NZ626446B2 - A palletiser - Google Patents
A palletiser Download PDFInfo
- Publication number
- NZ626446B2 NZ626446B2 NZ626446A NZ62644612A NZ626446B2 NZ 626446 B2 NZ626446 B2 NZ 626446B2 NZ 626446 A NZ626446 A NZ 626446A NZ 62644612 A NZ62644612 A NZ 62644612A NZ 626446 B2 NZ626446 B2 NZ 626446B2
- Authority
- NZ
- New Zealand
- Prior art keywords
- palletising
- abutments
- movable
- objects
- head
- Prior art date
Links
- 238000004805 robotic Methods 0.000 claims description 12
- 239000002783 friction material Substances 0.000 claims description 9
- 150000002500 ions Chemical class 0.000 description 10
- 239000000463 material Substances 0.000 description 9
- 230000014759 maintenance of location Effects 0.000 description 6
- 240000000800 Allium ursinum Species 0.000 description 3
- 235000021171 collation Nutrition 0.000 description 2
- 238000000034 method Methods 0.000 description 2
- 230000003019 stabilising Effects 0.000 description 2
- 230000004075 alteration Effects 0.000 description 1
- 230000003247 decreasing Effects 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 239000006261 foam material Substances 0.000 description 1
- 235000013305 food Nutrition 0.000 description 1
- 230000005484 gravity Effects 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 238000006011 modification reaction Methods 0.000 description 1
- 230000000087 stabilizing Effects 0.000 description 1
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B25—HAND TOOLS; PORTABLE POWER-DRIVEN TOOLS; MANIPULATORS
- B25J—MANIPULATORS; CHAMBERS PROVIDED WITH MANIPULATION DEVICES
- B25J15/00—Gripping heads and other end effectors
- B25J15/0052—Gripping heads and other end effectors multiple gripper units or multiple end effectors
- B25J15/0066—Gripping heads and other end effectors multiple gripper units or multiple end effectors with different types of end effectors, e.g. gripper and welding gun
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B25—HAND TOOLS; PORTABLE POWER-DRIVEN TOOLS; MANIPULATORS
- B25J—MANIPULATORS; CHAMBERS PROVIDED WITH MANIPULATION DEVICES
- B25J15/00—Gripping heads and other end effectors
- B25J15/06—Gripping heads and other end effectors with vacuum or magnetic holding means
- B25J15/0616—Gripping heads and other end effectors with vacuum or magnetic holding means with vacuum
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B25—HAND TOOLS; PORTABLE POWER-DRIVEN TOOLS; MANIPULATORS
- B25J—MANIPULATORS; CHAMBERS PROVIDED WITH MANIPULATION DEVICES
- B25J9/00—Programme-controlled manipulators
- B25J9/0093—Programme-controlled manipulators co-operating with conveyor means
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G47/00—Article or material-handling devices associated with conveyors; Methods employing such devices
- B65G47/74—Feeding, transfer, or discharging devices of particular kinds or types
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G47/00—Article or material-handling devices associated with conveyors; Methods employing such devices
- B65G47/74—Feeding, transfer, or discharging devices of particular kinds or types
- B65G47/82—Rotary or reciprocating members for direct action on articles or materials, e.g. pushers, rakes, shovels
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G47/00—Article or material-handling devices associated with conveyors; Methods employing such devices
- B65G47/74—Feeding, transfer, or discharging devices of particular kinds or types
- B65G47/90—Devices for picking-up and depositing articles or materials
- B65G47/91—Devices for picking-up and depositing articles or materials incorporating pneumatic, e.g. suction, grippers
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G57/00—Stacking of articles
- B65G57/02—Stacking of articles by adding to the top of the stack
- B65G57/03—Stacking of articles by adding to the top of the stack from above
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G57/00—Stacking of articles
- B65G57/02—Stacking of articles by adding to the top of the stack
- B65G57/16—Stacking of articles of particular shape
- B65G57/20—Stacking of articles of particular shape three-dimensional, e.g. cubiform, cylindrical
- B65G57/22—Stacking of articles of particular shape three-dimensional, e.g. cubiform, cylindrical in layers each of predetermined arrangement
- B65G57/24—Stacking of articles of particular shape three-dimensional, e.g. cubiform, cylindrical in layers each of predetermined arrangement the layers being transferred as a whole, e.g. on pallets
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G61/00—Use of pick-up or transfer devices or of manipulators for stacking or de-stacking articles not otherwise provided for
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B66—HOISTING; LIFTING; HAULING
- B66C—CRANES; LOAD-ENGAGING ELEMENTS OR DEVICES FOR CRANES, CAPSTANS, WINCHES, OR TACKLES
- B66C1/00—Load-engaging elements or devices attached to lifting or lowering gear of cranes or adapted for connection therewith for transmitting lifting forces to articles or groups of articles
- B66C1/10—Load-engaging elements or devices attached to lifting or lowering gear of cranes or adapted for connection therewith for transmitting lifting forces to articles or groups of articles by mechanical means
- B66C1/42—Gripping members engaging only the external or internal surfaces of the articles
- B66C1/44—Gripping members engaging only the external or internal surfaces of the articles and applying frictional forces
- B66C1/445—Gripping members engaging only the external or internal surfaces of the articles and applying frictional forces motor actuated
- B66C1/447—Gripping members engaging only the external or internal surfaces of the articles and applying frictional forces motor actuated by hydraulic or pneumatic motors
Abstract
palletiser (10) including a conveyor (11) for conveying objects (14-18) to be palletised to a loading region (27) and a palletising head (26) which is movable between the loading region (27) and a palletising region (28). The palletising head (26) is rotatable and has first and second movable abutments (35, 36) which are oriented generally perpendicular to each other. Each movable abutment (35, 36) is movable relative to and independently of the other movable abutment (35, 36) in a manner to maintain the generally perpendicular orientation between them. The movable abutments (35, 36) are operable to engage surfaces of one or more objects (14-18) to be palletised in the loading region (27), the surfaces being generally perpendicular to each other. Upon that surface engagement, the palletising head (26) is operable to shift the objects (14-18) from the loading region (27) to the palletising region (28) and to orientate the objects (14- 18) through rotation of the palletising head (26) to adopt a selected pattern of objects in the palletising region (28). ments (35, 36) which are oriented generally perpendicular to each other. Each movable abutment (35, 36) is movable relative to and independently of the other movable abutment (35, 36) in a manner to maintain the generally perpendicular orientation between them. The movable abutments (35, 36) are operable to engage surfaces of one or more objects (14-18) to be palletised in the loading region (27), the surfaces being generally perpendicular to each other. Upon that surface engagement, the palletising head (26) is operable to shift the objects (14-18) from the loading region (27) to the palletising region (28) and to orientate the objects (14- 18) through rotation of the palletising head (26) to adopt a selected pattern of objects in the palletising region (28).
