment, and the non-circular segment is provided with a positioning hole at a predetermined position, and the positioning hole is internally provided with an elastic member and a positioning bead, and the adjacent position of the non-circular segment a coupling section is provided, and one side of the coupling section is provided with a screw hole; thereby, the innovative unique design enables the creation to press the guiding component to disengage the embedded edge, and the angle of the handle body is straight or has a The angle state allows for the multi-functional transition of the two-way rapid rotation mode and the torsion mode, thereby enabling the creation to achieve practical progress in use.

[this creation]

10‧‧‧Handle body

11‧‧‧ Rotating seat

12‧‧‧Rotary groove

13‧‧‧ Built-in hole

14‧‧‧ side components

15‧‧‧ Built-in parts

16‧‧‧Perforation

17‧‧‧ side group slot

18‧‧ ‧ group room

19‧‧‧fixed slot

101‧‧‧ bottom cover

102‧‧‧Fixed group end

103‧‧‧Guide components

104‧‧‧Inlay

105‧‧‧Set holes

106‧‧‧Flexible parts

107‧‧‧shims

108‧‧‧Sets

20‧‧‧First transfer unit

21‧‧‧ side group holes

22‧‧‧ group seat

23‧‧‧ Linkage

24‧‧‧ front group hole

25‧‧‧Second transfer unit

251‧‧‧Axis hole

252‧‧‧ embedded concave

253‧‧ ‧ spring

254‧‧‧ beads

255‧‧‧ cushions

256‧‧‧ Firmware

257‧‧‧Assembled holes

26‧‧‧ non-circular sides

27‧‧‧ group entry

28‧‧‧ inside hole

29‧‧‧Flap

30‧‧‧Drive shaft

31‧‧‧Combined section

32‧‧‧Non-round segments

33‧‧‧ screw holes

321‧‧‧Positioning holes

322‧‧‧Flexible parts

323‧‧‧ positioning beads

33‧‧‧ screw holes

34‧‧‧ Leading segment

35‧‧‧Forcing the ring groove

36‧‧‧shims

40‧‧‧ drive rod

41‧‧‧ drive hole

42‧‧‧ front seat

43‧‧‧ Forward column

44‧‧‧ rear seat

45‧‧‧post post

46‧‧‧Idle gear

47‧‧‧ pivot hole

48‧‧‧Injectory

49‧‧‧ forced slot

50‧‧‧ forward bevel gear

51‧‧‧Driver

52‧‧‧Central hole

53‧‧‧ front helical gear

54‧‧‧Back helical gear

55‧‧‧ center hole

56‧‧‧Rear tooth

60‧‧‧ Driving body

61‧‧‧Non-round seat

62‧‧‧Axis hole

63‧‧‧ drive shaft

64‧‧‧ 挡缘

65‧‧‧ shaft end

66‧‧‧Switching the chip

67‧‧‧ combined side

68‧‧‧Medium Department

681‧‧‧First indentation

682‧‧‧Second indentation

69‧‧‧ Forced film

70‧‧‧fast spin

71‧‧‧Drive terminal

80‧‧‧Switching body

81‧‧‧Combination Department

82‧‧‧ front axle end

83‧‧‧ Limit slot

90‧‧‧ linkage post

91‧‧‧ Ring groove

92‧‧‧Contact hole

93‧‧‧Tools socket

94‧‧‧ screw

Figure 1: This is a three-dimensional diagram of the hand tool structure (2) with both fast-turning and torsion modes.

Figure 2: An exploded perspective view of the hand tool structure (2) with both fast-forward and torsional modes.

Figure 3: This is a schematic diagram of the action of the hand tool structure (2) with both fast-forward and torsion modes.

Figure 4: This is the schematic diagram of the action of the hand tool structure (2) with both fast-forward and torsion modes.

Figure 5: This is an example of the implementation of the hand tool structure (2) with both fast-turn and torsion modes.

