It is known that reading books to small children is beneficial to the child's development as well as beneficial to the bonding between parent and child. For infants and very small children, a parent may desire to hold the infant or small child close with the parent's arm around the child while reading a children's book to the child. In a typical situation, a parent may hold a children's book with one hand so that the parent and child can both read or observe the pages while the other arm and hand surround and support the child on the parent's lap or in a close position next to the parent.
The present inventor has recognized that the parent reading a children's book with a child in the parent's lap or next to the parent must reposition or jostle the child in order to continue holding the book with one hand and to turn the book page with the hand from the arm otherwise surrounding the child.
The present inventor has recognized that it would be desirable to provide a book that could be held, and the pages turned, by the user with one hand.
An exemplary embodiment of the invention includes a book having a cover and multiple pages, wherein the cover includes a movable magnetic or magnetic-receptive element, such as a ferromagnetic element, such as steel, and each page includes a magnetic or magnetic-receptive element such as a magnet, at a different relative position on the page, viewed or projected through the cover, wherein the movable magnetic or magnetic-receptive element can be positioned in registry with a selected one of the movable magnetic or magnetic-receptive element on a respective page. Each page has its magnetic or magnetic-receptive element located at a different position with respect to the movable magnetic or magnetic-receptive element on the cover such that selective movement of the movable magnetic or magnetic-receptive element magnetically couples with the magnetic or magnetic-receptive element on a selected page.
Also encompassed by the invention is the movable magnetic or magnetic-receptive element on the cover being a magnet, and the magnetic or magnetic-receptive element on each page being a magnetic receptive element, such as a ferromagnetic element, such as composed of steel.
By “ferromagnetic” it is understood to be a material that is attracted to a permanent magnet.
According to one exemplary embodiment, the movable magnetic or magnetic-receptive element on the cover is slidable along a guide to be moved linearly or is attached to a pivot member to be moved in an arc. Additionally, the book can be provided with one or more straps, on both the front and back covers, wherein the user can support the book while at the same time being able to manipulate the ferromagnetic element to turn pages.
The page turning mechanism can be visually incorporated into the cover artwork and the magnetic or magnetic-receptive element applied to the pages can each be visually incorporated into the artwork displayed on the page, adding more interest to the child.
According to another aspect of the invention, the page turning mechanism and the associated magnets can be provided in a kit to retrofit existing, conventional books.
Exemplary embodiments of the invention provide the ability to operate a book, i.e., holding, reading and turning the pages of the book, with one hand. This allows the reader to safely perform other functions with the other hand such as holding and supporting children safely. The exemplary embodiments of the invention also allow a person with a disability or an injury, unable to use one of their hands, the ability to read with one usable hand and operate the book with the one usable hand. The exemplary embodiments of the invention also allow a user to consume food or beverages with one hand while reading a book and operating a book with the other hand, without having to put down the book.
Numerous other advantages and features of the present invention will become readily apparent from the following detailed description of the invention and the embodiments thereof, and from the accompanying drawings.
While various embodiments of the present invention have been described, it should be understood that other modifications and alternatives can be made without departing from the spirit and scope of the invention which should be determined from the appended claims. It is to be understood that no limitation with respect to the specific apparatus illustrated herein is intended or should be inferred.
This application claims the benefit of U.S. Provisional Application 63/040,353 filed Jun. 17, 2020 which is also herein incorporated by reference.
A page turning mechanism 50 is provided on the front cover 24. The page turning mechanism 50 is arranged at an oblique angle A with respect to a spine 44 of the book. The spine 44 binds the cover and pages of the book in known fashion, such as by an adhesive. Two front strap cords 54, 56 are arranged adjacent to or over the mechanism 50. Strap cord 54 is fastened at opposite ends 54a, 54b to the cover by adhesive or the like. Strap cord 56 is fastened at opposite ends 56a, 56b to the cover by adhesive or the like. The strap cords 54, 56 each form an arc over the cover 54 to act as straps or handles. There can also be back strap cords 57, 59 (
A user's hand H is shown holding the book 20. A user's thumb T fits under the front strap cords 54, 56 and can be placed over a ferromagnetic element 60. The user's fingers (not shown) fit under the back strap cords 57, 59 on the back cover 28. With the user's fingers under the back strap cords and thumb under the front strap cords, by moving the user's thumb away from the fingers the book is opened. By closing his thumb toward the fingers, the book is closed. The book 20 can be supported by the user's hand H and manipulated as discussed below.
