EP0165237B1 - Ratschenschlüssel - Google Patents
Ratschenschlüssel Download PDFInfo
- Publication number
- EP0165237B1 EP0165237B1 EP84900446A EP84900446A EP0165237B1 EP 0165237 B1 EP0165237 B1 EP 0165237B1 EP 84900446 A EP84900446 A EP 84900446A EP 84900446 A EP84900446 A EP 84900446A EP 0165237 B1 EP0165237 B1 EP 0165237B1
- Authority
- EP
- European Patent Office
- Prior art keywords
- wrench
- socket
- drive
- pawl
- drive member
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired
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Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B25—HAND TOOLS; PORTABLE POWER-DRIVEN TOOLS; MANIPULATORS
- B25B—TOOLS OR BENCH DEVICES NOT OTHERWISE PROVIDED FOR, FOR FASTENING, CONNECTING, DISENGAGING OR HOLDING
- B25B13/00—Spanners; Wrenches
- B25B13/02—Spanners; Wrenches with rigid jaws
- B25B13/06—Spanners; Wrenches with rigid jaws of socket type
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B25—HAND TOOLS; PORTABLE POWER-DRIVEN TOOLS; MANIPULATORS
- B25B—TOOLS OR BENCH DEVICES NOT OTHERWISE PROVIDED FOR, FOR FASTENING, CONNECTING, DISENGAGING OR HOLDING
- B25B13/00—Spanners; Wrenches
- B25B13/46—Spanners; Wrenches of the ratchet type, for providing a free return stroke of the handle
- B25B13/461—Spanners; Wrenches of the ratchet type, for providing a free return stroke of the handle with concentric driving and driven member
- B25B13/462—Spanners; Wrenches of the ratchet type, for providing a free return stroke of the handle with concentric driving and driven member the ratchet parts engaging in a direction radial to the tool operating axis
- B25B13/465—Spanners; Wrenches of the ratchet type, for providing a free return stroke of the handle with concentric driving and driven member the ratchet parts engaging in a direction radial to the tool operating axis a pawl engaging an internally toothed ring
Definitions
- This invention relates to hand tools, and in particular to reversible ratchet wrenches for rotating fasteners.
- the ratchet wrench has several advantages over the conventional closed or open end wrench.
- the fastener to be tightened or loosened is commonly in a confined location where a wrench has only a limited arc of motion when placed on the fastener.
- the wrench With an open end or a closed end wrench, the wrench must be removed from the fastener each time the limit of the arc of motion is reached and then repositioned.
- the ratchet wrench can be retained on the fastener with the ratcheting mechanism permitting the wrench to be readily returned to the initial point of motion without the wrench being removed from the fastener.
- the wrench can be rotated freely in either direction as needed.
- the ratchet wrench has in the past had one significant shortcoming relative to the closed or opened ended wrench.
- the wrench engaging surfaces of the fastener can often be a considerable distance from the end of the fastener, such as where the fastener is the common automotive spark plug where the wrench engaging surfaces lie along the length of the spark plug, or when a member, such as a bolt on which the fastener is secured, extends through the fastener.
- the conventional closed or opened end wrench can be simply slid over the end of the spark plug or bolt onto the wrench engaging surfaces of the fastener.
- the common ratchet wrench is provided with a square drive to engage a square aperture in a socket. The ability of the socket to contact the wrench surfaces on the fastener is therefore determined solely by the length of the socket.
- 1,347,691 to Forton and 2,300,479 to Wilson each disclose a ratchet wrench with a through hole which is adapted for using interchangable sockets to use the wrench with a range of fastener sizes.
- none of the wrenches disclosed in these patents permit the ratcheting direction to be reversed without turning over the wrench.
- none of these designs utilize sockets of a weight, compactness, strength and size range comparable with standard square-drive sockets, and therefore are hardly commercially competitive with the standard square-drive socket.
- ratchet wrenches are capable of ratcheting about 9° rotation between the socket and wrench before the ratcheting mechanism in the wrench becomes operable to secure the socket to the wrench for rotation in the desired direction. While some wrenches have been developed which have permitted a reduction in the angle, permitting more effective use of a ratchet wrench in a tight location, these designs have not proved completely satisfactory.
- US-A-4,328,720 discloses a wrench assembly on which the delimitation of claim 1 is based.
- the present invention relates to a combination of a wrench assembly and at least a socket to rotate a fastener, each of the sockets having a portion for attachment to a wrench and a portion for engaging the fastener, the sockets each having an aperture therethrough for allowing the socket to engage the fastener when an object extends from the fastener by permitting the object to extend into the aperture,
- the wrench assembly having a handle having a head at one end thereof; a drive member for mounting on the head, said drive member having a drive portion with an inner surface extending along the first direction and having a hexagonal cross section perpendicular the first direction and adapted for receiving a socket, said drive member and drive portion having a through aperture formed therein which forms a continuation of the aperture through the socket when the socket is received on the wrench which permits the object to extend through the drive member and drive portions when rotating the fastener; a release member mounted in the drive member for limited movement along the first direction with respect to the drive member and having a finger contacting surface; characterized in that the drive
- FIGURES 1-8 there is illustrated a ratchet wrench 10 forming a first embodiment of the present invention which is adapted for use with an extension 12 and sockets 14-18, illustrated in FIGURES 2a-d, which also form a portion of the present invention, to rotate a fastener, such as a bolt, nut, or spark plug.
- a fastener for purposes of this patent application will include any object or device which could be rotated or operated on by ratchet wrench 10.
- a first construction of the wrench 10 includes a handle 20 having an enlarged head 22 at one end and a knurled portion 24 at the opposite end for grasping by the user.
- the head 22 has a cylindrical aperture 26 formed therethrough centered on axis 27.
- the wall 28 of the head defining the cylindrical aperture is provided with ratchet teeth 30 parallel axis 27 and distributed along the entire periphery of the wall 28.
- a drive member 32 is provided which generally includes a cylindrical portion 34 and a hexagonal drive portion 36.
- the upper edge of the cylindrical portion 34 has a flange 38 which rests on and rotates upon an annular inset 40 in the wall 28 of the head 22.
