The present invention relates to fidget devices. More particularly, the present invention relates to a handheld device comprising one or more rollers which can occupy a user by rolling the device within one or both hands, and it can also be rolled upon a surface, thereby occupying the user's attention and/or calming the user.
Currently, there are a number of fidget devices. Most recently many kids, and some adults, have enjoyed what is commonly known as a fidget spinner. People have long kept worry stones in their pockets. Such stones can be found on the ground and some are manufactured, smoothed down and sold for just that purpose. Cigarettes, gum and food have also been devices employed by those who fidget.
Unfortunately, fidget spinners tend to be noisy and attractive when used, making others, besides the user, lose their concentration. Further, with respect to worry stones, it's not generally acceptable to be seen fiddling around in one's pocket. Finally, it can be unhealthy to indulge in cigarettes, gum and/or food every time a person feels fidgety.
The present invention provides solutions to these problems. It is virtually quiet, mostly hidden when held within a hand and operates to exercise hand, finger, wrist and arm muscles and burn calories while in use, making it a healthy alternative as well.
The present invention is a handheld roller and method of using the same, the roller comprising:
at least two units (and/or rollers), each of the units having an axis about which the unit spins,
each unit having a first end and a second end;
a first point of connection being at the first end of each unit;
a second point of connection being at the second end of each unit;
a first arm, the first arm being connected to the first point of connection at the first end of each of the at least two units, in one embodiment, the first arm covers the first ends of each of the units thereby;
a second arm, the second arm being connected to the second point of connection at the second end of each of the at least two units, in one embodiment, the second arm covers the second ends of each of the units thereby; and
the first arm and the second arm together as a combination, when connected to the first points and second points, respectively, at the ends of each of the at least two units, forming a structural frame for holding and supporting the at least two units in place, but allowing for each of the units (and/or rollers) to spin independently of each other and independently of the structural frame.
In one embodiment of the handheld roller described above, the axis of each unit is parallel with the axis of every other unit. In one embodiment of the handheld roller described above, the units are parallel to each other. In one embodiment of the handheld roller described above, the units are perpendicular to the arms. In one embodiment of the handheld roller described above, the arms are parallel to each other.
In one embodiment of the handheld roller described above, the axis of one unit is at an oblique angle with the axis of at least one other unit. In one embodiment of the handheld roller described above, one unit is at an oblique angle to at least one other unit. In one embodiment of the handheld roller described above, the arms are bent at an angle to accommodate the angle of the units and still be able to attach to points at their respective ends.
Further, the present invention is a hand held roller and method of using the same, the roller comprising:
at least two sets of units, each of the sets having at least two sub-units, and each of the sets having an axis about which the sets of units spin, each set having at least one section between its sub-units;
at least one attachment point at each section between the sub-units of each set of units;
one or more attaching devices, the one or more attaching devices connecting to the at least one attachment point at each section between the sub-units of each set of units; and
the one or more attaching devices, when connecting the at least two units, forming a structural frame with the attachment points for holding and supporting the at least two sets of units in place, but allowing for the at least two sets of units to spin independently of each other and independently of the frame.
The one or more sub units can spin in the same direction of the other units in its same set or independently (and, thus, in a different direction) of the other units in its same set. Additionally, when each set, in the same handheld roller, includes one or more sub units, the sub units in different sets can spin in the same direction of the sub units of the other sets, or they can spin independently (and, thus, in a different direction) of the of the sub units of the other sets.
Still further, the present invention is a hand held roller and method of using the same, the roller comprising:
at least two cylindrical units,
(and in one of the embodiments the cylindrical units being parallel with the other,)
each cylindrical unit having a first end and a second end;
a first point of connection being at the first end of each unit;
a second point of connection being at the second end of each unit;
a first arm, the first arm being connected to the first point at the first end of each of the at least two cylindrical units;
a second arm, the second arm being connected to the second point at the second end of each of the at least two cylindrical units; and
the first arm and the second arm together as a combination, when connected to the first and second points, respectively, at the ends of each of the at least two cylindrical units, forming a structural frame for holding and supporting the at least two cylindrical units in place, but allowing for each of the cylindrical units (and/or rollers) to spin independently of each other and independently of the structural frame.
The invention also contemplates several methods of using the handheld roller. In one method, the user holds the device in the hand by the units (or rollers) and then continues to flip or rotate the device, roller over roller, while spinning the individual units (or rollers), using the hand, finger and/or other muscles, for as long as desired. In another method, the user holds the handheld roller in both hands, in a praying hand formation, and uses both hands to rotate the device, roller over roller, while spinning the individual units (or rollers). In another method, the user simply spins the individual rollers. These methods are useful for reducing anxiety and stress, cleansing hands, entertaining, and exercising, as described below.
