Non-slip shower tile

Description

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present disclosure generally relates to personal hygiene products. More particularly, the present disclosure relates to a non-slip shower tile for providing a gripping surface to prevent users from slipping while showering. Furthermore, the non-slip shower tile allows the users to remove dry, dead skin from their feet without requiring bending or an additional hand-held grooming device.

2. Description of the Related Art

Flooring tiles and other hard flooring surfaces are easy to maintain for extended periods. However, most flooring surfaces turn slippery when wet. This is especially dangerous for showering areas of bathrooms, where the showering areas remain wet most of the time. It is estimated that a minimum slip resistant coefficient of approximately 0.2 to 0.25 is required to prevent slipping. The coefficient can be measured following the American Society for Testing and Materials (ASTM) Standard Testing Procedure. Accordingly, several studies have been conducted on anti-slip floor materials.

Typically, flooring tiles or surfaces improve grip by embedding abrasive particles on the surface layer. Such abrasive particles are incorporated into the surface layer by mixing a combination of sand, aluminum oxide, etc., and glazing, spraying or painting on the surface layer. This improves grip when the floor surface is newly glazed or sprayed. Over time, with prolonged use, the abrasive particles are prone to wear and detach from the surface. For elderly users, a task such as showering may be challenging due to the lack of confidence for fear of falling while showering. With growing age, the limbs and extremities of the body may not have the requisite strength to accomplish such tasks without support. A device, which comprises a non-slip surface that is not easily worn out, is therefore required.

U.S. Pat. Nos. 3,227,604, 4,239,797 and 4,336,293, for example, disclose floor materials having grit or particles embedded in or distributed throughout the surface layer. These materials have the drawback that the surface layer, if worn by walking, no longer retains non-slip properties. Furthermore, the embedded particles tend to separate from the surface with time.

U.S. Pat. No. 3,676,208 to Griffin discloses a floor surface wherein glass spheres are incorporated into a surface adhesive film. An epoxy-type resin containing a significant concentration of minuscule solid spheres, such as glass beads, is coated onto a floor surface. This grit-containing epoxy mixture increases the slip resistance of the floor, but it is believed that it does not provide sufficient slip resistance when heavily coated with water or grease.

U.S. Pat. No. 3,030,251 discloses non-slip sheet articles comprising an essentially-continuous, flexible, readily-deformable, rubbery underlying matrix within which a multitude of discrete flexible resilient non-adhesive particles are distributed. However, the particles are not exposed. While the particles have lower abrasion resistance than the matrix layer, they are non-adhesive and are therefore easily releasable.

Another disadvantage of existing products is the lack of abrasive surfaces like a pumice stone provided on flooring surfaces for removal of dry skin or dead skin while showering. Aged users with bad backs find it difficult to bend over to remove dry skin from the feet. A device, which provides a non-slip surface and allows the user to remove dry or dead skin from his/her feet without requiring bending over, is therefore required. As seen above, there exists a need for a device that overcomes the drawbacks and limitations of the art, is of low complexity, has low manufacturing costs and is not prone to defects.

Hence, there is a long felt but unresolved need for a device, which comprises a non-slip surface that is not easily worn out. Moreover, there is a need for a device, which provides a non-slip surface and allows the user to remove dry or dead skin from his/her feet without requiring bending over. Furthermore, there is a need for a device, which is of low complexity, has low manufacturing costs, and is easily customizable.

SUMMARY OF THE INVENTION

The invention, disclosed herein, addresses the above-mentioned need for a device, which comprises a non-slip surface that is not easily worn out. Moreover, the invention addresses the need for a device, which provides a non-slip surface and allows the user to remove dry or dead skin from his/her feet without requiring bending over. Furthermore, the invention addresses the need for a device, which is of low complexity, has low manufacturing costs, and is easily customizable.

