The present disclosure relates generally to sheet product dispensers and more particularly to various sheet product covers and sheet product spindles for use with sheet product dispensers, including but not limited to tissue dispensers for coreless tissue systems.
Sheet product dispensers, such as tissue paper dispensers, in hotels and higher end office spaces often, if not exclusively, are designed for core-based tissue rolls. These typically include one or two sheet product roll holder arms extending from a wall or counter cabinet. Such sheet product dispensers may dispense tissue inefficiently (e.g., by permitting freespinning, which causes more product than is needed to be dispensed per use) and/or may undesirably expose rolls of tissue to splashing. In addition, these conventional dispensers may be aesthetically unpleasant, e.g., the sight of an exposed, substantially depleted roll in a hotel room may be perceived as unhygienic and may cause hotel and office space management to replace tissue rolls before those rolls are depleted. Therefore, improved tissue dispensers are needed to address one or more of these deficiencies and perceptions.
In one aspect, new and improved spindles are provided, particularly for use with a coreless sheet product roll. In some embodiments, the spindle includes a hollow cylindrical body, which has at least one elongated channel in a sidewall of the body; a rod which extends partially out of a first end of the body; and a spring disposed within the hollow cylindrical body and having one end in biasing contact with an end of the rod disposed within the body, wherein the rod includes at least one flexible tab which is matingly engaged within the at least one channel, permitting the rod to translate within the hollow cylindrical body without being able to fall out of the body. The body may have a closed second end opposed to the first end, and the second end may include an integral disk as well as an integral end piece for mounting to a roller arm.
In another embodiment, the spindle includes a hollow cylindrical body comprising a first end which has an opening bounded by an inward facing ledge; a rod which extends partially out of the first end of the body and which comprises a radial ledge; and a spring disposed within the hollow cylindrical body and having one end in biasing contact with an end of the rod disposed within the body, wherein the rod is permitted to translate within the hollow cylindrical body but cannot fall out of the first end of the body due to interference between the inward facing ledge of the body and the radial ledge of the rod. In some variations of this embodiment, the body may include an internal wall which divides the first hollow space open toward the first end and a second hollow space open toward the second end, wherein the second hollow space is configured to receive an elongated end piece for mounting the spindle.
In yet another embodiment, the spindle includes a hollow cylindrical body; a rod which extends partially out of the first end of the body; a spring disposed within the hollow cylindrical body and having one end in biasing contact with the end of the rod disposed within the body; and a friction hub disposed around the hollow cylindrical body between ends of the body, the friction hub being rotatable around the body, wherein the rod is configured to translate within the hollow cylindrical body without being able to fall out of the body. The body may have at least one radial channel in the outer surface of the body and the friction hub may include at least one member engaged in the radial channel to limit axial translation of the friction hub relative to the body. The body may have a second end opposed to the first end and the second end comprises an opening which is closed off by an end cap secured to the second end of the body, wherein the end cap includes an end piece for mounting to a roller arm. In some variations, the rod has a spring-facing end which comprises an anchor which is configured to slide within channels in the inner surface of the body but cannot fall out of the first end of the body due to interference between at least one ledge of the anchor and at least one end wall of the channels.
In another aspect, new and improved cover assemblies are provided, particularly for use with a coreless sheet product roll. In some embodiments, the cover assembly includes a mounting member for securing the assembly to a surface; a pair of arms spaced for securing a spindle and a roll of sheet product therebetween; and a cover connected to the mounting member and disposed over a space between the pair of arms, wherein at least one of the arms comprises (i) a bearing for receiving a mounting end of the spindle and (ii) an adjustable clamp disposed about and in contact with the bearing. In some variations, the bearing and the clamp are concealed in a compartment within the at least one arm. The bearing may include a non-cylindrical recess configured to receive a non-cylindrical mounting end, such that the mounting end is rotationally fixed with the bearing.
These and other aspects and improvements of the present disclosure will become apparent to one of ordinary skill in the art upon review of the following detailed description when taken in conjunction with the several drawings and the appended claims.
In one aspect, the present disclosure addresses the foregoing shortcomings of sheet product dispensers by replacing the core-based tissue rolls with coreless sheet rolls and by providing improved tissue dispenser spindles, covers, assemblies and kits of components for retrofitting core-based dispenser systems. The improved tissue dispenser spindles and covers are adapted for retrofit of the core-based tissue dispensers, e.g., to cooperate, i.e., operably engage with, with conventional roll holder arms, typically found in hotels and higher end office spaces.
The presently disclosed dispenser systems advantageously may modify or increase pull force to reduce waste, save money on labor, reduce mess, and improve quality perceptions. The covered rolls also may provide a hygienic benefit to the user.
The present disclosure includes embodiments of sheet product dispenser systems, spindles, adaptors, and covers, which may be used together in various combinations. The embodiments are described in detail herein to enable one of ordinary skill in the art to practice the sheet product dispensers and related methods, although it is to be understood that other embodiments may be utilized and that logical changes may be made without departing from the scope of the disclosure. Reference is made herein to the accompanying drawings illustrating some embodiments of the disclosure, in which use of the same reference numerals indicates similar or identical items. Throughout the disclosure, depending on the context, singular and plural terminology may be used interchangeably.