Please refer to the first embodiment of FIG. 1 to FIG. 5, which is a preferred embodiment of the hand tool structure (2) which has both a fast turning and a torque mode. However, these embodiments are for illustrative purposes only and are not used in patent applications. Restricted by the structure, the utility model comprises: a handle body (10), which is provided with two rotary bases (11) at the upper end, and a spiral groove (12) is formed between the two rotary bases (11), the rotary groove (12) One side is provided with a built-in hole (13), and the built-in hole (13) is provided with a built-in member (15). The inner part (15) is internally provided with a through hole (16), and the through hole (16) side There is a side group groove (17), and one end assembly (14) is provided at one end of the rotation seat (11), and a set of chambers (18) are arranged at the other end of the rotation seat (11), and the internal group of the group (18) is set. a guiding group component (103) is disposed, a beading edge (104) is disposed at a predetermined position on one side of the guiding component component (103), and a set of holes (105) is disposed on one end surface of the guiding component component (103). The guiding component (103) is sleeved with an elastic member (106), and a spacer (107) is further sleeved to support one end of the elastic member (106), and then locked by a set of components (108) The set of holes (105) of the group of components (103); wherein the handle body (10) is opposite to the bottom cover (101) The set position is provided with a fixing slot (19), the bottom cover (101) is provided with a fixed group end (102) corresponding to the fixing groove (19); and a first guiding unit (20) is provided with a set at one end a socket (22), the set of sockets (22) is disposed on the rotation groove (12) of the handle body (10), and the group of sockets (22) is laterally hollow and formed with a side group hole (21). ), the other end of the first guiding unit (20) is provided with a connecting edge (23), the connecting edge (23) The inner axial direction is provided with a front group hole (24); a second guiding unit (25) is provided with a non-circular edge (26) at one end and a set of inlet ends (27) at the other end, the group end (27) correspondingly to the front group hole (24) of the first guiding unit (20), the axial position of the group receiving end (27) is provided with a shaft hole (251) at a predetermined position, the shaft hole ( 251) a plurality of embedded recesses (252) are radially opened, and an inner hole (28) is disposed on one side of the shaft hole (251), and the inner hole (28) is axially accommodated with a spring (253) and a bead body (254), the outer edge of the set of inlet ends (27) has a fin (29), wherein the shaft hole (251) and the plurality of recessed recesses (252) are provided to correspond to the set of elements (103) And the embedded edge (104) of the guiding component (103) is movably embedded in the one of the embedded recesses (252) for positioning in multiple segments; and the axial end surface of the second guiding component (25) is provided with an assembly. a hole (257); a transmission shaft (30) having a guiding portion (34) at one end thereof, the guiding portion (34) being threaded into the assembly hole of the second guiding unit (25) (257) The guide segment (34) is provided with a forced ring groove (35) at a predetermined position, and the forced ring groove (35) is sequentially inserted into the card to assemble a pad. (255) and a firmware (256), and a bushing (36) is disposed on one side of the guiding segment (34), and a non-circular segment (32) is disposed adjacent to the guiding segment (34). And a positioning hole (321) is disposed at the predetermined position of the non-circular segment (32), and the positioning hole (321) is internally provided with an elastic member (322) and a positioning bead (323), and the adjacent position of the non-circular segment (32) a coupling section (31) is provided, a side of the coupling section (31) is provided with a screw hole (33); a driving rod (40), and a driving hole (41) is disposed inside the driving rod (40), The driving hole (41) is provided with the transmission shaft (30), and the driving shaft outer circumference has a radial direction running through at least three front seat grooves (42) and at least three rear seat grooves (44), each of the front seat grooves ( 42) and each of the rear seat slots (44) are respectively disposed at a position before and after the driving rod (40), and each of the front seat slots (42) and the inner system respectively accommodates a front rotating column (43) and a rear portion a rotating column (45), wherein the front rotating column (43) and the rear rotating column (45) respectively correspond