The present invention relates to a drawer release for opening a drawer.
Conventional drawers on cargo and utility trucks are mounted to drawer-slides that allow the drawers to slide in and out. The drawer-slides typically having a bearing arrangement to allow the drawer to slide easily in and out. The drawer-slides are mounted to the drawer and a support structure or housing, such as a cabinet.
Some of the drawer-slides include locking mechanisms on one or both sides of the drawer. These locking mechanisms may lock the drawer in an open or closed position or both the open and closed positions. Such locking mechanisms are especially useful when the truck is parked on an incline to prevent the accidental opening of the drawer.
In order to unlock the drawer, the operator must manually actuate the locking mechanism on both sides of the drawer, which is difficult or impossible to do with a single hand. As such, in order to use both hands to unlock the drawer, the operator may have to inconveniently set down their cargo or item intended for the storage area within the drawer before the drawer can be conveniently opened.
A drawer release is herein described. The drawer release is affixed, attached, or otherwise integral with a drawer of a cabinet or a housing. The drawer release may be positioned on the front face or front portion of the drawer. The drawer release provides for the one-handed unlocking and opening of the drawer. The drawer release unlocks or unlatches a locking mechanism or a latch of a drawer-slide that is holding the drawer in a slideable engagement with respect to the cabinet or the housing.
The drawer release includes a handle or a handle extrusion that extends generally the entire width of the drawer. The drawer release unlocks one or both latches or locks on one or both drawer-slides that provide for the sliding engagement of the drawer to the cabinet or the housing. The drawer release allows an operator to pull on the handle or the handle extrusion at any point along the handle or the handle extrusion to unlock the drawer. The drawer release provides for the rotating motion from pulling the handle or the handle extrusion to be translated to a generally downward movement on pins or lever-engaging members that unlocks or releases the drawer to be opened.
The drawer release may be used with conventional lockin-lockout drawer-slides that include one or more locks or latches on one or both sides of the drawer. These lockin-lockout drawer-slides use a lever or trigger on both sides of the drawer that unlocks the drawer-slide to allow the drawer-slide to slide to an open position. The drawer release may also be used with drawer-slides having a lock or latch on only one side of the drawer. The drawer release may also be used with drawer-slides that do not lock in or lock out.
The drawer release actuates the levers on both sides of the drawer. Importantly, the drawer release allows an operator to open big and heavy drawers with one hand. As such, a one-handed pulling motion by an operator on any portion of the handle may depress the levers positioned on opposite sides of the drawer. This allows the operator to hold something in one hand and open the drawer with their opposite hand.
The drawer release may be used on a variety of different drawers, ranging in depth from approximately two inches to approximately ten inches and ranging in width from approximately 6 inches to several feet or more. The drawer release may be used on a single drawer or on each drawer in a stack of drawers, such as in a cabinet.
The handle portion or the handle extrusion is hingedly or pivotally engaged to the fixed portion or the fixed extrusion. The fixed extrusion and the handle extrusion may be manufactured by extruding molten aluminum through a die or other pattern. The handle portion and the fixed portion may also be formed by roll forming or stamping. The fixed extrusion and the handle extrusion may also be manufactured by extruding plastics.
Large lengths of the fixed extrusion and the handle extrusion may be formed and then cut to a length of the drawer. For example, an 8 foot length of the fixed extrusion or the handle extrusion may be formed and then cut into 12 inch, 15 inch, 24 inch or other common sizes to fit stock drawers. The specific length of the fixed extrusion and the handle extrusion may also be cut to custom sizes.
Opposite sides of the handle portion or extrusion include spring-actuated pins or engaging members that are moved by the handle portion or the handle extrusion. As the handle portion or handle extrusion is pulled, the pins or engaging members contact the levers or triggers of the drawer-slides. The pins or engaging members may be used to press on, actuate, or to depress levers, triggers, or actuators of the drawer-slides.
In further aspects, the pins may engage a striker that is fixed to the frame or the jamb of the cabinet. The engagement of the pin to the striker allows for the drawer to be closed securely. The drawer may also be slammed or pushed shut, which engages the pin to the striker for a locking closure.
