TWM433934U - Improved puller driving shaft structure - Google Patents

Description

M433.934 V. New description: [New technical field] [0001] This creation is related to the drive shaft of the puller, especially an improved drive shaft structure to avoid sudden damage to the drive shaft, which leads to accidents. The resulting puller drive shaft improved structure. [Prior Art] [0002] According to the conventional puller, as shown in FIG.

a moving shaft 7, a driving assembly 8 and a plurality of claws 9, wherein a top end of the driving shaft 7 is formed with a rotating portion 71 for a user to screw a driving shaft 7; the driving assembly 8 is screwed Connected to the drive shaft 7, and extending laterally from the array connecting arm 815, each end of the connecting arm 81 is pivotally provided with a hook 9, each of which can be actuated by adjusting the driving assembly 8 to change At the angle of opening and closing, the workpiece is clamped (not shown). When the conventional puller is used, the claws 9 are clamped to the workpiece, and the bottom end of the drive shaft 7 resists the shaft portion of one of the implements of the workpiece, and then the tool is connected to the rotary The portion 7 1 and the driving shaft 7 are rotated, so that the claws 9 can be retracted from the workpiece by the driving action of the driving rod 7, and the workpiece is detached from the shaft portion of the device to which the card is embedded. 0003] However, when the shaft portion of the workpiece and the implement is too tightly fitted, the rotation portion 71 of the drive shaft 7 is rotated, but the drive shaft 7 cannot be driven to rotate. At this time, the user usually habitually continues. Applying a larger external force, an attempt is made to rotate the drive shaft 7. However, if the radial torque applied by the user to the rotation of the drive shaft 7 is greater than the axial thrust limit that the drive shaft 7 can withstand, the rotation portion 7 1 of the drive shaft 7 is caused by Form No. A0101 Page 3 of 28 M433934 The joint with the drive shaft 7 is suddenly broken due to stress concentration, and even more, the drive shaft 7 is suddenly broken, and the drive shaft 7 is pulled. The important components of the device, once damaged, the entire group of pullers will be reimbursed, which will easily lead to an increase in maintenance costs. Moreover, in the process of screwing the rotating portion 7 of the drive shaft 7, if the rotating portion 7 of the drive shaft 7 suddenly breaks, the personnel may also be caused in the work place where the processing tool is adjacent. The center of gravity is unstable and hits the peripheral implements and causes damage. [0004] In view of this, how to solve the above-mentioned work safety problem is the primary problem that the creation wants to solve. Therefore, the creator of the case has finally produced this creation after continuous hard thinking and trial work. [New content], [0005] The main purpose of the present invention is to provide a drive shaft improved structure of a puller, which rotates a screw by a rotating member, and the rotary member is fixed to the screw by a positioning member When the screw is subjected to excessive radial torque, the screw can only damage the positioning member, and has the effect of reducing maintenance cost. [0006] For the foregoing purposes, the present invention provides a drive shaft improved structure of a puller including a screw, a drive assembly and a driven assembly, wherein the screw has a top end and a bottom end, the drive The assembly has a through hole, the driven assembly has a screw hole and is provided with a plurality of connecting arms in the radial direction, the driven assembly is located below the driving assembly, and the screw has a bottom end extending downward through the perforation of the driving assembly And a screw hole of the driven component, wherein: a screw sleeve is disposed at a top end of the screw for rotating a screw, and the rotating component has a corresponding chamber for the top end. The form number A0101, page 4/28 of the rotary member is provided with a through hole penetrating into the chamber, and the screw is provided with a pair of positioning holes for the through hole, and a positioning member is inserted therethrough. The hole is positioned in the positioning hole, and the rotating member is fixed on the screw to rotate synchronously with the screw. The above objects and advantages of the present invention will be readily understood from the following detailed description of the embodiments and the accompanying drawings. Of course, this creation is tolerant in some arrangements of parts or parts, but the selected embodiments are described in detail in this specification. [Embodiment] / [0008] Please refer to FIG. 1 to FIG. 3 , which is a first embodiment of a modified structure of a drive shaft of a puller, which comprises a screw 1 , a drive assembly 2 and a The driven component 3, wherein the screw 1 has a top end and a bottom end, and as shown in FIG. 2 and FIG. 3, the top end of the screw 1 is provided with a tool for rotating the screw 1 The rotary member 1 1 has a corresponding chamber 1 1 for arranging the top end of the screw 1. The peripheral side of the chamber 1 1 1 is provided with an internal thread segment 1 corresponding to the top end of the screw 1. 