Patent Application
20060230499
This invention relates to garment support members and methods and, in particular, to garment support members and methods for adhering a garment to a user's body.
Clothing manufacturers produce a variety of strapless garments for women, and in particular strapless dresses. In the selection of a strapless garment, it is desirable that the garment provide a comfortable fit to the user while remaining in place without exposing more of the user's body than intended. Particularly, a common problem associated with conventional strapless dresses is the slipping down, or the riding down, of the garment as a result of gravity and user's body movement. In addition, since most strapless, and especially strapless and backless, dresses cannot be worn with conventional bras, strapless dresses must also provide support to the user's breasts. Providing adequate support for the user's breasts and prevention of riding down of the dress are of a particular importance to the user when wearing a heavy strapless dress, such as a gown with a lot of ornamentation including beads or sequins.
In some conventional strapless dresses, bra cups have been incorporated into the dress with the intention of providing support for the user's breasts similar to the support provided by a corset or a long-line strapless bra. However, a typical strapless dress does not have the same engineering properties as a corset or a strapless bra, which are typically engineered with up to thirty different elements to ensure proper performance and sufficient support. Therefore, incorporation of bra cups into the garment has not been successful in providing adequate support for the user's breasts.
To reduce these problems, garment manufacturers have also employed boning in their garments to provide additional support for the upper torso of the user. In particular, boning in conventional strapless garments takes the form of stiff tube-shaped members placed vertically within the garment. Another conventional method of preventing riding down of strapless garments is to create a tighter than usual fit of the garments.
These conventional methods, however, suffer from a variety of disadvantages. For example, stiff boning is not suitable for use with many materials and strapless garment designs. In addition, stiff boning materials in the garments or the tight fit of the garments often cause great discomfort to the user, particularly during social occasions, and make it difficult for the user to sit or dance. In addition, these conventional methods are not always successful in preventing riding down of the garment, thus causing the user to constantly pull the garment upwardly so as to avoid baring more than intended.
Another technique which has been used by women to prevent shifting of certain garment fabrics is to use a double-sided adhesive tape. Conventional double-sided adhesive tape comprises a thin clear film coated with adhesive on both surfaces. This tape has been used to adhere selected portions of revealing clothing, such as a blouse, to the user's body to prevent opening or shifting of the clothing. However, the adhesive tapes used to date are not suitable for supporting strapless garments because the thin clear film lacks sufficient mechanical strength and holding power to overcome the force of gravity. For example, the gravitational force applied by a strapless dress to such a tape will cause the tape to disengage from the user's skin, to curl and to adhere onto itself.
It is, therefore, an object of the present invention to provide a garment support member having sufficient mechanical strength and power to support a strapless garment and to prevent riding down of the garment.
It is also an object of the present invention to provide a method of using such a support member.
In accordance with the principles of the present invention, the above and other objectives are realized in a garment support member for supporting a garment on a user's body comprising a support layer having first and second opposing surfaces, first and second adhesive layers disposed on the first and second opposing surfaces of the support layer, and wherein the support layer is formed of a foam material able to support a garment to a user's body. The support member also includes a first backing layer releasably affixed to the first adhesive layer and, preferably, a second backing layer releasably affixed to the second adhesive layer.
In further aspect of the invention, the support layer has undulations in proceeding along its length to give additional strength to the support member. In yet another aspect of the invention, a method of using the support member is disclosed in which one of the first and second adhesive layers is adhered to one of the garment and the user's body and the other of the first and second adhesive layers is adhered to the other of the garment and the user's body so as to adhere the garment to the user's body.
In the embodiment of the invention to be disclosed hereinafter, the foam material is a porous or a non-porous polyurethane foam having a thickness in the range of 1/32 to 1/8 inches, and the first and second adhesive layers comprise non-sensitizing medical grade adhesive. The first and second backing layers comprise coated paper having a smooth surface and each may be of the same size as the support layer or, alternatively, one may be of the same size and the other of greater size as the support layer so that it can serve as a backing for the support layers of more than one garment support member.
Also, in the embodiment disclosed the support layer is formed from two integrated chevron-shaped segments so that along its length it has a first undulation directed in a first sense, then a second undulation directed in the opposite sense and then a third undulation also directed in the first sense. The first, second and third undulations form first, second and third vertex areas, respectively, each of which may have an increased width and be rounded to provide additional mechanical strength to the support layer.
In addition, in the disclosed method, one of the adhesive layers is adhered to a surface of the garment abutting the user's skin when the garment is worn by the user in a first adhering step, and the other adhesive layer is adhered to the user's skin in a second adhering step. The adhesive layer can be adhered to the garment along a top edge portion of a torso area of the garment or along a side of a torso area of the garment. The method further includes removing one of the first and second backing layers to expose the respective one of the adhesive layers prior to the first adhering step and removing the other one of the backing layers to expose the other one of the adhesive layers prior to at least the second adhering step.
