Handrail System, Kit and Method
Field of the Invention
The present invention relates generally to a handrail and more specifically to a composite handrail assembly comprising a novel connector and covering, and a kit comprising the handrail system.
Background of the Invention
Deck systems are used both commercially and residentially and often require a handrail to ensure maximum safety to the users. A handrail helps ensure that the people using the deck do not fall off. Furthermore a handrail is also important for any stairway attached to the deck to ensure the safety of the users as they go up and down the stairs to the deck.
Traditionally decks and associated handrails have been manufactured from solid wood or some form of wood product. As such the decks and handrails have been susceptible to damage from the elements such as rain, snow and wind. Therefore the production of the deck and handrail from an alternative more sturdy material has been desirable. The industry has therefore turned to plastic to address some of these problems, although plastic has restrictions with respect to the amount of weight it can carry and its strength.
A number of different patents and inventions have tried to address the issue of strong decking and railing with improved durability for the outdoors. For example United States Patent No. 6,017,019 issued on January 25, 2000 to Erwin. This patent relates to a modular railing including a plurality of upright posts and a plurality of composite handrails extending between adjacent ones of the upright posts. The composite handrails each include a plastic outer
shell and an internal metal reinforcing element extending longitudinally within the plastic shell.
DeSouza is the owner of U.S. Patent No. 5,572,845, which issued on November 12, 1996. This patent relates to a wood railing assembly for use between vertical posts, which may be attached to a wood deck, utilizes top and bottom rails together with a middle rail.
Savenok is the owner of U.S. Patent No. 5,957,437, which issued on September 28, 1999 and relates to a balustrade connecting structure. The connecting structure is used to connect the rail to a support structure and is constructed to be recessed into an end of a rail to enable the connection of the rail to the support structure.
Forshee is the owner of U.S. Patent No. 4,885,882 which issued on
December 12, 1989. This patent relates to a cover for a wooden deck structure which protects people walking on the deck structure from splinters. In one embodiment, the cover is in the form of a thin walled, U-shaped channel member which fits over one board of the deck structure. In doing so, the central section of the channel member overlies the top of the board while the sides of the channel member extend downwardly along the sides of the boards.
Oliveri et al. is the owner of U.S. Patent No. 5,794,390, which issued on August 18, 1998. This patent relates to a structural covering that is attachable to a rail of a railing that has a top, a pair of sides, ends, and a bottom, and that is attachable to a floor board of a deck that has a top, a pair of sides, ends and a bottom, while covering most of the rail of the railing and any exposed ends thereof and covering most of the floor board of the deck and any exposed ends thereof so as to prevent splinters, hide knots,
splintered wood, discolored wood, and cracks in the wood, and give a uniform look that will not rot.
Sorrentino is the owner of U.S. Patent No. 4,269,532 which issued on May 26, 1981. This patent relates to a coupling for joining tubing together in the manufacture of furniture and the like comprising a pair of sleeves mounted one on the other in coplanar relation with their axes at right angle to each other and a wall mounted at the inner end of one of the sleeves with an opening in the wall for receiving a screw and the like for fastening the tubing that extends through the other sleeve.
Although the above noted prior art addresses some of the problems associated with decks and associated handrails the prior art does not provide for a handrail system and kit having that can be easily assembled, while completely covering or hiding the fasteners resulting in a finished, clean professional look. Furthermore, the handrail system may be installed on an angle for stairs that mount the deck, or straight on the deck itself. Finally the handrail system has composite elements which allows for easy installation as well as improved strength while maintaining the look and feel of a wooden deck.
Summary of Invention
In accordance with one aspect of the present invention there is provided an improved composite handrail system consisting of a plurality of upright posts and a plurality of composite rails extending between adjacent upright posts at two points on the adjacent upright posts. The composite rails may each have an internal reinforcing element which may be friction fit into a composite channel extending longitudinally inside each composite rail. A composite cover may be friction fit over the composite channel. A plurality of composite sleeve-spindles may extend between the composite rails. A
plurality of connectors may couple the composite rails to the composite sleeve-spindles. The connectors may be adapted to mount to the composite rails and adapted to receive and friction fit the composite sleeve-spindles.
Conveniently the internal reinforcing element may be a wood member and the composite channel may be adapted to encase the wood member to provide a consistent profile for the composite rail. Preferably the connectors may be hollow and have an outer wall and an inner wall, and a plurality of covered channels extending the length of the inner wall of the connectors. The covered channels may be adapted to receive a series of fasteners for mounting the connectors to the composite rails.
Advantages of the present invention are that the handrail system may be installed on an angle or straight; once assembled all fasteners are completely hidden; the composite handrail system has the strength of wood and looks like wood; the composite rails allow for the improved strength of the handrail system; allows for inconsistencies in the wood member; easier installation; improved finish; easier assembling and fastening; friction fit of elements; connector allows for easy placement on the rails, a snug fit without rotation, and easy installation.
Brief Description of the Drawings
A detailed description of the preferred embodiments are provided herein below by way of example only and with reference to the following drawings in which:
Figure 1 , in a top perspective view, illustrates the handrail system in accordance with the first preferred embodiment of the present invention.
