US20100264575A1

US20100264575A1 - Booklet feeder systems and methods

Info

Publication number: US20100264575A1
Application number: US12/426,576
Authority: US
Inventors: Michael R. Drago; Stephen J. Gillette; David M. Skvoretz; Bryan T. Frack
Original assignee: Bowe Bell and Howell Co
Current assignee: Bell and Howell LLC
Priority date: 2009-04-20
Filing date: 2009-04-20
Publication date: 2010-10-21

Abstract

The present subject matter relates to systems and methods for advancing booklets from a group of booklets are provided. In particular, a booklet feeder can include a conveying path for supporting a group of booklets with each booklet comprising a stack of bound sheet articles, and a grip remover configured for engaging booklets in a seriatim manner in the conveying path. The grip remover can be movable to remove an engaged booklet from the conveying path and advance the removed booklet to an exit path.

Description

TECHNICAL FIELD

The subject matter disclosed herein relates generally to systems and methods for document handling and processing technologies. More particularly, the subject matter disclosed herein relates to booklet feeder systems and methods for processing or advancing booklets that can be of varying thicknesses.

BACKGROUND

Machines for feeding documents seriatim from a stack can be useful in a wide variety of document processing applications, such as printing, separating, collating, folding, scoring, and inserting machines, to name a few. A number of options are available for feeding documents in this manner, including friction rollers, reciprocating friction pusher feeders, grippers, and clamps-type devices, and including top-feeding or bottom-feeding systems. When booklets of multiple pages are to be advanced or fed, however, the thicknesses of the booklets can limit the options available.
In particular, currently-used systems for feeding booklets, such as friction feeders, generally require all of the booklets to be fed to have the same booklet thicknesses (i.e., the same page count and page thicknesses). If the booklets are too thick, they may not fit through the feeder assembly. If the booklets are too thin, they may not be taken up by the feeder assembly. As a result, the required uniformity prevents many choices of customization in the variety of booklets that can be processed in the same stack. Accordingly, current booklet feeders are ill-suited to provide a wide range of options for document processing.

SUMMARY

In accordance with this disclosure, systems and methods for advancing booklets from a group of booklets are provided. In one aspect, a booklet feeder is provided having a conveying path for supporting a group of booklets with each booklet comprising a stack of bound sheet articles, and a grip remover is provided and configured for engaging booklets in a seriatim manner in the conveying path. The grip remover can be movable to remove an engaged booklet from the conveying path and advance the removed booklet to an exit path.
In another aspect, the booklet feeder can be provided with a conveying path for supporting a group of booklets having non-uniform booklet thicknesses, at least one vacuum picker assembly configured for engaging booklets in a seriatim manner in the conveying path, and a controller connected to the at least one vacuum picker assembly for controlling the movement of an engaged booklet from the conveying path to the exit path. The conveying path can itself comprise a supply conveyor for advancing the group toward an end of the conveying path. The at least one vacuum picker assembly can be movable to remove an engaged booklet from the conveying path and advance the removed booklet to an exit path.
In yet other aspects, methods for advancing booklets from a group of booklets are provided. The methods can include supporting one or more booklets in a conveying path, engaging one of the booklets in the conveying path using a grip remover, removing the engaged booklet from the conveying path, and advancing the removed booklet to an exit path.
Some of the aspects of the subject matter disclosed herein having been stated hereinabove, and which are achieved in whole or in part by the presently disclosed subject matter, other aspects will become evident as the description proceeds when taken in connection with the accompanying drawings as best described hereinbelow.

BRIEF DESCRIPTION OF THE DRAWINGS

The features and advantages of the present subject matter will be more readily understood from the following detailed description which should be read in conjunction with the accompanying drawings that are given merely by way of explanatory and non-limiting example, and in which:

FIG. 1 is a perspective view of a booklet feeder according to an aspect of the presently disclosed subject matter;

FIG. 2 is a perspective view of a booklet feeder according to an aspect of the presently disclosed subject matter with the interior components exposed;

FIG. 3 is an elevated side view of an interior of a booklet feeder according to an aspect of the presently disclosed subject matter; and

FIGS. 4 through 7 are side views of an interior of a booklet feeder in sequential steps of operation according to an aspect of the presently disclosed subject matter.