Description
A PALLETISER
FIELD OF THE INVENTION
The present invention relates palletising systems and equipment, for palletising
objects for transport and/or storage. It will be convenient to describe the invention as
is relates to the palletising of cartons, such as cardboard cartons which are lly
square or rectangular in shape, within which objects are packaged, gh it is to be
appreciated that the invention is not limited just to the palletising of cartons. For
example, the present invention can be employed for palletising shrink wrapped drink
containers.
BACKGROUND OF THE INVENTION
A reference herein to prior art is not to be taken as an admission that that prior art
was known or that it was part of the common l knowledge as at the priority
date of any of the claims.
Palletising systems and equipment are used for placing objects on pallets for
ort and storage. The objects are often cardboard cartons of square or
rectangular configuration within which are ed a plurality of items, such as food
items or drink containers.
The objects to be palletised are normally fed to a palletising station by a conveyor and
once at the station, the objects are d to position them on a pallet. It is normally
necessary to manipulate the ation of the objects so that they are correctly
positioned on the pallet. In this respect, palletising objects normally requires them to
be positioned in a particular pattern on the pallet, to maximise the number of objects
that can be placed on a pallet. The size and shape of the objects nces the
pattern that is selected. Other influencing factors include the weight of the s
and their stacking strength, and the level of carton stability, particularly for tall s
that have a small footprint.
Palletising systems are ble in different forms. In some forms, the systems
employ a pick and place arrangement and some forms of such an arrangement
employ suction to lift a single object from a loading station for placement on a pallet,
or onto an ediate surface for later placement on a pallet. The object is oriented
to the t position as it travels from the loading station. In this form of palletiser,
the position the object has at the loading n is not important, as system can
assess the orientation of the object as it is lifted from the loading station and
reposition the object as required to form the pallet pattern that has been selected.
However, this system is limited in the speed of loading because of the need to lift and
place each object individually.
Other forms of pick and place arrangements can palletise more than one object at a
time by incorporating an infeed ion system that pre-forms arrays or groups of
objects to be picked up by a vacuum (or other) gripper and placed on the pallet. This
increases the speed of palletising over the above single object ent
arrangement discussed above, because more than a single object can be processed
at a time. lnfeed collation systems generally are designed for a particular pattern or
format of objects on a pallet and as such, these systems are generally inflexible for
changing ns or adding new patterns. Thus, the benefit of increased speed
comes with a consequential disadvantage of limited flexibility.
Other pick and place palletising systems utilise grippers to grip objects and otherwise
operate in a similar manner to the suction system discussed above. These systems
r suffer from the same disadvantages as the suction system in on to the
speed of palletising given that each object must be individually lifted and placed.
The applicant has recognised that a palletiser which can operate at faster palletising
speeds than prior art systems would be desirable. The applicant has also ised
that a iser which can operate at faster palletising speeds than prior art systems
and which can provide flexibility in relation to changing palletising patterns or adding
new palletising patterns would be desirable.
SUMMARY OF THE INVENTION
ing to the present invention there is provided a palletiser including a conveyor
for conveying objects to be palletised to a loading region, a palletising head which is
movable between the loading region and a palletising region, the palletising head
being rotatable about a generally al axis and having first and second movable
abutments which are oriented generally perpendicular to each other, each movable
abutment being movable relative to and independently of the other movable abutment
in a manner to maintain the generally dicular orientation between them, the
movable abutments being operable to engage surfaces of one or more objects to be
palletised in the loading region, the surfaces being lly perpendicular to each
other and upon that surface engagement, the palletising head being operable to shift
the objects from the loading region to the palletising region and to orientate the
objects through rotation of the palletising head to adopt a ed pattern of objects
in the palletising region.
The present invention also provides a palletising head for engaging objects to be
ised, the palletising head having first and second e abutments which are
oriented generally perpendicular to each other, each movable nt being
movable relative to and independently of the other movable abutment in a manner to
maintain the generally perpendicular orientation n them, the movable
abutments being operable to engage surfaces of one or more objects to be ised,
the surfaces being generally perpendicular to each other and to orientate the objects
through rotation of the ising head to adopt a selected pattern of objects in a
palletising region.