2. The screw 1 is screwed into the chamber 1 1 1 . One side of the rotating member 1 1 is provided with a through hole 1 1 3 penetrating into the chamber 11 1 , and the screw 1 is provided with a pair of positioning holes 1 2 which are through the through hole 1 1 3 and has a positioning member 13 The positioning hole 13 is inserted into the positioning hole 12 in the embodiment, and the positioning member 13 is a spigot. The rotating member 11 is fixed on the top end of the screw 1 . It can be rotated synchronously with the screw 1. [0009] The modified screw can be combined with the driving component and the driven component to form a puller, wherein the driving component 2 has a receiving slot 2 Form No. A0101 Page 5 / Total 28 pages M433934 1, The accommodating groove 2 1 is provided with a special-shaped nut 2 2 , and the upper edge of the accommodating groove 2 1 has a ring groove 2 3 for inserting a C-shaped buckle 24 to clamp the shaped nut 2 . 2 . It is located in the accommodating groove 2 1 . Further, the driving assembly 2 is provided with a through hole 25, and the shaped nut 2 2 has a screw hole 2 2 1 , and the screw 1 is a screw hole extending through the screw hole 2 2 1 of the special-shaped nut 2 2 and extending The drive assembly 2 has a through hole 25, and the drive assembly 2 has a plurality of extension arms 26 extending downward. [0010] The driven component 3 is disposed under the driving component 2, and includes a screw base 31 and a connecting seat 32. The connecting seat 32 is located below the screw base 31. The screw housing 31 has a central portion. The screw hole 3 1 1 has a through hole 3 2 1 in the center of the connecting seat 3 2 , and the screw 1 sequentially penetrates through the screw hole 3 1 1 of the screw seat 3 1 and the connecting portion 3 2 The hole 3 2 1 , the screw seat 31 extends away from the center and is provided with a plurality of fixed arms 3 1 2 '. The connecting seat 3 2 extends outward from the center with a plurality of connecting arms 3 2 2 , and the screw seats 3 1 are fixed The arm 3 1 2 is spaced apart from the sigma extension arms 26 of the drive assembly 2, and the ends of the extension arms 26 are fixed to the connector block 32. In this embodiment, each of the extension arms 26 The length of each of the fixing arms 3 1 2 of the screw seat 3 1 is greater than the length of each of the connecting arms 3 2 2 of the connecting block 3 2 , and the fixed arms of the screw seat 3 1 3 1 2 The outer edge is pivotally connected to a hook 3 4 respectively, and an actuating arm 35 is pivoted in the middle of each of the hooks 3 4 . In the embodiment, the actuating arm 35 is composed of two bodies Composed, and the actuator arm 35 is connected to the The connecting arms 3 2 2 of the seat 3 2 are pivotally connected to each other, and each of the hooks 34 has a hook portion 3 4 1 away from one end of each of the fixed arms 3 1 2 . Form No. A0101 Page 6 of 28 [0011] When the present invention is used, as shown in Figures 4 to 6, the shaped nut 2 2 is first rotated, by the shaped nut 2 2 and the The screwing between the screws 1 and the use of the C-shaped retaining ring 24 in the ring groove 23 to insert the driving assembly 2 up and down, and drive the connecting block 32 and interlock the operating arm 3 5, to adjust each hook 3 4 to open to the appropriate width. Thereafter, the screw 1 is adjusted to align with the center axis of a workpiece, and the shaped nut 2 2 is once again rotated to adjust the respective claws 34 to be closed to a suitable width to surely grip the workpiece. After the workpiece is gripped, the tool is sleeved on the rotating member 11 at the top end of the screw 1, and the rotating member 1 1 is rotated by force. The screw 1 can be rotated and displaced downward to support the workpiece, so that the workpiece can be smoothly separated. One of the shafts of the card is embedded. [0012] However, if the workpiece is too tightly clamped with its shaft portion, it is still difficult to apply the force to the shaft portion. At this time, if the radial force beyond the positioning member 13 can be applied, the rotation is rotated. The moving member 1 1 causes the positioning of the positioning member 13 to stop the rotation of the rotating member 11 and the screw 1. Compared with the conventional drawing device, since the maintenance cost of the positioning member 13 is lower than that of the screw 1, the replacement is also higher than the screw 1. When the force is too large, the breaking of the positioning member 13 is protection. The screw 1 is protected from damage, so it has the practicality of reducing