Apparatus for fitting together cup-like containers and packaging carriers which engage same

In an apparatus for fitting together cup-like or pot-like containers and packaging carriers which engage same and which are supplied by a guide means to the containers which are carried by a conveyor member, to form a packaging unit, the invention seeks to make it possible for the assembly operation to be performed by machine with a high level of through-put capacity and a wide capacity for adaptation to different sizes and quantities of containers or groups of containers. For that purpose, at least one holder means (20) which temporarily receives the containers (1) which are intended for a packaging carrier (3), from the conveyor member (13), is disposed movably above the conveyor member (13), the substantially horizontal path of movement of the holder means extending between an array of pressure members (60) and abutment members (31), disposed downstream of the guide means (26) for the packaging carriers and forming a pressing station (25), said path of movement downstream of said array touching a discharge conveyor. The operation of supplying the containers (1) and also the operation of removing the packaging unit (1, 3) can be carried out by a single conveyor member (13) which extends beneath the path of movement of the holder means.

BACKGROUND OF THE INVENTION 
The present invention relates to an apparatus for fitting together cup-like 
containers and packaging carriers which engage same and which are supplied 
by a guide means to the containers which are carried by a conveyor member. 
A machine for assembling containers and carriers is disclosed in U.S. Pat. 
No. 3,032,943. That machine has a rotor, by means of which a film or foil 
is applied to pots or containers which must be gripped by shoes or jaws, 
in which case they may possibly suffer from deformation. 
DE-OS (German laid-open application) No. 23 04 561 provides that the film 
or foil is fed from a reel-like guide means to two coaxial discs on which 
the film or foil is joined to the containers which are supplied between 
stationary guide rails, acting as conveyor members. The final products 
obtained are in the form of multi-row packages comprising foil-encased 
pots or containers. 
The above-described apparatuses are not suitable for joining substantially 
stiff, sleeve-like packaging carriers, as are disclosed for example in 
DE-OS (German laid-open application) No. 30 29 047, to cup-like 
containers, in a sample and inexpensive manner. The sleeve-like packaging 
carriers comprise a carrier plate or panel having two strip portions 
flanking the carrier plate, and a cover plate or panel which is connected 
to the carrier plate or panel by means of the side edge strips, to form a 
square or rectangular sleeve cross-section. The carrier panel is provided 
with openings into which the upper portion of a respective container, 
which has an edge collar or flange portion, is fitted, until the collar or 
flange portion engages behind the marginal portions of the respective 
opening, whereby it is clampingly held in position. In that clamped 
position, the above-mentioned edge strip portions, with strip-like regions 
of the carrier panel, form marginal beads or edge configurations, the 
cross-sections of which substantially form isosceles triangles. The edge 
configurations or marginal beads are joined together by transverse strip 
portions which in turn provide edge portions for the openings. 
Such units comprising the sleeve-like packaging carrier and containers 
which are clampingly held in the openings therein, in particular yogurt 
containers, have already proved themselves to be successful under 
practical conditions of use, but hitherto still had to be fitted together 
in a comparatively expensive manner. 
SUMMARY OF THE INVENTION 
Having regard to the foregoing considerations, the object set by the 
present inventor was that of providing an apparatus of the general kind 
set forth in the opening part of this specification, such that the 
above-described packaging unit comprising a stiff packaging carrier and 
cup-like containers or vessels which are held thereby at one end can be 
put together by machine, the invention seeking to provide both a high 
through-put capacity and also the capability of adaptation to different 
sizes and quantities or groups of containers. 
That object is achieved in that at least one holder means which temporarily 
receives the containers intended for a packaging carrier from the conveyor 
member is disposed movably above the conveyor member, the substantially 
horizontal path of movement of the holder means extending between an array 
of pressure members and abutment members that is disposed downstream of 
the packaging carrier guide means and forms a pressing station, and 
downstream thereof being disposed in tangential or touching relationship 
to a discharge conveyor for taking away the packaging unit comprising the 
packaging carrier and the containers suspended therefrom, which is 
produced in the pressing station. 
It has been found particularly desirable for both the operation of feeding 
the containers and also the operation of removing the packaging unit to be 
performed by a single conveyor member which engages under the path of 
movement of the holder means. 
