(19) |
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EP 0 537 978 B1 |
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EUROPEAN PATENT SPECIFICATION |
(45) |
Mention of the grant of the patent: |
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31.05.1995 Bulletin 1995/22 |
(22) |
Date of filing: 13.10.1992 |
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(54) |
Method and apparatus for sorting cut sheet form components into stacks
Verfahren und Vorrichtung zum Sortieren von abgeschnittenen blattförmigen Materialien
in Stapeln
Méthode et appareil pour trier des feuilles de papier coupées, en piles
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(84) |
Designated Contracting States: |
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DE FR GB NL |
(30) |
Priority: |
18.10.1991 US 779335 08.11.1991 US 788797
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Date of publication of application: |
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21.04.1993 Bulletin 1993/16 |
(73) |
Proprietor: MOORE BUSINESS FORMS, INC. |
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Grand Island
New York 14072-1697 (US) |
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(72) |
Inventors: |
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- Baxter, George
Youngstown,
New York 14174 (US)
- Van de Ven, John
Grand Island,
New York 14072 (US)
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(74) |
Representative: Spence, Anne et al |
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FRY HEATH & SPENCE
The Old College
53 High Street Horley
Surrey RH6 7BN Horley
Surrey RH6 7BN (GB) |
(56) |
References cited: :
DE-A- 3 735 974 GB-A- 1 058 041 US-A- 4 799 663
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FR-A- 2 087 732 US-A- 4 077 181 US-A- 5 123 639
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Note: Within nine months from the publication of the mention of the grant of the European
patent, any person may give notice to the European Patent Office of opposition to
the European patent
granted. Notice of opposition shall be filed in a written reasoned statement. It shall
not be deemed to
have been filed until the opposition fee has been paid. (Art. 99(1) European Patent
Convention).
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[0001] Particularly in the production of business forms, but in other areas as well, it
is desirable to be able to intelligently separate, stack, and deliver individual components.
For example, it is desirable to intelligently separate, stack and deliver cut or burst
business form from a variety of sources such as inserters, printers, mailing lines,
and the like. The forms could be individual cut sheets, bound or fastened packets
of sheets, envelopes with or without sheets inside, and the like, and may be sorted
in repeatable or variable quantities or as data changes within the forms, such as
changes in postal codes. All of these individual elements that may make up the final
products are referred to in this specification and claims as "business form components".
[0002] According to the method and apparatus of the invention, it is possible to intelligently
separate, stack, and deliver business form components in a simple and cost-effective
manner, allowing considerable variability in parameters. According to the invention
it is possible to sort business form components and stack them up to about 101.6mm
(four inches) high at speeds of the host machine of up to about 300 pieces per minute.
Form component length can vary from 101.6 to 355.6mm (four inches to 14 inches), and
width from 88.9 to 304.8mm (3.5 inches to 12 inches). The number of form components
for a particular stack are automatically counted, regardless of the speed, under 300
pieces per minute, or manner in which they are supplied from the host machine, and
the number of form components to be provided in any one stack may be varied as the
machine is running. Stack separation is determined by scanning data on the form components,
a signal from the host machine or fixed count to determine the number of components
to be provided in a particular stack. The invention is also, but not exclusively,
utilizable for forming business forms from business form components, having pressure
sensitive adhesive thereon which pass through a pressure sealer after stacking, to
be permanently affixed together.
[0003] Accordingly the present invention provides apparatus for separating business form
components into different jobs, comprising:
feed means for automatically feeding business form components in a first direction;
collector means comprising conveying means having a top, conveying, surface continuously
running in the first direction, and a movable stop means cooperating with said conveying
means top surface, movable between a first position preventing conveyance of business
form components past said stop means by said conveying means, and a second position,
allowing conveyance of business form components therepast;
sensor means for sensing passage of form components from said feed means to said
collector means in the first direction;
control means for controlling the position of said stop means in response to input
from said sensor means; and
wherein said collector means comprises means for feeding each successive form component
from said feed means into engagement with said conveying means top surface regardless
of whether or not other form components are already on said conveying means top surface
and engaging said stop means, such as known from US-A-4799663, characterised in that
said conveying means comprises at least one conveyor belt having a first portion closest
to said feed means, and a second portion cooperating with said stop means; and wherein
said first portion is slanted upwardly from said feed means to said second portion
which is generally horizontal so that a form component stopped by said stop means
and in association with said second portion slightly overlaps said first portion,
so that a form component passing on said first portion will pass under the business
form component already resting on said second portion.
[0004] The feed means may comprise means for aligning business form components so that one
side edge thereof, parallel to the first direction, is in a predetermined position
when delivered to the collector means. The aligning means is preferably that described
in co-pending application EP No. 91309572.5 Publication No. 0482824. An adjustable
edge guide may be disposed above the conveying means and movable into alignment with
the aligning means, or opposite thereto.
[0005] Also the apparatus may comprise synchronizing means for selectively engaging business
form components when on the conveying means top surface and abutting the stop means
to ensure that the components are moved together, synchronously, past the stop means
once the stop means are moved to the second position.
