CEILING LADDER

A foldable ceiling ladder assembly for installation within a ceiling opening includes a concealment panel sized and shaped to substantially cover the ceiling opening when the ladder is in a stowed configuration; the concealment panel including a swingout door portion capable of pivotal rotation away from the ladder when in a deployed configuration to permit uninhibited foot access on the ladder rungs by the user for improved safety and for facilitating ease of ascending and descending the ladder.

FIELD OF THE INVENTION

The present invention pertains generally to ladders, and more particularly to those adapted for mounting in a ceiling opening for the purpose of providing access to the area there above.

BACKGROUND OF THE INVENTION

A ceiling ladder, also known as an “attic ladder” or “loft ladder” is a retractable ladder that is installed into an opening in the floor of an attic and ceiling of the floor below the attic to facilitate passage from one floor to the other. They are used as an inexpensive and compact alternative to having a permanent staircase that ascends to the attic of the home or building in which they are installed.

Ceiling ladders of the prior art are typically of two general types, namely the folding type and telescopic type. Folding ceiling ladders include a ladder component which is normally in a contracted stowed configuration and may be extended in length to a deployed configuration by unfolding of two or more ladder sections which are hingedly attached to one another. As may be readily appreciated, ceiling ladders of the telescopic variety also include a ladder component normally in a contracted stowed configuration and extendable in length to a deployed configuration through telescopic extension of its subparts. In both varieties, extension and contraction of the ladder component may be carried out automatically or manually. In both varieties, the ladder component, when in its contracted stowed configuration, is typically stowed horizontally above the floor opening and concealed from view by a pivotable door or concealment panel component to which a portion of the ladder is fixedly attached. In common embodiments, the door is hinged to a side of the framing defining the opening and the door is attached directly to a portion of the ladder rails or indirectly but still in close proximity thereto. The door is sized and shaped to fill the opening and to lay flush with the surrounding ceiling when closed, and is typically opened by pulling on a depending drawstring Pulling on the drawstring to open the door automatically causes pivoting of the ladder to initiate its deployment, and pivoting of the ladder to its stowed configuration automatically initiates closing of the door.

For ceiling ladders of the folding type, because the door is fixedly attached either directly or in close proximity to the back of at least the upper portion of the ladder, the door interferes with proper foot placement on the adjacent ladder rungs creating a significant safety issue. More specifically, the door limits the depth of foot penetration across these rungs permitting only the toes of the foot to contact the rungs rather than a deeper penetration that would include the ball and arch of the foot which affords more stable foot placement. Although it is typically recommended that users always face the ladder while ascending and descending the ladder, it is common practice to descend ceiling ladders facing away from the ladder such as to permit carrying of items stored in the attic or other space being accessed. In such cases, only the heel portion of the user's feet can make contact with the rungs further adding to the risk of a fall.

It would, therefore, be ideal to have known in the art ceding ladder assembly that affords safer foot placement on the ladder rungs.

SUMMARY OF THE INVENTION

According to one aspect of the present invention, there is provided A foldable ceiling ladder for installation within a ceiling opening defined by framing members, the ceiling ladder comprising a ladder comprising a first ladder section hingedly attached to a second ladder section; each said first ladder section and said second ladder section comprising a pair of parallel rails connected to one another by a plurality of incrementally spaced rungs; said ladder having a deployed configuration wherein said first and ladder section and said second ladder section are aligned to form a continuous ladder, and a stowed configuration wherein said first ladder section and said second ladder section are foldable upon themselves above the ceiling opening when said ceiling ladder is not in use; mounting means for pivotally mounting said first ladder section to a framing member along a first axis of rotation; and a concealment panel sized and shaped to substantially cover the ceiling opening, said concealment panel having a first portion fixedly attached to said first ladder section in co-planar fashion, and a second portion in coplanar alignment with said first portion and parallel to said rails of said first ladder section when said ladder is in said stowed configuration, and out-of-plane with said fixed portion and non-parallel to said rails of said first ladder section when said ladder is in said deployed configuration, whereby pivoting of the second portion of said concealment panel away from said ladder permits uninhibited foot access to said ladder rungs by a user.

In certain embodiments, the fixed portion and door portion of the concealment panel share the same axis of rotation. In certain embodiments, the fixed portion and door portion of the concealment panel have a different but parallel axis of rotation. In certain embodiments of the invention, the concealment panel is not divided into a fixed portion and a door portion; the entire concealment panel is hinged to the framing of the ceiling opening, is removably attached to the first ladder section for concealing the ceiling opening when the ladder is in its stowed configuration, and is capable of pivoting away from the ladder rungs when the ladder is in its deployed configuration to permit the desired increased foot access to the ladder rungs.

Certain embodiments further include at least one stowage latch configured to retain the door portion in its closed position (i.e., in coplanar alignment with the fixed portion of the concealment panel) until the stowage latch is released. In those embodiments where the entire concealment panel is adapted for pivotal rotation (i.e., where there is no door portion) one or more stowage latches are included to retain the concealment panel in proximity to the ladder for the purpose of ladder stowage and opening concealment.