As used herein, the term “sheet product” may include a product that is relatively thin in comparison to its length and width. For example, the sheet product may have a relatively flat, planar configuration. In some embodiments, the sheet product is flexible or bendable to permit, for example, folding, rolling, stacking, or the like. In this regard, sheet product may, in some cases, be formed into stacks or rolls for use with various embodiments described herein. Some example sheet products include towel, bath tissue, facial tissue, napkin, wipe, wrapping paper, aluminum foil, wax paper, plastic wrap, or other sheet-like products. Sheet products may be made from paper, cloth, non-woven, metallic, polymer or other materials, and in some cases may include multiple layers or plies. In some embodiments, the sheet product (such as in roll or stacked form) may be a continuous sheet that is severable or separable into individual sheets using, for example, a tear bar or cutting blade. Additionally or alternatively, the sheet product may include predefined areas of weakness, such as lines of perforations, that define individual sheets and facilitate separation and/or tearing. In some such embodiments, the lines of perforations may extend along the width of the sheet product to define individual sheets that can be readily separated by a user.
In embodiments for use with the present dispenser systems and components, the sheet product is in the form of a roll, particularly a coreless sheet product roll. In a coreless sheet product roll, the layers of the sheet product are not wound around a core of paperboard or other material; instead, the inner layer of the roll is defined by the sheet product itself. A coreless sheet product has an opening that has a reduced diameter in comparison to a conventional retail bath tissue roll. The coreless roll has an opening, but it is not conventionally sized.
In some embodiments of the present sheet product dispensers, a spindle is inserted into a roll of sheet product. The roll holder typically may include a pair of roll holder arms fixed to a wall or other surface. The holder arms typically include a hole (round or square) into which ends of the spindle are engaged. In some embodiments, the holder may be recessed into a wall or cabinet, or mounted underneath a countertop. In some embodiments, the dispensers and assemblies further include a cover assembly, which surrounds some portion of the roll of sheet product when the roll is mounted onto the spindle. In some embodiments, the roll holder arms include a slot instead of a hole for engaging the spindle.
In some preferred embodiments, the roll holder and roll holder arms are conventional ones that operate (dispense) solely by manual, mechanical action (i.e., no electronics are involved in the dispensing). In some of these embodiments, the presently disclosed spindles and cover assemblies are configured to be retrofit to be operable with those conventional roll holders, e.g., to replace the conventional spindle with the present spindles configured for use with a coreless roll of sheet product.
The spindles described herein can be inserted into coreless sheet product roll. Opposed ends of the spindle may be releasably compressed toward one another to mount the spindle and roll between a pair of roll holder arms. For example, one or both ends of the spindle may engage with a bearing within each roll holder arm. A grip may disposed about the bearing to increase friction against the rotational movement of the bearings and the mounted sheet product spindle. The increase in frictional force acting upon the bearing may reduce waste by reducing freespinning.
Various embodiments of the spindles and cover assemblies are described herein. It is understood that features from different illustrated embodiments may be combined together to produce other variations of spindles and cover assemblies that are included within the scope of the present disclosure.
In one aspect, cover assemblies are provided for use with sheet product rolls, such as coreless sheet product roll. In some embodiments, the cover assembly includes (i) a mounting member for securing the assembly to a surface (e.g., a wall); (ii) a pair of arms spaced for securing a spindle and a roll of sheet product therebetween; and (iii) a cover connected to the mounting member and disposed over a space between the pair of arms, wherein at least one of the arms includes (a) a bearing for receiving a mounting end of the spindle and (b) an adjustable clamp disposed about and in contact with the bearing. The bearing and the clamp may be concealed in a compartment within the at least one arm. The bearing may include a non-cylindrical recess configured to receive a non-cylindrical mounting end, such that the mounting end is rotationally fixed with the bearing.
For example,
As shown in
As shown in
As shown in
In operation, within at least one arm 106, the bearing 130 is fixedly engaged with an end of the spindle, and the bearing is rotatably engaged within an opening in the clamp 131. For example, a non-circular end piece at one end of the spindle may key into a non-circular recess in the bearing in one roller arm, while the other end of the spindle floats freely in an aperture in the other arm. The clamp includes a set screw that can be adjusted to loosen or tighten the frictional engagement between the bearing and clamp, which in turn impacts the rotational frictional force interaction between the components and therefore may be used to control the drag on the bearing and thus the pull force resistance that a user experiences when pulling sheet product from the roll. The arm cover may include a single aperture positioned to access the set screw without removing the cover.
As shown in
Each arm 206 has a first arm end 223 attached to the mount 210 and an opposed second arm end 224. The arm may taper from the first arm end toward the second arm end, as shown. Each arm 206 includes a base 225 and an arm cover 226 having a shape complementary to the shape of the base 225. The base 225 has a series of apertures extending between a first base side 228 and a second base side 229. For example, each arm 206 includes two apertures 227 disposed toward the first arm end 223 that are configured to receive fasteners to secure the arm cover 226. Another aperture 213 is disposed toward to the second arm end 224 and configured to receive an end portion of the spindle 202. A bearing 230 disposed on the second base side 229 is configured to receive the end of the spindle extending through the aperture 213. A clamp 231 is secured about the bearing 230. When the arm cover 226 is secured to the base 225, the bearing 230 and clamp 231 are covered, disposed within recess 218 of the arm cover 126.
In operation, within in each arm 206, the bearing 230 is fixedly engaged with the end of the spindle 202, and the bearing is rotatably engaged within an opening in the clamp 231. The clamp can be adjusted to loosen or tighten the frictional engagement between the bearing and clamp, as described above with respect to clamp 131 and bearing 130.
