1. Field of the Invention
This invention relates generally to conveyor systems for articles such as printings. More particularly, the invention deals with a conveyor system to be appended to a web-fed printing press, in a position immediately downstream of the delivery fan, for transporting the completed printings, known to the specialists as signatures, to a subsequent processing station such as a stacking station.
2. Description of the Prior Art
Japanese Patent No. 3,046,308 teaches an integrated conveyor system for transporting signatures from a web folding and cutting station to a stacking station, with or without use of the delivery fan which is customarily employed for depositing the signatures from the folding and cutting station onto the conveyor one by one. This known conveyor system is in essence an endless chain with sets of wheels mounted to the chain links to roll along a looped guide rail. Each chain link is additionally furnished with a cooperative pair of grip fingers which open to receive an edge of a signature issuing from the folding and cutting station, which close to grip and carry the signature, and which reopen at the stacking station to release the signature.
This prior art chain conveyor had a weakness which manifested itself in the event of a jam of the signatures, particularly in the neighborhood of where the signatures were loaded on the conveyor by being gripped by the grip fingers. Being constituted of a single endless chain, the complete conveyor had to be set out of operation pending the system recovery from the trouble. All the signatures that had been being carried then by the endless chain conveyor had to be held at a standstill, blocked against further processing, until the conveyor resumed operation.
Japanese Unexamined Patent Publication No. 2000-103,557 suggests a conveyor system that incorporates two successive endless chain conveyors in order to defeat the weakness above. Both chain conveyors have gripping devices mounted to their links for engaging and carrying the signatures. The signatures are first loaded onto a first chain conveyor and thence onto a second chain conveyor for transportation to the subsequent processing station. The second chain conveyor has two endless chains parallel to each other, each carrying a row of gripping devices. At the junction between the first and the second chain conveyors, the two rows of gripping devices on the second lie on both sides of the row of gripping devices on the first. A belt conveyor is additionally provided for supporting the free edges of the signatures being carried by the first chain conveyor.
Only the first chain conveyor needs to be stopped in event a jam occurs at its loading end or upstream in this second prior art device. The signatures that have been carried by the second chain conveyor at that time can all be conveyed to the next station for continued processing.
The second prior art device has its own shortcomings. During transfer from the first to the second chain conveyor, the pair of gripping devices of the second conveyor are intended to engage the signature at its edge parts on both sides of where it is gripped by the first conveyor. However, as such edge parts are easy to sag while the signature is being carried by the first conveyor, the pair of gripping devices of the second conveyor sometimes failed to engage, or failed to engage correctly, the required edge parts of the signature. Then the signature either fell off the conveyor system or was ruined in the course of further processing. Human labor was required for recovery and disposal of such waste printings. The noted belt conveyor was incapable of totally eliminating such sagging of the signatures and, what is worse, itself added to the bulk of the printing system.
The present invention seeks to minimize the signatures that are held carried by the conveyor system, without being conveyed to the next processing station, when a jam or like trouble occurs in the neighborhood of its loading end or upstream.
Another object of the invention is to maintain each signature in a required attitude while being transferred from the first to the second conveyor and hence to assure the unfailing transfer of the signatures from the first to the second conveyor.
A further object of the invention is to make the complete conveyor system as compact and space-saving as feasible.
Briefly, the present invention may be summarized as a conveyor system for transportation of articles, such as signatures in a web-fed printing press, from a first to a second station. Included is a first conveyor having a pair of endless chains each having a series of first grippers mounted thereto in transverse alignment with first grippers of like construction on the other endless chain. Each transversely aligned pair of first grippers are capable of conjointly gripping an article at two spaced points on one edge thereof in a loading position adjacent the first station, and of releasing the article in a transfer position intermediate the first and the second station. A second conveyor is provided which has an endless chain with a series of second grippers mounted thereto. Each second gripper is capable of gripping, in the transfer position, an article at a point on the edge thereof intermediate the two spaced points where the article has been gripped by one pair of first grippers on the first conveyor, and of releasing the article at the second station. Means are provided for setting the first and the second conveyor into and out of operation independently of each other.