In accordance with a further feature of the invention, the holder means 
comprises a pair of parallel rods or bars, said pair projecting 
substantially radially from a vertical shaft and forming lateral support 
skids or runners for a respective row of cup-like containers which are 
held therebetween. In another embodiment, provided on said rods or bars 
are shaped strip members acting as separate support skids or runners, 
which, in accordance with the invention, are capable of being adjusted 
relative to each other in respect of inclination and/or spacing. That 
permits the arrangement to be adapted to the respective container or 
container contours. 
The parallel bars or support skids or runners laterally define a holding or 
guide track and between them receive the pots or containers which are 
introduced into the guide track by the conveyor belt, in such a way that 
the containers are free both in the region of their bottom portion and 
also in the region of their cover portion, and can be guided around the 
shaft to the array of pressure members and abutment members, forming a 
connecting station. In accordance with the invention, in order to 
facilitate lifting the bottoms of the containers from the conveyor belt, 
the latter may be provided with a support means, or may be so arranged, 
that the lower edges of the containers are disposed in the region of the 
support skid or runner feed means above machine components surrounding the 
conveyor belt, and thus can be carried away above such components. 
The number of containers or pots on the holder means is preferably 
determined by at least one adjustable abutment which delimits the guide 
track for the pots, towards the shaft, and which is possibly carried on a 
central rotary disc or plate from which, in accordance with another 
feature of the invention, the pairs of bars or support skids radially 
project. If the free ends of each two adjacent bars of juxtaposed holder 
means are joined by connecting bars on corresponding transverse members, 
that arrangement provides, in accordance with the invention, a turntable 
which can be suspended on a machine frame structure, above the conveyor 
member, freely movable relative thereto, possibly on a transmission means 
which is secured to the machine frame structure. 
The invention also provides that the pressure members are disposed below 
the turntable which determines the path of movement of the containers, 
while the abutment members of a pressure station formed by the array are 
arranged above the path of movement. 
It has been found advantageous for the abutment members to be secured to 
pressure plates or discs of an abutment drum which is rotatable about a 
shaft that is parallel to the path of movement, wherein associated with 
the periphery of the drum is the mouth opening of a channel-like, inclined 
chute; the chute forms the guide means for the sleeve-like packaging 
carriers which slide down to the drum in the chute, while in a flat 
condition of bearing against each other, being cyclically fed individually 
to the abutment members. 
In accordance with the invention, the abutment or support members are 
U-shaped members, of which a plurality, being in a mutually aligned 
position, form a series or row for receiving a packaging carrier which, as 
will be appreciated, then bears against the abutment drum, in a condition 
of being parallel to the axis of the drum. In addition, the abutment 
members are fixed to be pressure discs in flattened portions of the 
periphery thereof, as the base or support web portion of the shaped 
members forms a plane and would thus not hold to a curved peripheral 
portion. 
A plurality of such rows of abutment members are distributed over the 
periphery of the drum at the same angular spacings, whereby the packaging 
carriers can be cyclically lifted from the guide means, subsequently 
additionally pressed firm in a second station, and applied to a respective 
row of pots or containers in a further station. That sequence of movements 
occurs when using an abutment drum having three rows of abutment members 
thereon, and it will be appreciated that more than three such rows may 
also be distributed at the periphery of the drum. 
In order to promote the draw-in operation in respect of the sleeve-like 
packaging carriers, air holes or ducts open at the interior of at least 
some of the abutment members, the air ducts or holes being connected to an 
air supply system of the drum and either sucking the packaging sleeve into 
position by virtue of generating a reduced pressure, or promoting and 
assisting with ejection of the packaging sleeve, by blowing the air out of 
the mouth openings. It is in accordance with the present invention, in the 
course of rotation of the drum, firstly to generate a reduced pressure and 
then to produce the discharge flow. However, the choice of air supply 
means depends on the respective requirements concerned. 