- the drive member 32 is secured to the handle 20 by a fastening plate 42 which is screwed into the underside of the cylindrical portion 34 by screws 44 as best seen in FIGURES 3 and 5.
- the fastening plate 42 has a sufficient diameter to contact the underside of the head 22 to prevent the drive member from separating from the handle 20. However, the drive member 32 is free to rotate within the head about axis 27.
- the drive member 32 has a large cylindrical aperture 48 which extends completely through the member and is centered on the axis 27.
- Aperture 48 permits the passage of a spark plug end, stud, rod, bolt or other elongate object so that the ratchet wrench 10 can be used on a fastener without need of deep dish sockets.
- This feature also permits the wrench to lie closer to the fastener which allows the wrench to be used in confined spaces. It also reduces the components of force applied to a fastener by the wrench other than the rotational torque needed to rotate the fastener.
- the drive member 32 is formed with a slide surface 50 and a spring receiving recess 52 which extend into opposite sides of the cylindrical portion 34 as best seen in FIGURES 3 and 6.
- the slide surface 50 is curved with a radius larger than the radius of the cylindrical portion 34 so that the edges of the slide surface merge with the outer surface of the cylindrical portion while the center of the slide surface is inset from the outer surface of the cylindrical portion.
- a pawl 54 is inserted between the drive member 32 and wall 28 to ride on the slide surface.
- the pawl 54 has a curved inner surface 56 for sliding on slide surface 50.
- the pawl 54 defines a first set of ratchet teeth 58 and a second set of ratchet teeth 60 on the side opposite surface 56.
- a vertical hole 62 is formed through pawl 54 between the teeth 58 and 60.
- the first and second set of ratchet teeth 58 and 60 face the ratchet teeth 30 on wall 28.
- a V-shaped spring 64 is inserted into recess 52 with its apex 65 facing the head 22 and centered within the recess 52.
- the drive member 32 is formed with three curvilinear notches 66 and one curvilinear notch 67 which extend from the upper surface 68 of the drive member into the member.
- the notches 66 and 67 are centered at a 90° angle apart from the adjacent notches about axis 27.
- Two notches 66 extend into cutouts 69 in cylindrical portion 34.
- Notch 67 and the other notch 66 extend into the insets defined by the slide surface 50 and recess 52, respectively.
- the hole 62 in the pawl 54 is continuously aligned with the curvilinear notch 67 when the pawl is positioned between the drive member 32 and wall 28 as seen in FIGURES 7 and 8.
- An annular reverser plate 70 is positioned on the upper surface 68 and includes pin holes 72 to accept reverser pin 74, guide pins 75 and knob pin 76.
- the reverser pin 74 has a relatively large diameter knob portion 77 and a relatively reduced diameter portion 78.
- the holes 72 are sized to permit passage of portion 78 and block passage of portion 77.
- the portion 78 extends through the curvilinear notch 66 and into the spring recess 52 between spring 64 and wall 28.
- the knob pin 76 includes a knob portion 77 but does not extend below the bottom of reverser plate 70.
- a small hole 79 is formed in the knob pin 76 as best seen in FIGURE 6 to receive one end of a rotary spring 85. The other end of spring 85 is received in hole 62 of pawl 54 while the main spiral body of spring 85 is contained within groove 67 of drive member 32.
- a resilient ring 80 is provided which rests in a notch 82 formed in the drive member 32 and in notches 84 formed in the portion 78 of reverser pin 74 and guide pins 75 to retain the pins and reverser plate on the drive member 32 as best seen in FIGURES 5 and 6.
- the ratcheting operation is explained as follows.
- the spring 64 urges the reverser pin 74 into one of two positions against the end walls 81 or 83 of the notch 66 as shown in FIGURE 3.
- the pin 74 rotates the plate 70 as it moves between end walls 81 and 83.
- the spring 85 is extended and resiliently urges pawl 54 to move with the plate 70.
- the spring 85 urges pawl 54 into a first position on slide surface 50 as seen in FIGURE 7.
- pin 74 abuts end 83 the spring 85 urges pawl 54 into a second position on slide surface 50 as seen in FIGURE 8.
- the pawl In the first position illustrated in FIGURE 7, the pawl is wedged between teeth 30 and one end of slide surface 50. In this position, if the head 22 is rotated in a direction indicated by arrow 86 in FIGURE 7, the ratchet teeth 30 on the wall 28 will slide along the first set of ratchet teeth 58. The pawl 54 will move very slightly along the slide surface 50 to provide sufficient clearance for the ratchet teeth 30 to slide over the first set of ratchet teeth 58.
- the spring 85 constantly urges the pawl 54 into the first position between teeth 30 and the end of slide surface 50 to cause the pawl to spring back and create the ratcheting action.
- the pawl is wedged between the slide surface 50 and the wall 28 with the first set of ratchet teeth 58 engaging the ratchet teeth 30 to lock the drive member 32 and head 22 together for joint rotation as when tightening or loosening a bolt or nut.
- the ratchet teeth 30 will slide along the second set of ratchet teeth 60 with the spring 85 urging the pawl 54 back into the second position to create the ratcheting action.
- the spring 64 constantly tends to urge the reverser pin 74 either to the first end wall 81 or to the second end wall 83 depending upon which side of the midpoint of apex 65 the pin is located.
- the reverser pin 74 flexes spring 64 to a maximum when the pin is in contact with apex 65 midway between the edges of the curvilinear notch 66. In this position, the spring 64 can drive the pin to either end wall of the curvilinear notch 66 depending upon which direction the pin is moved.
- FIGURES 9, 10 and 11 Another construction of the reverser mechanism of wrench 10 is illustrated in FIGURES 9, 10 and 11. Certain components of this construction are identical to the components described above and are identified by the same reference numeral with a superscript prime (').
- the drive member 32' is formed with curvilinear notches 66' which extend from the upper surface 68' of the drive member and into the insets defined by the slide surface 50' and spring recess 52'.
- the pawl 54' includes a notch 120 which is continuously aligned with the notch 66' opening adjacent slide surface 50' when the pawl is positioned between the drive member 32' and wall 28' as seen in FIGURES 10 and 11.
- the annular reverser plate 70' is positioned on upper surface 68' and includes pin holes 72' to accept reverser pins 74'.