The clamp 231 includes a first clamp arm 232 and a second clamp arm 233 that extend outward from an arcuate base end 234. The clamp arms 232, 233 includes a set of fastener apertures 235, identical or similar to the apertures in the clamp shown in
In some other embodiments, the spindle includes a hollow cylindrical body including a first end which has an opening bounded by an inward facing ledge; a rod which extends partially out of the first end of the body and which includes a radial ledge; and a spring disposed within the hollow cylindrical body and having one end in biasing contact with the end of the rod disposed within the body, wherein the rod is permitted to translate within the hollow cylindrical body but cannot fall out of the first end of the body due to interference between the inward facing ledge of the body and the radial ledge of the rod. In some variations of this embodiment, the body may include an internal wall which divides the first hollow space open toward the first end and a second hollow space open toward the second end, wherein the second hollow space is configured to receive an elongated end piece for mounting the spindle.
For example,
The sheet product spindle 102 includes a body 141 with a first end 142 and a second end 143. The body 141 includes a hollow shaft that receives a rod 145 and an end piece 146. The rod 145 is configured to translate telescopically within the hollow opening 161 of the body 141, along the lateral axis 144. Rod 145 has a circular cross-sectional shape. The first end 142 has an opening through which the rod 145 extends. The body 141 includes an internal wall 147 which separates the first hollow space open toward the first end 142 and a second hollow space open toward the second end 143 for receiving an end piece. The rod 145 includes a mounting end 148 and an opposed spring-facing end 149. The mounting end 148 of the rod 145 and/or the end piece 146 may be non-cylindrical, e.g., square, so that it is configured to engage the bearings of the cover assemblies described above.
The mounting end 148 advantageously may be shaped to facilitate insertion of the rod 145, and thus the spindle 102, into a central opening of a coreless roll of sheet product, and it may also ease removal of the coreless roll from the spindle 102 if necessary. Insertion can be difficult because coreless tissue product rolls may deform or partially collapse during shipping, storage, and handling, which can alter the roll geometry and therefore collapse or constrict the opening in the center of the roll. The spherical end of mounting end 148 can be pushed into such altered openings without damaging the roll, and without providing an edge that can snag the roll when removing a roll or partial roll from the spindle.
In use, a sheet product roll is disposed around the rod 145 and the body 141, between end piece 146 and mounting end 148. The body 141 and sheet product roll rotate about the rod 145, rotating along the lateral axis 144. In a particular embodiment, the sheet product roll is a coreless roll of bath tissue.
The spindle 102 also includes a ring 160 that is connected to the first end 142 of the body 141. In assembling the spindle, a compression spring 157 and the rod 145 are inserted into the hollow opening 161, and then the ring is fixed to the first end 142. The ring serves to retain the spring and rod within the body.
The rod 145 includes a ledge, or catch 153, and the inner surface of the ring 160 includes a ledge 154. The compression spring 157 causes the catch 153 on the rod 145 to abut the ledge 154 on the ring 160. The ledge 154 thereby limits telescopic extension of the rod 145, while permitting the rod to be displaced partially into the body 141, and compressing the spring 157, to facilitate installation (and removal) of the spindle 102 from a dispenser assembly.
In some embodiments, the rod 145 is a molded polymeric material. For example, the rod 145 may be formed of polyethylene terephthalate, polyethylene, polyvinyl chloride, polypropylene, polystyrene, polylactic acid, polycarbonate, acrylic, acetal, nylon, or acrylonitrile butadiene styrene. In some other embodiments, the rod 145 is formed of a metal or metal alloy, such as aluminum or steel.
The body 141 includes a pair of fins 158 extending outward from the body 141. In other embodiments, three, four, or more fins may be provided on the hollow shaft. The fins 158 may extend (in the axial direction) along all or a portion of the length of the cylindrical body portion. The shapes, sizes, and numbers of the fins may vary; however, suitable configurations are adapted to frictionally engage with a coreless roll of tissue product when the spindle 102 is inserted into the roll, thereby resisting spinning of the roll about the body 141.
The body 141 includes a disc 159 extending radially from the second end 143 of the body 141. The end piece 146 is anchored in an opening within the second end 143 of the body 141. The end piece is an elongated rectangular peg, with a portion extending through the disk 159 and into the first end 142 and another portion protruding out from the disk 159 and body 141. The end piece may be formed of a metal or a rigid polymer. The disc 159 may be circular as shown or any other suitable shape. The disc 159 may include an elastomeric surface on the surface facing the body 141. The disc 159 may include a colored ring or similar indicator to indicate when the sheet product roll is substantially depleted and in need of replacement.
In some embodiments, the mounting end 148 of rod 145 fits into the bearing 130 of one of the arms 106 of cover assembly 104 (or cover assembly 204), and the end piece 146 fits into an aperture in the other one of the arms 106, for example as shown in
The sheet product spindle 202 includes a body 241 with a first end 242 and a second end 243. The body 241 includes a hollow shaft that receives a rod 245 and a compression spring 257. An end piece 246 and a disk 259 are integrally formed with the body 241. For instance, these features may be a single molded polymer structure. The disk 259 may extend radially from the second end 243 of the body 241. The rod 245 is configured to translate telescopically within the hollow opening of the body 241, along the lateral axis 244. The first end 242 has an opening through which the rod 245 extends. The rod 245 includes a mounting end 248 and an opposed spring-facing end 249. The mounting end 248 of the rod 245 and the end piece 246 may engage the bearing(s) of the cover assembly described herein.
Rod 245 has a non-circular cross-sectional shape. For example, it may be X-shaped. The rod 245 may be formed of a polymeric material, for example, by molding, extrusion, and/or other plastics fabrication processes. However, mounting end 248 may have a circular or non-circular cross-sectional shape.
