CA1314013C - Apparatus for turning over cartons - Google Patents

Abstract

TITLE OF THE INVENTION

APPARATUS FOR TURNING OVER CARTONS

ABSTRACT OF THE DISCLOSURE

An apparatus for turning bodies such as cardboard boxes or cartons or the like, especially for use in a machine for packing envelopes into cartons, includes at least one bottom carrier which is tiltably driven about a horizontal axis, and at least one top carrier which may be tilted on top of the body to be turned over. At least one connecting member and journalling elements connect the two carriers with each other in such a manner that both carriers can be tilted together or in unison and so that one carrier can also be tilted independently of the other carrier by a respective drive or tilting member. At least one carton supporting lip protrudes from at least one of the carriers for holding the carton while it is being turned.

Description

APPARATUS FOR TURNING OVER CARTONS

FIELD OF THE INVENTION

The invention relates to an apparatus for turning over bodies such as cartons or cardboard boxes, especially in a machine for packing envelopes into cartons.

BACKGROUND INFORMATION

~achines for packing envelopes are known. For example, U.S.
Patent 3,562,775 (~ullins) discloses such an apparatus in which cartons or cardboard boxes are placed from above onto standing stacked envelopes. The cartons, with their contents, then slide downwardly along an inclined plane and are braked against a stop in such a manner that they tip over and finally come to .~, `` 1314013 1 rest on a conveyor belt with the floor or bottom of the carton facing downwardly and the opening of the carton facing upwardly. In the prior art apparatus, the cartons are supplied in a direction perpendicular to the transport direction of the envelopes which are standing in staeks, and the cartons along with their content envelopes are further transported along the inclined plane to the conveyor belt in a direction perpendicular to or across the original transport direction of the envelopes. Such an arrangement or apparatus requires that sufficient space is available for the perpendicularly direc-ted transport of the empty and the full cartons. Often, however, the required space is not available.

OBJECTS OF THE INVENTION

In view of the above it is the aim of the invention to achieve the following objects singly or in combination:

to provide an apparatus for turning over a body such as a cardboard carton by 180D, especially for use in a machine for packing envelopes into cardboard eartons, wherein, prior to the turning the earton has been pushed from above and will not spill the envelopes over which the carton has been placed from above;

to construet such an apparatus so that a body such as a eardboard earton may be turned over in a short distance so that the apparatus requires only a small space for operating;

1 to transport a body, such as a cardboard carton, in -the same direction as the initial transport direction of the contents of the carton, such as a stack of envelopes, during the turning over of the cardboard carton, in other words, the turning over shall take place .in the transport direction; and to make sure that after the turning the open end of the carton with its open end closure flap faces upwardly with the content safely in the carton without spilling.

SUMMAR~ OF THE INVENTION

The above objects have been achieved in an apparatus for turning over cartons according to the invention, comprising at least one driven first carrier arranged to be tiltable about a hoxizontal axis on the bottom side of a carton to be turned over, and at least one second tiltable carrier which can be placed on top of the body or carton. The apparatus further includes at least one connecting means or intermediate member connecting the bottom and top carriers to éach other, and at least one supporting member protruding from at least one of the two carriers.

More specifically, the first or bottom carrier supports the carton or body to be turned over from below, while the other second or top carrier is placed onto or supports the carton from above. Then both carriers are tilted together so that the 1 carrier which was originally positioned on the top is now posi-tioned on the bottom. The two carriers are interconnected by at least one intermediate part or connecting rod which allows relative movements between the two carriers so that the two carriers may be opened sufficiently to permit grabbing the carton. The arrangement of the two carriers, or specifically, of the tilting axes of the two carriers, is preferably such that the turning operation is carried out in the transport direction of the stacked envelopes rather than perpendicular to the transport direction of the envelopes. However, both turning directions are basically possible, but turning in the transport direction is preferred since it saves space.

