CA2235142A1 - Vacuum hold-down for folder/gluers and process - Google Patents

Abstract

The folder/gluer has lip seals (118) associated with each side plate (111) of the conveyor housing (110). These lip seals are slightly lower than the top surface of the feed conveyor belts (120). When the vacuum is applied to the vacuum holes (175), these lip seals do not allow the vacuum acting on the article sides to be bled off to the atmosphere. This results in conveyance far superior to anything known to date.

Description

CA 0223~142 1998-04-17 W O 97/14634 PCT~US96/16444 VACUUM HOLD-DOWN FOR FOLDER/GLUERS AND PROCESS
RELATED PATENT APPLICATIONS
This international application corresponds to US Patent Application Serial No. 08/544,613 filed October 18, 1995, which is a continuation-in-part of US Patent Application Serial No.
08/519,248, filed August 25, 1995.
DESCRIPTION OF THE PRIOR ART
Figure 1 shows a conventional flat blank B, which can be folded into a box. As blank B is fed in direction F, folds 1 and 2 are first made in that order, with folds 3 and 3' simultaneously made after folds 1 and 2. Glue G is placed on lip L1, which is then placed under lip L2, finishing the box, except for the folding and closing of the top and bottom flaps, which are not concerns of this invention.
Figure 2 shows a simplified version of a prior art feeding device 900 used to feed blanks B in direction F while the various folds described above are made (the folding mechanism is not shown). Device 900 comprises upper and lower conveyors, between which blank B is fed, sandwiched between belts 901, 20 901'. Belts 901, 901' are driven by drive rollers 902, 902' around idler rollers 904, 904'. Drive rollers 902, 902' are driven by drive shafts 903, 903~ connected to drive motors (not shown). Pressure roller assemblies 910, 910' (of which only a few are shown) maintain the sandwiched arrangement of bIank B.
25 Roller assemblies 910 comprise rollers 911 mounted via pivot arms 912 to a stationary surface. Edge guides 914 prevent lateral movement of belt 901 with respect to roller 911. A
typical machine such as this has hundreds of roIler assemblies 910. US Patent No. 5,151,075 to Beaulleu et al. shows a typical example of device 900 and visually indicates just how complex prior art carton forming devices are in relation to the instant invention.
Device 900 is overly complicated, difficult to use, unrellable, and does not allow for the construction of the best possible boxes. Device 900 is overly complicated because it has so many components in specific arrangements that it is not subject to modular usage with blanks B of various sizes.

CA 0223~142 1998-04-17 W O 97/14634 PCT~US96/16444 Device 900 is difficult to use because: (1) belts 901, 901' wear quickly due to the vast number of idler rollers 904, 904' and rollers 911, 911' in contact with belts 901, 901', and (2) belt replacement is difficult and can take up to a day and a half because replacement belts have to be threaded over all the previously mentioned rollers and drive shafts 903, 903' must be removed. Device 900 is unreliable because it has so many moving parts that will and do fail during high speed usage of the device. For example, while device 900 may be capable of high-speed feeding, it can only maintain the high speed for a short period of time. After this short period of time, the various springs, rollers, bearings, and belts will fail.
Finally, device 900 does not allow for constructing the best possible boxes because it does not allow for a 180~ fold to be made at fold 2 of Figure 1, or in other instances where 180~
folds are needed. The 180~ fold, after unfolded, results in a deeper crease in blank B that allows for very easy unfolding of the flattened and glued box at a downstream filling machine.
Furthermore, 180~ folds provide for superior stacking of folded boxes since each flattened box will be of a generally constant thickness. Thus, a stack of flattened boxes will not tend to lean to a side or tip over. Device 900 does not allow for 180~
folds because the upper conveyor 901, along with all the not shown folding mechanisms associated with device 900, get in the way (Figure 2B).
Thus, there is room for improvement within the art.
OBJECTS OF THE INVENTION
It is an object of the invention to provide an improved conveyor unit that can be used to feed a box blank through folding, gluing, and compression stations.
It is a further object of the invention to provide an improved conveyor unit that has the potential to make 180~
folds in the box blank.
It is yet a further object of the invention to provide an improved conveyor system that allows for reduced belt wear and easier belt replacement.

