The current invention pertains to new and useful improvements to a door assembly process utilizing mortises, tenons and dowels as well as use of dowels for locking door stiles and rails.
Millions of doors are assembled, installed and renovated every year. The process of manufacturing and assembling door is long and complicated; usually it takes several hours to assemble and install a door. Generally, the door is supplied as fully assembled with or without a frame. If the door is supplied without a frame, then prior to installation, the hinges and locks have to be drilled, cut and attached to the door and the frame. Generally, most of the doors have to be prepped for hardware prior to installations; this procedure requires a manipulation of a heavy door.
The manufacturing process requires that the door assembly be glued to keep the parts together, and during the gluing process the door has to be locked in special clamps to keep its integrity. The glue requires an extensive curing time before the rest of the door assembly can be completed. Following the gluing process, the door stiles have to be beveled in order to allow smooth closure of the door. The beveling process is known in the art and involves a removal of some layer(s) of material from the stiles on the hinge and/or lock side, thus creating a vertical plane with a slope of approximately 2-3 Degrees. Only after beveling can the whole door be sanded, prepped and painted or covered by protective layers known in the art.
This lengthy and involved door manufacturing process allows delivery of fully assembled doors. Delivery of doors in a disassembled state is not possible as the gluing and beveling process can only be performed on the manufacturing site. Furthermore, in the current process if a part or parts of the door are damaged during transportation, the entire door is considered broken and must be replaced.
In the case of a modular door, only the damaged part needs to be replaced.
The delivery of disassembled doors has the following benefits: they take less space, the risk of breakage is reduced, and if there are broken parts, they can be easily replaced by spare parts. However, disassembled doors need to be assembled on-site by the end user. Therefore, a kit for door assembly is required in which the stiles are beveled prior to the assembly. The assembly kit does not require any complicated tools and ordinarily does not require use of glue.
One of the technologies used in door building and manufacturing is the use of mortise and tenon. This technology is well-known and described for example, in U.S. Pat. No. 541,450. This patent teaches a door comprising styles and rails, which are suitably mortised and tenoned together while dowel pins are inserted into the long side of the stiles and pass through both tenons while remaining invisible. This locking means is generally used to improve sturdiness of the final product but does not eliminate the use of glue during the door assembly. There is a further technology of mortise and tenon with protruding dowel also disclosed in the U.S. Pat. No. 5,086,601. This patent teaches a construction of frames for windows and doors while utilizing a joint structure with mortise and tenon.
The present invention addresses the deficiencies in prior art by providing an improved method of door assembly by reducing or virtually eliminating a use of glue. The invention also provides a kit for self-assembly of a modular door and method of manufacturing such kit.
The current invention pertains to new and useful improvements to a door assembly and an assembly process utilizing mortises, tenons and dowels as well as use of dowels (rods) for locking door stiles and rails.
In one aspect of the invention there is provided a modular door comprising:
Another aspect of the invention is to bevel and prep the hardware during the manufacturing process in such a way as to give the end user the ability to assemble a door without the use of glue or a door clamp press. The elimination of glue allows disassembly of the door if needed.
The glue-less construction of the door creates multiple advantages and options of improving the design, style, workability, integrity, reuse, and repair if needed as the process allows the end user to take the door apart after it has been assembled, resulting in a considerable savings in time and money by placing the customization factor into the users' hands.
In one embodiment, the assembly is carried out using a traditional mortise and tenon joint in the door assembly. In its preferred embodiment, an aperture is created within the tenons on the rails at both ends while a passageway is created along the entire body of the stile. This passageway stops short of the mortises at the top and bottom of the stile. Thereafter, an oversized hole is preferably drilled in the stile for accommodating a bushing. The bushing completes the passageway, by retaining integrity of the stile and enabling rods to be pre-inserted without added friction. This function is useful during assembling or disassembling multiple rail configurations.
Preferably, the corresponding apertures in the tenons and passageway are slightly off-set to one another. In this way, when assembled the stiles and rails in combination with the rod/bushings being driven into their final resting position create an opposing force so all mortise and tenons are pressed and locked together for all stiles and rails simultaneously.
Finally, driving a screw through the bushing into the stile locks the bushings and rods in place.
In another embodiment, the at least one door panel is friction-fitted by the stiles and rails. Preferably, the at least one door panel is fitted within a pre-formed channel disposed along the sides of the stiles and rails.
The current invention eliminates the use of glue and the use of a door clamp press, which has a direct result of eliminating the curing time, beveling and prepping for hardware after the assembly for the end user.
Beveling and prepping for hardware is done during the stile manufacturing process. The manufacturing process dictates the use of a clamp press with two parallel surfaces in order to prevent buckling and deformation of the door under force.
