美国专利US20010000092A1 Locking swivel wrench

专利PDF首页>>美国专利

专利附录

专利说明

权利要求

类似技术

同族专利

引用文献

法律状态

优先权

专利摘要:
A locking device for a tool, such as a ratchet wrench, having a jointed drive head which may be situated in a series of angular positions relative to a handle, and which has means for temporarily holding the drive head of the tool at a predetermined angle with respect to the handle. The tool includes a spring-biased locking element disposed in the handle and which may be either engaged with, withdrawn from, or disengaged from the drive head. In the engaged position, the tool drive head is locked in place by the locking element. In the withdrawn position, the locking element is withdrawn from the head, and held away from it by the user to permit continuous changes in the angular relationship between the handle and the drive head. Finally, in the third orientation, the locking element is withdraw from the head and secured in a temporary holding position, allowing continual changes in the angular relationship between the handle and the head without the need for the user to continually hold the locking element.
公开号:US20010000092A1
申请号:US09/727,350
申请日:2000-12-01
公开日:2001-04-05
发明作者:Jack Jarvis
申请人:Jarvis Jack D.；
IPC主号:B25G1-063

专利说明:
[1] 1. Not Applicable. BACKGROUND OF THE INVENTION
[2] 2. This invention relates generally to tools, and in particular to a locking device for tools such as ratchet wrenches having a handle portion and a head portion, the head portion being rotatably attached to the handle portion such that the head portion may be selectively positioned and locked in place in a plurality of angular relationships with respect to the handle portion.
[3] 3. Mechanics and other persons having reason to use ratchet wrenches frequently encounter situations where a nut to be removed or installed is either very difficult to reach, or, if accessible, is in such an awkward attitude or is obscured by an intervening structure in such a way that it is difficult to apply actuating torque. Solutions to these problems often involve the use of ratchet wrenches having head portions secured to the handle portion by means of a pivot hinge, allowing the head portion to be held at an angle relative to the handle portion. Many different locking means have been developed to secure the head in numerous selected angles relative to the handle portion of such ratchet wrenches. However, these locking means are often difficult to manipulate, making the tool awkward to use, particularly when held in one hand.
[4] 4. It is therefore, the principal object of this invention to provide, for a tool having a head portion adjustable at an angle relative to a handle portion, a locking mechanism which is both rugged and simple to manipulate. BRIEF SUMMARY OF THE INVENTION
[5] 5. The primary object of this invention is to provide, for a tool having a head angularly adjustable relative to a handle portion, a locking mechanism to secure the head in at a selected angular position.
[6] 6. A further object of this invention is to provide a locking mechanism which may be secured in a released position, allowing the angular position of the head relative to the handle portion to be smoothly and continually adjusted.
[7] 7. A further object of this invention is to provide a rugged locking mechanism which may be easily manipulated to either secure or release the head.
[8] 8. In accordance with the invention, generally stated, a ratchet wrench having a ratchet head and a drive handle is provided with at least one articulating joint which allows the ratchet head to be rotated approximately 180 degrees relative to the handle. A locking mechanism is provided to releasably lock the ratchet head in one of several angular positions relative to the drive handle. When in the locked position, the locking mechanism prevents rotation of the ratchet head, and will not be dislodged by application of pressure to the ratchet head, such as occurs during the application of torque. To release the locking mechanism, a locking element is withdrawn from engagement with the ratchet head, and either held away from the head during rotation, or rotated laterally into a locked-open position, allowing free rotation of the ratchet head.
[9] 9. The foregoing and other objects, features, and advantages of the invention as well as presently preferred embodiments thereof will become more apparent from the reading of the following description in connection with the accompanying drawings. BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWINGS
[10] 10. In the accompanying drawings which form part of the specification:
[11] 11.FIG. 1 is an elevational view of an adjustable head ratchet wrench with the preferred embodiment of the locking mechanism of the present invention engaging the adjustable head;
[12] 12.FIG. 1A is a an elevational view of the adjustable head ratchet wrench of FIG. 1 with the locking mechanism shown released from the adjustable head and laterally locked in a neutral position;
[13] 13.FIG. 2 is a side elevational view of the embodiment shown in FIG. 1;
[14] 14.FIG. 3 is a side elevational view similar to FIG. 2, with the adjustable head shown in various selected angular positions relative to the ratchet wrench handle;
[15] 15.FIG. 4 is an exploded view of the embodiment shown in FIG. 2, illustrating the internal components of the locking mechanism;
[16] 16.FIG. 5 is a side elevational view similar to FIG. 3, illustrating an extreme angular adjustment of the adjustable head relative to the handle portion, and a handle extender fitted to the handle;
[17] 17.FIG. 6 is a top elevational view of the embodiment shown in FIG. 5;
[18] 18.FIG. 6A is a side elevational view of a locking pin component of the preferred locking mechanism;
[19] 19.FIG. 6B is a top elevational view of a handle extender shown in FIG. 6A.
[20] 20.FIG. 7 is a front elevational view of the embodiment shown in FIG. 5;
[21] 21.FIG. 8 is an illustration of an alternate embodiment locking mechanism of the present invention, including a spring loaded locking collar securing an adjustable head relative to a ratchet wrench handle;
[22] 22.FIG. 9 is a side illustration of the embodiment shown in FIG. 8;
[23] 23.FIG. 10 is an exploded illustration of the alternate embodiment shown in FIG. 9, illustrating the internal components of the locking mechanism;
[24] 24.FIG. 11 is a side elevational view of an alternate embodiment locking mechanism of the present invention, illustrating separate and independent locking elements;
[25] 25.FIG. 12 is a top elevational view of the embodiment shown in FIG. 11;
[26] 26.FIG. 12A is an illustration of an alternate embodiment locking mechanism of the present invention, incorporating an axial locking pin shown released from the adjustable head and laterally locked in place, and securing the adjustable head via side pivot points;
[27] 27.FIG. 12B is an illustration of the alternate embodiment shown in FIG. 12A as viewed from a different angle;
[28] 28.FIG. 12C is an illustration of the embodiment shown in FIG. 12A, with the adjustable head locked parallel to the handle;
[29] 29.FIG. 13 is a top elevational view of an alternate embodiment of the locking mechanism of the present invention, including a transversely mounted locking element intermeshing with the base of the adjustable head;
[30] 30.FIG. 14 is a side elevational view of the embodiment shown in FIG. 13;
[31] 31.FIG. 15 is an exploded view of the embodiment shown in FIG. 13, illustrating the internal components of the locking mechanism;
[32] 32.FIG. 16 is side view of the components shown in FIG. 15;
[33] 33.FIG. 16A is a side elevational view of one embodiment of the transversely mounted locking element;
[34] 34.FIG. 16B is a side elevational view of a second embodiment of the transversely mounted locking element;
[35] 35.FIG. 17 is an exploded side elevation of an alternate embodiment of an adjustable head ratchet wrench incorporating a tongue and groove locking mechanism of the present invention
[36] 36.FIG. 18 is an exploded top elevation of the embodiment shown in FIG. 17;
