The present invention relates to an extension ladder having a fly section whose rails are nested in rails of a rail section. (As used herein, references to the “present invention” or “invention” relate to exemplary embodiments and not necessarily to every embodiment encompassed by the appended claims.) (As used herein, references to the “present invention” or “invention” relate to exemplary embodiments and not necessarily to every embodiment encompassed by the appended claims.) More specifically, the present invention relates to an extension ladder having a fly section whose rails are nested in rails of a base section where the rails of the base section have stems to position and guide the rails of the fly section as they move relative to the rails of the base section.
This section is intended to introduce the reader to various aspects of the art that may be related to various aspects of the present invention. The following discussion is intended to provide information to facilitate a better understanding of the present invention. Accordingly, it should be understood that statements in the following discussion are to be read in this light, and not as admissions of prior art.
Extension ladders provide the convenience of having a base section and a fly section attached to the outside of the base section which moves relative to the base section to extend the effective length of the extension ladder to reach variable heights. The fly section is stacked on the base section, which requires essentially a volume which is the length of the fly section aligned with and on the base section and a width that is the width of the rail of the base section and the width of the rail of the fly section. There may be instances for storage purposes where it is difficult to fit the extension ladder into a place that is out of the way because of its width. Furthermore, when shipping many extension ladders, the number of extension ladders that are placed alongside and on each other is limited by the overall width available to house the ladders together, such as in a cargo area of a truck.
The present invention pertains to an extension ladder. The ladder comprises a base section having a right base rail and a left base rail in parallel and spaced relation with the right base rail. The right base rail having a C-shaped cross-section formed by a right base flange attached to a base web and a left base flange attached to the base web with the base web disposed between the right base flange and the left base flange. The base section having base rungs attached to the right and left base rails and disposed in front of and outside of the right base flange of the right base rail.
The ladder comprises a fly section having a right fly rail and a left fly rail in parallel and spaced relation with the right fly rail. The fly section having fly rungs attached to and extending in between the right and left fly rails. The right base flange and the left base flange disposed about the right fly rail with the right fly rail disposed in between the right and left base flanges. The fly section nested in the base section and configured for at least a portion of the fly section to slide up above the base section and for the fly section to slide back down relative to the base section while remaining engaged with the base section through the right and left base rails disposed about the right and left fly rails, respectively. The right fly rail formed by a right fly flange attached to a fly web and a left fly flange attached to the fly web with the fly web disposed between the right fly flange and the left fly flange. The right fly rail having a top and a bottom. The top is part of the portion that is configured to slide up above the base section. The ladder comprises a cap attached to the top. The cap having a surface which extends between the right fly flange and the fly web and the left fly flange. The ladder comprises a locking mechanism to fix and lock the fly section to the base section at a desired position relative to the base section.
The present invention pertains to a method of positioning an extension ladder. The method comprises the steps of moving the extension ladder to a desired location. There is the step of sliding a fly section of the extension ladder relative to a base section of the extension ladder to a desired length. There is the step of leaning the extension ladder against an object. The base section having a right base rail and a left base rail in parallel and spaced relation with the right base rail. The right base rail having a C-shaped cross-section formed by a right base flange attached to a base web and a left base flange attached to the base web with the base web disposed between the right base flange and the left base flange. The base section having base rungs attached to the right and left base rails and disposed in front of and outside of the right base flange of the right base rail. The fly section having a right fly rail and a left fly rail in parallel and spaced relation with the right fly rail. The fly section having fly rungs attached to and extending in between the right and left fly rails. The right base flange and the left base flange disposed about the right fly rail with the right fly rail disposed in between the right and left base flanges. The fly section nested in the base section and configured for at least a portion of the fly section to slide up above the base section and for the fly section to slide back down relative to the base section while remaining engaged with the base section through the right and left base rails disposed about the right and left fly rails, respectively. The right fly rail formed by a right fly flange attached to a fly web and a left fly flange attached to the fly web with the fly web disposed between the right fly flange and the left fly flange. The right fly rail having a top and a bottom. The top is part of the portion that is configured to slide up above the base section. The ladder comprises a cap attached to the top. The cap having a surface which extends between the right fly flange and the fly web and the left fly flange. The ladder comprises a locking mechanism to fix and lock the fly section to the base section at a desired position relative to the base section.