The non-slip shower tile comprises a rectangular base member, an abrasive surface, and at least two ribbed surfaces. The rectangular base member comprises a non-slip upper surface and a lower surface. The non-slip upper surface is configured to receive a user contact surface, for example, a foot of a user. The lower surface of the rectangular base member is positioned proximal to a floor of a shower area. The abrasive surface is positioned on the non-slip upper surface for removing dry skin or dead skin from the user contact surface. The ribbed surfaces are positioned on opposing edges of the abrasive surface for removing dry skin from the user contact surface.

Further objects of the invention will be brought out in the following part of the specification, wherein detailed description is for the purpose of fully disclosing the invention without placing limitations thereon.

BRIEF DESCRIPTION OF THE DRAWINGS

With the above and other related objects in view, the invention consists in the details of construction and combination of parts as will be more fully understood from the following description, when read in conjunction with the accompanying drawings in which:

FIG. 1 exemplarily illustrates a perspective view of a non-slip shower tile.

FIG. 2 exemplarily illustrates a top view of a non-slip shower tile.

FIG. 3 exemplarily illustrates a bottom view of a non-slip shower tile.

DETAILED DESCRIPTION OF THE EMBODIMENTS OF THE INVENTION

FIG. 1 exemplarily illustrates a perspective view of a non-slip shower tile 100. A non-slip shower tile 100 comprises a rectangular base member 101, an abrasive surface 102, and at least two ribbed surfaces 103. The rectangular base member 101 comprises a non-slip upper surface 101a and a lower surface 101b. In different embodiments, the rectangular base member 101 may be replaced by a square base, circular base, oval base, elliptical base, triangular base, etc. As used herein, “non-slip upper surface” may be construed to refer to a non-slip material layer that is part of the rectangular base material 101. For example, the non-slip upper surface may include a plurality of ribbed projections, spikes, etc. These ribbed projections or spikes may be arranged in different patterns on the non-slip shower tile 100. Such patterns may include aesthetic designs such as floral patterns, geometric patterns, or the like. Moreover, the spikes or ribbed projections may be configured in a pyramidal geometry, a hemi-spherical geometry, a cuboidal geometry, etc. Alternately, the “non-slip upper surface” may also include a detachable ribbed layer that may be attached to or removed from the non-slip shower tile 100. In such an embodiment, the non-slip upper surface 101a may use conventional attachment means for attaching to and detaching from the non-slip shower tile 100. This may include but are not limited to hook and loop fasteners, snap fasteners, or the like. Each of at least two ribbed surfaces 103 include ribbings 103a thereon. Each of ribbings 103a extend horizontally across each of two ribbed surfaces 103. Ribbings 103a may be best seen in FIG. 1 and FIG. 2.

In an embodiment, the non-slip upper surface 101a is configured to receive a user contact surface, for example, a foot of a user on predetermined portions 101c of the rectangular base member 101. The non-slip upper surface 101a provides sufficient grip for the foot of the user while showering. The ribbed projections provide sufficient grip even when the non-slip upper surface 101a is wet. The lower surface 101b of the rectangular base member 101 is positioned proximal to a floor of a shower area. In the preferred embodiment, the lower surface 101b of the non-slip shower tile 101 is positioned approximately 1-inch above the floor of the shower area using rubber pads 104 at four corners of the lower surface 101b. Additionally, the non-slip upper surface 101a may be configured to slope gradually towards the floor of the shower area. This allows the any residual water to drain off from the non-slip upper surface 101a. In an alternate embodiment, the non-slip upper surface 101a may be configured to comprise a plurality of drain holes at the predetermined portions 101c of the rectangular base member 101. The drain holes may also be positioned throughout the entire non-slip upper surface 101a at fixed distances to provide improved water removal from the rectangular base member 101.

