TW201910075A - Sliding rod structure including a first main body, a pressing member, a second system, an actuating rod, an elastic member, a bead and a rotating set - Google Patents

Abstract

The present invention relates to a sliding rod structure, which includes a first main body provided with a driving head, a first receiving groove, a first sliding groove, an actuating groove, a bead receiving groove and a first pivot portion; a pressing member received in the first receiving groove and being vertically displaceable, the pressing member being provided with a second sliding groove and a pressing portion; a second main body penetratingly provided in the first sliding groove and the second sliding groove and provided with a plurality of engaging grooves; an actuating rod received in the actuating groove and assembled with the pressing member, one end of the actuating rod being provided with a bead hole and an engaging portion; an elastic member sleeved on the actuating rod, the elastic force of the elastic member causes the engaging portion to be clamped at one position of the engaging portions of the second main body;; a bead received in the bead receiving groove and the bead hole; and a rotating set pivoted to the first main body and the pressing member, wherein the rotating set includes a first rotating member; the first rotating member is provided with a groove for the pressing portion to pass through, and the first rotating member is provided with a first pivoting portion for pivoting with the first pivot portion of the first main body..

Description

 Slider structure  

The invention relates to a sliding rod structure, in particular to a sliding rod structure which is provided with a rotating group, and the sliding rod knot structure of the invention has three kinds of rotating modes and has the convenience of operation.

As previously known to us, the conventional slider structure is also the patent application filed by us, as shown in U.S. Patent No. 7,290,468 B1, which is shown in Figure 2 and Figure 33. The structure of the patent is: A driving head 11 is defined in a bottom portion of the main body 10. The main body 10 is provided with a receiving slot 12. The main body 10 is provided with a control slot 13 extending through the main body 10 at a suitable position. The main body 10 is in the control slot. The vertical direction of the 13 is provided with a through slot 14; a control body 20, the control body 20 can be received in the control slot 13 of the main body 10, and can slide in the control slot 13, the control The body 20 is provided with a card end 21 at a suitable position; a rod body 30 having a suitable length, the rod body 30 is provided with a plurality of card slots 31, and the rod body 30 can be accommodated in the body The sliding slot 14 of the sliding slot 14 is slidable in the sliding slot 14. The card end 21 of the control body 20 can be slipped and latched on the slot 31 of the lever body 30. The lever body 30 The position of the control body 20 can be fixed on the main body 10, and when the rod 30 is applied, the rod 30 is free from slip due to the click. .

As shown in the 33rd to 37th drawings of the bulletin, a bead hole 16 is formed on the side of the driving head 11 of the main body 10, and an actuating groove having a smaller diameter is added to the bottom end of the receiving slot 12. The control body 20 is disposed in the C shape, and the control body 20 is disposed in the cavity 12 of the main body 10 and slightly surrounds the rod 30. The control body 20 is movable in the receiving slot 12. The control body 20 is an extended extension body 24 having a card end 21; an additional actuating lever 20 can be received in the actuating slot 15 of the main body 10, the actuating lever 50 is opposite to the main body The bead hole 16 has a stepped surface 52; an elastic body 60 is attached to the actuating rod 50, so that the upper end of the actuating rod 50 abuts against the bottom end of the control body 20, so that the card of the control body 20 The end 21 is latched on one of the slots 31 of the rod 30; a new steel ball 70 is received in the space surrounded by the bead hole 16 of the main body 10 and the level surface 52 of the actuating lever 50.

When the control body 20 is pressed, the control body 20 is pressed against the actuating lever 50 to compress the elastic body 60. The card end 21 of the control body 20 is disengaged from the card slot 31 of the rod body 30. The rod 30 can be adjusted in position, and the steel ball 70 can be retracted deeper into the level surface 52 of the actuator 50.

However, the lack of the patent structure is that when the slider structure is rotated, the user's hand rotates the main body 10 with the rod 30 as a moment, so that the main body 10 can rotate the screw. However, when the screwing member has left the screw hole or has not entered the deep hole of the screw hole, the screwing torque of the screwing member does not need to be too large, and the speed is not fast when the screwing is rotated in this manner.

