TW584586B - Multi-functional fastener driver device - Google Patents

Abstract

A multi-functional fastener driver device 10 that is capable of providing rotational force to fasteners having different configurations (hexagonal, flathead, wingnut or hook screw, for example) to urge a preselected fastener into a workpiece. The device 10 includes a first portion 12 that is secured, via a shank portion 16, to a tool providing rotary force, and a second portion 14 that transfers the rotary force to a preselected fastener via a plurality of arm members 30. The arm members 30 are configured from multiple apertures 24 and 38, and slots 32 and 34. The arm members 30 engage the fastener and force the fastener to rotate thereby ""screwing"" the fastener into the workpiece. When fasteners are to large to rotate without deforming the arm members 30, a sleeve 42 is utilized to snugly receive the device 10 therein to maintain the arm members 30 configuration while rotating the fastener. Further, the sleeve 42 includes opposing recesses 52 in an end wall 50. The recesses 52 are adapted to align with a slot 32 or 34 in a fastener receiving end 25 of the device 10 to allow the drive ends of large fasteners to be engaged by both the device 10 and the sleeve 42.

Description

584586 玖 玖, the description of the actual mode of committing the invention and the simple description of the drawings) (The description of the invention should state: the technical field, the prior art, and the content of the invention. Background of the invention 1. The scope of the invention The invention relates generally to a fastener driver, especially A fastener driver capable of providing a rotational force to fasteners having different sizes and shapes. 2 · The previous technology background provided a fastener driver which rotates the fastener into the workpiece, and has various sizes and shapes. These actuators are designed to match the size and shape of the pre-selected fasteners. Some fasteners have an asymmetrical shape, or a peculiar shape, and thus pose the problem of providing a driver that can accept and rotate the fasteners. Examples of these peculiar shaped buckles' include flat head screws, wing nuts and hook screws. You can rotate these peculiar shaped buckles In addition, the previous technology driver only has a limited margin for the size change of the fasteners corresponding to the pre-selected shape. Actuators, as disclosed in U.S. Patent Nos. 5,697,268; 4 724 731; 4,708,380; 3,812,894; 3,742,533; and Des. 3 7 9 4 2 0. None of these prior art tools provide the ability to transmit a rotary motion to two Or multiple tools with a unique shape, including but not limited to flat heads, nails, wing nuts, or fishing screws. When two or more different fasteners are encountered, two or more A plurality of different fastener driver. A multifunctional fastener driving tool is needed, which will transmit the rotational force to various fasteners to various fastener shapes within a predetermined size range. Summary of the Invention 584586 (2)圆 _ 图 __ The object of the present invention is to provide a multifunctional fastener driving tool which can overcome many shortcomings of the prior art. The main object of the present invention is to provide a tool that allows individuals to use one tool to drive several types of fasteners One of the type and size of the knot is into the workpiece. This tool is characterized by its multiple cuts and openings for receiving pre-selected fasteners. One of the advantages of this tool is when driving fasteners of different sizes or shapesIt can replace multiple driving tools with one tool. Another object of the present invention is to provide a plurality of hexagonal ports. One of the characteristics of this tool is a 'built-in' port. The advantage of this tool is that it only requires a knot The driver enables several sizes of hexagonal knots to be driven into the workpiece. Another object of the present invention is to provide a method for preventing deformation of a tool when a larger knot is driven. The characteristic of this tool is that it is a cylinder Shape, which allows the tool to be strongly inserted into a sleeve. The advantage of this tool is that it can drive larger knots without damaging the spine knots. Another object of the present invention is to provide a rotary Method for large hook screws or flat-head fasteners. The characteristic of this tool is a pre-selected cut groove located at the receiving end of the fastener of the tool, which is aligned with an opposite groove located in the end wall of the sleeve. The advantage of this tool is that it can drive larger knots without damaging the arm or knots. Another object of the present invention is to provide a tool for transmitting a rotation action to a wing nut fastener. The characteristic of this tool is a generally "V" -shaped outer 0 slot, which has a converging side wall and a bottom wall. The advantage of this tool is that it guides the "wing" of the wing nut with the bottom wall and The mating portions of the side walls are properly meshed to sufficiently transmit rotation to the wing nut. -6- 584586 (3) Another object of the present invention is to provide a tool for transmitting the rotation action to the wing nut including the wing nut. Various forms of knots for hook screws or flat head screws. The characteristic of this tool is a rectangular groove on the inside, which is radially displaced from a generally "V" shaped groove on the outside. The advantage of this tool is that it can Provide rotation action to various buckle pieces with a wide range of sizes. Another object of the present invention is to increase the engagement between the buckle piece and the tool. The tool is characterized by a large number of convex engaging teeth, and its concave surface Corresponds to the convex surface of the convex surface of the wing nut. The advantage of this tool is that when the wing nut is strongly rotated by the main body, it is used to stabilize the wing nut. Another object of the present invention is to provide a strong drive. From a screw to a workpiece The tool has a wing-shaped nut that can be detachably received. The characteristic of this tool is a straight threaded second hole that is "built-in" in the first hole. The advantage of this tool is that a tool can cover the screw while Rotate the wing-shaped nut strongly onto the screw pile.-Another object of the present invention is to increase the area of the mouth between the "wing" of the wing-shaped nut and the tool. The tool is characterized by a regional bottom wall located in a groove on the outside of the tool. The inner flat area of the bottom wall engages the flat part of the wings of the wing nut. The plane of the bottom wall is obliquely or alternatively has an arcuate outer area, engaging the winged arcuate portion of the wing nut. The advantage of this tool is that when the wing nut is strongly rotated to a "tight" or "loose" position, it will not deform the wing portion of the wing nut.-Another object of the present invention is to be a rotary type When engaging the wing portion of the wing nut, it is used to increase the `` holding f '' ability of the outer groove. The characteristic of this tool is the knurled surface located on the side wall and the seat wall of the outer groove. The advantage of this tool is Increase wing shape 584586