BRIEF DESCRIPTION OF THE DRAWINGS
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In order that the invention may be clearly understood, it will now be described, by way of example, with reference to the accompanying drawings, wherein:

Fig. 1 is a schematic side view of a machine for packing envelopes into cartons, including an apparatus according to the invention for turning over the cartons;

Fig. 2 is a detailed side view of the turning - apparatus during a turning procedure;

1 3 1 ~0 1 3 1 Fig. 3 is a detailed side view of the turning apparatus showing several stages in the turning procedure by dashed lines;

Fig. 4 is a schematic representation of the several stages in a turning procedure shown by views a to g also referred to as steps a to f;

Fig. 5 is a detailed side view similar to that of Fig. 2, but of an alternative embodiment of a turning apparatus; and Fig. 6 is an enlarged detailed view of a portion of the turning apparatus of Fig. 5.

DETAILED DESCRIPTION OF PREFERRED EXAMPLE EMBODIMENTS AND
OF THE BEST MODE OF THE INVENTION

As shown in Fig. 1, the present apparatus 1 for packing enve-lopes 2 into cartons 3 comprises a machine frame 4 and a laying-down or envelope depositing mechanism 5 for the initial-::
ly individually delivered envelopes 2. The envelopes 2 whichare delivered by the depositing apparatus 5 are first stacked horizontally on a stacking stage 6, and from there are then pushed into a boxing or turning station 70, in a manner which is not of direct interest here. In the boxing and turning station 70, the envelopes 2 are packed into cartons 3 which are then turned over. The packing or boxing is achieved manually or by means of a robot which is not shown in Fig. 1.

1 In any event, the cartons 3 are pushed onto the stacks 12 of envelopes 2, which have been pushed into the appropriate position in th~ boxing and turning station 70. Then, the filled cartons 3 are displaced in a direction extending in the movement direction of the stack 12 by means of a turning device 100, in such a manner that the cartons 3, which were previously oriented with their opening downwardly, are turned over by 180 so that their openings and their closing flaps 71, 72 face upwardly as shown in the left portion of Fig. 1.

Details of the turning device 100, which preferably works in the direction of movement of the stack 12 coming from the stac~ing stage 6 are shown in Figs. 2 and 3. Fig. 4 shows the individual steps of a turn over cycle.

As shown in FigO 2, the turning apparatus 100 comprises two, fvr example fork-shaped, carriers 101 and 102 arranged at a spacing from one another and adjustable relative to one another.
Both carriers 101 and 102 are tiltably arranged about a hori-zontal axis 103 relative to a table plate 8 in the apparatus 1.
For this purpose a support 105 tilts about axis 103. Both carriers 101 and 102 are secured to the support lOS for tilt-ing in unison. ~dditionally, the carrier 102 is tiltable independently of the tilting in unison.

Therefore, the fork-shaped carrier 102 is independently rota-tionally supported on an axis 104 for tilting relative to the support 105 forming an intermediate connecting member 105.
This intermediate connecting member 105 has two arms 105a 1 and 105b. The fork-shaped carrier 101 i5 rigidly connected at a right angle to the intermediate connecting member 105.
A rotatable shaft 106 i5 arranged coaxially on the axis 103, and is supported by bearings which are not shown, to rotate relative to the table 8. The connecting member 105 is rota-tionally rigidly attached to the shaft 106. Alternatively, the shaft 106 may be fixed against rotation and the connecting member 105 may be rotatably supported on the fixed shaft 106 by appropriate bearings. A piston cylinder device 108, fo~' example in the form of a pneumatic piston cylinder 108, pivoted to a lever 107, acts on the rotatable shaft 106 through the lever 107, whereby the piston rod 108' of the cylinder 108 tilts the support 105 so that both fork-shaped carriers 101 and 102 are tilted in unison. The piston cylinder 108 itself is tiltably supported in the machine frame 4 as shown. Alter-natively, if the shaft 106 is fixed, the lever 107 may act directly on the support 105 to see-saw about the fixedshaft 106.