[0006] The synchronizing means preferably comprises a first roller mounted above the conveying
means and means for moving the first roller into contact with the business form components
to ensure that they are conveyed together when the stop means is moved to the second
position. the synchronizing means further comprises a second, stationary, roller mounted
below the first roller and having a peripheral portion at approximately the same vertical
position as the top surface of the conveying means, below the first roller. The second
roller cooperates with the first roller when the first roller is moved into engagement
with business form components on the conveying means top surface, so that business
form components are pinched between the rollers. The first and second rollers preferably
are disposed at approximately the interface between the first (slanted) and second
portions of the conveyor, just past that interface above the second portion.
[0007] According to the another aspect of the present invention, a method of separating
business form components into separate jobs, for affixing together into a business
form, is provided using the above apparatus. The method comprises the steps of:
(a) continuously feeding business form components in a first direction one at a time
to a stacking position and so that each successive business form component fed to
the stacking position is fed underneath any business form components already at the
stacking position;
(b) at the stacking position, collecting in a stack the desired number of business
form components to construct a business form;
(c) once a stack of predetermined number of business form components has been collected,
immediately and synchronously conveying all of the components in the stack in the
first direction toward a forming position; and
(d) at the forming position, forming the business form components in the stack into
a business form.
[0008] Typically, though not necessarily, the business form components have patterns of
pressure sensitive adhesive (such as Toppan Moore pressure sensitive adhesive TM-124,
a styrene-natural rubber copolymer), and they are sealed by conventional pressure
sealing equipment, such as that marketed by Moore Business Forms, Inc. of Lake Forest,
Illinois under the trademark "SPEEDISEALER®"; typical apparatus is that shown in co-pending
application EP No 91308193.1 Publication No 0483962. Using such equipment, step (d)
is practiced by applying a compressive force to only those portions of the business
form components actually having pressure sensitive adhesive associated therewith to
seal the form components together with the pressure sensitive adhesive.
[0009] Steps (a) and (b) may be practiced so that each successive business form component
fed to the stacking position is fed underneath any business form components already
at the stacking position. Also the method may be practiced utilizing a stop element
on a rotatable shaft which stops movement of the forms when the shaft is substantially
vertical. Step (c) is then practiced by: Rotating the shaft approximately 270 degrees
in a first direction from the vertical, stop, position of the stop element, to allow
passage of forms therepast. Stopping rotation of the shaft at the approximately 270
degree position. And, after the form components in a stack have completely passed
the stop element, rotating the shaft approximately 90 degrees in the first direction
so that the stop element is back in its vertical, stop, position.
[0010] It is the primary object of the present invention to provide a simple and effective
method and apparatus for intelligently separating, stacking, and delivering business
form components or the like. This and other objects of the invention will become clear
from an inspection of the detailed description of the invention, and from the appended
claims.
BRIEF DESCRIPTION OF THE DRAWINGS
[0011]
FIGURE 1 is a top view, with some components removed for clarity of illustration,
of an exemplary job separator and stacker according to the present invention;
FIGURE 2 is a side view, with some components removed for clarity of illustration,
of the job separator and stacker of FIGURE 1;
FIGURE 3 is a detail top perspective view of the job separator and stacker of FIGURE
1;
FIGURE 4 is a control schematic for the apparatus of FIGURES 1-3;
FIGURE 5 is a high level control schematic showing an exemplary manner of practicing
the method according to the invention; and
FIGURE 6 is a top perspective view of an exemplary pair of business form components
used to construct a business form in accordance with the method of the present invention.
DETAILED DESCRIPTION OF THE DRAWINGS
[0012] Apparatus for separating business form components into different jobs is illustrated
generally by reference numeral 10 in FIGURES 1 through 3. Typically a host machine
11, such as a burster, inserter, printer, mailing line, or the like, feeds forms to
the forms aligner 12, which itself comprises feed means for automatically feeding
business form components in a first direction 13 toward a collector means 14. The
forms aligner 12 comprises means for aligning business form components so that one
side edge thereof, parallel to the first direction 13, is in a predetermined position
when delivered to the collector means 14, e.g. the business form component edge is
against the edge guide 15 of the forms aligner 12. The forms aligner 12 per se is
shown in co-pending application EP No 91309572.5 Publication No 0482824. Downstream
in the first direction 13 of the collector means 14 may be any suitable other apparatus,
such as a separator/stacker, pressure sealer of a Moore SPEEDISEALER® pressure sealing
system, 16, diverter 17, and/or other conventional equipment.
[0013] The apparatus 10 preferably includes a sensor means, shown schematically at 19 in
FIGURES 1 and 4, for sensing passage of a form component from the feed means/aligner
12 to the collector means 14 in the first direction 13. The sensor 19 may comprise
any conventional suitable sensor, such as a reflective sensor that is capable of detecting
the trailing edge of the business form components moving therepast. FIGURE 6 illustrates
two exemplary business form components 20 that may be utilized according to the invention,
including a first component 21 and a second component 22, in this case the components
21, 22 being sheets of printed paper, and having patterns (strips) of pressure sensitive
adhesive 23, 24, (such as Toppan Moore TM-124) disposed at various portions therealong.