[37] 37.FIG. 19 is an exploded top elevation of an alternate embodiment of an adjustable head ratchet wrench incorporating a toothed locking mechanism of the present invention;
[38] 38.FIG. 20 is an exploded side elevation of the embodiment shown in FIG. 19;
[39] 39.FIG. 21 is an exploded side elevation similar to FIG. 16, illustrating an alternate configuration for the transversely mounted locking element;
[40] 40.FIG. 22 is a partial exploded top elevation similar to FIG. 15, incorporating the alternate configuration of FIG. 21;
[41] 41.FIG. 23 is an exploded and cut-away perspective view of the alternate embodiment shown in FIG. 21;
[42] 42.FIG. 24 is an illustration of a alternate embodiment of a ratchet wrench employing dual locking elements of the present invention to provide a greater variety of angular positions within which the adjustable head may be positioned relative to the handle;
[43] 43.FIG. 25 is an exploded top illustration of the embodiment shown in FIG. 24, illustrating the internal components of the dual locking mechanisms of the present invention;
[44] 44.FIG. 26 is an illustration of an alternate embodiment of the double-jointed locking swivel wrench of the present invention illustrated in FIGS. 24 and 25;
[45] 45.FIG. 27 is an illustration of an alternate embodiment of the locking swivel wrench of the present invention illustrated in FIG. 12, detailing internal structures of the handle;
[46] 46.FIG. 28 is an illustration of an alternate embodiment of the locking swivel wrench of the present invention illustrated in FIG. 12, detailing internal structures of the locking mechanism;
[47] 47. Corresponding reference numerals indicate corresponding parts throughout the several figures of the drawings. DESCRIPTION OF THE PREFERRED EMBODIMENT
[48] 48. The following detailed description illustrates the invention by way of example and not by way of limitation. The description will clearly enable one skilled in the art to make and use the invention, describes several embodiments, adaptations, variations, alternatives, and uses of the invention, including what we presently believe is the best mode of carrying out the invention.
[49] 49. FIGS. 1 to 7 illustrate the preferred embodiment of the swivel wrench lock of the present invention, indicated generally by reference numeral 100 in the drawings. Tool 100 has an adjustable drive handle 102 with an integral dual receptacle to fit any ⅜″ socket extension 109 or ½″ socket extension 113 to be used as a handle to apply torque, and an articulating drive head 104. The handle 102 has a body section 106 with a first flared end section 108 and a second flared end section 110 which is integrally attached to a U-shaped frame 112. The frame 112 has two opposed arms 114 and 116 which define a space 118. As best seen in FIG. 1A, communicating between the flared end 110 and the U-shaped frame 112, a hook-shaped slot 120 locks a spring biased pin actuator 122 in a neutral position to unlock the drive head 104 for easy adjustment. Shown in FIG. 6A, the actuator 122 has a locking pin 124 biased outwardly towards the space 118 by a bias spring 126 which seats in a bore 128 formed in the pin actuator 122. The bias spring 126 also seats in a bore 130 formed in the body section 106. The pin actuator 122 further includes a thumb pad 132 to provide a tactile engaging surface. As can be seen in FIGS. 2 through 4, the respective arms 114 and 116 have holes 134 formed adjacent to their respective ends to seat a pivot pin 136, securing the drive head 104 to the dual receptacle drive handle 102.
[50] 50. The drive head 104 includes a conventional ratcheting socket drive 138 with a detent ball 140. The ratcheting gearworks (not shown) in the drive head are controlled by a thumb lever 142. The drive head 104 tapers to a base 144, and a pivot arm 146 extends from the base. The pivot arm 146 has a rounded end 148 with a plurality of stop holes 150 formed in the radiused portion of the end 148. The stop holes 150 are dimensioned to allow the insertion of the locking pin 124 therein. A pivot hole 152 is formed through the pivot arm 146. The pivot arm 146 fits between arms 114 and 116, and is secured in place by the pivot pin 136 inserted through the pivot holes 134 and 152.
[51] 51.FIG. 3 best illustrates the articulating features of tool 100. The user can move the spring biased pin actuator 122 and retract the locking pin 124 from a stop hole 150, allowing the drive head 104 to then pivot freely about the pin 136 until it is in a desired angular position relative to the handle 102. The locking pin 124 and actuator 122 or 380 may be either held away from the stop hole 150 and drive head 104 manually or, once withdrawn, may be rotated laterally into the hook portion of the hook-shaped slot 120 or 366 as shown in FIGS. 1A, 12A and 12B. Releasing the spring-biased pin actuator in the hook portion of slot 120 will retain the locking pin 124 or 372 away from the stop hole 150 and drive head 104, allowing the drive head to continue to rotate freely.
[52] 52. To lock the drive head 104 at a desired angular relation to the handle 102, the user rotates the pin actuator laterally out of the hook portion of slot 120 if necessary, and then releases the spring biased pin actuator 122 allowing the bias spring 126 to drive the locking pin 124 into a stop hole 150 aligned with the pin. When the locking pin 124 is driven into a stop hole 150, the drive head 104 of the tool is locked in position relative to the handle 104. As shown in FIGS. 4 through 7, the stop holes 150 are arranged around the radiused end 148 in such a manner that the drive head 104 can be articulated through approximately 180 degrees relative to the handle 102. Rotation of the drive head 104 relative to the handle 102 allows the tool 100 to apply torque in hard to reach places. FIGS. 5 and 6 depict a ½″ socket extension 115 connected to the dual receptacle drive handle 113. The socket extension 115 has a integral dual receptacle to fit any ⅜″ socket extension 117 or ½″ socket extension 119 for adding additional socket extensions. The socket extension 115 has an external hex bolt 121 formed on one end for applying lateral torque with adjustable wrenches or socket wrenches (not shown).
[53] 53. FIGS. 8 to 10 illustrate an alternate preferred embodiment of the swivel wrench lock of the present invention, indicated generally by reference numeral 200. Tool 200 has a handle 202 with an integral dual receptacle to fit and ⅜″ socket extension 205 or ½″ socket extension 207 to be used as a handle to apply torque, and an articulating drive head 204. The handle 202 includes a base section 206, with a tapered shoulder 208. An elongated rod 210 extends outwardly from the shoulder 208. The rod 210 has a locking groove 212 formed in the surface adjacent to the shoulder 208, and a flattened forward segment 214 with a pivot hole 216 formed therein. The locking groove 212 further includes a locking slot 215 adjacent the shoulder 208, extending perpendicular to the groove 212 around a thirty degree arc of the circumference of the rod 210. Surrounding the rod 210, a bias spring 218 is seated on the rod 210 and is retained thereon by a locking pin collar 220, seated on the forward segment of the rod.
[54] 54. The locking pin collar 220 is generally tubular in shape and has a pair of integral locking pins 222A and 222B extending outwardly from the sides of the collar on opposite sides of the forward segment 214. There is an axial bore 224 formed through the collar, having a first chamber 226 and a second chamber 228. The chambers are separated by an internal shoulder 230. A detent 232 protrudes into chamber 226, such that it is aligned within the locking groove 212 when the collar 220 surrounds the rod 210. Accordingly, the chamber 228 is dimensioned to allow the bias spring 218 to seat therein and abut the shoulder 230, and the chamber 226 is dimensioned to allow the insertion of the flattened forward segment 214 of the rod 210 therethrough.