the cost. [0013] As shown in FIG. 7, a second embodiment of the improved structure of the drive shaft of the puller provided by the present invention is different from the above-described first embodiment in that it corresponds to the screw seat 3 1B A fixed arm 3 1 2B has an auxiliary fixing arm 3 3 extending in the opposite direction, and an auxiliary connecting arm 3 6 is extended to the opposite side of the connecting arm 3 2 2 B of the connecting seat 3 2 B. The auxiliary fixed arm 3 3 and the auxiliary connecting arm 3 6 form number A0101 page 7 / page 28 M433934 are respectively in line with the corresponding fixed arm 3 1 2 B and connecting arm 3 2 2 B. The remaining hooks 34 are detachable from the fixed arm 3 1 2 and the actuating arm 35, and can be coupled to the auxiliary fixed arm 3 3 and the auxiliary connecting arm 36. [0014] When the embodiment is used, the installation condition of each of the hooks 3 4 can be adapted to various usage environments. When the hook 3 4 is installed as shown in FIG. 7 , which is the same as the first embodiment described above, and as shown in FIG. 8 , the workpiece can be grasped by three claws at the same time, which is suitable for a space with sufficient use environment. . If it is in a narrow space and the space is not enough to use the three-jaw puller, as shown in Fig. 9, the two hooks 3 4 can be removed and a hook 3 4 can be installed in a corresponding one. The fixed arm 3 1 2 B and the connecting arm 3 2 2 B are symmetrically fixed to the auxiliary arm 33 and the auxiliary connecting arm 36, as shown in FIG. 10, the workpiece is clamped by the two symmetric claws 3 4 Suitable for narrower use environments. [0015] Furthermore, as shown in FIG. 1 , a third embodiment of the improved drive shaft of the puller provided by the present invention is different from the first embodiment in that the driven component is a connecting seat 4, a connecting hole 4 is provided at the center of the connecting seat 4 for piercing the screw 1, and the connecting seat 4 extends at a bottom edge of the through hole 41 and has an inner diameter larger than the through hole 41. Screw hole 4 2 . A plurality of connecting arms 43 extend outwardly from the connecting base 4, and each of the connecting arms 4 3 has a guiding portion 4 3 1 , respectively, for a top vertebral rod 4 4 to slide thereon. An adjusting member 5 for adjusting the positioning of the connecting base 4 is disposed under the connecting base 4, and the adjusting member 5 has an outer edge corresponding to the screw hole 4 2 of the connecting base 4. External thread segment 5 1 Form No. A0101 Page 8 / Total 28 pages [0016], the other end is a rotating segment 52 for adjusting the rotation, and the adjusting element 5 has a spinable slip Screw hole 5 3 on the screw 1. Accordingly, the outer threaded portion 51 of the adjusting member 5 can be fixed to the screw 4 of the connecting seat 4 or can be disengaged from the screw hole 42. Further, a pull-out assembly 6 is connected to the bottom end of the screw 1 and is pivotally disposed at a bottom end of the screw cymbal by a connecting member 61. The connecting member 6 is connected to a push rod 6 2 at the other end. The push rod 62 is further provided with a positioning rod 63 for positioning. The positioning rod 63 has a slot 6 31 at each end, and a chute is arranged on each side of the slot 63 1 6 3 2. Each of the grooving grooves 633 and the respective stalks 64 are respectively disposed, and each of the yokes 64 protrudes outwardly from the hook portion 641, and is respectively restricted by the positioning member 6 5 extending through the sliding grooves 633 Positioning and positioning each of the pull rods 6 4 in each of the (4) 6 3 1 , so that each of the turns 6 4 can slide on each of the slots 61 1 . Each of the pull rods 6 4 is away from the end portions of the hook portions 6 4 and connected with an adjusting rod 6 6 for adjusting the relative distance between the hook portions 6 4 1 of the pull rods 6 4 , and the adjusting rod 6 6 is provided by the upper two An adjusting member 6 7 is respectively disposed at the end to connect the respective rods 64, so that the rods 64 can be fixed to the adjusting rods 6 6 . In use, as shown in Fig. 12, it shows a schematic cross-sectional view of a bearing used to disassemble a pumping member. First, the ejector rods 4 4 are placed on the shaft members of the wheel rig to be disassembled for fixing, and then the rods 64 are adjusted to the appropriate positions by the adjusting rods 67 to make the rods 6 4 hook portion 6 4 1 is combined with the inner edge of the bearing R to be disassembled', and then tighten the positioning member form number A0101 6 5 to fix the rod 6 4 page 9 / 28 pages 〇 M433934 [0020] Then, the adjusting component 5 under the connecting seat 4 is first rotated to rotate upward, and the adjusting component 5 is locked in the screw hole 4 2 at the bottom of the connecting base 4 by the external thread segment 51. So