The present invention also provides a kit for assembling a palletising head of the
above kind.
The t invention further provides a method of palletising objects, the method
ing conveying objects to be palletised to a loading region, engaging the objects
by a palletising head, the palletising head being rotatable and having first and second
movable abutments which are ed generally perpendicular to each other, each
movable abutment being movable relative to and ndently of the other movable
abutment in a manner to maintain the generally perpendicular orientation between
them, engaging surfaces of one or more objects to be palletised by the first and
second movable abutments in the loading region, the surfaces being generally
perpendicular to each other and upon that e ment, shifting the objects
by the pa||etising head from the loading region to a pa||etising region and during that
shift, orientating the objects through rotation of the pa||etising head to adopt a
selected pattern of objects in the pa||etising region.
The invention ageously allows for high speed manipulation of objects for
pa||etising, by enabling more than a single object to be shifted between the loading
region and the pa||etising region at one time. Thus, the invention is not limited to an
arrangement in which only a single object can be shifted between the loading and
pa||etising regions at one time. In contrast, the invention contemplates shifting two,
three or more objects at one time. This can comprise two, three or more square or
rectangular cartons for example at one time. Thus, the speed in which the objects
can be pa||etised can be increased dramatically compared to arrangements which are
limited to the movement of single s at a time.
Quite conveniently however, where it is ary to pa||etise single objects at one
time, the invention can accommodate this. What the invention provides is flexibility in
an arrangement which allows the operator to select or programme the number of
s to be pa||etised at one time. This differs from the pa||etising arrangements
discussed above that employ infeed collation s, because the present invention
can provide complete flexibility for changing the n or format of objects which are
loaded onto a pallet.
Moreover, the invention can be arranged so that, depending on the pattern of objects
to be pa||etised, ent numbers of objects can be engaged and shifted at different
times. For example, in some pa||etised patterns, objects will be shifted in groups of
two or three depending on the part of the pattern the pa||etising s is up to.
Thus, for e, one shift of s from the loading region to the pa||etising region
can shift one object, while the next shift the objects from the loading region to the
pa||etising region can shift four objects.
In a pa||etiser according to the invention, the pa||etising head would normally be fixed
to one end of a robotic arm and the robotic arm would be operable to move the
palletising head between the loading region and the palletising region. The
connection between the palletising head and the robotic arm can be a rotatable
tion to facilitate rotation of the palletising head.
Alternatively, the palletising head could be fixed to an overhead structure that allows
movement of the head between the loading region and the palletising region and that
further allows rotation of the palletising head.
While the moveable abutments can take any suitable form, in some forms of the
invention, they each present a generally planar engagement surface to engage the
s to be palletised. That engagement e can be a flat surface, or it can be
formed otherwise, such as by a plurality of vertically spaced apart, substantially
horizontal bars, whereby the horizontal bars of one of the moveable abutments is
intermeshed with the horizontal bars of the other of the moveable abutments. In this
arrangement, the positions of the horizontal bars of the respective moveable
abutments are such that vertically adjacent bars do not interfere with each other
during movement of the moveable abutments. Thus, the horizontal bars of the
respective moveable abutments are offset vertically from each other.
In some forms of the ion, objects to be ised can be engaged by either side
of a moveable abutment. That is, each of the te sides of movable abutment,
the front and rear sides, can form a surface for engaging objects to be palletised.
This increases the ility with which a palletiser of the invention operates and
minimises the amount of on required of the palletising head.
Each of the moveable abutments preferably is moveable forward and back, with
movement of a first of the moveable abutments being along a first line or in a first
direction and movement of a second of the moveable abutments being le
along a second line or in a second ion, whereby the first and second lines or
directions are generally perpendicular to each other. As indicated above, the
moveable abutments can be eshed, but in that state, they remain moveable
relative to the other without interference.
In some forms of the invention, the moveable abutments are each in engagement with
a drive plate, whereby nt of the drive plate causes nt of one or both
of the abutments. Movement of the drive plate can be arranged in any le
manner, and in some forms of the invention, the drive plate is d by a pair of
ball screw , a pair of hydraulic or pneumatic rams, or other suitable drive and
the drive plate is driveable d and back by the respective ball screw drives, rams
or other suitable drive.
In the above form of the invention, the moveable abutments are in engagement with
the drive plate and in some forms of the ion, the respective moveable
abutments are in engagement with opposite sides of the plate. The engagement can
be made in any suitable manner, but in some forms of the invention, the drive plate
has channels formed of each of the opposite sides and the abutments have rails
formed for receipt within the channels and the rails can slide within the channels.
Thus, the abutments are movable relative to the drive plate and with the drive plate as
the drive plate is driven.
The movable abutments can be adjustable for height adjustment so that the objects to
be palletised are properly d. For example, where the objects to be palletised
are tall, the preference is to engage the objects below their centre of gravity, so that
the engagement does not tend to push the objects over or topple them. Where the
objects are short, the engagement position is not normally so important, particularly
where the footprint of the objects is much larger than the height by ratio. Thus, height
adjustment can be useful to cater for ent shapes and sizes of cartons.
In some forms of the invention, a guide arrangement is provided and which is
engaged by the moveable abutments to restrict movement of the abutments to
movement which maintains the orientation of the abutments generally perpendicular
to each other. The guide arrangement can include first and second generally el
and spaced apart s or first and second pairs of generally parallel and spaced
apart members that are disposed generally perpendicular to each other and each of
the members or pairs of members being engaged by a respective moveable
abutment. The first and second members or can form a general right angle, while the
pairs of members can form a generally square or rectangular frame or can be edges
of a generally square or rectangular plate.