In further aspects, a drawer release is provided. The drawer release includes a handle portion pivotally engaged to a fixed portion, and the fixed portion is attached to or connected to a drawer. The handle portion and the fixed portion extend an entire or substantially the entire width of the drawer. The handle portion includes at least one engaging member that engages a lever or actuator of a drawer-slide of the drawer to open or release the drawer.
In further aspects, a drawer release is provided. The drawer release includes a handle extrusion and a fixed extrusion that is connected or attached to a drawer. The handle extrusion pivots relative to the fixed extrusion. The handle extrusion includes one or more pins to engage at least one striker mounted to or integral with sides or a frame of a cabinet holding the drawer. The engagement of the pin to the striker maintains the drawer in a closed position relative to the cabinet or the frame.
In further aspects, a drawer release is provided. The drawer release includes a handle extrusion comprising a curved channel. The drawer release includes a fixed extrusion comprising a curved portion. The curved channel of the handle extrusion pivots about the curved portion of the fixed extrusion. The handle extrusion includes a first pin and a second pin. The first pin engages a first lever of a first drawer-slide, and the second pin engages a second lever of a second drawer-slide.
In further aspects, a method of opening a drawer is provided. The method includes providing a drawer release having a handle portion pivotally engaged to a fixed portion. The handle portion includes at least one lever engaging member that engages a lever of a drawer-slide. The method further includes pulling on the handle portion to pivot the handle portion relative to the fixed portion. The method includes causing the at least one lever engaging member to engage the lever of the drawer-slide. The method includes releasing a latch or a lock on the drawer-slide to unlatch or unlock the drawer-slide.
In further aspects, a method of opening a drawer is provided. The method includes providing a drawer release having a handle portion pivotally engaged to a fixed portion, and the drawer release is attached or integral with a drawer. The handle portion includes at least one striker engaging member that engages a striker affixed or integral to a cabinet or a frame comprising the drawer. The method includes pulling on the handle portion to pivot the handle portion relative to the fixed portion. The method includes causing the at least one striker engaging member to disengage from the at least one striker. The method includes opening the drawer.
In further aspects, a method of manufacturing a drawer is provided. The method includes providing a drawer with a drawer-slide. The method includes providing a drawer release, the drawer having a handle portion pivotally engaged to a fixed portion, and the handle having at least one lever engaging member that engages a lever of the drawer-slide. The method includes attaching the drawer release to a front wall of a drawer. The method includes positioning the lever engaging member to engage the lever of the drawer-slide.
The drawer release includes a handle or a handle extrusion that may be used with push-pull drawer-slides. Push-pull drawer-slides may lock in both the open and in the closed positions. Push-pull drawer-slides typically require the operator to pull an end of the drawer-slide outward in order to unlock or unlatch the drawer-slide, and then the drawer may be fully opened. Further, the push-pull drawer-slides typically require the operator to push the end of the drawer-slide inward in order to unlock or unlatch the drawer-slide, and then the drawer may be pushed closed.
The drawer release unlocks one or both latches or locks on one or both push-pull drawer-slides that provide for the sliding engagement of the drawer to the cabinet or the housing. The drawer release allows an operator to pull or push on the handle or the handle extrusion at any point along the handle or the handle extrusion to unlock the drawer. The drawer release provides for the rotating motion from pulling the handle or the handle extrusion to be translated to a generally horizontal, lateral, or arcuate movement that pushes or pulls on the ends of the push-pull drawer-slides that unlocks or releases the drawer to be opened or closed.
The handle or handle extrusion generally extends the entire width of the drawer. The handle or handle extrusion includes a pin or other engaging member that contacts the ends of the drawer-slide in order to translate the pushing or pulling movement on the handle or handle extrusion to the ends of the drawer-slide. The end of the drawer-slide may be fitted or configured with a drawer-slide end cap, which receives or holds the pin or other engaging member of the handle or the handle extrusion. The drawer release may actuate the ends on both push-pull drawer-slides of the drawer. Importantly, the drawer release allows an operator to open big and heavy drawers with one hand. As such, a one-handed pulling or pushing motion by an operator on any portion of the handle or the handle extrusion may push or pull the ends of the drawer-slides positioned on opposite sides of the drawer. This allows the operator to hold something in one hand and open or close the drawer with their opposite hand.
