Stack grasper for sheet-like products and method of...

Material or article handling – Process – Of moving intersupporting articles into – within – or from...

Reexamination Certificate

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Details

C414S788000, C414S792800, C414S792900, C414S793500

Reexamination Certificate

active

06354793

ABSTRACT:

FIELD OF THE INVENTION
The present invention relates to a stack grasper, in particular for unbound printed products comprising a stack receiving space which is open towards the bottom, a guide at all four sides of the stack receiving space, and a stack support on which the stack lies flat and substantially with its full length and/or width.
BACKGROUND OF THE INVENTION
Such stack graspers are known and serve to palletise stacks of printed products with the aid of a robot arm. In this arrangement the stack grasper is mounted at the end of a robot arm and takes over the stack from a supply device in order to subsequently deposit the stack on a pallet.
With stack graspers of the initially named kind, a drop shaft or chute which has approximately the height of a complete stack is arranged beneath the stack support. Individual stacks can admittedly be deposited on the pallet with a very small mutual spacing through this small drop shaft. An orderly placement of the stack is, however, not always possible without disturbing the orderly shape of the stack because the stack support is pivoted about a horizontal axis in order to free the stack and because the stack then falls over a relatively long distance within the drop shaft.
OBJECT OF THE INVENTION
It is accordingly the problem (object) underlying the present invention to so further develop a stack grasper of the initially named kind that the product stacks can be placed on pallets while remaining absolutely stable in shape.
BRIEF DESCRIPTION OF THE INVENTION
The solution of this object takes place in particular by an arrangement in which the stack support is arranged in the region of the lower end of the guide and in which the stack support is movable out of and into the stack receiving space by a horizontal movement.
Through the solution in accordance with the invention the stack no longer falls at all within the stack grasper within a predetermined path, because the stack support is arranged in the region of the lower end of the guide. Because the stack support can be moved out of the stack receiving space through a horizontal movement, it can be “drawn out” from beneath the stack, with the stack still being held on all sides by the guide. Thus, the lower side of the stack simply slides from the guide but does not, however, undergo any falling movement.
The stack grasper of the invention can be made very compact because the height of the stack grasper corresponds approximately to the maximum stack height. Moreover, the operation of the stack grasper of the invention produces very little noise because no flaps or fingers are present which have to be pivoted at high speed against an abutment in order to free a drop path.
Advantageous embodiments of the invention are set forth in the description, the drawing and the subordinate claims.
Thus, the stacking support can have at least one positioning cylinder, preferably a telescopic cylinder, as a support element. By using a cylinder of this kind, the stack support can be fully removed from the stack receiving space, without the stack support then projecting far into the space. This is of particular advantage since the working range of the robot should always be kept as small as possible. By using a telescopic cylinder, a situation can, however, be prevented in which parts project beyond the outer side of the stack grasper when the stack support is opened, so that the working range of the robot can be kept as small as possible.
In accordance with a further embodiment of the invention, the stack support has at least one flexible support belt. Through this embodiment a belt-like support is provided for the first time in a stack grasper, which can be “rolled off” or “peeled off” from the lower side of the stack, without a relative movement taking place between the stack support and the lowermost product of the stack. In this way the stack support can be removed from the stack receiving space without any friction, whereby the shape of the stack remains absolutely stable. This stack support can be moved into the receiving space by a telescopic cylinder or also by a thrust chain. A thrust chain of this kind is put together from individual links and can only be curved in one direction out of the straight shape. If a thrust chain of this kind is used without a belt-like support as a support element, then the stack can be deposited on a thrust chain of this kind or on a plurality of thrust chains. On movement of the thrust chain out of the stack receiving space it is, in each case, deflected about a deflection roller or about a guide for sliding movement with a horizontal axis, and is moved vertically upwardly outside of the stack receiving space. In this way, as with a positioning cylinder, the stack support can be drawn out from beneath the stack so that the latter slides from the support, but does not, however, drop.
It is particularly advantageous when the support belt is guided around a deflection roller or around a guide for sliding movement, with the upper run of the support belt being tensioned between the deflection roller and a holding point outside of the stack receiving space. At the same time, the lower run of the support belt can be withdrawn in order to move the stack support out of the stack receiving space. In this embodiment the support belt is removed from the stack receiving space in that the free end of the lower run is drawn out of the stack receiving space. Through this the displaceable deflection roller is displaced and the upper run of the support belt rolls off from the lower side of the stack, but without any relative movement taking place between the support belt and the lower side of the stack. It is particularly advantageous when the free end of the lower run is secured to a lifting cylinder, preferably a lifting cylinder without a piston rod, which is movable parallel to the guide. This embodiment ensures a compact design because the lifting cylinder without a piston rod can extend parallel to a rail of the guide, and thus likewise does not project very far into the space. At the same time, the guide rail can be used as a mounting for the lifting cylinder.
A particularly advantageous design of the invention is present when the holding point of the upper run of the support belt can be displaced opposite to the direction of movement of the stack support when the lower run is drawn out over a predetermined path. When removing the stack support, i.e. the positioning cylinder surrounded by the support belt, the stack does not execute any dropping movement. However, a certain vertical offset results at the lower side of the stack when the stack support is withdrawn from the stack receiving space. This vertical offset leads to a situation in which a certain offset arises at that side of the stack from which the stack support moves away, i.e. the edges of the products do not lie exactly above one another there. Through the above described embodiment, the upper run of the support belt can, however, be displaced on drawing out of the lower run by a predetermined amount, namely by the offset, opposite to the direction of movement of the stack support, whereby the lower stack region, which is not fully aligned, is displaced together with the upper run against the direction of movement of the stack support. In this way the lower stack region is again aligned in an orderly manner so that the outer edges of the stack form vertical surfaces. The displaceable mounting of the holding point of the upper run can, for example, be achieved by a resilient attachment of the holding point. The holding point can, however, also be displaced in a controlled manner at a certain point in time by a predetermined amount, with the point in time being capable of being selected in such a way that the offset which arises is ideally compensated, for example at the centre of the draw-out movement of the stack support.
It is particularly advantageous when the support belt is guided around a deflection roller which is arranged at the free end of the positioning cylinder or of the thrust chain. In this c

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