If needed, the stile can be matched to an existing opening, transcribing the original hardware placement to the new door or in this case stile. Since the single stile can be handled, the marking of the hardware makes this a much easier task to handle in place of a fully assembled door. After prepping the stile, the door can be assembled and immediately installed without a wait for glue curing and other door preparations utilized in prior art.
Another aspect of the invention is the use of one or more extensions to the rails of the door. These extensions can be used on the top and/or bottom rails. The end user's choice of different materials such as wood, metal, Plexiglas™, plastic or composite material extension will give the door a unique look. In addition, use of extensions can make it more resilient to the elements. Using a rubber or silicon cover on the extension may, for example, assist in reduction of water damage to the door. Furthermore, use of extensions would allow replacement of the extension only if it became soiled or broken, without need to replace the whole door.
In a preferred embodiment, the at least one rod, preferably a plurality of rods comprises pushing rods, locking rods, and locking/pushing rods. The pushing rods are provided to deliver the locking rods into the tenons of the intermediate rail, while the locking/pushing rods are provided to lock one rail as well as to push another locking or pushing rod through the rod receiving channel of the stile.
According to yet another aspect of the invention, the set of rods further comprises an unlocking rod having the length equal to the height of the tenon of the corresponding rail to be unlocked. These unlocking rods are positioned between the pushing rods and the locking rods, and can be pushed into the tenon of the rail while removing the locking rod from the tenon to release the intermediate rail from the stile.
According to yet another aspect of the invention, the at least one of said rods, preferably said locking rods, further comprises at least one stabilizer, preferably an o-ring, positioned on said rod, to minimize movement of said rod in said passageway and/or aperture. Preferably, said stabilizer is substantially the same diameter as the diameter of the passageway and/or aperture. In a preferred embodiment, the o-ring may be made of any material known in the art for making O-rings including, but not limited to, polymeric elastomer, natural rubber, synthetic rubber, and combinations thereof. The function of the o-ring is to ensure a snug fit of the locking rod in the passageway and/or aperture whilst minimizing the locking rod from moving around in the passageway of the stiles and aperture of the rails.
According to another embodiment, the at least one stabilizer is integral with at least one of said rods. The integral at least one stabilizer is, in one embodiment, made from the same material as the rod and may be in a shape conforming to a shape of the passageway and/or aperture. In another embodiment, the at least one stabilizer is moveable along a length of at least one of said rods. In another embodiment, the stabilizer may be in the form of a collar, for example, and also serving to join at least two of said rods. Preferably the collar has a diameter substantially the same as the diameter of the passageway and/or aperture.
According to yet another aspect of the invention the top and/or bottom rails include a receiving member to receive an extension to the door with a corresponding mating member. This extension to the door can be decorative or functional and can be easily replaced upon wear or change in utility.
According to one additional aspect of the invention, there is a kit for assembling a modular door comprising:
The at least one rod, preferably a plurality of rods, can include two short locking rods of sufficient length to lock one rail to the stile and two long locking rods of sufficient length to lock at least two rails to the stile. More preferably, the plurality of rods has at least six locking rods to lock at least three rails to the stiles, and at least two pushing rods to deliver the locking rods into the distant mortises of the stile. Still more preferably, each stile has at least one locking rod, one pushing rod pre-inserted into a first passageway proximate mortise, distant from one of the ends of the stile.
In yet another embodiment there can be an unlocking rod further positioned between the pre-inserted locking rod and pushing rod and a filler rod holding these rods in place during storage and delivery.
According to yet another aspect of the invention, the at least one of said rods of the kit, preferably said locking rods, further comprise at least one stabilizer, preferably at least one o-ring, positioned on said rod, to minimize movement of said rod in said passageway and/or aperture. Preferably, said stabilizer is substantially the same diameter as a diameter of the passageway and/or aperture. In a preferred embodiment, the o-ring may be made of any material known in the art for making o-rings including, but not limited to, polymeric elastomer, natural rubber, synthetic rubber and the like. The function of the o-ring is to ensure a snug fit of the locking rod in the passageway and/or aperture whilst minimizing the locking rod from moving around in the passageway of the stiles and aperture of the rails.
According to another embodiment, the at least one stabilizer is integral with at least one of said rods of the kit. The integral at least one stabilizer is, in one embodiment, made from the same material as the rod and may be in a shape conforming to a shape of the passageway and/or aperture. In another embodiment, the at least one stabilizer is moveable along a length of at least one of said rods. In another embodiment, the stabilizer may be in the form of a collar, for example, and also serving to join at least two of said rods. Preferably the collar has a diameter substantially the same as the diameter of the passageway and/or aperture.