[55] 55. Drive head 204 includes a conventional ratcheting drive 234 with a spring biased detent ball 236 in a cavity 238. A conventional thumb control 240 operates the ratcheting gearworks (not shown) inside the head 204. The drive head incorporates an integral neck 242 having a pair of opposed tabs 244 and 246, defining a space 248. The outer ends of the respective tabs are radiused, and have a plurality of locking holes 250 formed therein. The locking holes 250 are dimensioned to allow the insertion of the engaging pins 222A and 222B therein. Each tab includes a pivot hole 252 formed transversely therein, positioned such that when the flattened forward segment 214 of the rod 210 seats in the space 248, a pivot pin 254 may be inserted through the holes 252 in the tabs, as well as the hole 216 in the rod to pivotally secure the drive head to the handle.
[56] 56. In use, the bias spring 218 urges the locking pin collar 220 towards the drive head 204, engaging pins 222A and 222B into the locking holes 250, to lock the drive head in an angular position relative to the handle 202. The collar 220 may be drawn back against the bias spring 218, withdrawing the engaging pins out of the locking holes and allowing the drive head 204 to pivot about the pivot pin 254 until a desired angular relationship with the handle 202 is reached. The locking pin collar 220 can be retained in a withdrawn position by pulling it back until the detent 232 is aligned with the lock slot 215, and then rotating the locking pin collar laterally to engage the detent in the locking slot 215. The bias force of the bias spring 218 will retain the locking pin collar 220 in the locking slot 215 until released by lateral rotation. The release of the locking pin collar 220, and the bias spring 218, either from the locking slot 215 or the withdrawn position will drive the locking pins 222A and 222B into the locking holes 250, locking the drive head in the desired angular position. The holes are positioned along the tabs 244 and 246 such that the drive head 204 can be rotated through an arc of approximately 180 degrees relative to the handle. Rotation of the drive head 204 relative to the handle 202 allows the tool 200 to apply torque in hard to reach places.
[57] 57. FIGS. 11 and 12 illustrate another preferred embodiment of the locking swivel wrench lock of the present invention, indicated generally by reference number 300. Tool 300 has a drive handle 302, terminating in a pair of opposed arms 304 and 306 on the first or upper end of the handle. The arms define a space 308 wherein a drive head 310 is supported, and are prevented from movement by a threaded support pin 311. Each arm 304 and 306 includes a bias spring 312 seated in a bore 314 adjacent to the upper end of the respective arm. The upper ends of each arm 304 and 306 include identical pivots 316, each supporting a thumb actuated pivotal locking pin 318 rotatably attached to the pivot 316 such that rotation of the locking pins 318 engages and disengages the drive head 310.
[58] 58. The drive head 310 is seated in space 308 with clearance to rotate through a full 360 degree arc. The drive head 310 includes a first boss 320 with a spring seating bore 322 formed therein, and a second boss 324 with a second spring seating bore 326 formed therein, integrally formed on the opposite sides and aligned with the bores 314 on the arms 304 and 306. Pivot pins (not shown) are seated inside each spring 312, and extend through bores 322 and 326 respectively, to seat in each bore 314, pivotally holding the drive head 310 within space 308. The drive head 310 further includes a number of locking holes 328 arranged in an arcuate pattern, forward of bosses 320 and 324.
[59] 59. In a normally spring-biased position, each locking pin 318 is driven into one of the locking holes 328, securing the drive head 310 against any rotation about the pivot pins (not shown). Each locking pin 318 can be actuated by exerting pressure against a lever portion 330, causing the locking pin to pivot about point 316, and withdraw from the locking hole 328. Thus withdrawn, the drive head 310 can be moved in angularly relative to the drive handle 302. The drive head 310 further includes a conventional ratchet drive 332, thumbwheel actuator, 334 and ratcheting gearworks (not shown).
[60] 60.FIGS. 12A through 12C and FIGS. 27-28 illustrate another preferred embodiment of the swivel wrench lock of the present invention based upon a similar drive handle structure as the embodiment shown in FIGS. 11 and 12. Shown generally at 350, the tool includes a drive handle 352, with an integral receptacle (not shown) to fit any length ½″ socket extension to be used as a handle to apply torque, terminating at one end in two opposing arms 354 and 355, which define a space 357. A drive head 356 is supported in the space 357, between the arms 354 and 355 by means of pivot pins 358 and 360, extending laterally from the drive head and seating within an identical bore 362 in each arm 354 and 355. A washer 364 is fitted around each pivot pin, between the drive head 356 and each arm, ensuring the drive head is free to rotate about an axis defined by the pivot pins 358 and 360, with reduced frictional interference.
[61] 61. The drive handle 352 further includes a longitudinal hook-shaped slot 366, terminating at the base 368 of the arms 354 and 355 which engages a spring biased pin actuator 370. Shaped identical to the actuator shown in FIG. 6A, the actuator 370 has a locking pin 372 biased outwardly towards the space 357 by a bias spring 374 which seats in a bore 376 formed axially in the pin actuator 370. FIG. 27 illustrates the locking pin 372 without the bias spring 374 for clarity. The bias spring 374 also seats in an axial bore 378 formed in the arm 354 and arm 355 at the base of the slot 366. The pin actuator 370 further includes a thumb pad 380 to provide a tactile engaging surface. A threaded bore 373 shown in FIGS. 27 and 28 at the end of arm 355 and a threaded bore 375 at the end of arm 354 are held in place by drive handle 352 and secured by a bolt 377.
[62] 62. The drive head 356 includes a conventional ratcheting socket drive 382 with a detent ball 384. The ratcheting gearworks (not shown) in the drive head are controlled by a thumb lever 386. The drive head 356 is formed as an oblate spheroid, with a plurality of stop holes 388 arrayed on the radiused portions, aligned with the locking pin 372. An additional stop hole 389 is placed at the axial center of the thumb lever 386. Each stop hole 388 is dimensioned to allow the insertion of the locking pin 372 therein.
[63] 63. Use of the tool 350 is substantially similar to that described above for the embodiment shown in FIGS. 1 through 7, with the added benefit that the drive head 356 is capable of rotating through a full 360 degrees relative to the drive handle 352. The additional stop hole 389 placed on the thumb lever 386 allows the drive head to be secured in axial alignment with the drive handle, allowing the tool 300 to function as an extension ratchet.
[64] 64. FIGS. 13 through 16 illustrate another preferred embodiment of the swivel wrench lock of the present invention, indicated generally at 400. Tool 400 has an adjustable drive handle 402 and an articulating drive head 404. The handle 402 has a body section 406 with a first flared end section 408 with an integral dual receptacle (not shown) to fit any ⅜″ or ½″ socket extension to be used as a handle to apply torque. A second flared end section 410 is integrally attached to a U-shaped frame 412. The frame 412 has two opposed arms 414 and 416 which define a space 418. As best seen in FIG. 16, communicating between the flared end 410 and the U-shaped frame 412, is a recessed portion 419 in the upper surface of section 410. A transverse slot 420 at one end of the recessed portion 419 receives a thumb lock 422.
[65] 65. The thumb lock 422, best seen in FIG. 16A, includes a lever arm 424 on an upper surface 426, a cylindrical body 428 with a flattened surface 430 extending downward from the upper surface, and a retaining flange 432 arrayed parallel to the upper surface. The cylindrical body 428 of the thumb lock 422 is received in the transverse slot 420, with the upper surface 426 and lever arm 424 resting on the recessed portion 419 as seen in FIG. 13. The radiused portion of the cylindrical body 428 includes a number of circumferential teeth 433, and a retaining detent 434. A bias spring 436 and detent ball 438 are fitted within an axial bore 440 in section 410, such that rotation of the thumb lock 422 engages and disengages the detent ball 438 in the retaining detent 434.