In order for the le abutments to be guided by the guide arrangement, the
abutments can each include a channel or a pair of spaced apart channels to accept a
member of the respective first and second members or pairs of members and in this
arrangement, the channels slide relative to the respective members upon movement
of an abutment as the palletising head moves between the loading region and the
palletising region. The ls can be provided at opposite ends of each abutment
and at upper regions of each abutment, spaced from the region of the abutment which
engages objects to be palletised. Other ements can orate rollers in place
of ls or the guide arrangement can include channels and the abutments can
include rails for receipt within the channels. Other arrangements could be employed.
While not required in all forms of the invention, the palletising head can include an
arrangement to develop suction in order to apply a suction load to objects to be
palletised. A suction load can be applied simply to improve the capture of objects by
the palletising head.
Alternatively, the palletising head can include friction material for engagement with
objects to be palletised for the same reason. For example, the e abutments
could e a on material, or where the guide arrangement is formed of a
generally square or rectangular plate, the friction al could be applied to the
plate, to a face of the plate that comes into t with the objects to be ised.
The friction material could be a material that resists movement of the objects to be
palletised relative to the surface to which the friction material is applied and such
materials include rubber or foam material. The friction material could be removable
so that different material could be used depending on the type of object surface the
material is to frictionally engage.
Effectively, the n load or the on material can prevent the objects to be
palletised from coming away from the movable abutments as the movable abutments
move the object from the loading region to the palletising region. This can be
advantageous where the momentum imparted to the objects during that movement
tends to cause the objects to shift away from the abutments before the objects have
been correctly positioned in the ising region. It must be understood that the
movable abutments are expected to move very quickly in many ions and as
they slow as they approach the palletising region, the objects in engagement with the
abutments can come away from the abutments unless they are restrained from doing
so. A frictional material in engagement with the objects has been found to
successfully restrain most objects expected to be palletisable by the t invention
and frictional material has a cost advantage over suction.
onal material can be applied to the abutment members in any suitable manner
and can be applied to the plate of the guide arrangement such as in strips, pads or
patches.
A further alternative to suction or friction material is to employ one or more retention
plates on the opposite side of the ising head to the movable abutments. The
retention plates can have only a short vertical extension of about 50mm to engage top
faces of a carton or group of cartons, so that the carton or group of cartons is
engaged on two faces by the movable abutments and on one or two opposite faces
by the retention plates.
BRIEF PTION OF THE DRAWINGS
In order that the invention may be more fully understood, some embodiments will now
be described with reference to the figures in which:
Figures 1 to 3 are perspective views of a palletising system according to the
invenflon.
Figures 4 to 7 are perspective views of a palletising head according to the ion.
Figure 8 is a perspective view of a portion of the palletising head of Figures 4 to 7.
Figure 9 is an ed view of the palletising head of Figures 4 to 7.
9 2012/001580
Figures 10a to 10m show a sequence of palletising using the palletising head of
Figures 4 to 7.
DETAILED DESCRIPTION OF THE DRAWINGS
Figure 1 illustrates in perspective view, a palletising system 10 which includes a
or 11 (only a portion of which is shown), that has a pair of belt conveyors 12
and 13. A plurality of cartons 14 to 18 are illustrated on the or 11 with the
direction of progress along the conveyor 11 being towards the conveyor 13. The
conveyor 12 receives s from r section of conveyor that is not illustrated
in the figures.
The palletising system 10 includes a plurality of pallets 19 which are loaded into the
stacked position shown by forklift and which are fed into the stacking section 20 of the
system 10 by an automated arrangement, and as each pallet 19 is loaded to ty,
it is a conveyed out of the system 10 to a dispatch position in which the pallet 21 is
located. The pallet 21 is shown loaded with 7 layers of cartons, each layer including
12 cartons. The pallet 21 can be shifted further out of the system 10 as required, or
at the position shown, it can be lifted by a forklift or the like and taken to a position
either for transport or storage. The next pallet 22 is in position for a new loading of
cartons to be placed onto it.
The manner in which the pallets 19 are stacked and conveyed into the stacking
section 20 and thereafter moved to the position of the pallet 21 is important for the
operation of the palletising system 10 overall, but does not have significant influence
on the invention described herein. ingly, there will be no further discussion in
relation to the isms provided for movement of pallets through the palletising
system 10 as it is expected that a person skilled in the art would understand how
those mechanisms e.
The palletising system 10 includes a robotic arm 25 and a head 26. The robotic arm
is rotatable and is articulated, so that it can shift the head 26 from the loading
region 27 of the system 10 to the palletising region 28 of the system 10. The loading
region 27 is formed at the conveyor section 13 of the conveyor 11, while the
palletising region 28 is formed on what is known as a “stripper” 29, which is a
supporting surface that is extended to support a layer of s placed thereon by
the robotic arm 25, and which can be withdrawn to allow the assembled layer to be
loaded either directly on to the upper surface of the pallet 22, or on top of a layer
which has already been loaded on to the pallet 22. In Figure 1, the stripper 29 is in
the extended position, while in Figure 2, the stripper has been withdrawn. Figure 3
shows the stripper with 4 cartons loaded thereon.
1O The ion of the system 10 in loading the pallet 22 is such that the stripper 29 is
extended to the position shown in Figure 1, and cartons are loaded onto the upper
surface of the stripper 29 as shown in Figure 3. When a full layer of cartons has been
loaded on to the stripper 29, the pallet 22 is raised and the stripper 29 withdrawn so
that the cartons are transferred from the stripper to the . Thereafter, the stripper
is extended to the position shown in Figure 1 again, further cartons are loaded onto
the stripper and the process is repeated as the layers on the pallet 22 are sed.