In view of the above-mentioned lack of the conventional slider structure, the inventors have been engaged in the manufacturing, production and design experience of related industries for many years, and finally have a product that can solve the disadvantages of the slider structure.

The conventional rotary slider structure has a swirling manner, and the rotation speed is not fast. In the sliding rod structure of the present invention, the hand system can rotate the second body to rotate the first body, and rotate the first body and the In the second body, the palm of the person is reliably resisted on the rotating group, and there is no mutual friction between the palm and the first rotating member, and the rotating rod structure can be more comfortable and rotate faster. The utility model can also rotate the finger of the hand directly to rotate the circumferential surface of the first body to rotate more quickly. The sliding rod knot structure of the invention has three rotation modes and has the convenience of operation.

The invention relates to a sliding rod structure, which comprises: a first system provided with a driving head, a first receiving groove, a first sliding groove, an actuating groove, a receiving bead groove and a first pivot portion; The second recess is disposed in the first slot and the second slot and is disposed on the first slot and the second slot. a plurality of card slots; an actuating lever is disposed in the actuating slot and is disposed with the pressing member, the actuating rod is provided with a bead hole and a locking portion at one end; an elastic component is sleeved on the actuating rod The elastic force of the elastic member causes the locking portion to be clamped at a locking portion of the second body; a bead system is accommodated in the bead groove and the bead; a rotating group and the first a body and the pressing member are pivoted, the rotating group includes a first rotating member; the first rotating member is provided with a through slot for the pressing portion to be inserted, and the first rotating member is internally provided with a first The pivoting portion is pivoted to the first pivot portion of the first body.

The hand system can rotate the second body to rotate the first body, which is a general rotation mode, and sometimes the screwing component is disengaged or not screwed into the screw hole, and the torque of the rotation is not required If the rotating group is pivoted at the first pivot portion of the body, when the first body and the second body are rotated, the palm of the person is reliably resisted on the rotating group, the rotating group Rotating, the palm and the first rotating member of the rotating group do not rotate with each other, and there is no mutual friction between the palm and the first rotating member, and when the sliding rod structure is rotated, Comfortable and has a faster turning effect. At this time, the finger of the hand can be directly rotated to rotate the peripheral surface of the first body to rotate more quickly. The sliding rod structure of the present invention has three kinds of rotation modes and is convenient to operate. Sex.

The structure and composition of the present invention are described in conjunction with the drawings and the drawings, and the following description is only for explaining the implementation of the present invention. For example, it is not intended to limit the invention in any way, and any modifications made by the present invention are still within the scope of the invention.

10‧‧‧First Ontology

11‧‧‧Drive head

12‧‧‧First slot

14‧‧‧First chute

15‧‧‧ actuation slot

151‧‧‧Second capacity

16‧‧‧容珠槽

17‧‧‧ First pivot

171‧‧‧First ring groove

172‧‧‧ first arrival

20‧‧‧Pressing parts

21‧‧‧Second chute

22‧‧‧First Fixed Department

23‧‧‧ Pressing Department

24‧‧‧Secondary

30‧‧‧Second ontology

31‧‧‧ card slot

40‧‧‧acting rod

41‧‧‧ beads

42‧‧‧Second Fixing Department

43‧‧‧Card Department

50‧‧‧Flexible components

60‧‧‧ beads

70‧‧‧ rotating group

71‧‧‧First rotating part

711‧‧‧through slot

712‧‧‧First Pivot

713‧‧‧second ring groove

72‧‧‧Second rotating parts

The first figure is an exploded perspective view of the slider structure of the present invention.

The second figure is a three-dimensional combination diagram of the slider structure of the present invention.

The third figure is a top view of the slider structure of the present invention.

The fourth drawing is a cross-sectional view of the third drawing A-A of the present invention.

Figure 5 is a cross-sectional view showing another operation of the third drawing A-A of the present invention.

Figure 6 is a perspective exploded view of a second embodiment of the present invention.

