The present disclosure generally relates to disposable plastic shoe covers.
Shoe covers are widely used in situations where it is desirable prevent depositing material (e.g., dirt) on a person's shoes onto flooring, and depositing material from the floor onto the person's shoes. Typically, shoe covers are made from plastic sheet material that is formed roughly into a shape that accommodates a person's foot or shoe. Usually the shoe covers come in one size or only a very few sizes, making it difficult to properly fit a range of shoe sizes. To alleviate that problem shoe covers often have elastic material around the openings in the shoe covers into which the shoe or foot is inserted. The elastic material yieldably constricts the opening so that once the shoe or foot is inserted into the shoe cover, the elastic material pulls the shoe cover around the ankle so that the shoe cover is held onto the ankle. Manufacture of shoe covers including elastic material requires a distinct step of securing the elastic material to the plastic of the shoe cover. The elastic material must be accurately located with respect to the shoe cover opening. Moreover, storage of shoe covers prior to use is less efficient, because the covers do not lie flat when the elastic material is applied because the elastic material causes the plastic to bunch up around the opening.
In one aspect of the present invention, a web of shoe covers comprises a first sheet member of polymeric material. A second sheet member of polymeric material generally underlying the first sheet member. The first and second sheet members having opposite longitudinal edges and being operatively connected to each other at the respective longitudinal edges. The first and second sheet members having a length parallel to the longitudinal edges and a width transverse to the longitudinal edges that is less than the length of the first and second sheet members. A first line of weakness extending between the longitudinal edges of the first and second sheet members at a first location. The first line of weakness being constructed to promote tearing of the first and second sheet members along the first line of weakness. A second line of weakness extending between the longitudinal edges of the first and second sheet members at a second location, the second line of weakness being constructed to promote tearing of the first and second sheet members along the second line of weakness. A first shoe cover defined between the first line of weakness and the second line of weakness adjacent to a first of the opposite longitudinal edges of the first and second sheet members. A second shoe cover defined between the first line of weakness and the second line of weakness adjacent to a second of the opposite longitudinal edges of the first and second sheet members.
In another aspect, a web of shoe covers comprises a first sheet member of polymeric material. A second sheet member of polymeric material generally underlies the first sheet member. The first and second sheet members have opposite longitudinal edges and are operatively connected to each other at the respective longitudinal edges. The first and second sheet members have a length parallel to the longitudinal edges and a width transverse to the longitudinal edges that is less than the length of the first and second sheet members. A first line of weakness extending between the longitudinal edges of the first and second sheet members at a first location, the first line of weakness being constructed to promote tearing of the first and second sheet members along the first line of weakness. A second line of weakness extending between the longitudinal edges of the first and second sheet members at a second location, the second line of weakness being constructed to promote tearing of the first and second sheet members along the second line of weakness. A first shoe cover defined between the first line of weakness and the second line of weakness. A second shoe cover defined between the first line of weakness and the second line of weakness. A zipper integrated into the first and second sheet members and arranged for adjusting the size of a foot opening into the first shoe cover when the first shoe cover is separated from the second shoe cover. The zipper being further arranged for adjusting the size of a foot opening into the second shoe cover when the second shoe cover is separated from the first shoe cover.
In yet another aspect, a web of shoe covers comprises a first sheet member of polymeric material. A second sheet member of polymeric material generally underlies the first sheet member. The first and second sheet members have opposite longitudinal edges, lengths length parallel to the longitudinal edges and widths transverse to the longitudinal edges that is less than the length of the first and second sheet members. A first gusset disposed between the first and second sheet members adjacent one of the longitudinal edges of the first and second sheet members. The first gusset interconnecting the first and second sheet members at said one longitudinal edge. A second gusset disposed between the first and second sheet members adjacent the other of the longitudinal edges of the first and second sheet members. The second gusset interconnecting the first and second sheet members at said other longitudinal edge. A first line of weakness extending between the longitudinal edges of the first and second sheet members at a first location. The first line of weakness being constructed to promote tearing of the first and second sheet members along the first line of weakness. A second line of weakness extending between the longitudinal edges of the first and second sheet members at a second location. The second line of weakness being constructed to promote tearing of the first and second sheet members along the second line of weakness. A first shoe cover defined between the first line of weakness and the second line of weakness. A second shoe cover defined between the first line of weakness and the second line of weakness and separable from the first shoe cover. The first gusset being arranged to form a bottom of the first shoe cover when the first show cover is separated from the second shoe cover. The second gusset being arranged to form a bottom of the second shoe cover when the second shoe cover is separated from the first shoe cover.