CA 0223~142 1998-04-17 W O 97/14634 PCT~US96/16444 It is still yet a further object of the invention to provide an improved conveyor system that allows for modular usage to feed blanks of varying sizes.
- It is still yet a further object of the invention to provide an improved conveyor unit that represents a drastic reduction in moving parts, wear, and need for adjustment, from prior art conveyors.
It is still yet a further object of the invention to provide a folder/gluer lacking the complex overhead mechanical movements found in prior art folder/gluers.
It is still yet a further object of the invention to provide a reliable article separator for use with the folder/gluer according to the invention.
It is still yet a further object o~ the invention to provide a ~older/gluer in which there is no substantial bleed of~ of vacuum to the atmosphere.
These and other objects of the invention are achieved by a vacuum hold-down device ~or a folding mechanism for paper-board articles, comprising: a substantially enclosed conveyor housing having a vacuum inlet, side plates, a conveyor table having vacuum holes along its length and adjacent the side plates, and defining a vacuum chamber therein; a lip seal associated with each o~ the side plates of the conveyor housing, the lip seals rising above the conveyor table; at least one feed conveyor belt in between the side plates and spanning the conveyor table, the at least one conveyor rising above the conveyor table a distance greater to that of the lip seals; a drive mechanism associated with the conveyor belt for driving the at least one conveyor belt; a vacuum source in fluid communication with the vacuum inlet; whereby when the vacuum source is activated, a vacuum is created in the vacuum chamber and in the area of the vacuum holes, thereby causing the paper-board articles to adhere against the belt and the lip seals; and folding elements spaced above the conveyor module for ~olding and ~orming a flat paper-board article into a container.

CA 0223~142 1998-04-17 WO97/14634 PCT~S96/16444 BRIEF DESCRIPTION OF THE DRAWINGS
Figure l is plan v-iew of a conventional carton blank that can be folded into a carton.
Figure 2A is an elevational view of a conventional carton blank feeder used in conventional folding and box making devices.
Figure 2B is a highly simplified elevational view showing a flaw in conventional folding and box making devices.
Figure 3A is an elevational view, in partial cutaway, showing a flrst embodiment of a conveyor module according to the invention.
Figure 3B is a plan view of the first embodiment of a conveyor module according to the invention.
Figure 4A is an elevation view showing a second embodiment of a conveyor module according to the invention.
Figure 4B is a plan view showing a second embodiment o~ a conveyor module according to the invention.
Figure 4C is a plan view showing a third embodiment of a conveyor module according to the inventlon.

2 0 Figures 5A-B are simplified plan views showing multiple conveyor modules placed in a staggered configuration.
Figures 6A-C are different views of an article feed supply for use with the folder/gluer according to the invention.
Figure 7A is a cross section of a conveyor module according to the invention and showing a first ~orm of lip seals used to prevent the bleed off of vacuum.
Figure 7B is a cross section of a conveyor module according to the invention and showing a second form o~ lip seals used to prevent the bleed off of vacuum.

3 0 Figure 7C is an elevational view of a conveyor module according to the invention and showing a third form of lip seals used to prevent the bleed of~ of vacuum.
DET~TTT~n DESCRIPTION OF THE DRAWINGS
In accordance with this invention, it has been ~ound that a conveyor module for a folder/gluer can be provided that allows for easier belt replacement, reduced belt wear, improved CA 0223~l42 l998-04-l7 W O 97/14634 PCT~US96/16444 folding of the conveyed blank, and various other bene~icial results.
Figures 3A and 3B show a first embodiment of a conveyor module which achieves the objects of the invention.
Conveyor module 100 comprises a substantially closed conveyor housing 110, made up of, among other panels, side plates 111 and table surface 115. Table surface 115 is mounted to side plates 111 by using quick disconnect members 116, for reasons to be described below. Conveyor module 100 is supported by legs 150. The interior of conveyor housing 110 defines vacuum chamber 170. Vacuum chamber 170 is evacuated by using first hose 165 attached to the vacuum end of blower 160.
The vacuum in vacuum chamber 170 causes a negative pressure to occur on table surface 115 because of the presence of vacuum holes 175. Hose 167 provides vacuum to article supply feeder 400. By using a blower 160 instead of a vacuum pump, the effects of dust drawn in through vacuum holes 175 are virtually eliminated.
To feed blanks in direction F, conveyor module 100 preferably has two parallel side-by-side conveyor belts 120.
On the outsides and between the parallel side-by-side conveyor belts 120 are the vacuum holes 175, which attract blanks s to belts 120. Conveyor belts 120 are supported by conveyor table 115 across their entire length and, therefore, do not flex as with prior art vacuum conveyors such as shown in US Patent No.