The handheld roller of the present invention is a wonderful anxiety reducing and stress relieving device as well as an entertaining toy and it can be used as a handheld massager.
The primary objective of the invention is to relieve stress and produce a calming effect for fidgety and easily distracted individuals.
Another objective of the invention is to help people stop engaging in harmful oral fixations such as smoking cigarettes by providing a continuous handheld activity.
Still another objective is to cleanse the user's hands of microbes by producing the invention out of an antibacterial, antifungal, and/or antimicrobial material or a material treated with an antibacterial, antifungal, and/or antimicrobial substance.
Another objective is to use the invention as a toy to occupy, entertain or distract the user.
Another objective is to enhance physical fitness by building muscles, such as, but not limited to, hand, wrist, finger, and forearm muscles.
Although preferred embodiments of the present invention are described, it will be understood by those skilled in the art that the present invention should not be limited to the described embodiments. Rather, various changes and modifications can be made within the spirit and scope of the present invention.
Further, although specific advantages have been enumerated above and herein, various embodiments may include some, none, or all of the enumerated advantages.
Definitions
The definitions herein supplement and further define publicly available definitions. If the definitions herein differ from publicly available definitions, then the definitions herein apply when interpreting the scope of the invention, specification, claims and abstract. Additionally, definitions of terms herein are not limited to those in this section headed “DEFINITIONS”, since terms and phrases are also defined elsewhere in the specification, claims and abstract.
An “arm” is generally defined as a device for attaching the units together and it can also be referred to herein as a cover, an attaching device, attachment device and/or a device for attaching. The term “arm” as used herein is also used interchangeably with “cap”, since the cap also attaches the units together and covers the end of the units. The arm can also cover the end of the units.
An “axis” is generally defined as an imaginary line about which a body rotates. In the present invention, the axis of a unit defines the space around which the unit spins.
A “ball bearing” is generally defined as a bearing with spheres or solid material. It allows the unit to spin without unscrewing the screw, if present.
A “bearing is generally defined as a device used to bear weight and buffer between, load-bearing, two other devices.
A “bore” is a hole, usually a cylindrical hole.
A “cap” is generally defined as a device for attaching the units together and it can also be referred to herein as a cover, an attaching device, attachment device and/or a device for attaching. The term “cap” as used herein is also used interchangeably with “arm”, since the arm also attaches the units together and covers the end of the units. The cap can also cover the end of the units.
A “free-hand shape” is generally defined as a shape that is created and shaped from time to time by the inventor or others; the shape can be made by hand, for example from clay, putty or other material of that type, or it can be designed on a computer or app and printed out on a 3-D printer, etc.
Something that is Handheld, Hand-held or hand held is designed and sized to be held by the hand, Hand-sized or hand sized; it has a size that fits in a user's hand.
A “unit” or “sub-unit” is generally defined as at least one of the two or more objects making up the hand-held roller of the present invention and such term is herein used interchangeably with other terms descriptive of at least one of such objects of the present invention, including, but not limited to, a cylinder, circle or sphere, oval or ovoid, square or cube, rectangle or rectangular prism, triangle or triangular prism, column, barrel, tube, casing, housing, roller, etc., also a free-hand shape, which is created and shaped from time to time by the inventor or others, is also envisioned. Each unit or set of units is sized so that it can be held in the hand(s) of a user and manipulated by the hand(s) of a user. Thus, each unit can be longer than a user's hand and still be capable of being held therein and manipulated thereby. However, there's more of a limit as to how wide each unit can be and still be capable of being held in the hand of a user and manipulated thereby. That said, it is anticipated that different sized units will be manufactured for different sized hands.
The present invention is a hand held roller and method of using the same, the roller comprising:
at least two units, each of the units having an axis about which the unit spins, the shape of the units is a matter of choice, possible shapes include, but are not limited to cylindrical, spherical, oval, cubic, rectangular, triangular, etc., also a free-hand shape, which is created and shaped from time to time by the inventor or others, is also envisioned,
also, the units can be rollers, barrels, tubes, casings and/or housings, the units can be solid, hollow and/or partly solid and partly hollow, the units and/or sub-units in each hand held roller do not need to be the same type and/or shape,
it is advantageous if the outside shape of the units are formed so that they can each spin freely without knocking into or getting caught on one another, and it is advantageous that the connection between the units and the arms/caps permits for free spinning as well,
(and in one of the embodiments the axis of each unit being parallel with the axis of every other unit),
each unit having a first end and a second end;
a first point of connection being at the first end of each unit;
a second point of connection being at the second end of each unit;
a first arm, the first arm being connected to the first point at the first end of each of the at least two units;
a second arm, the second arm being connected to the second point at the second end of each of the at least two units;
in one embodiment, the cap/arm is a solid piece with space for attachments (for example, spaces to attach to the point of connection) or the cap/arm has attaching devices built in (for example, a device that attaches to the point of connection); and
the first arm and the second arm together as a combination, when connected to the first and second points, respectively, at the ends of each of the at least two units, forming a structural frame for holding and supporting the at least two units in place, but allowing for each of the units (and/or rollers) to spin independently of each other and independently of the structural frame.