Other objects and features of the present disclosure will be in part apparent and in part pointed out herein.
Corresponding reference numbers indicate corresponding parts throughout the drawings.
Referring now to the drawings and in particular to
The web of shoe covers includes a first sheet member 14A of polymeric material and a second sheet member 14B of polymeric material underlying the first sheet member. As they are situated in the web, the first and second sheet members 14A,14B include opposite longitudinal edges 16A, 16B, that overlie each other. The first and second sheet members having a length parallel to the longitudinal edges and a width transverse to the longitudinal edges. The length of the first and second sheet members is very much greater than the width over the entire roll. In the illustrated embodiment, the first and second sheet members are connected to each other at the overlying longitudinal edges 16A, 16B by respective gussets 24A, 24B. In the web illustrated in the drawings, each gusset 24A, 24B is folded in half and resides between the first and second sheet members 14A, 14B adjacent a respective longitudinal edge of the first and second sheet members. However, it will be understood that the gussets 24A, 24B could be eliminated and the longitudinal edges could be directly connected together. In one embodiment, the web 12 can be formed initially as a seamless tube in a blown film process. In some embodiments, the web is formed from a blown film extrusion of polyethylene, polypropylene or other compatible polyolefins or blends (broadly, “polymeric materials”). In still other embodiments, the web may be coextruded with a higher friction formulation and/or embossed to increase the coefficient of friction and improve the grip of the shoe cover with the floor. An example of a higher friction formulation can be found in co-assigned U.S. Pat. No. 10,065,768, the disclosure of which is incorporated herein in its entirety. In some embodiments, the higher friction achieved by co-extrusion with a higher friction formulation and/or embossment would be confined to the region of the gussets. The gussets would be formed by folding in side portions of the tube and the tube would be collapsed into a flattened state (as shown in the drawings). However, other ways of forming the web can be used.
As shown in
An upper seal 32 connecting the first sheet member to the second sheet member extends generally between the first perforation line 26 and the second perforation line 28. The term “upper” is used because the seal is ultimately associated with portions of the first and second shoe covers 20,22 that cover the upper of a shoe received in the cover. More particularly, the upper seal 32 extends between a second transverse seal 36B and a third transverse seal 36C described hereinafter. Similar to the third perforation line, the upper seal 32 includes a first segment 32A on one side of the longitudinal centerline CL of the web and a second segment 32B on the opposite side of the longitudinal centerline. Each of the first and second segments 30A, 30B of the third perforation line 30 lies closer to the longitudinal centerline CL of the web than the corresponding first and second segment 32A, 32B of the upper seal 32. As a result of this configuration, the first segment 32A of the upper seal 32 closes a forward portion of the first shoe cover 20 even after the third perforation line 30 is torn to separate the first and second shoe covers 20, 22. The second segment 32B of the upper seal 32 closes a forward portion of the second shoe cover 22 after separation from the first shoe cover 20. The first segment 30A of the third perforation line 30 forms an opening (not shown) in the second shoe cover 22. The second segment 30B of the third perforation line 30 forms an opening 20C (see
The first and second perforation lines 26, 28 are made up of perforations that extend through the first and second sheet members and also through the gussets, where the perforation lines extend across the gusset. Other ways of preferentially weakening the material of the web for directed tearing besides perforating may be used. First and second transverse seals 36A, 36B extend widthwise of the web in close proximity to, but on opposite sides of the first perforation line 26. Similarly, a third transverse seal 36C and a fourth transverse seal 36D extend widthwise of the web in close proximity to, but on opposite sides of the second perforation line 28. Each of the first and second transverse seals 36A, 36B joins together the first sheet member 14A, the second sheet member 14B and the folded halves of the gussets 24A, 24B between the first and second sheet members. As a result of this construction, when the first and second perforation lines 26, 28 are torn, the second transverse seal 36B holds a toe portion 20B of the first shoe cover 20 and a heel or back portion 22A of the second shoe cover 22 closed. Likewise, the third transverse seal 36C holds a heel or back portion 20A of the first shoe cover 20 and a toe portion 22B of the second shoe cover 22 closed.