In addition, a force storage means may be provided on at least one abutment 
member of a row thereof, for temporarily pressing against a packaging 
sleeve in the fitted condition. The force storage means may be provided in 
addition to or instead of the above-described air system, preferably being 
in the form of a leaf or blade spring which is secured to the tip of a 
limb of a shaped member and which projects with a free spring arm into the 
interior of the abutment member. The spring should not represent an 
obstacle or impediment upon insertion of the packaging sleeve, but on the 
other hand should provide sufficient support during the rotary movement of 
the drum shaft, more specifically, until the moment at which the packaging 
sleeve is joined to the pots or containers, as is still to be described. 
At its periphery, the drum is provided with peripheral grooves or slots of 
substantial width, which are preferably produced by intermediate discs 
which are respectively secured between each two pressure discs, being of 
smaller radius than same. The pressure discs and the intermediate discs 
are fixedly joined together by pin or bolt members which extend parallel 
to the axis thereof, and they carry the above-described air system which, 
in accordance with the invention, communicates with stationary air pipes 
in the region of an end disc of the rotatable drum. 
The above-described peripheral grooves or slots of the drum, or at least 
some thereof, permit a movement which is substantially radial with respect 
to the shaft of the drum, in respect of a lever arm which is limitedly 
pivotal about an axis, and therewith a suction head which is secured to 
the end of the lever arm. The suction head is movable between the drum and 
the mouth of the guide means for the packaging sleeves. By means of the 
suction head which is connected to the reduced-pressure system, possibly 
by way of lever arm and axis, a packaging sleeve is picked up at the mouth 
of the guide chute and introduced into a row of abutment members disposed 
opposite the mouth. As the suction head then engages the outward side of 
the cover plate or panel of the packaging sleeve, the function of the 
above-described slot or groove is clear--after introduction of the 
packaging sleeve into the row of abutment members, the suction head must 
also be moved into a position at a spacing, even if slight, from the 
packaging sleeve. 
A kind of hammer means is associated with the periphery of the drum, at an 
angular spacing from the suction head, which corresponds to the angular 
spacing of two rows of abutment members. The hammer means is also 
rotatable about an axis which is disposed at a spacing from the periphery 
of the drum and outwardly thereof. 
In accordance with the invention, the hammer head of the hammer-like 
pressure element reaches a row of abutment members when the next following 
row in the direction of rotary movement is disposed in the region of the 
suction head. 
The purpose of the pressure element is correctly to position the packaging 
sleeve which is introduced by the suction head, in the row of abutment 
members, and to press it against the configuration of the abutment member. 
The pressure element is obviously only intended as an auxiliary aid or 
accessory, and is not a necessary part of the apparatus according to the 
invention. 
The drum shaft of the above-described drum is disposed in the vertical 
plane through the above-mentioned pressure members which are disposed 
below the horizontal plane of movement of the holder means and preferably 
comprise a horizontal pressure table on vertically movable lift columns. 
In the rest condition, the table is disposed below the path of movement of 
the containers which stop thereabove for the actual connection operation, 
in the circular movement, and which, upon actuation of the lift columns, 
are guided by the pressure table towards the packaging sleeve which has 
arrived at a position above them. 
For the purposes of improved fixing of the containers or pots, the 
vertically liftable pressure table may be provided with spacer bar members 
which define the horizontal radial spacing between the bottoms of the 
containers and which taper in the direction of rotation of the turntable. 
The same purpose may be served by alternative or additional edge bar 
portions of the pressure table, the mutual spacing thereof corresponding 
to the diameter of the bottom of the containers. Although most pots or 
containers are already in accordance with prescribed standards, so that 
there is probably no longer any need for the parts of the machine to be 
adapted to given diameters of containers, the pressure table in accordance 
with the invention can be released from its lift columns, and can thus be 
exchanged. 
The lift columns respectively co-operate with an eccentric cam of an 
eccentric shaft which extends below the columns. The eccentric cams 
provide for cyclic lifting movement of the columns and thus the pressure 
table. The lift columns are returned by force storage means, preferably 
coil springs which extend around the columns and which are disposed 
between a machine frame structure and a bottom abutment collar or flange 
on the lift column. 
With the stroke movement of the pressure table, the row of pots which are 
disposed thereabove is lifted out of its holder means and pressed into the 
packaging sleeve which is disposed thereabove, against the downward 
portion of the periphery of the drum, until the packaging sleeve engages 
with a clipping action under the edges of the containers. The turntable 
then continues to rotate until the packaging unit which has just been 
formed can be engaged by and removed by the conveyor belt loop. 