It is therefore a primary object of the subject invention to provide a ceiling ladder that not only provides concealment of the ladder and ceiling opening when the ladder is in its stowed configuration, but also permits uninhibited foot access on all ladder rungs by the user thereby enhancing safety when ascending and descending the ladder.

It is also a primary object of the subject invention to provide a ceiling ladder designed for rapid installation within a framed ceiling opening.

It is also an object of the subject invention to provide a ceiling ladder that is simple in design and therefore capable of rapid construction and assembly at a relatively low cost. These together with other objects of the invention along with the various features of novelty which characterize the invention, are pointed out with particularity in the claims annexed to and forming a part of this disclosure. For a better understanding of the invention, its advantages and the specific objects attained by its uses, reference should be had to the accompanying drawings and descriptive matter in which there is illustrated a preferred embodiment of the invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

It should be clearly understood at the outset like reference numerals are intended to identify the same structural elements, portions or surfaces consistently throughout the several drawings herein, as such elements, portions or surfaces may be further described or explained by the entire written specification, of which this detailed description is an integral part. Unless otherwise indicated, the drawings are intended to be read (e.g., cross-hatching, arrangement of parts, proportion, degree, etc.) together with the specification, and are to be considered a portion of the entire written description of this invention. As used in the following description, any reference to the terms “horizontal”, “vertical”, “left”, “right”, “up” and “down”, as well as adjectival and adverbial derivatives thereof (e.g., “horizontally”, “rightwardly”, “upwardly”, etc.), simply refer to the orientation of the illustrated structure as the particular drawing figure faces the reader. Similarly, the terms “inwardly” and “outwardly” generally refer to the orientation of a surface relative to its axis of elongation, or axis of rotation, as appropriate. The terms “rung” or “rungs” of a ladder shall also include ladder “steps” or “treads” between ladder rails. Except where the context requires otherwise, the term “attic” as used herein means any space having a floor or surface with an opening through which a person can pass and an accessible lower level area or floor below the attic floor into which a ladder can be extended and from which a person can ascend the ladder through the opening. Similarly, the area below the attic is referred to generically herein as the “bottom floor”, and the floor of the attic is sometimes referred to as the “ceiling” of the bottom floor.

Before describing the construction and operation of the subject folding ceiling ladder, it is helpful to understand the construction of conventional ceiling ladders and their shortcomings. Accordingly, reference is first made toFIGS. 1-3depicting a folding ceiling ladder200of the prior art. Folding ceiling ladder200includes a ladder component202which is normally in a contracted stowed configuration (FIG. 2) and which may be extended in length to a deployed configuration (FIGS. 1 and 3) by unfolding of two or more ladder sections202a,b,cwhich are hingedly attached to one another. The ladder component, when in its contracted stowed configuration, is typically stowed horizontally above the floor opening and concealed from view by a pivotably mounted door204(also known as a “concealment panel”) to which ladder200is fixedly attached. In common embodiments, the door204is hinged to a side of the framing102defining an opening100in the ceiling. Door204is typically attached to the back of the ladder rails206in abutting coplanar relationship. The door is sized and shaped to fill the opening and to lay flush with the surrounding ceiling when closed, and is typically opened by pulling on a depending drawstring (not shown). Pulling on the drawstring to open the door automatically causes pivoting of the attached ladder to initiate its deployment, and pivoting of the ladder to its stowed configuration automatically initiates closing of the attached door. Because the door204is fixedly attached to the back of the ladder200, spanning across its rails206, it interferes with, proper foot placement on the adjacent ladder rungs creating a significant safety issue as described supra. The improved ceiling ladder of the subject invention obviates this problem by allowing a portion of the concealment panel, namely the portion between the ladder rails, to pivot away from the ladder to provide improved foot access to the ladder rungs.

Accordingly, reference is now made toFIGS. 4-6in which there is illustrated a preferred embodiment of a ceiling ladder of the subject invention designated generally by reference numeral10and of the folding ladder variety. Ceiling ladder10is designed for installation within a ceiling opening100defined by framing members102and is comprised of two primary components, namely a folding ladder assembly12, and a concealment panel14sized and shaped to cover the ceiling opening100. As is well known in the art, when ceiling ladder10is mounted within opening100, the ladder assembly12is normally in a contracted stowed configuration (FIG. 2) and may be extended in length to a deployed configuration (FIGS. 1 and 3) by unfolding of its at least two ladder sections12a,b,cwhich are hingedly attached to one another in series via hinges13. Conversely, when ladder assembly12is in its contracted towed configuration with its ladder sections12a,b,cfolded one on top of the other, it is stowed horizontally above the floor opening100and concealed from view by concealment panel14to which ladder assembly12is fixedly attached.