In further aspects, a method of opening a drawer is provided. The method includes providing a drawer release having a handle portion pivotally engaged to a fixed portion. The handle portion includes an engaging member or pin that engages or contacts ends of a drawer-slide to push or pull the ends of the drawer-slide. The method further includes pulling or pushing on the handle portion to pivot the handle portion relative to the fixed portion. The method includes causing the engaging member or pin to push or pull on the ends of the drawer-slide. The method includes releasing a latch or a lock of the drawer-slide to unlatch or unlock the drawer-slide.
In further aspects, a method of manufacturing a drawer is provided. The method includes providing a drawer with a push-pull drawer-slide. The method includes providing a drawer release, the drawer release having a handle portion pivotally engaged to a fixed portion. The handle portion includes an engaging member or pin that engages or contacts an end of the drawer-slide to push or pull the end of the drawer-slide. The method includes attaching the drawer release to a front wall of a drawer. The method includes positioning the engaging member or pin to engage the end of the drawer-slide.
In further aspects, a method of manufacturing a drawer is provided. The method includes providing a drawer with a push-pull drawer-slide. The method includes providing a drawer release, the drawer release having a handle portion pivotally engaged to a fixed portion. The handle portion includes an engaging member or pin that engages or contacts an end of the drawer-slide to push or pull the end of the drawer-slide. The method includes attaching the drawer release to a front wall of a drawer. The method includes fitting or a connecting a drawer-slide end cap to the push-pull drawer-slide. The method includes positioning the engaging member or pin to the drawer-slide end cap.
A drawer release is described. The drawer release includes a handle portion or a handle extrusion pivotally engaged to a fixed portion or a fixed extrusion. The fixed portion or the fixed extrusion is attached, connected to, or integral with a drawer. The handle portion or the handle extrusion includes at least one engaging member that engages a lever, actuator, or trigger of a drawer-slide of the drawer to open or release the drawer. The drawer release provides for the one-handed opening of the drawer. The drawer release provides for the one-handed opening of the drawer by unlocking drawer-slides on opposite sides of the drawer.
The drawer release is used with drawers that are engaged to the drawer-slides. The drawer release unlocks or unlatches the drawer-slides such that a drawer may be opened, closed, or otherwise moved via the drawer-slides. The drawer release is positioned on a front surface of the drawer. The drawer release extends most of or all of the width of the drawer. The drawer release actuates the drawer-slides to unlock or unlatch the drawer-slides.
The drawer release will now be described with reference to the FIGS.
With continued reference to
A bottom portion of the rear wall 110 may include an alignment lip 112 that is used to assist in alignment of the fixed extrusion 100 to the drawer 500. The alignment lip 112 may also be positioned at top portion of the rear wall 110. The alignment lip 112 helps to square the fixed extrusion 100 to the drawer 500.
With reference to
The handle extrusion 200 includes an axis 250 that provides an axis of rotation for the handle extrusion 200. An axis surface 255 of the axis 250 rotates against the inner curved surface 150 of the fixed extrusion 100.
The curved channel 210 terminates in an end wall 240. The handle extrusion 200 rotates until the end wall 240 contacts the end 170 of the fixed extrusion 100. Further, an outer wall 257 of the handle extrusion 200 contacts an inner surface 135 of the fixed extrusion 100 when the handle extrusion 200 is in the fully closed position.
The handle extrusion 200 includes a gripping surface 260 that is positioned on or in the handle extrusion 200. The gripping surface 260 may extend an entire width of the handle extrusion 200 between a left portion 284 of the handle extrusion 200 and a right portion 282 of the handle extrusion 200. In other aspects, the grip 260 may just be located at the middle portion 280 of the handle extrusion 200.