The mounting end 248 may facilitate insertion of the rod 245, and thus the spindle 202, into a central opening of a coreless roll of sheet product, and it may also ease removal of the coreless roll from the spindle 202 if necessary, as described above.
In use, a sheet product roll is disposed around the rod 245 and the body 241, between end piece 246 and the mounting end 248. The body 241, the rod 245, and the sheet product roll rotate together along the lateral axis 244. In a particular embodiment, the sheet product roll is a coreless roll of bath tissue.
As shown in
In some embodiments, the rod 245 is a molded polymeric material. For example, the rod 245 may be formed of polyethylene terephthalate, polyethylene, polyvinyl chloride, polypropylene, polystyrene, polylactic acid, polycarbonate, acrylic, acetal, nylon, or acrylonitrile butadiene styrene. In some other embodiments, the rod 245 is formed of a metal or metal alloy, such as aluminum or steel.
The disc 259 may be circular as shown or any other suitable shape. The disc 259 may include an elastomeric surface on the surface facing the body 241. The disc 259 may include a colored ring or similar indicator to indicate when the sheet product roll is substantially depleted and in need of replacement.
The shapes of the ends of spindle 202 are positionally reversed compared that of the ends of spindle 102. That is, end piece 246 is round, whereas end piece 146 is square, and mounting end 248 is square, whereas mounting end 148 is round. This is relevant only so far as which end of the spindle is keyed into an adaptor (bearing) and which end is free floating. Otherwise, the two embodiments of spindles function similarly.
The sheet product spindle 302 includes a body 341 with a first end 342 and a second end 343. The body 341 includes a hollow shaft that receives a rod 345 and a compression spring 357. An end cap 356 is secured to the second end 346, closing off that end of the hollow shaft. The end cap 356 includes an end piece 346. The rod 345 is configured to translate telescopically within the hollow opening of the body 341, along the lateral axis 344. The first end 342 has an opening through which the rod 345 extends. The rod 345 includes a cylindrical mounting end 348 and an opposed spring-facing end 349. The mounting end 348 of the rod 345 and the end piece 346 may engage the bearing(s) of the cover assembly described herein.
A disk 359 is integrally formed with the body 341. The disc 359 may be circular as shown or any other suitable shape. The disk 359 may extend radially from the second end 343 of the body 341. The disc 359 may include a colored ring or similar indicator to indicate when the sheet product roll is substantially depleted and in need of replacement.
The mounting end 348 may facilitate insertion of the rod 345, and thus the spindle 302, into a central opening of a coreless roll of sheet product, and it may also ease removal of the coreless roll from the spindle 302 if necessary, as described above.
In use, a sheet product roll is disposed around the rod 345 and the body 341, between end piece 346 and the mounting end 348. The body 341 and sheet product roll rotate about the rod 345, rotating along the lateral axis 344. In a particular embodiment, the sheet product roll is a coreless roll of bath tissue.
Rod 345 has a circular cross-sectional shape. The rod 345 is configured to translate along the lateral axis 344. As shown in
The spindle 302 is assembled by inserting the rod 345 and then the spring 357 into an opening at the second end 343 of the body 341, such that the mounting end of the rod extends out of the first end 342 of the body 341 and the spring 357 and spring-facing end 349 of the rod being retained in the inner volume 361 of the body 341. Then the end cap 356 is secured to second end 343 of the body 341 to close the opening and hold the four components together. The end cap may be secured to the body by an adhesive or by snap-fit or frictional engagement, or the end cap and body may include mating threads and grooves to permit the two parts to be screwed together. Other mechanical attachment means are also envisioned.
In some embodiments, the rod 345 is formed of a metal or metal alloy, such as aluminum or steel. In some other embodiments, the rod 345 is a molded polymeric material.
In some embodiments, the mounting end 348 of rod 345 fits into an aperture, with or without an adaptor, of a roll holder arm (which may be part of a cover assembly) and the end piece 346 fits another aperture, with or without an adaptor, of another roll holder arm (which may be part of a cover assembly). The spindle 302 may be loaded into the roll holder by axially depressing rod 345 into the body 341, compressing the spring 357, and then releasing the rod once the ends 346 and 348 are aligned with the apertures in the arms.
The sheet product spindle 402 includes a body 441 with a first end 442 and a second end 443. The body 441 includes a hollow shaft that receives a rod 445 and a compression spring 457. An end piece 446 and a disk 459 are integrally formed with the body 441. For instance, these features may be a single molded polymer structure. The disk 459 may extend radially from the second end 443 of the body 441. The rod 445 is configured to translate telescopically within the hollow opening of the body 441, along the lateral axis 444. The first end 442 has an opening through which the rod 445 extends. The rod 445 includes a mounting end 448 and an opposed spring-facing end 449. The mounting end 448 of the rod 445 and the end piece 446 each include an adaptor plug 463 configured to engage the bearings of the cover assemblies described herein, such as the bearing 130 of the cover assembly 104.
As shown in
The mounting end 448 may facilitate insertion of the rod 445, and thus the spindle 402, into a central opening of a coreless roll of sheet product, and it may also ease removal of the coreless roll from the spindle 402 if necessary, as described above.
In some embodiments, the rod 445 is a molded polymeric material. For example, the rod 445 may be formed of polyethylene terephthalate, polyethylene, polyvinyl chloride, polypropylene, polystyrene, polylactic acid, polycarbonate, acrylic, acetal, nylon, or acrylonitrile butadiene styrene. In some other embodiments, the rod 445 is formed of a metal or metal alloy, such as aluminum or steel.