When a sufficient number of layers have been loaded onto the pallet 22, such as
shown in relation to the pallet 21, the pallet 22 can be conveyed to the position of the
pallet 21 and taken away for r processing.
The robotic arm 25 can rotate about a vertical axis, and the articulated sections of the
arm 25 allow the arm 25 to raise and lower the head 26. Thus, the head 26 can be
shifted through three-dimensional movement n the loading region 27 and the
palletising region 28.
The head 26 of the palletising system 10 has a unique uction which offers
significant benefits to the operation of the system 10. The robotic head 26 is
illustrated individually and separate from the other components of the system 10 in
Figures 4 to 7, while Figures 8 and 9 rate a portion of the head 26 and an
exploded view of the head respectively.
The head 26 includes a connection plate 30 by which a connection is made with the
robotic arm 25, and a working plate 31. The g plate 31 supports a plurality of
suction cups 32 on an underside of the plate 31 and facilitates delivery of vacuum to
the cups 32 so that the cups 32 can apply a suction load to upper surfaces of cartons
which are engaged by the head 26 to shift from the loading region 27 to the palletising
region 28 of the palletising system 10. The vacuum is used to hold the cartons
securely against the abutments 35 and 36 during deceleration of the head 26 as the
head approaches the position in which the cartons are to be placed. Other alternative
stabilising devices could be employed for this purpose, including friction material (not
illustrated) that is d to the underside of the plate 31 and that bears against
facing es of cartons which are engaged by the head 26 to shift from the loading
region 27 to the palletising region 28. Friction material can provide the same effect as
the suction cups described above in terms of holding the cartons securely against the
abutments 35 and 36 during ration of the head 26 but advantageously, the
friction material can have costs advantages given that suction is not required to be
red to the head 26.
Another alternative stabilising device employable for this purpose can include
retention plates (not illustrated) that extend downwardly from the plate 31 adjacent
edges of the plate 31, such as the edges opposite the position of the abutments 35
and 36 in Figure 6. The retention plates can have a short vertical extension of about
50mm to engage top faces of a carton or group of cartons, so that the carton or group
of cartons is engaged on two faces by the movable nts 35 and 36 and on one
or two opposite faces by the retention plates.
The head 26 further includes first and second moveable nts 35 and 36. Each
of the nts 35 and 36 is moveable independently of the other so that the
abutment 35 can move forward and back in the direction of the arrow A, and the
abutment 36 can move fonNard and back in the ion of the arrow B (see Figure 4)
and movement of one abutment does not e or influence movement of the other.
The amount of movement available to each abutment 35 and 36 is up to about
600mm.
Movement of the abutments 35 and 36 is through a ball screw arrangement which is
driven electrically, although it would be y apparent to persons d in the art,
that pneumatic or hydraulic rams could be employed, or other g systems.
Each of the abutments 35 and 36 includes a carton engagement section 37 and 38
(see Figure 9), which presents a generally planar engagement surface through the
ity of elongate bars 39 that extend between the side members 40. Each of the
abutments 35 and 36 also includes a respective top member 46 and 47, each of
which includes an elongate rail 48, 49. The respective rails 48 and 49 are disposed
1O on opposite sides of the members 46 and 47 as illustrated in Figure 9. The
abutments 35 and 36 include inwardly facing channels 50 at each of two opposite
downturned ends 51 and 52. The downturned ends 52 have a greater lengthwise
extent than the ends 51 so that the top member 47 can overly the top member 46 in
the assembled form of the head 26 (see Figures 4 and 5). Each abutment 35 and 36
includes an anchor 53.
The connection plate 30 is connected to a drive plate 55 via columns 56. Applied to
each of the opposite sides of the drive plate 55 are channels 57 and 58 (Figure 8).
The s of the channels 57 and 58 run perpendicular to each other. Anchor
plates 59 and 60 extend rdly from each of the connection plate 30 and the
drive plate 55 and the anchor plates are disposed perpendicular to each other.
The head 26 also includes a ball screw drive in the form of ball screws 65 and 66.
The ball screws 65 and 66 each include a screw 67 and a housing 68. The screw 67
of each ball screw 65 and 66 extends through the g 69 in the respective anchor
plates 59, 60 and connects to a respective anchor 53. The forward end 70 of each
housing 68 is connected to the anchor plates 59, 60.
In the assembled form of the head 26, the ball screws 65 and 66 are fixed to the
anchors 53 and the anchor plates 59 and 60. In addition, the rails 48 and 49 of the
top members 46 and 47 are located within the grooves of the channels 58 and 57
tively and pairs of opposite side edges 71 of the working plate 31 are captured
within the grooves of the respective channels 50 of each of the top members 46 and
47. Thus, ering the ball screw 65, movement of the screw 67 from the
extended position of Figure 4 to the retracted position of Figure 5, results in d
movement of the drive plate 55 and the associated ents connected to the
drive plate, relative to both the abutment member 36 and the working plate 31.
Because the rail 48 of the abutment 35 is ed in the groove of the channel 58,
the abutment 35 is caused to move with the drive plate 55 in the direction A, from the
rearward position of Figure 4 to the fonNard position of Figure 5. Only d and
backward movement of the abutment 35 in the direction A is possible because of the
cooperation of the channels 50 with the side edges 71.