[66] 66. As can be seen in FIGS. 14 through 16, the respective arms 414 and 416 have holes 442 formed adjacent their respective ends to seat a pivot pin 444, securing the drive head 404 to the handle 402. The drive head 404 includes a conventional ratcheting socket drive 446 with a detent ball 448. The ratcheting gearworks (not shown) in the drive head are controlled by a thumb lever 450. The drive head 404 tapers to a base 452, and a pivot arm 454 extends from the base. The pivot arm 454 has a rounded end 456 with a plurality of parallel locking grooves 458 formed in the radiused portion with a slightly larger diameter than the pivot arm 454. The locking grooves 458 are dimensioned to mesh with the circumferential teeth 433 of the thumb lock 422, and traverse more than 180° to provide a true 90° locking handle in either direction relative to the drive head. A pivot hole 460 is formed through the pivot arm 454, with one side including a recessed seat 462 for a tension ring 464. The pivot arm 454 fits between arms 414 and 416, and is secured in place by the pivot pin 444 inserted through the pivot holes 442 and 460, and tension 464.
[67] 67. During use, the user can move the thumb lock 422 and engage or disengage the circumferential teeth 433 from the locking grooves 458, allowing the drive head 404 to then pivot about the pin 444 until it is in a desired angular position relative to the handle 402. When the teeth 433 are disengaged from the locking grooves 458, the flattened surface 430 is aligned with the locking grooves, allowing the drive head 404 to rotate freely. Additionally, the bias spring 436 drives the detent ball 438 into the retaining detent 434, holding the thumb lock in the released position until a rotation force sufficient to overcome the spring bias is exerted. To lock the drive head 404 at a desired angular relation to the handle 402, the user rotates thumb lock 422 out of the release position, engaging the teeth 433 with the locking grooves 458. When the teeth and grooves engage, the drive head 404 of the tool is locked in an angular position relative to the handle 404. As shown in FIGS. 15 and 16, the locking grooves are arranged around the radiused end 456 in such a manner that the drive head 404 can be articulated through approximately 180 degrees relative to the handle 402. Rotation of the drive head 404 relative to the handle 402 allows the tool 400 to apply torque in hard to reach places.
[68] 68. FIGS. 17 through 20 illustrate alternate embodiments of the locking swivel wrench of the present invention illustrated in FIGS. 1 through 7. Turning to FIGS. 17 and 18, the locking pin 124 of actuator 122 in FIG. 6A is replaced with a locking tongue 500, and the stop holes 150 are replaced with matching stop grooves 502. Additionally, the pivot pin 136 in FIG. 2 is replaced with a combination of a threaded hinge pin 504 and a compression spring 506 seated in a recess 508 between the drive head base 144 and the arm 116 of the frame 112. FIGS. 19 and 20 are identical to FIGS. 17 and 18, however, the locking tongue 500 and matching stop grooves 502 are replaced with locking teeth 510 and matching stop radial recesses 512, allowing multiple teeth and recesses to mesh when locking the drive head 104 in position and traversing more than 180° to provide a true 90° locking handle in either direction relative to the drive head.
[69] 69. FIGS. 21 through 23 illustrate an alternate embodiment of the swivel wrench lock of the present invention illustrated in FIGS. 13 through 16. The thumb lock 422 includes an additional retaining flange 514, located directly below, and parallel to, the lever arm 424. A corresponding recessed slot 516 is located adjacent the transverse slot 420, and receives the retaining flange 514 when the thumb lock 422 is inserted therein. The retaining flange 514 aids in stabilizing the thumb lock 422 during rotation.
[70] 70. FIGS. 24 and 25 illustrate an alternate embodiment of the locking dual swivel wrench of the present invention, indicated generally at 600. Tool 600 includes a multisectioned handle 602 and an articulating drive head 604. The handle 602 includes a body section 606 with a radiused end 608, and an intermediate connector 610. The connector 610 has an axial bore 612, and terminates at opposite ends in U-shaped frames 614 and 616, each identical to frame 412 shown in FIG. 13. The bore 612 extends through connector 610, and opens into spaces 618 and 620, defined by frames 614 and 616 recessed portions 622 and 624 in the upper surface of the connector. A transverse slot 626 and 628 at the end of each respective recessed portion receives a thumb lock 422, the construction and operation of which is described above in connection with FIGS. 13-16 and 21-23. Bias spring 630, seated in bore 612 replaces bias spring 436. The length of bias spring 630 is sufficient that detent ball 632 and 634, placed at opposite ends of the spring are sufficiently biased to retain the respective thumb locks 422 in the disengaged positions as described above.
[71] 71. The drive head 604 of this embodiment is constructed identically to drive head 404. Correspondingly, drive handle 602 includes a number of parallel locking grooves 636 on the radiused end 608 to interlock with the thumb lock 422 located in recess 624. The drive handle 602 is pivotally linked to connector 610 by means of a pivot pin 638 inserted through bores 640 and 642 in the arms of frame 614, and through bore 644 in the end 608.
[72] 72. During use, either thumb lock 422 may be either engaged or disengaged with the corresponding locking grooves in drive handle 602 or the drive head 604, allowing for doublejointed articulation. Double-jointed articulation allows the tool 600 to be employed in locations where a single-jointed tool would be incapable of exerting torque.
[73] 73.FIG. 26 illustrates an alternate embodiment of the double-jointed dual locking swivel wrench lock of the present invention illustrated in FIGS. 24 and 25. Indicated generally at 700, the tool incorporates the drive handle 402, drive head 404, and thumb lock 422 of FIG. 13 with an intermediate connector 702 including a single U-shaped frame 704 and a radiused end 706. The frame 704 is constructed identical to frame 412, and 704 and a radiused end 706. The frame 704 is constructed identical to frame 412, and incorporates the structures needed to support a thumb lock 422, including a bore 708, bias spring 710, detent ball 712, and recessed portion 714. The radiused end 706 has locking grooves 716, constructed identical to the locking grooves 458 on drive head 404.
[74] 74. The drive handle 402 is pivotally connected to the radiused end 706 by means of a pivot pin 718, and the drive head 404 is similarly connected to the frame 704 by means of a second pivot pin 720. This allows for double-jointed articulation of the drive hand and the drive head relative to each other, allowing the tool 700 to be employed in locations where a single-jointed tool would be incapable of exerting torque.
[75] 75. One skilled in the art will further recognized that additional numbers of joints may be employed in the locking dual swivel wrench, and that a variety of locking mechanisms including each of those described above may be incorporated to engage and disengage the drive head from the drive handle, allowing angular adjustments to be made.
[76] 76. In view of the above, it will be seen that the several objects of the invention are achieved and other advantageous results are obtained. As various changes could be made in the above constructions without departing from the scope of the invention, it is intended that all matter contained in the above description or shown in the accompanying drawings shall be interpreted as illustrative and not in a limiting sense.