The page turning mechanism 50 can be incorporated into cover art, e.g., the guide can be a playground slide or an elephant's trunk.
Each of the pages 32, 36, 38 includes an attached magnet 32a, 36a, 38a respectively. The magnets 32a, 36a, 38a are located at different horizontal and vertical positions viewed through the front cover of the book.
As shown in
As can be understood, with the book closed, by sliding the ferromagnetic element 60 down to register with the magnet 32a, the magnetic attraction between the ferromagnetic element 60 and the magnet 32a will effectively attach the first page 32 to the front cover 24 such that opening of the front cover in the rotary direction B, by opening the thumb from the fingers will turn the first page 32 with the cover 24. With the book closed, by sliding the ferromagnetic element 60 down to register with the magnet 36a, magnetic attraction between the ferromagnetic element 60 and the magnet 36a will effectively attach the second page 36 to the front cover 24 such that opening of the thumb with respect to the fingers will turn together, the front cover 24, the first page 32 (captured between the cover ad the second page 36) and the second page 36. With the book closed, by sliding the ferromagnetic element 60 down to register with the magnet 38a, magnetic attraction between the ferromagnetic element 60 and the magnet 38a effectively attaches the third page 38 to the front cover 24 such that opening of the thumb with respect to the fingers will turn together the front cover 24, the first page 32 (captured between the cover ad the third page 38), the second page 36 (captured between the cover ad the third page 38), and the third page 38.
As shown in
An arcuate guide 167 incudes an arcuate platform 169 raised above the front cover 124 by end walls 171, 173. The lever 154 moves beneath the arcuate platform 169. The arcuate guide 167 acts as a retainer and guard of the lever. The page numbers (1, 2, 3, 4), corresponding to the position of the ferromagnetic element 60 with respect to the underlying magnets 32a, 36a, 38a can be marked on the platform 169.
As shown in
Pivoting of the lever 154 defines a curved path 174 of the ferromagnetic element 60. The magnets 32a, 36a, 38a applied to each of the pages 32, 36, 38 respectively are located along the path 174 viewed through the front cover of the book, shown dashed. A front strap 180 is attached at its ends 180a, 180b to the front cover 120. The strap 180 forms an arc over the front cover with enough clearance from the cover for the user to insert a thumb T under the strap 180 and in contact with the lever 154. A similar rear strap 181 can be attached to the rear cover 28 (
As shown in
The page turning mechanism 150 can be configured to be incorporated into cover artwork, e.g., the lever can be disguised as a hand of a clock or an arm of a man chopping wood.
The alternate embodiment of
Although for ease of description, the element 60 is described as a ferromagnetic element and the elements 32a, 36a, 38a are described as magnets, the materials could be reversed and the element 60 can be a magnet and the elements 32a, 36a, 38a could be ferromagnetic elements, such as steel. Alternately, all of the elements 60, 32a, 36a, 38a can be magnets with correct polarity for attractions between magnets.
The books shown herein are held in the readers left hand with the left thumb on the front cover. An additional possible feature of the books described herein is the fact that the book can be turned over and held with the right hand with the right thumb on the front cover. Normally, this would present the pictures and written material upside down. However, provisions in the pictorial and written materials can be made that the book can be read or viewed with correct orientation when held both ways. For example, alternate pages can have the correct orientation of up and down reversed, or each page could have first portions oriented in a first correct orientation of up and down and then be inverted 180 degrees and have second portions oriented in a second correct orientation of up and down.
While this invention is susceptible of embodiment in many different forms, there are shown in the drawings, and will be described herein in detail, specific embodiments thereof with the understanding that the present disclosure is to be considered as an exemplification of the principles of the invention and is not intended to limit this invention to the specific embodiments illustrated.
This application claims the benefit of U.S. Provisional Application 63/040,353 filed Jun. 17, 2020.
Number | Date | Country | |
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63040353 | Jun 2020 | US |