Description

Embodiments of the invention relate to a suction belt, more specifically to a suction belt for conveying an object.

Suction belts are known in the art and may be used in a paper handling apparatus, e.g. an inserter, a assembly station, a merger, for conveying goods, e.g. one or more sheets of paper, one or more envelopes, one or more inserts. Fig. 1 shows a portion of a conventional suction belt which may be formed from a plastic or rubber material and comprises a lower surface or bottom side 102 and an upper surface or top side 104 opposite to the bottom side 102. Further, the belt 100 comprises opposing side faces 106 connecting the bottom side 102 and the top side 104 and one or more (a plurality of) holes or vias 108. Each hole 108 extends through the body of the suction belt 100 from the bottom side 102 to the top side 104. The suction belt 100 may be used in a suction conveyer which comprises a vacuum chamber and a vacuum source operatively connected to the vacuum chamber. The suction belt 100, at least partially, extends over the vacuum chamber so that a suction force can be applied through the holes 108. When an object is to be transported by the conveyor it is placed on the top side 104 of the suction belt 100 and the vacuum source is activated, thereby applying a suction force through the holes 108 to the object. Thus, the object is held on the top side 104 of the suction belt 100 and is transported as the belt is moved. In a paper handling apparatus there are situations when an additional object is to be added to an object already transported by the suction belt. In such a situation it is necessary to ensure that upon adding the additional object no collision occurs. Further, there are continuously operating inserters in which an envelope and the goods move during the inserting process. The envelope is moved with a velocity lower than the velocity of the goods to be inserted so that as the envelope and the goods travel in the same direction, eventually, the goods reach the envelope and are inserted. In such a case, it is to be ensured that the goods securely cross the flap of the envelope. When a conventional suction belt is used, additional elements are to be provided for avoiding the above mentioned collisions.

It is an object underlying the present invention to provide an improved suction belt for conveying an object. This object is achieved by a suction belt according to claim 1 and by a suction conveyer according to claim 23.

Embodiments of the invention provide a suction belt for conveying an object, comprising a first area configured to allow applying a suction force to at least a part of an object, and a second area which is arranged adjacent to the first area, wherein a thickness of the suction belt changes at a transition from the first area to the second area.

Further embodiments are defined in the dependent claims.

Embodiments of the invention are now described with regard to the accompanying drawings, in which: Fig. 1 shows a portion of a conventional suction belt,

Fig. 2 shows an isometric view of a portion of a suction belt in accordance with embodiments of the invention, Fig. 3 shows a further embodiment of the suction belt having a different configuration of the second areas,

Fig. 4 shows yet another embodiment of the suction belt in accordance with which the second area is arranged at a distance from the edges of the belt,

Fig. 5 shows a suction belt in accordance with another embodiment, wherein Fig. 5(a) is a sectional view of taken along a line a-a' shown in Fig. 5(b) which is a top view of the belt, Fig. 6 shows a suction belt in accordance with yet another embodiment, wherein Fig.

6(a) is a sectional view taken along a line a-a' shown in Fig. 6(b) which is a top view of the belt,

Fig. 7 shows in Fig. 7(a), 7(b) and 7(c) different shapes of the second area of the suc- tion belt,

Fig. 8 shows another embodiment of the suction belt, wherein Fig. 8(a) is a sectional view taken along lines a-a' in Fig. 8(b) which is a top view of the belt, Fig. 9 shows another embodiment of the suction belt;

Fig. 10 shows yet another embodiment of the suction belt; shows a suction conveyer using the suction belt in accordance with embodi- ments of the invention;

Fig. 12 shows a schematic view of a section of an inserter comprising the suction con- veyor of Fig. 11 ; and shows a suction belt in accordance with further embodiments of the invention, wherein Fig. 13(a) is an isometric view of a part of the belt, and Fig. 13(b) is a sectional view along the line b-b' in Fig. 13(a).

