Three-dimensional artificial flowers, three-dimensional artificial petals, three-dimensional artificial buds, three-dimensional artificial leaves
A three-dimensional artificial flower can be comprised of one to multiple three-dimensional artificial petals to form a three-dimensional artificial flower that can come with or without three-dimensional artificial buds and/or three-dimensional artificial leaves. The three-dimensional characteristic of the petal can be created by: 1) twisting a piece of thin wire into a spring or coil like shape prior to forming it into a loop of wire representing the petal's boundary; or 2) using one or multiple curved reinforced wires inside the loop; or 3) curving the loop into a dome or similar shape. A stretchable, thin, see-thru synthetic fabric is then stretched tautly to cover the whole entire loop. The edges of the fabric are then gathered at the base of the loop and secured to the base by means including but not limited to threading, wiring, gluing, or the wrapping with floral tapes or other binding material. Once the three-dimensional artificial flower is formed, with or without the stamen, it will then be attached to a stem. Furthermore, in order to enhance the beauty and life-like characteristic of the three-dimensional artificial flowers, three-dimensional artificial buds, and three-dimensional artificial leaves that are made of the same methods and materials can then be added on to the stem.
U.S. Patent Documents
- U.S. Pat. No. 4,708,892 November 1987
- U.S. Pat. No. 3,822,171 July 1974
1. Field of the Invention
This invention relates to a creation of a new version of three-dimensional artificial flowers as described herein. Specifically, the methods of constructing each individual petal, bulb of flower, bud and leaf are used so that the resulting artificial flowers will possess the three-dimensional characteristic that current artificial flowers in the market lack. Additionally, this invention focuses on the use of new and technologically advanced materials such as the stretchable nylon fabric of various colors and patterns available in the market to create a three-dimensional artificial flowers, three-dimensional artificial petals, three-dimensional artificial buds, and three-dimensional artificial leaves of more durable, life-like, beautiful, non-opaque, airy, and lightweight of various colors, patterns, and shapes.
2. Discussion of the Prior Art
While numerous imitation flowers have been provided in prior art, for instance, U.S. Pat. Nos. 3,822,171 and 4,708,892, none has focused on or discussed the method or the process of making or creating three-dimensional artificial flowers, three-dimensional artificial petals, three-dimensional artificial buds, and/or three-dimensional artificial leaves.
BRIEF SUMMARY OF THE INVENTIONGiven that the artificial flowers, artificial petals, artificial buds, and artificial leaves in the market today appear flat looking as they are basically of a two-dimensional appearance, the main objective of this invention is to create non-opaque three-dimensional artificial flowers comprising of three-dimensional artificial petals, three-dimensional artificial buds, and three-dimensional artificial leaves that are more durable, life-like, beautiful, distinctive, airy, and lightweight using lightweight wire, stretchable, thin, see-thru nylon fabric of various colors and patterns, thread, glue and floral tape.
A further objective is to utilize this invention in various fields of the art including but not limited to the making of bouquets, reeds, plants, tiaras, and pins using the three-dimensional artificial flowers, three-dimensional artificial petals, three-dimensional artificial buds, and three-dimensional artificial leaves concept.
BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWINGS
Step One: Creation of Petals of Three Dimensions
A petal can be created by using a piece of thin flexible wire or stranded wire to form into a loop of wire whereby both ends of the wire are twisted together to form a base of the loop of wire. The creation of a petal of three dimension requires further a loop having a three-dimensional structure which can be achieved via various techniques of construction including but not limited to:
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- 1. Twisting a piece or more of thin, flexible, lightweight wire or strand of wire into a spring or coil like shape and then forming it into a loop of wire, as shown in 1 in
FIG. 1A andFIG. 1B . This spring or coil like shape or curly shape of the loop of wire is the foundation of the three-dimensional characteristic of the petal formation. - 2. Using one or multiple pieces of curved wire, as shown in 3 in
FIG. 2A andFIG. 2B to connect the base of the loop of wire to any other section of the loop of wire as inner reinforcement to the loop but more significantly such addition of the curved wire creates the three-dimensional structure as required by the formation of the three-dimensional artificial petal. - 3. Bending the loop of wire as shown in 1 in
FIG. 3A andFIG. 3B to generate a dome like shape or any other curved like shape will create a three-dimensional structure as required by the formation of the petal of three dimensions.
- 1. Twisting a piece or more of thin, flexible, lightweight wire or strand of wire into a spring or coil like shape and then forming it into a loop of wire, as shown in 1 in
Once the above loops of wire are constructed as described in items 1, 2 and 3 above, a piece of stretchable, thin, see-thru synthetic fabric as shown in 2a and 2b of
Hereby, petals of three-dimensional characteristic are created.
