RAILING AND BALUSTER PLUG SYSTEM

Abstract

A railing and baluster plug system that facilitates installation of balusters at a plurality of angular orientations, such as installations for level railing and installations for non-level or angled railings such as for stairs. The baluster plugs are configured to cooperate with the balusters and include both a level mounting surface and an angled mounting surface for alternatively mounting the balusters in a level or an angled orientation.

Description

FIELD

The present disclosure relates to a railing system and baluster plug system for installation of railing assemblies having a plurality of balusters. More particularly, the disclosure relates to a railing system and a baluster plug system for installation of railing assemblies having a plurality of balusters that enables balusters to be installed at a plurality of angular orientations.

BACKGROUND

Improvement is desired in the construction of component railing systems, particularly those made of composite materials, aluminum, and plastic materials, such as polyvinylchloride, that utilize generally upright hollow or at least hollow-ended balusters connected between opposed and generally lateral rails supported by posts.

The disclosure advantageously provides a railing system and a baluster plug system that facilitates installation of balusters at a plurality of angular orientations, such as installations for level railing and installations for non-level or angled railings such as for stairs, that enables components configured for level installations to be utilized for non-level or angled installations without modification.

SUMMARY

The disclosure relates to railing systems.

In one aspect, the railing system includes a lateral member having a planar lateral surface having a plurality of uniformly spaced apertures; a plurality of balusters having an end positioned adjacent to the lateral member, and a plurality of baluster plugs

Each baluster plug is configured for fitting into an open end of one of the balusters and seating into one of the apertures of the lateral member. The baluster plug has a baluster engagement portion configured to be received by the open end of the baluster, a tab projecting from the baluster engagement portion, and a level mounting surface and an angled mounting surface defined on an opposite end of the baluster engagement portion for seating against the planar lateral surface of the lateral member when the baluster is installed. The railing system enables the balusters to be positioned at a plurality of angular orientations.

In another aspect, the railing system includes an upper lateral member having a planar lateral surface having a plurality of uniformly spaced apertures, and a lower lateral member spaced below and parallel to the upper lateral member and having a planar lateral surface having a plurality of uniformly spaced apertures. The system also includes a plurality of balusters positioned between the upper lateral member and the lower lateral member, and a plurality of baluster plugs.

Each baluster plug is configured for fitting into an open end of one of the balusters and seating into one of the apertures of the upper lateral member or the lower lateral member. The baluster plug has a baluster engagement portion configured to be received by the baluster, a tab projecting from the baluster engagement portion, and a level mounting surface and an angled mounting surface defined on an opposite end of the baluster engagement portion for seating against the planar lateral surface of the upper lateral member or the lower lateral member when the baluster is installed. The railing system enables the balusters to be positioned at a plurality of angular orientations.

In another aspect, the railing system includes an upper lateral member; a lower lateral member spaced below and parallel to the upper lateral member; a post; and a pair of mounts. One of the mounts is attachable to the post and the upper lateral member and one of the mounts is attachable to the post and the lower lateral member. The mounts enable the upper lateral member and the lower lateral member to be positioned at a plurality of angular orientations relative to the post.

BRIEF DESCRIPTION OF THE DRAWINGS

Further advantages of the disclosure are apparent by reference to the detailed description when considered in conjunction with the figures, which are not to scale so as to more clearly show the details, wherein like reference numbers indicate like elements throughout the several views, and wherein:

FIG. 1 is a partially exploded view of a railing system and baluster plug system according to the disclosure.

FIGS. 2-5 are further views of the railing system and baluster plug system of FIG. 1.

FIGS. 6-15 are various views of a baluster plug utilized in the railing system and baluster plug system of FIG. 1.

FIG. 16 shows the baluster plug of FIG. 6 relative to a baluster of the railing system and baluster plug system of FIG. 1.

FIGS. 17-20 show a beam component of the railing system and baluster plug system of FIG. 1.