- the reverser pins 74' have a relatively large diameter knob portion 77' and a relatively reduced diameter portion 78'.
- the holes 72' are sized to permit passage of portion 78' and block passage of knob portion 77'.
- the portions 78' extend through the curvilinear notches 66' adjacent the slide surface 50' and into the spring recess 52'.
- a resilient ring 80' is provided which rests in a notch 82' formed in the drive member 32' as best seen in FIGURE 9 and in notches 82' formed in the portion 78' of each reverser pin 74' to retain the reverser pins and reverser plate on the drive member 32'.
- the ratcheting operation is substantially identical to that of the pawl 54 described hereinabove.
- the ratcheting function of the resilient spring 85 is performed by the spring 64' which acts to urge pin 74' extending into recess 52' against either end wall 81' or 83' of notch 66.
- the force of spring 64' acts through this pin 74', plate 70' and the second Pin 74' extending adjacent slide surface 50' which bears against the walls of notch 120 in pawl 54' as seen in FIGURES 10 and 11.
- ratchet wrench 10 shown in FIGURES 1-8 while the head 22 has been described as having an annular set of ratchet teeth 30, and drive member 32 with a pawl 54, the present invention encompasses a design where a drive member has an annular set of ratchet teeth and the head supports the pawl.
- the drive portion 36 of drive member 32 is adapted to secure any one of the sockets 14-18 thereon, as well as extension 12.
- the drive portion 36 defines an outer hexagonal surface 100 which defines a male drive portion and an inner hexagonal surface 102 which defines a female drive portion.
- the socket 16 illustrated in FIGURE 2c includes a male connector portion 104 which has a hexagonal outer surface 106 adapted for engagement with the inner hexagonal surface 102 of the drive portion 36.
- the socket 14 illustrated in FIGURE 2b is provided with a female portion 108 which includes an inner hexagonal surface 110 for engagement with the outer hexagonal surface 100 of the drive portion 36.
- the design of socket 16 will be typically employed for small bolts, nuts, etc. Socket 14 can be employed with larger bolts or nuts.
- Sockets 14 and 16 each have a through center aligned with aperture 48 to permit use of wrench 10 on fasteners with bolts extending onto aperture 48, etc.
- the socket 18 includes a female connector portion 112 with an inner hexagonal surface 114 for engagement with the outer hexagonal surface 100 of the drive portion 36.
- the length of the socket 18 is considerably more than that of socket 14 to give the deep socket advantages to wrench 10 where the shank diameter of the bolt or rod to which the fastener is secured exceeds the diameter of aperture 48.
- the extension 12 includes a male connector portion 116 for engagement with the drive portion 36 and female connector portion 118 for use with either socket 14 or 16 if an extension is needed.
- the hexagonal drive portion 36 is stronger and can withstand a higher rotational torque than a similarly sized square drive wrench.
- the combined male and female drive portions of the hexagonal drive portion 36 also forms a significant advantage over conventional square drives. Because the hexagonal drive portion 36 can accept relatively small hex sockets such as socket 16 and extension 12 with the female drive portion and relatively large hex sockets such as socket 14 and 18 on the male drive portion, the hexagonal drive portion 36 can be used over a broader range of socket sizes than the conventional square drive. For example, a single size hexagonal drive portion 36 can be used for socket sizes that would normally require use of a 3/8" square drive and 1/2" square drive.
- the advantage of the combined male and female drive portions do not need to be limited to ratchet wrenches, but can be used on power wrenches such as air powered wrench 500 shown n FIGURE 34, breaker bar wrenches such as wrench 260 is FIGURE 16, screwdriver handled socket wrenches such as screwdriver wrench 502 shown in FIGURE 33 or whatever else the combined male and female drive portions would be useful.
- the length and weight of sockets 14-16 are also decreased over equivalent conventional sockets while the width of the drive portion socket combination remains comparable.
- the socket wrench 10 is also provided with a socket locking and quick release feature.
- the member 130 best seen in FIGURES 3 and 5, has a cylindrical portion 132 and two resilient downwardly extending legs 134.
- the member 130 is placed in the aperture 48 in the drive member 32 prior to attachment of the reverser plate 70.
- Shoulders 136 defined between the cylindrical portion and legs contact the underside of the reverser plate 70 to keep the member 130 within the drive member 32.
- the drive portion 36 is provided with notches 138 on opposed hexagonal sides.
- the legs 134 extend into these notches as best seen in FIGURE 5.
- the leg 134 seen on the left side in FIGURE 5 has an inwardly bent shoulder 140 for bearing against the outer hexagonal surface of socket 16 and extension 12.
- the socket or extension can be provided with a notch about its outer hexagonal surface in which the shoulder 140 can enter.
- the leg 134 seen on the right in FIGURE 5 has an outwardly directed shoulder 142 for frictional engagement with the inner hexagonal surface of the sockets 14 and 18. Again, the sockets 14 and 18 can have a groove on their inner hexagonal surface to accept the shoulder 142.
- a resilient button 144 is attached to the cylindrical portion 132 as seen in FIGURE 5.
- the button can be provided with an annular edge 146 which enters a groove 148 on cylindrical portion 132.
- the button has a sufficiently larger surface area for contact with the operator to permit the operator to comfortably operate the socket locking and quick release feature.
- the member 130 By pressing the button 144 downward toward the drive member 32, the member 130 is moved downward within the drive member and the shoulders 140 and 142 slide downward on camming edges 150 and 152 of the notches 138. The edges are angled so that the shoulders 140 and 142 retract into the notches 138 when the member 130 is depressed to release a socket or extension on the drive portion.
- FIGURE 14 illustrates the cross section of the drive portion 36 of drive member 32.
- the notches 138 are formed on opposite sides of the drive portion within the flat portions of the hexagonal sides.
- the inwardly bent shoulder 140 of the leg 134 employed to secure a socket 16 on the wrench can interfere with passage of an object 250 having a diameter A over which the wrench is placed to rotate the fastener.
- Object 250 could comprise, for example a rod, bolt or other structure.
- FIGURE 15 An alternate design for the drive member 32 which prevents this interference is illustrated in FIGURE 15.
- the notch 138 which receives the leg 134 for holding a socket 16 is positioned at the corner between two flat surfaces of the hexagonal shape.