权利要求:
Claims (21)
[1" id="US-20010000092-A1-CLM-00001] 1. In a tool having a handle portion and a head portion, the head portion being rotatably attached to the handle portion such that the angular relationship between the longitudinal axis of the handle portion and the head portion may be altered to an angle other than 180 degrees, and including means for temporarily securing the head portion at a particular angle with respect to the handle portion, the improvement comprising:
said temporary securing means having engagable first and second holding elements, said first holding element being located in an axial bore in said handle portion and said second holding element being located on an exterior surface of said head portion, said holding elements being axially aligned and engaged when said head portion is temporarily secured and said first holding element being axially displaced within said axial bore when said angular relationship is being altered, such that said first and second holding elements are axially offset and locked neutrally not in engagement with one another.
[2" id="US-20010000092-A1-CLM-00002] 2. The improvement of
claim 1 wherein said axial bore includes a lateral locking channel, said first holding element rotatable into said lateral locking channel when axially displaced within said axial bore, retaining said first holding element in disengagement from said second holding element.
[3" id="US-20010000092-A1-CLM-00003] 3. The improvement of
claim 1 further comprising an axially located adapter receptacle in said handle portion, opposite said head portion, said adapter receptacle configured to receive a handle extension.
[4" id="US-20010000092-A1-CLM-00004] 4. The improvement of
claim 3 wherein said adapter receptacle is configured to receive a ⅜″ socket extender.
[5" id="US-20010000092-A1-CLM-00005] 5. The improvement of
claim 3 wherein said adapter receptacle is configured to receive a ½″ socket extender.
[6" id="US-20010000092-A1-CLM-00006] 6. In a tool having a handle portion and a head portion, the head portion being rotatably attached to the handle portion such that the angular relationship between the longitudinal axis of the handle portion and the head portion may be altered to an angle other than 180 degrees, and including means for temporarily securing the head portion at a particular angle with respect to the handle portion, the improvement comprising:
said temporary securing means having engagable first and second holding elements, said first holding element being concentric to said handle portion, and said second holding element being located on an exterior surface of said head portion, said holding elements aligned and engaged when said head portion is temporarily secured and said first holding element being axially displaced along said handle portion when said angular relationship is being altered, such that said first and second holding elements are axially offset and not in engagement with one another.
[7" id="US-20010000092-A1-CLM-00007] 7. The improvement of
claim 6 wherein said handle portion includes a guide channel, said guide channel including a locking channel extending laterally therefrom, said first holding element further including a tab engaging said guide channel, and said first holding element laterally rotatable to rotate said tab into said locking channel when said first holding element is axially displaced along said handle portion, retaining said first holding element in disengagement from said second holding element.
[8" id="US-20010000092-A1-CLM-00008] 8. The improvement of
claim 7 further comprising an axially located adapter receptacle in said handle portion, opposite said head portion, said adapter receptacle configured to receive a handle extension.
[9" id="US-20010000092-A1-CLM-00009] 9. The improvement of
claim 8 wherein said adapter receptacle is configured to receive a ⅜″ socket extender.
[10" id="US-20010000092-A1-CLM-00010] 10. The improvement of
claim 8 wherein said adapter receptacle is configured to receive a ½″ socket extender.
[11" id="US-20010000092-A1-CLM-00011] 11. In a tool having a handle portion and a head portion, the head portion being rotatably attached to the handle portion such that the angular relationship between the longitudinal axis of the handle portion and the head portion may be altered to an angle other than 180 degrees, and including means for temporarily securing the head portion at a particular angle with respect to the handle portion, the improvement comprising:
said temporary securing means having engagable first and second holding elements, said first holding element mounted transverse to said axis of the handle portion, and said second holding element being located on an exterior surface of said head portion, said holding elements aligned and engaged when said head portion is temporarily secured and said first holding element hemispherically shaped to be rotationally displaced about a transverse axis when said angular relationship is being altered, such that said first and second holding elements are disengaged from one another.
[12" id="US-20010000092-A1-CLM-00012] 12. The improvement of
claim 11 wherein said handle portion includes an axial bore, a bias means seated in said axial bore biasing said first holding element in said rotationally displaced position, retaining said first holding element in disengagement from said second holding element.
[13" id="US-20010000092-A1-CLM-00013] 13. The improvement of
claim 12 further comprising an axially located adapter receptacle in said handle portion, opposite said head portion, said adapter receptacle configured to receive a handle extension.
[14" id="US-20010000092-A1-CLM-00014] 14. The improvement of
claim 13 wherein said adapter receptacle is configured to receive a ⅜″ socket extender.
[15" id="US-20010000092-A1-CLM-00015] 15. The improvement of
claim 13 wherein said adapter receptacle is configured to receive a ½″ socket extender.
[16" id="US-20010000092-A1-CLM-00016] 16. A multi-functional adjustable hand tool comprising:
a drive handle;
a drive head pivotally attached to said drive handle, pivotal at least 180 degrees relative to said handle;
a locking means having an spring-biased engaged position for locking said drive head in a desired position relative to said drive handle and a disengaged position for releasing said drive head to pivot, said locking means comprising at least one locking element operatively associated with said drive handle, and said drive head having a plurality of receiving elements provided thereon to engage said at least one locking element in said engaged position to lock said drive head at a desired angular position relative to said drive handle; and
a retaining means for temporarily retaining said locking means in a disengaged position, said locking elements located apart from said receiving elements.
[17" id="US-20010000092-A1-CLM-00017] 17. The multi-functional adjustable hand tool of
claim 16 wherein said drive handle includes an axial adapter receptacle opposite said drive head, said adapter receptacle configured to receive a handle extension.
[18" id="US-20010000092-A1-CLM-00018] 18. The multi-functional adjustable hand tool of
claim 17 wherein said adapter receptacle is configured to receive a ⅜″ socket extender.
[19" id="US-20010000092-A1-CLM-00019] 19. The multi-functional adjustable hand tool of
claim 17 wherein said adapter receptacle is configured to receive a ½″ socket extender.
[20" id="US-20010000092-A1-CLM-00020] 20. The multi-functional adjustable hand tool of
claim 16 wherein said locking means includes a plurality of locking teeth operatively configured to engage said plurality of receiving elements.
[21" id="US-20010000092-A1-CLM-00021] 21. The multi-functional adjustable hand tool of
claim 16 wherein said drive head includes:
a pivot arm for pivotal attachment to said drive handle, said pivot arm having a uniform thickness and a radiused portion opposite said drive head;
said plurality of receiving elements arrayed on said radiused portion, said receiving elements having an outer diameter exceeding said uniform thickness of said pivot arm.