The disc 459 may be circular as shown or any other suitable shape. The disc 459 may include an elastomeric surface on the surface facing the body 441. The disc 459 may include a colored ring or similar indicator to indicate when the sheet product roll is substantially depleted and in need of replacement.
In use, a sheet product roll is disposed around the rod 445 and the body 441, between end piece 446 and the mounting end 448. The body 441, the rod 445, and the sheet product roll rotate together along the lateral axis 444. In a particular embodiment, the sheet product roll is a coreless roll of bath tissue.
In some embodiments, the mounting end 448 of rod 445 fits into an aperture, with adaptor 463, of a roll holder arm (which may be part of a cover assembly) and the end piece 446, with another adaptor 463, fits another aperture of another roll holder arm (which may be part of a cover assembly). The spindle 402 may be loaded into the roll holder by axially depressing rod 445 into the body 441, compressing the spring 457, and then releasing the rod once the ends 446 and 348, with adaptors, are aligned with the apertures in the arms.
In yet another embodiment, the spindle includes a hollow cylindrical body; a rod which extends partially out of the first end of the body; a spring disposed within the hollow cylindrical body and having one end in biasing contact with the end of the rod disposed within the body; and a friction hub disposed around the hollow cylindrical body between ends of the body, the friction hub being rotatable around the body, wherein the rod is configured to translate within the hollow cylindrical body without being able to fall out of the body. The body may have at least one radial channel in the outer surface of the body and the friction hub may include at least one member engaged in the radial channel to limit axial translation of the friction hub relative to the body. The rod has a spring-facing end which may include an anchor that is configured to slide within channels in the inner surface of the body but cannot fall out of the first end of the body due to interference between at least one ledge of the anchor and at least one end wall of the channels.
For example,
The sheet product spindle 2102 includes a body 2141 with a first end 2142 and a second end 2143. The body 2141 includes a hollow shaft that receives a compression spring 2157 and a rod 2145. The first end 2142 of the body 2141 has an opening through which the rod 2145 extends. The rod 2145 includes a mounting end 2148 and a spring-facing end 2149.
A friction hub 2162 is rotatably disposed around the body 2141, between the first and second ends 2142 and 2143. The end portions of the friction hub 2162 each includes a pair of tapered cutouts 2171, such that each end of the friction hub include a so-called “duck bill.” As shown in
The friction hub 2162 includes a pair of fins 2158 extending outwardly therefrom. In other embodiments, three, four, or more fins may be provided on the friction hub. The fins 2158 may extend (in the axial direction) along all or a portion of the length of the friction hub. The shapes, sizes, and numbers of the fins may vary; however, suitable configurations are adapted to frictionally engage with a coreless roll of tissue product when the spindle 2102 is inserted into the roll, thereby resisting spinning of the roll about the friction hub 2162.
The friction hub 2162 and a roll of sheet product mounted thereon will rotate together about the body 2141 and the rod 2145. The body 2141 and the rod 2145 are rotationally fixed with respect to one another; however, the rod 2145 is configured to translate telescopically within the hollow opening of the body 2141, along the lateral axis 2144.
The spindle 2102 further includes an end cap 2156 which is secured to the second end 2143 of the body 2141, closing off that end of the hollow shaft. The end cap 2156 includes an end piece 2146 and a disk 2159 extending radially from the end cap. The end piece and the disk may be integrally formed with the end cap. The disc 2159 may be circular as shown or any other suitable shape. The disc 2159 may include a colored ring or similar indicator to indicate when the sheet product roll is substantially depleted and in need of replacement, as described above. The mounting end 2148 and the end piece 2146 may have a non-cylindrical, e.g., square, cross-sectional shape so that it is configured to key or lock into an adaptor, or to engage the bearings of the cover assemblies described above. Alternatively, one or both of the mounting end 2148 and the end piece 2146 may be round, i.e., have a circular cross-sectional shape.
The spindle 2102 is assembled by inserting the rod 2145 and then the spring 2157 into an opening 2172 at the second end 2143 of the body 341, such that the mounting end 2148 of the rod extends out of the first end 2142 of the body 2141 and the spring 2157 and the spring-facing end 2149 of the rod being retained in the inner volume 2161 of the body 2141. Then the end cap 2156 is secured to second end 2143 of the body 2141 to close the opening and hold these components together. The end cap may be secured to the body by an adhesive or by snap-fit or frictional engagement, or the end cap and body may include mating threads and grooves to permit the two parts to be screwed together. Other mechanical attachment means are also envisioned. The friction hub can be mounted onto the body by sliding it over the first end of the body.
The mounting end 2148 may facilitate insertion of the rod 2145, and thus the spindle 2102, into a central opening of a coreless roll of sheet product, and it may also ease removal of the coreless roll from the spindle 302 if necessary, as described above.
In use, a sheet product roll is disposed around the rod 2145, the body 2141, and the friction hub 2162, between end piece 2146 and mounting end 2148. The friction hub 2162 may rotate (with the roll) about the rod 2145 and the body 2141, rotating along the lateral axis 2144. In a particular embodiment, the sheet product roll is a coreless roll of bath tissue.
As shown in
In some embodiments, the rod 2145 is a molded polymeric material. For example, the rod 2145 may be formed of polyethylene terephthalate, polyethylene, polyvinyl chloride, polypropylene, polystyrene, polylactic acid, polycarbonate, acrylic, acetal, nylon, or acrylonitrile butadiene styrene. In some other embodiments, the rod 2145 is formed of a metal or metal alloy, such as aluminum or steel.