The above and other features and aspects of the present invention will become more apparent upon reading the following detailed description in conjunction with the accompanying drawings, in which:
The foam support layer 3 may be formed from a porous or a non-porous foam material having a predetermined thickness, such as polyurethane foam having a thickness in the range of 1/32 to ⅛ inches. Rigid or semi-rigid foam material can be used as the foam support layer 3 of the support member 2. Furthermore, the foam material may be a “closed cell” foam material which is non-porous or has low porosity or an “open cell” foam material which has greater porosity. For example, foam material manufactured and sold by Venture Tape under product number 7432M is suitable for use as the foam support layer 3. The thickness of the support layer can be in a range of 1/32 to ⅛ inches. A preferred thickness is about 1/32 inches. These thicknesses provide the foam support layer 3 with a sufficient mechanical strength to support a strapless garment on a user's body and to avoid curling of the support layer material.
When the support layer 3 is formed from a porous foam material, the porosity of the foam support layer 3 allows the layer 3 to anchor additional adhesive when the adhesive layers 5, 7 are applied to the first and second surfaces 3a, 3b of the support layer. When a non-porous foam material is used to form the support layer 3, the nonporous foam material should have sufficient bonding properties so as to anchor the adhesive. As a result, the support member 2 has much stronger adhesive properties than the conventional double-sided tapes used to adhere clothing to a user's body.
The first and second adhesive layers 5, 7 can be formed from an aggressive adhesive which is non-irritating to the skin of the user. For example, a non-sensitizing medical grade adhesive may be used for the adhesive layers. As can be appreciated, other conventional adhesive materials may also be suitable for use as the adhesive layer 5, 7.
As shown in
As can be appreciated, the first and second backing layers 9, 11 protect the first and second adhesive layers 5, 7, respectively, from dirt and drying out. When the user separates, or peels off, the first backing layer 9 from the member 2, the first adhesive layer 5 remains on the foam support layer 3 so that the support member 2 can be applied and adhered to either the user's skin or the garment. Similarly, when the user separates, or peels off, the second backing layer 11 from the foam support layer 3, the second adhesive layer 7 remains on the support layer 3 so that the support member 2 can be applied and adhered to the user's skin, if the first layer has been applied to the garment, or to the garment if the first layer has been applied to the user's skin. As can be appreciated, the backing layer 9, 11 may be removed from the support member 2 by initiating the separation of the backing layer 9, 11 from member 2 and pulling off the backing layer 9, 11. The backing layer 9, 11 may also be removed from the member 2 by initiating the separation of the backing layer from the member 2, rolling the backing layer 9, 11 onto itself and then pulling the rolled up backing layer 9, 11 off the support member 2.
As shown in
The first and second backing layers 9, 11 may be formed from a flexible material having a smooth surface. A suitable material may be a coated paper, such as, for example, 78 pound release Kraft liner. The smooth surface of the backing layer 9, 11 allows the backing layer 9, 11 to be peeled off to expose the respective adhesive layer 5, 7 without removing the adhesive from the foam support layer 3.
The support member 2 may be formed in a variety of shapes. For example, the support member 2 may be formed as a band or a strip having a substantially rectangular or curved shape. A particular configuration found desirable is shown in
More particularly, in
The “wing-shaped”, “W-shaped” or “zig-zag-shaped” configuration of the support member 2 shown in
As can be seen in
As mentioned previously,
In the arrangement of
The garment support member 1 of
In the first step, either the first or second backing layer 9 or 11 of the garment support member 1 is peeled off to expose the respective adhesive layer 5 or 7. When an arrangement shown in
In the next step, the exposed adhesive layer 7 is adhered to either the strapless garment or the user's body at a desired position. In practice, it is a preferable that the adhesive layer 7 is adhered to a position on an inner surface of the strapless garment which is to lie adjacent to the portion of the user's body where support of the garment by the user's body is desired. For example, the layer may be adhered to the inner surface of the garment at a position along a top edge of the torso area of the garment in a horizontal or vertical position. The layer may also be adhered vertically or horizontally along a side 15a of the torso area of the garment 15 near the top edge as illustratively shown in
After the second adhesive layer 7 is adhered to the strapless garment, the first backing layer 9 is removed or peeled off from the support member 2 to expose the first adhesive layer 5 of the member. The exposed first adhesive layer 5 is then adhered to the user's body by pressing the garment to the user's skin. When the exposed adhesive layer is adhered to the user's skin, the garment will remain in the same position with respect to the user's body until it is removed by the user.
Finally, when the user wishes to remove the garment, the user can remove the member 2 from the skin and from the garment by slowly pulling the garment away from the skin in the area where the member 2 is adhered to the skin. The first adhesive layer 5 will then release from the user's skin due to the force applied by the pulling of the garment. The member 2 may then be removed from the garment by pulling the member 2 from the garment.
In the above-discussion, only a single garment support member 1 was described as being used to adhere a garment to a user's body. However, it is apparent, that depending on the nature of the garment and the degree to which it requires to be supported on the user's body, more than one support member may be used. Thus, for example, heavier garments may require two or more support members 1. In such case, for example, a support member may be used on opposite torso areas of the garment in the manner illustrated in
In all cases it is understood that the above-described arrangements are merely illustrative of the many possible specific embodiments which represent the applications of the present invention. Numerous and varied other arrangements can be readily devised in accordance with the principles of the present invention without departing from the spirit and scope of the invention, as defined by the accompanying claims. For example, materials other than polyurethane foam may be used to form the support layer of the support member.