DETAILED DESCRIPTION

Reference will now be made in detail to presently preferred aspects of the present subject matter, one or more examples of which are shown in the figures. Each example is provided to explain the subject matter and not as a limitation. In fact, features illustrated or described as part of one embodiment can be used in another embodiment to yield still yet another embodiment. It is intended that the present subject matter covers such modifications and variations.
The present subject matter provides systems and methods for advancing booklets from a group of booklets. As will be appreciated by those of skill in the art, references to a “booklet” can be understood to mean, as an example and without limitation, a stack of bound sheet articles or the like. Further, the term “bound” should be understood to mean, as an example and without limitation, anything that suitably holds or maintains a stacked group of sheet articles together. In particular, such systems and methods can be used in document processing systems such as, for example, mail inserting systems, mail sorting systems, and any other suitable sheet processing systems. In one aspect, the present subject matter provides a booklet feeder, generally designated 100, for advancing booklets such as booklet 130 from a group of booklets. Booklet feeder 100 can include a conveying path, generally designated 120, for supporting a group of booklets (only a single booklet 130 is illustrated in FIG. 1 to show the underlying features of conveying path 120). For instance, conveying path 120 can comprise a supply conveyor 115 for advancing the group toward an end of conveying path 120.
In particular, as is illustrated in FIG. 1, supply conveyor 115 can be a continuous belt conveyor that is driven by a supply conveyor drive motor 117 over a set of supply conveyor pulleys 200 a and 200 b (see, e.g., FIG. 2). In this configuration, supply conveyor 115 can advance booklets such as booklet 130 toward an end of conveying path 120, which can be in communication with a feeder assembly, generally designated 135. Conveying path 120 can also include booklet side guides 125 for keeping the group of booklets aligned as they are advanced. In addition, conveying path 120 can also include a paddle assembly 105 movable with supply conveyor 115 for guiding the advancement of the booklets such as booklet 130. Paddle assembly 105 can be angled relative to conveying path 120 for supporting the group of booklets at an angle (e.g., about a 45° angle). Paddle assembly 105 can be guided along conveying path 120 by paddle slide guides 110.
Referring now to FIG. 2, when a first booklet 130 in the group reaches an end of conveying path 120, one or more sensors 205 a and 205 b can signal supply conveyor 115 to stop moving. In addition, an advancement barrier can be provided for preventing the inadvertent advancement of the group. Examples of an advancement barrier can include a raised lip 210 on the end of conveying path 120 (e.g., about ½ inch high) and/or a flexible hold-back 202 (e.g., a spring steel hold-back), both of which are shown in FIG. 2.
Booklet feeder 100 can further include one or more booklet removers, such as grip removers 215 a and 215 b that can be contained within feeder assembly 135. These grip removers 215 a and 215 b can be configured for engaging booklets such as booklet 130 in a seriatim manner in conveying path 120. Further, grip removers 215 a and 215 b can be movable to remove an engaged booklet 130 from conveying path 120 and advance the removed booklet 130 to an exit path, which is generally designated 230 in the Figures. Grip removers 215 a and 215 b can be movable to lift the engaged booklet 130 past the advancement barrier (e.g., under flexible hold-back 202 and/or over raised lip 210). For instance, grip removers 215 a and 215 b can be configured to raise booklet 130 away from the group of booklets and over raised lip 210 (e.g., raise the bottom of booklet 130 about 1.25 inches)
In one aspect, grip removers 215 a and 215 b can comprise vacuum picker assemblies, which can be carried on pivotable swing arms 220 a and 220 b, respectively. Suction can be provided by a vacuum generator 224 (e.g., a vacuum pump or pressurized air source), the operation of which can be regulated by a first vacuum control valve 222 and fed from an air preparation system 144 (see FIG. 1). In such a system, grip removers 215 a and 215 b are moved near booklet 130 and suction is created (i.e., vacuum generator 224 is enabled). Booklet 130 is controllable engaged by grip removers 215 a and 215 b such that booklet 130 can be moved with the movement of grip removers 215 a and 215 b. When booklet 130 is moved to a desirable location, the suction is removed, and booklet 130 can be disengaged from grip removers 215 a and 215 b.
Regardless of the specific design of grip removers 215 a and 215 b, however, grip removers 215 a and 215 b can be configured for engaging booklets regardless of the booklet thicknesses. As a result, grip removers 215 a and 215 b can advance booklets such as booklets 130 having any of a variety of booklet thicknesses (e.g., number of pages from 2 pages to about 100 pages or more) from conveying path 120 to exit path 230. Further, because grip removers 215 a and 215 b need not be specifically designed for a particular booklet thickness, booklet feeder 100 can be used to advance groups of booklets having non-uniform booklet thicknesses (e.g., varying page counts and varying paper weights within the same stack) without requiring adjustments to booklet feeder 100. For example, as is shown in FIG. 3, a relatively thin booklet 130 a and a relatively thick booklet 130 b can be advanced in a continuous manner. Such flexibility can provide advantages over current booklet feeders, which, as noted above, are generally configured for a specific booklet thickness and would need to be adjusted before feeding a booklet having a different thickness. This design thus allows for personalization opportunities and possibly partnering with other print vendors.