The apparatus according to the invention is also distinguished in that both 
the drive transmission for the turntable and also the eccentric shaft of 
the lift column assembly are connected to a common drive means, the drive 
shaft for the turntable extending coaxially with respect to the shaft of 
the drum and also driving same. The central drive means even provides for 
actuation, by way of an interposed transmission, of the two shafts for the 
suction heads on the one hand and the pressure elements on the other hand. 
All the rotary movements of the apparatus are derived from a central drive 
means at one end of the machine by a chain or belt drive which, by means 
of a rocker arm or link, also provides a friction drive for the horizontal 
moving conveyor belt loop. In that way, the individual stations of the 
machine can be accurately matched by suitble choice in respect of the 
coupling means and transmission components. In that way it is readily 
possible for the method steps described to be performed cyclically in the 
correct interlocking fashion. 
In all, the invention provides a compact apparatus for assembling the 
sleeve-like packaging carriers to their containers or pots, thereby 
impressively attaining the object set by the inventor.

DESCRIPTION OF THE PREFERRED EMBODIMENTS 
Further advantages, features and details of the invention will be apparent 
from the following description of preferred embodiments and with reference 
to the drawings in which: 
A packaging apparatus 10 for securing yogurt pots or cups 1 or like 
containers, having an edge collar or flange portion 2, to a sleeve-like 
carrier 3 comprising a paper or cardboard blank, comprises, on a machine 
frame structure 11, underneath a disc-like turntable 12, an endless 
conveyor belt loop 13 which moves in the conveying direction z below the 
turntable 12 and diamtrally relative thereto about guide rollers 50 (not 
shown in further detail). 
The carrier sleeve 3 comprises a cover panel or plate 4 and lateral edge 
bead portions 5 of triangular cross-section which, as shown in FIG. 3, are 
connected by transverse web portions 6. The upper edges 7 of the two inner 
limbs 8 of the bead portions 5, in the holding condition, engage under the 
collar portion 2 of the respective container 1 which is thereby held to 
the plate or panel 4. In order to increase the elasticity of the inner 
limbs 8, they are each provided with a respective expansion cut 9 at the 
centre of the spacing a of for example 55 mm between the transverse bar 
portions 6. 
The diameter of the turntable 12 is about 1150 mm. A central rotary disc 16 
is suspended on a truncated shaft portion 14 having an upwardly tapering 
bevel gear 15. The machine components required for suspending the bevel 
gear 15 and the rotary disc 16 are not shown in the drawing, for the sake 
of enhanced clarity thereof. Side bars or rods 17 project from the rotary 
disc 16 on both sides of eight radial axes R. At their free ends, the bars 
or rods 17 are connected by chord bars or rods 18 which are arranged in an 
annular configuration and they serve as carriers for support skids or 
runners 20 which are secured thereto by bar portions 19. The cross-section 
of the skids or runners 20 is inclined relative to the horizontal at an 
angle w of about 100.degree., as can be seen from FIG. 4, and therefore 
extends parallel to the wall of the container or pot which is also 
inclined, so that a pair of support runner 20 can hold clampingly between 
them a container (1a in FIG. 5) which is introduced in the direction z, 
when the container has reached its desired end position, by virtue of the 
possibly bevelled or chamferred stop edge 21 of a radially adjustable 
retardation bar member 22. The subsequent containers 1 are then stopped by 
the respectively preceding container 1. 
The extent by which the bar member 22 projects beyond the rotary disc 16 
determines the number of containers 1 which are engaged in a respective 
group between the pairs of support runners 20 and which are to be secured 
together to the carrier sleeve. In the illustrated embodiment, it will be 
seen that the groups comprise five containers 1 (see FIG. 2). 
When, by means of a pair of support runners 20, the turntable 12 hs 
received a number of containers 1, that number being determined by the 
corresponding retardation bar member 22, from the conveyor belt loop or 
conveyor belt 13, the turntable is rotated by the shaft portion 14 in the 
direction indicated by the arrow y until the containers 1 pass into a 
pressure station 25 which is perpendicular to the direction of the 
conveyor belt. In order to facilitate lifting the conveyors 1 from the 
conveyor belt 13, it may be provided with a raised support means 23, on 
its longitudinal axis. 
