US3101493A

US3101493A - Book cover-applying machine

Info

Publication number: US3101493A
Application number: US112012A
Authority: US
Inventors: Carstcns Jorgen Valdemar
Original assignee: Individual
Current assignee: Individual
Priority date: 1960-05-24
Filing date: 1961-05-23
Publication date: 1963-08-27
Anticipated expiration: 1980-08-27
Also published as: GB984761A; GB984762A

Description

Aug. 27, 1963 J. v. CARSTENS 3,101,493

BOOK COVER-APPLYING MACHINE Filed May 25, 1961 2 Sheets-Sheet 1 i I I m1 I I no eai o oooog o c o iio FIGS F|G.4

INVENTOR Iyrgevl a Jama C r' 'k n BYXIZ M ATTORNEYS FIG.6

2 Sheets-Sheet 2 J. V. CARSTENS BOOK COVERAPPLYING MACHINE Aug. 27, 1963 Filed May 23, 1961 INVENTOR ATTORNEYS United States Patent 3,101,493 BOOK COVER-APPLYING MACHINE Jrgen Valdemar Carstens, 22. Anettevej, Brabrand, Denmark Filed May 23, 1961, Ser. No. 112,012 Claims priority, application Denmark May 24, 1960 12 Claims. (Cl. 114) This invention relates to a machine for applying covers to books, which machine comprises a continuously working book feeding device for vertically positioned books, and a cover feeding device for horizontally supplied plane covers which one by one are passed beneath a book and by means of 1a presser mechanism pressed against the spine of the book by a relative movement between book and cover at a time when these two parts are located in a pre-determined mutual position at the pressure station of the machine.

In a known machine of this type, the book feeding device performs a stepwise movement. When the mechanism is :at rest, different functions, for example, the insertion of a new book and the removal of 1a finished book, \and application of the cover by means of the presser mechanism are performed, the book and, if desired, also the cover having been provided with glue during movement from the station where the insertion of the book takes place to the station where the presser mechanism is located. v

In another machine of the said type the books, their spines facing downwards, are fed between two conveyor belts, and when a book arrives at the cover-applying station it is gripped and arrested during the cover-applying operation, while the conveyor belts continue their travel and carry the subsequent book nearer to the arrested book. In this machine is, therefore, required a rather considerable and preferably regular spacing between books fed in succession, which restricts the capacity of the machine. It is further inexpedient that the conveyor belts are to rub against the retained book as this involves the risk of damage and, consequently, an increase of the percentage of waste.

It is an object of the present invention to provide :a machine which is simple and, consequently, cheaper both in the cost of production and in cost of operation and which may be combined with other book working machines without any form of synchronizing.

The invention is based on the recognition that the timed function with regular feeding of books, which has hitherto been considered necessary in connection with machines of the said type, is not an inevitable condition and that by waiving the timed function it is possible to obtain a substantial increase of the production speed.

In view of the above mentioned object the invention resides in the features that the book feeding device is arranged for uninterrupted feeding of books at a constant speed but with optional interspacing, and that provision is made of controlling means located in succession in the direction of travel of the books and being mutually independent and actuatable by the books, for controlling both the cover feeding device and the presser mechanism. Hereby a saving of time is obtained both in relation to the known type of machines where all books in the machine are subjected to a timed movement with alternating stoppings and startings and in relation to the known type of machines, where only the book located opposite the cover applying mechanism is stopped.

' Further, by the machine according tothe invention, viewed in relation to first mentioned known type of machine, an economy as to operators or mechanical aids is obtained since it is not necessary for each cycle to insert manually or mechanically a book in a holder. Viewed in relation to the last-mentioned type of known machines "ice the particular mechanism is saved, which in regular timing stops and releases an arriving book with a view to supplying the books at the side of introduction of the book feeding device, with regular spacings so as to avoid that the book immediately following the book retained for the moment above the cover applying mechanism, pushes against said retained book. r

Over a machine of the last mentioned type where the conveyor belts are to slide along the book momentarily retained, the machine according to the invention affords the advantage that the adjustment of the mutual distance and tension of the conveyor belts are uncritical, because the books are continuously to be clamped by, and kept in pace with, the book feeding members. Consequently there is no risk of tearing the extreme pages of the book, resulting in waste.

