The invention relates to a modular ladder apparatus, and more particularly, to a modular ladder apparatus providing built-in access to commonly used utilities, such as compressed air, water, paint, and electricity.
Workers use ladders to gain access to otherwise unreachable areas to perform work. Many times, it is necessary for a worker to make use of tools to effectively perform his or her job. These tools frequently require utilities, such as compressed air, water, paint, or electricity in order to function.
Additionally, a worker must generally carry multiple sizes of ladder and scaffolding to be prepared to work at different heights. This takes up space, which can be especially troublesome in a mobile environment where the equipment must be driven from job to job.
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This approach can make assembly of the modular sections 100 awkward and even dangerous, and does not prevent the conduit 202 from falling and becoming lodged within a hollow section 300. It also prevents the efficient use of space, since this prior art hollow ladder side rail cannot be used for storage of the conduit during transportation, and thus the conduit must be separately stored. This approach also requires the user to spend extra time installing the conduit 202 in the ladder each time the ladder is assembled, and then removing the conduit 202 each time the ladder is disassembled.
What is needed, therefore, is a modular ladder which can provide access to commonly used utilities, without complicating ladder assembly and without requiring additional conduit storage space.
The present invention is a modular ladder composed of individual sections, each of which includes at least one built-in conduit segment for conveying a utility to a user of the ladder at working height. The conduit segments terminate in connectors that engage with each other as the ladder is assembled so as to form a complete utility conduit, and disengage from each other when the ladder is disassembled. The conduit segments remain fixed within the ladder sections during transportation, assembly, and use.
In embodiments, the utility conduit provides compressed air, water, paint, electricity, and/or other utilities. In certain embodiments where an electrical conduit is provided, a Ground Fault Circuit Interrupter, or GFCI, is included in at least one of the ladder sections to minimize risk to the user in the case of a short circuit or other fault. In various embodiments, risks arising from use of one or more integrated utilities are mitigated by including a tilt sensor in a ladder section, which prevents the conveyance of utilities through the conduit if the ladder leans beyond a specified angle. The specified angle can be preset during manufacture, or it can be set by the user, in order to provide the highest degree of safety without impeding function. The tilt sensor can be set to cut off the delivery of the utility through the conduit when the ladder tips at an unsafe angle, or when the angle indicates that the ladder is being moved to a different location.
For applications which require a ladder to lean against a structure with enhanced tilt stability, some embodiments provide outriggers which can be secured between modular sections, thus effectively widening the base of the ladder and allowing for use of the ladder at heights that would be unsafe without the outriggers.
Other embodiments of the present invention include a top receptacle that allows connection of two sets of modular sections at an angle, thereby enabling the ladder to stand without further support. In embodiments, the receptacle is adjustable, so as to allow height-appropriate angles to be set by the user. Some of these embodiments also include a pair of modular sections containing lockable hinges, in order to provide increased structural support to the ladder.
Various embodiments further incorporate a shelf, and in some embodiments multiple styles of shelves, into the top receptacle or between modular sections. The shelves can include holders for specific sets of tools, in order to facilitate storage of tools and materials at the working height of the ladder for performance of various tasks that typically require a ladder. For example, the common task of painting can be accommodated by a shelf that is designed to accommodate a paintbrush, a roller, and a can of paint.
Some embodiments provide casters that can be mounted to the bottom of the ladder to facilitate its relocation.
One general aspect of the present invention is a modular ladder including a plurality of interconnectable modular sections, each modular section having a pair of separated, substantially parallel side rails with a substantially perpendicular rung extending therebetween, each of the side rails including a coupling extension for interconnection with side rails of adjacent modular sections, and each of the modular sections having a utility conducting segment cooperative with a side rail thereof, each of the utility conducting segments being terminated at both ends by connectors that are configured to engage with connectors in adjacent utility conducting segments to form a utility conduit when the modular sections are interconnected, the utility conduit enabling communication between a utility source on the ground and a device requiring the utility when used by a worker at height on the modular ladder.
In embodiments, the coupling extension is tapered, thereby facilitating alignment of the coupling extension with a side rail of an adjacent modular section, and insertion of the coupling extension therein.