4,614,512, to Capdeboscq. While US Patent No. 5,094,658, to Smithe et al. shows a similar conveyor table to that of the instant invention, they do not disclose the use of such a conveyor table with paper-board articles; Smithe et al. are concerned with paper envelopes, which pose entirely di~ferent feed problems from paper-board articles. As shown in Figures 7A-C, a feature of this invention that provides for a substantial improvement in the operation of conveyor module 100, is the use of lip seals 118 to prevent the bleed off of vacuum originating from the rows of vacuum holes 175 ad~acent side plates 111 and spanning the length of conveyor module 100.
If this bleed off occurred, article B would more weakly adhere CA 0223~142 1998-04-17 to belts 120 then if the bleeding off does not occur. If article B is weakly adhered to belts 120, misfeeds and misalignments of the articles are much more likely to occur.
Lip seals 118 operate by forming small vacuum chambers 175' between belts 120 and side plates 111. Vacuum chambers 175' result in funneling the maximum amount of vacuum under the outer sides of article B so as to pull those sides down and the whole article B against belts 120. Furthermore, without these end seals, there would not be equal pressure on both sides of belts 120 because there would be vacuum along their inner edges and atmospheric pressure along their outer edges. This would result in belts 120 being attracted towards each other until they meet at a position most likely to cover the center vacuum holes. This will result in there being absolutely no vacuum applied to article B.
Having described their function, the construction of a first embodiment of lip seals 118 will now be described. As shown in Figure 7A, lip seals 118 are associated with side plates 111 of conveyor housing llQ and run the entire length of conveyor module 100. By having lip seals 118 have a height greater than that of table surface 175, small vacuum chambers 175' are formed between belts 120 and lip seals 118, over which the outer sides of article B span. The top of belts 120 are higher than the top of lip seals 118, e.g., 1/32" higher. Upon the activation of the vacuum these outer sides of article B are pulled down and will rest on the top of lip seals 118 while article B is firmly adhered to belts 120. The fact that the belts 120 are higher than lip seals 118 results in the article B being slightly bowed during feeding.
Lip seals 118 may be formed in various ways. First, as described above, lip seal 118 may comprise a stationary element having a flat top that spans the length of conveyor module 100.
This stationary lip seal element may either comprise totally separate elements from side plates 111 (Figure 7A) or elements 118 unitary with side plates 111, e.g., by extending side plates 111, themselves, above table surface 175 (Figure 7B).