The fork-shaped carrier 102 is rotationally rigidly attached to a shaft 109 arranged on the a~is 104. This shaft 109 is rotationally arranged or supported in the bearing bracket 110 which is rigidly connected to the free end of one arm 105a of the intermediate member 105. A lever 111 is rotationally rigidly connected to the shaft 109 and is journalled to a further piston cylinder device 112 in the form of a pneumatic cylinder 112, which is similarly tiltably supported at the free end of the arm 105b of the intermediate member 105. The piston cylinder device 112 tilts together with the member 105 and operates the fork-shaped carrier 102 to tilt about the 1 axis 104 of the shaft 109 relative to the fork-shaped carrier 101 or to the arm 105a extending perpendicularly thereto. The fork-shaped carrier 102 is Eurther provided with a supporting bracket 113 or holding plate 113 which has a bent free end and which supports a full carton 3 during the turning phase.

The two arms 105a and 105b of the intermediate member 105 have approximately equal lengths and form approximately an inverted T-shape with the fork-shaped carrier 101 as seen in Fig. 2.
The lever 107 forms substantially an extension of thefork-shaped carrier 101, where~y the axis 103 is arranged in such a manner in or under the table plate 8 that, according to a preferred embodiment, the fork-shaped carrier 101 may lie in the plane of the table 8 or in parallel thereto when a carton is to be grabbed as shown in steps a and b of Fig. 4, for example.
.

Various stages of the tilting or turning operation are shown in Fig. 3, whereby the same parts respectively have the same reference numbers. The steps a to g corresponding to the dif-ferent positions of the carriers 101 and 102 in Fig. 4 illus-trate/ in a rather abstract manner, the motion cycle of the turning apparatus 100.

According to step~a in Fig. 4 a stack 12 is standing in the boxing position. The fork-shaped carrier 101 is located in the plane of the table plate 8 below the stack 12. The car-rier 102 is tilted by 90 upwardly into a vertical position.
The axis 104 is located vertically above the axis 103, whereby the connecting member 105 is located substantially under the 131~013 1 stack 12 by the action of the piston cylinder device 108 which has -tilted the lever 107 through about 90 in the clock-wise direction from the vlew of Fig. 2.

According to step b in Fig. 4, a carton 3 has been placed upside down over the stack 12. The carrier 101 still lies in the plane of the table plate 8. The carrier 102 is tilted onto the carton 3 and lies parallel to the carrier 101. This is accomplished by the operation of the second piston cylinder device 112 shown in Fig. 2. The axis 104 remains vertically above the axis 103. The carton 3 with the stack 12 is now located between the two carriers 101 and 102, and the sup-porting or holding plate 113 contacts the carton 3 laterally at the upper left corner of the carton as seen in step b of Fig. 4. The intermediate connecting member 105 or rather its one arm 105a defines the spacing between the two carriers 101 and 102 lying parallel to one another in steps b, c, and d.

According to step c ln Fig. 4, the filled carton 3 is tilted upwardly by 90 by the operation of the first piston cylinder device 108, whereby the holding plate 113 supports the car-ton 3 from below. The two fork-shaped carriers 101 and 102 extend upwardly in parallel and at 90 to the plane of the table plate 8. The axis 10~ is tilted into the plane of the table plate 8 by the piston cylinder device 108.

.
According to step d in Fig. 4, the carton 3 with its contents is located in a position of approximately 120 relative to the view of step a .in Fig. 4. The two fork-shaped carriers lOland 1~

1 102 still extend in parallel to one another. The axis 104 is now located below the plane of the table plate 8.

According to step e o~ Fig. 4, the fork-shaped carrier 101 is tilted back into a position perpendicular to the plane of the table plate 8, whereby the intermediate connecting member arm 105a rigidly connected to the carrier 101 has again been lift-ed in the clockwise direction and the axis 104 now lies in the plane of the table plate 8. The carton 3 with its contents is carried by the fork-shaped carriex 102 and the support plate 113.