Further the present invention is a hand held roller comprising:
at least two cylindrical units,
the cylindrical units being parallel with each other,
each cylindrical unit having a first end and a second end;
a first arm, the first arm being connected to the first end of each of the at least two cylindrical units;
a second arm, the second arm being connected to the second end of each of the at least two cylindrical units; and
the first arm and the second arm together as a combination, when connected to the first and second end of each of the at least two cylindrical units, respectively, holding and supporting the at least two cylindrical units in place.
Further the present invention is a hand held roller comprising:
at least two spherical units,
the spherical units being parallel with each other,
each spherical unit having a first end and a second end;
a first arm, the first arm being connected to the first end of each of the at least two spherical units;
a second arm, the second arm being connected to the second end of each of the at least two spherical units; and
the first arm and the second arm together as a combination, when connected to the first and second end of each of the at least two spherical units, respectively, holding and supporting the at least two spherical units in place.
Further the present invention is a hand held roller comprising:
at least two ovoid units,
the ovoid units being parallel with each other,
each ovoid unit having a first end and a second end;
a first arm, the first arm being connected to the first end of each of the at least two ovoid units;
a second arm, the second arm being connected to the second end of each of the at least two ovoid units; and
the first arm and the second arm together as a combination, when connected to the first and second end of each of the at least two ovoid units, respectively, holding and supporting the at least two ovoid units in place.
Further the present invention is a hand held roller comprising:
at least two rectangular units,
the rectangular units being parallel with each other,
each rectangular unit having a first end and a second end;
a first arm, the first arm being connected to the first end of each of the at least two rectangular units;
a second arm, the second arm being connected to the second end of each of the at least two rectangular units; and
the first arm and the second arm together as a combination, when connected to the first and second end of each of the at least two rectangular units, respectively, holding and supporting the at least two rectangular units in place.
Further the present invention is a hand held roller comprising:
at least two free-hand shaped units,
the free-hand shaped units being parallel with each other,
each free-hand shaped unit having a first end and a second end;
a first arm, the first arm being connected to the first end of each of the at least two free-hand shaped units;
a second arm, the second arm being connected to the second end of each of the at least two free-hand shaped units; and
the first arm and the second arm together as a combination, when connected to the first and second end of each of the at least two free-hand shaped units, respectively, holding and supporting the at least two free-hand shaped units in place.
A first handheld roller comprising:
at least two units, each of the units having an axis about which each unit spins,
each unit having a first end and a second end;
a first point of connection being at the first end of each unit;
a second point of connection being at the second end of each unit;
a first cover, the first cover being connected to the first points of connection at the first ends of each of the at least two units;
a second cover, the second cover being connected to the second points of connection at the second ends of each of the at least two units; and
a structural frame of the combination of the first cover and the second cover together with their connections to the first points and second points, respectively, at the ends of each of the at least two units, for holding and supporting the at least two units in place, but allowing for each of the units to spin independently of each other and independently of the structural frame.
The first handheld roller, wherein the axis of each unit is parallel with the axis of every other unit.
The first handheld roller, wherein
The first handheld roller, wherein
the first cover and the second cover have the same size and shape;
at least one of the first cover and the second cover is the same material as at least one of the units; and
at least one of the first cover and the second cover is solid.
The first handheld roller, wherein
the first points of connection are short screws, long screws, medium screws, nails, pins, nuts, bolts, or tacks,
the first points of connection are inserted through the first cover and connected to the second points of connection;
the second points of connection are short screws, long screws, medium screws, nails, pins, nuts, bolts, or tacks, and
the second points of connection are inserted through the second cover and connected to the first points of connection.
The handheld roller above, further comprising at least one ring,
at least one of the first points of connection and/or the second points of connection are inserted through the at least one ring after having been inserted through the first cover or the second cover.
The handheld roller above, wherein the at least one ring is a ball bearing.
