This application claims the priority of European Patent Document No. 08405208.3, filed on Aug. 29, 2008, the subject matter of which is incorporated herein by reference.
The application relates generally to a method, and corresponding device, for producing stacks composed of printed sheets.
Methods for producing stacks have high requirements with respect to cycle time and reliability to be able to process the supplied number of printed sheets. The cycle time should be as short as possible without reducing the reliability.
The European Patent Document EP-A-1 405 809 discloses an apparatus with a supporting device that is provided with a third support element for shortening the cycle time, wherein this support element can be raised and is assigned to the front end of the stack in the stack conveying direction. The third support element can be operated with guidance along the stack support, independent of a first and a second support element, thus resulting in more freedom of handling and a higher production capacity. The supporting device also functions as device for separating a following stack. This apparatus has the disadvantage of having a comparatively complex design for the supporting or separating device.
It is an object of the present invention to create a method and a device, which may permit a more cost-effective operation along with a shorter cycle time. The above and other objects are accomplished according to one aspect of the invention wherein there is provided a method for producing stacks of printed sheets which, in one embodiment, includes supplying the printed sheets along a conveyor to a horizontally extending stack support; stacking the printed sheets along the stack support in an upright position to form a first stack having a first end positioned towards the conveyor and a second end positioned away from the conveyor; supporting the first stack via a supporting device positioned at the second end of the first stack; transferring the first stack from the supporting device to a compression device having first and second compression carriages; compressing the first stack between the first and second compression carriages; strapping the first stack; releasing and moving the first compression carriage towards a second stack subsequently formed along the stack support and supported by the supporting device; and transferring support for the second stack from the supporting device to the first compression carriage at the second end of the second stack.
In a further embodiment, once a compressed stack is strapped, the first compression carriage may be moved toward a following stack that forms on the stack support and may take over the support of this stack from the supporting device on the stack side that is facing away from the conveyor. The supporting device may thus be freed immediately and can be used once more for separating the stack. As a result, it may be possible to achieve a shorter cycle time without a considerably higher structural expenditure. The supporting device can have a comparatively simple design and need not require a third support element. The time saved during each cycle may be considerable, especially when producing comparatively short stack packets or bundles.
According to another embodiment, once the strapped stack is discharged from the device, the second compression carriage may also be moved to the additional stack that forms and takes over the support of said stack from the first compression carriage. The first compression carriage therefore may only temporarily support the forming stack. Following the takeover by the second compression carriage, the first compression carriage, which is now freed up, may be moved to the additional stack side facing the conveyor where it may take over the supporting function from the supporting device.
According to another embodiment, the first compression carriage may be provided with at least one support element, which may support the additional stack on the side facing away from the conveyor and may move it from an outer to an inner position for the supporting function. As soon as the forming stack is supported on the side facing away from the conveyor by the second compression carriage, the support element may again be moved back to its outer, or pulled back, position. For example, the at least one support element may be moved essentially transverse to the stack conveying direction while moving between its inner and outer position.
The application furthermore relates to a device for producing stacks of printed sheets which, according to one embodiment, includes a conveyor that conveys printed sheets; a horizontally extending stack support that receives the printed sheets from the conveyor supplied continuously in an upright position; a supporting device that forms a stack on the stack support, wherein the stack includes a first end positioned towards the conveyor and a second end positioned away from the conveyor; and a compression device that receives and compresses a completed stack from the supporting device, wherein the compression device comprises a first compression carriage and a second compression carriage between which a completed stack is compressed, and wherein the first compression carriage is adaptable to fit the second end of the stack to be compressed and includes at least one support element to support a forming stack on the second end.
Such a device may be suitable for realizing the aforementioned method and allowing the forming of stacks composed of printed sheets during an especially short cycle time. The device may be comparatively cheap to produce, but is nevertheless reliable.
According to a further embodiment, the first compression carriage may be provided with two compression members that respectively may have one back side facing away from the conveyor, which may be designed for the compressing of a stack formed on the stack support. These compression members may be arranged at a distance to each other and can be moved transverse to the stack conveying direction. The spacing between the compression members can thus be adapted easily to the format of the printed sheets or to the stack width.