In the accompanying drawings, the preferred embodiment of the invention and preferred methods of practicing the invention are illustrated in which:
Referring now to the drawings wherein like reference numerals refer to similar or identical parts throughout the several views, and more specifically to
The ladder 10 comprises a fly section 26 having a right fly rail 28 and a left fly rail 30 in parallel and spaced relation with the right fly rail 28. The fly section 26 having fly rungs 32 attached to and extending in between the right and left fly rails 28, 30. The right base flange 18 and the left base flange 22 disposed about the right fly rail 28 with the right fly rail 28 disposed in between the right and left base flanges 18, 22. The fly section 26 nested in the base section 12 and configured for at least a portion of the fly section 26 to slide up above the base section 12 and for the fly section 26 to slide back down relative to the base section 12 while remaining engaged with the base section 12 through the right and left base rails 14, 16 disposed about the right and left fly rails 28, 30, respectively. The right fly rail 28 formed by a right fly flange 34 attached to a fly web 36 and a left fly flange 38 attached to the fly web 36 with the fly web 36 disposed between the right fly flange 34 and the left fly flange 38, as shown in
The fly section 26 may be nested in at least two ways. In one way, the fly web 36 is adjacent and alongside the base web 20 when the right fly flange 34 and left fly flange 38 extend outward from the fly web 36 away from the center line 50 of the extension ladder 10, as shown in
The ladder 10 comprises a cap 44, as shown in
The right base rail 14 may have a right stem 52 extending inwards from the right base flange 18 toward the left base flange 22, and has a left stem 54 extending inwards from the left base flange 22 toward the right base flange 18, as shown in
A first base rung 58 of the base rungs 24 may have a first flattened end 60 that conforms with and fits against and contacts and is in parallel with the right base flange 18 of the right base rail 14, as shown in
The fly rungs 32 may be swaged to the fly webs 36 of the first and second fly rails and form a swage joint 69, as shown in
The cap 44 may have an attachment portion 76 that is disposed between and extends along the fly web 36 and the right fly flange 34 and the left fly flange 38, and a ceiling portion 78 attached to and extending from and above the attachment portion 76, as shown in
The locking mechanism 48 may be a J-lock 84 that extends from a side of a J-lock rung 25 of the base section 12 and back through a lock hole 71 in the right base rail 14 and into a rung 32 of the fly section 26 through an end of the rung, which is hollow, to lock the fly section 26 and the base section 12 together, as shown in
The right fly rail 28 may have a wall 90 attached to the right fly flange 34 and the left fly flange 38 and extending between the right fly flange 34 and the left fly flange 38 and in parallel and spaced relation to the fly web 36, as shown in
The present invention pertains to a method of positioning an extension ladder 10. The method comprises the steps of moving the extension ladder 10 to a desired location. There is the step of sliding a fly section 26 of the extension ladder 10 relative to a base section 12 of the extension ladder 10 to a desired length. There is the step of leaning the extension ladder 10 against an object. The base section 12 having a right base rail 14 and a left base rail 16 in parallel and spaced relation with the right base rail 14. The right base rail 14 having a C-shaped cross-section formed by a right base flange 18 attached to a base web 20 and a left base flange 22 attached to the base web 20 with the base web 20 disposed between the right base flange 18 and the left base flange 22. The base section 12 having base rungs 24 attached to the right and left base rails 14, 16 and disposed in front of and outside of the right base flange 18 of the right base rail 14. The fly section 26 having a right fly rail 28 and a left fly rail 30 in parallel and spaced relation with the right fly rail 28. The fly section 26 having fly rungs 32 attached to and extending in between the right and left fly rails 28, 30. The right base flange 18 and the left base flange 22 disposed about the right fly rail 28 with the right fly rail 28 disposed in between the right and left base flanges 18, 22. The fly section 26 nested in the base section 12 and configured for at least a portion of the fly section 26 to slide up above the base section 12 and for the fly section 26 to slide back down relative to the base section 12 while remaining engaged with the base section 12 through the right and left base rails 14, 16 disposed about the right and left fly rails 28, 30, respectively. The right fly rail 28 formed by a right fly flange 34 attached to a fly web 36 and a left fly flange 38 attached to the fly web 36 with the fly web 36 disposed between the right fly flange 34 and the left fly flange 38. The right fly rail 28 having a top 40 and a bottom 42. The top 40 is part of the portion that is configured to slide up above the base section 12. The ladder 10 comprises a cap 44 attached to the top 40 with no object attached above the cap 44. The cap 44 having a surface 46 which extends between the right fly flange 34 and the fly web 36 and the left fly flange 38. The ladder 10 comprises a locking mechanism 48 to fix and lock the fly section 26 to the base section 12 at a desired position relative to the base section 12.
By the extension ladder 10 with the fly section 26 rails nested inside the base section 12 C-channel rails, the front to rear dimension of the ladder 10 is reduced. The fly section 26 has a standard rung design which gives a wide, comfortable standing surface 46 when climbing at height. The base section 12 has rungs with flattened ends which are riveted to the outside of the front flange of the rail. This construction allows the fly to move freely within the base section 12 as the fly is extended or retracted. The fly and base sections 12 can be held in position relative to each other by the use of J-locks 84, the use of conventional extension ladder rung locks, or other latching mechanisms.
Conventional extension ladders have the rail sections stacked on top of each other. The height of the extension ladders stacked on top of each other is defined as a stack height. The smaller stack height 92 of extension ladders 10 stacked on top of each other, as shown in
Although the invention has been described in detail in the foregoing embodiments for the purpose of illustration, it is to be understood that such detail is solely for that purpose and that variations can be made therein by those skilled in the art without departing from the spirit and scope of the invention except as it may be described by the following claims.