The first handheld roller, wherein
at least one unit has a bore through its axis, the bore containing the points of connection, the bore is not substantially wider than the points of connection, and the remainder of the unit is substantially solid.
The first handheld roller, wherein
at least one unit has a bore through its axis, the bore containing the points of connection, at least one portion of the bore is substantially wider than the points of connection, and at least one portion of the bore is not substantially wider than the points of connection.
A second embodiment of the first handheld roller, wherein the axis of one unit is at an oblique angle with the axis of at least one other unit.
The second embodiment of the first handheld roller, wherein
The second embodiment of the first handheld roller, wherein
the first cover and the second cover have the same size and shape;
at least one of the first cover and the second cover is the same material as at least one of the units; and
at least one of the first cover and the second cover is solid.
The second embodiment of the first handheld roller, wherein
the first points of connection are short screws, long screws, medium screws, nails, pins, nuts, bolts, or tacks,
the first points of connection are inserted through the first cover and connected to the second points of connection;
the second points of connection are short screws, long screws, medium screws, nails, pins, nuts, bolts, or tacks, and
the second points of connection are inserted through the second cover and connected to the first points of connection.
The handheld roller above, further comprising at least one ring,
at least one of the first points of connection and/or the second points of connection are inserted through the at least one ring after having been inserted through the first cover of the second cover.
The handheld roller above, wherein the at least one ring is a ball bearing.
The second embodiment of the first handheld roller, wherein
at least one unit has a bore through its axis, the bore containing the points of connection, the bore is not substantially wider than the points of connection, and the remainder of the unit is solid.
The second embodiment of the first handheld roller, wherein
at least one unit has a bore through its axis, the bore containing the points of connection, at least one portion of the bore is substantially wider than the points of connection, and at least one portion of the bore is not substantially wider than the points of connection.
A third embodiment of a handheld roller comprising:
at least two sets of units, each of the sets having at least two sub-units, and each of the sets having an axis about which the sets of units spin, each set having at least one section between its sub-units;
at least one attachment point at each section between the sub-units of each set of units;
one or more attaching devices, the one or more attaching devices connecting to the at least one attachment point at each section between the sub-units of each set of units; and
the one or more attaching devices, when connecting the at least two sets of units, forming a structural frame with the attachment points for holding and supporting the at least two sets of units in place, but allowing for the at least two sets of units, and one or more of the sub-units, to spin independently of each other and independently of the frame.
The third embodiment of the handheld roller, wherein
The third embodiment of the handheld roller, wherein
the attachment points are short screws, long screws, medium screws, nails, pins, nuts, bolts, or tacks;
the attaching device is the same material as one of the sub-units;
at least one sub-unit has a bore through its axis, the bore contains the attachment points and is not substantially wider than the attachment points, and the remainder of the sub-unit is solid; and
at least one other sub-unit has a bore through its axis, the bore contains the attachment points, at least one portion of the bore is substantially wider than the attachment points, and at least one portion of the bore is not substantially wider than the attachment points.
Connecting arm or cap 3 is used to position cylinders (also called “units” herein) 6 and 7 a specific distance apart from each other. Connecting arm 3 rotates with cylinders 6 and 7 as cylinders 6 and 7 rotate around each other when the device is manipulated by the user. However, connecting arm 3 rotates in a direction opposite to the direction that cylinders 6 and 7 spin as cylinders 6 and 7 rotate around each other when the device is manipulated by the user.
Rings 4 and 5 are also each considered a point of connection herein. They fit into the top of cylinders 6 and 7 and come between the connecting arm 3 and cylinders 6 and 7. Rings 4 and 5 rotate with cylinders 6 and 7 as they rotate around each other when the device is manipulated by the user. Rings 8 and 9 are also each considered a point of connection herein. They fit the bottom of cylinders 6 and 7 and are adjacent to connecting arm/cap 10. Both connecting arms/caps 3 and 10 in this embodiment and in the other embodiments are adjacent to the rings and units, and in some cases cover the rings and units, like a cap.
The rings can be special bearings of the type which permit the cylinders to spin in one direction, while not allowing the screws to spin. One example is a ball bearing. Other bearings are mentioned elsewhere in the specification, or are known in the art, or might later become known or invented, and are considered within the scope of the present invention.
These bearings help prevent the structural framework of the inventive handheld roller from un-screwing and, thus, falling apart while it is in use.
Short male screws 11 and 12, each considered a point of connection herein, are inserted or screwed into connecting arm/cap 10 and into the ends of long female screws 1 and 2. It is also within the scope of the invention for the short screws to be female screws and the long screws to be male screws, or for one unit to have a short female screw and a long male screw while one or two other units have short male screws and long female screws, and/or any combination of these.
