Consumers choose artificial evergreen trees for their convenience. Artificial evergreen trees have no needles that shed, require no watering, and eliminate the need to transport an evergreen tree from a tree farm or other location to the consumer's house, and then to dispose of the evergreen tree, for example, at the end of the Christmas season. However, artificial evergreen trees can leave much to be desired. Artificial evergreen trees can be heavy, and difficult to assemble and disassemble. Artificial evergreen trees can be difficult to store, and difficult to restore to their original shape after being in storage.
For the foregoing reasons, it is desired to provide improved artificial evergreen trees.
In one aspect, an artificial evergreen tree is provided. The artificial evergreen tree includes a first branch ring having a plurality of first nests. Each of a plurality of first tree branch bases is rotatably coupled to a respective one of the plurality of first nests and has one of a plurality of first branch assemblies coupled thereto. The first branch ring also includes a first bottom segment having a first bottom segment electrical contact. The first branch ring also includes a first top segment having a first top segment electrical contact that is in electrical communication with the first bottom segment electrical contact. The plurality of first nests is positioned between the first bottom segment and the first top segment. The artificial evergreen tree also includes a second branch ring having a plurality of second nests. Each of a plurality of second tree branch bases is rotatably coupled to a respective one of the plurality of second nests and has one of a plurality of second branch assemblies coupled thereto. The second branch ring also includes a second bottom segment having a second bottom segment electrical contact. The second branch ring also includes a second top segment having a second top segment electrical contact that is in electrical communication with the second bottom segment electrical contact. The plurality of second nests is positioned between the second bottom segment and the second top segment. The first top segment of a first branch ring is configured to couple to the second bottom segment of a second branch ring so that the first top segment electrical contact of the first branch ring and the second bottom segment electrical contact of the second branch ring are coupled in electrical communication.
In one aspect, each of the plurality of first branch assemblies and the plurality of second branch assemblies also includes at least one light that is electrically coupled to the respective first branch ring or second branch ring.
In one aspect, the at least one light of one of the plurality of first branch assemblies and the plurality of second branch assemblies is replaceable without replacing the at least one light of another of the plurality of first branch assemblies and the plurality of second branch assemblies.
In one aspect, an insulator is positioned over the first top segment electrical contact of the first branch ring.
In one aspect, the second bottom segment includes a root defining a shoulder. The root and the shoulder stabilize the artificial evergreen tree when the first top segment of the first branch ring is coupled to the second bottom segment of the second branch ring.
In one aspect, each of the first branch ring and the second branch ring includes a light ring having at least one of upward facing and downward facing lights. The light ring is electrically coupled to the respective first top segment electrical contact and first bottom segment electrical contact or second top segment electrical contact and second bottom segment electrical contact.
In one aspect, a topper is received in the second top segment of the second branch ring so that the topper electrically couples to the second branch ring.
In one aspect, a stand receives the first bottom segment of the second branch ring.
In one aspect, any number of first branch rings and second branch rings may be coupled to the stand.
In one aspect, the stand is electrically coupled to the first branch ring and the second branch ring.
In one aspect, an artificial evergreen tree is provided. The artificial evergreen tree includes a first branch ring having a plurality of first nests. Each of a plurality of first tree branch bases is rotatably coupled to a respective one of the plurality of first nests and has one of a plurality of first branch assemblies coupled thereto. The first branch ring includes a first bottom segment having a first bottom segment thread. The first branch ring includes a first top segment having a first top segment thread. The plurality of first nests is positioned between the first bottom segment and the first top segment. The artificial evergreen tree also includes a second branch ring having a plurality of second nests. Each of a plurality of second tree branch bases is rotatably coupled to a respective one of the plurality of second nests and has one of a plurality of second branch assemblies coupled thereto. The second branch ring includes a second bottom segment having a second bottom segment thread. The second branch ring includes a second top segment comprising a second top segment thread. The plurality of second nests is positioned between the second bottom segment and the second top segment. The first top segment of a first branch ring is configured to couple to the second bottom segment of a second branch ring so that the first top segment thread of the first branch ring and the second bottom segment thread of the second branch ring are coupled.
In one aspect, the first top segment thread of the first branch ring and the second bottom segment thread of the second branch ring stabilize the artificial evergreen tree when the first top segment of the first branch ring is coupled to the second bottom segment of the second branch ring.
In one aspect, the second bottom segment includes a root defining a shoulder. The root and the shoulder stabilize the artificial evergreen tree when the first top segment of the first branch ring is coupled to the second bottom segment of the second branch ring.
In one aspect, the first branch ring and the second branch ring are electrically coupled when the first top segment of the first branch ring is coupled to the second bottom segment of the second branch ring.
