DEVICE FOR COUNTING AND PILES OF FLATTENING PRODUCTS

The present Invention is directed to a device for insuring that a predetermined number of planar products is included in each stack thereof; more specifically, the device accurately counts the products so that stacks of desired size, previously not achieved by the prior art, can be obtained.

Devices for handling planar products (usually newspapers) include those wherein the newspapers are stacked and bundled.

In the past, planar products (such as newspapers) have been imbricated on a flat conveyor belt and carried past a counting sensor. However, this is difficult to accomplish with any real degree of precision because of the variations in the relative locations of successive papers. As a result, there is a tendency to intentionally over stack in order to insure that the recipient gets at least the minimum number required. Alternatively, if the correct number is targeted, a real danger exists that some dealers will end up being short.

The present Invention is directed to a device whereby an accurate count of planar products, as well as an accurate count of the contents of each stack thereof, is readily obtained. Although the present Invention is useful in connection with the handling of planar products in general, especially those which are sufficiently flexible so that they cannot support themselves vertically, the description will be directed to newspapers.

The present Invention is a device for stacking successive newspapers, carried along a feeding path, into pluralities of individual stacks, each of which contains a predetermined number of papers. There is provided a circular conveyor, mounted on a rotatable support, and having a plurality of circular conveyor grippers spaced apart from each other by a circumferential distance. Each of these grippers carries one newspaper and is adapted to release at a stacking point.

There is a sensor, adjacent the feeding path and located at a counting point. The sensor is adapted to count each newspaper as it passes the sensor and while they are spaced apart. The distance between them remains substantially unchanged as the papers move from the counting point to the stacking point. In this manner, the sensor can readily and accurately count the papers since they are individually held and spaced apart from each other. The fact that the papers are counted when they are individually and separately held, and the distance between the papers remains substantially unchanged until the stacking point, insures that the same number counted by the sensor is included in each stack.

In a refinement of the Invention, the circular conveyor grippers release the predetermined number of successive newspapers so that they land on a first receiver. As this occurs, the receiver moves away from the stacking point along a stacking path as the stack is built. Preferably, the speed of movement of the receiver corresponds to the newspapers being placed thereon so that the stacking point remains in the same position relative to the circular conveyor.

It is also within the scope of the present Invention to provide a linear conveyor, having a plurality of spaced apart grippers, each of which carries one of the newspapers along the feeding path. The spaced apart grippers release the papers at a transfer point adjacent the circular conveyor, whereby they are transferred from the spaced apart grippers to the circular conveyor grippers. The distance between the spaced apart grippers and the circular conveyor grippers is preferably the same.

Here, too, the receiver previously defined can be placed adjacent the stacking point. Also, it has been found advantageous to provide a plurality of fingers which individually compress the leading edge of the newspapers as they are placed on the receiver. This results in a particularly compact stack. There can be a plurality of sets (pairs) of fingers which successively compress leading edges of successive newspapers. This enables the fingers to move more slowly, thus saving wear and tear on the device. Alternatively, a second receiver intercepts the stream at the end of the prior stack and starts building a successive stack. The prior stack is thereby compressed between the second receiver and the first receiver.

In the accompanying drawings, constituting a part hereof, and in which like reference characters indicate like parts,

Figure 1

is a schematic view of the device of the present Invention with some parts omitted for clarity; and

Figure 2A to Figure 2E

schematically show successive stages in transfer of the newspapers from the linear conveyor to the circular conveyor to the receiver.

Stacking device 1 comprises linear conveyor 2, circular conveyor 3, and stacking device 13. Linear conveyor 2 carries spaced apart grippers 4, each having movable jaw 5 and fixed jaw 6. The grippers, in a manner known in the art, are hinged so that they individually move between a closed position, wherein the paper is gripped between movable jaw 5 and fixed jaw 6, and an open position where the jaws are out of contact with the newspaper and it is not gripped.

Circular conveyor 3 is provided with circular conveyor grippers 8, each one of which has fixed jaw 9 and movable jaw 10. These operate in substantially the same way as spaced apart grippers 4. However, spaced apart grippers 4 release newspapers 7 at transfer point 22 where circular conveyor grippers 8 close around them. These grippers release at stacking point 23 so that newspapers 7 rest on first fork 12 and against support 15. Should the angle of the support need adjustment, it can be moved by loosening bolt 17 and permitting it to slide in slot 16.

In operation, tails 20 of newspapers 7 are gripped by spaced apart grippers 4 of linear conveyor 2. They are counted as they pass sensor 14. At transfer point 22, spaced apart grippers 4 release and folds 19 of newspaper 7 are gripped by circular conveyor grippers 8. Circular conveyor 3 rotates about axle 18, thereby conveying newspapers 7 to stacking point 23. Here, circular conveyor grippers 8 release so that bottom newspaper 21 falls onto first fork 12 and rests against support 15. Successive newspapers 7 fall onto preceding newspapers until stack 11 is complete. This is determined by sensor 14 as it counts the predetermined number of newspapers which makes up the stack.

Since the distance between successive tails 20 of newspapers 7 (when held in linear conveyor 2) and the distance between successive folds 19 (when the newspapers are held in circular conveyor grippers 8) is the same, the count made by sensor 14 is accurate and exact. When the last newspaper 7 of prior stack 11 passes sensor 14, a signal can be sent out so that when the last newspaper is laid on stack 11, second fork 24 is moved into position to receive the first newspaper of the successive stack. In a preferred form of the Invention, forks 12 and 24 move in a stacking path which is parallel to support 15 at the same speed as that at which successive newspapers 7 are deposited. Therefore, stacking point 23 remains in the same position with respect to circular conveyor 3. Thereafter, stack 11 is bundled and discharged.

It is a particularly preferred form of the Invention that, when prior stack 11 is complete and second fork 24 is placed in receiving position adjacent stacking point 23, it presses toward first fork 12 so that stack 11 is compressed therebetween. This provides a compact stack well suited for bundling.

Although only a limited number of particular embodiments of the present Invention have been expressly described, it is, nonetheless, to be broadly construed and not to be limited except by the character of the claims appended hereto.

A device for stacking successive planar products (newspapers) and separating pluralities of the products into individual stacks. Each individual stack contains an accurately-counted predetermined number of products. There is a circular conveyor having a plurality of circular conveyor grippers thereon which are spaced apart by a circumferential distance. A sensor is also provided, adjacent the path of the products as they are retained in the grippers. The sensor counts the number and, since the products are individually held by spaced apart grippers, the count made by the sensor is accurately reflected in the size of the stacks produced. A further advantage is that the distance between successive products as they are held in the grippers remains the same during the entire travel from the sensor to the stacking point which contributes to the ability of the Invention to insure a precise count. A linear conveyor may be placed upstream of the circular conveyor so that the products are transferred from the linear conveyor to the circular conveyor at a transfer point. The sensor is located adjacent the linear conveyor and the distance between grippers on the linear conveyor and the distance between the grippers on the circular conveyor are the same from the sensor to the stacking point.