In some embodiments, the mounting end 2148 of rod 2145 fits into an aperture, with or without an adaptor, of a roll holder arm (which may be part of a cover assembly) and the end piece 2146 fits another aperture, with or without an adaptor, of another roll holder arm (which may be part of a cover assembly). The spindle 2102 may be loaded into the roll holder by axially depressing rod 2145 into the body 2141, compressing the spring 2157, and then releasing the rod once the ends 2146 and 2148 are aligned with the apertures in the arms.
The sheet product spindle 502 includes a rod 545, a hollow shaft 589 (also referred to herein as a body), and an end piece 546. The rod 545 is configured to translate telescopically within the hollow opening of the hollow shaft 589, along the lateral axis 544. The hollow shaft 589 has a first end 542 having an opening through which the rod 545 extends. As shown in
The spherical end 539 advantageously may facilitate insertion of the rod 545, and thus the spindle 502, into a central opening of a coreless roll of sheet product, and it may also ease removal of the coreless roll from the spindle 502 if necessary. Insertion can be difficult because coreless tissue product rolls may be partially collapsed or deformed during shipping, storage, and handling, which can alter the roll geometry and therefore collapse or constrict the opening in the center of the roll. The spherical end can be pushed into such altered openings without damaging the roll, and without providing an edge that can snag the roll when removing a roll or partial roll from the spindle.
In use, a sheet product roll is disposed around the rod 545 and the hollow shaft 589, between end piece 546 and spherical end 539. The hollow shaft 589 may rotate about the rod 545, rotating along the lateral axis 544. In some preferred embodiments, the sheet product roll is a coreless sheet product roll, particularly a roll of bath tissue.
As shown in
In some embodiments, the rod 545 is a molded polymeric material. For example, the rod 545 may be formed of polyethylene terephthalate, polyethylene, polyvinyl chloride, polypropylene, polystyrene, polylactic acid, polycarbonate, acrylic, acetal, nylon, or acrylonitrile butadiene styrene. In some other embodiments, the rod 545 is formed of a metal or metal alloy, such as aluminum or steel.
As shown in
As shown in
In some embodiments, the tangential ball end 540 fits into a hole of first arm of a roll holder, and the spherical end 539 fits into an opposed hole in a second arm of the roll holder, following loading of a roll of sheet product onto the spindle 502. The spindle 502 may be loaded into the roll holder by axially depressing rod 545 into hollow shaft 589, compressing a spring therein, and then releasing the rod once the ends 540, 543 are aligned with the holes.
Another embodiment of a sheet product spindle 602 is shown in
The hollow shaft 689 also includes a pair of internal fins 665 as shown in
The end piece 646 also includes a groove 652 located between the disc 659 and the annular portion 667. The groove 652 is configured to receive a lip 663 of the hollow shaft 689. The groove 652 and the lip 663 cooperate to maintain the axial position of the hollow shaft 689 relative to the end piece 646, while permitting the hollow shaft 689 to rotate about the annular portion 667.
The adaptor plug 695 includes an aperture or cavity 696 which is dimensioned and positioned to receive and secure an end of a sheet product spindle, such as one of the spindles configured for use with a coreless sheet product roll as described hereinabove. The adaptor plug 695 also includes an expandable surface 697 configured to secure the adaptor plug 695 within the recess 627, e.g., by frictional engagement with interior sidewalls of the recess 627. For example, the adaptor plug may include two rigid structures that can be screwed together to radially displace an elastomeric material forming the expandable surface. In this way, the adaptor plug 695 may be inserted into the recess 627 with the elastomeric material in an unexpanded configuration and then rotating an accessible one of the rigid structures (relative to the other rigid structure) to expand the expandable surface, radially, into secure engagement with the interior wall of the recess 627.
Spindle 702 also includes an end piece 746, which includes a disc 759, which has a colored, elastomeric surface 750. The coloring of the surface provides a visual indication a coreless roll of sheet product on the spindle is substantially depleted and in need of replacement. The elastomeric nature of the surface increases or modifies pull force of a roll to reduce tissue usage as described above and also to provide a higher quality tactile feel to the user pulling tissue product from the roll.
The cover 921 includes a first cover part 972 and a second cover part 973. The first and second cover parts 972, 973 are configured to slide telescopically with respect to one another to adjust to fit the cover assembly 904 to various spacing lengths between roll holder arms across a range of conventional roll holder configurations. In some embodiments, the cover parts are secured together with cooperating grooves and rails or other structural elements known in the art.
The first and second cover parts 972, 973 are arcuate to cover a substantial portion of a roll of sheet product, e.g., over the top and front portion of the roll. For example, the cover may extend over from about 25% to about 60% of the side of the roll. The cover advantageously shields the roll from splashing liquids. The cover may also obscure the view of the sheet product roll to a user so that the user may be less likely to see the roll is partially depleted and thus previously “used” by others. A partially depleted roll may be perceived as less hygienic.
Each cover part may be integrally formed with, or fixedly connected to one of the support arms. Each cover part may be configured to mount to the support arm at different positions, for example to accommodate different orientations of mounted roll holders. In
As shown in
The elongated back plate 1986 includes mounting bracket interface features 1994. The interface features 1994 include an interface geometry configured to replicate the interface geometry of interface features of conventional roll holder arms for mounting to conventional, installed mounting brackets, to thereby enable to the dispenser assembly to be retrofitted to the conventional, installed mounting brackets. This interface geometry of the interface features 1994 is extended parallel to the spindle 1902 between the two roll holder arms 1906, so as to accommodate variation in spacings likely to be encountered in various retrofitting installations of the dispenser assembly. In addition, the back plate 1986 includes a plurality of holes 1993 in the backside for receiving set screws or other fasteners, regardless of the spacing of the mounting brackets (e.g., within ±½ inch to 1 inch).