[0014] The apparatus 10 also preferably comprises control means, which may comprise the
control panel 25 (FIGURES 1 and 2) which has a computer chip (controller), shown schematically
at 26 in FIGURE 4, therein. The control means 25, 26 controls the position of a stop
means 28 associated with the collector means 14.
[0015] The collector means 14 preferably comprises conveyor means, such as a plurality of
spaced (in a horizontal direction perpendicular to the first direction 13) conveyor
belts or tapes 30, and the stop means 28. The conveyor means 30 is preferably divided
into first and second portions, shown generally by reference numerals 31 and 32 in
FIGURE 2. The first portion 31 is disposed at an upward slant of a significant amount
(e.g. 10 to 40°), relative to the generally flat second portion 32, with which the
stop means 28 cooperates. Conventional ball bearing hold down means 33 cooperates
with the upwardly slanted section 31 to hold business form components 20 in contact
with the conveyor belts 30 of the first portion 31.
[0016] At approximately the interface between the first and second portions 31, 32 are provided
synchronizing means for selectively engaging business form components 20 when on the
conveying means 30 top surface (see FIGURE 1) and abutting the stop means 28, to ensure
that the components 20 are moved together, synchronously, by the conveying means 30
past the stop means 28 once the stop means 28 is moved to a second position wherein
it does not abut the leading edges of the components 20 (with the conveyor means 30
continuously running).
[0017] The synchronizing means preferably comprises a first, top roller 34 which may or
may not be driven and is mounted by an arm 35 to a solenoid controlled shaft 36, the
solenoid being shown schematically at 37 in FIGURE 4. The roller 34 is normally above
the business form components, but upon operation of the solenoid 37, the shaft 36
is rotated so that the roller 34 moves downwardly, to a position above the stationary,
hard roller 38′ (see FIGURE 2), at which point business form components 20 are pinched
between the rollers 34, 38′ so that when the stop means 28 is moved out of the way
all of the business form components in a stack held by the stop 28 move uniformly
and synchronously together (in registry with each other) in the first direction 13.
[0018] While the stop means 28 may take a wide variety of forms, the preferred form is that
illustrated in FIGURES 1 through 3. A plurality of stop elements, or stop fingers,
38 are mounted on a common shaft 39 which is driven by a stepper motor 40. The stop
elements 38 extend upwardly between spaced conveyor tapes 30 (see FIGURE 1) and when
they extend substantially vertically upward (as in FIGURES 2 and 3), they engage the
leading edges of the business form components 20 which are on the top surface of the
continuously running conveyor tapes 30, and prevent further movement thereof in the
direction 13. However once the desired number of business form components 20 have
been fed to the stack on the collector means 14, and the roller 34 has been brought
down into engagement with the business form components, the stepper motor 40 is controlled
by the computer 26 to rotate in direction 41 (see FIGURE 2) approximately 270°, so
that fingers 38 no longer extend above the top surface of the conveyor tapes 30, and
therefore allow the conveyor tapes 30 to convey the business form components 20 in
the direction 13 to the apparatus 16, 17. Once the trailing edges of the business
form components 20 have passed the stop means 28, the stepper motor 40 is then controlled
to rotate the shaft 39 in the direction 41 about another 90° so that the stop fingers
38 return to their stopping position (FIGURES 2 and 3).
[0019] In order to ensure that the business form components 20 do not move over the stop
fingers 38, it is preferred to provide the hold down rollers 43 (FIGURES 2 and 3),
and the hold down straps 44 (FIGURE 3). The rollers 43 are mounted by arms 45 on the
horizontally extending rod 46 (perpendicular to the first direction 13), and may be
either spring biased or gravity biased down toward the conveyor tapes 30. Desirably,
an adjustable edge guide 48 may also be mounted on the rod 46 for adjustment along
the length thereof, including for alignment with the edge surface 15 of the feed means/aligner
12, or to guide the opposite edge of the form components from the guide edge 15 (as
seen in FIGURE 3).
[0020] The position of the stop means 28 along the conveyor 30 may be varied depending upon
the length of the business form components 20 to be handled. Desirably, the length
from the roller 34 (the start of the second conveyor portion 32) to the top fingers
38 is just slightly less than the length of the business form components 20 being
handled. This is so that a small portion of the business form component 20 that has
just been fed into engagement with the stop finger 38 sticks out past the roller 34,
past the start of the slope of the first conveyor portion 31, so that the next business
form component 20 being fed thereto will go under the business form component fed
just earlier.
[0021] In order to allow adjustment, the motor 40 and shaft 39 associated therewith may
be movably mounted along the length of the collector means 14, as being mounted by
a guide track 50 (see FIGURE 3) and a chain 51 engaging a sprocket (not shown) mounted
on the bottom of the motor 40 housing, the controller 26 controlling driving of the
chain 51 with an additional motor (not shown) to positively position the stop elements
38 at the desired location. The rod 46 is also attached to the motor 40 housing and
maintains a position relative to the stop shaft 39.
[0022] Under some circumstances, it is desirable to change the number of form components
to be provided in a stack before the stop fingers 38 are moved to a conveyance-allowing
position. This could depend upon the details of the form components 20. In order to
accommodate this, an optical scanner 56 (see FIGURES 1 and 4) may be provided, connected
up to the computer 26. The scanner 56 may be positioned at a particular location along
the width of the collector 14 where data having indicia in some way providing an indication
of the number of parts of the component for a stack to be formed, will be provided.