Likewise, considering the ball screw 66, the rail 49 of the top member 47 is captured
in the groove of the channel 57, and movement of the screw 67 from the extended
position of Figure 4 to the retracted position of Figure 5, results in fonNard movement
of the abutment 36 in the direction B, for the same reasons as described above in
relation to the ball screw 65. r of the abutments 35 and 36 interferes with the
other because the greater lengthwise extent of the ends 52 of the top member 47
means that the top member 47 overlies the top member 46. It can be seen that the
top member 47 extends over the upper surface of the drive plate 55 while the top
member 46 extend underneath the drive plate 55. The spacing of the bars 39 of each
of the abutments 35 and 36 allows them to intermesh (see Figures 4 to 7).
Figures 4 to 7 show nt of the abutments 35 and 36 when both of the ball
screws 65 and 66 are activated to the same extent. Thus, the nt of the drive
plate 55 in those figures is diagonal movement across the working plate 31 and each
of the abutments 35 and 36 is moved to the same extent. In this movement, the rails
48 and 49 slide within the grooves of the channels 57 and 58.
It will be apparent from Figures 4 to 7 and 9, that the abutments 35 and 36 are
oriented generally perpendicular to each other and each of the abutments 35 and 36
is movable relative to the other abutment between the positions shown in Figures 4
and 5 and Figures 6 and 7. Movement of one abutment does not influence nt
of the other abutment. Moreover, as explained earlier, the head 26 is rotatable.
ingly, the head 26 can be manipulated to engage and orient cartons for
palletising in a highly efficient manner and with advantages over prior art palletising
systems.
Figures 10a to 10m illustrate a sequence of stages of a palletising process in which
the head 26 of the palletising system 10 is used to shift cartons onto the stripper 29.
For the purposes of explanation, only the stripper 29 of the palletising system 10 is
shown, along with a pair of abutments 80 (see Figure 1 also) which are disposed at
right angles to each other and which form a datum point for the initial cartons which
are loaded onto the stripper. The position of the abutments 80 is adjustable
1O depending on where the datum point is to be located, but they are fixed during each
palletising operation.
In Figure 10A, a plurality of cartons 81 is conveyed s the g region 27 of
the palletising system 10 at which region, the cartons are positioned for ment
by the head 26. As will become clear later in the discussion of Figures 10A to 10M,
the conveyer system is programmed to convey a selected number of cartons 81 to the
loading region 27.
In Figure 10a, a lead group of 3 cartons 81 is positioned in the loading region 27. The
head 26 is positioned above the cartons 81 by the c arm 25. In Figure 10b, the
head 26 has been lowered by the robotic arm 25 into a position in which the
abutments 35 and 36 engage the cartons 81 along two sides or faces 82 and 83
(Figure 10a) of what will now be referred to as the carton group 84. In Figure 10b, the
engagement between the carton group 84 and the abutments 35 and 36 has been
made and the head 26 has been shifted by the c arm 25 so that the carton
group 84 has been pushed to the top corner of the stripper 29, remote from the
nts 80.
Figure 10c shows further movement of the head 26 to move the carton group 84 to
position it into engagement with the abutments 80, along two sides or faces of the
group 84 as shown in Figure 10d.
Figure 10d shows a second carton group 85, also formed of three cartons 81, having
been conveyed to the loading region 27 and the head 26 having been returned to the
g region 27. The carton group 84 has been positioned as required and is left in
that position as new carton groups are introduced onto the stripper 29. The head 26 is
lowered into ment with the carton group 85 to engage the carton group 85 by
the abutments 35 and 36. The head 26 does this in the manner shown in Figure 10b
and shifts the carton group 85 in the manner shown in Figure 10c, but to position the
carton group 85 adjacent to the carton group 84 as shown in Figure 10e.
Figure 10e shows the head 26 positioned again above the loading region 27, but
rotated 90° from the position it took in the earlier figures. Thus, the abutments 35 and
36 have been rotated 90°from their position in the earlier figures.
With the head 26 and the abutments 35 and 36 in the orientation shown in Figure
10e, the head 26 can be lowered into engagement with a further set of 3 cartons 81
forming a carton group 86 (Figure 10f). It is to be noted that e rotation of the
head 26, the abutments 35 and 36 engage the carton group 86 from the same side as
shown in the earlier figures. The head 26 is then rotated clockwise and moved into
position on the stripper 29 as shown in Figures 10g and 10h. The carton group 86 is
thus positioned on the stripper as shown in Figure 10i.
A further carton group 87 is shown in Figure 10i positioned on the stripper 29 and that
carton group would be engaged and positioned in the same manner as the carton
group 86, but just to a different position on the stripper 29.
Referring to Figures 10j to 10m, in Figure 10j, a carton group 88 has been added
adjacent to the carton group 86 in the same manner as the carton groups 86 and 87.
In Figure 10k, the carton group 89 has been added, again in the same movement of
the head 26 as ed for the carton groups 86 to 88. In Figure 10l, the carton
group 90 has been added and this is added in the same manner as the r carton
groups 84 and 85. Thus, for the carton group 90, the nts 35 and 36 are
returned to the position shown in Figure 10a, and the carton group 90 is engaged and
shifted in the same manner as the carton groups 84 and 85. A final carton group 91 is
WO 91012 1 6
shifted again in the same manner as the carton group 90 to complete the n of
cartons on the stripper 29. It can be seen that a central gap 92 is formed between the
respective groups in the pattern of cartons that has been formed.