(4) Rotational force obtained by the nut from the tool. Another object of the present invention is to provide a larger screw post having a first hole diameter in a receiving tool. The characteristic of this tool is the longer vertical mouth size for the first aperture. The advantage of this tool is that it internally receives a screw pile with a longer portion extending therebetween, and at the same time opposes a wing nut fastened to the screw pile. Internally receiving the screw pile can allow the tool to properly engage the wing nut, and forcefully rotate in the direction of π tightening or 'f unscrewing.' In short, Mu invention provides a multi-functional fastener, It includes a first part having a device for receiving inflammatory transfer action; a second part integrally combined with the first part, the second part having a device for transmitting a rotating action to a knot, the rotating action receiving device It includes a handle with a hexagonal shape, and the rotary motion transmission device further includes a through hole with a hexagonal shape, which extends longitudinally from the receiving end of the knot of the second part; a flat head with a first size And a second groove for covering a soil groove L and a cover for two or two positions of the fastener; and a second slot for receiving a flat-head type fastener with a second size, the second slot is longitudinal The ground extends from the receiving end of the buckle at the second part. The drawings briefly explain the foregoing invention and its advantages, which can be recognized immediately from the detailed description of the following preferred examples and reading in conjunction with the drawings, where: Figure 1 is based on Many inventions Before can perspective buckled member driving tool; Figure 2 is a front view of the tool of FIG prior to Figs. 1; FIG. 3 is a front view of one side of the tool; 584586