According to step f in Fig. 4, the fork-shaped carrier 101 is still standing perpendicularly to the plane of the table plate 8. The fork-shaped carrier 102 has moved the carton 3 and its c,ontents, so that the opening bf the carton is facing upwardly, and the carton is now in a horizontal plane. The carrier 102 may place the Garton onto a further transporting conveyor belt, or the like, not shown. The axis 104 still lies in the plane of the table plate 8.

According to the last step g in Fig. 4, the carriers 101 and 102 have been tilted back into their initial starting position as in step a in Fig. 4, whereby the carrier 101 lies in the plane of the table plate 8 and the carrier lQ2 stands perpen-dicularly to the plane of the table plate 8. The axis 104 is again located vertically above the axis 103.

1 3 1 ~0 1 3 1 The entire motion cycle is achieved by means of a respectively appropriately timed control of the two piston cylinder devices 108 and 112, whereby a carton 3 is turned over as described from a position facing with its opening downwardly on top of a stack 12 into a position with its opening facing upwardly, whereby the motion may entail 180 as shown, or more or less than 180. For turning over stacks 12, or cartons 3 with contents, or any desired body, the turning apparatus 100 makes sure that the tiltable carrier 101 is arranged on -the bottom side in the initial starting position while the second car-rier 102, which is tiltable in unison with the carrier 101 or independently thereof, may be placed on top of the body or carton 3.

Fig. 3 is a view similar to that of Fig. 2, but showing in addition to the solid line position, three additional posi-tions in dashed lines. The second tilting mechanism 112 is not shown in Fig. 3. The full line illustration in Fig. 3 corresponds to step b in Fig. 4. To reach the first dashed line position 3', 101', 102', 104' and 105a' in a counter-clockwise turning movement, the first tilting mechanism 108is activated until the carriers extend at the desired angle ;~ ~ relative to the horizontal. The first tilting mechanism 108 tllts both carriers 101 and 102 in unison. The first dashed line position corresponds to a movement toward step c or position c in Fig~ 4. The second dashed line position 3", 101", 102", 104" and 105a" corresponds to step e or position e in Fig. 4 and is reached by activating the second tilting .

1 mechanism 112 shown in Fig. 2. The last dashed line posi-tions 3"', 101"', 102"', and 104"' correspond to step f or position f in Fig. 4. The second tilting mechanism 112 turns the carrier 102 independently of the carrier 101.

Fig. 5 is similar to Fig. 2, but shows an alternative embod-iment of a turning apparatus lOOa. Fig. 6 shows a detail of the turning apparatus lOOa and will be discussed simultaneously with Fig. 5. The turning apparatus lOOa comprises fork-shaped carriers 101 and 102 which may be tilted in unison or relative to one another as described above with reference to Fig. 2, but which may also be adjusted in their relative spacing.
That is to say, the spacing distance between the carrier 101 and the carrier 102 may be adjusted so that the turning appar-atus lOOa may be used to turn over cartons 3 of varying sizes.

Components o the turning apparatus lOOa which correspond to the components of the turning apparatus 100 as shown in Fig. 2 have the sàme reference numbers and will not be des-cribed again in detail. As described above with reference to Fig. 2, a shaft 106 is rotatably supported in a machine frame 4. The lever 107 is rotationally rigidly attached to the rotatable shaft 106. However, unlike the arrangement of the turning apparatus 100 shown in Fig. 2, the turning apparatus lOOa comprises a clamping bracket 120 which is ro-tationally rigidly attached to the shaft 106 by means of a clamping screw 121 as shown particularly in Fig. 6. The clamping bracket 120 carries the connecting member 105 and attaches the connecting member 105 to the shaft 106. Prefer-1 ably, two clamping brackets 120 are arranged laterally next to each other, tha-t is to say, one behind the other in the view of Fig. 5, whereby these two clamping brackets 120 carry two intermediate connecting members 105 arranged in parallel and at a spacing relative to each other. The fork-shaped carrier 101 is similarly rotationally rigidly attached to the shaft 106 between the two clamping brackets 120.

