Patent Application
20250072643
The present invention relates to artificial trees, and more specifically, to an adjustable artificial Christmas tree configured to hang in a window or corner of a room.
Traditional Christmas trees and traditional artificial Christmas trees are typically designed to stand upright on the floor, requiring a dedicated floor space and limiting their placement options. In certain situations, such as in small apartments or rooms with limited floor space, it can be challenging to accommodate a full-sized Christmas tree. Additionally, there may be instances where individuals desire a unique placement option, such as hanging the tree in a window or positioning it in a corner.
Various attempts have been made to address these limitations and provide alternative options for displaying Christmas trees. Some prior solutions include tabletop Christmas trees or wall-mounted decorations, but these often lack the grandeur and visual impact associated with traditional full-sized trees. Furthermore, existing hanging or corner-mounted Christmas tree designs have typically been limited in terms of adjustability, stability, or ease of setup and takedown. Rather, most are simply typical artificial trees that are suspended, or paper wall decorations that do not meet the typical expectation with a Christmas tree.
Therefore, there is a need for an improved adjustable artificial Christmas tree that overcomes the drawbacks of the currently available artificial Christmas trees, and artificial trees in general, and provides a versatile solution that can be conveniently hung in a window or positioned in a corner of a room while maintaining the aesthetic appeal and functionality of a full-sized tree.
The invention disclosed herein provides an adjustable artificial tree assembly. The adjustable artificial tree assembly comprises a tree body having a plurality of vertical body extenders connected to one another by a connector between each vertical body extender, a plurality of adjustable tree branch brackets, at least one pair of vertically adjustable horizontal tree branch rods extending from each said adjustable tree branch bracket, a detachable base, and a hanging mechanism.
The invention disclosed herein also provides a method for creating a customizable configuration of an artificial tree structure. The method comprises providing an adjustable artificial tree assembly having a tree body comprising a plurality of vertical body extenders connected to one another by a connector between each vertical body extender, a plurality of adjustable tree branch brackets, at least one pair of vertically adjustable horizontal tree branch rods extending from each said adjustable tree branch bracket, a detachable base, and a hanging mechanism.
It is an object of the present invention to provide a system capable of vertical adjustment to fit a plurality of installation conditions, including height, depth, and width restrictions.
It is yet another object of the present invention is to provide an artificial tree capable of standing and suspension in confined areas including, inter alia, a window frame and corners of rooms.
It is a further object to provide an artificial tree with enhanced ease of install and disassembly for routine use.
The drawings and specific descriptions of the drawings, as well as any specific or alternative embodiments discussed, are intended to be read in conjunction with the entirety of this disclosure. The invention may be embodied in many different forms and should not be construed as being limited to the embodiments set forth herein; rather, these embodiments are provided by way of illustration only and so that this disclosure will be thorough, complete and fully convey understanding to those skilled in the art. The above and yet other objects and advantages of the present invention will become apparent from the hereinafter set forth Brief Description of the Drawings, Detailed Description of the Invention, and Claims appended herewith.
The invention herein provides a solution for inefficient artificial trees that cannot be mounted in various tight and height restricted locations. The invention includes a uniquely configured modular and adjustable shallow artificial tree capable of solving the above issues.
As stated above, traditional Christmas trees and traditional artificial Christmas trees are typically designed to stand upright on the floor, requiring a dedicated floor space and limiting their placement options. In certain situations, such as in small apartments or rooms with limited floor space, it can be challenging to accommodate a full-sized Christmas tree. Additionally, there may be instances where individuals desire a unique placement option, such as hanging the tree in a window or positioning it in a corner. Various attempts have been made to address these limitations and provide alternative options for displaying Christmas trees. Some prior solutions include tabletop Christmas trees or wall-mounted decorations, but these often lack the grandeur and visual impact associated with traditional full-sized trees. Furthermore, existing hanging or corner-mounted Christmas tree designs have typically been limited in terms of adjustability, stability, or ease of setup and takedown. Rather, most are simply typical artificial trees that are suspended, or paper wall decorations that do not meet the typical expectation with a Christmas tree.
The current invention also solves need for an improved adjustable artificial Christmas tree that overcomes the drawbacks of the currently available artificial Christmas trees, and artificial trees in general, and provides a versatile solution that can be conveniently hung in a window or positioned in a corner of a room while maintaining the aesthetic appeal and functionality of a full-sized tree.