The handle extrusion 200 includes or defines a first opening 274 and a second opening 278. The first opening 274 and the second opening 278 receive or include a first pin 310 and a second pin 315, respectively. The first opening 274 and the second opening 278 are positioned on opposite sides of the handle extrusion 200 to position the first pin 310 and the second pin 315 adjacent to the locking mechanisms of the drawer-slides. With reference to
A left end cap 400 is fixedly engaged to a left portion 111 of the fixed extrusion 100, while a right end cap 405 is fixedly engaged to a right portion 112 of the fixed extrusion 100. The left end cap 400 and the right end cap 405 include a spring biasing member to bias the handle extrusion 200 in a closed position. The end caps 400, 405 may be made from metal or plastic.
With reference to
The left end cap 400 and the right end cap 405 have substantially the same construction, except with an opposite orientation to each other. The left end cap 400 and the right end cap 405 includes spring retainer 420 and 425, respectively.
The spring retainers 420, 425 form a housing to hold the biasing members. The spring retainers 420, 425 include base surfaces 430, 435 and several sidewalls 440, 445. The base surfaces 430, 435 receive a second end 324 of the spring 320. The spring 320 thus biases against the base surfaces 430, 435 of the spring retainers 420, 425. The sidewalls 440 and 445 maintain a substantially vertical orientation to the movement of the spring 320 and the spring guides 410, 415.
The left end cap 400 and the right end cap 405 further define or include pin guides 450, 455, which provide an opening in the left end cap 400 and the right end cap 405. The first pin 310 and the second pin 315 extend through the pin guides 450, 455 to depress the levers 540, 545.
The left end cap 400 and the right end cap 405 define or include insert portions 422, 421 that fixedly engage to the left portion 111 of the fixed extrusion 100 and the right portion 112 of the fixed extrusion 100, respectively.
As the handle extrusion 200 is pulled by the operator, the axis 250 rotates within the curved portion 140. The curved channel inner surface 220 and curved channel outer surface 230 of the handle extrusion 200 slide against the inner curved surface 150 and the outer curved surface 160 of the curved portion 140 of the fixed extrusion 100. In this embodiment, the curved portion 140 has a hook-shape or j-shape.
The handle extrusion 200 may continue to be pulled outward and/or upward until the end wall 240 of the handle extrusion 200 contacts the end 170 of the fixed extrusion 100. When the handle extrusion 200 is pulled outward, the pins 310, 315 are moving generally downward and overcoming the bias of the spring 320. The pins 310, 315 are positioned on an opposite side of the axis 250 as the gripping surface 260 of the handle extrusion 200. The axis 250 acts as a fulcrum point separating the pins 310, 315 from the gripping surface 260.
As the pins 310 and 315 move downward, they contact the lever surfaces 550 and 555 of the levers 540 and 545. The contact between the first pin 310 and the second pin 315 presses on the lever 540 and 545 to release or unlock a left drawer latch 560 and a right drawer latch 570 to allow the drawer-slides 530 and 535 to be unlocked and opened. As such, pulling the handle extrusion 200 simultaneously unlocks both of the drawer-slides 530 and 535.
With reference to
A locking assembly for the drawer release 10 will now be shown with reference to
A variety of spring biasing members may be used with the drawer release 10. For example, in
In
A further aspect is shown in
As the drawer 500 is closing, the pins 310 and 315 hit on a sloping contact surface 720 of the strikers 710. As the drawer 500 continues closing, the pins 310 and 315 ride on the sloping contact surface 720, and the slope forces the downward movement of the pins 310 and 315. As the pins 310 and 315 reach and pass an end 712 of the striker 710, the bias of the spring 320 rotates the pin 310 and 315 upward into a retaining area 730 of the striker 710. The drawer 500 is now locked shut. The retaining area 730 may include a hook, slot, recess, opening, groove, etc. in the striker 710 that holds the pins 310 and 315.
When the drawer 500 is opened, the handle extrusion 200 is pulled outward to cause the pins 310 and 315 to rotate downward out of the retaining area 730. As such, the striker 710 provides a drawer 500 that may be slammed shut and securely closed without having to manually actuate a locking assembly other than pressing the drawer 500 closed. The drawer 500 further remains closed until the handle extrusion 200 is pulled to release the pins 310 and 315 from the retaining area 730 of the striker 710.