Preferably the kit also has at least one door extension member capable of being attached to at least one of the rails.
According to yet another aspect of the invention, there is provided a method of assembling a modular door said door comprising at least one door panel having a top, a bottom and two sides; a first pre-manufactured stile having a first end, a second end and two sides; one of said sides further comprising at least one mortise, preferably a plurality of mortises; a second pre-manufactured stile having a first end, a second end and two sides; one of said sides further comprising at least one mortise, preferably a plurality of mortises, wherein each stile further comprises a first passageway for receiving at least one rod, preferably a plurality of rods, wherein said first passageway extends from the first end of the stile to the second end of the stile passing through at least one of said mortise of the stile; a first pre-manufactured rail having two sides, a first end defining a first tenon and a second end defining a second tenon, wherein each tenon has an aperture to matingly receive at least one rod, preferably a plurality of rods, a second pre-manufactured rail having two sides, a first end defining a first tenon and a second end defining a second tenon, wherein each tenon has an aperture to matingly receive at least one rod, preferably a plurality of rods, preferably each of said first passageway and said aperture are substantially of the same diameter; each of said stiles and rails for use in enclosing said at least one door panel; optionally, at least one intermediate pre-manufactured rail having two sides, a first end defining a first tenon and a second end defining a second tenon, wherein each tenon has an aperture to matingly receive at least one rod, preferably a plurality of rods, and positioned between said first rail and said second rail and enclosing said at least one door panel, each of said rails being attachable to the first and second stiles by said mortise of said stile engaging with said tenon of said rail, further affixed in place by at least one rod, preferably a plurality of rods, and wherein at least one rod, preferably two of the plurality of rods lock a single rail, preferably a plurality of rails inside the corresponding stile, wherein upon the insertion of said tenon into said mortise of each stile, the first passageway and apertures are positioned offset one to another, comprising the following steps of:
In a preferred embodiment, the method of assembling the door further comprises the steps of:
In another preferred embodiment, the method of assembling the door further comprises the steps of:
According to yet another aspect of the invention, the rods used in the assembling of the door comprise at least one stabilizer, preferably at least one o-ring, positioned on the rods, to minimize movement of the rods in said passageway and/or aperture. Preferably, said stabilizer is substantially the same diameter as a diameter of the passageway and/or aperture. In a preferred embodiment, the o-ring may be made of any material known in the art for making o-rings including, but not limited to, polymeric elastomer, natural rubber, synthetic rubber and the like. The function of the o-ring is to ensure a snug fit of the rods in the passageway and/or aperture whilst minimizing the rods from moving around in the passageway of the stiles and aperture of the rails.
According to another embodiment, the at least one stabilizer is integral with at least one of said rods used in the assembly of the door. The integral at least one stabilizer is, in one embodiment, made from the same material as the rod and may be in a shape conforming to a shape of the passageway and/or aperture. In another embodiment, the at least one stabilizer is moveable along a length of at least one of said rods. In another embodiment, the stabilizer may be in the form of a collar, for example, and also serving to join at least two of said rods. Preferably the collar has a diameter substantially the same as the diameter of the passageway and/or aperture.
The assembled door does not require a use of glue or additional bonding agents during the assembly process.
The rods locking the rails inside each stile comprise at least one rod, and preferably more than two rods. The rods are selected from locking rods, pushing rods, filler rods, unlocking rods and combination thereof. Preferably, a set of bushings further locks the rods inside the stiles.
Additionally, the use of Plexiglas™ gives an even broader choice of uniqueness by shining light directly on to the Plexiglas™ and using it as a light conductor through the door body to shine out the other end without the use of wires.
Another aspect of the invention is the ability to take the door apart. Disassembly of the door brings a unique factor into effect. If a door is to be disassembled due to the size being increased, design change, and/or a damaged component in the door that needs replacing, these tasks may be done easily.
The end user can accomplish the above-named tasks by removing the screw penetrating the rail and bushing and, using the same screw, drive into the center of the bushing through the rod leaving half the screw outside of the bushing. This will lock the bushing to the rod. Using this as a clamping point, the rods that hold the tenons can be unlocked by simply removing the bushing/rod at either ends of the door. Once completed, a rod of smaller diameter may be inserted. The length is determined by the following formula:
width of the tenon+plus length of bushing/rod that was removed+one inch
The rod of smaller diameter is then inserted into the door with force needed until the tip is flush with the door. Remove the rod and repeat this procedure for all the locks. The rails are unlocked from the stiles; the door can now be disassembled.