In the embodiment illustrated, ladder assembly12is comprised of a first ladder section12ahingedly attached via a hinge13to a second ladder section12bwhich in turn is hingedly attached via another hinge13to a third ladder section12c.In other embodiments a fewer or greater number of ladder sections may be employed. Ladder sections12a,b,ccomprise a pair of parallel rails6a,b,c, respectively, each rail being connected to its neighboring rail by a plurality of incrementally spaced rungs18. Mounting means are included for pivotally mounting the first ladder section12ato a framing member102. In a preferred embodiment, the mounting means comprises at least one hinge20pivotally connecting first ladder section12to framing member102along a first axis of rotation22such that ladder section12aand the other ladder sections attached to it are capable of downward rotation from a horizontal stowed position to an angular deployed position. A pair of articulating mounting brackets24connect each side rail16aof ladder section12ato opposing framing members102in order to provide support and stability to ladder assembly12. A pair of springs26operably connected between each mounting bracket24and the framing member102to which it is connected controls the rate of decent of the ladder assembly12and limits the amount of force required to return the ladder assembly12to its stowed position above the ceiling C in a manner well known in the art. As may be readily appreciated, different bracket and spring arrangements may be employed for these purposes, the example described above being only for illustrative purposes.

Concealment panel14includes a first portion14afixedly attached to the back of side rails16aof first ladder section12ain co-planar relationship. The attachment may be a direct attachment or, as illustrated in the instant embodiment, concealment panel14may be fixedly attached to one or more cross members30transversely mounted to the back of side rails16aconnecting one rail with the other. First portion14aof concealment panel14is pivotally attached to a frame member102via panel hinge20having an axis of rotation22parallel to ladder rungs18.

Concealment panel14further includes a second portion14b(also referred to herein as “door portion14b”) in the form of a pivotable door sized and shaped to substantially conform to the area between side rails16aof first ladder section12a.With additional reference now being made toFIGS. 7 and 8, in one embodiment door portion14bis pivotably mounted to frame member102via panel hinge20thereby sharing a common axis of rotation22with first portion14a.In this embodiment, first portion14ais more accurately comprised of two parallel panel's separated by door portion14b.With reference now being made toFIGS. 9 and 10, in another embodiment door portion14bof concealment panel14is pivotably mounted to first portion14via door hinge40having second axis of rotation42which is parallel to axis of rotation22of hinge20. In both of the above described embodiments, door portion14bis in coplanar alignment with the first portion of concealment panel14and parallel to rails16aof first ladder section12awhen the ladder assembly12is in its stowed configuration, and out of plane with the first portion of concealment panel14and non-parallel to rails16aof the first ladder section12awhen the ladder assembly12is in its deployed configuration. Door portion14bmay further include longitudinal flanges15depending from its side edges. Flanges15overlap the side edges of first portion14aof concealment panel14when door portion14bis in its closed position, thus bridging the gaps between first portion14aand door portion14bfor insulation and aesthetic purposes.

With specific reference toFIG. 6, as should be appreciated, when ladder assembly12is lowered from its horizontal stowed configuration to its deployed configuration by downward rotation of concealment panel14about its axis of rotation22, door portion14bmay then be rotated downwardly about its axis of rotation22or42to swing away from the normally adjacent ladder rungs18thereby permitting deeper foot penetration across the rungs than would be possible if concealment panel14remained in abutting relationship with said rungs as is the case with ceiling ladders of the prior art.

Certain embodiments further include at least one stowage latch36configured to retain the door portion14bin its closed position (i.e., in coplanar alignment with the first portion14aof concealment panel14) until the stowage latch is released allowing door portion14bto rotate downwardly by virtue of gravity. In the embodiment illustrated, each latch36is rotated about its axis of rotation as illustrated by directional arrow38(FIG. 4) until it depends from an adjacent cross member30. As will be readily appreciated by those skilled in the art, a myriad of other latching mechanisms may be employed to releasably retain door portion14bin coplanar relationship with first portion14aof concealment panel14.

For those embodiments of the subject ceiling ladder10that require manual operation to raise and lower the apparatus from its stowed position above the ceiling to its operable or deployed position, a drawstring32is disposed through a cross member30of ladder assembly12and through concealment panel14and terminates in at least one end in handle34. Pulling on the handle when door portion14bis latched in coplanar alignment with first portion14aof concealment panel14causes pivoting of the ladder assembly12to initiate its deployment. Pulling on the opposite end of the drawstring, which may also be adapted with a handle, causes pivoting of door portion14bupwardly for latching to its counterpart first portion14a.Pivoting of the concealment panel14upwardly initiates its closing and stowage of ladder assembly12above the ceiling.

Although the present invention has been described with reference to the particular embodiments herein set forth, it is understood that the present disclosure has been made only by way of example and that numerous changes in details of construction may be resorted to without departing from the spirit and scope of the invention. Thus, the scope of the invention should not be limited by the foregoing specifications, but rather only by the scope of the claims appended hereto.