Figure 7 is a cross-sectional view showing a second embodiment of the present invention.

Figure 8 is a perspective exploded view of a third embodiment of the present invention.

Figure 9 is a cross-sectional view showing a third embodiment of the present invention.

Figure 10 is a perspective exploded view of a fourth embodiment of the present invention.

First, please refer to the first figure, which is a perspective exploded view of the slider structure of the present invention. The present invention relates to a slider structure, which comprises: a first body 10, the first body 10 is straight The first body 10 is provided with a driving head 11 at one end thereof, and the driving head 11 is in the shape of a quadrangular head. The driving head 11 can be fitted with a square slot having the same size groove, the first A first receiving slot 12 is disposed in the main body 10, and the first receiving slot 12 is away from the driving head 11. The first receiving slot 12 is formed in a circular groove shape, and the first body 10 is provided with a horizontal through hole. The first chute 14 is in communication with the first chute 12, and the first chute 14 is formed in a circular trough shape, and the axis of the first chute 14 is The axis of the first receiving slot 12 is perpendicular to the first body 10. The working body 15 is disposed away from the first receiving slot 12, and the diameter of the actuating slot 15 is smaller than the axis. The second receiving groove 151 is disposed on the side of the actuating groove 15 , and the second receiving groove 151 is disposed between the first receiving groove 12 and the actuating groove 15 , the second receiving groove 1 The diameter of the second pocket 151 is smaller than the diameter of the first pocket 12, and the diameter of the second pocket 151 is larger than the actuating slot. The diameter of the driving head 11 is provided with a bead groove 16 which is in communication with the actuating groove 15 . The ball receiving groove 16 is perpendicular to the actuating groove 15 . The first end portion of the main body 10 is convexly disposed away from the driving head 11, and the first pivot portion 17 is aligned with the first receiving slot 12, the first pivot a first annular groove 171 is formed on the outer peripheral surface of the portion 17, and the first annular groove 171 has a concave annular groove shape, and the diameter of the first pivot portion 17 is smaller than the diameter of the first body 10, so that the first A first flange 172 is formed between the pivot portion 17 and the first body 10; a pressing member 20 is received in the first receiving slot 12 and is disposed in the first receiving slot 12 The second sliding slot 21 is opposite to the first sliding slot 14 , and a first fixing portion is disposed at the bottom of the pressing member 20 . 22, the first fixed The 22nd portion is opposite to the actuating groove 15, and the first fixing portion 22 is in communication with the second sliding groove 21. The first fixing portion 22 has a circular perforation shape, and the pressing member 20 is convex at one end. A pressing portion 23 is disposed, the pressing portion 23 is exposed outside the first receiving groove 12, and the pressing portion 23 is formed in a cylindrical shape, and the pressing portion 23 is away from the first fixing portion 22, and the pressing portion is pressed. The diameter of the portion 23 is smaller than the diameter of the pressing member 20, so that the pressing portion 23 and the pressing member 20 form a second abutting edge 24; a second body 30, the second body 30 is of a suitable length. The second body 30 is disposed in the first sliding slot 14 of the first body 10 and the second sliding slot 21 of the pressing member 20, and the second body 30 is applicable to the first body 30. The second body 30 is perpendicular to the first body 10 and the pressing member 20, and the second body 30 is provided with a plurality of locking grooves 31, each of which is disposed on the second body 30. A card slot 31 is in the form of a concave ring groove, and each of the locking grooves 31 is opposite to the first fixing portion 22 of the pressing member 20, and the plurality of locking grooves 31 are arranged at intervals; 4 0. The actuating lever 40 is disposed in the actuating groove 15 and the second receiving slot 151 of the first body 10 and is assembled with the pressing member 20, and the working rod 40 is provided with a bead 41 at one end thereof. The bead 41 includes a first position and a second position, and the actuating lever 40 is vertically displaceable in the first receiving slot 12, the actuating slot 15 and the second receiving slot 151, so that the bead 41 The first position and the second position are respectively opposite to the bead groove 16 of the first body 10. The bead 41 is in the shape of a groove, and the second end of the actuating rod 40 is provided with a second fixing portion. The second fixing portion 42 is fixed to the first fixing portion 22 of the pressing member 20, and the operating rod 40 is fixed to the pressing member 20. The second fixing portion 42 is attached to the second fixing portion 42. A locking portion 43 is protruded from the second sliding slot 21; the first fixing portion 22 of the pressing member 20 and the second fixing portion 42 can be tightly connected. The outer peripheral surface of the second fixing portion 42 may be embossed first, and the second fixing portion 42 is further tightly fitted to the first fixing portion 22, or the first fixing portion 22 The inner system is provided with an internal thread, and the second fixing portion 4 2 is provided with an external thread, and the first fixing portion 22 and the second fixing portion 42 are screwed together; an elastic member 50 is sleeved on the actuating rod 40. The elastic member 50 is disposed at the second receiving groove 151. The elastic member 50 is elastically biased between the bottom of the second receiving groove 151 and the bottom of the pressing member 20. The elastic force of the elastic member 50 causes the pressing force to be pressed. The member 20 and the actuating lever 40 are at the highest position, and the locking portion 43 is locked at one of the locking portions 43 of the second body 30. The second body 30 is fixed relative to the first body 10. In a positional manner, the elastic member 50 is in the shape of a spring; a bead body 60 is received in the bead groove 16 of the first body 10 and the bead 41 of the actuating rod 40. The rotating body 70 is pivotally disposed with the first body 10 and the pressing member 20, and the rotating group 70 is included. a first rotating member 71 and a second rotating member 72; the first rotating member 71 is provided with a through slot 711, and the through slot 711 is formed in a circular groove shape, and the through slot 711 is provided for the pressing portion 23 to pass through. , the press The second abutment 24 of the member 20 is limited to the first rotating member 71 and does not come out of the first receiving slot 12 of the first body 10. The first rotating member 71 is provided with a first pivoting device. The first pivoting portion 712 is pivotally disposed with the first pivoting portion 712. The first pivoting portion 712 is in communication with the through slot 711. The first pivoting portion 712 is a circular slot. The first pivoting portion 712 has a diameter larger than the diameter of the through slot 711. The first pivoting portion 712 is provided with a second annular groove 713, and the second annular groove 713 is coupled to the first annular groove. The second ring groove 713 is in the shape of a concave annular groove, and the first rotating member 71 abuts against the first abutting edge 172 of the first body 10; the second rotating member 72 is coupled. The first rotating member 71 is not disengaged from the first body 10 at the first ring groove 171 and the second ring groove 713. The second rotating member 72 has a C-shaped ring shape.