Once the scanner 56 relays the correct information to the computer 26, the computer
counts the number of form component trailing edges sensed by the sensor 19 before
it is necessary to activate the solenoid 37 and stepper motor 40.
[0023] The apparatus downstream of the collector means 14 may comprise a wide variety of
different components. The diverter 17, which may comprise a solenoid connected to
a diverting lever, may be operated if an error message is generated, such as if the
data supplied by the scanner 56 and the counts provided by the sensor 19 do not properly
correspond or if an illegal stack is detected. The diverting lever --shown schematically
and in dotted line at 58 in FIGURE 4 -- may then be directed downwardly to a waste
disposal, or reuse, position. If the diverter lever 58 is not activated, however,
the business form components may pass directly to a subsequent operation such as the
pressure sealer 16, at which the patterns of pressure sensitive adhesive 23, 24 provided
on the business form component parts 21, 22 are acted upon by compressive rollers
to seal the parts 21, 22 permanently together with the pressure sensitive adhesive
to provide a completed business form, or a secondary stacker for building stacks to
101.6mm (four inches), etc.
[0024] FIGURE 5 is a schematic high level flow chart illustrating exemplary operation of
the apparatus 10. Form feeding block 60 indicates that the feed means/aligner 12 is
actuated to feed form components in the first direction 13 towards the collector means
14. Scanned data 61 is provided by the scanner 56, while the form sensing 62 is provided
by the sensor 19, while the block 63 indicates that the form components 20 are moved
into contact with the stop fingers 38, each component being fed under the previous
component.
[0025] Once a stack of desired size is determined by the computer 26, from the data provided
by sensor 19 and scanner 56, to exist, then -- as indicated by decision block 64 --
once the end of the last component 20 is sensed, as indicated at decision block 65,
then the stop elements 38 are lowered and the synchronizing roller 34 is cycled, being
moved downwardly so as to pinch all of the form components 20 together with the roller
38′, to make sure that they are all conveyed together in direction 13. This operation
is indicated by box 66 in FIGURE 5.
[0026] If the optional diverter is utilized, then a decision block 67 is provided to indicate
whether or riot the lever 58 should be activated to deflect form components away.
If the stack is proper, then at decision block 68 it is determined whether or not
the stack has passed the end of the collector means 14 (e.g. into the pressure sealer
16 or other equipment), or otherwise cleared stop means 28. A sensor (not shown) may
be provided at the end of the conveyor 30 in the direction 13, or above elements 38,
for that purpose. Once it has been determined that the stack has passed completely
past the stop means 28 and/or past the end of the conveyor 30 in direction 13, then
the computer 26 is controlled to rotate the shaft 39 to put the fingers 38 back in
their vertical position, as indicated by block 69 in FIGURE 5.
[0027] It will thus be seen that according to the present invention a simple method and
apparatus have been provided for intelligently separating, stacking, and delivering
business form components, or the like, in a high speed, versatile, and effective manner.
While the invention has been herein shown and described in what is presently conceived
to be the most practical and preferred embodiment thereof it will be apparent to those
of ordinary skill in the art that many modifications may be made thereof within the
scope of the invention as defined by the appended claims.
1. Apparatus for separating business form components (21, 22) into different jobs, comprising:
feed means (12) for automatically feeding business form components in a first direction
(13);
collector means (14) comprising conveying means (32) having a top, conveying, surface
continuously running in the first direction, and a movable stop means (28) cooperating
with said conveying means top surface, movable between a first position preventing
conveyance of business form components past said stop means by said conveying means,
and a second position, allowing conveyance of business form components therepast;
sensor means (19) for sensing passage of form components from said feed means to
said collector means in the first direction;
control means (25, 26, 40) for controlling the position of said stop means in response
to input from said sensor means; and
wherein said collector means (14) comprises means (31) for feeding each successive
form component from said feed means into engagement with said conveying means (32)
top surface regardless of whether or not other form components are already on said
conveying means top surface and engaging said stop means, characterised in that said
conveying means comprises at least one conveyor belt (30) having a first portion closest
to said feed means (12), and a second, generally flat portion (32) cooperating with
said stop means (28); and wherein said first portion (31) is slanted upwardly from
said feed means to said second portion which is generally horizontal so that a form
component stopped by said stop means and in association with said second portion slightly
overlaps said first portion, so that a form component passing on said first portion
will pass under the business form component already resting on said second portion.
2. Apparatus as recited in claim 1 characterised in that said feed means comprises means
for aligning business form components so that one edge thereof, parallel to the first
direction, is in a predetermined position when delivered to said collector means.
3. Apparatus as recited in claim 1 characterised in that said at least one conveyor belt
comprises a plurality of conveyor belts (30) spaced from one another in a second direction
substantially transverse to said first direction, and said stop means (28) comprises
a plurality of stop elements (38) mounted on a shaft (39), and extending between said
belts (30) in said first position.