In the pressure station 25, the containers 1 and the carrier sleeve 3 are 
brought together. For that reason, close to feed chute 26 for the carrier 
sleeves 3, the station 25 is provided with an abutment or support drum 30 
having gripping means 31 for the carrier sleeve 3, the drum being on a 
drum shaft 29 which rests in mounting 27 and which is coaxially connected 
to a horizontal drive shaft 28. The drum 30 is formed by pressure discs 
32, of which there are five in the illustrated embodiment, of a radius 
e.sub.1 of for example 130 mm, four intermediate discs 33 with a radius 
e.sub.2 of about 80 mm, and with tie pins or bolt 34 which are parallel to 
the axis of the shaft. 
FIG. 7 more particularly shows three flattened peripheral portions 35 on 
the pressure discs 32, the portions 35 being displaced relative to each 
other at angles t of 120.degree.. By means of the flattened portions 35, 
the gripping means 31, in the form of narrow U-shaped members, can be 
secured in position without any difficulty. The latter are provided with 
air bores or ducts 37 which open at 38 into the interior 39 of the 
U-shaped members 31 and on the other hand are connected by way of air 
supply passages or ducts 40 to air passages or ducts 41 which extend 
parallel to the shaft 29 of the drum. The air ducts 41 terminate at an 
annular space or chamber 42 provided by a stator disc 43. 
Disposed opposite the feed chute 26, between the pressure discs 32, are 
suction levers 45 having suction head 46, being limitedly rotatable about 
an axis 47 (dash-dotted lines in FIG. 7). The shaft 47 is mounted at a 
spacing f of about 200 mm from the main axis M of the drum 30. 
A respective carrier sleeve 3 is taken from the feed chute 26 by the 
suction head 46 which is connected to an air supply means (not shown), 
possibly by way of the shaft 47 which is then in the form of a hallow 
shaft, and drawn parallel to the shaft 29 of the drum into the interior of 
the U-shaped member 31. Spring elements 49 which are possibly provided at 
the tips 48 of the limb portions of the U-shaped member prevent the 
inserted carrier sleeve 3 from arbitrarily slipping out in the even of a 
drop in pressure or the like, without the spring elements 49 impeding the 
described operation of inserting the carrier sleeves 3. In addition, that 
is promoted by a pulling suction force which can be generated at the air 
ducts 37 of the U-shaped members 31. 
After the drum 30 has rotated through the angle t, the U-shaped member 31 
and therewith the carrier sleeve 3 pass into the operative region of 
pressure elements 52 which are pivotable for limiting pivoting movement 
about an axis 51 in a hammer-like mode. At the end of a shank portion, the 
elements 52 comprise a fixed cam 53 and, at a spacing therefrom, on a leaf 
or blade spring 55, an adjustable cam 54, the spacing of which cams from 
each other is variable and can thus be adapted to the cross-section of the 
carrier sleeve 3. The cams 53 and 54 press with their outward surfaces 
against the carrier sleeve 3 in such a way that it takes up the desired 
shape in which it conforms to and bears against the U-shaped member 31, 
the rectangular cross-section of the sleeve being deformed in such a way 
as to give the edge bead portions 5 which can be clearly seen in 
particular from FIG. 3. 
Just for the sake of completeness, it should be noted here that the width g 
of the interior 39 of the shaped member can also be altered; either the 
base portion of the U-shaped member 31 itself is variable in size, in a 
direction transverse with respect to the longitudinal axis of the U-shaped 
member, or the ease of fitting of the U-shaped member 31 to the discs 32 
permits rapid exchange thereof, for altering the size of the component. 
After a further rotary movement of the drum 30 about its main axis M in the 
direction indicated by the arrow x, the U-shaped member 31 together with 
the carrier sleeve 3 carried thereby faces downwardly on to the containers 
1 which are disposed therebelow in a line on the pair of support bars 20. 
Like the rotary movement of the turntable 12, the above-described rotary 
movement of the drum is a cyclic movement and is taken from the drive 
shaft 28, the horizontal bevel gear 58 of which also drives the bevel gear 
15 of the turntable 12. 
