The present invention relates generally to printing presses and more particularly to saddle conveyors, saddle binders and other high-speed signature transport devices.
Gathering devices such as perfect binders, saddle stitchers and mailroom inserters may use hoppers or feeders to collect sheet material. A saddle stitcher or perfect binder may for example collect folded printed materials fed from hoppers or feeders onto a saddle or perfect binder conveyor, respectively, to form a magazine or other printed product.
A saddle stitcher may collate signatures to assemble complete sets of signatures and bind them together using stitches. The signatures are opened to the centerfold and collated by feeding mechanisms onto a saddle raceway to be conveyed past a stitching mechanism. These bound signatures, or books, are then removed from the saddle conveyor for further processing, such as trimming the unbound edges.
U.S. Patent Application No. 2005/0225023 discloses a device for transporting printed products that permits removal of signatures from a saddle conveyor. A first conveyor moves a plurality of folded signatures in a first direction and a second conveyor includes a rotating blade device for lifting a signature from the first conveyor.
U.S. Pat. No. 4,260,145 discloses a tucker blade mechanism that contacts the folded edge of the signature from below the saddle conveyor. The tucker blade mechanism moves the signature forwardly and upwardly from the saddle conveyor as it moves in a vertical plane through a path, which is oblique relative to the saddle conveyor.
U.S. Pat. No. 4,482,141 discloses a method and device for conveying signatures from a blade chain conveyor supporting the signatures directly at a fold line. The signatures are gripped from above by orbitally-rotating clamping pads, which then transfer the signatures to a belt conveyor perpendicular to the blade chain conveyor.
U.S. Pat. No. 5,772,195 discloses a gathering and wire stitching machine for producing magazines, booklets and similar products from folded printed sheets comprising a conveyor path including a gathering segment and an adjoining wire stitching segment, the conveyor path including a saddle-shaped support for receiving printed sheets in a straddling arrangement from feeders arranged along the gathering segment.
Problems arise when transporting signatures on high speed conveying devices like saddle conveyors. Corners of signatures may turn up forming “dog ears” as known in the art. Rectangular and round bar guides are used to keep the edges of the signatures down during transport. Existing signature guides do not have the flexibility to control adequately paper on a saddle raceway. Rigid guides cannot follow three-dimensional contours, are difficult to adjust and tend to bind up. Jams are also difficult to clear when using a rigid guide system.
Traditional brass guides are difficult to conform to transition areas. The brass requires bending with pipe wrenches and then running string. Brass guides are also not continuous, so there are many gaps along the raceway.
An object of the present invention is to provide better control of the signatures during transport on a saddle conveyor or other conveyors. A spool and spindle embodiment is advantageously adjustable in multiple axes and allows for contouring in transition areas in order to improve book or signature control along the raceway. The string system provides for continuous guiding and support along the raceway.
The present invention provides a signature guide including at least one flexible member and a plurality of supports. The flexible member is supported by the supports to define a guide area.
The present invention also provides a saddle stitcher. The saddle stitcher includes a saddle conveyor for transporting signatures and at least one signature guide located along the saddle conveyor. The signature guide includes a plurality of supports and at least one flexible member supported by the plurality of supports thereby defining a guide area. The at least one flexible member guides the signature in the guide area.
At least one of the supports preferably is a spindle tensioner tensioning the flexible member. At least one of the supports may include a spool over which the flexible member passes. The spool may be eccentric, so that rotation of the spool can alter the position of the flexible member.
The supports preferably have six degrees of freedom to allow for contouring the flexible member to raceways or conveyors over which the signatures are guided. The flexible member may include a plurality of round cross-sectioned flexible members, for example strings.
The saddle stitcher of the present invention also may further include a hopper area delivering signatures to the saddle conveyor to form gathered products, a stitching area for stitching the gathered products and a transition area downstream of the stitching area where the stitched products leave the saddle-back conveyor.
The present invention also provides a method for guiding signatures along a conveyor by contacting the signatures with the signature guide according to the present invention.
A preferred embodiment of the present invention will be elucidated with reference to the drawings, in which:
The spool and spindle guide system 200 includes a plurality of supports 10, 23 supporting a plurality of flexible members 12, 14, 16, 18, 20, 22 thereon. The supports include spring tensioners 10 and spools 23. As shown in
Spindle tensioners 10 are attached to brackets 30 for positioning the spindle tensioners 10 adjacent saddle conveyor 80. Brackets 30 may include a slot 32 and fixing member 34 so spindle tensioner 10 is adjustably positioned toward or away from saddle conveyor 80 as desired. As such, the spindle tensioners are positioned vertically with respect to conveyor 80, horizontally with respect to conveyor 80 and toward or away from conveyor 80.