that the connector 4 does not slide downward. Rotating the rotating member 1 1 and driving the screw 1 to make the connecting seat 4 abut against the shaft member, and the pulling member 6 and the screw 1 are displaced upwardly, thereby disassembling the shaft member. The purpose of the bearing R inside. [0021] However, the disclosure of the above embodiments is intended to illustrate the present invention and is not intended to limit the present invention, so the replacement of equivalent elements should still belong to the scope of the present invention. In summary, this creation has been quite progressive and practical, and after detailed description above, it can be made clear to the skilled person that the creation can achieve the above objectives, and it has already met the requirements of the Patent Law. The creator filed an application in accordance with the law. BRIEF DESCRIPTION OF THE DRAWINGS [0022] FIG. 1 is a perspective view of a first embodiment of the present invention. [0023] FIG. 2 is a perspective exploded view of the first embodiment of the present invention [0024] [0025] FIG. 4 is a schematic view showing the operation of the first embodiment of the present invention [0026] FIG. Figure 2 is a plan view showing a first use state of the second embodiment of the present invention. [0028] Fig. 9 is a perspective view of a second use state of the second embodiment of the present invention. [0029] Figure 1 is a second embodiment of the second embodiment of the present creation. [0030] FIG. 1 is a perspective view of a third embodiment of the present invention. Form No. A0101 Page 10 of 28 M433.934 [0031] Figure 12 is a third embodiment of the present invention. Schematic diagram of the use state [0032] Figure 13 is a schematic diagram of the conventional puller [main component symbol description]

[0033] (This creation part) [0034] Screw 1 Rotating member 1 1 [0035] Housing 1 1 1 Internal thread section 11 2 [0036] Through hole 1 1 3 Positioning hole 1 2 [0037] Positioning member 1 3 Drive assembly 2 [0038] accommodating groove 2 1 Shaped nut 2 2 [0039] Thread 2 2 1 Ring groove 2 3 [0040] C-shaped buckle 2 4 Perforation 2 5 [0041] Extension arm 2 6 Follower Component 3 [0042] Screw seat 31, 3 1 B Screw hole 3 1 1 [0043] Fixing arm 3 1 2, 3 1 2 B Connecting seat 3 2, 3 2 B [0044] Through hole 3 2 1 Connecting arm 3 2 2 ' 3 2 [0045] Auxiliary fixed arm 3 3 Hook 3 4 [0046] Hook 3 4 1 Actuator 3 5 [0047] Auxiliary connecting arm 3 6 Connecting seat 4 [0048] Perforation 4 1 Screw hole 4 2 [ 0049] Connecting arm 4 3 Guide 4 3 1 Form No. A0101 Page 11 of 28 M433934 [0050] Push rod 4 4 [0051] External thread 5 1 [0052] Screw hole 5 3 [0053] Connection 6 1 [0054] Locating rod 6 3 [0055] Chute 6 3 2 [0056] Hook 6 4 1 [0057] Adjusting rod 6 6 [0058] Bearing R [0059] (Utility part) [0060] Drive shaft 7 [0061] Drive assembly 8 Form number A0101 Adjustment element 5 Rotating section 5 2 Pulling assembly 6 Push rod 6 2 Section 631 64 lever positioning member 6 to adjust the rotating element 6 the pawl portion 71 9 12/28 Total

Claims (1)

M433.934 6. Patent application scope: 1. A drive shaft improved structure of a puller, comprising a screw, a driving component and a driven component, wherein the screw has a top end and a bottom end, the driving component The utility model has a through hole, the driven component has a screw hole, and the driven component is located below the driving component, and the screw has a bottom end extending downward through the through hole of the driving component and the screw hole of the driven component. The utility model is characterized in that: a screw for arranging a tool for rotating the screw is arranged at a top end of the screw, the rotating member has a corresponding chamber for arranging the top end, and a side of the rotating member is provided with a through hole a through hole of the chamber, and the screw is provided with a corresponding positioning hole of the through hole, and a positioning member penetrates the through hole and is positioned in the positioning hole, and the rotating member is fixed to the hole The screw can be rotated synchronously with the screw. 2. The improved drive shaft structure of the puller according to the first aspect of the patent application, wherein the peripheral side of the housing of the rotary member is further provided with an inner threaded section corresponding to the tip end of the screw. 