FIGS. 21-25 show a mount component of the railing system and baluster plug system of FIG. 1.

FIGS. 26-27 show the mount used for level and angled installations.

FIGS. 28-30 show a lower rail component of the railing system and baluster plug system of FIG. 1.

FIGS. 31-32 show an upper rail component of the railing system and baluster plug system of FIG. 1.

FIGS. 33-34 show an alternate embodiment of an upper rail component of the railing system and baluster plug system of FIG. 1.

FIGS. 35-36 depict a level installation of the upper rail component of the railing system and baluster plug system of FIG. 1.

FIGS. 37-38 depict an angled installation of the upper rail component of the railing system and baluster plug system of FIG. 1.

DETAILED DESCRIPTION

With reference to FIGS. 1-5, there is shown a railing system 10 including a baluster plug system 12 according to the disclosure. The railing system 10 incorporating the baluster plug system 12 is configured to be installed between a pair of posts, such as having a post P located at spaced apart locations with the railing system 10 there between. The post P may be of one piece construction or may be of component construction, and preferably includes a decorative base and cap as shown. The railing system 10 is also advantageously configured to include interior chases or passages such as for installation of wires, cables, and the like.

In a preferred embodiment, the railing system 10 includes beams 20 having slots 20a (FIG. 17), mounts 22, lower rail 24 having slots 24a (FIG. 5), and upper rail 26. The baluster plug system 12 includes a plurality of hollow or hollow-ended balusters 30 and baluster plugs 32.

The components of the systems may be made of various materials, such as composites, aluminum, and plastic. For the purpose of example, the beams 20, mounts 22, lower rail 24, upper rail 26, and the balusters 30 are made using extrusion techniques. The baluster plugs 32 are of plastic construction and made using injection molding techniques.

The railing system 10 and the baluster plug system 12 are configured so that the only fasteners utilized are those used to secure the mounts 22 to the posts P, with those fasteners being hidden from view. Thus, systems in accordance with the disclosure minimize the use of fasteners and avoid the use of exposed fasteners.

The railing system 10 and the baluster plug system 12 advantageously utilize components that facilitate installation at a plurality of angular orientations, such as installations for level railing and installations for non-level or angled railings such as for stairs. Thus, the systems according to the disclosure advantageously utilize components that can be used for both level installations and angled installations.

In this regard, a level installation will be understood to mean an installation wherein the angle of installation is about zero, and an angled installation has an angle of installation of greater than zero in the manner of a stair railing and the like that are inclined. In particular, the systems according to the disclosure enable railing and baluster installations having angles of installation of up to about 41 degrees.

For each installation, the slots 20a and the slots 24a are each the same, and the baluster plug 32 is advantageously configured to fills the slots 20a and 24a regardless of whether the installation is a level or an angled installation so that unsightly gaps and the like are avoided. The only modification required to permit an angled installation is to trim the ends of the balusters to the desired angle and the ends of the beams and rails to abut the posts.

The baluster plugs 32 are shown in FIGS. 6-15, and shown in relation to the baluster 30 in FIG. 16. The plugs 32 include a baluster engagement portion 40 configured to be received by the baluster 30 and a tab 42 projecting from the baluster engagement portion 40. An insertion end of the baluster engagement portion 40 includes rounded ends 44 to facilitate insertion of the baluster engagement portion 40 into the hollow end of the baluster 30. Level mounting surfaces 40a and angled mounting surfaces 40b are defined on the opposite end of the baluster engagement portion 40 for seating against either the beam 20 or the lower rail 24 when the baluster 30 is installed, as explained more fully below. A corner 40c transitions the level mounting surface 40a to the angled mounting surface 40b. The tab 42 is configured for extending into the slots 20a of the beam 20 and the slots 24a of the lower beam 24. The tab 42 includes a leading curved surface 46 and a trailing linear surface 48. The sides of the tab 42 are ribbed or otherwise configured with projections and the like for frictionally engaging the edges of the slots 20a and 24a. Reinforcements 50 extend between the baluster engagement portion 40 and the tab 42.