Fig. 2 shows an isometric view of a portion of a suction belt 200 in accordance with embodiments of the invention. The suction belt 200 may be formed from a plastic or a rubber material and comprises a lower surface or bottom side 202 and an upper surface or top side 204. The bottom side 202 and the top side 204 are connected by opposing side faces 206. The suction belt 200 comprises at least two holes or vias 208 extending through the suction belt body between the bottom side 202 and the top side 204. A thickness d of the suction belt 200 is defined by the length or dimension between the bottom side 202 and the top side 204. The suction belt 200 comprises a plurality of first areas 210 and a plurality of second areas 212. The thickness di of the first areas 210 differs from the thickness d ₂ of the second areas 212. More specifically, at a first transition 214 between the second area 212 and the first area 210 the thickness d of the suction belt 200 changes from d ₂ to di. Thus, there is a distance d ₃ between the top surface 204 _\ in the first area 210 and the top surface 204 ₂ in the second area 212. The height d ₃ is equal to or higher than a thickness of an ob- ject held on the first area so that, e.g. an object travelling across the second area is lifted far enough above the object held on the belt to avoid a collision. In case of an inserter the height d ₃ is selected to be equal to or higher than a thickness of an envelope flap so that goods to be inserted can securely pass the flap but still hits an envelope mouth of the opened envelope. In an assembly station the height (d ₃ ) may be selected dependent from the maximum number of objects that can be assembled into a stack.

Thus, by means of a suction belt 200 as shown in Fig. 2, in accordance with embodiments of the invention, an apparatus for transporting an envelope in an inserter is provided, wherein the suction belt 200 comprises the first area or suction section 210 for holding an open flap of an envelope and at least a part of an envelope body, and wherein the second area 212 forms means for providing an elevation such that an open flap of the envelope can be arranged behind the elevation.

In the embodiment of Fig. 2, the second area 212 is a contoured section of the belt which is shaped as a ramp. At a second transition 216 between the first area 210 and the second area 212 the top side 204 of the belt 200 starts to rise or ascend linearly until the height d ₃ is reached so that a first, upwardly rising part of the second area 212 is formed, followed by a second, horizontal part that extends to the first transition 216 where a third, vertical part is formed.

When using the suction belt for transporting one or more sheets of paper, e.g. a single sheet or a stack of sheets, one or more additional sheets can be placed on the stack without any collision because it is moved out of the plane 204 _\ in which the sheet is held by the suction force, thereby allowing to cross the already held sheet. Also when inserting goods into an envelope held on the belt with its flap at the first transition 214, the goods can be moved securely into the envelope over the flap. In accordance with embodiments the second area 212 is an integral part of the suction belt 200, i.e. the first and second areas 210, 212 are formed from the same belt 200. Therefore, a fixed positional relationship between the two areas is ensured allowing for a secure and reliable operation.

In the embodiment of Fig. 2, the first area 210 comprises a plurality of holes 208 arranged at predefined intervals between two consecutive second areas 212. However, in accordance with other embodiments of the invention it is not necessary that the entire first area 210 between two second areas 212 is provided with holes, rather a first part 210j having the holes and a second part 210 ₂ having no holes may be provided. Also, it is noted that the second areas 212 in accordance with embodiments do not comprise any holes. Fig. 2 shows a suction belt 200 having the second area 212 extending over the entire width w of the belt 200, however, the invention is not limited to such embodiments. Fig. 3 shows a further embodiment of the suction belt 200 having a different configuration of the second areas 212. The second area 212 is formed of two separate parts 212 _\ and 212 ₂ each extending over only a part of the width w of the belt 200. More specifically, the first part 212i is arranged at a first edge 218 of the belt 200 and extends in the width direction w by a distance W\ towards a second, opposing edge 220. The second part 212 ₂ extends from the second edge 220 in the width direction towards the first edge 218 by a distance w ₂ . Thus, the parts 212j and 212 ₂ are arranged with a gap g there between. Fig. 4 shows yet another embodiment of the suction belt 200 in accordance with which the second area is arranged at a distance from the edges 218 and 220 of the belt 200. The second area 212 has a width w _\ and may be arranged at the center of the belt 200. However, also an eccentric arrangement may be desired. The second area 212 is arranged at a distance g\ from the first edge 218 and at a distance g ₂ from the second edge 220, wherein the distances gi and g ₂ may be the same or may be different.

