This disclosure generally relates to doors, and more specifically, to door jambs and door stops.
Door assemblies are typically made up of a door frame cut out of a wall, a door jamb, a door stop, the door, and hinges and other fixtures (i.e. screws) to assemble the assembly. Door jambs and door stops are made of a variety of materials such as woods and metals. There are many disadvantages to the typical wood and metal constructions in the prior art. One-piece jamb and stop wood assemblies are costly to manufacture due to the time that must be spent machining the wood and due to the material wasted when machining wood. Both one piece and multi-piece jamb and stop assemblies are more difficult for the end user. With multiple piece wood assemblies, wood jambs must be fixed to the door frame, and then the stop must be fixed to the jamb and/or the door frame using many fasteners such as nails or staples. Furthermore, wood pieces are expensive and must be painted or stained. Metal door jambs and stops also provide similar disadvantages, especially with respect to cost. Therefore, there is a need for an inexpensive door jamb and stop assembly that can be installed easily and efficiently.
It is an object of the invention to provide a multiple component door jamb and door stop assembly that is cost-effective and easy to manufacture, and which can be installed efficiently and cost effectively by the end user.
In one aspect of the present invention, a multi-component fiberglass door frame assembly comprises a door jamb having a length and a contact surface, and first and second channels along the length of the door jamb. Each channel has an opening at the contact surface, the opening extending proximally from the contact surface. First, second and third ribs along the length of the door jamb are provided. The first, second and third ribs each have widths and extend distally from the contact surface. The door frame assembly further comprises a door stop assembly detachably fixed to the door jamb and adapted to receive a door when the door is in a closed position.
In another aspect of the present invention, a method of assembling a door frame assembly comprises cutting a length of a fiberglass door jamb, machining a plurality of spaces into the door jamb for the placement of a plurality of hinges, cutting a length of a door stop assembly, fixing the door jamb to a door frame, fixing the plurality of hinges to the spaces in the door jamb, attaching the door stop assembly the door jamb; and attaching the door to the hinges.
In yet another aspect of the present invention, a method of assembling a door frame assembly comprises manufacturing a door jamb having a length and a contact surface. The door jamb further comprises first and second channels along the length of the door jamb. Each channel extends proximally from the contact surface. The door jamb further comprises first, second and third ribs along the length of the door jamb, the first, second and third ribs extending distally from the contact surface. The method further comprises machining the second and third ribs at multiple points along the length to create a plurality of spaces for the placement of a plurality of hinges. The spaces are disposed among the first, second and third ribs and each hinge has first, second, third and fourth edges. The method further includes fixing a hinge on the contact surface in each space. When each hinge is fixed into each space, each first edge substantially abuts the first rib, and each second and third edge substantially abut both the second and third ribs. The method further includes fixing a door stop assembly to the door jamb, the door stop assembly comprising a stop portion configured to accept a door when the door is in a closed position and first and second legs adapted to be detachably fixed within the first and second channels.
As seen in
Jamb 2 has a frame surface (not shown) which is fixed to a door frame 31 by means of a plurality of screws 36, but other types of fasteners such as staples may be used. The door frame 31 may be configured to accept the protrusions 28a and 30a due to channels 28 and 30 and other portions of the jamb 2. The screws 36 may be applied along the length L of the jamb 2 and may be concealed when the legs 6, 8 of stop assembly 4 are fit into the channels 28 and 30, respectively (see
Referring to
The ribs 10, 12, and 14 may be of a suitable height in order for the hinge 34 to lay flush with the ribs 10, 12 and 14 in the machined space 42. The jamb 2 is manufactured having the ribs 10, 12 and 14 along the entire length. When received by the customer, who may be an installer of doors, windows and similar fixtures, the customer may cut the pieces of jamb 2 and stop 4 in order to comply with the end user's specifications. In order to accommodate for door hinges 34, the customer may also machine spaces 42 (shown in phantom) out of the second and third ribs 12, 14 according to the size of standard door hinges in the industry, or alternatively, hinges which are custom to a particular customer or client.
The hinge 34 is fixed to the door frame 31 by fasteners such as screws 36, which are screwed through holes in the hinge 34 and through the jamb 2 and into the door frame 31 and wall 38 (see
In a preferred embodiment, the first and third ribs 10, 14 have a larger width than the second rib 12. This particular arrangement provides manufacturing benefits such as ease of manufacturing and cost savings due to less material being used from the smaller width of material such as fiberglass. However, different configurations also realizing similar or different manufacturing and other benefits may be utilized.
As seen in
The door jamb 2 and stop assembly 4 may be manufactured into elongated portions, either by extrusion or pull-trusion, or any other suitable method of manufacture. After manufacture, the individually manufactured pieces of jamb 2 and stop 4 will be shipped in preferably fourteen-foot-long pieces, but may be shipped in any length suitable to the manufacturer or customer. When received by the customer, who may be an installer of doors, windows and similar fixtures, the customer may cut the pieces of jamb 2 and stop 4 in order to comply with the end user's specifications. In order to accommodate for door hinges, the customer may also machine spaces 42 out of the second and third ribs 12, 14 according to the size of standard door hinges in the industry, or alternatively, hinges which are custom to a particular customer or client. A jamb 2 with a machined space 42 for a hinge 34 is shown in
In a preferred embodiment, the entire assembly 1 includes two components, the jamb 2 and the stop 4. In other embodiments, however, the assembly may include more than two components. For example, the jamb 2 or the stop 4 may comprise multiple sub-components to be assembled together.
Door sash 32 will be fixably connected to rotatable component 34b of hinge 34, making it rotatably fixed with respect to stationary component 34a of hinge 34, door jamb 2, and door stop assembly 4. When the door is in the closed position as shown in
A method of assembling a door frame assembly is provided, including manufacturing a door jamb 2 having a length L and a contact surface 16. The door jamb further has first and second slots 28, 30 along the length L. Each channel 28, 30 has an opening at the contact surface 16 and extends distally from the contact surface 16. The jamb 2 also includes first, second and third ribs 10, 12, and 14 which extend proximally from the contact surface 16 of the jamb 2. The method also comprises machining the second and third ribs 12, 14 at multiple points along the length L to create a plurality of spaces 42 (shown in phantom) for the placement of a plurality of hinges 34. The machined spaces 42 are disposed among the first, second, and third ribs 10, 12 and 14 as seen in
From the above disclosure of the general principles of the present invention and the preceding detailed description of at least one preferred embodiment, those skilled in the art will readily comprehend the various modifications to which this invention is susceptible. Therefore, we desire to be limited only by the scope of the following claims and equivalents thereof.
Number | Date | Country | |
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61699657 | Sep 2012 | US |