In the following the invention will be explained in detail with reference to the accompanying pnrelydiagrammatical drawings where FIG. 1 showsa top view of an embodiment of a cover app-lying machine according to the invention,

FIG. 2 shows a side elevation and partial section of the machine shown in FIG. 1,

FIGS. 3 land 4 show circuit diagrams for different positions of electrical switches included in an embodiment of the control means for controlling the cover feeding device and the cover pressure mechanism, respectively,

FIG. 5 shows a partially vertical section through an- .other embodiment of a presser mechanism for a machine according to the invention,

FIG. 6 shows a side-elevation of a close-pressing device tor a machine according to the invention,

FIG. 7 shows a cross-sectional view of the machine according to FIGS. 1 and 2, and

FIG. 8 shows a circuit diagram for an embodiment of a controlling circuit for the cover-pressure.

In FIGS. 1 and 2, 1 designates the bed of the cover- :applying machine in which viewed from the left to the right is mounted a book conveyor 2, a glue-applying device 3, a cover presser mechanism 4, a close-pressing mechanism 5, means 6 for folding a cover around a book, and a book feeding device 7 which is situated above said parts of the machine, and which serves for feeding books from the insertion end to the delivery end of the machine, viz. from left to right in the figure. Between the glue applying device 3 and the cover presser mecha nism 4 provision may be made of a drying arrangement, not shown, for example a heating element and/or a blower.

The conveyor 2 is a horizontal belt conveyor of the type known per se, comprising a belt passing around two end rollers with intermediate supporting rollers. One of said end rollers is via a vertical shaft 9 which at top has a conical gear wheel, not shown, in engagement with a conical gear wheel, not shown, on the driving roller of the'belt conveyor, and which at its other end has

conical gear wheels

10 and 11 connected with an output shaft 12 in a gear box 13 which via a belt drive 14 is in connection with a driving motor 15.

The gluing arrangement 13 comprises a receptacle 16 holding a supply of glue wherein there is a gluing roller 17 driven by a driving motor 18 via a belt drive 19. Further there is a brush Ztl for striking oif excess glue.

The cover applying presser mechanism 4 which is ex-;

plained in more detail in my co-pending application Serial No. 112,011 of May 23, l961,-contains a vertically movable presser frame 21 comprising a number of freely rotatable journalled rollers 22. The rollers may for @X? ample be hollow and closed at their ends by a circular disc having a bearing pin supported in corresponding bearings in the frame side. The axial direction of the rollers is at right angles to the direction of travel of the book feeding device. The frame 21 is supported by the plate 23 of elastic material, for example, foam rubber carried by a supporting plate 24 rigidly connected with carrying rods 25 located in bearings 26 and 27 secured to the bed 1 of the machine. Provision may be made of return springs, not shown, .to urge the presser frame back to its lowermost position. In rigid connection with the supporting plate 24 there is a push rod 28 of which part constitutes or carries the core of an electromagnet 29. The said part is ferromagnetic and is sucked into the electromagnet when a current is supplied to the coil thereof, whereby the push rod 28 is moved upwards in the figure. With a view to the accuracy in the movement of the presser frame there is expediently used direct current for energizing the electromagnet 29, for example via a rectifier, not shown, which is connected to preferably a threeaphased A.C. mains.

Besides, the pressure mechanism may be of any suitable construction. FIG. shows another example. 30 is a driving wheel which, for example, is driven from the shaft 12, FIG. 2, via a slip clutch, not shown, perrnitting the stopping of the movement of the wheel 30. 31 and 32 are two gear wheels in engagement with the wheel '30, and driving two eccentrics 33 and 34- each provided with a

cam

35 and 36 in the shape of a hollow cylinder, the internal surfiace of which guides a feeding member, '37 and 38, respectively, and which internally holds a pressure spring, 39 and 40, respectively. The

feeding members

37 and 38 are fixed -to the underside of the presser table which on its upper side has a suitable coating 42. At one end of the presser table 41 is fixed a protruding follower 43, serving for the alignment of the presser table in relation to the book to which the cover is to be applied, and which book is retained immovably in the vertical direction between the conveyor belts of the book feeding device.

The mechanism in FIG. 5 works in the following manner. An arriving book B releases, in a manner to be described more closely in the following, the drive wheel 30, for example, by withdrawing a pawl arresting said wheel. The drive wheel 30 turns the

wheels

31 and 32 in the clockwise direction so that the eccentrics 33 and 34 are set in motion. The

feeding members

37 and 38 and the presser table 41 connected therewith perform a cyclic movement as indicated by the circle at the lefthand top of the figure. At the moment when the presser table 41 with the coating 42 hits the book B, the movement of the presser table will become rectilinear, the coating 42 sliding along the book B until the follower 43 engages the book. Hereafter the book and presser table keep pace until the speed component of the presser table in the horizontal direction becomes smaller than the speed of the book in the same direction. When the eccentrics have taken one turn round in the cyclic movement they are again stopped, for example, by the above mentioned pawl engaging the gear wheel 30 and stopping the movement thereof.