Figure 2, in front plan view, illustrates the handrail system of Figure 1.
Figure 3, in an exploded view, illustrates the handrail system and the handrail system kit of the fourth preferred embodiment of the present invention.
Figure 4, in a side cross-section view, illustrates the composite rail of the second preferred embodiment and connector of the third preferred embodiment of the present invention in operation.
Figure 5, in a top cross-sectional view, illustrates the connector.
In the drawings, preferred embodiments of the invention are illustrated by way of example. It is to be expressly understood that the description and the drawings are only for the purpose of illustration and as an aid to the understanding and are not intended as a definition of the limits of the invention.
Detailed Description of the Preferred Embodiments
Referring to Figures 1 , 2, and 3, there is illustrated in perspective and exploded views, a handrail system 10 in accordance with a preferred embodiment of the present invention. The handrail system 10 includes a plurality of upright posts 12 and a plurality of composite rails 14 extending between adjacent upright posts 12 at two points 16 and 18 on the adjacent upright posts 12. The composite rails 14 may each have an internal reinforcing element 20 which may be friction fit into a composite channel 22 extending longitudinally inside each composite rail 14.
A composite cover 24 may be friction fit over the composite channel 22. A plurality of composite sleeve-spindles 26 may extend between the composite rails 14. A plurality of connectors 28 may couple the composite
rails 14 to the composite sleeve-spindles 26. The connectors 28 may be adapted to mount to the composite rails 14 and adapted to receive and friction fit the composite sleeve-spindles 26.
The internal reinforcing element 20 may be a wood member 30 that may be adapted to friction fit into the composite channel 22 providing a snug fit between the wood member 30 and the composite channel 22. By encasing the wood member 30 in the composite channel 22, any inconsistencies in the wood member 30 are overcome as the composite channel 22 can flex around the wood member 30, and has sufficient space to completely encase the wood member 30. The composite cover 24 may be a channel cover 32 adapted to friction fit over the composite channel 22 without requiring fasteners. The resulting composite rail 14 therefore includes the strength from the internal reinforcing element 20 or wood member 30, while providing a clean profile from the friction fit of the channel cover 32 over the composite channel 22 while doing away with the need for fasteners. Finally the composite channel 22 and channel cover 32 assembly allows for easier installation since it requires fewer parts.
Referring to Figures 4 and 5, the connectors 28 may be hollow and have an outer wall 34 and an inner wall 36 and a plurality of covered channels 38 extending the length of the inner wall 36 of the connectors 28. The covered channels 38 may be adapted to receive a series of fasteners 40 for mounting the connectors 28 to the composite rails 14. The connectors 28 may be mounted not only flush or straight to the composite rails 14, but they may also be cut at an angle to allow for installation of the connectors 26 and the composite sleeve-spindles 26 for stairs that mount the deck.
The connectors 26 may further comprise a series of ribs 42 oh the outer wall 34 for the friction fit of the composite sleeve-spindles 26 and to prevent rotation of the composite sleeve-spindles 26 on the connectors 26.
Furthermore the connectors 26 may be tapered on either end to allow for easy insertion into composite sleeve-spindles 26.
A kit for a handrail system is also disclosed which includes the constituent parts described above which are adapted to be assembled together in connected relationship in differing handrail systems providing correspondingly different handrail system appearances and characteristics.
Referring to Figures 3 and 4, in operation, the handrail system's method of assembly includes the following steps. The user may first position a pair of upright posts 12 apart from one another in the desired position. A first composite rail 50 is positioned between the adjacent upright posts 12 at a first point 16 to the adjacent upright posts12. The composite rail 50 may have an internal reinforcing element 20 which is friction fit into a composite channel 22 that extends longitudinally inside the composite handrail 50.
The composite rail 50 may be secured to the upright posts 12 with fasteners 44. A composite cover 24 is friction fit over the composite channel 22 of the composite rail 14 thereby covering the internal reinforcing element 20 and the fasteners 44. A plurality of connectors 28 which are adapted to be mounted to the composite rails 50 are attached at desired points along the composite rail 50. The connectors 28 are also adapted to receive and friction fit a plurality of composite sleeve-spindles 26, which have a first end 46 and a second end 48. The first end 46 of composite sleeve-spindles 26 are friction fit into the connectors 28.
A second composite rail 52 also having an internal reinforcing element
20 is friction fit into a composite channel 22 extending longitudinally inside the composite rail 52 extending between the adjacent upright posts 12 at a second point 18 on the adjacent upright posts 12. A second plurality of connectors 28 is attached to the second composite rail 52 at desired points.
The second plurality of connectors 28 are then friction fit to the second end 48 of the composite sleeve-spindles 26, therefore resulting in the composite sleeve-spindles 26 extending between the first and second composite rails 50 and 52.
The second composite rail 52 is secured to the upright posts12 with fasteners 44. A second composite cover 24 is friction fit over the composite channel 22 of the second composite rail 52 thereby covering the internal reinforcing element 20 and the fasteners 44.
Other variations and modifications of the invention are possible. All modifications or variations are believed to be within the sphere and scope of the invention as defined by the claims appended hereto.