SUMMARY OF THE INVENTIONThe invention involves a method of placing inside a folded book cover, an adhesive material, in cool hard form, which material, when heated, possesses the characteristic of melting to a semi liquid state and when subsequently cooled hardens to a flexible semi solid state.
Although the use of a hot melt adhesive binding material is common to the book binding art, in all prior art methods utilizing such adhesive, the adhesive is applied in hot semi liquid form to the inside surface of the book cover, followed by implanting into the still molten adhesive, the collated book pages to be bound. The invention claimed involves a method of applying the hot melt adhesive in cold hard form to the inside of a folded book cover, inserting the book pages to be bound, then heating the adhesive material to a semi liquid state by application of heat to the outside of the book cover, permitting the heat to be transmitted through the book cover to the adhesive material, the adhesive thereby melting and flowing into the edges of the book pages by capillary action, and onto the book cover by gravitation, thereby binding the pages to each other and to the book cover when the adhesive material is cooled. The applicant also claims, in combination, an apparatus to apply heat to the outside of the book cover, an apparatus to hold the book in shape while cooling the adhesive, an apparatus to fold the book cover, and a device to measure the thickness of the collated pages to be bound, which device automatically adjusts the folding apparatus for a single or double folding of the book cover to accommodate the thickness of the collated pages to be bound.
DESCRIPTION OF THE VIEWS OF THE DRAWINGSFIG. 1 is a perspective view of the binding machine.
FIG. 2 is a section taken along the plane 2--2 of FIG. 1.
FIG. 3 is a view taken along the center of FIG. 2.
FIG. 4 is a section taken along the plane 4--4 of FIG. 1.
FIG. 5 is view like FIG. 4 through rocker arm.
FIG. 6 same as FIG. 4 but different folding position.
FIG. 7 alongplane 7--7 of FIG. 1.
FIG. 8 is a detailed view of a severable strip of hot melt binding adhesive in cool state.
DETAIL DESCRIPTIONIn FIG. 1, thebinding machine 10 comprises abase plate 11, four supportingside panels 12, aheating rack 13 to heat the adhesive through the cover, acooling rack 14 to cool and harden the adhesive, afolding mechanism 15 to fold the book cover, a device for measuring the thickness of collated pages to be bound 16, aback stop 17 automatically adjusted by themeasuring device 16 to position the book cover to the proper position for folding by thefolding mechanism 15.
Theheating rack 13 comprises anelectric heating element 18 having a flat upper side capable of maintaining a temperature sufficient to permit heat to permeate abook cover 19 and melt the severable strip of hot melt bending adhesive 20 but within a heat range lower than the scorching temperature of typical book cover paper, cloth or other book cover material. Theheating rack 13 is equipped with vertical supportingpanels 21 to generally position a foldedbook cover 19 in proper position for the melting of theadhesive 20.
Thecooling rack 14 comprises a ventilatedbase 22 permitting air pressurized byblower 35 to flow upward over the outside of thebook cover 19 cooling the binding edge of thebook cover 19 and the hot melt adhesive 20; a spring loadedpressure plate 23 capable of pivoting forward and aft serving the dual purpose of supporting thebook cover 19 tightly together at the base, during the cooling period, and generally aligning the outer edges of thebook cover 19 in proper configuration during the cooling period; and aback plate 24 to support the tension of the spring loadedpressure plate 23 through thebook cover 19 being bound.
Thefolding mechanism 15 comprises analignment bar 36, aclamp bar 25 to clamp the unfolded book cover to thebase plate 11 during the process of folding, and a means of raising and lowering saidclamp bar 25 acting against theclamp bar springs 26 byrocker arms 27 mounted on thefolder bar 28, said rocker arms producing a lifting effect upon the clamp bar when thefolder bar handle 29 is depressed downward, raising theclamp bar 25 sufficiently to permit an unfolded book cover to be inserted between thebase plate 11 and theclamp bar 25, theclamp bar 25 gripping the unfolded book cover to thebase plate 11 when thefolder bar handle 29 is released or when thefolder bar handle 29 is raised to accomplish folding of the book cover.
The book cover may be single folded providing only one or a few sheets of book pages are to be bound. In the event of binding a book having more than a few pages, the book cover must be folded twice by inserting the cover into thefolding mechanism 15, folding by raising thefolder bar handle 29, then removing the cover from thefolding mechanism 15 and inserting the end of the book cover opposite the end previously inserted and raising the folding bar handle 29 a second time. The folding is accomplished by thefolder bar 28 pivoting on thefolder bar hinges 30, bending the book cover around theclamp bar 25.
The unfolded book covers to be used are of a standard size to function properly in the binding machine as to the automatic placement of the unfolded book covers in thefolding mechanism 15. The automatic placement of the covers in thefolding mechanism 15 for either a single or double fold is accomplished by thethickness measuring device 16 which consists of astationary pin 31 mounted to thebase plate 11 and amovable pin 32 mounted to a plate pivoting on apivot 33. The collated pages to be bound are placed between thestationary pin 31 and themovable pin 32; theset screw 34 is loosened permitting themovable pin 32 to be moved to and press on the collated pages to be bound backed against thestationary pin 31. While in this position, theset screw 34 is tightened and theback stop 17 will automatically have moved to the correct position to properly place the unfolded book cover in thefolding mechanism 15 when the unfolded book cover is pushed back against theback stop 17. This automatic alignment of theback stop 17 will result in a single fold being properly placed in the center of the unfolded book cover, when only a few pages are to be bound. When themovable pin 32 and thestationary pin 31 are contiguous, the standard cut unfolded book cover is positioned in thefolding mechanism 15 so as to fold in the center of the book cover. As themovable pin 32 is moved away from thestationary pin 31, as in the case of measuring collated pages having considerable thickness, theback stop 17 moves toward thefolding mechanism 15 by a factor of one half the distance themovable pin 32 moves. When the paper is double folded, the distance between the two folds equals the distance between themovable pin 32 and thestationary pin 31, thereby adjusting theback stop 17 in such a way as to align the unfolded book cover to accommodate the thickness of the collated material to be bound.
FIG. 8 is a detail of the configuration of the cool hard state of the adhesive prior to its use in binding. Although the configuration of the adhesive to be inserted into a folded cover may be that of round rods, many sided rods, beads, droplets, sphears, pyramids, crystaline shape or dust granule, granules, or sand, the configuration shown in FIG. 8 comprises a sheet or ribbon, perforated, or slit not quite through the sheet or ribbon at intervals approximating those that if the ribbon or sheet were manually torn through each slit, a multiplicity of square shaped rods would be produced. By tearing through along any selected slit, or row of perforations, a portion of the sheet or ribbon may be removed from the remainder in one piece, the width of said piece approximating the thickness of the collated pages to be bound. Such a piece may be inserted into the folded book cover and the collated pages to be bound may be placed thereon.