(5) FIG. 4 is a front perspective view of a sleeve that receives a multifunctional fastener driving tool therein according to the present invention; FIG. 5 is a side front view of the tool of FIG. 1 inserted into the sleeve of FIG. 4; Fig. 5A is a combined view of Figs. 1 and 4, which is aligned with the sleeve of Fig. 4 to receive the tool of Fig. 1; Fig. 7 is a front view of the tool in Fig. Δ; Fig. 8 is a side view of the tool in Fig. 6; Fig. 9 is a front view of the tool in Fig. 6; Sectional view taken along the -1 0 line; Figure 11 is a sectional view taken along the line 1 1 -1 1 in Figure 9; Figure 12 is a sectional view of the tool in Figure 11, one of which is a screw pile Screw into the second hole; FIG. 13 is a sectional view of the tool of FIG. 10, in which a wing nut is inserted. The outer groove makes the “wing” of the wing nut engage the seat wall of the outer groove; FIG. 14 is a modified implementation of the driving tool of the multifunctional wing nut fastening device according to the present invention in FIG. 6 A perspective view of the example; FIG. 15 is a cross-sectional view of the tool in FIG. 14; FIG. 16 is a top cross-sectional view of the tool in FIG. 14; and FIG. 17 is a line along the line 1 7 -1 7 in FIG. A cross-section view is taken. • and *-Preferred embodiment description-Reference is now made to the drawings, particularly to Figs. 1-3, a perspective, front and side cross-sectional view of a multifunctional fastener driver according to the present invention. , Denoted by the number 1 0. The multi-functional fastener driving tool 10 is a single-piece tool, which is made of steel or a similar strength material according to manufacturing techniques familiar to those skilled in the art based on 584586 (6) Truncus. The driver 10 accepts the rotation from a manual or power drive source (not shown), and transmits the rotation to a knot (not shown). The size and shape of the knot are from the smaller belt Hook screws to larger flat-head fasteners. Multi-function fastener driver 10, including integral connection to The first part 12 of the two parts 14 is the first part 12. The first part 12 has a hexagonal shape (when viewed from the side view of the tool 10), and is generally longer than the corresponding lateral dimension of 3 dimensions, because & amp Provide a handle part 16 containing a detent 18 for final insertion into a chuck of a power tool or a sleeve of a manual drive that provides a rotary action. The second part 14 includes a cylindrical outer wall 2 0. The inner wall 22 of a hexagonal shape (when viewed from the side view of the second part 14), which constitutes a hexagonal knot receiving hole 24, which is coaxial with the cylindrical outer wall 20 to the ground angle A buckle receiving end 25 extends, a longitudinal distance substantially close to the middle section 14 of the second part 2 8 and four grooves 2 6 extending parallel to the longitudinal axis of the second part 14 4 form four There are four interlocking arm members 30 with four end-to-end engaging walls 3 1 therebetween. The hexagonal-shaped knots receive the through holes 24 and have a predetermined cross-sectional area, and they suitably receive two correspondingly shaped knots. Head end. Although the preferred shape of the through hole 2 4 is hexagonal, it can also include squares and triangles. The shape of the countersunk holes 2 4. The four grooves are equally spaced, so that adjacent grooves are radially spaced or offset by 90 degrees, so two of the four grooves are placed opposite to form a radial direction. Grooves 3 2 and 3 4 (Although the grooves 3 2 and 3 4 can be aligned radially, or as -10- _ _ _ _ _ _ _ poor fruit knot design needs a different offset spring position, The number of pulls and s β varies from 90 degrees to the radial deviation), and it cooperates with the receiving hole 24 to make one of—or 34. It can be clearly seen that the first knife θ plus, one person ^ bit 14 can only be at any one The receiving hole 24 or a radial slit 32 or 34 is connected to a pre-selected fastener. Therefore, the second part 14 is multifunctional because it can take on various fasteners. However, the second part 14 is more detailed in the arm member 3. With a gap between ::? : To-buckle, the inner and outer walls 22 and 20 determine the shape of the Zhao potential. In the same way, the y-three-thickness thickness of the branch and the corresponding thickness of n = 9 are important parameters that affect the change of the second part, the ground, and the shape of the +4 branch. More special ♦ 彳 #? Arm member 30 with a large rank thickness, which transmits the rotating force in the field to a buckle n 4, σ 仵 牯 inserted into it, will have less deflection-and deformation. Therefore, a greater rotational force is transmitted to the knot. The multifunctional performance of the tool 10 is increased by changing the size or axial alignment of the two notches 32 and. The slits 32 and 34 can change the vertical and horizontal dimensions at the same time, thus allowing flat-head fasteners of different sizes to be taken over by the second part M. In addition, the grooves 32 and 34 can be axially aligned with different lateral dimensions, thus forming a "built-in" groove shape. An additional advantage is obtained by reducing the longitudinal dimension of the cut slot 32, which is the corresponding position of the arm member 30 adjacent to the cut slot 32, and when the rotational force is transmitted to the inserted fastener, it will be more resistant to deformation. In addition to changing the longitudinal and lateral dimensions of the slot to reduce the change of the second member 4 and the arm member 3 0, it can be further advanced by providing a push to the inside longitudinal plum 3 6 constituting the slot 3 2 and 3 4 Reduce deformation. Compared with the parallel inner wall longitudinal wall 3 6 which can make the head end of the fastener contact the engaging wall 3 1, the push-shaped wall surface 3 6 is inserted into the cut groove 3 2 and 3 4 Converge until the head end of the knot finally touches -11-584586 (8) Both sides of the vertical wall 36. Compared with the parallel inner longitudinal wall 3 6 which allows the gap between the head end and the parallel wall 3 6 of the knuckle knot to allow the generation of unstable rotational force, and s' push-type wall surface 3 6 because of the push-type wall surface 3 6 And the continuous engagement between the head and the end of the knot to provide a method for continuously transmitting and rotating the movement from the second position to a flat head knot.

The performance of the multi-function driving tool 10 can be further enhanced by coaxially aligning the hexagonal through-holes 38 with the through-holes 24 with the built-in. The built-in through hole 38 has a hexagonal shape substantially the same as the receiving through hole 24, except that the corresponding size of the built-in through hole 38 is smaller. This built-in arrangement causes an outer edge wall 40 to be formed at the bottom of the receiving hole 24. The outer edge wall 40 not only functions as a stop wall of the hexagonal head end of the fastening member inserted into the receiving hole 24, but also provides an additional lateral thickness to the corresponding position of the arm member 30 adjacent thereto. In addition, the lateral thickness reduces the deflection of the arm member 30 when transmitting the rotational force to the fastener. Referring now to Figure 4 [5 Erqian

The rotational force drives the fastener into the workpiece. Under these circumstances, the second "14" will change into a non-receivable form regardless of the design of tool 10. In order to prevent such a degree of deformation, a cylinder having an inner wall 44 with a coaxial inner wall 44 substantially coaxial with the outer wall 20 of the second part 14 and a concentric outer sleeve 42 with a concentric heart shape is strongly received. $ 1 site 14 so that the receiving end 25 of the buckle of the second site 1 & 14 has a flat shape or 46 pieces of ooli 46 corresponding to the receiving end of the sleeve 42. The sleeve 42 includes a cylindrical outer opening 4 which is larger than the outer diameter of the wall 44, and thus prevents the second member from being shaped, and at the same time provides a sufficient surface area to spread back to form an end wall 50. It can be used to deal with the opposite groove 52, and it can be placed adjacent to one of the cut 32 or 34 in the receiving end 25 of the second structure t4. • 12-