4. Apparatus as recited in claim 1 or any claim dependent thereon characterised by synchronizing
means (34) for selectively engaging business form components when on said conveying
means top surface and abutting said stop means to ensure that the components are moved
together, synchronously, by said conveying means past said stop means once said stop
means are moved to said second position; and wherein said control means (26) comprises
means (35, 36, 37, 40) for controlling the position of said stop means (28) and said
synchronizing means in response to input from said sensor means (19) so that said
synchronizing means are operated to engage said business form components in coincidence
with movement of said stop means to said second position.
5. Apparatus as recited in claim 4 characterised in that said synchronizing means comprises
a first roller (34) mounted above said second portion (32) of said conveying means
adjacent the interface between said first (31) and second (32) portions of said conveying
means, and means (35, 36, 37) for moving said first roller into contact with the business
form components to ensure that they are conveyed together by said conveying means
when said stop means (28) is moved to said second position.
6. Apparatus as recited in claim 5 characterised in that said synchronizing means further
comprises a second, stationary, roller (38') mounted below said first roller (34)
and having a peripheral portion at approximately the same vertical position as the
top surface of said conveying means below said first roller, said second roller cooperating
with said first roller when said first roller is moved into engagment with business
form components on said conveying means top surface, so that business form components
are pinched therebetween.
7. Apparatus as recited in any of the preceding claims characterised by hold down means
(44) for engaging business form components on said conveying means to preclude them
from rising up past said stop means when in said first position, but to be readily
conveyed past said stop means by said conveying means when in said second position.
8. Apparatus as recited in claim 2 or any claim dependent thereon characterised by an
adjustable edge guide (15) for form components, disposed above said conveying means.
9. A method of separating business form components into separate jobs, for affixing together
into a business form, using the apparatus of claim 1; comprising the steps of:
(a) continuously feeding business form components in a first direction one at a time
to a stacking position and so that each successive business form component fed to
the stacking position is fed underneath any business form components already at the
stacking position;
(b) at the stacking position, collecting in a stack the desired number of business
form components to construct a business form;
(c) once a stack of predetermined number of business form components has been collected,
immediately and synchronously conveying all of the components in the stack in the
first direction toward a forming position; and
(d) at the forming position, forming the business form components in the stack into
a business form.
10. A method as recited in claim 9 characterised by utilizing a stop element on a rotatable
shaft which stops movement of form components when the shaft is substantially vertical,
and wherein step (c) is practiced by: rotating the shaft approximately 270 degrees
in a first direction from the vertical, stop, position of the stop element, to allow
passage of forms therepast; stopping rotation of the shaft at the approximately 270
degree position; and after the form components in a stack have completely passed the
stop element, rotating the shaft approximately 90 degrees in the first direction so
that the stop element is back in its vertical, stop, position in time to stop the
next form element.
11. A method as recited in claim 10 characterised by utilizing a first roller mounted
above the business form components adjacent an end thereof remote from the stop element,
and a second roller mounted at approximately, but underneath and engaging, the level
of the lowest business form component in the stack; and wherein step (c) is further
practiced by bringing the first roller down toward the second roller so that the business
form components are pinched therebetween, and therefore move together, synchronously,
past the stop element.
1. Vorrichtung zum Trennen von Geschäftsformularkomponenten (21, 22) in verschiedene
Lose, umfassend:
eine Zuführeinrichtung (12) zum automatischen Zuführen von Geschäftsformularkomponenten
in eine erste Richtung (13);
eine Sammeleinrichtung (14), umfassend eine Beförderungseinrichtung (32) mit einer
oberen, befördenden Oberfläche, die kontinuierlich in der ersten Richtung läuft, und
eine bewegliche Stopeinrichtung (28), die mit der oberen Oberfläche der Beförderungseinrichtung
zusammenwirkt, bewegbar zwischen einer ersten Stellung, die eine Beförderung der Geschäftsformularkomponenten
an der Stopeinrichtung vorbei durch die Beförderungseinrichtung verhindert, und einer
zweiten Stellung, die eine Beförderung der Geschäftsformularkomponenten daran vorbei
erlaubt;
eine Sensoreinrichtung (19) zum Erfassen des Durchtritts von Geschäftsformularkomponenten
von der Zuführeinrichtung zu der Sammeleinrichtung in der ersten Richtung;
eine Steuereinrichtung (25, 26, 40) zum Steuern der Stellung der Stopeinrichtung
in Antwort auf eine Eingabe von der Sensoreinrichtung; und
wobei die Sammeleinrichtung (14) eine Einrichtung (31) aufweist zum Zuführen jeder
aufeinander folgenden Formularkomponente von der Zuführeinrichtung in Eingriff mit
der oberen Oberfläche der Beförderungseinrichtung (32), unabhängig davon, ob andere
Formularkomponenten bereits auf der oberen Oberfläche der Beförderungseinrichtung
und in Eingriff mit der Stopeinrichtung sind oder nicht, dadurch gekennzeichnet, daß
die Beförderungseinrichtung mindestens ein Förderband (30) umfaßt mit einem ersten
Abschnitt, der der Zuführeinrichtung (12) am nächsten ist, und einem zweiten, im allgemeinen
flachen Abschnitt (32), der mit der Stopeinrichtung (28) zusammenwirkt; und wobei
der erste Abschnitt (31) aufwärts geneigt ist von der Zuführeinrichtung zu dem zweiten
Abschnitt, der im wesentlichen horizontal ist, so daß eine Formularkomponente, die
durch die Stopeinrichtung und in Verbindung mit dem zweiten Abschnitt angehalten wird,
den ersten Abschnitt geringfügig überlappt, so daß eine den ersten Abschnitt passierende
Formularkomponente sich unter die Geschäftsformularkomponente schiebt, die sich bereits
auf dem zweiten Abschnitt befindet.