In other aspects, the drawer release may also be used with push-pull drawer-slides. The drawer release includes a handle or a handle extrusion and a fixed portion or a fixed extrusion that may be used with the push-pull drawer-slides.
Push-pull drawer-slides may lock in the open and in the closed positions. Push-pull drawer-slides typically require the operator to pull an end of the drawer-slide outward in order to unlock or unlatch the drawer-slide, and then the drawer may be fully opened. The end of the drawer-slide is pulled generally parallel to a length of the drawer-slide in order to unlock or unlatch the drawer-slide such that the drawer may then slide open. Further, the push-pull drawer-slides typically require the operator to push the end of the drawer-slide inward in order to unlock or unlatch the drawer-slide such that the drawer may then slide to a closed position. The end of the drawer-slide is pushed generally parallel to a length of the drawer-slide in order to unlock or unlatch the drawer-slide during the closing movement.
The drawer release unlocks one or both latches or locks on one or both push-pull drawer-slides that provide for the sliding engagement of the drawer to the cabinet or the housing. The drawer release allows an operator to pull or push on the handle or the handle extrusion at any point along the handle or the handle extrusion to unlock the drawer. The drawer release provides for the rotating motion from pulling or pushing the handle or the handle extrusion to be translated to a generally horizontal, lateral, or arcuate movement on the ends of the push-pull drawer-slides that unlocks or releases the drawer to be opened or closed.
The drawer release for the push-pull drawer-slide includes the handle portion or the handle extrusion pivotally engaged to the fixed portion or the fixed extrusion. The fixed portion or extrusion is attached, connected, or integral with a front face of the drawer. The handle portion or extrusion includes an engaging member or pin. The drawer release may further include a drawer-slide end cap that is fitted or connected to the end of the push-pull drawer-slide. The drawer-slide end cap receives the engaging member or pin.
The drawer release allows an operator to pull or push on the handle or the handle extrusion at any point along the handle or the handle extrusion to unlock the drawer-slides. The drawer release provides for the rotating motion from pulling or pushing the handle or the handle extrusion to be translated to a generally horizontal, lateral or arcuate movement that moves the ends of the push-pull drawer-slides to unlock or release the drawer-slides in order to open or close the drawer.
The drawer release for use with push-pull drawer-slides will now be described with reference to the FIGS.
With reference to
With continued reference to
The handle extrusion 900 includes a central portion 905. The central portion 905 integrally transitions or attaches to the curved channel 910. Opposite of the curved channel 910, the central portion 905 integrally transitions or attaches to a gripping surface 960 and to a detent 940. The central portion 905 also includes a receiving portion 909 to receive an end of the pin 990 or other engaging member. The receiving portion 909 holds the pin 990 or other engaging member to the handle extrusion 900. The central portion 905 may include two receiving portions 909 on opposite sides of the handle extrusion 900 to position the pins 990 relative to an end 880 of a left drawer-slide 885 and to an end 880 of a right drawer-slide 885.
With reference to
With reference to
A left end cap 980 is fixedly engaged to the left portion 984 of the handle extrusion 900, while a right end cap 985 is fixedly engaged to a right portion 982 of the handle extrusion 900. The left end cap 980 and the right end cap 985 include openings 981 and 986 that allow the pins 990 to pass through the respective end cap 980 and 985. The left end cap 980 and the right end cap 985 have substantially the same construction, except with an opposite orientation to each other. The end caps 980, 985 may be made from metal or plastic and improve the cosmetic appearance of the handle extrusion 900. Caps 899 cover the hinging engagement of the fixed extrusion 810 to the handle extrusion 900.
The left end cap 980 and the right end cap 985 define or include insert portions 987, 998 that fixedly engage to the left portion 984 of the handle extrusion 900 and to the right portion 982 of the of the handle extrusion 900, respectively.
With reference to
As the handle extrusion 900 is pulled or pushed by the operator, the curved channel 910 rotates or pivots about the axis 840. The curved channel inner surface 920 of the curved channel 910 is in a rotating contact with the outer curved surface 842 of the axis 840. In other aspects, the pivoting or rotating connection between the handle extrusion 900 and the fixed extrusion 800 may be reversed or include other conventional or standard hinging or pivoting connections.