584586 The groove 52 extends parallel to the longitudinal axis of the sleeve 42 for a distance smaller than the longitudinal life of the cut grooves 32 and 34. The groove 52 has the same lateral dimension as the lateral dimension of one of the cutouts 32 or 34. The groove 52 is placed adjacent to one of the cutouts 32 or 34, so that the longitudinal dimension of the selected cutout 32 or 34 is enlarged to be substantially the same as the outer diameter of the outer wall 48 of the sleeve 42, so that a larger engagement The head of the knot can be rotated by combining the second part 14 and the sleeve 42. In operation, the first part of the multi-functional fastener driving tool 丨 〇 2 is tightened and fixed by a handle part 16 to a manual or powered rotary driving tool. A fastener with a predetermined% state is inserted into the corresponding hexagonal through hole 2 4 or 3 8 in the second part 1 4 which is integrally connected with the first part 丨 2 or in the slot 3 2 or 3 4 . The rotary motion is transmitted to the knot by the arm member 30 from the rotary driving tool, so that a sufficient rotational force is used to push the knot into the workpiece. The sleeve 42 is used to properly receive the tool 10 therein. When the selected fastener is larger and requires a greater 1 turn force to drive the fastener into the component, the arm member 30 is prevented from being deformed. The sleeve 42 includes an outer edge or an end wall 50 that is in the same plane as the receiving end 25 of the fastener at the second portion 4. The end wall 50 of the sleeve 42 includes opposite grooves 52 that abut any groove 32. Or 34 is placed to lengthen the selected notch, thus providing a larger coupling area between the fastener and the combined tool and the sleeve 42, so the rotation force is transmitted to the larger end of the fastener. Parts, while reducing the abrasion of the tool 10 and the sleeve 42. Now refer to FIG. 6-9, which describes a perspective, front, side, and top view of a multifunctional wing-shaped nut fastener driving tool 60 according to the present invention. Sectional view. Wing nut driving tool 60 is a modified embodiment of the multifunctional buckle driving tool 10 detailed above. Wing nut tool 60 includes a first or shank portion-13 -584586 (ίο) 62, a second or cylindrical portion 64, and a truncated cone-shaped intermediate portion 6 of the integral connecting shank portion 62 to the cylindrical portion 6 6 So that the rotational force applied to the handle portion 62, is transmitted to the cylindrical portion 64 of the member buckled or driving end 68 side.

The shank portion 62 has a hexagonal shape and includes a detent 70 and a mating end portion 72 which is finally inserted into a rotary tool. The horizontal and vertical dimensions of the shank part 62 can be inserted into a standard rotary tool, so that the middle and cylindrical parts 64 and 66 can be positioned away from the rotary tool but avoid being associated with the rotary tool. It provides safety due to two: And maximum rotational force. The middle portion 6 6 is coaxial and integrally connected with the shank portion 62 and includes a cylindrical section 74 coaxially and integrally connected with the cylindrical portion 64 of the tool 60. The outer diameter of the cylindrical section 74 is larger than the lateral dimension of the shank portion 62, but smaller than the outer diameter of the cylindrical portion 64. Therefore, the tool 60 can drive a wing nut with a larger size than the driving end of the rotary tool. . __________________________________________-

The cylindrical portion 6 4 includes a cylindrical body 7 extending longitudinally from the intermediate portion 6 6 to the driving end 6 8, a coaxial axis with the outer wall 7 6 and extending a short axial distance from the driving end 6 8. A cylindrical inner wall 78, a first aperture 79, which is coaxial with the inner wall 78, extends a section of the longitudinal middle portion adjacent to the cylindrical portion 64, to locate the axial distance of the first aperture 7 9 bottom wall 81 A second non-push or straight threaded aperture B, coaxial with the first aperture 79, and extending from the bottom wall 81 of the aperture 79 to a position substantially adjacent to the middle portion 6 of the tool 60 in the longitudinal position. 3. A driving end 6 8 extending laterally beyond the cylindrical portion 6 4 and extending to an inner wall 7 8 with a slightly longer “depth” in the axial length, and pushing the groove 8 0 outside, and a radial Inner rectangle -14- 584586 which extends beyond the driving end 68 and is radially displaced from the outer groove 80. 说明 Description of the groove 82 on the continuation sheet.