Fig. 5(a) shows a sectional view of a suction belt in accordance with another embodiment taken along a line a-a' shown in Fig. 5(b) which is a top view of the belt. Other than in the embodiment described with regard to Fig. 2, the entire first area 210 comprises the holes 208, i.e. there is no area 210 ₂ .

Fig. 6(a) shows a sectional view of a suction belt in accordance with yet another embodi- ment taken along a line a-a' shown in Fig. 6(b) which is a top view of the belt. Other than in the embodiments described thus far, instead of providing a number of holes arranged along the longitudinal extension of the suction belt 200, a longitudinal slot or slit 222 is formed that extends from the bottom side 202 to the top side 204. In the embodiments described with regards to Figs. 2 to 6 the second area 212 has a first linearly upward extending part 212a (see Fig. 5(a)), a second, horizontal part 212b, and a third, vertical part 212c. Instead of such a ramp-shaped part or elevation, also other shapes may be used. Fig. 7(a) shows the second area 212 comprising a first part 212a that starts to rise or ascend from the second transition 216 upwards in a curved or bend shape until it reaches the second, horizontal part 212b. At the first transition 214 a third, vertical part 212c follows. Fig. 7(b) shows a further embodiment having a first part 212a linearly extending upward from the second transition 216 to the first transition 214, where the vertical part 212c follows. This ramp does not have a horizontal part 212b. Instead of the linear part 212a, also a curved part may be used. Fig. 7(c) shows yet another embodiment of the second area 212 having a curved surface 212d.

Another embodiment of the suction belt will now described with reference to Fig. 8 in which the second areas 212 comprise a first, vertical part 212a extending upwardly at the second transition 216, a horizontal part 212b followed by a second vertical part 212c at the first transition 214. Further, from the embodiment of Fig. 8 it is clear that the suction belt is not limited to openings having the shape of holes 208 or slits 222, rather, a plurality of slits 222 may be provided. Fig. 8(b) is a top view of the belt 200 and the sectional view of Fig. 8(a) is taken along lines a-a'.

Further it is noted that any combination of holes and slits may be used for realizing the openings for applying a suction force. Also holes or silts arranged side by side in the width direction may be provided.

Fig. 9 shows another embodiment of the suction belt in accordance with which the first area 210 has a top side that rises starting from the first transition 214 to the second transi- tion 216 up to the height of the second area 212. Alternatively, as is shown in Fig. 10, the top side of the second area 210 may rise to a first height below the height of the second area. After a horizontal part the top side starts to rise again.

Fig. 11 shows a suction conveyer 300 comprising a vacuum means having a vacuum chamber 302 and a vacuum pump 304. Further, a first roller 306 and a second roller 308 driven by a motor 310 are provided. A suction belt 200 in accordance with embodiments of the invention extends around the two rollers 306 and 308, and the vacuum chamber 302 applies a suction force to the openings 208 of the suction belt 200 for holding an object transported by the belt 200.

Fig. 12 shows a schematic view of a section of an inserter 400 comprising the suction conveyor 300 of Fig. 11 for transporting an envelope or cover along an inserting or filling path. The suction conveyor 300 comprises a suction belt 200 in accordance with embodiments of the invention. The inserter 400 further comprises a goods transport 402 compris- ing a belt or a chain 404 extending around respective rollers (not shown). One or more pushers 406 are mounted to the belt 404. The pushers 406 are provided for engaging with a trailing edge 408 of an object 410 to be inserted into an envelope 412 moved by the suction conveyor 300. The suction conveyor 300 moves the envelope 412 with a velocity that is slower than the velocity of the goods transport 402 so that along the inserting or filling path the object 410 will eventually be inserted into the envelope 412. The inserter 400 further comprises air nozzles 414a, 414b which blow air towards the envelope 412 for opening it. Further, a separating device 416 is provided which comprises a belt or chain 418 arranged above the suction conveyor 300 and extending around two roller (of which only one roller 420 is shown in Fig. 12). One or more separating elements 422 are mounted to the belt 418 and are provided to engage with a trailing edge 412a of a first side 412b of the envelope 412 and to maintain the first side 412b separated from a second side 412c of the envelope 412. By means of the belt 418 the separating element 414 is moved together with the envelope 412 so that the separation is maintained over at least a part of the filling path (e.g. at least until a leading edge of the object 410 is arranged inside the envelope 412).