类似技术:

公开号 | 公开日 | 专利标题

US6167787B1|2001-01-02|Locking swivel wrench

US8695459B2|2014-04-15|Locking flex-head ratchet wrench

US5768960A|1998-06-23|Locking swivel head ratchet wrench

US5207755A|1993-05-04|Universally adjustable paint roller

US5090275A|1992-02-25|Retainer apparatus for a wrench unit

US8047101B2|2011-11-01|Wrench

US7131356B2|2006-11-07|Hand tool having an adjustable head with joint lock mechanism

US5033337A|1991-07-23|Extension element for use with wrench-type hand tools

US7721377B2|2010-05-25|Extendable handle for drywall tools

US6925910B2|2005-08-09|Ratchet tool

US6000299A|1999-12-14|Modular tool system

US4631990A|1986-12-30|Open-ended ratchet wrench

US5409332A|1995-04-25|Universal joint

JPH10506061A|1998-06-16|Quick release mechanism for tools such as socket wrenches

US20150314425A1|2015-11-05|Ratchet wrench with handgrip ratchet control

US6364369B2|2002-04-02|Tube connecting device

ES2363321T3|2011-07-29|REVERSIBLE RATCHET WITH DISTANCE INVESTMENT MANAGEMENT MECHANISM.

EP1438159B1|2008-12-17|Fold-away wrench

US4770071A|1988-09-13|Tool drive mechanism

US6367125B1|2002-04-09|Handle assembly preventing a tool from slipping

CA2181683C|2005-08-23|A locking device for telescoping elements

US4967624A|1990-11-06|Locking for ratchet tool

US5513544A|1996-05-07|Locking, retracting mechanism for crank handles

US20060282988A1|2006-12-21|Control structure of retractable handle

EP1637286B1|2007-12-12|Hand tool having an adjustable head with joint lock mechanism

同族专利:

公开号 | 公开日

US6167787B1|2001-01-02|

US5943924A|1999-08-31|

US6324947B2|2001-12-04|

引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

US20050103168A1|2003-11-13|2005-05-19|Lea Way Hand Tool Corporation|Hand tool having positioning and locking joint|

US20050242210A1|2004-04-30|2005-11-03|Heren Lawrence P|Pivoting spray wand|

US20050268753A1|2004-06-02|2005-12-08|Lea Way Hand Tool Corporation|Hand tool having an adjustable head with joint lock mechanism|

EP1637286A1|2004-09-20|2006-03-22|Lea Way Hand Tool Corporation|Hand tool having an adjustable head with joint lock mechanism|

WO2008092717A2|2007-02-01|2008-08-07|Wera Werk Hermann Werner Gmbh & Co. Kg|Screwdriving tool with free wheel gear|

US8065938B1|2006-04-10|2011-11-29|Kravitch Nick C|Interchangable extension tool for performing operations in limited space work areas|

US20120167400A1|2010-12-30|2012-07-05|Antonio Codega|Adjustable axe|

WO2016081543A1|2014-11-20|2016-05-26|Js Products, Inc.|Hand tool having a head which is position-adjustable and lockable relative to a handle|

KR102311463B1|2021-04-23|2021-10-12|석대환|Spanner capable of adjusting angle|US1286506A|1917-06-06|1918-12-03|Samuel M Beery|Adjustable angle-wrench.|

US1775402A|1925-01-26|1930-09-09|Husky Corp|Wrench outfit|

US1615169A|1925-01-29|1927-01-18|Jesse H Ellis|Wrench|

US1568442A|1925-01-29|1926-01-05|Ray C Carver|Adjustable angle wrench|

US2627330A|1948-07-02|1953-02-03|Gantz Junior Emmett|Ratchet wrench|

US2803980A|1955-12-27|1957-08-27|Irwin R Vogel|Reversible ratchet wrench|

US2982160A|1957-11-01|1961-05-02|Richard C Little|Spinner drive means for a ratchet wrench|

US2978938A|1959-01-21|1961-04-11|William C Nalley|Wrench having an angularly adjustable handle|