As shown in detail in Fig. 6, a bored hole 122 passes through each clamping bracket 120 at a righ~ angle relative to -the shaft 106 and relative to the fork-shaped carrier 101. The respective intermediate connecting member 105 is slideably guided in the lengthwise bored hole 122. A clamping lever 123 is provided to lock the connecting member 105 into a desired position. Preferably, both the connecting member 105 and the bored hole 122 each have a circular cross-section. In an area representing a range of adjustment motlon near the clamp-ing bracket 120, the connecting member 105 comprises a linear gearing 105' which engages a gear wheel 124. The gear wheel 124 is rotationally rigidly attached to a bolt 125 which is rotatably supported in the clamping brackek 120.

In order to adjust the axial position oE the connecting member 105 and thereby to adjust the spacing between the carrier 101 and the carrier 102, the clamping lever 123 is loosened and the gear wheel 124 is turned, for example, by means of a wrench applied to a four-sided bolt head 12O of the bolt 125. Appro-priately turning the gear wheel 124 achieves a desired axial -- 1~ --1 ~1 401 3 1 sliding o the connecting member 105 via the gear wheel 124 meshing with the linear gearing 105'.

In a preferred embodiment, two clamping brackets 120 and two connecting members 105 are provided, whereby each free end of each arm 105a of the two connecting members 105 carries a bearing 110 as shown in Fig. 5 and also in Fig. 2. The shaft 109 is rotatably supported in these bearings 110. The fork-shaped carrier 102 and the lever 111 are rotationally rigidly attached to the shaft 109. Respective opposite ends of the piston cylinder device 112 are journalled or pivotally attached respectively to the lever 111 and to the free end of the second arm 105b of each intermediate connecting member 105. The piston cylinder device 112 thereby moves in unison with the connecting member 105 so that when the connecting member 105 is axially adjusted by sliding in the clamping bracket120, the piston cylinder device 112 is moved in unison with the connecting member 105 and requires no separate adjust-ment.

Although the invention has been described with reference to specific example embodiments, it will be appreciated that it is intended to cover all modifications and equivalents within the scope of the appended claims.

Claims (8)

1. An apparatus for turning a body, such as a carton, so that an initially downwardly facing side of said body faces in another direction when the turning is completed, comprising a machine frame, tiltable first carrier means for contacting said body on said downwardly facing side, first means for tiltably securing said first carrier means to said machine frame, tiltable second carrier means for contacting another side of said body, second means for tiltably supporting said second carrier means, intermediate means for rigidly connecting said first carrier means and said second means, first tilting means connected to said intermediate means for tilting both carrier means in unison about said first securing means, and a body holding member attached to at least one of said first and second carrier means for holding said body.

2. The apparatus of claim 1, comprising further means for tilting said second carrier means about said second means independently of any tilting in unison of said first and second carrier means by said first tilting means.

3. The apparatus of claim 2, wherein said first carrier means is operatively attached to said intermediate connecting means at substantially a right angle, and wherein said second carrier means is articulatedly connected to a first free end of said intermediate connecting means by said second means, whereby said further tilting means drives said second carrier means relative to said first carrier means independently of any tilting motion caused by said first tilting means.

4. The apparatus of claim 3, wherein said further tilting means comprises a piston cylinder device and means for articu-latedly connecting said further tilting means to a fixed point tilting with said intermediate connecting means and with said first carrier means.

5. The apparatus of claim 3, wherein said further tilting means comprises a piston cylinder device which is articulatedly connected to a second free end of said intermediate connecting means.

6. The apparatus of claim 3, comprising adjustment means for adjusting a spacing between said first carrier means and said second carrier means.

7. The apparatus of claim 6, wherein said adjustment means comprises a clamping bracket for adjustably rigidly attaching said intermediate connecting means to said first carrier means.

8. The apparatus of claim 3, wherein said intermediate con-necting means comprise two connecting members arranged in paral-lel to each other, to tilt together about said first means.