to the position of the non-circular segment (32) of the transmission shaft (30) for relative rolling contact, and the driving rod (40) The other end is provided with a forced groove (49); a forward bevel gear (50), the forward bevel gear (50) includes a ring listed in the front a front beveling portion (53), the central bevel gear (50) is centrally provided with a central hole (52), the central hole (52) is axially disposed at one end of the driving rod (40), and the front oblique The other end of the gear (50) is provided with a driving end (51); a rear helical gear (54), and the rear helical gear (54) includes a rear helical portion (56) which is arranged on the front end surface. A central hole (55) is arranged in the center of the gear (54), and the central hole (55) The shaft set is at the other end of the drive rod (40); a drive body (60) is internally provided with a non-circular seat hole (61), and one end of the non-circular seat hole (61) is just opposite to each other. The non-circular side (21) of the guide unit (20) is disposed, and the forward bevel gear (50) and the rear bevel gear (54) are correspondingly received in the non-circular seat hole (61). A four-axis hole (62) is radially disposed around the circumference of the driving body (60), and each of the shaft holes (62) is axially assembled with a driving shaft (63), and the driving shaft (63) includes a position a retaining edge (64) blocking the shaft hole (62), and a shaft end portion (65) extending from one end of the retaining edge (64), wherein each of the shaft ends of each of the driving shafts (63) (65) is an idler gear (46) for pivotally driving a helical gear shape, wherein the idle gear (46) is centrally provided with a pivot hole (47) for pivotally positioning the shaft end (65). And the front end ring of the idle gear (46) is provided with an idler tooth portion (48), so that the idler tooth portion (48) of each of the idle gears (46) is correspondingly engaged with the front oblique gear of the front bevel gear (50). a tooth portion (53) and the rear helical gear portion (56) of the rear bevel gear (54); a switching blade (66) having a central hole portion (68) disposed at a center thereof The middle hole portion (68) is disposed on the front shaft portion (32) of the transmission shaft (30), wherein the middle hole portion (68) is internally provided with a first recessed portion (681) and a second recessed portion (682), the relative positions of the first recess (681) and the second recess (682) are mutually deflected by a predetermined angle, so that the first recess (681) and the second recess (682) The positioning bead (323) can be selectively switched to be elastically urged, and the switching chip (66) is provided with at least one bonding edge (67), and the switching chip (66) is axially convex at one end. Extending a forced piece (69), the forced piece (69) is embedded in the driving groove (49) of the driving rod (40), so that the switching piece (66) is forced by The movable piece (69) is assembled with the opposite insertion of the forced groove (49), so that the switching piece (66) can pivot the driving rod (40) to switch the angle; a fast rotating body (70), The driving end (71) is externally mounted on the driving body (60), and the driving end (71) is embedded in the driving end of the front bevel gear (50). (51) Positioning; a switching body (80) having a front shaft end (82) at the center, and at least one joint portion (81) extending from one side of the front shaft end (82), the other side A limiting slot (83) is disposed, wherein the joint portion (81) is positioned relative to the engaging edge (67) of the switching chip (66); a linkage post (90) is provided at one end thereof. There is a receiving hole (92), and a ring groove portion (91) is arranged at a predetermined position on the outer edge thereof, so that the connecting hole (92) is axially assembled to the coupling portion (31) of the transmission shaft (30), and the linkage The outer edge of the post (90) corresponds to the shaft set of the front end of the switching body (80) (82) The inner edge wall surface is provided with a tool socket (93) in the center of the front end surface of the linkage post (90), and a magnetic member (95) is disposed inside the tool socket (93), and the tool socket (93) can be The activity group is provided with a sub-head tool (P); the surface of the coupling section (31) of the transmission shaft (30) may be a surface pressed with an embossed shape, and the joint section (31) is fixed in a tight fit manner. Positioned at the position of the connecting hole (92) of the linking post (90), and threaded through the inside of the connecting post (90) by a screw member (94) and screwed to the screw of the transmission shaft (30) The hole (33) is fixed.