US3376768A|1967-04-13|1968-04-09|Louis F. Fortunato|Linkage bar for wrenches|

US3779107A|1972-10-19|1973-12-18|T Avery|Ratchet wrench tool head positioner|

US3838614A|1972-12-12|1974-10-01|Donnell W O|Reciprocating engine barring tool|

US4334445A|1979-03-19|1982-06-15|R. T. Tool Co. Ltd.|Z Style speed wrench|

DE2941616C2|1979-10-13|1983-12-08|Hans 5630 Remscheid Mesenhöller|Ratchet with working head hinged to the handle|

US4279314A|1980-05-05|1981-07-21|Darrel Taub|Ratchet wrench attachment|

US4324158A|1980-07-14|1982-04-13|Le Roy Alfred N|Illuminated wrench|

US4768405A|1981-05-04|1988-09-06|Qualicorp Ltd.|Locking socket wrench drive device|

US4480511A|1981-05-04|1984-11-06|Nickipuck Michael F|Locking socket wrench drive device|

US4938107A|1981-05-04|1990-07-03|501 Qualicorp, Ltd|Wedge locking socket device|

US4463632A|1982-09-29|1984-08-07|Parke W Rod|Tool having locking device for rotatable head|

US4979355A|1988-08-22|1990-12-25|Gamax International, Inc.|Shielding piece for a socket wrench|

DE8902523U1|1988-12-14|1989-05-18|Mesenhoeller, Hans, 5630 Remscheid, De||

US5048379A|1989-06-16|1991-09-17|Gramera Robert E|Multi-functional double-ended socket wrenches|

US5291809A|1992-03-02|1994-03-08|Fox Iii Leonard J|Locking adapter for socket wrench|

US5199335A|1992-05-11|1993-04-06|Easco Hand Tools, Inc.|Flex-head tool with locking feature|

US5289745A|1993-04-06|1994-03-01|Beardsley Gilbert D|Socket wrench extension with lock|

US6000299A|1997-06-16|1999-12-14|Splined Tools Corporation|Modular tool system|

US5694818A|1995-12-11|1997-12-09|Nickipuck; Michael F.|Locking joint for a ratchet wrench|

JPH10187157A|1996-12-20|1998-07-14|Kawai Musical Instr Mfg Co Ltd|Automatic performance device|US6336382B2|1997-04-17|2002-01-08|Diego Cerda|Ratchet wrench head member and system|

US6468279B1|1998-01-27|2002-10-22|Kyphon Inc.|Slip-fit handle for hand-held instruments that access interior body regions|

US6112624A|1998-10-01|2000-09-05|Chen; Yu-Tzu|Rotary lever assembly for a wrench with a direction control mechanism|

US6089127A|1998-12-17|2000-07-18|Dominguez; Jesus V.|Modified wrench|

US6382058B1|1999-06-15|2002-05-07|Greg J. Owoc|Multi-jointed wrench handle|

US6557442B1|1999-06-15|2003-05-06|Greg J. Owoc|Adjustable wrench|

US6367356B1|1999-07-09|2002-04-09|Wesley Stepp|Tool driver device|

US6575919B1|1999-10-19|2003-06-10|Kyphon Inc.|Hand-held instruments that access interior body regions|

US7081122B1|1999-10-19|2006-07-25|Kyphon Inc.|Hand-held instruments that access interior body regions|

US6269717B1|2000-05-08|2001-08-07|Robert A. Bollinger|Multi-sized tool adapter|

US6330844B1|2000-06-30|2001-12-18|Russell Earl Walker|Ultimate nut driver|

US6550357B1|2001-05-22|2003-04-22|Timothy J. Freeman|Wrench connector|

US6520053B2|2001-07-20|2003-02-18|Youn Chyuan Liao|Rotatable tool handle having a solid locking structure|

WO2003059577A1|2002-01-09|2003-07-24|Diego Cerda|Wrench head member and system|

TW511566U|2002-01-11|2002-11-21|Shiou-Ching Huang|Fitting for multi-functional tool|

US7197965B1|2002-02-25|2007-04-03|Anderson Steven P|Hinged socket wrench speed handle|

WO2003076139A1|2002-02-25|2003-09-18|Anderson Steven P|Hinged socket wrench speed handle|

GB2390127B|2002-05-10|2005-06-15|Uniscrew Ltd|Integrated fastening system|

US6877186B2|2003-06-10|2005-04-12|Hsuan-Sen Shiao|Swingable handle for a hand tool|

US6874392B1|2003-07-25|2005-04-05|Keng Hao Wu|Connector of hand tool|

US20050092141A1|2003-11-04|2005-05-05|Yao-Lin Cho|Screw bit connector|

US6951156B2|2003-12-19|2005-10-04|The Stanley Works|Socket|

US6935211B2|2004-01-20|2005-08-30|Su Shia Chen|Ratchet tool having improved driving shank|

US7044028B1|2004-04-06|2006-05-16|Miguel Lozano|Socket wrench apparatus|

US7114418B1|2004-09-16|2006-10-03|Allen William G|Faucet-seat tool|

US7150209B1|2004-10-21|2006-12-19|Loomis Larry A|Multi-functional hexagonal driver|

US7066059B1|2005-01-11|2006-06-27|Chih-Ching Hsieh|Bendable spanner|

US20060174733A1|2005-02-10|2006-08-10|Chih-Ching Hsieh|Bendable and retainable spanner|

US20060201288A1|2005-03-09|2006-09-14|Chen Siou Y|Swing-type wrench|

US7155998B1|2005-07-08|2007-01-02|Wen-Tsai Shyu|T-shaped ratchet wrench|

DK1945958T3|2005-08-17|2013-06-03|Uni Screw Worldwide Inc|Fasteners with multi-level countersinks and clamping tools with multi-level fasteners|

US7182003B1|2005-09-21|2007-02-27|Chih-Ching Hsieh|Palm type spanner|

US20070062343A1|2005-09-22|2007-03-22|Dodson Gerald K Jr|Breaker bar for heavy duty applications|

US20070084310A1|2005-10-14|2007-04-19|Sp Air Kabushiki Kaisha|Air ratchet tool with rotatable head|

US8480453B2|2005-10-14|2013-07-09|Sp Air Kabushiki Kaisha|Die grinder with rotatable head|

US7682099B2|2006-01-24|2010-03-23|Cole Charles A|Indexable, lockable pivoting mechanism for hand tool|

US7318366B2|2006-03-01|2008-01-15|Easco Hand Tools, Inc.|Locking flex-head ratchet wrench|

US7497148B2|2006-06-15|2009-03-03|Stucky Andrew C|Swiveling driver|

DE102006042704A1|2006-09-12|2008-03-27|Wera-Werk Hermann Werner Gmbh & Co. Kg|Lining for holding polygonal profiles|