- the inwardly bent shoulder 140 extends from the inner section of the two adjacent hexagonal surfaces on inner hexagonal surface 102. This will permit free passage of an object 250 having a diameter A as shown in FIGURE 15 which could not pass through the drive portion as illustrated in FIGURE 14.
- the alternate design also illustrates the use of a third leg 134'' lying within a third notch 138'' located between two flat surfaces of the drive portion 36.
- the leg 134'' also has a bent shoulder 140'' to hold a socket 16 to increase the force holding the socket.
- socket wrench 10 incorporates the significant advantages desired in a socket wrench as noted previously.
- the ratcheting action is reversible without turning the wrench over by merely moving the reverser pins 74.
- the knob portions 77 are always rotated in a direction to wedge pawl 54 between head 22 and drive member 32.
- drive member 32 need not be held against rotation relative to head 22 when reversing the wrench which permits reversal of the wrench with one hand.
- the aperture 48 within the drive member 32 permits a socket on the socket wrench 10 to be fit over a fastener to be rotated even though some portion of the fastener, or other part protrudes through the aperture 48.
- Socket wrench 10 also has the weight, compactness, strength and size range to be an improvement on and competitive with conventional square drive wrenches.
- the combined male and female drive portion 36 and hex sockets are comparable and competitive with conventional square drive and sockets whether the combined male and female drive portion 36 is mounted on a ratchet wrench, breaker bar wrench, power wrench, screwdriver wrench, etc.
- the socket wrench 10 also has the advantage of a socket locking and quick release feature which has only two pieces and which can be disassembled with the rest of wrench 10 for repair or maintenance.
- a second embodiment of the present invention is formed by socket wrench 160, illustrated in FIGURES 12 and 13 and described hereinafter.
- the socket wrench 160 includes a handle 162 with head 164.
- the head is again provided with a cylindrical aperture 166 centered on an axis 167 having ratchet teeth 168 formed on the inner wall 170 of the aperture.
- a drive member 172 is secured within the aperture 166 by a snap ring retainer 174.
- the retainer 174 fits in a groove 176 formed about the drive member 172 and also into a groove in the wall 170 (not shown). The retainer 174 prevents movement of the drive member 172 along the axis 167 but permits the drive member 172 to rotate freely about the axis 167 relative to the handle 162.
- the drive member 172 includes a cylindrical portion 180 and a drive portion 182 substantially identical to drive portion 36 in socket wrench 10.
- the cylindrical portion 180 of the drive member 172 supports pawl pivot pins 184, pawls 186 and compression springs 188 as best seen in FIGURE 13.
- the pawls 186 can pivot on the pins 184 about an axis generally parallel axis 167.
- Each pawl 186 is provided with a set of ratchet teeth 190.
- the compression springs 188 urge the pawls about the pawl pins to engage the ratchet teeth 190 with the ratchet teeth 168 in head 164 as best seen with the upper pawl in FIGURE 13.
- the ratchet teeth 190 are designed to engage and lock against ratchet teeth 168 in only one direction of relative motion while permitting the ratchet teeth to slide over one another during opposite rotation.
- a reverser plate 192 is confined between an edge on aperture 166 and the drive member 172. This reverser plate has two downwardly directed members 194 which are capable of contacting camming surfaces 196 on the pawls 186 to move the pawls out of engagement with the teeth 168.
- the members 194 are positioned on plate 192 so that each one of the pawls can be out of engagement with teeth 168 while the other pawl is engaged.
- the teeth 190 on pawls 186 are formed to prevent relative rotation between head 164 and drive member 172 in one direction, while permitting the teeth 168 to slide over teeth 190 in the opposite direction to provide a ratcheting action.
- the pawls 186 are mounted to prevent rotation in opposite directions so that ratcheting action can occur in either direction depending upon the position of the members 194.
- the reverser plate 192 can be moved relative to the drive member 172 through finger grips 198 to permit ratcheting of the socket wrench 160 in either direction.
- FIGURE 16 A third embodiment of the present invention is illustrated in FIGURE 16 and comprises a breaker bar wrench 260.
- the breaker bar wrench 260 includes a long handle 262 with an end 264 having a reduced portion and an aperture 266.
- a head 268 also forms a portion of the breaker bar wrench 260 which includes a clevis 270 having an aperture 272 through the two arms of the clevis.
- the reduced end 264 of handle 262 can be received between the arms of the clevis 270 and a pin 274 can be inserted through the apertures 266 and 272 to secure the handle and head together.
- the pin 274 permits the head 268 to rotate about the axis of the pin relative to handle 262 but limits motion in any other direction.
- the head 268 has a through aperture 276 which permits passage of a bolt, rod, spark plug or other object associated with the fastener to be rotated.
- the head defines an outer hexagonal surface 278 and an inner hexagonal surface 280 which can be used to secure sockets 14, 16 and 18 or extension 12 thereto in a manner substantially identical to the drive member 32 described in association with wrench 10.
- the breaker bar wrench 260 has a socket locking and quick release feature which comprises the push button release 282 and a press fit retaining ring 284 which cooperate with notches 286 formed in the head 268.
- the push button release 282 includes two downwardly extending resilient legs 288 which are each received in one of the notches 286.
- the push button release 282 also defines a grooved surface 290 for contact with the finger of the operator.
- the press fit ring 284 is secured to head 268 by compression fit in aperture 276 and maintains the push button release 282 on the wrench 260 through contact with shoulders 289 on legs 288.
- the legs 288 operate in a manner substantially identical to the legs 134 within wrench 10 described hereinabove.
- One leg 288 has an inwardly bent shoulder 291 for bearing against the outer hexagonal surface of the socket 16 and extension 12 when they are in contact with the inner hexagonal surface 280 of the head 268.
- the other leg has an outwardly bent shoulder 292 which bears against sockets 14 and 18 when they are in contact with the outer hexagonal surface 278.
- the shoulders 290 and 292 secure the sockets or extension to the wrench 260.
- the bottom end of the notches 286 also include angled edges 294. When the push button release 282 is pushed downwardly toward the head 268 by the operator, the legs 288 are urged against the angled edges 294 to retract the shoulders 290 and 292 within the notches to release the sockets or extension. When released, the resiliency in the legs 288 returns the shoulders 290 and 292 to a position extending out of the notches for receiving a socket.