Thereby, the creation presses the guiding component to disengage the embedded edge, and the angle of the handle body is rotated to be straight or angled, so that the two-way rapid rotation mode and the torque mode can be multi-functionally transformed, thereby enabling the present invention. A practical and progressive person who creates progress in use.

By summarizing the above description, the design of the above structure can effectively overcome the shortcomings faced by the new style of the formula, and further has the above-mentioned numerous advantages and practical value, so this creation is an innovative new creation, and in the same The same or similar product creation or public use has not been seen in the technical field. Therefore, this creation has met the requirements of the novelty of "newness" and "progressiveness", and is applied according to law.

10‧‧‧Handle body

11‧‧‧ Rotating seat

12‧‧‧Rotary groove

13‧‧‧ Built-in hole

14‧‧‧ side components

15‧‧‧ Built-in parts

16‧‧‧Perforation

17‧‧‧ side group slot

18‧‧ ‧ group room

19‧‧‧fixed slot

101‧‧‧ bottom cover

102‧‧‧Fixed group end

103‧‧‧Guide components

104‧‧‧Inlay

105‧‧‧Set holes

106‧‧‧Flexible parts

107‧‧‧shims

108‧‧‧Sets

20‧‧‧First transfer unit

21‧‧‧ side group holes

22‧‧‧ group seat

23‧‧‧ Linkage

24‧‧‧ front group hole

25‧‧‧Second transfer unit

251‧‧‧Axis hole

252‧‧‧ embedded concave

253‧‧ ‧ spring

254‧‧‧ beads

255‧‧‧ cushions

256‧‧‧ Firmware

26‧‧‧ non-circular sides

27‧‧‧ group entry

28‧‧‧ inside hole

29‧‧‧Flap

30‧‧‧Drive shaft

31‧‧‧Combined section

32‧‧‧Non-round segments

33‧‧‧ screw holes

321‧‧‧Positioning holes

322‧‧‧Flexible parts

323‧‧‧ positioning beads

33‧‧‧ screw holes

34‧‧‧ Leading segment

35‧‧‧Forcing the ring groove

36‧‧‧shims

257‧‧‧Assembled holes

40‧‧‧ drive rod

41‧‧‧ drive hole

42‧‧‧ front seat

43‧‧‧ Forward column

44‧‧‧ rear seat

45‧‧‧post post

46‧‧‧Idle gear

47‧‧‧ pivot hole

48‧‧‧Injectory

49‧‧‧ forced slot

50‧‧‧ forward bevel gear

51‧‧‧Driver

52‧‧‧Central hole

53‧‧‧ front helical gear

54‧‧‧Back helical gear

55‧‧‧ center hole

56‧‧‧Rear tooth

60‧‧‧ Driving body

61‧‧‧Non-round seat

62‧‧‧Axis hole

63‧‧‧ drive shaft

64‧‧‧ 挡缘

65‧‧‧ shaft end

66‧‧‧Switching the chip

67‧‧‧ combined side

68‧‧‧Medium Department

681‧‧‧First indentation

682‧‧‧Second indentation

69‧‧‧ Forced film

70‧‧‧fast spin

71‧‧‧Drive terminal

80‧‧‧Switching body

81‧‧‧Combination Department

82‧‧‧ front axle end

83‧‧‧ Limit slot

90‧‧‧ linkage post

91‧‧‧ Ring groove

92‧‧‧Contact hole

93‧‧‧Tools socket

94‧‧‧ screw

Claims (3)