In one aspect, each of the first branch ring and the second branch ring includes a light ring having at least one of upward facing and downward facing lights.
In one aspect, each of the plurality of first branch assemblies and the plurality of second branch assemblies includes at least one light that is electrically coupled to the respective first branch ring or second branch ring.
In one aspect, the at least one light of one of the plurality of first branch assemblies and the plurality of second branch assemblies is replaceable without replacing the at least one light of another of the plurality of first branch assemblies and the plurality of second branch assemblies.
In one aspect, a stand to receive the first bottom segment of the second branch ring.
In one aspect, any number of first branch rings and second branch rings may be coupled to the stand.
In one aspect, the stand is electrically coupled to the first branch ring and the second branch ring.
The features and advantages of this disclosure, and the manner of attaining them, will be more apparent and better understood by reference to the following descriptions of the disclosed methods and systems, taken in conjunction with the accompanying drawings, wherein:
For the purposes of promoting an understanding of the principles of the present disclosure, reference will now be made to the embodiments illustrated in the drawings, and specific language will be used to describe the same. It will nevertheless be understood that no limitation of the scope of this disclosure is thereby intended.
During operation, the fastener 300 is manipulated so that the fastener 300 disengages the upper post 290. In this position, the upper post 290 rotates freely with respect to the lower post 295 so that the upper legs 305 and the lower legs 315 may be rotated to the operational. In at least one embodiment, in an operational position, the upper legs 305 are oriented approximately perpendicular to the lower legs 315, as shown in
After use, the fastener 300 is manipulated so that the fastener 300 disengages the upper post 290. In this position, the upper post 290 rotates freely with respect to the lower post 295 so that the upper legs 305 and the lower legs 315 may be rotated to a storage position. In at least one embodiment, in the storage position, the upper legs 305 rest adjacent to the lower legs 315. Once the storage position is achieved, the fastener 300 may be manipulated to apply pressure to the upper post 290, thereby securing the upper post 290 within the lower post 295 so that the posts 290, 295 and legs 305, 315 may not rotate with respect to one another.
In at least one embodiment, the center post 285 includes a plurality of electrical connections 325. In at least one embodiment, the plurality of electrical connections 325 is provided in the upper post 290. In at least one embodiment, the plurality of electrical connections 325 is positioned on an interior surface of the center post 285. Additionally, a thread 330 may be provided on the interior surface of the center post 285. The center post 285 is constructed and arranged to receive a branch ring 115 (described in detail below).
The center pole 55 includes a plurality of branch rings 115, as illustrated in
In at least one embodiment, the bottom end 120 includes an upper shoulder 121 that tapers downward from the center ring 116. A substantially cylindrical midsection 123 extends from the upper shoulder 121. Additionally, a root 122 extends from the midsection 123 such that a lower shoulder 124 is defined between the root 122 and the midsection 123. In one embodiment, the upper shoulder 121, the midsection 123, the lower shoulder 124 and the root 122 provide stability to the assembly 50 when the branch rings 115 are coupled together. The bottom end 120 includes a bottom end thread 130. In at least one embodiment, the bottom end thread 130 is positioned on an outer surface of the bottom end 120. In at least one embodiment, the bottom end thread 130 extends from the upper shoulder 121 to the midsection 123. The bottom end 120 also includes a plurality of bottom end electrical contacts 145. In one embodiment, the bottom end electrical contacts 145 are positioned on the outer surface of the midsection 123.
The top end 125 includes a top end thread 126, shown in
In at least one embodiment, shown in
In at least one embodiment, the center ring 116 of each branch ring 115 includes an upper side 210 and lower side 215, as illustrated in
Each tree branch assembly 335 may be coupled to a respective tree branch base 225, which is coupled to a branch ring 115 during manufacturing. Each tree branch assembly 335 includes a strand of lights 336 couple thereto. In one embodiment, the strand of lights 336 is held in position by a slot 272 in the tree branch base 225 and electrically coupled to the corresponding electrical connector 196 of the branch ring 115 via a plug 338. Because the strand of lights 336 is individually strung to each tree branch assembly 335, the strand of lights 336 may be replaced individually. For example, if the strand of lights 336 on one tree branch assembly 335 fails, that strand of lights 336 may be disconnected from the respective electrical connector 196 and individually replaced without replacing each strand of lights 336 on the artificial evergreen tree 50.