When the handle extrusion 900 is pulled outward and/or upward, the pins 990 pull on the ends 880 of the drawer-slide 885 to unlock or unlatch the drawer-slide 885. When the handle extrusion 900 is pushed inward, the pins 990 push on the ends 880 of the drawer-slide 885 to unlock or unlatch the drawer-slide 885. When the handle extrusion 900 is pulled or pushed, the pins 990 are moving generally horizontally or laterally. The pins 990 may move in shallow arc or curve that pushes or pulls the ends 880 of the drawer-slide 885.
The pins 990 are positioned in an opening or recess 890 of a drawer-slide end cap 895 that is fitted or connected to the end of the push-pull drawer-slide 885. When the handle extrusion 900 is pulled, the pins 990 are pulled against a first surface 891 of the drawer-slide end cap 895 to release or unlock a lock or latch of the drawer-slide 885 to allow the drawer 501 slide to open. When the handle extrusion 900 is pushed, the pins 990 are pushed against a second surface 892 of the drawer-slide end cap 895 to release or unlock a lock or latch of the drawer-slide 885 to allow the drawer-slide 885 to close. Pulling or pushing on the handle extrusion 900 simultaneously unlocks both of the drawer-slides 885 positioned on opposite sides of the drawer 501. In other aspects, the drawer-slide end cap 895 may include or define any of a variety of openings of different shapes or other configurations and attachments that engage to the pins 990 to provide for the pushing and pulling on the ends 880 of the drawer-slides 885.
The pins 990 may include other engaging members that push or pull on the ends of the drawer-slide 885 or on the drawer-slide end cap 895. Such engaging members includes rods, connections, ties, etc. that operate to connect the handle extrusion 800 with the ends 880 of the drawer-slide 885 or the drawer-slide end cap 895.
The left drawer-slide 885 may include one or more left drawer latches 887 while the right drawer-slide 885, may include one or more right drawer latches 887.
The handle extrusion 900 rotates on the axis 840 in a pulling direction until the detent 940 of the handle extrusion 900 contacts the first lower ridge 872 of the fixed extrusion 810. The handle extrusion 900 rotates on the axis 940 in a pushing direction until the detent 940 contacts the second lower ridge 870 of the fixed extrusion 810. The amount of rotation provided to the handle extrusion 800 is sufficient to disengage the left drawer latch 887 and the right drawer latch 887. The first lower ridge 870 and the second lower ridge 872 assist in reducing the over-rotation of the handle extrusion 900 and transition the pulling or pushing onto the handle extrusion 900 into a motion or force that pulls the drawer 501 open or pushes the drawer 501 closed.
The drawer release 800 may be used with a variety of commercially available push-pull drawer-slides. For example, the drawer release 800 may be used with drawer-slides commercially available from Knapp & Vogt, such as drawer-slide model 8908.
An optional locking assembly 902 may also lock the handle extrusion 900 to the fixed extrusion 810. The locking assembly 902 may attach or affix to the handle extrusion 900. The locking assembly 902 includes a rotatable tab 908 to engage a lock opening 808 of the fixed extrusion 810. The lock opening 808 may be made from a separate piece of material attached or affixed to the fixed extrusion 810.
It should be understood from the foregoing that, while particular embodiments of the invention have been illustrated and described, various modifications can be made thereto without departing from the spirit and scope of the present invention. Therefore, it is not intended that the invention be limited by the specification; instead, the scope of the present invention is intended to be limited only by the appended claims.
This application is a continuation of U.S. Nonprovisional patent application Ser. No. 16/665,978, filed Oct. 28, 2019, which is a continuation of U.S. Nonprovisional patent application Ser. No. 16/000,661, filed Jun. 5, 2018, which issued on Oct. 29, 2019 as U.S. Pat. No. 10,455,937, which is a continuation of U.S. Nonprovisional patent application Ser. No. 13/052,631, filed Mar. 21, 2011, which issued on Jun. 26, 2018 as U.S. Pat. No. 10,004,331, which claims the benefit of U.S. Provisional Patent Application No. 61/315,689, filed Mar. 19, 2010, all of which are hereby incorporated by reference.