Although specific embodiments of the disclosure have been described, numerous other modifications and alternative embodiments are within the scope of the disclosure.
This application claims priority to U.S. Provisional Patent Application No. 62/695,592 filed Jul. 9, 2018, which is incorporated herein by reference.
Number | Name | Date | Kind |
---|---|---|---|
676335 | Moffatt | Jun 1901 | A |
805011 | Gomber | Nov 1905 | A |
1217211 | Pico | Feb 1917 | A |
1281861 | Sibley | Oct 1918 | A |
1308912 | MacCormac | Jul 1919 | A |
1391326 | Kiillian | Sep 1921 | A |
1778856 | Hoegger | Oct 1930 | A |
1928979 | Robert | Oct 1933 | A |
2248716 | Markle, Jr. | Jul 1941 | A |
2443243 | Hayssen | Jun 1948 | A |
2546820 | Grant | Mar 1951 | A |
2670905 | Theodor | Mar 1954 | A |
2711860 | Layton | Jun 1955 | A |
2749056 | Jenkins | Jun 1956 | A |
2889122 | McConnell | Jun 1959 | A |
2952418 | Rice | Sep 1960 | A |
3211504 | Bump | Oct 1965 | A |
3285528 | Beindorf | Nov 1966 | A |
3362653 | Edward | Jan 1968 | A |
3375995 | Roman | Apr 1968 | A |
3467456 | Chmela | Sep 1969 | A |
3516615 | Wickenberg | Jun 1970 | A |
3601328 | McClung | Aug 1971 | A |
3770222 | Jespersen | Nov 1973 | A |
3788573 | Thomson et al. | Jan 1974 | A |
3837595 | Boone | Sep 1974 | A |
3917185 | Canada | Nov 1975 | A |
4067511 | Hermanns | Jan 1978 | A |
4149682 | Gustafson | Apr 1979 | A |
4222532 | DeLuca | Sep 1980 | A |
4300727 | Koch et al. | Nov 1981 | A |
4314678 | Upchurch | Feb 1982 | A |
4354644 | Grant | Oct 1982 | A |
4436249 | Santa et al. | Mar 1984 | A |
4447015 | Peterson | May 1984 | A |
4771966 | Anderson | Sep 1988 | A |
5249755 | Jespersen | Oct 1993 | A |
5273229 | Komatsu | Dec 1993 | A |
5277375 | Dearwester | Jan 1994 | A |
5323980 | Neveu et al. | Jun 1994 | A |
5366175 | Schutz | Nov 1994 | A |
5370336 | Whittington | Dec 1994 | A |
5370339 | Moody et al. | Dec 1994 | A |
5374008 | Halvorson | Dec 1994 | A |
5445345 | Neveu et al. | Aug 1995 | A |
5451013 | Schutz | Sep 1995 | A |
5467935 | Moody | Nov 1995 | A |
5492280 | Corres et al. | Feb 1996 | A |
5495997 | Moody | Mar 1996 | A |
5509593 | Bloch et al. | Apr 1996 | A |
5524835 | Collins | Jun 1996 | A |
5577686 | Moody | Nov 1996 | A |
5645244 | Moody | Jul 1997 | A |
5669576 | Moody | Sep 1997 | A |
5727751 | Liu | Mar 1998 | A |
5749538 | Brown et al. | May 1998 | A |
5758843 | Ongaro | Jun 1998 | A |
5803399 | Hashikawa | Sep 1998 | A |
5813624 | Grasso et al. | Sep 1998 | A |
5868342 | Moody et al. | Feb 1999 | A |
5904316 | Dunning et al. | May 1999 | A |
5947409 | Corrigan, Jr. | Sep 1999 | A |
5988561 | Mele | Nov 1999 | A |
6036134 | Moody | Mar 2000 | A |
6056235 | Brozinsky | May 2000 | A |
6155517 | Lippold et al. | Dec 2000 | A |
6199791 | Conran et al. | Mar 2001 | B1 |
6202956 | Grasso et al. | Mar 2001 | B1 |
6241180 | Potter | Jun 2001 | B1 |
6308910 | Booth | Oct 2001 | B1 |
6328246 | Hjort et al. | Dec 2001 | B1 |
6378800 | Apichom | Apr 2002 | B1 |
6402085 | Smith | Jun 2002 | B1 |
6416014 | Van | Jul 2002 | B2 |
6609678 | Seybold et al. | Aug 2003 | B2 |
6688551 | He | Feb 2004 | B1 |
6752349 | Moody et al. | Jun 2004 | B2 |
6902133 | Black | Jun 2005 | B1 |
7083138 | Elliott et al. | Aug 2006 | B2 |
7275655 | Duff | Oct 2007 | B2 |
7395986 | Haering | Jul 2008 | B1 |
7422174 | Elliott et al. | Sep 2008 | B2 |
7461810 | Goeking et al. | Dec 2008 | B2 |
7648097 | Cattacin et al. | Jan 2010 | B2 |
7832678 | Hjort | Nov 2010 | B2 |
7841558 | Elliott et al. | Nov 2010 | B2 |
7861964 | Cittadino et al. | Jan 2011 | B2 |
7891600 | Schmatz | Feb 2011 | B1 |
7980506 | Kling et al. | Jul 2011 | B2 |
8398014 | Andersson | Mar 2013 | B2 |
8584982 | Eakin | Nov 2013 | B2 |