2. Vorrichtung nach Anspruch 1, dadurch gekennzeichnet, daß die Zuführeinrichtung eine
Einrichtung zum Ausrichten der Geschäftsformularkomponenten aufweist, so daß eine
Kante hiervon, parallel zu der ersten Richtung, sich in einer vorbestimmten Stellung
befindet, wenn sie zu der Sammeleinrichtung ausgegeben wird.
3. Vorrichtung nach Anspruch 1, dadurch gekennzeichnet, daß mindestens ein Förderband
eine Mehrzahl von Förderbändern (30) umfaßt, die voneinander in einer zweiten Richtung
beabstandet sind, die im wesentlichen quer zur ersten Richtung liegt, und daß die
Stopeinrichtung (28) eine Mehrzahl von Stopelementen (38) aufweist, die auf einer
Welle (39) montiert sind und zwischen den Bändern (30) in der ersten Stellung verlaufen.
4. Vorrichtung nach Anspruch 1 oder einem der davon abhängigen Ansprüche, gekennzeichnet
durch eine Synchronisationseinrichtung (34) zum selektiven Eingriff mit Geschäftsformularkomponenten,
wenn diese sich auf der oberen Oberfläche der Beförderungseinrichtung befinden und
an der Stopeinrichtung anliegen, um sicherzustellen, daß die Komponenten durch die
Beförderungseinrichtung zusammen synchron an der Stopeinrichtung vorbei bewegt werden,
wenn die Stopeinrichtung einmal in die zweite Stellung bewegt wird; und wobei die
Steuereinrichtung (26) Einrichtungen (35, 36, 37, 40) zum Steuern der Stellung der
Stopeinrichtung (28) und der Synchronisationseinrichtung in Antwort auf eine Eingabe
von der Sensoreinrichtung (19), so daß die Synchronisationseinrichtung betrieben wird,
um mit den Geschäftsformularkomponenten in Eingriff zu gelangen zusammen mit der Bewegung
der Stopeinrichtung in die zweite Stellung.
5. Vorrichtung nach Anspruch 4, dadurch gekennzeichnet, daß die Synchronisationseinrichtung
eine erste Rolle (34) umfaßt, die über dem zweiten Abschnitt (32) der Beförderungseinrichtung
in der Nähe der Übergangsfläche zwischen dem ersten (31) und dem zweiten (32) Abschnitt
der Beförderungseinrichtung montiert ist, sowie eine Einrichtung (35, 36, 37) zum
Bewegen der ersten Rolle in Berührung mit den Geschäftsformularkomponenten, um sicherzustellen,
daß sie zusammen durch die Beförderungseinrichtung bewegt werden, wenn die Stopeinrichtung
(28) in die zweite Stellung bewegt wird.
6. Vorrichtung nach Anspruch 5, dadurch gekennzeichnet, daß die Synchronisationseinrichtung
weiterhin umfaßt eine zweite, stationäre Rolle (38'), die unterhalb der ersten Rolle
(34) montiert ist und einen Umfangsabschnitt in etwa der gleichen vertikalen Position
der oberen Oberfläche der Beförderungseinrichtung unterhalb der ersten Rolle aufweist,
wobei die zweite Rolle mit der ersten Rolle zusammenwirkt, wenn die erste Rolle in
Eingriff mit den Geschäftsformularkomponenten auf der oberen Oberfläche der Beförderungseinrichtung
bewegt wird, so daß die Geschäftsformularkomponenten dazwischen eingeklemmt werden.
7. Vorrichtung nach einem der vorstehenden Ansprüche, gekennzeichnet durch eine Untenhalteinrichtung
(44) zum Eingriff mit den Geschäftsformularkomponenten auf der Beförderungseinrichtung,
um zu verhindern, daß diese sich über die Stopeinrichtung hinweg erheben, wenn sie
sich in der ersten Stellung befindet, jedoch leicht mittels der Beförderungseinrichtung
an der Stopeinrichtung vorbei befördert werden können, wenn sie sich in der zweiten
Stellung befindet.
8. Vorrichtung nach Anspruch 2 oder einem der davon abhängigen Ansprüche, gekennzeichnet
durch eine einstellbare Kantenführung (15) für Formularkomponenten, die über der Beförderungseinrichtung
angeordnet ist.