- FIGURES 17-20 The fourth embodiment of the present invention is illustrated in FIGURES 17-20 and forms a ratchet wrench 300. Many portions of the ratchet wrench 300 are identical to those portions identified previously in the description of wrench 10. The identical elements are denoted by the same reference numeral with a double prime superscript.
- the ratchet wrench 300 includes a handle 20'' having head 22''.
- the head 22'' has a cylindrical aperture 26'' therethrough with the aperture 26'' centered on axis 27''.
- a drive member 302 is provided which generally includes a cylindrical portion 304 and a hexagonal drive portion 306.
- the upper edge of the cylindrical portion 304 has a flange 308 which rests on and rotates upon the annular inset 40'' in the wall 28'' of the head 22''.
- the drive member 302 is secured to the handle 20'' by a retainer ring 303 setting in groove 305 in drive member 302 and a similar groove (not shown) in wall 28''. This permits the drive member 302 to rotate relative to the head 22'' about axis 27''.
- the drive member 302 has a large cylindrical aperture 310 which extends completely through the drive member 302 and is also centered on axis 27'' when mounted in the head 22''.
- the aperture 310 provides the features and advantages of aperture 48 as described previously.
- the drive member 302 is formed with opposed slide surfaces 312 and 314 as best seen in FIGURES 17A and 20.
- the slide surfaces 312 and 314 are planar as best seen in FIGURE 20.
- Slide surface 312 extends perpendicular a radial line 316 extending from the axis 27'' to the closest intersection with slide surface 312 as seen in FIGURE 20.
- slide surface 314 is not perpendicular to a radial line 316 intersecting it at its closest point to axis 27''.
- the head 22'' has forty-eight ratchet teeth 30'' and the angle ⁇ between the slide surface 314 and a line 317 perpendicular radial line 316 is 3° 45 minutes.
- a first pawl 318 is positioned between slide surface 312 and the teeth 30'' in head 22''.
- a second pawl 320 is positioned between slide surface 314 and the ratchet teeth 30''. Both pawls 318 and 320 ride on their respective slide surfaces 312 and 314.
- Each of the pawls 318 and 320 define a first set of ratchet teeth 322 and a second set of ratchet teeth 324 facing the ratchet teeth 30''.
- a vertical hole 326 is formed through the pawls 318 and 320 between the teeth 322 and 324 as best seen in FIGURE 20.
- the drive member 302 is formed with two curvilinear notches 328 and two linear notches 330 as best seen in FIGURE 18.
- the curvilinear notches 328 extend from the upper surface 332 of the drive member 302 into cutouts 334 in the drive member 302.
- the linear notches 330 extend from the upper surface 332 and open into the gap formed by the slide surfaces 312 and 314.
- the vertical holes 326 in the pawls 318 and 320 are continuously aligned with the linear notches 330 when the pawls are positioned between the slide surfaces and ratchet teeth 30''.
- An annular reverser plate 336 is positioned on the upper surface 332 and includes reverser pins 338 and 340.
- the reverser plate 336 and reverser pins 338 and 340 are secured to the cylindrical portion 304 by resilient ring 80'' in a manner similar to reverser plate 70 to drive member 32, the reverser pins 338 and 340 extend into the curvilinear notches 328 as best seen in FIGURE 18.
- Reverser springs 342, best seen in FIGURE 18, selectively urge the reverser pins 338 and 340 against one or the other of the ends of the curvilinear notches 328.
- the reverser springs 342 are urging the reverser pins 338 and 340 against the end 344 of the curvilinear notch 328 by contact with portion 346 of the reverser spring 342.
- the reverser pin 338 and 340 will compress the reverser springs 342 and the reverser pins move into contact with the ends 348 of the curvilinear notches 328 opposite the ends 344.
- the portion 350 of the reverser springs 342 will then keep the reverser pins against ends 348 until the reverser plate 336 is rotated in the counterclockwise direction as seen in FIGURE 18 by the operator.
- the ratcheting operation is explained as follows.
- the reverser springs 342 urge the reverser pins 338 and 340 into one of the two positions against the ends 344 and 348 of the curvilinear notches 328.
- the position of the reverser plate 336 is determined by the position of the reverser pins 338 and 340.
- Pawl pins 352 and 354 are provided which extend through linear notches 330 and extend into the vertical hole 326 of each of the pawls 318 and 320.
- a continuous main spring 343 extends about the periphery of drive member 302.
- Main spring 343 is movable by rotation about axis 27'' by reverser pins 338 and 340 as best seen in FIGURE 19.
- the main spring 343 urges the pawl pins 352 and 354 to move the pawls 318 and 320 into a first position on the slide surfaces 312 and 314 as seen in FIGURE 20.
- the reverser pins 338 and 340 contact the ends 348 of the curvilinear notches 328, the reverser pins 338 and 340 move the main spring 343 and pawl pins 352 and 354 to move the pawls 318 and 320 into the second position, illustrated by pawl 318 shown in phantom line in FIGURE 20.
- the pawl 318 will move very slightly along the slide surface 312 against the force of main spring 343 to provide sufficient clearance for the ratchet teeth 30'' to slide over the first set of ratchet teeth 322 on the first pawl 318.
- the main spring 343 constantly urges the first pawl 318 into the first position to cause the pawl 318 to spring back and create a ratcheting action.
- the second pawl 320 moves its first set of ratchet teeth 322 into engagement with the ratchet teeth 30'' on head 22''.
- the head 22'' can be rotated in the direction of arrow 356 with the drive member 302 locked for rotation with the head 22''.
- the angle of rotation of the drive member 302 relative to the head 22'' between ratchet engagements by use of the first and second pawls 318 and 320 is smaller than that possible by use of a single pawl alone.
- This reduced angle between ratchet engagement is possible by forming the slide surfaces 312 and 314 at different angles of intersection from radial lines 316 extending from the rotational axis 27'' intersecting the surfaces 312 and 314 closest to axis 27''. For example, if forty-eight teeth 30'' are formed on head 22'', with a single pawl, the head 22'' would have to rotate 7° 30 minutes between engagements of the pawl teeth and teeth 30''.