A hand tool structure (2) having both a fast-turning and a torsion mode includes: a handle body having two rotating seats at an upper end thereof, a spiral groove is formed between the two rotating seats, and one side of the rotating groove is provided a built-in hole, the built-in hole provides a built-in component, wherein the inner part is provided with a through hole, one side of the through hole is provided with one side groove, and one end of the rotary seat is provided with one side component, and the other end of the rotary seat is provided with a set a set of components is arranged in the interior of the group, and a guide edge is arranged at a predetermined position on one side of the guide set component, and one end of the guide set component is provided with a set of holes, and the guide set component sleeve is provided with an elastic And a sleeve is placed on the end of the elastic member, and the set of holes is screwed to the set of components of the guide group by a set of components; a first guide unit is provided with a set of one end a set of the sockets of the set of the shafts of the handle body, the set of sockets is laterally hollow and formed with a side group hole, and the other end of the first guide unit is provided with a connecting edge, the connecting edge is internally a front group hole is arranged in the axial direction; a second guiding unit is provided with a non-circular side at one end. The end end is provided with a set of inlet ends corresponding to the front group hole of the first guiding unit, and a predetermined position of the lateral surface of the grouping end is provided with a shaft hole, and the shaft hole is radially opened with a plurality of embedded holes a concave hole is disposed on one side of the shaft hole, the inner hole is axially received with a spring and a bead body, and the outer edge of the set end has a fin, wherein the shaft hole and the plurality of embedded recesses provide Corresponding to the component group axis group, and the beading activity of the guiding group component is embedded in the one of the embedded recesses for positioning in multiple segments; and the second guiding unit has an assembly hole on the axial end surface; The drive shaft is provided with a guiding and rotating section at one end thereof, and the guiding and rotating section is inserted into the assembly hole of the second guiding unit, and the guiding section is provided with a forced ring groove at a predetermined position, and the Pressing the ring groove to assemble a pad and a firmware in sequence, and inserting a gasket on one side of the guiding segment, and a non-circular segment is arranged adjacent to the guiding segment, and the non-circular segment is predetermined a positioning hole is disposed, the positioning hole is internally provided with an elastic member and a positioning bead, and the non-circular segment is provided with an adjacent position The coupling section is provided with a screw hole on one of the side outer end faces of the coupling section. The hand tool structure (2) having the fast-rotating and torsion mode described in claim 1, wherein the drive shaft is provided with a driving rod, and the driving rod is internally provided with a driving hole, and the driving hole is provided with a wearing shaft The drive shaft has a front end of the outer ring of the drive shaft, and at least three front seat grooves and at least three rear seat grooves are radially penetrated, and each of the front seat grooves and each of the rear seat grooves are respectively disposed at a position before and after the driving rod. The front seat and the inner system respectively have a front turn column and a rear turn column, so that the front turn column and the rear turn The column respectively corresponds to the non-circular position of the transmission shaft for relative rolling contact, and the other end of the driving rod is provided with a forced groove; and a front bevel gear, the front bevel gear includes a ring listed on the front end surface a front bevel gear, a central hole is disposed in the center of the front bevel gear, the central hole is set at one end of the driving rod, and a driving end is disposed at the other end of the front bevel gear; and a rear bevel gear, the rear oblique The gear includes a rear beveled portion of the front end face, a central hole is disposed in the center of the rear bevel gear, the central hole is disposed at the other end of the driving rod, and a driving body is internally provided with a a non-circular seat hole, one end of the non-circular seat hole is oppositely connected to the non-circular side of the second guide unit, and the forward bevel gear and the rear bevel gear are correspondingly accommodated in the non-circular shape Inside the seat hole, a four-axis hole is radially disposed around the circumference of the rotating body, and each of the shaft holes is assembled with a driving shaft, and the driving shaft includes a retaining edge for positioning the shaft hole And a shaft end extending from one end of the retaining edge, wherein each of the shaft ends of each of the driving shafts The idler gear in the form of a helical gear is respectively pivotally driven, wherein the idle gear is provided with a pivot hole for pivotally positioning the end of the shaft, and the front end ring of the idle gear is provided with an idler tooth portion, so that the idler The front and rear helical teeth of the front bevel gear and the rear bevel gear of the rear bevel gear are correspondingly coupled to the front and rear helical gears of the front bevel gear; and a switching core having a middle hole portion at the center thereof, the middle hole The front shaft portion is disposed on the front shaft portion of the transmission shaft, wherein the middle hole portion is internally provided with a first recess and a second recess, and the relative positions of the first recess and the second recess are deflected from each other a predetermined angle, the first concave concave portion and the second concave concave portion are selectively switchable to be elastically urged and positioned by the positioning bead, and at least one joint edge is disposed around the switching core piece, and the switching chip piece is provided An urging piece is axially protruded from one end, and the urging piece is assembled on the urging groove of the driving rod, so that the switching piece is embedded by the urging piece and the urging groove. The card is assembled, so that the switching chip can be pivoted to the driving rod to switch the angle; and a fast rotating body is provided at one end of the card a driving end, the fast rotating system is overlaid on the driving body, so that the driving end is embedded in the driving end of the front bevel gear; and a switching body is provided with a front end in the center, the front One end of the shaft end has at least one joint portion, wherein the joint portion is positioned to be coupled to the joint edge of the switch chip; and a linkage post is provided with a hole at one end thereof. In the coupling section of the transmission shaft, the outer edge of the linkage post is corresponding to the inner wall surface of the front end end of the switching body, wherein a tool holder is disposed in