The current invention solves these problems by providing an adjustable artificial Christmas tree configured to hang in a window or corner of a room. The tree incorporates innovative features that enable it to be easily adjusted for various heights, securely attached to a window frame or corner, and maintain stability during display. The tree's design ensures that it retains the appearance and charm of a traditional full-sized Christmas tree while offering enhanced placement options and versatility. By addressing the limitations of current artificial trees in the market, the adjustable artificial Christmas tree described herein provides users with a novel and convenient way to celebrate the holiday season. It allows individuals with limited floor space or those seeking unique display options to enjoy the beauty and festive spirit of a Christmas tree in their homes, offices, or any other suitable environment.
The current embodied invention utilizes variable configurations to fit different applications. Namely, the artificial tree includes cylindrical tube members, known as vertical body extenders, that form a vertical shaft mimicking the trunk and central crown support of a tree, and giving the tree height, as shown in
Shorter configurations may also be more structurally sound, and thus, may be assembled without the need for suspension support. For example, a 2 ft model can stand alone on any flat surface without the hanging support wires. The 2 ft model uses the same rubber footing base as a 4 ft model. To pare down to a 2 ft model, connectors for additional parts are removed leaving 4 hinged rods on either side to accommodate the appearance of full foliage. In some embodiments, the remaining top section becomes a 2 ft functioning pre-lit model with a single connector for power. This model is portable and can be erected on any flat stable surface. This model can also accommodate a topper. A 3 ft model can stand alone on any flat surface without the hanging support wires. The 3 ft model uses the same rubber footing base as the 4 ft model. To pare down to a 3 ft model, connectors are removed adding 4 additional hinged rods on either side to accommodate the appearance of full foliage. In some embodiments, the remaining top section becomes a 3 ft functioning pre-lit model with 2 connectors for lights and power. This model is portable. It can be positioned on any stable flat surface. This model can also accommodates a topper.
When the artificial tree requires suspension, an included tension rod compressively secures to parallel wall portions, such as in a window frame. The tension rod is configured to support the necessary weight of the tree to avoid tipping over. As is typical, the tension rod includes two hollow cylinders with an internal adjustment spring pushing each cylinder away from the other, thereby pressing on the two parallel walls. To connect the top of the tree to the tension rod, a connection mechanism is employed that secures to each distal end of the rod, and a line connects to two independent hooks configured to hook through a bracket at the top of the tree, providing torsional stability, which is not present in current suspended trees.
The line length may also be adjusted between the hooks and distal ends of the tension rod. As may be seen in
A unique connection module is also employed to couple each vertical body extender. The module includes a recessable stopper holder having a shaft configured to complementally recess into said recessable stopper cradle with an upper lip to keep said recessable stopper holder from passing completely through said open cylindrical body of said recessable stopper cradle, an adjustable stopper with an open cylindrical shaft and internal threading along said shaft, a threaded swivel end cap having a cylindrical upper area of engagement to recess up into each cylindrical tube and a lower external threading to engage complementally with said adjustable stopper's internal threading, a horizontal groove at a lower surface of said threaded end cap, recessing vertically upward into said threaded end cap, and a vertical tongue on an upper surface of said recessable stopper holder, wherein said vertical tongue engages with said horizontal groove recessing vertically upward into said threaded end cap, whereby once engaged, said tongue may rotatably influence adjustment within said adjustable stopper. As may be appreciated, these pieces nest together to form an adjustable coupling module, as may be seen particularly in
With the vertical superstructure constructed, branches may be added in. Branches adopt the form of foliage on a central rod. The rods have a connection area at a base, which may for a cylindrical form with hole in the center, like a doughnut, whereby a securement pin may be added to allow the branches the ability to rotate about the pin for vertical adjustment. It should be appreciated that in embodiments where no rotatable adjustment is needed, the branches may fix directly into the brackets or cylindrical body. In the embodiment shown in
The adjustable suspendable decorative artificial tree system and assembly for windows corners, and walls of the present invention may be used to provide a system capable of vertical adjustment to fit a plurality of installation conditions, including height, depth, and width restrictions, provide an artificial tree capable of standing and suspension in confined areas including, inter alia, a window frame and corners of rooms, and provide an artificial tree with enhanced ease of install and disassembly for routine use. This apparatus, system, and method are particularly shown in
In an exemplary embodiment, an adjustable artificial tree assembly 100, is provided. The adjustable artificial tree assembly 100 comprises a tree body 102 having a plurality of vertical body extenders 104 connected to one another by a connector 106 between each vertical body extender 104. The adjustable artificial tree assembly 100 also includes a plurality of adjustable tree branch brackets 108, at least one pair of vertically adjustable horizontal tree branch rods 110 extending from each said adjustable tree branch bracket 108, a detachable base 112, and a hanging mechanism 114.