In some embodiments, the utility conducting segment conveys compressed air, water, paint, or electricity. Other embodiments further include a ground fault circuit interrupter cooperative with an electricity conducting segment of at least one modular section.
In certain embodiments, at least one of the modular segments includes a tilt sensor in communication with a shutoff switch, whereby at least one utility conduit is disabled if the modular segment is tipped beyond a specified angle. And in some of these embodiments the specified angle is selectable by a user.
Various embodiments further include a caster removably connected to the lowest modular section. Some embodiments further include a pair of outriggers configured to widen a base of the modular ladder.
Various embodiments further include a pair of variable angle connecting members, each variable angle connecting member having a pair of side rail connectors joined to each other by an angle adjusting mechanism, the pair of variable angle connecting members being insertable between a pair of adjacent modular sections so as to adjust an angle between the adjacent modular sections, while maintaining continuity of the utility conduit between the adjacent modular sections. And in some of these embodiments the variable angle connecting members are able to fix the angle between the adjacent modular sections at any of a plurality of angular settings.
Another general aspect of the present invention is a modular articulated ladder that includes a plurality of interconnectable modular sections, each modular section having a pair of substantially parallel side rails with a substantially perpendicular rung extending therebetween, each of the side rails including an upper and lower coupling extension for interconnection with side rails of adjacent modular sections, each of the modular sections having a utility conducting segment cooperative with a side rail thereof, each of the utility conducting segments being terminated at both ends by connectors that are configured to engage with connectors in adjacent utility conducting segments to form a utility conduit when the modular sections are interconnected, the utility conduit allowing communication between a utility source on the ground and a device requiring the utility when used by a worker at height on the modular ladder, and a plurality of variable angle connecting members, each variable angle connecting member having a pair of side rail connectors joined to each other by an angle adjusting mechanism, the variable angle connecting members being insertable in pairs between adjacent modular sections so as to adjust an angle between the adjacent modular sections, while maintaining continuity of the utility conduit between the adjacent modular sections, thereby enabling the assembled modular sections joined by said variable angle connectors to be articulated into a plurality of configurations as desired by the user.
In embodiments, the variable angle connecting members are able to fix the angle between the adjacent modular sections at any of a plurality of angular settings.
Some embodiments further include, a pair of horizontal struts, each horizontal strut including two segments joined by a limited hinge, the horizontal struts being attachable between a pair of assembled sets of modular sections joined by a pair of variable angle connecting members so as to limit an angle between the pair of assembled sets of modular sections.
Various embodiments further include a shelf. In some of these embodiments the shelf provides for storage of tools and materials. And in some of these embodiments the tools and materials are selected from the group consisting of paint, brushes, lacquer, shellac, polyurethane, and paint sprayers.
The features and advantages described herein are not all-inclusive and, in particular, many additional features and advantages will be apparent to one of ordinary skill in the art in view of the drawings, specification, and claims. Moreover, it should be noted that the language used in the specification has been principally selected for readability and instructional purposes, and not to limit the scope of the inventive subject matter.
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A plurality of modular ladder sections 410 can be combined to form a ladder suitable for work at a wide range of heights. Embodiments of the invention also provides for internal conveyance of utilities without the need for additional hardware or any extra assembly and disassembly steps. Typical conduits include, but are not limited to, electrical cables and pneumatic hoses.
The modular sections 410 of an embodiment of the present invention can be assembled into a conventional ladder configuration. As is illustrated in
In various embodiments, the modular sections 410 of the present invention can be assembled in many different configurations in order to achieve various objectives of the end user. Examples are shown in
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The foregoing description of the embodiments of the invention has been presented for the purposes of illustration and description. Each and every page of this submission, and all contents thereon, however characterized, identified, or numbered, is considered a substantive part of this application for all purposes, irrespective of form or placement within the application. This specification is not intended to be exhaustive or to limit the invention to the precise form disclosed. Many modifications and variations are possible in light of this disclosure.
This application claims the benefit of U.S. Provisional Application No. 61/786,814, filed Mar. 15, 2012, which is herein incorporated by reference in its entirety for all purposes.
Number | Date | Country | |
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61786814 | Mar 2013 | US |