A multipurpose ladder having a first inner section. The ladder has a first articulated hinge and a second articulated hinge. The ladder has a second inner section. The ladder has a first outer section. The ladder has a first locking bar. The ladder has a second outer section. The multipurpose ladder may have a plurality of brackets disposed about outer rails of the outer sections. The brackets provide support to each of the outer rails and strengthens them against bending forces so the rails can be thinner and of lighter weight. The ladder may have an ANSI duty rating of 1A or an ANSI duty rating of 1AA. A method for using a multipurpose ladder. A method for producing a multipurpose ladder.

The utility model provides a thick-plate hinge for ladder jointing, comprising an inner plate and outer plates that are rotatably connected to each other; the thick-plate hinge further comprises a positioning shaft sleeve designed to lock up and position the inner plate and outer plates, the outer plate is provided with a stop stub designed to limit the relative rotation angle of the inner plate, the inner plate is provided with a slot designed to stop the stop stub. Compared to the prior art, when the thick-plate hinge for ladder jointing provided in the utility model is used on a ladder, the ladder will have improved bearing performance, and will be safer and more reliable. In addition, the present utility model is simple in structure, easy to manufacture, and low in cost.

The utility model provides a thick-plate hinge for ladder jointing, comprising an inner plate and outer plates that are rotatably connected to each other; the thick-plate hinge further comprises a positioning shaft sleeve designed to lock up and position the inner plate and outer plates, the outer plate is provided with a stop stub designed to limit the relative rotation angle of the inner plate, the inner plate is provided with a slot designed to stop the stop stub. Compared to the prior art, when the thick-plate hinge for ladder jointing provided in the utility model is used on a ladder, the ladder will have improved bearing performance, and will be safer and more reliable. In addition, the present utility model is simple in structure, easy to manufacture, and low in cost.

A ladder system includes a ladder, a tray, and a mode-independent attachment unit. The ladder is changeable between a step-ladder mode and a straight-ladder mode. The tray is configured to be attached to any step included in the ladder. The mode-independent attachment unit detachably couples the tray to any step.

A ladder system includes a ladder, a tray, and a mode-independent attachment unit. The ladder is changeable between a step-ladder mode and a straight-ladder mode. The tray is configured to be attached to any step included in the ladder. The mode-independent attachment unit detachably couples the tray to any step.

Ladders, ladder components and related methods are provided including embodiments of a hinge that may be used in a combination ladder. In one embodiment, a hinge mechanism includes a first hinge assembly and a second hinge assembly. The first and second hinge assemblies are coupled together for relative rotation about a defined axis. An adjustment mechanism enables the two hinge assemblies to be selectively locked or unlocked to prohibit or permit relative rotation, respectively. In one embodiment, the adjustment mechanism includes a lock plate displaceable along a first axis and a retainer displaceable along a second axis. The retainer is configured to hold the lock plate in a disengaged state until a release structure displaces the retainer away from the lock plate. The release structure may be configured to be actuated and displace the retainer upon relative rotation of the hinge assemblies to (or through) a predetermined angular configuration.

Ladders, ladder components and related methods are provided including embodiments of a hinge that may be used in a combination ladder. In one embodiment, a hinge mechanism includes a first hinge assembly and a second hinge assembly. The first and second hinge assemblies are coupled together for relative rotation about a defined axis. An adjustment mechanism enables the two hinge assemblies to be selectively locked or unlocked to prohibit or permit relative rotation, respectively. In one embodiment, the adjustment mechanism includes a lock plate displaceable along a first axis and a retainer displaceable along a second axis. The retainer is configured to hold the lock plate in a disengaged state until a release structure displaces the retainer away from the lock plate. The release structure may be configured to be actuated and displace the retainer upon relative rotation of the hinge assemblies to (or through) a predetermined angular configuration.

A bucket for a multi-position ladder is disclosed. The bucket provides an area for workspace or for storage of tools or materials. The bucket is configured to be removably attachable at the top of the ladder when in use in the A-frame position or removably attached to the ladder and preferably within the boundaries of the ladder when not in use.

A bucket for a multi-position ladder is disclosed. The bucket provides an area for workspace or for storage of tools or materials. The bucket is configured to be removably attachable at the top of the ladder when in use in the A-frame position or removably attached to the ladder and preferably within the boundaries of the ladder when not in use.

Ladders, ladder components, adjustment mechanisms and related methods are provided herein. In one embodiment, a ladder may include an adjustment mechanism for adjusting, for example, a leveler, a stabilizer, or any two relatively displaceable components of the ladder. The adjustment mechanism may include an actuating mechanism having a first structure and a second structure slidably disposed adjacent the first structure, the second structure having a plurality of engagement surfaces. A body is coupled with the first structure. At least two engagement pins are slidably displaceable relative to the body, wherein the plurality of engagement surfaces and the at least two engagement pins are arranged such that only a single engagement pin of the at least two engagement pins is in abutting engagement with an engagement surface of the plurality of engagement surfaces at one time. At least one biasing member is configured to bias the at least two engagement pins towards engagement with the engagement surfaces.