In another embodiment, the support elements may be arranged on at least one of the two compression members, on the side facing the conveyor. As a result, the support elements can be adjusted together with the compression members in a direction transverse to the stack conveying direction. One support element may be arranged on each compression element, wherein these support elements can be moved between an inner and an outer position. In the outer position, the support elements may not restrict the space between the compression members. Comparatively wide stacks can thus also be formed, such as dual use stacks which may include two identical products that may be produced while joined and may be separated only during a subsequent processing step. The support elements can be embodied, for example, as yokes, plates, or the like and can be displaced between the two positions by pivoting them, pushing them or the like. The support elements may be operated with a positioning cylinder, wherein the use of other drive devices is conceivable as well.
The present invention will be more readily understood from the following detailed description when read in conjunction with the accompanying drawings, in which:
Referring to
The device 1 furthermore comprises a compression device 29 that is provided with a first compression carriage 15 and a second compression carriage 16. The two compression carriages 15 and 16 can be moved in stack conveying direction 13 as well as counter thereto. A stack 5 that is formed as described in the above can be compressed in a following method step between the two compression carriages 15 and 16, meaning the air cushions between the individual printed sheets 6 are essentially pressed out and the stack 5 is compacted in this way. The aforementioned first end plate 10 is thus moved against the stack side 38 that is facing away from the conveyor 4 while a second end plate 11 is moved against the stack side 39 that is facing the conveyor 4, wherein these end plates can be made of wood. The arrows 32 shown on the right side in
With the method step shown in
Since the stack 5 is now supported by the first compression carriage 15, the second support and separating element 9 is also freed up. The second support and separating element 9 is therefore initially moved downward and to the left and arrives together with the first support and separating element 8 in the position shown in
The second compression carriage 16, which is also freed up following the conveying away of the compressed and strapped stack 5′, is then also moved to the left and finally takes over the supporting function of the first compression carriage 15, as shown in
For a better understanding, the method sequences in
In
With the aid of
The first compression carriage 15 comprises a frame 17 on which four guide rollers 19 are attached for moving the first compression carriage 15 along rails that are not shown herein. Furthermore attached to the frame 17 is a transverse extending axis 26, on which the two compression members 18 are each displaceable, for example, with the aid of a bearing 27. The compression members 18 can respectively be moved with a motor 23 and an endless drive element 31 along the axis 26 for changing the spacing 35, shown in
An additional motor 22 for generating the pressing force required for compressing a stack 5 is mounted on the frame 17 (
A separate support element 30 is arranged on each compression member 18 and is embodied rod-shaped or yoke-shaped. The support elements 30 are respectively positioned pivoting via a rod assembly 28 (
In the embodiment shown, the support elements 30 are downward-facing yokes. However, they can also be embodied in the shape of a platform and can be positioned to be displaceable to the side. In principle, the support elements 30 can also be embodied as non-movable areas on the side 36 of the compression jaws 21, which faces the conveyor 4. It is advantageous that the support elements 30 are embodied such that they can take over the function to support a forming stack 5, 5″ until the second compression carriage 16 is available to take over this function. Besides the standard compression function, the first compression carriage 15 can thus advantageously also take on a supporting function. The support elements 30 can be realized with comparatively low structural expenditure, so that no substantially higher production costs accrue. Nevertheless, the cycle time can be reduced considerably.
Owing to the fact that following the compressing and, if applicable, also the strapping of a stack, regardless of its length, the second compression carriage 16 may wait until the finished stack is discharged before it can be moved counter to the stack conveying direction 13 to support the newly forming stack, the time saving or the increased capacity is particularly high for comparatively short stacks 5 when using the method according to the invention and the corresponding device.
It will be understood that the above description of the present invention is susceptible to various modifications, changes and adaptations, and that the same are intended to be comprehended within the meaning and range of equivalents of the appended claims.
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