In the pressing station 25, the containers 1 are guided upwardly to the 
carrier sleeve 3 which has arrived at that position, by means of a lift 
device 60, more specifically, by eccentric cams 61 on a lift shaft 62. 
The eccentric cams 61 are operatively connected to the fork ends 63 of two 
lift columns 64; the latter run in guide openings 65 in support frame bar 
members 66. Coil springs 68 are disposed between one of the members 66 and 
collar portions 67 on the lift columns 64, to act as return force storage 
means for the lift columns 64. The upper ends thereof are disposed in head 
plates 69 which in turn are connected to a narrow pressing table 70 of the 
station 25; the table 70 is guided inter alia by an end yoke member 71 
between vertical bars on rods 72 of the support frame structure. 
For the purposes of temporarily fixing the containers 1 on the table 70, 
spacer blocks 73 are releasably and adjustably connected by screws 74 to 
the table 70. The mutual spacings of the spacer members 73 coresponds to 
the diameter i of the base of the container. 
It is also possible for the arrangement to have lateral table edge portions 
75 at a spacing i from each other, to act as guide means. 
By virtue of the table 70, the containers 1 which are hanging loosely 
between the pairs of support runners 20 can be pressed against the 
U-shaped member 31 which is disposed thereabove, until the edge collar 
portions 2 snap into position behind the inward limbs 8 of the bead 
portions of the carrier sleeve 3; the U-shaped member 31 is then vented, 
and the carrier sleeve 3 is moved downwardly and, with the containers 1, 
is conveyed away by the pair of support runners 20, in the direction y, 
about the shaft portion 14. As soon as the containers 1 have reached the 
discharge side of the conveyor belt 13, they are engaged and discharged 
thereby. 
In principle, three conveyor slots formed by the pairs of support bars 20 
in the turntable 12 are sufficient for the cyclic packing of the 
containers 1, as in that case the operation of introducing the containers 
1 between a pair of support bars 20, the operation of connecting same to 
the carrier sleeve in the region of the second pair of support bars 20 and 
the discharge operation at the third pair of support bars 20 can be 
effected simultaneously. The illustrated embodiment of the turntable 12 
with eight pairs of support bars 20 permits versatile variation both in 
regard to the containers 1, and thus the sizes of carrier sleeves, and 
also in regard to the number of containers in each packaging group. 
Both the upper horizontal drive shaft 28 for the turntable 12 and the drum 
30, and also the eccentric shaft 62 which extends below the lift columns 
64, are taken to a drive side 81 defined by two upright columns 80. The 
interposed coupling members are not shown specifically in the drawings, as 
they can be freely selected. 
As shown in FIGS. 1 and 10, the shaft 82 of a central drive means 83 
drives, by way of a drive run 84, on the one hand a chain drum or a belt 
pulley 88 of a cardan shaft 85 which connects to the eccentric shaft 62, 
with tensioning rocker arm 86 and force storage means 87, and on the other 
hand, a pulley 89 on a shaft portion 90 of a transmission means in a 
transmission casing 91; that transmission means actuates both the upper 
drive shaft 28 and also the shafts 47 and 51, which are only indicated in 
FIG. 1, of the suction lever 45 or the pressure element or spreading 
hammer 52 respectively. 
By virtue of using a central drive means 83, it is possible centrally to 
adjust the desired operating cycle, and there is no need for a plurality 
of control installations. 
The compressed air components required for pulling in and securing the 
carrier sleeve 3 on the rotating drum 30 are only partly shown in the 
drawings but, as described above, include conduit spaces in hollow shafts, 
and are connected to a compressor (not shown). 
In FIG. 7, reference numeral 78 denotes a lever arm which is moved 
synchronously with the suction head 46 on the spindle or shaft 47. The 
lever arms 78 rest, in the rest position shown in broken lines, between 
the discs 32, above the plane for the carrier sleeve 3 and, in the 
operative position shown in solid lines, press the carrier sleeve 3 out of 
the space 39. The angle u between the leverarm 78 and the suction lever 45 
is so adjusted that the lever arm 78 is in the rest position, when the 
suction head 46 is in the suction position.