CA 0223~142 1998-04-17 To reduce the effects of friction caused by the rubbing of article B against the top of lip seals 118, it is possible to make lip seals 118 moving elements. As shown in Figure 7C, - sealing lips 118 may comprise secondary conveyor belts 118', mounted on each side plate 111, that move at the same speed and in the same direction as conveyor belts 120. Thus, there will be no relative movement between article B and sealing lip 118' to scuff the article being fed or waste energy due to friction.
Secondary conveyors 118' can be mounted to conveyor housing 110 in the inventive position and operated according to any prior art method. Adequate safety measures will be implemented, e.g., use of guard plates, etc. Getting back to the main structure of conveyor module 100, each conveyor belt 120 is fed around its own fixed idler rollers 125, 126, sliding idler roller 130, and drive roller 127. Idler rollers 125 are mounted in u-shaped grooves 127 by use of axle pins 128. Drive roller 127 is driven by motor 128 which is of the type that can be easily synchronized with other motors for reasons described below. It is envisioned that typically a servomotor will be used. By adjusting the lateral position of roller 130, by use of, for example, a fluidic cylinder, it is possible to adjust the tension of belts 120. Replacing belts 120 is effectuated as follows: the vacuum is disengaged, sliding idler rollers 130 are slid away from belt 120 and drive roller 127; table surface 115 is removed quickly by use o~ quick disconnect members 116;
idler rollers 125 are removed from slots 127; old belts 120 are removed; the new belts added; and the conveyor module 100 is put back together. It can easily be seen that this process is much simpler than that discussed with re~erence to the prior art, i.e., it takes only minutes with the instant invention rather than the almost two days it takes to replace the belts of prior art folder\gluers.
~ Belts 120 of the instant invention last substantially longer than those of the prior art because many less rollers are in contact with belts 120. While it was discussed with reference to Figure 2A that hundreds of rollers may be in contact with prior art belts, with reference to the instant CA 0223~142 1998-04-17 W O 97/14634 PCT~US96/16444 invention there may be less than ten. Furthermore, as all the rollers (except ~or pivoting idler roller 130) are rigidly mounted and do not ~loat as in the prior art, their assemblies are not subject to rapid ~ailure as described with respect to the prior art. The ~act that with the instant invention belts 120 are never nipped between opposing rollers also greatly reduces belt ~atigue.
Mounted to, and generally above, conveyor housing 110, are conventional ~olding elements 200, which are pre~erred to comprise conventional stationary plates and bars that manipulate blank panels. While these ~olding elements, per se, may be known, to date they have never been used with a simple device like the vacuum conveyor described above. They have been parts o~ complex machines such as that shown in Figure 2.
It is also possible that the ~olding elements may comprise independently operated movable ~olding elements, such as ~olding belts. It becomes sel~-evident that because there are no overhead blank conveying components present, it is possible to modi~y ~olding elements 200 such that 180~ ~olds may be made. Furthermore, the number o~ overall components and moving parts are greatly reduced, thereby minimizing adjustment and repair downtimes ~rom those o~ prior art ~older/gluers.
Also mounted to, and generally above, conveyor housing 110 is glue applicator 300 ~or placing glue on various panels o~
the blank. Pre~erably, glue applicator 300 comprises a single glue gun. However, it is possible that glue applicator 300 may comprise pairs o~ conventional glue guns ~or placing glue on various panels of the blank. Pairs o~ glue guns may be used because conveyor module 100 is capable o~ ~eeding, ~olding, and ~orming over 200,000 articles per hour. This is well beyond the cycling range of a single typical solenoid-activated glue gun. Accordingly, per gluing zone, a pair o~ conventional solenoid activated glue guns could be used. Each glue gun of each pair alternates with the other glue gun o~ that palr in s~uirting glue onto a passing blank. This use o~ alternating glue guns makes it possible to keep the line moving at the 200,000 article per hour rate.

CA 0223~142 1998-04-17 It is highly advantageous to be able to place multiple modules in lateral arrangement and close proximity to one another. Because box blanks come in various sizes, blank feeding devices should be able to feed blanks of various sizes.
Accordingly, as shown in Figures 4A and 4B, by making conveyor housings 200, 200' have diving board-like configurations, in which each module has a support portion 205, 205' and an overhanging portion 210, 210', two modules may be placed very close to each other to allow the two modules to jointly feed wide blank B As shown in Figures 4A and 4B, protruding drive motors 209, 209' and blower motors 207, 207~ each neatly fit under overhanging portion 210, 210' of the other conveyor.
Drive motors 209, 209' can be then driven in synch in any known manner, for example, by having them both be servomotors attached to a common controller (not shown). To allow for varying the distance between conveyors 200 and 200', each handcrank 220, 220' has its own jackscrew 224, 225 mounted to rails 217 and passing through a threaded bearing in one of conveyors 200, 200' and a no~-threaded bearing in the other of conveyor 200, 200'. Thus, each crank 220, 220' controls the lateral position of one of conveyors 200, 200~. By turning each crank 220, 220', the relative positions of the two conveyors 200, 200' can be varied. Besides for use in this diving-board configuration, it is also possible to have the conveyors 200, 200' be rectangular and come in left-handed and right-handed configurations, as shown in Figure 4C. With that configuration, it is also possible to place two conveyor modules close together.
It is also highly advantageous to be able to place conveyor modules both next to each other and in-line, so conveyors can bs staggered allowing for some panels to be contacted by vacuum while other panels are manipulated, e.g., folded. For example, with the blank o~ Figure 1, while folds 1 and 2 are made, panels 5, 5' are contacted by vacuum.
However, while ~olds 3, 3' are made, panels 6, 6' are contacted by vacuum. This is achieved by the conveyor arrangement shown in Figure 5A, which uses staggered belts, and in which the CA 0223~142 1998-04-17 W O 97/14634 PCTnJS96/16444 various motors and ~olding elements have been omitted for easier viewing. In Figure 5A, in between rails 217 are four conveyors 200, 200', 200'', and 200'''. Any number of conveyors, however, can be placed in line with others; it all depends on the number and complexity o~ the required folds.
Each conveyor 200, 200', 200~, 200''' has its own handcrank 220-223 attached to jackscrew 224-227, respectively, for adjusting the lateral position o~ each conveyor. In the arrangement shown in Figure 7, at point A, the le~t-most part of the blank is held by the conveyor 200', while the blank is folded into segments Sl and S2. Because conveyors 200 and 200'' are not used, their handcranks are turned so as to move these conveyors out of the way. At point B, segment S1 and part o~
segment S2 are held by conveyor 200' while the segment S2 iS
folded into segments S2 and S3 by the ~olding elements (not shown). In prior art devices, such as shown in Figures 2A and 2B, due to the large number of overhead belts, etc., it becomes self evident how complex such an arrangement would be as compared to the invention disclosed herein. Finally, while the use of side-by-side conveyor modules is preferred, it is entirely possible to use a line o~ single, but wider, laterally movable conveyor modules 100 tFigure 5B).
Article (blank) supply ~eeder 400 will now be described.
Article supply feeder 400 is similar in operation to conveyor module 100. As shown in Figures 6A-C, article supply feeder 400 has a table surface 415 containing vacuum holes 475 therein. Conveyor belts 420 span the entire table surface 415.
As previously described, hose 167 supplies vacuum to vacuum chamber 470 for holding an article against belts 420.
Adjustable side registration guides 406 assure the stack of articles contained in feeder 400 is side squared. Finally, gate 403 front registers the stack o~ articles in feeder 400 and, by use of nip 405, assures that only one article at a time is ~ed out o~ feeder 400. Screw 404 adjusts the size of nip 405. By having vacuum holes 475 and belts 420 span both sides of gate 403, the article being fed out of feeder 400 is kept almost perfectly flat against belts 420, assuring that the CA 0223~142 1998-04-17 bottom of gate 403, in the area o~ nip 405, does not damage the outgoing article. This structure provides ~or much more reliable separation and ~eeding than with the prior art.
- The above description is given in re~erence to a conveyor module having a vacuum hold-down used with a folding machine.
However, it is understood that many variations are apparent to one o~ ordinary skill in the art from a reading of the above speci~ication and such variations are within the spirit and scope o~ the instant invention as de~ined by the ~ollowing appended claims.