Please refer to the second to fourth figures. The second figure is a three-dimensional combination diagram of the slider structure of the present invention, the third figure is a top view of the slider structure of the present invention, and the fourth figure is the third figure of the present invention. A cross-sectional view of the first housing 10 of the first body 10 is formed in the first housing 12 of the first body 10, and the second sliding slot 21 is opposite to the first sliding slot 14. The first fixing portion 22 is opposite to the actuating groove 15 , and the pressing portion 23 is exposed outside the first body 10 , and the second body 30 is disposed through the first sliding slot 14 and the first portion The second body 30 is displaceable to the left and right of the first body 10 and the pressing member 20, and the actuating rod 40 is disposed in the actuating groove 15 and the second receiving groove 151. The bead 41 is fixed to the bead groove 16 and the second fixing portion 42 is fixed to the first fixing portion 22 of the pressing member 20, the card is fixed. The locking portion 43 is engaged with the locking groove 31 of the second body 30, so that the second body 30 can be freely displaced on the first body 10 and the pressing member 20 to fix the position thereof. The elastic member 50 is fixed. system The elastic member 50 is sleeved on the actuating rod 40, and the elastic member 50 is elastically abutted between the second receiving groove 151 and the bottom of the pressing member 20. The 60 series is disposed at the first position of the bead groove 16 and the bead 41. The bead 60 is slightly exposed outside the bead groove 16. The rotating group 70 is coupled to the first body 10 and The pressing member 20 is disposed, the through slot 711 is provided for the pressing portion 23, and the first pivoting portion 712 is pivoted with the first pivot portion 17, and the second ring groove 713 is coupled to the first ring portion 713 A ring groove 171 is relatively positive, and the second rotating member 72 is received at the first ring groove 171 and the second ring groove 713.