9. Verfahren zum Trennen von Geschäftsformularkomponenten in separate Lose zum Zusammenfügen
zu einem Geschäftsformular unter Verwendung der Vorrichtung nach Anspruch 1, umfassend
die Schritte:
(a) kontinuierliches einzelnes Zuführen von Geschäftsformularkomponenten in einer
ersten Richtung zu einer Stapelposition und derart, daß jede nachfolgende Geschäftsformularkomponente,
die zu der Stapelposition zugeführt wird, unter eine Geschäftsformularkomponente geschoben
wird, die sich bereits in der Stapelposition befindet;
(b) Sammeln der gewünschten Anzahl von Geschäftsformularkomponenten in der Stapelposition,
um ein Geschäftsformular aufzubauen;
(c) sofortiges und synchrones Befördern aller Komponenten in dem Stapel in die erste
Richtung zu einer Formposition, wenn ein Stapel einer vorbestimmten Anzahl von Geschäftsformularkomponenten
gesammelt wurde; und
(d) Formen der Geschäftsformularkomponenten in dem Stapel zu einem Geschäftsformular
in der Formposition.
10. Verfahren nach Anspruch 9, gekennzeichnet durch die Verwendung eines Stopelements
auf einer drehbaren Welle, das die Bewegung der Formularkomponenten stoppt, wenn die
Welle im wesentlichen vertikal ist, und wobei der Schritt (c) ausgeführt wird durch;
Drehen der Welle um etwa 270° in einer ersten Richtung von der vertikalen Stopposition
des Stopelements, um das Passieren von Formularen daran vorbei zu ermöglichen, Anhalten
der Rotation der Welle in der etwa 270° Position; und, nachdem die Formularkomponenten
in einem Stapel das Stopelement vollständig passiert haben, Drehen der Welle um etwa
90° in die erste Richtung, so daß das Stopelement rechtzeitig in seine vertikale Stopposition
zurückkehrt, um das nächste Formularelement zu stoppen.
11. Verfahren nach Anspruch 10, gekennzeichnet durch die Verwendung einer ersten Rolle,
die über den Geschäftsformularkomponenten in der Nähe von deren dem Stopelement abgewandten
Ende montiert ist, und einer zweiten Rolle, die in der Nähe, jedoch unterhalb und
in Eingriff mit der Höhe der niedrigsten Geschäftsformularkomponente in dem Stapel
montiert ist; und worin Schritt (c) weiterhin dadurch ausgeführt wird, daß die erste
Rolle nach unten zur zweiten Rolle gebracht wird, so daß die Geschäftsformularkomponenten
dazwischen eingeklemmt werden und sich hierdurch zusammen synchron an dem Stopelement
vorbei bewegen.
1. Appareil pour séparer des composants d'imprimés d'affaires (21, 22) en différents
lots, comprenant:
un moyen d'alimentation (12) pour acheminer automatiquement les composants dans
une première direction (13) ;
un collecteur (14) comprenant un transporteur (32) présentant une surface supérieure
de transport se déplaçant de façon continue dans la première direction, et un moyen
d'arrêt mobile (28) coopérant avec ladite surface supérieure du transporteur, pouvant
se déplacer entre une première position qui empêche le transfert par ledit transporteur
de composants d'imprimés d'affaires au-delà dudit moyen d'arrêt, et une seconde position,
qui permet le transfert de tels composants au-delà dudit moyen d'arrêt;
un détecteur (19) pour détecter le passage de composants d'imprimés venant dudit
moyen d'alimentation vers ledit collecteur dans la première direction ;
un moyen de commande (25, 26, 40) pour commander la position dudit moyen d'arrêt
en réponse à un signal d'entrée provenant dudit détecteur ; et
dans lequel ledit collecteur (14) comprend un moyen (31) pour amener chaque composant
successif provenant dudit moyen d'alimentation à s'engager avec ladite surface supérieure
du transporteur (32), indépendamment du fait que d'autres composants soient ou non
déjà placés sur ladite surface supérieure du transporteur, et pour l'amener en contact
avec ledit moyen d'arrêt,
caractérisé en ce que ledit transporteur comprend au moins une courroie de transport
(30) dont une première partie est la plus proche dudit moyen d'alimentation (12),
et dont une seconde partie, plane dans son ensemble (32), coopère conjointement avec
ledit moyen d'arrêt (28) ; et dans lequel ladite première partie (31) est inclinée
vers le haut à partir dudit moyen d'alimentation vers ladite seconde partie qui est
dans l'ensemble horizontale de façon à ce qu'un composant d'imprimé arrêté par ledit
moyen d'arrêt associé à ladite seconde partie recouvre légèrement ladite première
partie, de façon à ce qu'un composant d'imprimé passant sur ladite première partie
passe sous le composant qui est déjà posé sur ladite seconde partie.
2. Appareil selon la revendication 1, caractérisé en ce que ledit moyen d'alimentation
comprend un moyen pour aligner des composants d'imprimés d'affaires de façon à ce
qu'un bord de ceux-ci, parallèle à la première direction, soit dans une position prédéterminée
quand il est fourni audit collecteur.
3. Appareil selon la revendication 1, caractérisé en ce que ladite courroie de transport
comprend une pluralité de courroies de transport (30) espacées l'une de l'autre dans
une seconde direction qui est sensiblement transversal à ladite première direction,
et ledit moyen d'arrêt (28) comprend une pluralité d'éléments d'arrêt (38) montés
sur un arbre (39), et passant entre lesdites courroies (30) dans ladite première position.