The lateral push-out groove 80 is generally nV, (see Fig. 7 viewed from the front view of the tool 60), and its configuration extends from the driving end 6 8 to the seat wall 8 6 and is more steep than f. Side wall 8 4. The side wall 84 receives the wing portion π 1 0 2 of the wing nut 104, and the 俾 guide wing nut 104 is suitably engaged with the seat wall 86 and the converging side wall 84 (see FIG. 13). The lateral dimension is smaller than its longitudinal dimension. The seat wall 86 includes two sections separated by the first aperture 7 9, and each section includes the inner portion of the corresponding portion of the mating wing nut and the outer beveled portion 8 8 and 9 0. The inner part 弋 8 is the opposite flat: the surface extends radially, and the mandrel of its vertical cylindrical part 64 is extended from the periphery of the first aperture 7 9 to the outer part 90 of the seat wall 8 6. The outer portion 90 is integrally connected to the corresponding inner portion 88 and the outer portion 76 of the cylindrical portion 64, so that a large acute angle is formed between the cylindrical inner wall 78 and the outer portion 90 of the seat wall 86. The inner portion 88 is engaged The wing-shaped nut 104 corresponds to the corresponding flat portion of the wing portion 102, and the outer portion 90 engages the corresponding arc-shaped portion of the wing portion 102. Therefore, a plurality of contact points are provided between the tool 60 and the wing-shaped nut 104. The tool 60 transmits the rotation action to the wing nut 104 without deforming the wing part 102. Although the outer part 90 has been described in detail above as "Planar shape" ', but the shape of the outer part may be arched to enhance the articulation with the arched part of the wing nut 104, the wing part 102. The transmission of the rotation action can be further strengthened by adding the 'f-holding' ability of the knurled surface pattern on the side wall 8 4 and the seat wall 86 of the outer groove 80. Refer to FIG. 6, 9, 1 0,1 1,1 2 and 1 3, the rectangular inner groove 8 2 is radially displaced from the outer push groove 8 0 by about 90 degrees, so that the tool 6 0 can not only receive and rotate the wing screw. Cap buckle, rotate and drive at the same time detailed above -15- 584586 (12) fiber _ line _; fiber: _ number surface Ning number beach _ flat head shape and hook screw fastener. The inner groove 82 diameter The driving end 68 ′ is extended to the circular inner wall 78 and the first and second holes 79 and 83 as a whole. The inner groove 82 cooperates with the outer groove 80 and the first hole 79 to form four self-cylinders. The driving end 6 8 of the shaped part 64 is a cone-shaped convex surface engaging sector 92. Each convex surface engaging sector has a concave convex surface engaging surface 94, which engages the wing nut 1 in conformity. One of 〇4 corresponds to the protruding surface area 丨 〇6. When the tool 60 transmits the rotation tT to the wing nut by engaging and rotating the wing nut 104 and the groove 80 on the outer side of the wing portion 102, Stable wing Nut 丨 04. The outer diameter of the second first hole 79 is larger than the outer diameter of the pre-selected screw 9 6 which is fixed in a first workpiece (not shown), and finally accepts and fastens a second Workpiece (not shown). The screw pile 96 has a first end 98, which passes through the first aperture 79 and is screwed into the longitudinal direction. The straight threaded second aperture 8 3 'is inside the first aperture 7 9 To fasten the screw pile 96 to the tool 60. The size of the second aperture 83 is suitable for suspicious transfer of the screw pile 9 to the straight _ ^-the tooth cover has a second end 100 'which protrudes beyond the driving end 68 of the tool 60, and allows the second end 100 Inserting a section of the first workpiece can tighten the screw pile 96 to the depth of the first workpiece. The second aperture 83 allows the tool 60 to rotationally drive the threaded second end 100 of the screw pile 96 to the first workpiece until the screw pile 96 is fastened and screwed together. Once the stud 96 is tightened, the reverse rotation of the tool can easily separate the tool 60 from the stud $ 6 due to the non-adhesive feature of the straight thread of the second aperture 8-3. -The screw pile 9 6 is finally inserted through the hole in the second workpiece, so a wing nut is screwed onto the screw pile 9 6 by hand. The tool 60 is positioned on the screw pile 96, so that the groove 60 on the outer side of the tool 60 receives the wing portion 10 of the wing nut 10 and the first (13) (13) 584586 aperture 79 To receive the first end 98 of the screw pile 96. The tool 60 rotates and tightens the airfoil 104 'until the first workpiece is fastened to the first workpiece. Obviously, the longitudinal dimension of the first aperture 7 9 must be able to take over the longitudinal portion of the locked wing screw 104 and the screw portion 96 of the wing portion 102, thereby preventing the stud 9 6 from extending longitudinally beyond the wing screw. cap. In addition, the longitudinal dimension of the second aperture 83 must be smaller than the axial dimension of the wing nut 104. When the wing nut is tightened and the second workpiece is fastened to the first workpiece, the screw pile 96 is prevented. It is then inserted into the second aperture 83. During the operation, a multifunctional wing-shaped nut-fastening device 60 was used to remove or rotate a wing-shaped towel i 1 0 4 on a screw pile 9 6. Similarly, the device 60 can strongly drive the screw pile 96 into a workpiece. In order to fix the screw pile in the workpiece, the screw pile 96 is screwed into a straight threaded second hole diameter 8 3 ′ through the driving end 6 8 of the tool 60 so that part of the screw pile 9 6 protrudes beyond the driving end 68. The tool 60 is detachably fixed to the rotary action tool 'while the convex screw grid 9 4 is screwed into the work piece. Once the screw pile 96 is tightened, the tool 60 is removed from the screw pile 96 by reversing the direction of rotation of the rotating tool. A wing nut 1 0 4 ′ which needs to be loosened or rotated is a driving end 6 8 of the connecting tool 6 0 in the same position > The screw pile 9 6 is inserted loosely into the first hole 79 to a position close to the second hole 83. The wing nut 1 0 4 is suitably fitted into the driving end 6 8 of the tool 60, so that the wing portion 10 of the wing nut 10 2 is engaged with an outer groove 8 0 of the driving end 6 8 at the same time. Converging side wall 8 4 and seat wall 6; while the wing nut 1 0 4 is convex on the convex surface part 1 06, and the joint M is driven by the driving 6 8 which cooperates with the first aperture 7 9 and is concave inside and outside The corresponding convex concave surface butt joint surfaces 9 4 of the convex surface gift joint sector 92 formed in the rows of grooves 80 and 82. Then the 'wing nut 1 04 can be loosened: relaxed or fastened to the necessary position and -17- 584586