Please refer to the fifth figure, which is a cross-sectional view of another action of the third figure AA of the present invention. It can be clearly shown by the illustration that the user can press the pressing portion 23 of the pressing member 20 when When the pressing portion 23 is pressed, the pressing member 20 is displaced in the first receiving groove 12 and pressed against the elastic member 50, so that the elastic member 50 is compressed, and when the pressing member 20 is displaced, the driving member 20 is simultaneously driven. The actuating rod 40 is displaced in the first body 10, and the locking portion 43 is disengaged from the locking groove 31. The second body 30 can be the first body 10 and the pressing member 20 The upper and lower sides are displaced, and the bead body 60 is trapped in the second position of the bead 41. The bead body 60 is hidden in the bead groove 16 and the hand tool piece that is engaged with the driving head 11 can be It is convenient to fit or disengage the driving head 11.

Please refer to the sixth and seventh figures. The sixth drawing is a perspective exploded view of the second embodiment of the present invention, and the seventh drawing is a cross-sectional view of the second embodiment of the present invention, which is clearly shown by the figure. The second sliding slot 21 of the pressing member 20 is open. The pressing member 20 is not provided with the first fixing portion 22, and the second fixing portion 42 of the operating rod 40 is engaged with the bottom of the pressing member 20. The shape of the second sliding slot 21 is closed, and the elastic member 50 is sleeved on the actuating rod 40. The elastic member 50 is elastically biased against the second solid. Between the portion 42 and the second container 151.

Please refer to the eighth and ninth drawings, the eighth drawing is a perspective exploded view of the third embodiment of the present invention, and the ninth drawing is a cross-sectional view of the third embodiment of the present invention, which is clearly shown by the illustration. The second rotating member 72 is a bearing member.

Please refer to the tenth figure, which is a perspective exploded view of the fourth embodiment of the present invention, which is clearly shown in the figure. In this embodiment, the pressing member 20 and the actuating lever 40 are not provided. And the first body 10 is not provided with the first receiving groove 12, the actuating groove 15 and the second receiving groove 151, and the first rotating member 71 is not provided with the through groove 711. The first pivoting portion 712 of the first rotating member 71 is pivotally disposed with the first pivoting portion 17, and the first rotating member 71 is abutted against the first abutting edge 172. The second rotating member 72 is fastened. The first ring groove 171 and the second ring groove 713 are accommodated.

If the driving head 11 is an inch four, the operating rod 40 needs to be displaced by about three mm to allow the bead 60 to enter the second position of the bead 41, and the bead 60 is hidden. In the ball-receiving groove 16, the depth of the locking groove 31 and the locking portion 43 is smaller than the displacement distance of the actuating rod 40. If the inch is four inches, that is, three mm, the pressing member 20 is slightly pressed. When the displacement is less than three mm, the locking portion 43 is disengaged from the locking groove 31, but the bead body 60 is not hidden in the bead groove 16.

The advantages of the slider structure of the present invention are:

1. The hand system can rotate the second body 30 to rotate the first body 10, which is a general rotation mode, and sometimes the screwing component is disengaged or not screwed into the screw hole, and the screwing is performed. The torque system is not required to be too large, because the rotating group 70 is pivotally disposed at the first pivot portion 17 of the body 10. When the first body 10 and the second body 30 are rotated, the palm of the person is reliably resisted. On the rotating group 70, the rotating group 70 is rotatable, and the palm and the first rotating member 71 of the rotating group 70 do not rotate with each other, and the palm and the first rotating member 71 do not When the friction is rotated, the slider structure can be more comfortable and has a faster rotation effect. In this case, the finger of the hand can be directly rotated to rotate the circumferential surface of the first body 10 to rotate more quickly. The sliding rod structure has three kinds of rotation modes and is convenient to operate.