The closeapressing mechanism 5 may in a manner known per se be, designed as a conveyor, like the conveyor 2, but may also be designed mainly as shown in FIG. 6 as in using certain glues it may be desirable to effect a closeapressing of the cover to the spine of the book after the book has left the cover-applying presser mechanism. The close-pressing mechanism in FIG. 6 comprises an endless horizontal conveyor belt 50 which passes around two rollers, 51 and 52, which over part of the stretch between the two rollers are supported by a stationary but, if desired, adjustable and/or resilient pressure member 53, (for example, a rail or a metal plate, and are over the remaining part of said stretch pressed locally against a number of rollers 54 individually suspended in a carrier fname, the shafts sliding in slots 55 and being actuated by pressure springs 56. The frame with the rollers 54 may be adjustable as a unit.

Above the

components

2, 3, 4, 5 and 6 provision is made fora book feeding device comprising two conveyor belts 60 and 61, of which the former, 60, passes around a drive roller 62 and a roller 63, and the latter 61 passes around a drive roller 64 and a roller 65. The conveyor belts 60 and 61 are kept tight by adjustable tightening rollers 66 and 67. The drive rollers 62 and 64 -arevia one shaft each-of which only one 68 is illustrated in FIG. 2, connected with a shaft 12b in the gear box 13 via a pair of conical gear wheels 69 and 70'. The conveyor belts 6t) and 61 are along the parts facing each other guided against up and down movement by means of U-sh-aped

rails

71 and 72, such as it will appear .of the partial section shown in FIG. 7. One of the rails 72 is mounted displ-aceably towards and away from the other rail 71 and may be secured in the adjusted position by means of a bolt 73, at each end of said rail. The adjustment means may also, in a manner known per se, comprises a spindle with a hand wheel or any other mechanism whatsoever :for providing a parallel displacement of the rail 72. In the U-rails 72 there are mounted a number of thrust pads or other pressure members 74 supporting the conveyor belts 60 and 61. The thrust pads 74 are actuated by pressure springs 75 so that the thrust pads are kept pressed outwards against the back of the conveyor belts.

In alignment with the pressure station there is a coverfeeding device, but as such device is known per se, and does not as such constitute part of this invention, it shall not be described in detail. The cover-feeding device comprises a table for a supply of covers which one by one are fed under the influence of a control means. A cover released from the supply stack is passed on to a conveyor 81 having a number of parallel inclined rollers 82 driven by a belt located under the rollers, against which belt the rollers are in trictional engagement. The roller conveyor 81 has no rollers in the place where the presser mechanism is located. At the end of the roller conveyor there is an adjustable stop 83 which at the same time contains an electrical switch 83a which is actuated when a cover engages the stop. Further there is an adjustable resilient stop 84 ensuring the correct position of the cover during the application, namely so that the cover is kept into engagement against an aligning rail along one side of the roller conveyor. With a view to lifting the cover over and past the stop 84, there is an electromagnet-ically operated release device 85 comprising a lifting finger 86.

In the embodiment shown the controlling means of the machine comprise two switches, and 91, FIG. 1. The switches may, for example, be micro switches and in the embodiment shown in the drawing they are designed as double switches, i.e. that each of them is constituted by two switches actuated one after the other when a book is passing, the actuation member of the switch members protruding into the path of feeding of the books. The switches .may be mounted displaceably in the direction of feed :of the books so that the correct timing may be obtained by adjusting the position of the switches.

FIGS. 3 and 4 show two circuit diagrams, each comprising the tour possibilities of connection which may occur when each of the switching devices is constituted by two series-connected double switches. The switching device in FIG. 3 consisting of the

switches

90a and 90b contuo-ls the cover applying device in that the switches, for example, may be included in a circuit comprising a power supply and a relay which, when actuated, involves a release of the cover applying device, so that a cover is advanced. In the upper row, marked A in FIG. 3, the position of the switches will be seen, when the switch mechanism is not actuated. In this case, the switch 90a is open and the switch 90b closed. An arriving book firstly closes the first switch 90a, so that the situation illustrated by the row marked B occurs, in which case both switches 90a and 901) are closed, and an impulse is sent to the cover emitting mechanism. During but still actuates the switch 90b, the situation shown in the rowD occurs, where both switches 90a and 905 are open. If, hereafter, there is an intermediate space between the book having involved the aforementioned sequence of contact operations, and the subsequent book fed by the book feeding device, the situation shown in the row A again occurs. If this is not the case buton the .con-trarytwo books follow immediately after each other the contact 90b will remain open and, consequently, a cover for the subsequent book cannot be advanced.