As noted above, booklet 130 can then be moved toward exit path 230. This movement can be accomplished by pivoting lever arms 220 a and 220 b from a first position in which grip removers 215 a and 215 b are near the end of conveying path 120 to a second position above exit path 230. Specifically, lever arms 220 a and 220 b in the first position can be oriented at an angle relative to conveying path 120 to match the angle of booklet 130 (e.g., about 45 degrees). The pivoting of lever arms 220 a and 220 b can be caused by the operation of a swing arm actuator 310 (e.g., an air cylinder), which can be regulated by a second vacuum control valve 223.
Exit path 230 can be an output conveyor, for instance having conveyor sections 232 a, 232 b, 242 a, and 242 b, for advancing the removed booklet 130 away from grip removers 215 a and 215 b. In particular, exit path 230 can comprise a first output conveyor stage composed of first output conveyor sections 232 a and 232 b and a second output conveyor stage composed of second output conveyor sections 242 a and 242 b. First output conveyor sections 232 a and 232 b can be driven by a first drive motor 234 (e.g., a stepper motor) connected through first drive pulleys 236 a and 236 b. Second conveyor sections 242 a and 242 b can be independently driven by a second drive motor 244 (e.g., another stepper motor) through second drive pulleys 246 a and 246 b. In this arrangement, the first output conveyor stage can be adapted for advancing the removed booklet 130 to the second output conveyor stage. In addition, the first output conveyor stage can further include first booklet pusher lugs 225 a and 226 a associated with first output conveyor sections 232 a and 232 b, respectively, for assisting the advancement of booklet 130 from the first output conveyor stage to the second output conveyor stage. In addition, first booklet pusher lugs 225 a and 226 a can be complemented by additional booklet pusher lugs connected to opposite ends of first output conveyor sections 232 a and 232 b, respectively (see first booklet pusher lug 226 b complementary to first booklet pusher lug 226 a in FIG. 3). Similarly, the second output conveyor stage can include second booklet pusher lugs 240 a and 241 a associated with second output conveyor sections 242 a and 242 b, respectively, for assisting the advancement of booklet 130 out of feeder assembly 135 for downstream processing. (Again, additional second booklet pusher lugs, such as second booklet pusher lug 241 b shown in FIG. 3 can also be provided.)
A controller, such as the computer controller generally designated 140 in FIG. 1, can be provided to coordinate the advancement of booklet 130 along conveying path 120, the engagement of booklet 130 by grip removers 215 a and 215 b (e.g., vacuum picker assemblies), the movement of grip removers 215 a and 215 b to move engaged booklet 130 from conveying path 120 to exit path 230, and the advancement of booklet 130 along exit path 230.
With a configuration such as is described above, booklet feeder 100 can operate as shown in FIGS. 4 through 7. A group of booklets 405, which can have non-uniform booklet thicknesses, can be supported on conveying path 120. As noted above, group 405 can be supported on conveying path 120 at an angle relative to conveying path 120 (e.g., about a 45° angle). Group 405 can be advanced along supply conveyor 115 toward grip remover 215 b, but advancement can be stopped when a first booklet 130 in group 405 reaches an end of supply conveyor 115. It is noted that although grip remover 215 a is not shown in this drawing, it is to be understood that both grip removers 215 a and 215 b can be positioned identically to operate cooperatively together.
As is shown in FIG. 4, swing arm 220 b can be positioned such that grip remover 215 b is near a first booklet 130 of group 405. Specifically, as indicated above, swing arm 220 b can be positioned at an angle (e.g., about 45 degrees) such that grip remover 215 b is angled complementarily to the angle of booklet 130. Referring to FIG. 5, booklets 405 can thus be engaged in a seriatim manner in conveying path 120 using grip remover 215 b, for example by actuating the vacuum picker assembly serving as grip remover 215 b. Referring to FIGS. 6 and 7, engaged booklet 130 can be removed from conveying path 120 and advanced toward exit path 230. As noted above, booklet 130 can be advanced from conveying path 120 to exit path 230 by the movement of grip remover 215 b. Specifically, swing arm 220 b on which grip remover 215 b is carried can be pivoted from a first position (see, e.g., FIG. 5) in which grip remover 215 b is near the end of conveying path 120 to a second position (see, e.g., FIG. 7) above exit path 230. Furthermore, it is noted again that although grip remover 215 a and swing arm 220 a are not shown, these elements can operate in the same manner as is described with regard to grip remover 215 b and swing arm 220 b. Once booklet 130 is moved above exit path 230, booklet 130 can be received on an output conveyor, such as a conveyor having sections 232 a, 232 b, 242 a, and 242 b illustrated in the Figures (Only sections 232 b and 242 b are shown in FIGS. 3-7). Specifically, moving booklet 130 to the output conveyor can comprise moving booklet 130 to a first output conveyor stage (first output conveyor sections 232 a and 232 b), and advancing booklet 130 from the first output conveyor stage to a second output conveyor stage (second output conveyor sections 242 a and 242 b).
Accordingly, the methods and systems disclosed hereinabove provide the capability to feed booklets with different page counts and different paper weights within the same stack. This capability creates a more flexible system for document processing that can allow for greater levels of personalization and customization and can thus be incorporated into a wide variety of applications.
The present subject matter can be embodied in other forms without departure from the spirit and essential characteristics thereof. The embodiments described therefore are to be considered in all respects as illustrative and not restrictive. Although the present subject matter has been described in terms of certain preferred embodiments, other embodiments that are apparent to those of ordinary skill in the art are also within the scope of the present subject matter.