Thus, while being carried by the first conveyor from the first station to the transfer position, each signature is engaged by one transversely aligned pair of first grippers. The signature can be transferred from the first to the second conveyor in the correct attitude, as one of the second grippers on the second conveyor engages the signature at a point intermediate the two spaced points on its edges where it has been engaged by one pair of first grippers on the first conveyor. There is little or no likelihood of the second gripper failing to grip the signature by the sagging of its edge. The invention forgoes the belt conveyor which has been conventionally employed below the first conveyor for holding the signatures in the correct attitude, so that the conveyor system according to the invention is more compact and space-saving than heretofore.
Possibly, when the signature is loaded on the first conveyor from the delivery fan, its edge may have a slack between the points of engagement by one pair of first grippers on the first conveyor. The second gripper might then fail to grip the signature firmly enough. The invention precludes this possibility by making the pair of endless chains of the first conveyor diverge apart as they extend from the loading to the transfer position. The edge of the signature will then be stretched out by the pair of first grippers on the first conveyor while traveling toward the transfer position, and positively caught in the transfer position by one of the second grippers on the second conveyor.
It will also be appreciated that the invention provides for dependently setting the first and the second conveyor into and out of operation. When trouble such as the jamming of the web or signatures occurs at the delivery fan or upstream, for example, both conveyors may be individually started or stopped as required during the progress of troubleshooting. Also, in the event of such trouble, only the first conveyor may be stopped, and the second conveyor kept running to transport to the stacking station all the usable signatures that have been carried then by the second conveyor.
A further feature of the invention resides in a pair of transfer control cam associated with the second grippers on the second conveyor. Pivotable between two different positions as by a fluid-actuated cylinder under the control of a solenoid valve, the transfer control cams permit or block the transfer of the articles from the first to the second conveyor. This feature is intended to function during the startup period of the printing press, when faulty or incomplete signatures are unavoidably produced. The transfer control cams may then be positioned to block the transfer of the waste signatures from the first to the second conveyor. The waste signatures will be discharged under the unloading end of the first conveyor. After the press has started putting out good signatures, the transfer control cam may be actuated to permit transportation of such signatures to the stacking station.
The above and other objects, features and advantages of this invention will become more apparent, and the invention itself will best be understood, from a study of the following description and appended claims, with reference had to the attached drawings showing the preferred embodiment of the invention.
The conveyor system according to the invention is believed to be best applied to the rotary printing press for transportation of signatures from the web folding and cutting station, from which the signatures emerge completed, to the stacking station where the signatures are stacked one upon another.
As shown also in
As depicted in a plan view in
The conveyor system H according to the invention comprises a first conveyor 10 for transporting the signatures F from the delivery fan D to a transfer position R,
The noted first conveyor 10, first grippers 11, second conveyor 20, second grippers 24, and transfer control mechanism 40 will be discussed in more detail hereinbelow, in that order and under separate headings. Operational description will follow the discussion of the listed components.
Reference may be had to
The second pair of idler sprocket wheels 17 are rotatably supported on the distal ends of arms 17a which are proximally cantilevered to a crossbeam 17b,
The pair of drive sprocket wheels 18 are both mounted fast to a drive shaft 15 extending between, and rotatably supported by, an additional pair of confronting framing walls 54 and 55 which are laid parallel to the second mentioned pair of framing walls 52 and 53. Erected side by side with the second pair of framing walls 52 and 53, the third pair of framing walls 54 and 55 have edges 54a and 55a received between, and rigidly joined to, the framing walls 52 and 53. The drive shaft 15 has one end projecting outwardly of the framing wall 54 and coupled to a first conveyor drive motor 19 via a timing belt 15a. As is well known, the timing belt 15a has cogs molded thereon to fit into grooves in the pulleys on the drive shaft 15 and on the motor output shaft. The first conveyor drive motor 19 operates under the direction of control electronics, not shown, for driving the first conveyor 10 independently of the second conveyor 20 and other working parts of the press.