(14) It is not necessary to insert the screw pile 96 into the second aperture 83. Once the wing nut 104 is screwed to the necessary position, the 'tool 60' can be easily removed from the wing nut 104 and the nut 96. Referring now to FIGS. 14 to 17, there is shown an alternative or modified embodiment of a multifunctional wing nut knot driving tool 60, which is represented by the number 150. The winged nut fastener driving tool 1 5 〇 is substantially the same as the previous tool 6 〇 The difference is the push-in groove 80 of the previous tool 60, which is rectangular with a parallel longitudinal side wall 1 54. The groove 5 2 (see FIG. 15) is replaced, and the side wall 1 5 4 is slightly longer than the bottom wall 156 and is perpendicular to the bottom wall 156. The size of the rectangular groove 152 is suitable for receiving the wing part 10 of the wing nut 1 104 (see FIG. 13), and at the same time, it can provide more between the wing part 102 and the side wall 1 54. The engagement area of the wing portion 102 can be prevented when the larger objects are fastened together by increasing the amount of rotation action applied to the wing nut 104. In order to further increase the lateral movement of the rotation transmitted from the tool 15 to the wing nut J 0 4 relative to the wing nut 104, the bottom wall 156 of the tool 150 can be shaped to engage with each other. Corresponding part of the wing part 102, so when the wing nut 104 is fastened to or removed from a threaded screw pile 96 (see FIG. 13), the stabilizing tool 150 and the wing nut 1 〇 Adjacent position of 4 rooms. The description is only for general description, and is not intended to limit the protection scope described in the present invention. The protection scope is covered by the following patent application scope, which is explained as widely as possible according to the scope of the original creative masterpiece. Description of Symbols of the Drawings 10 Multi-function fastener driving tool 12 First part -18-584586 (15) 14 Second part 16 Handle part 18 Detent 20 Outer wall of cylindrical member 22 Inner wall 24 Fastener receiving hole 25 Buckle Receiving end 26: groove 28, middle section 30 of second part 30 arm member 31 engaging wall 32, 34 radial groove 36 inner longitudinal wall 38 built-in through hole 40 outer edge wall 42 sleeve 44 inner wall 46 receiving end 48 Outer wall 50-end wall 52 a groove 60 wing nut fastener driving tool 62 first or shank position 64 second or cylindrical portion

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Claims (1)