A major advantage of the arrangement illustrated in Figures 10a to 10m, is that the
head 26 can shift a plurality of cartons at one time. In the example given, in each
carton group there is three cartons and so for each movement of the head 26, three
cartons are shifted as a group onto the gripper 29. It would be clearly apparent that
more or less than three cartons can be shifted at one time depending on the carton
size and the pattern of cartons to be produced.
The ability to engage more than a single carton at one time means that the speed of
palletising can be increased dramatically over some prior art arrangements. In the
example given in Figures 10a to 10m, some prior art palletisers would have picked
and placed each of the cartons of the various carton groups 84 to 91 individually and
placed them on the stripper 29. In those prior art ements, 24 movements of a
head would be required. However, given that the head 26 of the invention can shift
more than a single carton at one time and in the example given 3 cartons at one time,
only 8 movements of the head 26 is required. The speed of palletising is thus reduced
by a factor of 3.
The pattern of cartons that is formed on the stripper 29 can take different forms
depending on the carton size and shape. This is a unique aspect of the invention in
which es complete flexibility for changing the pattern or format of cartons which
are loaded onto a pallet and provides advantages over prior art arrangements that
employ infeed ion systems of the kind discussed above.
In some uses of the present invention, the head 26 can engage ent numbers of
cartons in each group. For example, the pattern may require a pair of cartons to be
located at one position on the stripper 29, and three or four s to be located at a
different on on the stripper 29. Thus, use of the ion is not limited to
positioning carton groups with equal numbers of cartons. Moreover, it might be that a
pallet of cartons might include cartons of different shapes and the invention can
accommodate this by carefully selecting the position of the abutments 35 and 36, and
by rotation of the head 26.
It would be readily apparent that alternatives to the specific form of the head 26 as
illustrated in the figures can be adopted. For example, it has already been mentioned
that the ball screws 65 and 66 are just one form of drive that could be employed.
Likewise, the channels 57 and 58 could be reversed, so that the drive plate 55
includes a rail and channels were formed on the top members 46 and 47. In addition,
the suction caps 32 can be provided if required or a different form of stabilizing device
can be ed.
The use of horizontal bars 39 is considered advantageous in order to allow the
respective abutments 35 and 36 to shift without interference between them, however
alternative arrangements could be employed which continue to maintain a lack of
interference between the abutments.
It is to be noted that engagement of cartons can be on either side of the abutments 35
and 36 as required to form a particular pattern on a pallet or stripper. However, in the
sequence of Figures 10a to 10m, the engagement is always with the same side.
It will also be y understood that movement of the abutments 35 and 36 can
create four ent quadrants of space (see quadrants 95 to 98 in Figure 7), for
engagement of a carton or carton groups. It will be iated that the quadrant 98
provides an area for engagement of a relatively small carton, while the quadrant 95
provides for engagement of a larger carton or group of cartons. Each of the nts
95 to 98 can be increased or decreased in area by movement of one or each of the
abutments 35 and 36. Moreover, the shape of the nts 95 to 98 can be altered
from square to rectangular again by movement of the abutments 35 and 36.
Finally, it is to be tood that various alterations, modifications and/or additions
may be uced into the constructions and arrangements of parts previously
described t departing from the spirit or ambit of the invention.
Claims (34)
1. A palletiser including a conveyor for conveying objects to be palletised to a loading , a palletising head which is movable between the loading region and a palletising region, the palletising head being rotatable and having first and second movable abutments which are oriented generally perpendicular to each other, each e abutment being movable ve to and independently of the other e abutment 10 in a manner to maintain the generally perpendicular orientation n them, the movable abutments being operable to engage es of one or more objects to be palletised in the loading region, the surfaces being generally perpendicular to each other and upon that surface engagement, the palletising head being operable to shift the objects from the loading region to the palletising region and 15 to orientate the objects through rotation of the palletising head to adopt a selected pattern of objects in the palletising region.
2. A palletiser according to claim 1, the palletising head being fixed to one end of a c arm and the robotic arm being operable to move the palletising head 20 between the g region and the palletising region.
3. A palletiser according to claim 2, the connection between the palletising head and the robotic arm being a ble connection to facilitate rotation of the palletising head.
4. A palletiser ing to any one of claims 1 to 3, the movable abutments presenting generally planar engagement surfaces to engage the objects to be palletised. 30
5. A palletiser according to any one of claims 1 to 4, at least one of the movable abutments having front and rear faces each of which includes a generally planar engagement surface to engage the objects to be palletised, so that the s to be palletised can be engaged on either side of the movable abutment.
6. A palletiser according to any one of claims 1 to 5, each of the movable abutments being movable forward and back, with movement of a first of the movable abutments being along a first line and movement of a second of the movable abutments being along a second line which is generally dicular to the first line.
7. A palletiser according to any one of claims 1 to 6, the movable abutments being intermeshed but being movable ve to the other without interference. 1O
8. A palletiser according to claim 7, the movable abutments including a plurality of vertically spaced apart, horizontal bars, with the horizontal bars of one of the movable abutments being intermeshed with the horizontal bars of the other of the movable abutments, the positions of the respective horizontal bars being such that vertically adjacent bars do not interfere with each other.
9. A palletiser according to any one of claims 1 to 8, the movable abutments each being in engagement with a drive plate, whereby nt of the drive plate causes movement of one or both of the abutments. 20
10. A palletiser according to claim 9, the drive plate having opposite sides and the e abutments being in engagement with respective opposite sides of the plate.
11. A palletiser according to claim 10, the drive plate having channels formed on each of the opposite sides of the plate and the nts having rails formed for 25 receipt within the ls and the rails being relatively le within the ls.