The second body 30 is disposed in the first sliding slot 14 of the first body 10 and the second sliding slot 21 of the pressing member 20, and is disposed on the first body 10 and the pressing member 20 The actuating lever 40 is disposed in the actuating groove 15 and the second receiving groove 151 and is assembled with the pressing member 20, and the actuating lever 40 and the second body 30 are perpendicular to each other. The locking portion 43 of the actuating lever 40 can be engaged with each of the locking slots 31 of the second body 30, so that the second body 30 cannot be freely attached to the first body 10 and the pressing member 20. The position is fixed by displacement, so that the second body 30 has a positioning effect.

3. When the pressing portion 23 of the pressing member 20 is pressed, the pressing member 20 is displaced and pressed against the elastic member 50, so that the elastic member 50 is compressed, and the pressing member 20 is simultaneously driven and displaced. The actuating rod 40 is displaced in the first body 10, and the locking portion 43 is disengaged from the locking groove 31. The second body 30 can be the first body 10 and the pressing member. 20 is freely displaced to the left and right, the bead body 60 is trapped in the second position of the bead 41, the bead body 60 is hidden in the bead groove 16, and the sleeve member that is engaged with the driving head 11 is It can be easily fitted or disengaged from the driving head 11.

Therefore, the sliding rod structure of the invention has industrial utilization, novelty and progress, and can meet the application requirements of the invention patent, and submits an application according to law.

Claims (11)