During manufacture, the long screws 1 and 2 run most of the length of handheld roller 60 and are used to connect the rest of the sections to each other. Long screw 1 is inserted through arm 3, ring 4, and cylinder 6 to attach to short screw 11, which goes through arm 10 and ring 8, to connect all of the sections for cylinder 6.
Long screw 2 is inserted through arm 3, ring 5, and cylinder 7, to attach to short screw 12, which goes through arm 10 and ring 8, to connect all of the sections for cylinder 7.
The arms 3 and 10 then connect the cylinder units (two cylinder units have been shown and described, but more units and other shapes are certainly within the scope of the present invention) to hold the handheld roller 60 together and provide the support it needs to maintain its frame or structure. The screws and arms together form a structural frame that supports and holds the handheld roller of the invention, so that no additional support bar is needed. This is unlike some published patent applications which have an I-frame including a support bar in-between the rolling elements in order to provide additional support to maintain its frame or structure. In the present invention, the frame formed by the screws (or other points of contact) and arms/caps (or other attaching devices) is a solid, support structure that remains strong and solid while the units (or rollers) independently spin.
Usually, both arms 3 and 10 are about the same size and have the positions for the insertion of the long screws match up with the positions for the short screws so that both ends of cylinders 6 and 7 are aligned in a parallel fashion. Additionally, this results in the cylinders 6 and 7 being maintained at a static distance apart. The distance between the cylinders is generally less than about 1 inch, and can be less than about ¾ inch, and can be less than about ½ inch, and can be less than about ¼ inch, and can be less than about ⅛ inch and can be less than about 1/16 inch. Even though this discussion refers to two cylinders as shown in the figures, the scope of the invention encompasses more than two cylinders, and/or units having other shapes as well. So any time two cylinders are discussed, it is also applicable to configurations with more than two cylinders and/or with units having other shapes.
Rings 4, 5, 8 and 9 can sit on top of, or adjacent to, or fit into the ends of their respective cylinders as shown in
There are many different types of bearings and they should all work with the present invention. Some examples of bearings that should work in the present invention include, but are not limited to plain bearings, rolling element bearings (which also include ball bearings and roller bearings), jewel bearings, fluid bearings, magnetic bearings, flexure bearings, etc.
In one embodiment of the invention, a ball bearing is used and the outer collar of the bearing spins together with the unit (or roller), whereas the inner collar of the bearing would spin with the screw, or other connection device.
The short male screws screw into the long female screws, as shown, for example, in
Rings 34 and 33 sit, respectively, in spaces 18 and 19 (each considered a point of connection herein) of the cylinders 22, 23. Long screws 37, 38 (each considered a point of connection herein) fit through spaces 20, 21 in the cylinders 22, 23 (the long screws can also be threaded through those spaces).
The short screws 30, 29 (each considered a point of connection herein) go through rings 34 and 33 (each considered a point of connection herein), respectively, and are threaded into long screws 37, 38, respectively, to attach one arm 15 of the handheld roller to one end of each of the units 22 and 23.
In this example, short screws 30, 29 are male and are threaded into the long screws 37, 38, respectively, which are female. However, other alternatives are possible as well. For example, the short screws can be female and the long screws can be male, the short screw of one unit could be male with a long female screw while the short screw of the other unit is female with a long male screw, etc. The key is that the cylinders get connected. So, it is possible to use other attaching devices instead of short and long screws. Another alternative is to use pins at the ends of each unit which can be attached to each other. Yet another alternative is to connect the units by bisecting them with one or more connecting devices going through each of them, or even by one connecting device at or near the center of one or more of the units.
Then,
Rings 40 and 39 (each considered a point of connection herein) sit, respectively, in spaces 24 and 25 (each considered a point of connection herein) of the cylinders 22, 23. Long screws 37, 38 fit through spaces 20, 21 in the cylinders 22, 23 (the long screws can also be threaded through those spaces).
The short screws 44, 43 (each considered a point of connection herein) go through rings 40 and 39 (each considered a point of connection herein), respectively, and are threaded into long screws 37, 38, respectively, to attach the other arm 28 of the handheld roller to the other end of each of the units 22 and 23.