Step Two: Creation of Three-Dimensional Artificial Flowers
A three-dimensional artificial flower is comprised of a number of three-dimensional artificial petals with or without an artificial stamen or a set of artificial stamens. The three-dimensional artificial petals used in this construction can be of differing shape, size, structure, and color as deemed appropriate. Additionally, in the case where the petal's fabric comes in solid color, a marker or a color pen can be used to mark or draw in the desired pattern to enhance the beauty, colorfulness, and the life-like quality or the finished three-dimensional artificial flower.
The procedure for combining the three-dimensional petals into a three-dimensional artificial flower with or without stamen is as follows:
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- 1. Where no stamen is used, the first petal should be affixed securely to an artificial stem which is a piece of rigid rod of varying size, length, thickness, and color by using a piece of thread or wire, glue, or other binding materials including floral tapes. Once the first petal is properly secured to the stem, the remaining petals are to be added one at a time using the procedure outlined above until all of the remaining three-dimensional artificial petals are affixed to the artificial stem to form a three-dimensional artificial flower as shown in
FIG. 5A . - 2. Where a stamen or a set of stamen is used, the stamen should first be affixed securely to the artificial stem by means including but not limited to the use of pieces of thread or wire, glue, or other binding materials including floral tape. The first three-dimensional petal, along with the remaining three-dimensional petals, can then be affixed to the artificial stem one by one in the same manner as above. Thus creating an artificial flower of three-dimensional appearance as shown in
FIG. 5B .
- 1. Where no stamen is used, the first petal should be affixed securely to an artificial stem which is a piece of rigid rod of varying size, length, thickness, and color by using a piece of thread or wire, glue, or other binding materials including floral tapes. Once the first petal is properly secured to the stem, the remaining petals are to be added one at a time using the procedure outlined above until all of the remaining three-dimensional artificial petals are affixed to the artificial stem to form a three-dimensional artificial flower as shown in
Step Three: Creation of Three-Dimensional Artificial Buds
An artificial bud is made from twisting and bending two or more thin, bendable, and flexible pieces of wire or strand of wire to form the connecting top as shown in 1 in
Step Four: Creation of Three-Dimensional Artificial Leaves
Three-dimensional artificial leaves are made using the similar method of construction as outlined in the creation of the three-dimensional artificial petals in step one. As aforementioned, a piece of thin, flexible, and lightweight wire or strand of wire can be used to construct a loop of wire. The stretchable, lightweight, and see-thru nylon fabric is then used to cover the entire loop of wire with its ends being gathered and secured to the base of the loop of wire utilizing the aforementioned technique. Additionally, the bending and curving of the loops of wire as shown in 1 in
Step Five: The Creation of a Pin Utilizing the Three-Dimensional Artificial Flower
In making a pin using the three-dimensional artificial flower, there is no need to tie the ends of the loops of wire or the bases of the three-dimensional artificial petals to an artificial stem. Rather, the end of the flexible lightweight wire coming from each of the petals and the artificial stamen should be gathered and secured together using threads and multiple wrapping of floral tape. A pin or a clip should then be affixed on to the area. In order to increase durability, the pin or clip should be stitched in using the threads, glue should be added, and multiple wrapping of floral tape should also be applied.
Claims
1. The products are three-dimensional artificial flowers, petals, bulbs, buds, and leaves made of materials including but not limited to the thin, bendable, and one or more lightweight wire or strand wire loops and the see-thru, airy, lightweight, and stretchable synthetic fabric of differing colors combined into the above individual products of distinct three-dimensional characteristic and/or structure.
2. The methods and processes of manufacturer are:
- A. The use of wire other than straight wire, i.e. curly, twisted, spring/coil like, or any uneven line of wire to construct a loop of wire creating the separation between two layers of the fabric and cavity formation inside the loop.
- B. The use of one or more curved or bended wires running from the base of the loop to any other part of the loop inside the loop to provide support for the upper layer of the fabric and/or the separation from the lower layer, and also to create cavity formation inside the loop.
- C. The use of curved, dome like, or any bended loop of wire, other than flat loops of wire, to create the separation between the fabric layers and also the cavity formation inside the loop.
Type: Application
Filed: Aug 22, 2003
Publication Date: Feb 24, 2005
Inventors: Wanthida Kentner (Lafayette, IN), Robert Kentner (Lafayette, IN), Narong Chandruangphen (Lafayette, IN)
Application Number: 10/645,766