3. The improved drive shaft of the puller according to the first aspect of the patent application, wherein the positioning member is a plug. < 4. The drive shaft improved structure of the puller according to claim 1, wherein the drive assembly has a receiving groove for pivoting a special-shaped nut, the special-shaped screw The cap has a screw hole, and the screw twisting thread extends through the screw hole of the special-shaped nut and the through hole extending through the driving component, and the driving component extends from the deformed nut to extend the plurality of extending arms; the driven component The utility model comprises a screw seat and a connecting seat, the connecting seat is located under the screw seat, the screw seat has a threaded hole in the center thereof, and the connecting seat has a through hole in the center thereof, and the screw hole of the screw seat is for the screw to be twisted and extended. The through hole of the connecting seat is for the screw to extend, and the screw seat extends outward from the center with a plurality of fixed arms, and the connecting seat is away from the center to the direction 100222606. Form No. A0101 Page 13 / 28 pages 1002074332-0 M433934 a connecting arm, and each of the fixing arms of the screw seat is spaced apart from each of the extending arms of the driving component, and each of the extending arms is fixed to the connecting seat, and the length of each fixing arm of the screw seat is greater than the length Connecting arm Degrees, each of the fixed arm outer edge of the screw base of pivotally connected with a pawl, and in in each of the pawls segment pivotally provided with an actuation arm, each of which for each connection arm actuator arm and the connecting base of each pivot. The improved drive shaft of the puller according to the fourth aspect of the invention, wherein the upper edge of the receiving groove has a ring groove for inserting a C-shaped buckle. 6. The drive shaft improved structure of the puller according to item 4 of the patent application scope, wherein the actuating arm is composed of two bodies. 7. The improved drive shaft of the puller according to the fourth aspect of the invention, wherein each of the hooks has a hook portion away from one end of each of the fixed arms. 8. The improved drive shaft of the puller according to the fourth aspect of the patent application, wherein one of the fixed arms of the screw base is further provided with an auxiliary fixed arm, and one of the corresponding connecting seats The auxiliary arm is further provided with an auxiliary connecting arm, and the remaining hooks are detachable from the fixed arm and the operating arm, and can be combined with the auxiliary fixing arm and the auxiliary connecting arm. 9. The drive shaft improved structure of the puller according to claim 8, wherein the upper edge of the receiving groove has a ring groove for inserting a C-shaped buckle. 10. The drive shaft improved structure of the puller according to item 8 of the patent application scope, wherein the actuating arm is composed of two bodies. 11. The improved drive shaft structure of the puller according to claim 8, wherein each of the hooks has a hook portion away from one end of each of the fixed arms. The drive shaft improved structure of the puller according to the first aspect of the invention, wherein the driven component is provided with a through hole at a central portion of the driven component, and the screw hole is disposed at a bottom edge of the through hole, and the screw hole is outside The traverse system is larger than the screw, and the driven component is away from the 100222606. Form No. A0101 Page 14 / Total 28 Page 1002074332-0 M433.934 The screw has a plurality of connecting arms, and each of the connecting arms is provided with a push rod for sliding a guiding portion is disposed, and the screw is provided with an adjusting component for adjusting the positioning of the driven component under the driven component, and one end of the adjusting component has a screw corresponding to the driven component at the outer edge a threaded section outside the hole, the other end is a rotating section for adjusting the rotation, and the adjusting component has a screw hole that can be slidably rotated on the screw, and is fixed to the screw hole of the driven component or And the screw is further provided with a drawing assembly at a bottom end thereof, the drawing assembly includes a connecting member coupled to the screw, and the connecting member is provided with a push rod, and the push rod is connected There is a positioning rod for positioning, the fixed position rod Ends respectively connected protruding outwardly disposed a hook portion of a tie rod, each of the pull rod remote from an end portion of each hook is provided with an adjustable and connected to adjust the relative distance of each portion of the hook lever rod. The drive shaft improved structure of the puller according to claim 12, wherein the positioning rod has a slot at each end, and each of the slots is respectively provided with a sliding slot, respectively Each of the pull rods is respectively disposed in each of the slots, and each of the pull rods is respectively positioned and positioned in each of the slots by a positioning component extending through the slots. The improved drive shaft of the puller according to claim 12, wherein an adjusting member is disposed at each end of the adjusting rod to connect the respective pull rods. 100222606 Form No. A0101 Page 15 of 28 1002074332-0