Claims
- 1. An apparatus for changing the conveying speed of shingled paper products aligned along a moving belt conveyor or the like, comprising a second moving belt arranged about a plurality of rollers, the plurality of rollers being each radially displaced about a common axis, and means for rotating the common axis; said common axis and said plurality of rollers being positioned relative to said shingled paper products to cause said second belt to contact said shingled products.
- 2. The apparatus of claim 1, further comprising a compression spring means for supporting each of said rollers and for permitting radial movement of said rollers toward said common axis.
- 3. The apparatus of claim 2, wherein said rollers are displaced about said common axis at equal arcuate angular positions.
- 4. The apparatus of claim 3, wherein said plurality of rollers further comprise five rollers.
- 5. The apparatus of claim 3, further comprising a curved circumferential plate positioned along a portion of a circumference relative to said common axis, and supporting and guiding said rollers over at least a portion of the rotational path of said rollers.
- 6. The apparatus of claim 5 wherein said curved circumferential plate for supporting and guiding said rollers further comprises a straight section adjacent said moving belt conveyor.
- 7. The apparatus of claim 6, wherein said plurality of rollers further comprise five rollers.
- 8. A method of changing the conveying speed of shingled paper products and the like having partially overlapping surfaces, and being conveyed over a first moving belt conveyor or the like, comprising the steps of seizing a shingled first product by applying a substantially vertical contact pressure against the first product non-overlapped surfaces by a second moving belt, accelerating the first product in the direction of the first moving belt conveyor or the like while maintaining the substantially vertical contact pressure across said second moving belt for a predetermined time over a predetermined path in the conveying direction, releasing the substantially vertical contact pressure, and repeating the foregoing steps for the next and subsequent products.
- 9. The method of claim 8, wherein the step of releasing the substantially vertical contact pressure further comprises releasing the substantially vertical contact pressure at a position where the product is no longer shingling another product.
- 10. A method according to claim 8, characterized in that the shingled products are each accelerated until they are completely brought to the same level as the moving belt conveyor or the like.
- 11. A method according to claim 10, characterized in that the contact pressure is produced by intermittently lowered rollers, rolls or the like.
- 12. A method according to claim 11, characterized in that acceleration of the shingled products is produced by a continuous conveyor driven approximately in parallel and in the direction of the conveying direction.
Priority Claims (1)
| Number |
Date |
Country |
Kind |
| 3502897 |
Jan 1985 |
DEX |
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Parent Case Info
This is a continuation of co-pending application Ser. No. 823,305 filed on Jan. 28, 1986 now abandoned.
This invention relates mainly to a method of changing the conveying speed of shingled products, particularly paper, supplied on a belt conveyor or the like, after each of the individual products has been seized and accelerated.
After manufacturing of printing products, e.g. in rotary printing machines, there are obtained folded paper products which include at least four sides and are to be supplied to further treatment steps, e.g. trimming, stacking, stapling or the like.
Such printing machines supply e.g. 40,000 shingled paper products per hour which makes it necessary that for avoiding piling up the following treatment steps have always to operate at constant speed, this involving with regard to the paper products running in in shingled form great difficulties, especially since trimming of the paper products is to be performed not only at two sides opposing each other but also at at least one transverse side so that a guiding device has to be provided between the two cutting units. Since cutting of shingled paper products--same can also be individual cardboard sheets or paper sheets which, however, should have an inherent stiffness strong enough to permit maintaining of the high conveying speeds--usually can be made only when the paper products supplied in shingled form are drawn apart, it is necessary to draw the products apart to cause them to lay flat, or bring to one level with the conveying plane by individually seizing and individually accelerating each product.
Since as is known the paper products cannot be put down after having been supplied by the supply star to the conveyor belt, exactly enough to cause the distances between the edges of the shingled products or the products to be equally long, there are produced during shingling errors of up to .+-.50% at a distance of e.g. 30 mm between the edges of the shingled products.
It is true, there is already known a method of and a device for accelerating the shingled products for the purpose of drawing the paper products apart by seizing each respective product at its free edge and accelerating it at a speed higher than the initial conveying speed.
The conventional way used is that after drawing apart of the products and any required treatment, e.g. trimming of the products, the former condition is reestablished since the initial conveying speed is to be maintained.
As a result of twice the speed of the individual products to be drawn out, the respective error in distance between the edges of the shingled products is doubled.
This invention therefore is based on the problem to provide a method of and an apparatus for causing the error to remain unchanged at varying distances between the edges of the shingled products.
This problem has been solved by the measure that inventively the shingled products are seized on its upper surface or its lower surface as a result of a contact pressure exerted vertically or nearly vertically thereon.
It is achieved thereby that the individual product is seized between its free edge and the free edge of the following product at a point by which the respective error is taken into account.
It is known that when shingling of the paper products is being released, one can proceed vice versa, i.e. instead of accelerating one decelerates so that when a respective method is used, release of shingling takes place only while taking into account the original errors; i.e. the errors proportional to the speed are reduced.
Preferably, the shingled products are accelerated until they are completely brought to the level.
The contact pressure can be produced by intermittently lowered rollers, rolls or the like. Accelerating of the shingled products can also be achieved by a continuous conveyor driven approximately parallel to and in the direction of the conveying direction.
In an apparatus which is particularly useful for carrying out the above described method, there are provided a continuous conveyor including a contact pressure device running punctually or transversely to the conveying direction in lines, and an abutment associated to said device.
The continuous conveyor can be guided about at least three, preferably four guiding rollers or rolls. The contact pressure device usefully consists of at least three, preferably at least five, rollers, rolls or the like rotatable about a common axis and arranged radially, and the star can be rotatable at a rotational speed differing from the speed of the continuous conveyor.
The rollers, rolls or the like are preferably distributed on the circumference at the same arcuate angle such that the roller, roll or the like following in circumferential direction seizes the next-following shingled product. The rollers, rolls or the like can be resiliently held in radial direction.
The continuous conveyor usefully is constituted by a belt of a width of more than 50 cm having an adhesive surface or by several narrow belts.
At least on one side of the continuous conveyor, there can be provided a curved plate or the like for determining the course of the rollers, rolls or the like. The circular path of the rollers, rolls or the like of the star includes straight section extending parallel to the running direction.
In an especially preferred embodiment, the rollers, rolls or the like of the star have the same width as the guiding rolls or rollers of the continuous conveyor.
Consequently, at least two, preferably three, rollers or rolls of the star can simultaneously also be used as guiding rollers of the continuous conveyor; in this case, the rollers or rolls of the star are self-evidently not driven independently; the continuous conveyor is driven in the customary way; one can use as abutment if appropriate a continuous conveyor rotating over two guiding rolls or rollers, which conveyor is not independently driven, if appropriate.
US Referenced Citations (6)
Foreign Referenced Citations (4)
| Number |
Date |
Country |
| 0075121 |
Mar 1983 |
EPX |
| 2114865 |
Oct 1972 |
DEX |
| 2141340 |
Feb 1973 |
DEX |
| 2326563 |
Dec 1974 |
DEX |
Continuations (1)
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Number |
Date |
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| Parent |
823305 |
Jan 1986 |
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Patent Grant
4781368