Claims (6)

1. A vacuum hold-down device for a folding mechanism for paper-board articles, comprising:
a substantially enclosed conveyor housing having a vacuum inlet, side plates, a conveyor table having vacuum holes along its length and adjacent said side plates, and defining a vacuum chamber therein;
a lip seal positioned along each of said side plates of said conveyor housing and extending a distance above said conveyor table;
at least one feed conveyor belt in between said side plates and spanning said conveyor table, said at least one conveyor extending above said conveyor table a distance greater to that of said lip seals;
a drive mechanism associated with said conveyor belt for driving said at least one conveyor belt;
a vacuum source in fluid communication with said vacuum inlet; whereby when said vacuum source is activated, a vacuum is created in said vacuum chamber and in said area of said vacuum holes, thereby causing said paper-board articles to adhere against said belt and said lip seals; and folding elements spaced above said conveyor module for folding and forming a flat paper-board article into a container.

2. The device according to claim 1, each said lip seal comprising a secondary conveyor belt driven at the same speed and in the same direction as said at least one feed conveyor belt.

3. The device according to claim 1, each said lip seal comprising a stationary plate having a top against which said article moves.

4. The device according to claim 3, wherein said stationary plates are unitary with said side plates.

5. The device according to claim 1, wherein said distance of said at least one feed conveyor belt is about 1/32 inch greater than said distance of said lip seals.

6. A vacuum hold-down device for a folding mechanism for paper-board articles, comprising:
a substantially enclosed conveyor housing having a vacuum inlet, side plates, a conveyor table having vacuum holes along its length and adjacent said side plates, and defining a vacuum chamber therein;

at least one feed conveyor belt in between said side plates and spanning said conveyor table, said at least one conveyor extending above said conveyor table a distance greater to that of said lip seals;
a lip seal positioned along each of said side plates of said conveyor housing and extending a distance above said conveyor table, each said lip seal comprising a secondary conveyor belt driven at the same speed and in the same direction as said at least one feed conveyor belt;
a drive mechanism associated with said conveyor belt for driving said at least one conveyor belt;
a vacuum source in fluid communication with said vacuum inlet; whereby when said vacuum source is activated, a vacuum is created in said vacuum chamber and in said area of said vacuum holes, thereby causing said paper-board articles to adhere against said belt and said lip seals; and folding elements spaced above said conveyor module for folding and forming a flat paper-board article into a container.