Number | Name | Date | Kind |
---|---|---|---|
1845335 | Rosendahl | Feb 1932 | A |
1963954 | Clark | Jun 1934 | A |
2528910 | Poe | Nov 1950 | A |
3389854 | Coopersmith | Jun 1968 | A |
3782800 | Remington et al. | Jan 1974 | A |
3953094 | Brown, Jr. | Apr 1976 | A |
4003614 | Geer et al. | Jan 1977 | A |
4040695 | Brann | Aug 1977 | A |
4947661 | Koshida | Aug 1990 | A |
5292191 | Slivon | Mar 1994 | A |
6375235 | Mehmen | Apr 2002 | B1 |
6431615 | Bastian | Aug 2002 | B1 |
6527353 | Bradfish et al. | Mar 2003 | B1 |
6547289 | Greenheck et al. | Apr 2003 | B1 |
6851286 | Dube et al. | Feb 2005 | B2 |
6932694 | Jeffries | Aug 2005 | B2 |
7048347 | Liu | May 2006 | B1 |
D535551 | Milligan | Jan 2007 | S |
7552950 | Scheffy et al. | Jun 2009 | B2 |
8491068 | Weng et al. | Jul 2013 | B2 |
9010830 | Hanley | Apr 2015 | B2 |
10004331 | Jeffries et al. | Jun 2018 | B2 |
10455937 | Jeffries et al. | Oct 2019 | B2 |
11013327 | Jeffries et al. | May 2021 | B2 |
20040020248 | Dube et al. | Feb 2004 | A1 |
20040056572 | Chen et al. | Mar 2004 | A1 |
20050150082 | Shih | Jul 2005 | A1 |
20050218760 | Cheng | Oct 2005 | A1 |
20060103278 | Bousquet | May 2006 | A1 |
20070257588 | Chen et al. | Nov 2007 | A1 |
20080150407 | Mehmen | Jun 2008 | A1 |
20090102333 | Weng | Apr 2009 | A1 |
20090195134 | Liu et al. | Aug 2009 | A1 |
20090205357 | Lim et al. | Aug 2009 | A1 |
20090301146 | Jeffries | Dec 2009 | A1 |
20100019636 | Chen et al. | Jan 2010 | A1 |
20100101267 | Jung et al. | Apr 2010 | A1 |
20110121701 | Chang | May 2011 | A1 |
20110309730 | Retchloff et al. | Dec 2011 | A1 |
Number | Date | Country |
---|---|---|
2486932 | May 2006 | CA |
2698161 | May 2005 | CN |
100575005 | Aug 2008 | CN |
3326400 | Jan 1985 | DE |
4307911 | Sep 1994 | DE |
20-2004-006356 | Oct 2004 | DE |
20-2006-015529 | Dec 2006 | DE |
1024240 | Aug 2000 | EP |
1188190 | Apr 1970 | GB |
2 432 299 | Oct 2007 | GB |
H074128 | Jan 1995 | JP |
3610435 | Jan 2005 | JP |
2005-146656 | Jun 2005 | JP |
2006-180985 | Jul 2006 | JP |
2008-119403 | May 2008 | JP |
2004044356 | May 2004 | WO |
2009050981 | Apr 2009 | WO |
Entry |
---|
Accuride “Model 9308 brochure” Sep. 2003 (2 pages). |
Accuride “Model 9308 Product Bulletin” Oct. 2003 (2 pages). |
Accuride “Model 9308 specification” 2003 (1 page). |
Number | Date | Country | |
---|---|---|---|
20210244185 A1 | Aug 2021 | US |
Number | Date | Country | |
---|---|---|---|
61315689 | Mar 2010 | US |
Number | Date | Country | |
---|---|---|---|
Parent | 16665978 | Oct 2019 | US |
Child | 17246070 | US | |
Parent | 16000661 | Jun 2018 | US |
Child | 16665978 | US | |
Parent | 13052631 | Mar 2011 | US |
Child | 16000661 | US |