In some embodiments, the detachable base 112 includes an upper open socket 116 for receiving a lowermost vertical body extender 104a. The detachable base 112 provides a lower surface 118 having a larger surface area than said upper open socket 116 surface area. The detachable base 112 may be weighted and comprise a weighted material to assist with securing the artificial tree assembly 100 from moving when installed. The detachable base 112 may also be formed from rubber, thereby providing grip and resiliency. Further, in some embodiments, the detachable base 112 has internal threading 120 inside said upper open socket 116 to engage with the external threading 122 of the threaded swivel end cap 124.
While alternatives may exist, in some embodiments, the body extender 104 may be a cylindrical tube, providing for reduces weight and material requirements in the manufacturing process.
In some embodiments, the connector 106 between each vertical body extender 104 is comprised of several components working together as a nested connector module 106. This module includes a recessable stopper cradle 126 comprising an open cylindrical body 128 with an upper lip 130, wherein said recessable stopper cradle 126 partially recesses into an open upper end 132 of said cylindrical tube body extender 104. The connector module 106 also includes a recessable stopper holder 134 having a shaft 136 configured to complementally recess into said recessable stopper cradle 126 with an upper lip 138 to keep said recessable stopper holder 134 from passing completely through said open cylindrical body 128 of said recessable stopper cradle 126. The module 106 also includes an adjustable stopper 140 with an open cylindrical shaft 142 and internal threading 144 along said shaft 142. The module 106 includes a threaded swivel end cap 146. The threaded swivel cap 146 has a cylindrical upper area of engagement 148 to recess up into each cylindrical tube 104 and a lower external threading 150 to engage complementally with said adjustable stopper's internal threading 144. A horizontal groove 152 exists at a lower surface 154 of said threaded end cap 146, recessing vertically upward into said threaded end cap 146, and a vertical tongue 156 is present on an upper surface 158 of said recessable stopper holder 134, wherein said vertical tongue 156 engages with said horizontal groove 152 recessing vertically upward into said threaded end cap 146, whereby once engaged, said tongue 156 may rotatably influence adjustment within said adjustable stopper 140.
In an exemplary embodiment, the hanging mechanism 113 may include at least a pair of hooks 159, and a tree suspension bracket 160 configured to affix to an upper vertical body extender 104b, wherein said tree suspension bracket 160 includes through-holes 162 to engage with said hooks 159 of said hanging mechanism 114. The tree suspension bracket 160 may be a topmost tree extension bracket 164 to help keep the stability of the top of the tree 166 from tipping.
In some embodiments, the hanging mechanism 114 further comprises a tension rod 168 configured to provide compressive pressure against parallel vertical walls of a window frame, thereby allowing a pair of suspended hooks 159, of said at least a pair of hooks, coupled at each respective distal end 172 of said tension rod 168 to hook through a pair of apertures 162 in said tree suspension bracket 160. The pair of suspended hooks 150 are suspended using a line 174. The line 174 may be selected from a group of suspending lines including wire, cord, and thread. The tension rod 168 is coupled to said line 174 by mounting hooks 170, which grab the cylindrical shape of the tension rod 168, as may be appreciated in
In some embodiments, the at least one suspension bracket 160 defines a plurality of suspension brackets 160, whereby a topmost suspension bracket 164 is configured to receive a pair of hooks 159 from a hanging mechanism 114, and intermediate brackets are adjustable tree branch brackets 108, and are configured to receive a vertically adjustable horizontal tree branch rod 110, as part of the plurality of vertically adjustable horizontal tree branch rods, at each aperture 162a. Stated another way, in some embodiments, the suspension brackets and the adjustable tree branch brackets both include apertures at extending sides, as sown in
In some embodiments, the intermediate brackets 108 have a lower shelf 178 formed into said bracket 108 to vertically contain each of said vertically adjustable horizontal tree branch rods 110. The lower shelf 178 and apertures 162a may all be angled less than or equal to 180-degrees, as shown in
In addition to the exemplary physical embodiments, a method for creating a customizable configuration of an artificial tree structure, is also provided. The method comprises providing an adjustable artificial tree assembly 100, as shown and described, having a tree body 102 comprising a plurality of vertical body extenders 104 connected to one another by a connector 106 between each vertical body extender 104, a plurality of adjustable tree branch brackets 108, at least one pair of vertically adjustable horizontal tree branch rods 110 extending from each said adjustable tree branch bracket 108, a detachable base 112, and a hanging mechanism 114.
While there has been shown and described above the preferred embodiment of the instant invention it is to be appreciated that the invention may be embodied otherwise than is herein specifically shown and described and that certain changes may be made in the form and arrangement of the parts without departing from the underlying ideas or principles of this invention as set forth in the Claims appended herewith.