According to a feature of this invention, the spacing L1,
As indicated in both
The grip fingers 11a and 11b are both fabricated from strips of resilient material such as steel, with a width determined not to interfere with the vanes Da or hubs Dc of the delivery fan D. The first grip fingers 11a are each approximately in the shape of a Z and generally angled upstream of the first conveyor 10. The second grip fingers 11b are each approximately U shaped and has its free limb angled downstream of the first conveyor 10. Each first grip finger 11a and one second grip finger 11b on its upstream side, constituting in combination one gripper 11 as above, are movable into and out of gripping engagement with each other with the travel of the endless chain 10a over the sprocket wheels 16-18.
More specifically, as will be understood from a closer study of
The two endless chains 10a of the first conveyor 10 are so positioned with respect to the delivery fan D that each transversely aligned pair of grippers 11 on the endless chains will grip one signature F at the loading end of the first conveyor adjacent the delivery fan, as the pair of grippers open and close while riding over and off the sprocket wheel 17. The pair of grippers 11 will be held closed, holding the signature F, while traveling along the following lower flight of the first conveyor 10. At the transfer station R, on the other hand, where the first conveyor 10 interdigitate with the second conveyor 20, the pair of grippers 11 will release the signature and hand over to the second conveyor as they open by riding onto the sprocket wheel 18.
It is understood that the running speed of the first conveyor 10 is less than the peripheral speed of rotation of the delivery fan D. Therefore, while each pair of grippers 11 are traveling open over the sprocket wheel 17 as in
With reference to FIGS. 1, 3-5 the second conveyor 20 is constituted of a single endless roller chain 20a having the second grippers 24 on its links 21. The endless chain 20a is wheeled, as will be detailed later, to roll along a guide rail 26 supported by crossbeams 26c between the pair of framing walls 54 and 55.
As seen in
Cross-sectionally shaped as best pictured in
At 29 in
As best shown in
The gripper carrier 21d has a pair of sleeve bearings 24a′ formed on its side away from the gripping end of the fixed grip jaw 24a. Axially aligned and spaced from each other, the pair of sleeve bearings 24a′ rotatably receive a pivot pin 27 having its opposite ends coupled to a pair of lugs 24b′ formed in one piece with the movable grip jaw 24b. The movable grip jaw 24b extends transversely of the second conveyor 20 and has the same dimension in that direction as the fixed grip jaw 24a. The movable grip jaw 24b is cross-sectionally curved as in
A pair of arms 24c of each second gripper 24 extend from the lugs 24b′ in a direction away from the movable grip jaw 24b, each forming a curve that is approximately concentric with the cross sectional curve of the movable grip jaw. The each pair of arms 24c carry on their distal ends 24d a pair of cam follower rolls 25 which are rotatable relative to the arms 24c about a common axis extending transversely of the guide rail 26. With the travel of the second conveyor 20 the pair of cam follower rolls 25 are to ride over the pair of transfer control cams 30,
At 24b″ in
The construction and operation of the transfer control mechanism 40 including the pair of transfer control cams 30 will become apparent from an inspection of
The upstream ends 30′, with respect to the traveling direction of the second conveyor 20, of the transfer control cams 30 are cantilevered at 31a and 31b to the pair of framing walls 54 and 55 for pivotal motion in planes parallel to the plane of the second conveyor. The downstream ends 30″ of the transfer control cams 30 are rigidly interconnected by a cross pin 34 to which is coupled a fluid-actuated cylinder 41 yet to be described. Driven by this cylinder, the transfer control cams 30 are to turn between the loading position of
The transfer control cams 30 have contoured cam surfaces 30a over which are to roll the pair of cam follower rolls 25 on the movable grip jaws 24b of the second grippers 24 on the second conveyor 20. The transfer control cams 30 are grooved longitudinally at 30b in order to avoid interference with the arched arms 24c,
As shown in both
First, when the transfer controls cams 30 are in the loading position, the movable grip jaws 24b of the second grippers 24 will swing away from the fixed grip jaws 24a against the bias of the torsion springs 28,