- the angle of rotation between engagements can be reduced to a constant 3° 45 minutes.
- the slide surface 312 need not be perpendicular to the radial line 316.
- the slide surface 312 can also be at a slight angle to a line 317 perpendicular the radial line 316 as is the slide surface 314.
- the slide surfaces 312 and 314 need not be directly opposite each other as shown in FIGURES 17-20. If the slide surfaces 312 and 314 are oriented so that the pawls 318 and 320 engage the teeth 30'' simultaneously, the ratcheting mechanism of wrench 300 will be strengthened if wrench 300 is to be used in unusually harsh applications. A simultaneous ratcheting action would occur if slide surface 314 were parallel line 317 seen in FIGURE 20.
- the operator can reverse the ratcheting operation of the ratchet wrench 300 by grasping the reverser plate 336 and moving the reverser pins 338 and 340 against the ends 348 of the curvilinear notches 328. This moves main spring 343 and the pawl pins 352 and 354 in the linear notches 330 to move the first and second pawls 318 and 320 into the second position.
- the handle 20'' and head 22'' are rotated in the direction indicated by arrow 358, one of the pawls 318 and 320 will engage the teeth 30'' for joint rotation of the drive member through 302 and head 22''.
- the head 22' is moved in the direction of arrow 356, ratcheting action occurs.
- the cylindrical drive portion 304 of ratchet wrench 300 is adapted to secure any one of the sockets 14-18 thereon, as well as extension 12 and has the other features noted above with respect to the combined male and female drive portion 36 of socket wrench 10.
- the portion 108 of the socket 14 has an outer hexagonal surface 360 which forms a wrench engaging surface for rotating the socket 14 with a conventional open end wrench 362.
- This feature of the socket 14 is also present on sockets 16 and 18 and extension 12. The feature will permit the hex sockets to be used for loosening or tightening a member where an obstruction would prevent use of the hex socket with the ratchet wrenches disclosed herein, including wrenches 10 and 300.
- FIGURE 22 illustrates a comparision of a hex socket 14 and a conventional socket 364.
- the dimension a is the profile or height of the sockets.
- the dimension b is the diameter of the aperture in the hex socket 14 through which the shank of a bolt can protrude and is the size of the opening in the conventional socket 364 for receiving the square drive which is typically not large enough to allow the passage of larger bolts or shanks.
- the dimension c is the depth of the actual nut engaging portion of the socket.
- the dimension d is the built in depth.
- the overall size of the hex socket 14 is decreased by the elimination of the portion forming dimension d.
- the weight of the hex socket 14 relative to the conventional socket 364 is reduced for an equivalent size because of the elimination of the portion forming dimension d and because of the large aperture forming dimension b and the hexagonal outer surface 108 of the socket 14.
- the dimension b on the hex socket 14 is larger than dimension b on the conventional socket 364 for equivalent size sockets, permitting the passage of a larger bolt shank, etc. when required.
- the present invention permits the creation of a deep socket 370 by use of the hex socket 14 and a properly sized conventional socket 366 having a square drive portion 368.
- the deep socket 370 shown in FIGURE 23 would be operated by a conventional square drive socket wrench.
- FIGURE 24 illustrates the creation of a deep socket 372 using multiple hex sockets 14 of proper dimensions to form deep socket 372.
- deep socket 372 may be operated by the ratchet wrenches disclosed herein including ratchet wrenches 10 and 300 and also by a closed or opened end wrench engaging the hexagonal outer surface 108 of the top socket 14.
- any of the hex sockets 14 can be provided with some structure for securing the sockets together during use.
- the adapter 380 permits a conventional square drive socket wrench to be used to rotate hex sockets 14, 16 and 18 and the hex extension 12.
- the square drive to hex drive adapter 380 includes a square drive portion 382 having a cylindrical outer surface 384 and a square inner surface 386 for receiving the square drive of a conventional socket wrench. Adjacent the square drive portion 382 is a retention cylinder 388.
- the retention cylinder 388 has a circular aperture 390 formed therethrough as best seen in FIGURE 26.
- Two parallel notches 392 are formed along the length of the retention cylinder 388 to define a retention tab 394.
- the retention tab 394 extends beyond the transition from the retention cylinder 388 to the male/female hex drive portion 396.
- the portion 396 has an outer hexagonal surface 100 and an inner hexagonal surface 102 for cooperation with the hex sockets 14, 16 and 18 and the extension 12.
- the retention tab 394 has a double bend 398 near its outer edge so that portions of the tab 394 extend both outward from surface 100 and inward from surface 102 to resiliently engage the hex sockets 14, 16 and 18 and the extension 12 when mounted on the male/female hex drive portion 396 of adapter 380.
- the adapter 400 permits the use of a ratchet wrench having hex drive, including the ratchet wrench 10 described hereinabove to drive conventional square drive sockets such as sockets 364 and 366.
- the adapter 400 includes a hexagonal portion 402 having a hexagonal outer portion 404 which is adapted to engage the inner hexagonal surface 102 of drive portion 36 of the ratchet wrench 10.
- a groove 406 is provided in the hex portion 402 for engagement with any socket locking feature, such as the design described above on ratchet wrench 10 formed by member 130.
- the adapter 400 also includes a square drive portion 408 having a dimension to engage a conventional socket such as 364 and 366 so that a hex drive wrench can be used with conventional square drive sockets.
- the portion 408 can include a convention spring and detent ball 409 to lock a socket to portion 408.
- FIGURES 30-32 illustrates a first modification of the breaker bar wrench 260 illustrated in FIGURE 16. Only the head 268 is shown in FIGURES 30-32, but it will be understood that the head can be pivoted to a handle 262 by a pin 274.
- the head 268 illustrated in FIGURES 30-32 includes an aperture 410 formed through the outer hexagonal surface 278 and inner hexagonal surface 280. Aperture 410 is formed so that a hex socket such as sockets 14, 16 and 18 and extension 12 will cover the majority of aperture 410 when the hex socket is attached to the head 268.
- a reduced thickness portion 412 forms an extension of the aperture 410 which extends to the end of surfaces 278 and 280 over which the hex sockets are slid onto head 268.