In at least one embodiment, the bottom end 120 of a branch ring 115 is configured to be received in the stand 70. It should be noted that any branch ring 115 may be inserted into the stand 70; however, for aesthetic purposes, the branch rings 115 may be coupled in a particular order. Additionally, the branch rings 115 may be coupled in any configuration desirable by the user. In one embodiment, the user may couple only some of the branch rings 115 to adjust a height of the assembly 50. The bottom end thread 130 of the lowermost branch ring 115 may engage the thread 330 of the stand 70. In at least one embodiment, the bottom end 120 of the lowermost branch ring 115 may be inserted into the upper post 290 of the stand 70. When the center post 285 of the stand 70 is coupled to the bottom end 120 of the lowermost branch ring 115, an electrical connection is made between the center post 285 of the stand 70 and the bottom end 120 of the lowermost branch ring 115. For example, the plurality of bottom end electrical contacts 145 of the lowermost branch ring 115 may align with and electrically engage the plurality of electrical connections 325 of the stand 70. Accordingly, upon assembly, the stand 70 is electrically coupled to the lowermost branch ring 115. In at least one embodiment, the stand 70 includes an electrical cord to plug into an electrical outlet.
Each of the branch ring assemblies 115 is then coupled on one another starting with the lowermost branch ring 115. A first branch ring 115 is configured to receive a second branch ring 115. In one embodiment, when first and second branch rings 115 are secured together, the tree branch assemblies 335 of the first branch ring 115 are offset from the tree branch assemblies 335 of the second branch ring 115. The bottom end thread 130 of the second branch ring is received by the top end thread 126 of the first branch ring 115. In at least one embodiment, the bottom end 120 of the second branch ring 115 is received in the top end 125 of the first branch ring 115 and screwed therein via the bottom end thread 130 and the top end thread 126. In one embodiment, the bottom end 120 of the second branch ring 115 may be received in the top end 125 of the first branch ring 115 with limited human intervention and through the force of gravity. The bottom end 120 of the second branch ring 115 is configured to be received in the top end 125 of the first branch ring 115 so that the plurality of bottom end electrical contacts 145 of the second branch ring 115 and the plurality of top end electrical contacts 128 of the first branch ring 115 are coupled in electrical communication. The upper shoulder 121, the midsection 123, the lower shoulder 124 and the root 122 of the second branch ring 115 substantially match an inner contour of the top end 125 of the first branch ring 115 to stabilize the second branch ring 115 within the first branch ring 115 to stabilize the entire center pole 55 of the artificial evergreen tree 50 when the plurality of branch rings 115 are coupled together to the form the center pole 55. In one embodiment, a material of the branch ring 115 may also facilitate stabilizing and strengthening the artificial evergreen tree 50. For example, the branch ring 115 may be formed from glass filled polypropylene. In one embodiment, the interaction of threads 126 and 130 also facilitate stabilizing and strengthening the artificial evergreen tree 50.
An insulator 134, shown in
After all of the branch rings 115 are coupled to form the center pole, the topper 155, shown in
In at least one embodiment, the topper 155 includes a light ring 195 having a circuit board. The light ring 195 may include a plurality of downward facing lights (not shown), and a plurality of upward facing lights (not shown). In at least one embodiment, the downward facing lights and upward facing lights may include light emitting diodes.
While this disclosure has been described as having preferred designs, the apparatus and methods according to the present disclosure can be further modified within the scope and spirit of this disclosure. This application is therefore intended to cover any variations, uses, or adaptations of the disclosure using its general principles. For example, any method disclosed herein and in the appended claims represent one possible sequence of performing the steps thereof. A practitioner may determine in a particular implementation that a plurality of steps of one or more of the disclosed methods may be combinable, or that a different sequence of steps may be employed to accomplish the same results. Each such implementation falls within the scope of the present disclosure as disclosed herein and in the appended claims. Furthermore, this application is intended to cover such departures from the present disclosure as come within known or customary practice in the art to which this disclosure pertains.
The present application is a non-provisional of, and claims priority to, U.S. Provisional Patent Application Ser. No. 62/174,583, filed Jun. 12, 2015, and titled “ARTIFICIAL EVERGREEN TREE,” U.S. Provisional Patent Application Ser. No. 62/222,153, filed Sep. 22, 2015, and titled “ARTIFICIAL EVERGREEN TREE,” and U.S. Provisional Patent Application Ser. No. 62/261,619, filed Dec. 1, 2015, and titled “ARTIFICIAL EVERGREEN TREE.” The disclosure of each of the forgoing applications is hereby incorporated by reference.
Number | Name | Date | Kind |
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3970834 | Smith | Jul 1976 | A |
20080291662 | Barbieri | Nov 2008 | A1 |
20100196628 | Shooley | Aug 2010 | A1 |
20150070878 | Yu | Mar 2015 | A1 |
Number | Date | Country | |
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20160360914 A1 | Dec 2016 | US |
Number | Date | Country | |
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62174583 | Jun 2015 | US | |
62222153 | Sep 2015 | US | |
62261619 | Dec 2015 | US |