The web further includes a zipper 40 that extends along the length of the web. In the illustrated embodiment, the zipper 40 extends continuously along the length of the web. Referring to
It will be understood that other forms of zippers (not shown) can be used within the scope of the present invention. For example, the zipper may comprise two or more male and female zipper elements. In addition, the composition and construction of the zipper can be controlled in known ways in order to achieve an increased amount of force required to release the male and female zipper elements. It will be understood that as disposed about the ankle and remaining partially open, forces can be applied during ordinary walking and foot movement that might tend to pry the male and female zipper elements apart. Accordingly, it is desirable to have a more aggressive connection of the male and female zipper elements. The zipper could also have other forms, such as including male features (e.g., the arrow-shaped head) and female features (the channel-shaped member) at intermittent (spaced-apart) locations along the length of the web. An example of such an intermittent zipper is shown in
The zipper 40 is traversed by the first through fourth transverse seals 36A, 36B, 36C, 36D. Each of the first through fourth seals joins the male and female zipper elements 42, 44 together. However, two additional outer zipper seals 40C, 40D are provided adjacent to each of the first and second transverse seals 36A, 36B, and zipper seals 40E, 40F are adjacent the third and fourth transverse seals 36C, 36D. Two of the outer zipper seals 40C, 40D are each located next to one of the first and second transverse seals 36A, 36B. These two outer zipper seals are each placed on an opposite side of the first or second transverse seal from the side to which the first perforation line 26 is located. The other two of the outer zipper seals 40E, 40F are each located next to one of the third and fourth transverse seals 36C, 36D. These two outer zipper seals 40E, 40F are each placed on an opposite side of the third of fourth transverse seal from the second perforation line 28. The first and second perforation lines 26, 28 also cross over the zipper 40 to separate the zipper (along with a pair of shoe covers) from the remainder of the web.
The zipper 40 is also traversed by the upper seal 32 and the third perforation line 30. The third perforation line 30 allows the zipper to be separated into distinct zipper units 46A, 46B (or “first and second portions”), one associated with the first shoe cover 20 and the other associated with the second shoe cover 22. The second segment 30B of the third perforation line 30 is located above the zipper unit 46A in the first shoe cover 20, in the orientation of the first shoe cover when worn. This arrangement allows a portion of the shoe cover between the zipper unit and the edge of the opening in the first shoe cover 20 to be grasped to open the first shoe cover opening 20C and to provide a grip for separating the male and female zipper elements 42, 44 to accomplish the opening. The same arrangement exists for the second shoe cover 22 in that the first segment 30A of the third perforation line 30 is located above the zipper unit 46B associated with the second shoe cover 22 when the second shoe cover is worn, and provides the same functionality. Inner zipper seals 40A, 40B are located adjacent to the location where the third perforation line 30 crosses over the upper seal 32. The location where the third perforation line 30 and zipper seal cross over each other is located between the two inner zipper seals 40A, 40B. In this way the inner zipper seals 40A, 40E and 40C, 40B form endpoints of the zipper units 46A, 46B and provide a robust and permanent connection and termination of the male and female zipper elements at one end of the opening for each respective shoe cover.
As previously described herein, the web includes gussets 24A,24B which are folded in half and lie between the first sheet member and the second sheet member, as indicated by gusset lines 24. Each of the gussets is located along a longitudinal edge 16A or 16B of the web. When the first and second shoe covers 20, 22 are separated from the web and from each other, the gussets 24A, 24B can be expanded to provide a relatively wide and flat bottom of the corresponding shoe cover. In this way the gussets 24A, 24B allow for the shoe covers 20, 22 to have a width dimension sufficient to receive the widths of shoes that will be covered using the shoe covers, while permitting the first and second shoe covers to be incorporated into a flat web suitable for being rolled into a compact roll. It will be understood that the gusset may take on other forms or even be eliminated within the scope of the present invention.
As various changes could be made in the above products and methods without departing from the scope of the disclosure, it is intended that all matter contained in the above description shall be interpreted as illustrative and not in a limiting sense.
When introducing elements of the present disclosure or the preferred embodiments(s) thereof, the articles “a”, “an”, “the” and “said” are intended to mean that there are one or more of the elements. The terms “comprising”, “including” and “having” are intended to be inclusive and mean that there may be additional elements other than the listed elements.
In view of the above, it will be seen that the several objects of the disclosure are achieved and other advantageous results attained.