- the aperture 410 and reduced portion 412 are adapted to receive a retainer spring 414 as best seen in FIGURE 32.
- the retainer spring can be mounted in the head 268 by spreading the ends 416 over the reduced portion 412 and sliding the spring into the position shown in FIGURE 32.
- the inset portions 418 will retain the spring 414 on the head 268 during normal operation.
- Retainer spring 414 has the advantages of being low cost, a single piece and easily replaceable, unlike conventional resilient type frictional socket locks.
- retainer spring 414 can be used on any of the combined male/female drive portions described herein, including drive portion 36, drive portion 36', drive portion 182, head 268 and drive portion 306 to frictionally secure a hex socket on the drive portion provided that an aperture 410 and reduced thickness portion 412 are formed in the drive portion.
- Retainer spring 414 can be substituted for member 130, member 130' or release 282.
Landscapes
- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Details Of Spanners, Wrenches, And Screw Drivers And Accessories (AREA)
Claims (1)
- Kombination einer Schlüsselanordnung (10, 260) und wenigstens einer Steckfassung (14, 16, 18) zum Drehen einer Schraube, wobei jede der Steckfassungen einen Bereich (110, 106, 114) zur Anbringung an einem Schlüssel und einen Bereich zum Fassen der Schraube aufweist, und wobei die Steckfassungen jeweils eine durchgehende Öffnung haben, damit die Steckfassung die Schraube, wenn ein Gegenstand von der Schraube hervorragt, erfassen kann, indem der Gegenstand in die Öffnung hineinragt, wobei die Schlüsselanordnung (10) aufweist- einen Griffhebel (20, 262) mit einem Kopf (22, 268) an einem Ende davon;- ein Antriebsteil (32) zur Anbringung an dem Kopf, wobei das Antriebsteil einen Antriebsbereich (36, 268) mit einer Innenfläche (102, 280) aufweist, die sich entlang der ersten Richtung erstreckt und einen hexagonalen Querschnitt senkrecht zu der ersten Richtung hat, und zur Aufnahme einer Steckfassung ausgelegt ist, wobei das Antriebsteil und der Antriebsbereich eine darin gebildete Durchgangsöffnung (48, 276) haben, die die Fortsetzung der Öffnung durch die Steckfassung bildet, wenn die Steckfassung an dem Schlüssel eingesetzt ist, wodurch sich der Gegenstand durch das Antriebsteil und den Antriebsbereich erstrecken kann, wenn die Schraube gedreht wird;- ein Auslöseteil (130, 282), das in dem Antriebsteil zur begrenzten Bewegung entlang der ersten Richtung in bezug auf das Antriebsteil angebracht ist und eine Fingerberührungsfläche (144, 282) aufweist;dadurch gekennzeichnet daß- der Antriebsbereich (36, 268) weiterhin eine Außenfläche (100, 278) aufweist, die sich entlang der ersten Richtung (27) in bezug auf das Antriebsteil erstreckt, wobei die Außenfläche des Antriebsbereichs einen nichtkreisförmigen Querschnitt senkrecht zur ersten Richtung aufweist und zur Aufnahme einer Steckfassung ausgelegt ist, und wobei die Außenfläche (100, 278) des Antriebsbereichs einen hexagonalen Querschnitt aufweist;- daß wenigstens zwei nachgiebige Arme (134, 288) von einem ersten Ende des Auslöseteils ausgehen und sich durch einen jeweiligen Einschnitt (138, 286) erstrecken, die in dem Antriebsbereich entlang der ersten Richtung verlaufend gebildet sind, wobei die nachgiebigen Arme eine Steckfassungs-Berührungsfläche (140, 142, 290, 292) aufweisen und nachgiebig gegen eine Steckfassung gedrückt werden, die von einer der Oberflächen des Antriebsbereichs aufgenommen ist, wobei der nachgiebige Arm zum Halten einer Steckfassung an dem Ratschenschlüssel dient, wobei einer der beiden nachgiebigen Arme dazu ausgelegt ist, eine auf der Außenfläche des Antriebsbereichs aufgenommene Steckfassung festzuhalten, und der andere der beiden nachgiebigen Arme dazu ausgelegt ist, eine mit der Innenfläche des Antriebsbereichs aufgenommene Steckfassung festzuhalten, wobei jeder der Einschnitte eine Steuerfläche (150, 152, 294) aufweist, die den nachgiebigen Arm, wenn das Auslöseteil entlang der ersten Richtung in bezug auf den Antriebsbereich durch Druck des Bedieners auf die Fingerberührungsfläche bewegt wird, außer Kontakt mit der Steckfassung an dem Schlüssel führt, um die Steckfassung zu lösen.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
AT84900446T ATE67708T1 (de) | 1983-12-13 | 1983-12-13 | Ratschenschluessel. |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
PCT/US1983/001995 WO1985002574A1 (en) | 1983-12-13 | 1983-12-13 | Improved ratchet wrench |
Publications (3)
Publication Number | Publication Date |
---|---|
EP0165237A1 EP0165237A1 (de) | 1985-12-27 |
EP0165237A4 EP0165237A4 (de) | 1988-05-10 |
EP0165237B1 true EP0165237B1 (de) | 1991-09-25 |
Family
ID=22175636
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP84900446A Expired EP0165237B1 (de) | 1983-12-13 | 1983-12-13 | Ratschenschlüssel |
Country Status (5)
Country | Link |
---|---|
EP (1) | EP0165237B1 (de) |
JP (1) | JPH0735026B2 (de) |
AT (1) | ATE67708T1 (de) |
DE (1) | DE3382421D1 (de) |
WO (1) | WO1985002574A1 (de) |
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2016172007A1 (en) * | 2015-04-24 | 2016-10-27 | Ty-Flot, Inc. | Ratchet wrench with a locking release assembly |