Hereby the machine is secured against errors as a consequence of the books following too closely upon each other. Such fault does not occur during normal operation because it is possible, by using a conveyor at the insertion end of the machine, for example, a, belt con- 'veyo-r running a little faster than the conveyor bringing the book forward from the preceding working machine, to secure a suitable minimum spacing between the books. A corresponding effect as the one described in FIG. 3 may be obtained by'using a relay of delayed action so that a repeated actuation may only occur after a predetermined time interval following a preceding vactuaticn.

FIG. 4 shows the corresponding situation for the switching device controlling the presser mechanism. Here there are two series-connected switches 91a and 91b, and

it will be seen that the closing of the series-connection first occurs when the rear edge of a book has left the actuation member for the switch 91a but is still in contact with the switch member for the switch 915. This position is shown in the lowermost row D. It is, of course, possible to use .only a single switch which may be included in the series connection of a power supply, preferably a -D.C. source, e.g. a rectifiensupplied with three-phased A.C. current, and the electromagnet which actuates the presser mechanism. The said circuit may also actuate the electromagn'et indirectly through a relay, which connects a power supply to the electromagnet.

PIG. 8 shows a circuit diagram for an embodiment of thecircuit for actuating the cover-applying presser mechanism. 91 is the switch actuated by the book, 8311 is the switch actuated by the cover when advanced into correct position, 92 is an electric delaying arrangement, and 3 is :a power supply, while @4 is a relay to the contacts of 6 the cover-feeding device so thatthe time during which the cover-feeding device works can be adjusted dependent on the size ofthe cover to be supplied from the supply stack, eg by means of a rotary sucking roller.

At the moment when the relay .94 is energized, the electromagnet'29 in the presser mechanism is energized too, whereby the presser frame 21 with rollers 22 moves in the vertical direction and thereby lifts the cover upwards into engagement. with the overhead disposed book which isclamped between the conveyor belts of the book feeding device. The rollers 22 have the effectthat there is no appreciable friction between the presser mechanism and the covenand as the friction between the cover and the book is many times greater, the cover is carried along with the book and, it proves that this takes place each time with extreme accuracy in the position of the cover in relation to the book. In known machines, care is taken that thebook and the cover are conveyed with one and the same speed, when the cover is applied to the book. In some machines the book is arrested when the cover is applied to the book. In these machines both cover and book areat this moment also conveyed with the same from the moment when contact between the book and The provision of the function here described is wellknown by the man skilled in the art, and need, therefore, not be described in detail here.

The described machine operates in the following manner. The conveyor 2 and the book feeding device 7 are started preferably so, that the book feeding device runs a little faster than the conveyor 2, hereby a minimum spacing between the books can be ensured. The books are introduced between the two conveyor belts in the book feeding device with their spines facing downwards. When the books travel by the gluing roller, glue is applied to their spines. The glue may hereafter be partly dried by heating and/ or blowing. This is not shown in speed, viz. the speed nil at the moment of approach. In the machine according to the invention the moving book carries the cover along with its own travelling speed cover is obtained.

The introduction of the delaying arrangement 92 with adjustable delay has the effect that the time during which the presser mechanism maintains the pressure of the cover against the spine of the book, can be adjusted so that the machine may easily be adapted to different sizes of books and working speeds,inter alia with a view to obtaining the highest possible degree of efficiency in each individual case. a

During the continuous movement of the book it passes the close-pressing device 5 which takes care of a further close-pressing of the cover to the spine of the book. Also in this place the book may, if so desired, be exposed to heat with a view to quick drying of the glue. Next,

, the book is passed in between the folding rails 6 which fold the cover along the edge of the book spine around the book.

Eventually, the book reaches the end of the machine and may be removed manually or automatically by any known arrangement, completing, if necessary, the folding of the cover.

Various other alterations and modifications than those described may be made in the present invention without departing from the spirit and scope thereof, and it is desired that any and all such modifications be considered within the purview of the present invention except as limited by the hereinafter appended claims.