FIG. 2 exemplarily illustrates a top view of a non-slip shower tile 100. In an embodiment, an abrasive surface 102 and at least two ribbed surfaces 103 are provided on an upper portion of the rectangular base member 101 of the non-slip shower tile 101 as exemplarily illustrated in FIG. 2. It will be appreciated that the abrasive surface 102 and the at least two ribbed surfaces 103 may also be positioned at various other sections of the non-slip upper surface 101a of the rectangular base member 101 based on design and utility requirements. A user may place his/her feet at the predetermined portions 101c of the rectangular base member 101. Further, the abrasive surface 102 is positioned on the non-slip upper surface 101a for removing dry skin or dead skin from the user contact surface. In an embodiment, the abrasive surface 102 may be a hemispherical portion of a pumice stone fixedly attached to the non-slip upper surface 101a. As such, the abrasive surface 102 may be employed to remove dead skin or calluses or for more aggressive removal of dead skin. A callus is an area of thickened skin that is formed as a response to repeated friction, pressure, or other irritation. Calluses may form due to wearing incorrectly fitting footwear or due to other reasons. In an embodiment, the abrasive surface 102 and the two ribbed surfaces 103 are slightly raised and rounded to further assist the user with a contour to aid in foot cleaning and dead skin removal.

In an embodiment, the ribbed surfaces 103 are positioned on opposing edges of the abrasive surface 102 for removing dry skin from the user contact surface. The ribbed surfaces 103 are provided for removing dry skin that does not require abrasive force as much as calluses or thicker dead skin. The abrasive surface 102 and the ribbed surfaces 103 are fixedly attached to the rectangular base member 101. In an embodiment, the non-slip shower tile 100 is made of materials such as plastic ceramic, wood, fiberglass or the like. It will be appreciated that the non-slip shower tile 100 may be made of a variety of materials using several manufacturing techniques. For instance, the non-slip shower tile 100 may be made from plastic using injection molding techniques. Alternately, the non-slip shower tile 100 may be formed from a suitable powder composition that forms a ceramic or porcelain tile with non-slip properties, comprising a mixture of clay, feldspar, silica, etc., in varying proportions, as generally known in the art. The powder composition may be spray-dried and then pressed in a mold. The mold may be shaped to create the ribbed exterior surface of the rectangular base member 101 of the non-slip shower tile 100 as disclosed in the detailed description of FIG. 1. The mold produces a non-slip shower tile 100 of a desired shape, which is then fired. It will be appreciated that the non-slip shower tile 100 may be manufactured or formed from any mixture of ingredients known in the art using processes that may be apparent to those skilled in the art.

FIG. 3 exemplarily illustrates a bottom view of a non-slip shower tile 100. The lower surface 101b of the non-slip shower tile 100 is provided with a set of rubber pads 104 at the four corners of the lower surface 101b as exemplarily illustrated in FIG. 3. As such, the rubber pads 104 serve to raise the rectangular base member 101 suitably. In an embodiment, the rubber pads 104 may be of different heights to cause the rectangular base member 101 to gradually slope towards the floor of the shower area. This allows the water on the non-slip shower tile 100 to drain efficiently.

The non-slip shower tile 100 is placed on the floor of the shower. In an embodiment, the rubber pads 104 help elevate the non-slip shower tile 100. The non-slip shower tile 100 encourages safety and peace of mind for users while showering due to its grip and stability. Further, the non-slip shower tile 100 provides elderly users, users with bad backs, etc., with an alternative for easy feet cleaning and dead skin removal without requiring bending over. For elderly users, the non-slip shower tile 100 provides confidence in not falling while showering. Moreover, for diabetic patients who should not have their feet soaking in water for too long, the raised platform helps ensure the water is effectively drained. In the preferred embodiment, the non-slip shower tile 100 has a length and width of 16-inches and a height of approximately 1.5 inches. The non-slip shower tile 100 may be provided in multiple colors and patterns that match the flooring tiles of the shower area.

The foregoing description conveys the best understanding of the objectives and advantages of the present invention. Different embodiments may be made of the inventive concept of this invention. It is to be understood that all matter disclosed herein is to be interpreted merely as illustrative, and not in a limiting sense.