the center of the front end surface of the linkage post. A hand tool structure (2) having both a fast-turning and a torsion mode includes: a handle body having two rotating seats at an upper end thereof, a spiral groove is formed between the two rotating seats, and one side of the rotating groove is provided a built-in hole that provides a built-in component in which the internal component is internal a perforation is provided, the one side of the perforation is provided with a side groove, and one end of the rotation seat is provided with one side assembly, and the other end of the rotation seat is provided with a group of chambers, and a group of components is arranged in the interior of the group, and the group of components is arranged An inlaid edge is disposed at a predetermined position on one side, and a set of holes is formed on one end surface of the guiding component, and the guiding component is sleeved with an elastic member, and a spacer is further disposed to support one end of the elastic component. The set of holes is screwed to the set of components of the set of components; a first transfer unit is provided with a set of sockets at one end, and the set of bases of the set of shafts is rotated by the handle body a slot, the set of sockets is laterally hollow and formed with a side group hole, the other end of the first guide unit is provided with a connecting edge, the connecting edge is internally provided with a front group hole; and a second guiding unit is One end is provided with a non-circular edge, and the other end is provided with a set of inlet ends, and the group of inlet ends is correspondingly formed in the front group hole of the first guiding unit, and a lateral hole of the grouping end is provided with a shaft hole at a predetermined position The shaft hole is radially provided with a plurality of embedded recesses, and one side of the shaft hole is provided with an inner hole, and the inner hole is axially accommodated a spring and a bead body, the set of outer edges of the set has a fin, wherein the shaft hole and the plurality of recessed recesses provide corresponding to the set of component element sets, and the beading activity of the set of components is embedded in One of the embedded recesses is positioned in a plurality of stages; and the shaft end surface of the second guide unit is provided with an assembly hole; a drive shaft is provided with a lead-conducting section at one end thereof, and the lead-fitting section is placed on the first In the assembly hole of the two-conducting and rotating unit, a predetermined position of the guiding and rotating section is provided with a ringing ring groove, and after the piercing, the forcing ring groove is sequentially embedded to assemble a pad member and a firmware, and the guiding portion is made a non-circular segment is disposed at a position adjacent to the guiding segment, and a positioning hole is disposed at the predetermined position of the non-circular segment, and the positioning hole is internally provided with an elastic member and a positioning bead, and the non-circular segment An adjacent portion is provided with a coupling portion, and a side of the coupling portion is provided with a screw hole; a driving rod, the driving rod is internally provided with a driving hole, and the driving hole provides a driving shaft for driving the shaft group, the driving shaft The periphery of the outer shaft of the shaft has a radial direction running through at least three front seats and at least three rear seats, each of which is Each of the front seat and the inner system respectively accommodates a front rotating column and a rear rotating column, and the front and rear rotating columns are respectively disposed at the front and rear positions of the driving rod Corresponding to the non-circular position of the transmission shaft for relative rolling contact, and the other end of the driving rod is provided with a forced groove; a forward bevel gear, the front bevel gear includes a ring which is arranged on the front end a central portion of the front bevel gear is disposed at a central end of the drive rod, and the other end of the forward bevel gear is provided with a driving end; a rear helical gear, the rear helical gear includes a rear beveled portion of the front end face, and a central hole is disposed in the center of the rear bevel gear, the central hole is disposed at the other end of the driving rod; a non-circular seat hole is disposed in the inner portion, and one end of the non-circular seat hole is oppositely connected to the non-circular side of the second guide unit, and the forward bevel gear and the rear bevel gear are Correspondingly disposed inside the non-circular seat hole, a four-axis hole is radially disposed around the ring body of the drive body, and each of the shaft hole shafts is assembled with a drive shaft, and the drive shaft includes a position stop a retaining edge of the shaft hole, and a shaft end extending from one end of the retaining edge, wherein each of the shaft ends of each of the driving shafts is configured to pivotally drive an idler gear of a helical gear shape, wherein the idler a pivot hole for pivotally positioning the end of the shaft, and a front tooth ring of the idler gear is provided with an idler tooth portion, so that the idler tooth portion of each of the idle gears is correspondingly engaged with the front bevel gear a front beveled portion and the rear beveled portion of the rear bevel gear; a switching blade having a central portion The middle hole portion is disposed on the front shaft portion of the transmission shaft, wherein the middle hole portion is internally provided with a first recess and a second recess, the first recess and the second recess The relative positions are deflected from each other by a predetermined angle, so that the first recessed concave portion and the second concave concave portion are selectively switchable to be elastically urged and positioned by the positioning bead, and at least one combined edge is disposed on the circumference of the switching chip. And the one end of the switching chip is axially protruded with an urging piece, and the urging piece is assembled on the urging groove of the driving rod, so that the switching piece is forced by the urging piece and the forced piece The rotating slot is assembled with respect to the card, so that the switching chip can be pivoted to the driving rod to switch the angle; a fast rotating body is provided with a driving end at one end thereof, and the fast rotating system is overlaid on the driving body Positioning the drive end card into the drive end of the forward bevel gear; a switch body having a front axle end at the center, and at least one joint portion extending from one side of the front axle end, wherein the joint portion is opposite The embedded card is coupled to the connecting edge of the switching chip; the connecting pole has a connecting hole at one end thereof, and the connecting The shaft assembly is disposed on the coupling portion of the transmission shaft, and the outer edge of the linkage rod is corresponding to the inner wall surface of the front shaft end of the switching body, wherein a tool holder is disposed in the center of the front end surface of the linkage post .