An operator can tighten spindles 28 to accommodate for creep and wear of the strings 12, 14, 16, 18, 20, 22 over time and use. In addition, strings 12, 14, 16, 18, 20, 22 can be loosed, tightened or adjusted as need to accommodate the products being transported on conveyor 80 and/or a surface or geometry of saddle back conveyor 80.
Spool and spindle guide system 200 also includes an adjustable lead in for products because the position of end plates 36 and strings, 12, 14, 16, 18, 12′, 14′, 16′, 18 are adjustable. End plates can be moved toward or away from conveyor 100 to change the geometry of the transition area from the hopper. End plates 36 and strings, 12, 14, 16, 18, 12′, 14′, 16′, 18 are articulated to provide a funnel for products moving down the saddle conveyor 80. The product makeup including page number, width, length, stock thickness etc., affects the amount of constraint the “funnel” or lead in is set to. A shallower angle provides more constraint.
In addition, bowing rods 30 may be provided along the length of saddle conveyor 80 to further contour strings 12, 14, 16, 18, 20, 22 to the complex shape of the transition areas A, B. Bowing rods 30 may press, direct or guide to further customize and accommodate the transportation of products along the conveyor 100. For example, bowing guides are used to give a concave shape to the strings 12, 14, 16, 18, 20, 22 in relation to the saddle conveyor 100.
The spool and spindle guide system 200 provides a flexible and adjustable support system for products being transported on saddle stitcher 100. The flexible members or strings can, by virtue of the spindle tensioners 10 and spool guides 23 having six degrees of separation, be contoured to the saddle back conveyor 80 and sloped sides in this area. As a result, the spool and spindle guide system 200 can be tailored to the product being transported as described above. Multiple spool and spindle guide systems 200 may be provided along the saddle conveyor and on both sides of the saddle conveyor. Some guide systems may be consecutive along the length of the conveyor, for example, upstream or downstream from each other. Other guide systems 200 may overlap to provide smooth transition areas. In the past, accommodating the transition areas with brass bars was difficult. Many of the drawbacks previously associated therewith have been eliminated with the flexibility and adjustability of the spool and spindle guide system 200.
Further advantages of a spool and spindle guide in accordance with an embodiment of the present invention include the ease of making adjustments. Vertical adjustments do not need to be made and angular adjustments may be made via a pivot. Adjustments towards and away from the raceway may be made with a hexagonal shaft, to prevent spool rotation, a round shaft that allows the spindly to rotate or a slot and pin which prevents rotation. The adjustments are smoother than in those in the current state of the art.
Another advantage is the reduction in make ready time with the spool and spindle embodiment of the present invention. The string can accommodate multiple product sizes without having to make adjustments. There is also a cost savings associated with the spool and spindle embodiment. The cost may be 8 times less than traditional guide systems, for example.
Using the spool and spindle embodiment of the present invention provides for flexibility through the caliper, long book area and hopper. Traditionally, guides were not adjustable so guides could not be used in the hopper area. Air blasts were used instead. The air blasts were difficult and timely to adjust. The air blasts also caused disturbances in the drop area. The spool and spindle system is easily adjustable and can be used in the hopper area thereby eliminating the use of air blasts and the problems associated therewith.
A further advantage of the spool and spindle guide is the interchangeability and commonality of parts. Traditional brass guides were specifically designed for particular areas along the raceway. Approximately 90% of the spool and spindle guide system includes common parts.
The flexible member, which may have a round cross-section in a preferred embodiment, can be any shape. The flexible member can wrap around spindles that include six degrees of freedom to allow for contouring the guiding to the raceway of the saddle stitcher/conveyor. The spool and spindle embodiment allows contouring to the behavior of the books or signatures as they are transported at high speeds down the saddle raceway. Multiple guides may be added easily to the system based on the pitch of the grooves in the spools which may be as small as the thickness of the flexible member. The flexible members can be tensioned with springs to allow for creep and wear over time.
In the preceding specification, the invention has been described with reference to specific exemplary embodiments and examples thereof. It will, however, be evident that various modifications and changes may be made thereto without departing from the broader spirit and scope of invention as set forth in the claims that follow. The specification and drawings are accordingly to be regarded in an illustrative manner rather than a restrictive sense.
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