584586 The scope of patent application 1. A multifunctional fastener tool, comprising: a first part having a device for receiving a rotating action; and a second part which is integrally connected with the first part, the first part The two parts have a device for transmitting the rotation action to a buckle, and the rotation action transmission device further includes: a six-corner-shaped through hole extending longitudinally from the buckle of the second part to receive a pan; A first notch for receiving a fastener having a first size, the first notch extending longitudinally from the receiving end of the second for the fastener; and a second notch for receiving a A second size cutout piece, the second cut slot extends longitudinally from the knotted piece receiving end of the second portion. 2. The tool according to item 1 of the scope of patent application, wherein the rotary action receiving device includes a handle having a hexagonal shape. 3. The tool according to item 1 of the scope of patent application, wherein the longitudinal axis of the hexagonal through hole is coaxial with the longitudinal axis of the second portion. 4. The tool according to item 1 of the scope of patent application, wherein the first and second grooves are aligned in a radial direction. 5. The tool according to item 1 of the patent application, wherein the first and second notches are longitudinally parallel and radially offset. 6. The tool according to item 1 of the scope of patent application, wherein the first and second notches are radially offset by 90 degrees. 584586 7. The tool according to item 1 of the patent application, wherein the first and second notches are axially aligned. 8. The tool according to item 4 of the scope of patent application, wherein the longitudinal dimension of the first slit is longer than the longitudinal dimension of the second slit. 9. The tool according to claim 5 in which the first and second notches have equal longitudinal dimensions. 10. The tool according to item 1 of the scope of patent application, wherein the first and second cutouts, when viewed from a perspective front view of the tool, form a substantially "V" I shape. 1 1. According to the application The tool according to item 1 of the patent, wherein the first and second notches have substantially the same inner longitudinal wall dimensions. 1 2 · The tool according to item 10 of the patent application, wherein the first and second cuts The grooves have substantially the same width and dimensions to properly receive a hook-shaped portion with a hook-and-loop fastener. A 1 3. —A kind of fastener-tool tool, including: a first portion having a mechanism for receiving a rotating action A second part, which is integrally connected with the first part, the second part has a device for transmitting a rotary action to a knot, the rotary action transmitting device further comprises: a first through hole, It has a device for receiving the first part of the first fastener; and a second through hole having a device for receiving the first part of the second fastener. 1 4. According to item 13 of the scope of patent application Tool where the rotation action Undertake 584586 turn_Lion continuation page: The device includes a handle with a hexagonal shape. 1 5. —A knotting tool, including: a first part with a second part for receiving the rotation action, and the second part The first part of the overall phase has a mounting and conveying device for transmitting the rotation action to a knot, including a first cut groove of a first knot having a size suitable for receiving a state, and a receiving portion having a predetermined The first and third parts of the second buckle of the form can be appropriately built into the form of the second and second part. 16. The tool according to item 15 of the scope of patent application, which includes a through hole with a suitable size. A third fastener can be appropriately received. 1 7. The tool according to item 15 of the scope of patent application, where the land is offset from all the slots. 1 8. The tool according to item 15 of the scope of patent application, which includes A pair of opposite grooves. 1 9. The tool according to item 18 of the scope of patent application, wherein the inch is suitable to align the first or second part of the second part. According to the scope of application / green patent No. 16 Item of tool, in which the angle form, the hexagon The hole bears a vertical distance from the second part. 2 1. The tool according to item 20 of the scope of the patent application, which includes a second hexagonal through hole from the device of the first; the second, the second Position, the rotation action is followed by a predetermined shape and the size can be appropriately grooved; and ~, the second part has the second groove diameter of the predetermined shape and the third part additionally has the pair One of the two grooves of the ruler in which the groove is placed. The through-hole includes a six-terminal end, which extends from a second end of the second position to the receiving end 584586 of the love face, and extends a second longitudinal distance; The corner through hole is built into the first hexagonal through hole. 2 2. The tool according to item 15 of the scope of patent application, wherein the first cut groove at the second part additionally includes a push-type inner wall, which can be commonly engaged with the fastener when inserted into the first cut groove. Therefore, the rotation action is continuously transmitted from the second part to the buckle. 2 3. A multifunctional wing-shaped nut-fastening tool, comprising: a first part having a device for receiving a rotation action; and a second part which is integrally connected with the first part, the The second part is provided with a device for transmitting a rotary action to a wing-shaped nut fastener, and the rotary action transmitting device further includes: a push-type groove at the end of the fastener at the second part; A device for connecting a protruding surface part of a wing nut, the protruding surface engaging device is matched with the groove, and 承 detachably receives and rotates the wing nut, and the wing nut is fastened, or a The toothed screw post inserted in the toothed hole of the protruding surface of the wing nut is removed. 24. The tool according to item 23 of the scope of patent application, wherein the first part further includes a handle. 25. The tool according to item 23 of the scope of patent application, wherein the knot end Γ of the second part further includes a rectangular groove '2 which is radially transposed with the pushing wall groove' 2 6. According to the application The tool according to item 23 of the patent, wherein the radial displacement between the push-type groove and the rectangular groove is approximately 90 degrees. 27. The tool according to claim 23, wherein the second part additionally 584586 includes a cylindrical outer wall protruding a first longitudinal distance from the end of the knot, and a cylindrical inner wall coaxial with the outer wall and protruding a second longitudinal distance from the end of the knot, the first A longitudinal distance is substantially longer than the second longitudinal distance. 