USD810531S1 (en) | 2016-08-29 | 2018-02-20 | Milwaukee Electric Tool Corporation | Socket |
USD814259S1 (en) | 2016-08-17 | 2018-04-03 | Milwaukee Electric Tool Corporation | Socket |
USD815504S1 (en) | 2016-08-17 | 2018-04-17 | Milwaukee Electric Tool Corporation | Socket |
US9956670B2 (en) | 2016-07-26 | 2018-05-01 | Milwaukee Electric Tool Corporation | Ratchet, ratchet accessory, and kit including the same |
Families Citing this family (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
GB2246534B (en) * | 1990-08-02 | 1993-11-10 | Gerald Clarence Cooper | Socket |
GB2353746B (en) * | 1999-09-04 | 2001-08-22 | Jack Lee | Ratchet tool |
GB2378146A (en) * | 2001-07-30 | 2003-02-05 | Sunny Huang | Ratchet wrench with a reversible action |
EP2145736A1 (de) * | 2008-07-18 | 2010-01-20 | BAE Systems PLC | Schraubenschlüsseladapter |
TW201416184A (zh) * | 2012-10-26 | 2014-05-01 | Matatakitoyo Tool Co Ltd | 扭矩工具 |
TWM546288U (zh) | 2016-07-26 | 2017-08-01 | 米沃奇電子工具公司 | 棘輪件、棘輪件配件及其套組 |
Family Cites Families (25)
Publication number | Priority date | Publication date | Assignee | Title |
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US1177764A (en) * | 1915-03-17 | 1916-04-04 | Louis C Smith | Ratchet-wrench. |
US1433163A (en) * | 1920-04-22 | 1922-10-24 | James B Hayes | Speed-wrench handle |
US1413698A (en) * | 1921-03-03 | 1922-04-25 | Billings & Spencer Company | Hand tool |
US1995009A (en) * | 1931-12-05 | 1935-03-19 | Blackhawk Mfg Company | Ratchet mechanism |
US2518139A (en) * | 1946-03-06 | 1950-08-08 | Standard Pressed Steel Co | Magazine tool |
US2549515A (en) * | 1948-04-26 | 1951-04-17 | Orey Millard | Wrench having pivoted handle and removable socket |
US2620051A (en) * | 1948-07-24 | 1952-12-02 | Reuben A Kaplan | Wrench |
US2715955A (en) * | 1950-05-13 | 1955-08-23 | Wright Tool And Forge Company | Reversible ratchet device for wrenches |
US2989881A (en) * | 1959-01-27 | 1961-06-27 | Raymond P Lavietes | Multiple use hand tool having a ratchet handle |
FR1340335A (fr) * | 1962-09-07 | 1963-10-18 | Facom Manufacture Francaise De | Mécanisme d'entraînement reversible, à roue libre et cliquet, et ses applications |
US3222943A (en) * | 1963-06-25 | 1965-12-14 | Pendleton Tool Ind Inc | Ratcheter |
US3290969A (en) * | 1964-03-20 | 1966-12-13 | Pendleton Tool Ind Inc | Reversible ratchet wrench having linear sliding manually actuated pawls |
US3342229A (en) * | 1965-10-21 | 1967-09-19 | James Igor | Ratchet handle screwdriver |
US3372612A (en) * | 1966-04-04 | 1968-03-12 | Kelsey Hayes Co | Pawl type ratchet wrench |
US3621738A (en) * | 1969-06-17 | 1971-11-23 | Oren V Northcutt | Powered ratchet wrench |
US3569903A (en) * | 1969-08-07 | 1971-03-09 | Sealectro Corp | Coaxial connector with axial interlock |
US3677102A (en) * | 1970-06-02 | 1972-07-18 | Usag Spa Gemonio | Free-wheel device for transmitting torques and reversible ratchet dog comprising same |
FR2127252A5 (de) * | 1971-02-24 | 1972-10-13 | Granger Maurice | |
DE2117797C3 (de) * | 1971-04-13 | 1975-03-13 | Lacrex Brevetti S.A., Minusio (Schweiz) | Schraubenzieher |
US3732756A (en) * | 1971-08-13 | 1973-05-15 | Lowell Corp | Ratchet wrench |
US3777596A (en) * | 1972-09-20 | 1973-12-11 | New Britain Machine Co | Resilient quick release for socket wrench |
FR2375005A1 (fr) * | 1976-12-23 | 1978-07-21 | Stephanoises Forges | Mecanisme d'entrainement reversible pour cle a cliquet |
US4170909A (en) * | 1977-09-23 | 1979-10-16 | Wagner Theodore R | Tool holder |
US4328720A (en) * | 1980-03-17 | 1982-05-11 | Shiel Walter P | Socket wrench and set |
US4520697A (en) * | 1982-09-29 | 1985-06-04 | Moetteli John B | Ratchet wrench |
-
1983
- 1983-12-13 WO PCT/US1983/001995 patent/WO1985002574A1/en active IP Right Grant
- 1983-12-13 EP EP84900446A patent/EP0165237B1/de not_active Expired
- 1983-12-13 JP JP59500546A patent/JPH0735026B2/ja not_active Expired - Lifetime
- 1983-12-13 AT AT84900446T patent/ATE67708T1/de not_active IP Right Cessation
- 1983-12-13 DE DE8484900446T patent/DE3382421D1/de not_active Expired - Lifetime
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2016172007A1 (en) * | 2015-04-24 | 2016-10-27 | Ty-Flot, Inc. | Ratchet wrench with a locking release assembly |
US9757847B2 (en) | 2015-04-24 | 2017-09-12 | Ty-Flot, Inc. | Ratchet wrench with a locking release assembly |
US9956670B2 (en) | 2016-07-26 | 2018-05-01 | Milwaukee Electric Tool Corporation | Ratchet, ratchet accessory, and kit including the same |
USD814259S1 (en) | 2016-08-17 | 2018-04-03 | Milwaukee Electric Tool Corporation | Socket |
USD815504S1 (en) | 2016-08-17 | 2018-04-17 | Milwaukee Electric Tool Corporation | Socket |
USD810531S1 (en) | 2016-08-29 | 2018-02-20 | Milwaukee Electric Tool Corporation | Socket |
Also Published As
Publication number | Publication date |
---|---|
EP0165237A1 (de) | 1985-12-27 |
WO1985002574A1 (en) | 1985-06-20 |
DE3382421D1 (de) | 1991-10-31 |
ATE67708T1 (de) | 1991-10-15 |
EP0165237A4 (de) | 1988-05-10 |
JPH0735026B2 (ja) | 1995-04-19 |
JPS61500656A (ja) | 1986-04-10 |
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