Claims

1. A booklet feeder for advancing booklets from a group of booklets, the booklet feeder comprising:

a conveying path for supporting a group of booklets with each booklet comprising a stack of bound sheet articles; and

a grip remover configured for engaging booklets in a seriatim manner in the conveying path, the grip remover being movable to remove an engaged booklet from the conveying path and advance the removed booklet to an exit path.

2. The booklet feeder of claim 1, wherein the conveying path comprises a supply conveyor for advancing the group toward the grip remover.

3. The booklet feeder of claim 2, wherein the supply conveyor comprises a paddle assembly movable with the supply conveyor, the paddle assembly being angled relative to the conveying path for supporting the group of booklets at about an angle.

4. The booklet feeder of claim 2, wherein the supply conveyor comprises an advancement barrier for stopping the advancement of the group when a first booklet in the group reaches an end of the supply conveyor; and

wherein the grip remover is movable to lift the engaged booklet past the advancement barrier.

5. The booklet feeder of claim 1, wherein the grip remover comprises at least one vacuum picker assembly.

6. The booklet feeder of claim 5, wherein the vacuum picker assembly is carried on a pivotable swing arm.

7. The booklet feeder of claim 1, wherein the grip remover is configured for engaging booklets of different booklet thicknesses.

8. The booklet feeder of claim 1, wherein the exit path comprises an output conveyor for advancing the removed booklet away from the grip remover.

9. The booklet feeder of claim 8, wherein the output conveyor comprises a first output conveyor stage and a second output conveyor stage, the first output conveyor stage being adapted for advancing the removed booklet to the second output conveyor stage.

10. The booklet feeder of claim 1, further comprising a controller connected to the grip remover for controlling the movement of an engaged booklet from the conveying path to the exit path.

11. A booklet feeder for advancing booklets from a group of booklets, the booklet feeder comprising:

a conveying path for supporting a group of booklets having non-uniform booklet thicknesses, the conveying path comprising a supply conveyor for advancing the group toward an end of the conveying path;

at least one vacuum picker assembly configured for engaging booklets in a seriatim manner in the conveying path, the at least one vacuum picker assembly being movable to remove an engaged booklet from the conveying path and advance the removed booklet to an exit path; and

a controller connected to the at least one vacuum picker assembly for controlling the movement of an engaged booklet from the conveying path to the exit path.

12. A method for advancing one or more booklets, the method comprising:

supporting one or more booklets in a conveying path;

engaging one of the booklets in the conveying path using a grip remover;

removing the engaged booklet from the conveying path; and

advancing the removed booklet to an exit path.

13. The method of claim 12, comprising supporting a group of booklets having non-uniform booklet thicknesses in the conveying path.

14. The method of claim 12, comprising supporting the group at an angle relative to the conveying path.

15. The method of claim 123, comprising advancing the group along a supply conveyor toward the grip remover.

16. The method of claim 15, wherein advancing the group along a supply conveyor comprises stopping advancement when a first booklet in the group reaches an end of the supply conveyor.

17. The method of claim 12, wherein engaging booklets comprises actuating a vacuum picker assembly.

18. The method of claim 17, wherein advancing the removed booklet to an exit path comprises pivoting a swing arm on which the vacuum picker assembly is carried.

19. The method of claim 12, wherein advancing the removed booklet to an exit path comprises moving the booklet to an output conveyor.

20. The method of claim 19, wherein moving the booklet to an output conveyor comprises moving the booklet to a first output conveyor stage and advancing the booklet from the first output conveyor stage to a second output conveyor stage.