The beam 20 is shown in FIGS. 17-20, and is configured to provide a chase or open area for routing cables and the like. The beam 20 is used in connection with both the upper and lower portions of the railing system 10. In this regard, the beam 20 need not include the slots 20a when used in connection with the lower portion of the railing system. However, for standardization of manufacture, and to advantageously provide drainage structure, it is preferred to have the beam 20 include the slots 20a even when used with the lower railing portion. The beam 20 thus serves as a lateral member for mounting of the balusters 30 and includes a planar lateral surface 60 onto which the slots 20a are formed, as by routing. The lateral surface 60 is bounded by commonly depending legs 62 and 64 on opposite sides thereof. The legs 62 and 64 are profiled to cooperate with the lower rail 24 and the upper rail 26 so that the rails can be mounted thereon, as well as the mount 22 so that each end of the beam 20 may be engaged and supported by one of the mounts 22.

The mount 22 is shown in FIGS. 21-26. The mount 22 is configured to receive the beam 20 by a sliding or snap-fit to maintain the beam 20 on the mount 22 for support of the railing system 10. The mount 22 is secured to the post P as by the use of screws 66 or other fasteners extending through apertures 68. The screws 66 are hidden from view in the assembled railing system 10. To facilitate installation of cables, wiring and the like on the railing system 10, the mount 22 includes channels 70 for passage of such cables, wires, and the like. Another advantage of the railing system 10 is that the mounts 22 can be utilized for both level and angled installations. Conventional railing systems utilize different mount configurations for each different angle of the railing. The system 10 avoids this and enables the mounts 22 to be utilized for all installations. FIGS. 26-27 show the mount 22 used for level and angled installations.

The lower rail 24 is shown in FIGS. 28-30. The lower rail 24 serves as a lateral member for mounting of the balusters 30 and includes a planar lateral surface 80 onto which the slots 24a are formed, as by routing. The lateral surface 80 is bounded by commonly depending legs 82 and 84 on opposite sides thereof. The legs 82 and 84 are profiled to cooperate with the beam 20 so that the lower rail 24 can be mounted thereon, and to also include an interior chase or channel for routing of wires, cables, and the like. The interior of the lower rail 24 includes a beam channel 86 for location of the beam 20 and an auxiliary channel 88 separate from the beam channel 86 for locating wires, conduits, cables, and the like.

The upper rail 26 is shown in FIGS. 31-32. The upper rail 26 includes an upper decorative surface 90 bounded by commonly depending legs 92 and 94 on opposite sides thereof. The legs 92 and 94 are profiled to cooperate with the beam 20 so that the upper rail 26 can be mounted thereon, and to also include an interior chase or channel for routing of wires, cables, and the like. Accordingly, the interior of the upper rail 26 includes a beam channel 96 for location of the beam 20 and an auxiliary channel 98 separate from the beam channel 86 for locating wires, conduits, cables, and the like.

An alternate embodiment of an upper rail 26′ is shown in FIGS. 33-34. The upper rail 26′ is substantially the same as the upper rail 26, but differs in decorative appearance.

FIGS. 35-36 show cooperation of the baluster plug 32 with the baluster 30 and the lower rail 24 for a level installation. As will be observed, the baluster plug 32 cooperates with the slot 24a to enable the level mounting surfaces 40a of the plug 32 and the lower level surfaces of the baluster 30 to be flush with the surface 80 of the lower rail 24 with the tab 42 substantially filling the slot 24a so that unsightly gaps and the like are avoided.

FIGS. 37-38 show cooperation of the baluster plug 32 with the baluster 30 and the lower rail 24 for an angled installation. For this installation, the ends of the baluster are cut to a desired angle of installation of up to about 41 degrees, and the beams and rails are cut so that the ends are angled to abut the posts.