US7444905B2|2006-10-26|2008-11-04|Bobby Hu|Wrench with reinforced hollow handle|

TWI311093B|2006-12-12|2009-06-21|||

US20080307933A1|2007-06-18|2008-12-18|Cheng-Ching Hung|Wrench rotatable in multiple orientations|

US20090013833A1|2007-07-13|2009-01-15|Salanda David M|Hex extension with bolster|

US20090078093A1|2007-09-24|2009-03-26|Suski Jr Joseph A|Universal socket adapter|

US7905163B1|2008-07-14|2011-03-15|Hsin Ying Enterprise Co., Ltd.|Tool combination|

US8424845B2|2008-07-21|2013-04-23|Indexable Tools, LLC|Hammer and crowbar with adjustable claw|

US7775141B2|2008-08-01|2010-08-17|Snap-On Incorporated|Extended low-torque ratchet wrench|

US8789447B2|2008-09-18|2014-07-29|Eazypower Corporation|Extension shaft for hold a tool for rotary driven motion|

US20100107828A1|2008-11-03|2010-05-06|Juan Huerta|Adjustable Handle System for Fastening Tools That Drive Threaded Fasteners|

US7874233B1|2008-12-29|2011-01-25|Taylor Jeffrey L|Adaptor tool assembly|

US9597095B2|2009-05-15|2017-03-21|Globus Medical, Inc|Screw guide and tissue retractor instrument|

US7992471B2|2009-05-24|2011-08-09|Ming-Ching Tsai|Positioning apparatus for hand tool|

US8667872B2|2010-10-26|2014-03-11|Nicholas McCullough|Socket holder|

US20120204391A1|2011-02-16|2012-08-16|Joseph Terrill Lamura|Valve seat removal socket|

US9079297B2|2011-04-15|2015-07-14|Apex Brands, Inc.|Flex-head wrench|

US8347763B1|2011-06-17|2013-01-08|Chin-Hui Chu|Wrench with a quickly rotatable driving head|

US20130133486A1|2011-11-28|2013-05-30|Hui-Chien CHEN|Bending mechanism of hand tool and hand tool including the same|

US8806990B1|2013-03-27|2014-08-19|Hui-Chien CHEN|Handtool having bending mechanism|

US20130213189A1|2011-11-28|2013-08-22|Hui-Chien CHEN|Bending mechanism of hand tool and hand tool including the same|

US9821430B2|2011-12-28|2017-11-21|Positec Power ToolsCo., Ltd.|Power tools|

US9956676B2|2013-01-09|2018-05-01|Techtronic Power Tools Technology Limited|Tool with rotatable head|

US8943930B2|2013-02-21|2015-02-03|Chao-Chih Liu|Wrench device|

US20140260829A1|2013-03-15|2014-09-18|Peter Alfinito|Extendable wrench|

US20140260832A1|2013-03-15|2014-09-18|Yun Chan Industry Co., Ltd.|Multi-functional wrench socket|

US9669537B2|2014-05-21|2017-06-06|Chad Hartman|Adjustable tool extender|

US9884413B2|2014-10-01|2018-02-06|Power House Tool, Inc.|Socket retaining tool using a spring-loaded keeper sleeve|

CN105751119A|2014-12-19|2016-07-13|中国航空工业集团公司沈阳发动机设计研究所|Multifunctional wrench|

CN105291018B|2015-11-18|2017-06-30|南昌大学|Integrated hexagonal socket wrench|

CN205703915U|2016-02-17|2016-11-23|上海齐迈五金有限公司|A kind of tyre wrench|

US10285825B2|2016-04-07|2019-05-14|Howmedica Osteonics Corp.|Surgical insertion instruments|

US20170361433A1|2016-06-17|2017-12-21|Yih Cheng Factory Co., Ltd.|Ratchet wrench with positioning structure|

US10131038B2|2016-06-17|2018-11-20|Yih Cheng Factory Co., Ltd.|Ratchet wrench having flexible positioning structure|

US20170361434A1|2016-06-17|2017-12-21|Yih Cheng Factory Co., Ltd.|Ratchet wrench having positioning mechanism|

US9956670B2|2016-07-26|2018-05-01|Milwaukee Electric Tool Corporation|Ratchet, ratchet accessory, and kit including the same|

DE102016118865A1|2016-10-05|2018-04-19|Pwp S.A.|Summary of a winding shaft for a truck fairing with a drive shaft of a ratchet tensioning device, ratchet tensioning device and adapter part for a take-up shaft|

EP3456297A1|2017-09-15|2019-03-20|Howmedica Osteonics Corp.|Instruments for expandable interbody implants|

CN110653744A|2018-06-29|2020-01-07|创科（澳门离岸商业服务）有限公司|Anvil for power tool and power tool|

US11027409B2|2019-01-14|2021-06-08|Proprietary Technologies, Inc.|Wrench handle and wrench|

法律状态:
2005-06-01| FPAY| Fee payment|Year of fee payment: 4 |

2008-07-30| AS| Assignment|Owner name: ELITE PROMOTIONS, LLC, TENNESSEE Free format text: CONTRIBUTION AGREEMENT;ASSIGNOR:JARVIS, JANIE;REEL/FRAME:021311/0930 Effective date: 20080415 Owner name: JARVIS, JANIE, TENNESSEE Free format text: AFFIDAVIT AS TO HEIRS;ASSIGNOR:JARVIS, JACK D.;REEL/FRAME:021311/0731 Effective date: 20080625 |

2009-06-04| FPAY| Fee payment|Year of fee payment: 8 |

2013-07-12| REMI| Maintenance fee reminder mailed|

2013-12-04| LAPS| Lapse for failure to pay maintenance fees|

2013-12-30| STCH| Information on status: patent discontinuation|Free format text: PATENT EXPIRED DUE TO NONPAYMENT OF MAINTENANCE FEES UNDER 37 CFR 1.362 |

2014-01-21| FP| Lapsed due to failure to pay maintenance fee|Effective date: 20131204 |

优先权:

申请号 | 申请日 | 专利标题

US39869195A| true| 1995-03-06|1995-03-06||

US08/878,231|US5943924A|1995-03-06|1997-06-18|Integral multi-sized socket tool|

US09/024,375|US6167787B1|1995-03-06|1998-02-17|Locking swivel wrench|

US09/727,350|US6324947B2|1995-03-06|2000-12-01|Locking swivel wrench|US09/727,350| US6324947B2|1995-03-06|2000-12-01|Locking swivel wrench|

[返回顶部]