2 8. The tool according to item 23 of the scope of patent application, wherein the protruding surface engaging device includes a plurality of protruding surface engaging sectors that are integrally connected to the cylindrical inner wall, and the protruding surface engaging sectors have similar features. The same shape as the push-type groove and the radial translocation ΐ square groove. ~ 2 9. The tool according to item 28 of the scope of the patent application, wherein the protruding engaging sector includes a concave shape, and at the same time, it converges to form a first aperture extending coaxially with the inner wall. The first aperture has A longitudinal dimension that is slightly longer than the second longitudinal distance of the inner wall and slightly shorter than the first longitudinal distance of the outer wall. 30. The tool according to item 23 of the scope of the application village, wherein the push-type groove includes a convergent side wall extending from the end of the knot to form a shift from the end of the knot to a distance A flat seat wall with a longer distance between the end of the knot and the protruding engaging sector. 31. The tool according to item 30 of the scope of the patent application, wherein the seat wall includes a longitudinal dimension substantially equal to the outer diameter of the outer wall, and a push-out recess is provided to properly receive a final engagement. The horizontal dimension of the predetermined profiled screw 1 connected to the plane seat wall. 32. The tool according to item 30 of the scope of patent application, wherein the side wall extends from the end of the fastener to form a bevel-shaped seat wall of a predetermined position of an engaging wing nut fastener 584586 3 3. The tool according to item 30 of the scope of patent application, wherein the side wall extends from the end of the fastener to form a bow-shaped seat wall at a predetermined position of the engaging wing nut fastening member. 34. The tool according to item 30 of the scope of the patent application, wherein the push-type groove substantially extends radially beyond the knot end of the second portion, and finally joins with the outer wall of the second portion. 35. The tool according to item 30 of the scope of the patent application, wherein the rectangular groove has a diameter approximately extending over the end of the fastener at the second portion, and is finally combined with the inner wall of the third portion. 36. The tool according to item 30 of the scope of patent application, wherein the push-type groove includes a device for grasping part of the surface of the wing nut. 37. The tool according to item 36 of the patent application scope, wherein the grasping device includes a knurled side and a seat wall in the push-shaped groove. 38. The tool according to item 23 of the scope of application, wherein the second part includes a second aperture with teeth, coaxial with the first aperture, and extending from an end wall of the first aperture to an abutment. At the position of the handle, the second hole detachably receives a screw pile of a wing nut, which is fastened to a workpiece through a second end with a tooth, and the screw pile of the wing nut can be detachably passed through a belt. The first end of the tooth receives a wing nut. 3 9. — Seed group; ^ -type wing-shaped nut and wing-shaped nut pile driving tool, including: a handle ~ part for receiving the rotation action; a cylindrical shape with an outer groove at the driving end Parts, and a device for engaging a protruding surface portion of a wing nut, the outer groove and the protruding surface portion engaging device jointly detachably engage and rotate the wing nut; and 584586 is a device for integrally connecting the handle part and the cylindrical part, so the rotational force is transmitted from the handle part to the driving end of the cylindrical part. 40. The tool according to item 39 of the patent application scope, wherein the cylindrical portion includes an inner groove that is radially displaced from the outer groove. 41. The tool according to item 39 of the scope of patent application, wherein the protruding surface engaging device includes a plurality of protruding surface engaging sectors arranged through the inner and outer grooves. 42. The tool according to item 39 of the scope of patent application, wherein the cylindrical portion, ΪΓ, includes an inner cylindrical wall that is integrally associated with the convex engaging member. 43. The tool according to item 39 of the scope of patent application, wherein the cylindrical portion includes a coaxial first aperture through which the sector is engaged by the protruding surface, and the first aperture connects the inner and outer grooves, The first aperture is longitudinally extended to the surface of the protruding surface engaging sector, to a bottom wall adjacent to the middle portion of the cylindrical portion. -· 44. The tool according to item 39 of the scope of patent application, wherein the cylindrical portion includes a second aperture coaxial with the first aperture, and an outer diameter of the second aperture is substantially larger than the first aperture The outer diameter is small, and the second aperture extends from the bottom wall to a position adjacent to the handle portion. 4 5. The tool according to item 34 of the scope of patent application, wherein the protruding engaging sector comprises a concave shape. 46. The tool according to claim 39 of the patent application, wherein the outer groove includes a convergent side wall extending from the driving end to form a wall, which is more than a section transposed from the driving end. The translocation between the driving end and the protruding engagement sector is longer. 584586 4 7. The tool according to item 46 of the patent application scope, wherein the seat wall includes a longitudinal dimension substantially the same as the outer diameter of the cylindrical portion, and a lateral dimension that converges the side wall of the outer groove, which is appropriate A ground wing nut is finally received on the seat wall. 48. The tool according to item 46 of the patent application scope, wherein the side wall extends from the driving end to form an angled seat wall at a predetermined position of the engaging wing nut. 49. The tool according to item 46 of the patent application scope, wherein the side wall extends from the driving end ′ to form a bow-shaped seat wall of a predetermined portion of the engaging wing nut. ~ 50. The tool according to item 46 of the scope of the patent application, wherein the outer groove substantially extends radially beyond the driving end of the cylindrical portion, and is finally connected to the outer wall of the cylindrical portion. 51. The tool according to item 40 of the scope of patent application, wherein the inner groove extends substantially radially beyond the driving end of the cylindrical portion, and finally 俾 is connected to the wall of the cylindrical portion ... ^ ^ 5 2. The tool according to item 46 of the patent application scope, wherein the outer groove includes a device for grasping the surface of the wing nut on the part. 53. The tool according to item 52 of the patent application scope, wherein the grasping device includes a knurled side and a seat wall located in the outer groove. 584586 No. 091120589 Patent Application Chinese Specification Replacement Page (December 1992) (16) 66 Middle Shaft Position 68 Fastener End or Drive End 70 Detent 72 End Part 74 Cylinder Section 76 Cylinder Outer Wall 78 Inner Wall 79 First aperture 80 Outside push-out groove 81 Bottom wall 82 Groove 83 Straight tooth hole 84 Side wall 85 Bottom of 82 86 Seat wall 88 Internal oblique interface portion 90 External oblique interface portion 92 Convex surface Fan-shaped member 94 Recessed convex surface σ Tooth contact surface 96 Screw pile 98 First end 100 Second end 102 Wing surface 104 Wing nut Description of the invention -20- 584586 Description of the invention: Η 面 _ 缠 _ 恋 _ 议 议 _ 义 面 ^^ No. 091120589 Patent Application Chinese Specification Replacement Page (December 1992) (17) 106 Outer convex surface part 150 Wing nut closure Piece driving tool 152 Rectangular groove 154 Side wall 156 Bottom wall -twenty one -