The envelope 412 is arranged on the suction belt 200 in its first area 210 with its second side 412c in contact with the suction belt 200, more specifically, a part of the second side 412c of the envelope 412 is arranged on the second part 210 ₂ having no holes. Another part of the second side 412c to which an envelope flap 412d is arranged on the first part 210i of the belt 200 having the holes. As can be seen, the envelope 412 is placed on the suction belt 200 such that a trailing edge of the flap 412d is arranged at the transition 214. The thickness of the suction belt 200 in the second area 212 is such that the distance d ₃ (see Fig. 2 - the height of the upper side 204 ₂ of the second area 210 above the upper side 204i of the first area 210) equals at least the thickness of the flap 412d. In accordance with embodiments the distance d ₃ is less than a maximum opening of an envelope throat 412e during the filling process. In any case the height d ₃ is selected such that the object 410 is raised from the transport level of the envelope 412 so that it securely passes the flap 412d on its way into the envelope.

In the embodiments described so far the suction belt included the holes, the diameter of which defined respective suction areas, i.e., an area in which a suction force can be applied through the hole to an object on the belt. However, the invention is not limited to this kind of suction areas. Fig. 13 shows a suction belt in accordance with further embodiments of the invention, wherein Fig. 13(a) is an isometric view of a part of the belt, and Fig. 13(b) is a sectional view along the line b-b' in Fig. 13(a). The suction belt 200 comprises the holes 208 extending from the bottom side 202 of the suction belt 200 to its top side 204. The top side 204 comprises shallow portions 230j to 230 ₅ , e.g. shallow recesses or shallow cups. In accordance with embodiments small shallow recesses are provided having a width along the width direction of the belt 200 and a length along the longitudinal direction of the belt 200, wherein the width is greater than the length, see e.g. recesses 230 _ls 230 ₃ , 230 ₄ , and 230 ₅ . In accordance with other embodiments large recesses are provided having a length greater than a width, see e.g. recesses 230 ₂ . In accordance with embodiments the belt 200 comprises only small recesses, only large recesses or both small and large recesses. The holes 208 extend from the bottom side to the recesses. As can be seen from Fig. 13, in accordance with embodiments, a shallow recess may have a diameter that is larger than a diameter of a hole 208 connected thereto. One or more holes may be provided at the center of the recess or at another part of the recess. In accordance with these embodiments the suction area is greater than the diameter of the hole. The suction area is defined by the recess formed in the top side of the belt. It is noted that Fig. 13 shows that each recess is pro- vided with one hole. However, other embodiments may comprise at least one recess including two or more holes.

In accordance with the embodiment depicted in Fig. 13, when using the belt to transport envelopes, a combination of one large recess and a plurality of small recesses is used, wherein the large recess 230 ₂ is provided for applying a suction force greater than normal to the envelope flap, and which is greater than a suction force provided by a small recess. By arranging the large recess at a predetermined position along the belt, it is possible to apply the higher suction force to a desired area of an object on the belt. For example, in case of transporting an envelope, the large recess 230 ₂ is provided close to the first transition 214, preferably with one small recess 230i between the large recess 230 ₂ and the transition 214. It is noted that dependent on the circumstances also more than one small recess may be provided between the large recess 230 ₂ and the transition 214. In accordance with other embodiments no small recesses may be provided between the large recess 230 ₂ and the transition 214, i.e., the large recess is arranged at a distance from the transition 214 that may be set dependent from the dimension of the envelopes to be handled.

The above described embodiments are merely illustrative for the principles of the present invention. It is understood that modifications and variations of the arrangements and the details described herein will be apparent to others skilled in the art. It is the intent, therefore, to be limited only by the scope of the impending patent claims and not by the specific details presented by way of description and explanation of the embodiments herein.