D703461 | Myron | Apr 2014 | S |
8740132 | Kling et al. | Jun 2014 | B2 |
8783600 | Myron | Jul 2014 | B1 |
8905346 | Repp | Dec 2014 | B2 |
9056504 | Sauvage | Jun 2015 | B2 |
9085438 | Wilkins | Jul 2015 | B2 |
9326648 | Trampolski | May 2016 | B2 |
9398834 | Benedetti | Jul 2016 | B2 |
9635985 | Phelps | May 2017 | B2 |
9635986 | Phelps | May 2017 | B2 |
9642504 | Andersson | May 2017 | B2 |
9648995 | Elliott et al. | May 2017 | B2 |
9861238 | Phelps | Jan 2018 | B2 |
9918598 | Osborne | Mar 2018 | B2 |
10238246 | Cittadino | Mar 2019 | B2 |
10743723 | Rozek | Aug 2020 | B2 |
10765273 | Work | Sep 2020 | B1 |
10952570 | Robertson | Mar 2021 | B2 |
11148893 | Philipse | Oct 2021 | B2 |
11272816 | Keskin | Mar 2022 | B2 |
11311152 | Rozek | Apr 2022 | B2 |
20020134881 | Hoernig | Sep 2002 | A1 |
20030106957 | Seybold et al. | Jun 2003 | A1 |
20040011914 | Gandini | Jan 2004 | A1 |
20050067424 | Duff | Mar 2005 | A1 |
20050139721 | Andersson | Jun 2005 | A1 |
20080001020 | Burnett | Jan 2008 | A1 |
20080035696 | Nichols et al. | Feb 2008 | A1 |
20080087759 | Cittadino et al. | Apr 2008 | A1 |
20080142542 | Petry | Jun 2008 | A1 |
20090057169 | Kruchoski | Mar 2009 | A1 |
20090236464 | Cittadino | Sep 2009 | A1 |
20100213303 | Sanders | Aug 2010 | A1 |
20100236956 | Kling et al. | Sep 2010 | A1 |
20120097790 | Wilkins et al. | Apr 2012 | A1 |
20120104142 | Phelps | May 2012 | A1 |
20120104143 | Phelps | May 2012 | A1 |
20120111987 | Phelps | May 2012 | A1 |
20140070044 | Repp | Mar 2014 | A1 |
20140320582 | Sauvage | Oct 2014 | A1 |
20140367507 | Trampolski | Dec 2014 | A1 |
20150136894 | Kling | May 2015 | A1 |
20150307315 | Techlin et al. | Oct 2015 | A1 |
20160037979 | Mattheeussen | Feb 2016 | A1 |
20160058251 | Rudnick | Mar 2016 | A1 |
20160280505 | Stinson | Sep 2016 | A1 |
20170071421 | Hagleitner | Mar 2017 | A1 |
20180146829 | Osborne | May 2018 | A1 |
20180199768 | Paladino | Jul 2018 | A1 |
20180325333 | Murphy et al. | Nov 2018 | A1 |
20200062524 | Philipse | Feb 2020 | A1 |
20200102180 | Robertson | Apr 2020 | A1 |
20200102181 | Rozek | Apr 2020 | A1 |
20200329924 | Rozek | Oct 2020 | A1 |
20210059485 | Keskin | Mar 2021 | A1 |
20210106187 | Murphy | Apr 2021 | A1 |
20210121026 | Wicker | Apr 2021 | A1 |
20210298541 | Robertson | Sep 2021 | A1 |
20210354944 | Kambara | Nov 2021 | A1 |
Number | Date | Country |
---|---|---|
1072504 | Feb 1980 | CA |
2130524 | Feb 1996 | CA |
2000374 | Jul 1971 | DE |
1033100 | Jun 2000 | EP |
1559357 | Aug 2005 | EP |
2669013 | May 1992 | FR |
1385725 | Feb 1975 | GB |
78196 | Jan 1955 | NL |
520326 | Jun 2003 | SE |
9310700 | Jun 1993 | WO |
9623719 | Aug 1996 | WO |
9704699 | Feb 1997 | WO |
9737918 | Oct 1997 | WO |
9817924 | Apr 1998 | WO |
2007111561 | Oct 2007 | WO |
2008004919 | Jan 2008 | WO |
2008004920 | Jan 2008 | WO |
2010011165 | Jan 2010 | WO |
2011002360 | Jan 2011 | WO |
2014007690 | Jan 2014 | WO |
2017084689 | May 2017 | WO |
Entry |
---|
GP Compact Black Side-by-Side Double Roll Toilet Paper Dispenser (3 pgs.) Website visited Feb. 25, 2019 https://catalog.gppro.com/CATALOG/6281/29381?FILTER=full. |
Feb. 4, 2020 Search Report and Written Opinion issued in International Patent Application No. PCT/US2019/053195. |
Notice of Allowance received for U.S. Appl. No. 16/145,876, dated Apr. 9, 2020, 7 pages. |
Notice of Allowance received for U.S. Appl. No. 16/922,070, dated Jan. 20, 2022, 7 pages. |
U.S. Appl. No. 16/145,890, filed Sep. 28, 2018, entitled “Spindles and Dispensers for Sheet Product”. |
Number | Date | Country | |
---|---|---|---|
20200008630 A1 | Jan 2020 | US |
Number | Date | Country | |
---|---|---|---|
62695592 | Jul 2018 | US |