As will be noted from
Also, approximately in the transfer position R, the successive pairs of first grippers 11 on the first conveyor 10 will start riding onto the drive sprockets 18 and so start opening. Thus the first grippers 11 will release the signatures approximately concurrently with the gripping thereof by the second gripper 24, so that the signatures will be smoothly transferred from the first conveyor 10 to the second 20 in the transfer position R when the transfer control cams 30 are in the loading position as in
When the transfer control cams 30 are in the nonloading position as in
Issuing from the cutting and folding cylinders C, the signatures F will be received in the successive pockets Db of the delivery fan D which is in counterclockwise rotation as viewed in
The successive first grippers 11 will be closed as they come to the lower stretch of the first conveyor 10, with the result that each signature is gripped by one transversely aligned pair of first grippers at two spaced points on one edge thereof. The gripped signatures will slide down the vanes Da of the delivery fan D as the latter runs faster than the first conveyor 10, and thereafter be carried by the first conveyor away from the delivery fan toward the transfer position R.
It is now assumed that the fluid actuated cylinder 41 has been held extended as in
Then, in the transfer position R, the second grippers 24 will close as the cam follower rolls 25 ride off the transfer control cams 30. Each second gripper 24 will then grip the signature at one point on its edge between the points thereon where it has been gripped by one transversely aligned pair of first grippers 11 on the first conveyor 10. Concurrently, the first gripers 11 will open, releasing the signature, as the roller chains 10a of the first conveyor ride onto the drive sprockets 18. Now has been completed the transfer of the signature from the first conveyor 10 to the second 20.
It will be recalled that, as indicated in
Transferred as above from the first to the second conveyor, the signatures will be transported by the latter to the next processing station shown at Q in
Faulty or incomplete signatures will unavoidably be produced at the start of each run of printing operation. It is desirable that such undesired signatures be discharged at an earlier stage than the processing station Q. Then the fluid-actuated cylinder 41 of the transfer control mechanism 40 may be contracted as in
With the transfer control cams 30 thus turned to the nonloading position, the cam follower rolls 25 on the movable grip jaws 24b of the second grippers 24 on the second conveyor 20 will be out of contact with the surfaces 30a of the transfer control cams while traveling along the bottom stretch 61 of the guide path, thereby holding the second grippers closed. The signature being carried by each transversely pair of first grippers 11 on the first conveyor 10 will therefore slide over the underside of one associated second gripper 24 on the slower-running second conveyor 20. Then, in the transfer position R, the signature will fall off the pair of first grippers 11 without being captured by the second gripper 24, as the first grippers then open by riding onto the drive sprockets 18. The discharge of faulty signatures upstream of the processing station is desirable because they would cause trouble should they be allowed to travel further down the normal path.
While being transported as above by the first grippers 11 in forced engagement with the second grippers 24 on the slower-running second conveyor 20, the signatures may possibly be ruined by hitting or rubbing hard against the second grippers. This, however, will pose no problem at all because all such signatures are faulty and to be rejected.
The transfer control cams 30 may be turned from the nonloading position of
The usual practice in the printing industry is that the web of paper E,
The transfer control cams 30 may also be actuated to the nonloading position in event of some such trouble as the jam of the web occurs upstream of the first conveyor 10. The signatures produced after the occurrence of the trouble will then be not transferred from the first conveyor 10 to the second 20. As has been stated with reference to
Various modifications and alterations of the above disclosed embodiment may be resorted to without departure from the subjoined claims.
Number | Date | Country | Kind |
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2003-299804 | Aug 2003 | JP | national |