In this example, short screws 44, 43 are male and are threaded into the long screws 37, 38, respectively, which are female. However, other alternatives are possible as well. For example, the short screws can be female and the long screws can be male, the short screw of one unit could be male with a long female screw while the short screw of the other unit is female with a long male screw, etc. The key is that the cylinders get connected. So, it is possible to use other attaching devices instead of short and long screws. Another alternative is to use pins at the ends of each unit, to attach the unit to the arm, so the units can be attached to each other. Yet another alternative is to connect the units by bisecting them with one or more connecting devices going through each of them, or even by one connecting device at or near the center of one or more of the units.
In
The screws and arms together form a structural frame that supports the handheld roller of the invention, so that no additional support bar is needed. This is unlike some patent applications which have an I-frame including a support bar in-between the rolling elements in order to provide additional support to maintain its frame or structure.
One difference that can be seen between the two embodiments shown in the drawings is illustrated in
Additionally, even though the second embodiment depicted in
The material and/or covering of the spinning units in
The material and/or covering of the spinning units in
A third embodiment of the invention is depicted in
As it is though, each set of units has at least one attachment point at each section between its sub-units, where arm 49 is connected. In one embodiment, the arm 49 is the same type of arm/cap having ends 32, 31 as in
Then, the one or more attaching devices, here arm 49, when connecting the at least two sets of units, forms a structural frame with the points of connection for holding and supporting the at least two sets of units in place, but allowing for the at least two sets of units to spin independently of each other and independently of the frame. Additionally, each of the sub-units in each set of units can spin independently of each other as well.
An alternative embodiment is shown in
Further, the handle can be made of any material, such as, but not limited to rubber, silicone, wood, plastic, glass, metal, copper, brass, titanium, steel, a material that is antibacterial, antifungal, and/or antimicrobial, including, but not limited to, copper, partly copper, elements of copper, silver, partly silver, a material that is treated to have antibacterial, antifungal, and/or antimicrobial properties, and/or a combination of any or all of these materials, etc.
The sectional view of the handheld roller in
Further details of the present invention include, but are not limited to:
In relation to the units:
amount—at least two, two or more,
in some embodiments, the units are also referred to as spinning units,
shape—barrels, tubes, units, housings, casings, spherical, oval, cubic, rectangular, triangular, etc., a free-hand shape, which is created and shaped from time to time by the inventor or others, is also envisioned, and the scope of the invention covers such free-hand shapes already known in the art, or might later become known and/or created, and are considered within the scope of the present invention,
size—length pre-determined to fit a user's hand and range of sizes, diameter (this term is also used to refer to width if the unit is not a sphere or cylinder) about 0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, 1, 1.1, 1.2, 1.3, 1.5 inches, diameter about 0.15, 0.25, 0.35, 0.45, 0.55, 0.65, 0.75, 0.85, 0.95, 1.05, 1.15, 1.25, 1.35, 1.55 inches, and diameter ranges anywhere in between these diameters, such as, but not limited to, about 0.1 to about 1.55, about 0.15 to about 0.95, about 0.7 to about 1 inch, etc., length about 1, 2, 3, 4 inches, length about 1.5, 2.5, 3.5, 4.5 inches, and length ranges anywhere in between these lengths, such as, but not limited to, about 1 to about 3.5, about 2 to about 4, about 2.5 to about 3 inches, etc.
the units can be substantially the same size when the handheld roller has at least two units, or three or more units, and when there are three or more units, the units are usually smaller in diameter so that they can still fit in a user's hand, but all the units do not have to be the same size
material—wood, plastic, glass, metal, copper, brass, titanium, steel, a material that is antibacterial, antifungal, and/or antimicrobial, including, but not limited to, copper, partly copper, elements of copper, silver, partly silver, and/or treated to have antimicrobial properties, a combination of any or all of these materials etc., rubber, silicone, fabric, wood, plastic, glass, metal, copper, brass, titanium, steel, a material that is antibacterial, antifungal, and/or antimicrobial, including, but not limited to, copper, partly copper, elements of copper, silver, partly silver, a material that is treated to have antibacterial, antifungal, and/or antimicrobial properties, and/or a combination of any or all of these materials, etc.
some of these materials, especially the metal ones, are conductive and can be heated or cooled to impart a warm or cool feeling when used,
cover material/layer—add a rubber, silicone, fabric, etc. cover, possibly decrease diameter of unit by thickness of cover added
surface texture—smooth, bumpy, wavy, nubby, and/or ridges in any combination, etc.