As will be observed, the baluster plug 32 cooperates with the slot 24a to enable the angled mounting surfaces 40a of the plug 32 and the lower angled surface of the baluster 30 to be flush with the surface 80 of the lower rail 24 with the tab 42 substantially filling the slot 24a so that unsightly gaps and the like are avoided. The baluster plug 32 is thus advantageously configured to be suitable for both level and angled applications, such as stairs, which typically have an angled installation of from about 29 degrees to about 41 degrees.

It will be appreciated that the baluster plug 32 with the baluster 30 and the beam 20 cooperate in a similar manner for installation of the upper portion of the railing system.

Accordingly, the disclosure provides a railing system and a baluster plug system that facilitates installation of balusters at a plurality of angular orientations, such as installations for level railing and installations for non-level or angled railings such as for stairs, that enables components configured for level installations to be utilized for non-level or angled installations without modification.

The foregoing description of preferred embodiments for this disclosure has been presented for purposes of illustration and description. It is not intended to be exhaustive or to limit the disclosure to the precise form disclosed. Obvious modifications or variations are possible in light of the above teachings. The embodiments are chosen and described in an effort to provide the best illustrations of the principles of the disclosure and its practical application, and to thereby enable one of ordinary skill in the art to utilize the disclosure in various embodiments and with various modifications as are suited to the particular use contemplated.

Claims

1. A railing system, comprising: an upper lateral member having a planar lateral surface having a plurality of uniformly spaced apertures;a lower lateral member spaced below and parallel to the upper lateral member and having a planar lateral surface having a plurality of uniformly spaced apertures;a plurality of balusters positioned between the upper lateral member and the lower lateral member; anda plurality of baluster plugs, each baluster plug configured for fitting into an open end of one of the balusters and seating into one of the apertures of the upper lateral member or the lower lateral member, the baluster plug having a baluster engagement portion configured to be received by the baluster, a tab projecting from the baluster engagement portion, and a level mounting surface and an angled mounting surface defined on an opposite end of the baluster engagement portion for seating against the planar lateral surface of the upper lateral member or the lower lateral member when the baluster is installed,wherein the railing system enables the balusters to be positioned at a plurality of angular orientations.

2. The railing system of claim 1, wherein the balusters are positionable to be substantially vertical so as to extend substantially perpendicular to the upper and lower lateral members.

3. The railing system of claim 1, wherein the balusters are positionable at an angle of from about 29 degrees to about 41 degrees.

4. The railing system of claim 1, further comprising a post and a pair of mounts, one of the mounts attachable to the post and the upper lateral member and one of the mounts attachable to the post and the lower lateral member, wherein the mounts enable the upper lateral member and the lower lateral member to be positioned at a plurality of angular orientations relative to the post.

5. A railing system, comprising: a lateral member having a planar lateral surface having a plurality of uniformly spaced apertures;a plurality of balusters having an end positioned adjacent to the lateral member; anda plurality of baluster plugs, each baluster plug configured for fitting into an open end of one of the balusters and seating into one of the apertures of the lateral member, the baluster plug having a baluster engagement portion configured to be received by the open end of the baluster, a tab projecting from the baluster engagement portion, and a level mounting surface and an angled mounting surface defined on an opposite end of the baluster engagement portion for seating against the planar lateral surface of the lateral member when the baluster is installed,wherein the railing system enables the balusters to be positioned at a plurality of angular orientations.

6. The railing system of claim 5, wherein the balusters are positionable to be substantially vertical so as to extend substantially perpendicular to the lateral member.

7. The railing system of claim 5, wherein the balusters are positionable at an angle of from about 29 degrees to about 41 degrees.

8. A railing system, comprising: an upper lateral member;a lower lateral member spaced below and parallel to the upper lateral member;a post; anda pair of mounts, one of the mounts attachable to the post and the upper lateral member and one of the mounts attachable to the post and the lower lateral member, wherein the mounts enable the upper lateral member and the lower lateral member to be positioned at a plurality of angular orientations relative to the post.