 The utility model relates to a sliding rod structure, which comprises: a first body, a driving head is arranged at one end of the first body, the driving head is in the shape of a quadrangular head, and the first body is provided with a first receiving groove, The first receiving slot is away from the driving head, and the first system is provided with a first sliding slot extending transversely, the first sliding slot is in communication with the first receiving slot, and the first body is configured The actuating groove is away from the first receiving groove, the diameter of the actuating groove is smaller than the diameter of the first receiving groove, and the side of the driving head is provided with a bead groove, and the bead groove is The actuating groove is in a communicating manner, the bead groove is perpendicular to the actuating groove, and the first end of the first body is convexly provided with a first pivot portion, and the first pivot portion is away from the driving head, the first The pivoting portion is aligned with the first receiving groove; a pressing member is received at the first receiving groove and is vertically displaceable in the first receiving groove, and the pressing member is provided with a horizontal through The second chute is opposite to the first chute, and the pressing member is convexly provided at one end thereof, and the pressing portion is convex The pressing portion is cylindrical; the second body is a second body, and the second system is in the shape of a rod of a suitable length. The second system is disposed on the first body. The second sliding system and the second sliding slot of the pressing member are vertically displaceable on the first body and the pressing member, the second system and the first body and the pressing The workpieces are perpendicular to each other, and the second body is provided with a plurality of card slots, each of the card slots is in the shape of a concave ring groove, and the plurality of card slots are arranged at intervals; an actuating rod, the actuating rod is configured Provided in the actuating groove of the first body and assembled with the pressing member, the actuating rod is provided with a bead at one end, the bead includes a first position and a second position, and the actuating rod is applicable to the first The first slot and the second position of the bead are respectively opposite to the bead slot of the first body, and the bead is grooved. The actuating rod is convexly provided with a locking portion, the engaging portion is exposed at the second sliding slot; an elastic member, the elastic member Nested on the actuating rod, the elastic element is elastically struck between the first body and the bottom of the pressing member, and the elastic force of the elastic member causes the pressing member and the actuating rod to be tied to the highest position. The portion of the second body is fixed to the first body, and the second body is fixed to the first body; the bead body is received by the bead system on the first body At the first position of the slot and the bead of the actuating lever, the bead system is slightly exposed outside the bead slot; and a rotating group is pivoted to the first body and the pressing member, The rotating group includes a first rotating member; the first rotating member is provided with a through groove, and the through groove is formed in a circular groove shape, and the through groove is provided for the pressing portion, and the first rotating member is disposed The first pivoting portion is pivotally disposed with the first pivoting portion, the first pivoting portion is in communication with the through slot, and the first pivoting portion is rounded In the shape of a groove, the diameter of the first pivoting portion is greater than the diameter of the through slot.    The sliding rod structure according to claim 1, wherein the first system is in the shape of a straight rod, the first housing is in the shape of a circular groove, and the first sliding groove is formed in a circular groove shape. The axis of a chute is perpendicular to the axis of the first cuvette.    The slider structure of claim 1, wherein the second slot is disposed on the side of the actuating slot, and the second slot is disposed between the first slot and the actuating slot, the second slot The second receiving groove has a diameter smaller than a diameter of the first receiving groove, and the second receiving groove has a diameter larger than a diameter of the actuating groove, and the actuating rod is in contact with the first receiving groove and the actuating groove. The accommodating rod is disposed in the actuating groove and the second receiving groove of the first body and is disposed in the second receiving groove, the actuating groove and the second receiving groove The elastic member is disposed at the second receiving groove, and the elastic member is elastically biased between the bottom of the second receiving groove and the bottom of the pressing member.    The sliding rod structure of claim 1, wherein the first circumferential portion of the first pivot portion is provided with a first annular groove, and the first annular groove has a concave annular groove shape, and the first pivoting portion is The second ring groove is opposite to the first ring groove, the second ring groove is in the shape of a concave ring groove, and the rotating group is provided with a second rotating member, the second The rotating member is disposed at the first ring groove and the second ring groove, so that the first rotating member is not disengaged from the first body, and the second rotating member has a C-shaped ring shape.    The slider structure of claim 1, wherein the diameter of the first pivot portion is smaller than the diameter of the first body, so that the first pivot portion and the first body portion form a first edge, the first A rotating member abuts against the first abutment of the first body.    The sliding rod structure of claim 1, wherein the bottom of the pressing member is provided with a first fixing portion, the first fixing portion is opposite to the working groove, and the first fixing portion is The second sliding slot is in a communicating shape, the first fixing portion is in the shape of a circular perforation, and the pressing portion is away from the first fixing portion, and each of the locking grooves can be the first one of the pressing member The fixing portion is opposite to the positive portion, and the second fixing portion is fixed to the first fixing portion of the pressing member, and the operating rod and the pressing member are fixed to the pressing portion Phase is fixed.    The sliding rod structure of claim 6, wherein the first fixing portion and the second fixing portion are fixed to the tight fitting phase, and the outer peripheral surface of the second fixing portion may be preceded by the embossing And the phase is fixed, or the first fixing portion is provided with an internal thread, the second fixing portion is provided with an external thread, and the first fixing portion and the second fixing portion are phased Screw setting.    The slide bar structure of claim 1, wherein the diameter of the pressing portion is smaller than the diameter of the pressing member, so that a second abutting relationship is formed between the pressing portion and the pressing member, and the second abutting of the pressing member The edge is limited to the first rotating member without coming out of the first receiving groove of the first body.    The sliding rod structure of claim 1, wherein the second sliding slot of the pressing member is open, the actuating rod is provided with a second fixing portion, and the second fixing portion is matched with the pressing member. The shape of the bottom portion is disposed adjacent to the pressing member, so that the bottom of the second sliding slot is closed, the elastic component is sleeved on the actuating rod, and the elastic component is elastically biased against the second fixing portion and the Between the first bodies.    The sliding rod structure of claim 1, wherein the rotating group is provided with a second rotating member, the second rotating member is received at the first pivot portion and the first pivoting portion, the second The rotating member is a bearing member.    The sliding rod structure according to claim 1, wherein the driving head is in the British quarter, the operating rod is required to be displaced by about three mm to allow the bead to enter the second position of the bead. The bead body is hidden in the bead groove, and the depth of the clamping groove and the locking portion is smaller than the displacement distance of the actuating rod. If it is an inch four-point specification, that is, three mm, the displacement of the pressing member is slightly pressed. When the thickness is less than three mm, the locking portion is disengaged from the clamping groove, but the bead system is not hidden in the bead groove.