12. A palletiser ing to any one of claims 1 to 11, including a guide arrangement, which is engaged by the movable abutments and which restricts movement of the abutments other than in an orientation in which the abutments are 30 generally perpendicular to each other.
13. A palletiser according to claim 12, the guide arrangement including a first pair of generally parallel and spaced apart members that are engaged by a first of the movable abutments and a second pair of generally parallel and spaced apart members that are engaged by a second of the movable abutments, the first and second pairs of members being disposed generally perpendicular to each other and being operable to maintain the abutments generally perpendicular to each other.
14. A palletiser according to claim 13, the first and second pairs of members forming a generally square or rectangular frame.
15. A palletiser according to claim 13, the first and second pairs of members 10 forming edges of a generally square or rectangular plate.
16. A palletiser according to any one of claims 12 to 14, each abutment including a pair of spaced apart ls which respectively accept a member of a respective first and second pair of s and the channels sliding relative to the respective 15 members upon movement of an abutment as the palletising head moves between the g region and the palletising region.
17. A palletiser according to any one of claims 1 to 18, the palletising head ing suction to apply a suction load to objects to be palletised.
18. A iser according to any one of claims 1 to 18, the palletising head including a friction material for engagement with objects to be palletised to resist movement of the objects away from the movable abutments during movement of the objects s the palletising region.
19. A palletising head for engaging objects to be palletised, the palletising head having first and second movable abutments which are oriented generally perpendicular to each other, each movable nt being movable relative to and independently of the other movable abutment in a manner to maintain the generally 30 perpendicular orientation between them, the movable abutments being le to engage es of one or more objects to be palletised, the surfaces being lly perpendicular to each other and to orientate the objects h rotation of the palletising head to adopt a selected pattern of objects in a palletising region.
20. A ising head according to claim 19, the movable abutments presenting generally planar engagement surfaces to engage objects to be palletised.
21. A palletising head according to claim 19, at least one of the movable abutments having front and rear faces each of which includes a generally planar engagement surface to engage objects to be palletised, so that the objects to be ised can be engaged on either side of the movable abutment. 10
22. A palletising head according to any one of claims 19 to 21, each of the e abutments being movable forward and back, with movement of a first of the movable abutments being along a first line and movement of a second of the movable abutments being along a second line which is generally perpendicular to the first line. 15
23. A palletising head according to any one of claims 19 to 22, the movable abutments being intermeshed but being e relative to the other without interference.
24. A palletising head according to claim 23, the movable abutments including a 20 plurality of vertically spaced apart, horizontal bars, with the horizontal bars of one of the movable abutments being eshed with the horizontal bars of the other of the e abutments, the positions of the respective horizontal bars being such that vertically adjacent bars do not interfere with each other.
25 25. A palletising head according to any one of claims 19 to 24, the movable abutments each being in engagement with a drive plate, whereby movement of the drive plate causes nt of one or both of the abutments.
26. A palletising head according to claim 25, the drive plate having opposite sides 30 and the movable nts being in engagement with respective opposite sides of the plate.
27. A palletising head according to claim 25 or 26, the drive plate having channels formed on each of the opposite sides of the plate and the abutments having rails formed for receipt within the ls and the rails being vely slidable within the channels.
28. A palletising head according to any one of claims 19 to 27, including a guide arrangement, which is engaged by the working nts and which restricts movement of the abutments other than in an orientation in which the abutments are generally perpendicular to each other.
29. A palletising head according to claim 28, the guide arrangement including a first pair of generally parallel and spaced apart members that are engaged by a first of the e abutments and a second pair of generally parallel and spaced apart members that are engaged by a second of the movable abutments, the first and 15 second pairs of members being disposed lly perpendicular to each other and being operable to maintain the abutments generally perpendicular to each other.
30. A palletising head according to claim 29, the first and second pairs of members forming a generally square or rectangular frame.
31. A ising head according to claim 29, the first and second pairs of members forming edges of a generally square or rectangular plate.
32. A palletising head according to any one of claims 29 to 31, each nt 25 including a pair of spaced apart channels which respectively accept a member of a respective first and second pair of members and the channels sliding relative to the tive members upon movement of an abutment between the loading region and the palletising region. 30
33. A palletising head ing to any one of claims 19 to 32, the palletising head including suction to apply a suction load to objects to be palletised.
34. A method of palletising objects, the method including ing objects to be palletised to a loading region, engaging the objects by a palletising head, the palletising head being rotatable and having first and second movable abutments which are oriented generally perpendicular to each other, each movable abutment being movable relative to and independently of the other movable nt in a manner to maintain the generally perpendicular orientation between them, engaging surfaces of one or more objects to be palletised by the first and second movable abutments in the loading region, the surfaces being lly perpendicular to each other and upon that e engagement, shifting the s by the palletising head 10 from the loading region to a palletising region and during that shift, orientating the objects through rotation of the ising head to adopt a selected pattern of objects in the palletising region. WO 91012 3 i8 WO 91012 WO 91012
Applications Claiming Priority (3)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
AU2011905366A AU2011905366A0 (en) | 2011-12-21 | A palletiser | |
AU2011905366 | 2011-12-21 | ||
PCT/AU2012/001580 WO2013091012A1 (en) | 2011-12-21 | 2012-12-21 | A palletiser |
Publications (2)
Publication Number | Publication Date |
---|---|
NZ626446A NZ626446A (en) | 2015-05-29 |
NZ626446B2 true NZ626446B2 (en) | 2015-09-01 |
Family
ID=
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