Having thus described my invention, I claim:

1. A machine for applying covers to books, comprismg a 1 continuously working book feeding device for uninterrupted feeding of books with any interspacing and with the books positioned in the vertical plane with their spines facing downwards,

acover feeding device for feeding horizontally disposed covers one by one to a pressure station located under the book feeding device,

a presser device having an at least vertically movable surface for pressing the cover fed against the overhead-disposed book, when said book is located in a pre-determined position,

and controlling means being independent of the book feeding device, for controlling the cover feeding device and the presser device, respectively, which controlling means are arranged for being actuated by the books advanced by the book feeding device.

2. A machine as claimed in claim 1 wherein the book feeding device comprises two endless conveyor belts having two parts located opposite each other at a distance corresponding to the thickness of a book.

13. A machine as claimed in claim 1 wherein the presser mechanism comprises a movablydisposed presser frame having presser members and means for moving the presser frame in the direction towards the book feeding device.

4. A machine as claimed in claim 1 wherein the presser mechanism comprises a movably disposed presser frame having presser rollers mounted rotatably therein, and an electromagnet for moving the presser frame in the direction towards the book feeding device.

5. A machine as claimed in claim 1 wherein thepresser mechanism comprises a vertically movable resilient presser table having a protruding feeding member, transmission means for applying a cyclic movement to said presser table, driving means for driving the said transmission meansand a slip clutch inserted between the said transmission means and the driving means.

6. A machine as claimed in claim 1 wherein the controlling means comprises two electrical switches of which one switch is included in a circuit which, when the switch is closed, releases the feeding of a cover by means 01': said cover feeding device, and the other contact is included in a circuit which after having been actuated by the switch activates said presser device.

7. A machine for applying covers to books comprising a book feeding device having two endless Vertical conveyor belts, of which two parts are lying with short distance opposite each other and between which parts the books are fed, and means for adjusting the mutual distance of said two paths in dependence on the book thickness, means for driving the two conveyor belts with same speed, and means for adjusting said speed,

a cover feeding device for feeding covers to a presser station under the conveyor belts, :a presser device having an at least vertically movable surface for pressing the cover fed against the overhead-disposed book while said book is in motion, and

controlling switches being independent of the book feeding device and positioned in the path of the books fed, for controlling the book feeding device and th presser mechanism, respectively. 1

8. A machine as claimed in claim 7, comprising after the presser device viewed in the travelling-direction of the book feeding device aclose-pressing device which when a book and cover leave the presser device keeps the cover pressed against the spine of the book during the further travel. 7

9. A machine as claimed in claim 7, comprising guida ing means for folding the cover near the delivery endof thebook feeding device.

10. A machine as claimed in claim 7, comprising a con veyor for conveying the finished books away at the delivery end of the book feeding device.

11. A machine as-claimed in claim 7, wherein the controlling circuit comprising the controlling switch for controlling the presser device includes a further controlling switch which can be actuated by a cover when said cover is located in the. correct position above the presser device and which further controlling switch has to be actuated in order that,when a book has actuated the first men tioned controlling switch, :an impulse can be given for actuating the pressure device.

12. A machine as claimed in claim 7, comprising adjustable electrical delaying means for the actuation of the pressure device.

References Cited in the file of this patent UNITED STATES PATENTS McCahon et al Jan. 15, 1957

Claims

1. A MACHINE FOR APPLYING COVER TO BOOKS, COMPRISING A CONTINUOUSLY WORKING BOOK FEEDING DEVICE FOR UNINTERRUPTED FEEDING OF BOOKS WITH ANY INTERSPACING AND WITH THE BOOKS POSITIONED IN THE VERTICAL PLACE WITH THEIR SPINES FACING DOWNWARDS, A COVER FEEDING DEVICE FOR FEEDING HORIZONTALLY DISPOSED COVERS ONE BY ONE TO A PRESSURE STATION LOCATED UNDER THE BOOK FEEDING DEVICE, A PRESSER DEVICE HAVING AN AT LEAST VERTICALLY MOVABLE SURFACE FOR PRESSING THE COVER FED AGAINST THE OVERHEAD-DISPOSED BOOK, WHEN SAID BOOK IS LOCATED IN A PRE-DETERMINED POSITION, AND CONTROLLING MEANS BEING INDEPENDENT OF THE BOOK FEEDING DEVICE, FOR CONTROLLING THE COVER FEEDING DEVICE AND THE PRESSER DEVICE, RESPECTIVELY, WHICH CONTROLLING MEANS ARE ARRANGED FOR BEING ACTUATED BY THE BOOKS ADVANCED BY THE BOOK FEEDING DEVICE.