Each stile comprises a plurality of mortises corresponding to a set of tenons positioned on the rails, best illustrated in
As illustrated in
In one embodiment, second rail 32 and first rail 30 are identical and can be used interchangeably to reduce the number of manufactured pieces of the door. In yet another embodiment (not shown), rails 30, 31 and 32 may be identical thus groove 36 on both sides of the rails can be used to receive a panel 12 or extension 37.
Referring to
The extensions can vary in height, preferably from ¾″ to 10″ depending on the manufacturing materials and design. Extension 37 can be constructed from various materials such as metals, wood, plastics and composite materials. Each extension 37 can be rubberized, painted or coated to protect the insert from elements and wear.
The manufacturing process of stile 20 is similar to the manufacturing process of stile 21. The only difference is the preparation and positioning of the hardware on these stiles.
The plurality of rods have varied lengths, at least two of which are of smaller diameter and can be made of wood, plastic, Plexiglas™, metal or other material known in the art. The length of rod 40 preferably corresponds to the width of tenon 34 plus two inches.
Rod 41 has a length preferably corresponding to the width of tenon 34 and has a smaller diameter than rod 40.
Rod 42 is preferably a few inches short of the following mortise, as well as being of a smaller diameter.
Rod 43 fills the remaining gap to the edge of the mortise and preferably has the same diameter as the passageway.
The lengths of the rods are determined by the design. If using multiple rails 31 and if locking from one side top or bottom, approximately 2 inches or the width of the tenon should be added to rod 41 for every rail added.
Rods 40, 41, 42, 43, 44, 46 are provided to lock the tenons inside the mortises, and to move the neighboring rods into correct positions. The rods can vary in diameter from about ¼″ to about 1″. The material of the rod can vary according to the design, size and weight of the door. The material can be selected from metals (such as steel or metal alloys), wood species, Plexiglas™, plastics, etc.
According to yet another aspect of the invention, one long rod may replace all rods 40-44, and this long rod may lock both rails 31 and 32 to stile 20.
Bushing size can vary in length and diameter in lengths of about 1″ to about 3″ and diameters of about ½″ to about 1⅝″. The material of the bushing can be selected from metals such as steel or metal alloys, wood species, clear Or colored Plexiglas™, plastics, etc. In one preferred embodiment, bushing 45 is coupled with bottom rail rod 44. This rod can be locked in seat 55 (see
In the same manner bushing 47 may be coupled with the top rod 46.
In a preferred embodiment, aperture 35 in tenon 34 is created in an offset from the center line of first passageway 23 of stile 20, thus creating a pre-tensioned joint. This is done in order to create a pulling force on tenon 34 into their corresponding mortises when the rods are inserted. This force therefore, closes the gap G between the two components (the gap 60 in
With reference to
An example of the modular door assembly process is provided below.
In one of the embodiments, the mortises, tenons, channels and rods can be sprayed or covered with substances known in the art, to allow smooth insertions of tenons and rods.
Rod 44 is locked with bushing 45 and screw 48 is driven into bushing 45 ultimately to lock rail 32 to stile 21. (Preferably bushing 45 is coupled with rod 44 as mentioned above.)
Alternatively, in a further embodiment of the invention, glue or another bonding agent can be added to all mortises and tenons to add strength to the door, if the door will not be disassembled. However, this addition of glue prior to assembly does not extend the assembly time since there is no need to wait for the glue to dry.
There may come a time when a modular door may need to be disassembled to replace worn or damaged parts. If glue was not utilized during the assembly, disassembly is relatively easy.
Steps for the full disassembly of the modular door are provided below; but in most ases, a partial disassembly of the door will suffice.
In one of the alternative embodiments, by using a Plexiglas™ or other transparent material in bushing/dowel and rods the door can be illuminated. A light source can be placed on either the top or bottom of the door and, using the Plexiglas™ as a conductor to carry light through the door can create a unique look without the need to run any wires through the door.
Design options may include choosing transparent, semi-transparent, or light scattering features on selected parts of the door. For example, an illumination from the sill of the door can be transferred through hard transparent dowels to similarly constructed top and/or bottom rails, providing such a door with a unique illuminating feature. The transparent or otherwise light scattering inserts can be positioned in the rails, panels and even stiles.
The scope of the claims should not be limited by the preferred embodiments set forth in the examples, but should be given the broadest interpretation consistent with the description as a whole.
The present application is a Continuation-in-Part of U.S. application Ser. No. 13/713,723 filed on Dec. 13, 2012, whose contents are expressly incorporated by reference.
Number | Date | Country | |
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Parent | 13713723 | Dec 2012 | US |
Child | 14081620 | US |