4. Appareil selon la revendication 1, ou selon l'une des revendications qui en dépendent,
caractérisé par des moyens de synchronisation (34) pour engager de façon sélective
les composants d'imprimés d'affaires quand ils sont sur la surface supérieure du transporteur
et pour les amener en butée contre ledit moyen d'arrêt pour assurer que les composants
sont déplacés ensemble, en synchronisme, par ledit moyen de transport au-delà desdits
moyens d'arrêt une fois que ces derniers ont été amenés à ladite seconde position
; et dans lequel ledit moyen de commande (26) comprend un moyen (35, 36, 37, 40) pour
commander la position dudit moyen d'arrêt (28) et desdits moyens de synchronisation
en réponse à un signal d'entrée provenant dudit détecteur (19) de façon à ce que lesdits
moyens de synchronisation soient actionnés pour engager lesdits composants d'imprimés
d'affaires en coïncidence avec le mouvement dudit moyen d'arrêt vers ladite seconde
position.
5. Appareil selon la revendication 4, caractérisé en ce que ledit moyen de synchronisation
comprend un premier rouleau (34) monté au dessus de ladite seconde partie (32) dudit
moyen de transport à proximité de l'interface entre lesdites première (31) et seconde
(32) parties dudit moyen de transport, et un moyen (35, 36, 37) pour amener ledit
premier rouleau en contact avec les composants d'imprimés d'affaires pour assurer
qu'ils sont transférés ensemble par ledit moyen de transport quand ledit moyen d'arrêt
(28) est amené à ladite seconde position.
6. Appareil selon la revendication 5, caractérisé en ce que ledit moyen de synchronisation
comprend en outre un second rouleau stationnaire (38') monté sous ledit premier rouleau
(34) et ayant une partie périphérique approximativement sur la même verticale que
la surface supérieure dudit moyen de transport qui est sous ledit premier rouleau,
ledit second rouleau coopérant avec ledit premier rouleau quand ledit premier rouleau
est amené à s'engager avec les composants de formulaires professionnels sur ladite
surface supérieure du moyen de transport, si bien que les composants d'imprimés d'affaires
sont pincés entre les deux rouleaux.
7. Appareil selon l'une quelconque des revendications précédentes, caractérisé par un
moyen de maintien vers le bas (44) destiné à engager les composants d'imprimés d'affaires
sur ledit moyen de transport afin de les empêcher de se relever après avoir franchi
ledit moyen d'arrêt quand il est dans ladite première position, mais d'assurer qu'ils
sont effectivement transportés au-delà dudit moyen d'arrêt par ledit moyen de transport
quand ce moyen d'arrêt est placé à ladite seconde position.
8. Appareil selon la revendication 2, ou selon toute revendication qui en dépend, caractérisé
par un guide latéral réglable (15) pour les composants d'imprimés, disposé au dessus
dudit moyen de transport.
9. Procédé pour séparer des composants d'imprimés d'affaires en différents lots, pour
les fixer ensemble en un imprimé d'affaires, en utilisant l'appareil de la revendication
1 ; comprenant les étapes consistant à :
(a) acheminer en continu les composants d'imprimés d'affaires un par un dans une première
direction vers une position d'empilement et de telle façon que chaque composant d'imprimés
d'affaires qui est successivement amené à la position d'empilement soit amené sous
tous les composants qui sont déjà dans la position d'empilement ;
(b) à la position d'empilement, rassembler en une pile le nombre voulu de composants
pour construire un imprimé d'affaires ;
(c) une fois que l'on a collecté une pile d'un nombre prédéterminé de composants d'imprimés
d'affaires professionnels, transporter immédiatement et en synchronisme tous les composants
de la pile dans la première direction vers une position de conformation ; et
(d) à la position de conformation, conformer avec les composants de la pile un imprimé
d'affaires.
10. Procédé selon la revendication 9, caractérisé par l'utilisation d'un élément d'arrêt
monté sur un arbre rotatif et qui arrête le déplacement des composants d'imprimés
quand il est sensiblement vertical, et dans lequel l'étape (c) est effectuée : en
faisant tourner l'arbre d'approximativement 270 degrés dans un premier sens à partir
de la position verticale de l'élément d'arrêt, de façon à permettre le passage des
composants; en arrêtant la rotation de l'arbre à la position à environ 270 degrés;
et, après que les composants d'imprimés de la pile ont complètement dépassé l'élément
d'arrêt, en faisant tourner l'arbre d'approximativement 90 degrés dans le premier
sens de façon à ce que l'élément d'arrêt soit revenu à sa position verticale d'arrêt
à temps pour arrêter l'élément d'imprimé suivant.
11. Procédé selon la revendication 10, caractérisé par l'utilisation d'un premier rouleau
qui est monté au dessus des composants d'imprimés d'affaires près de l'extrémité de
ces composants qui est écartée de l'élément d'arrêt, et d'un second rouleau monté
approximativement au niveau du composant le plus bas de la pile, mais par dessous
et de façon à l'engager ; et dans lequel l'étape (c) est en outre effectuée en abaissant
le premier rouleau vers le second rouleau de façon à ce que les composants d'imprimés
d'affaires soient pincés entre eux, et en conséquence se déplacent ensemble, en synchronisme,
au delà de l'élément d'arrêt.