hollow/solid/mixed—the units can be hollow, solid or partly hollow and partly solid (mixed), or some units can be hollow, some can be solid and some can be mixed; a solid unit usually has a bore partially or completely through its axis where its screws, nuts and bolts, nails, pins, tacks, other points of connection, etc. are located, the bore includes at least a de minimis amount of space surrounding the point of connection so that the point of connection is easily slid into the bore (in other words, the bore is not substantially wider than the points of connection), but there is not so much space since the point of connection is held within the bore of the unit (so the point of connection, e.g., the screw, doesn't shift around too much) and the remainder of the unit is solid, so the unit would be substantially solid except for the bore hole; a hollow unit would have a lot more empty space around the point of connection (so the point of connection, e.g., screw would shift around a lot more than in the “solid” unit), but a partly solid (mixed) unit would fill in some of that empty space around the point of connection with solid material where the bore would be more narrow around the point of connection, but still include at least a de minimis amount of space surrounding the point of connection so that the point of connection is easily slid into the bore, as shown in
In relation to the attachment devices: cap, end cap, arm, cover, covering,
Material rubber, silicone, fabric, wood, plastic, glass, metal, copper, brass, titanium, steel, a material that is antibacterial, antifungal, and/or antimicrobial, including, but not limited to, copper, partly copper, elements of copper, silver, partly silver, a material that is treated to have antibacterial, antifungal, and/or antimicrobial properties, and/or a combination of any or all of these materials, etc., the material can be the same or different from the units, and the first and second attachment devices (arms/caps) can be the same or different materials
attaching device, in one embodiment the attaching device is a solid piece with holes or attachment sites for connecting with points of connection, as opposed to the attaching device being hollow, like a tube, the arm/cap can also have the points of connection, screws, pins, etc. pre-attached or they can be molded together, attachment sites for as many units as are present, or more
the length of the attachment devices should be sufficient to separate the cylindrical units from each other a static fixed amount sufficient to permit the units free rotation around their individual axes, and in one embodiment so that the units do not come into contact with one another, they remain separated a static amount,
distance between attachment sites are spaced such that the units are separated about 1 inch or less, about ¾ inch or less, about ½ inch or less, about ¼ inch or less, about ⅛ inch or less, about 1/16 of an inch, the range of distance between the units ends up being between about 1/16 and about ¼ inch or less, about ⅛ and about ½ inch or less, about 1/16 and about 1 inch or less, about ⅛ and about ¾ inch or less, etc.
shape—suitable to connect ends of units, such as the spinning units, such as, but not limited to oval, rectangular, figure-8, hourglass, etc., a shape where each end mimics the shape around the end of each unit at the point of connection, as shown, for example, in
in some embodiments, each arm is the same size and shape as the others, or each arm differs from the others in size and/or shape, or some are the same with respect to size and/or shape and some are different with respect to size and/or shape Both arms/caps together, when attached to the ends of the units, form a frame structure to support the structure of the handheld roller, both arms together holding the at least two units adjacent to each other with a fixed space between them, the arms/caps can keep the cylinders fixed in place so that they remain in the same proximity to each other as they are rotated around one another,
In relation to the attachment points: screws, nails, pins, tacks, nuts and bolts, etc., which can be inserted or threaded through the covers or arms/caps, or the attachment devices, or could be permanently attached or be extensions of the covers or arms/caps
Screws with different heads, for example, but not limited to, flat, hex, slot, cross, phillips, hex, hex socket, etc.
Length—sufficient, depends on length of unit and height of ring and arm that it needs to clear, a long screw with no head can reach substantially all the way across the unit and attach to two short screws with heads (to sit on the cover/arm, if desired) at the first and second ends of the unit, as in
In relation to the ring: there are many different types and widths of rings, some embodiments of this invention use bearings, examples of bearings that should work in the present invention include, but are not limited to plain bearings, rolling element bearings (which also include ball bearings and roller bearings), jewel bearings, fluid bearings, magnetic bearings, flexure bearings, etc.
In relation to the handle;
The handle can be attached anywhere to the handheld roller if desired, and can be attached to one or both of the arms or caps, it can be attached to, for example, the screw drive, the cavity and protrusions on the screw head, if screws are present, there are many different types of screw drives examples, flat, hex, slot, cross, phillips, hex, hex socket, etc.
Material The handle can be made of any material, such as, but not limited to rubber, silicone, wood, plastic, glass, metal, copper, brass, titanium, steel, a material that is antibacterial, antifungal, and/or antimicrobial, including, but not limited to, copper, partly copper, elements of copper, silver, partly silver, a material that is treated to have antibacterial, antifungal, and/or antimicrobial properties, and/or a combination of any or all of these materials, etc., the material can be the same or different from the units and/or the cover/cap/arm.
Although the invention is a fidget device, it also finds use as a massager. In one embodiment, the handheld roller is placed on the ground and rolled beneath a foot to massage the sole. In another embodiment, the handheld roller is rolled over the body for massage and this method can be aided by the handle shown in
1 long screw
2 long screw
3 arm (cap)
4 ring
5 ring
6 cylinder
7 cylinder
8 ring
9 ring
10 arm (cap)
11 short screw
12 short screw
15 arm (cap)
16 space in arm for short screw, or other attachment device
17 space in arm for short screw, or other attachment device
18 space in unit for ring
19 space in unit for ring
20 space in unit for long screw, or other attachment device
21 space in unit for long screw, or other attachment device
22 cylindrical-shaped spinning unit
23 cylindrical-shaped spinning unit
24 space in unit for ring
25 space in unit for ring
26 space in arm for short screw, or other attachment device
27 space in arm for short screw, or other attachment device
28 arm (cap)
29 short screw
30 short screw
31 arm space
32 arm space
33 ring
34 ring
35 solid wall of cylinder
36 solid section of cylinder
37 long screw
38 long screw
39 ring
40 ring
41 arm space
42 arm space
43 short screw
44 short screw
45 nub(s)
46 ridge(s)
47 sub-unit
48 sub-unit
49 arm (attaching device)
50 sub-unit
51 sub-unit
59 cover material
60 handheld roller
70 handheld roller
Although the above description contains many specificities, these should not be construed as limiting the scope of the invention but as merely providing illustrations of some of the preferred embodiments of this invention.
Modifications, additions, or omissions may be made to the apparatuses, and methods described herein without departing from the scope of the disclosure. For example, the components of the apparatuses may be integrated or separated. Moreover, the operations of the apparatuses disclosed herein may be performed by more, fewer, or other components and the methods described may include more, fewer, or other steps. Additionally, steps may be performed in any suitable order. As used in this document, “each” refers to each member of a set or each member of a subset of a set.
To aid the Patent Office and any readers of any patent issued on this application in interpreting the claims appended hereto, applicant notes that he does not intend any of the appended claims or claim elements to invoke 35 U.S.C. 112(f) unless the words “means for” or “step for” are explicitly used in the particular claim.
This patent application claims the benefit of, and priority to U.S. Provisional Patent Application No. 62/540,540, filed on Aug. 2, 2017 and such provisional patent application is incorporated herein in its entirety by this reference.
Number | Name | Date | Kind |
---|---|---|---|
1071998 | Gibbs | Sep 1913 | A |
1969042 | Senn | Aug 1934 | A |
2273710 | Klaes | Feb 1942 | A |
2578916 | Belleville | Dec 1951 | A |
3779548 | Sato | Dec 1973 | A |
3970078 | Rogers, Jr. | Jul 1976 | A |
4193394 | Everett | Mar 1980 | A |
4417727 | Ottenheimer | Nov 1983 | A |
4964630 | Curtiss | Oct 1990 | A |
4989585 | Auker | Feb 1991 | A |
5218955 | Gueret | Jun 1993 | A |
5580335 | Smith, IV | Dec 1996 | A |
D385319 | Lucas | Oct 1997 | S |
6090055 | Frajdenrajch | Jul 2000 | A |
6306109 | Polychronis | Oct 2001 | B1 |
6419650 | Ryan | Jul 2002 | B1 |
6974427 | Lapham | Dec 2005 | B1 |
8684883 | Sappenfield | Apr 2014 | B2 |
8959720 | Szu | Feb 2015 | B2 |
9810260 | Naonari | Nov 2017 | B2 |
D855127 | Lucas | Jul 2019 | S |
20020055427 | Jennings | May 2002 | A1 |
20050049532 | Lee | Mar 2005 | A1 |
20050131320 | Lee | Jun 2005 | A1 |
20060235343 | Fitzmaurice | Oct 2006 | A1 |
20100274165 | Evans | Oct 2010 | A1 |
20110021959 | Brown | Jan 2011 | A1 |
20120310125 | Wendell | Dec 2012 | A1 |
20130012848 | Forrest | Jan 2013 | A1 |
20130123078 | Marji | May 2013 | A1 |
20150133271 | Jones | May 2015 | A1 |
20170056284 | Kramer | Mar 2017 | A1 |
Number | Date | Country |
---|---|---|
2667502 | Apr 1992 | FR |
393557 | Jun 1933 | GB |
Entry |
---|
English translation for FR-2667502A1, espacenet.com, translated on Apr. 28, 2021. |
Number | Date | Country | |
---|---|---|---|
20190038499 A1 | Feb 2019 | US |
Number | Date | Country | |
---|---|---|---|
62540540 | Aug 2017 | US |