A CONVEYING APPARATUS FOR CHANGING THE FORWARD MOTION DIRECTION OF SHEET ARTICLES

BACKGROUND OF THE INVENTION The present invention relates to conveying apparatuses, which forward sheets at high operation speed, and which are adapted particularly for changing the forward motion direction of the sheets, and are designed for special industrial applications.

DESCRIPTION OF THE PRIOR ART

Currently, there are many apparatuses, more or less complicated structurally, for conveying sheets, each of which cooperates with work groups for carrying out prefixed functions, such as cutting lateral edges of each sheet, by the use of rotating blade, and/or cutting the sheets along a median line.

SUMMARY OF THE INVENTION The main object of the present invention is to propose a conveying apparatus aimed at changing the sheet forward motion direction by an angle of 90 degrees, keeping unchanged the sheet orientation, between an inlet section and an outlet section. The above object is obtained by devising an apparatus, which is capable of working at high operation speeds, typical for the applications, in which it is to be incorporated.

Another object of the present invention is to propose a conveying apparatus for changing the sheet forward motion direction, with a simple concept, an essential structure, and which is efficient, reliable and whose costs are

relatively low with respect to the results to be obtained.

The above mentioned objects are obtained, in accordance with the contents of the claims, by a conveying apparatus for changing the forward motion direction of sheet articles, characterized in that it includes: at least a first conveyor with at least a first conveyor lower active run extending between a first conveyor inlet section and a first conveyor outlet section, the first conveyor being operated along a first longitudinal direction line and in a first forward direction for moving forward said sheet articles; at least a second conveyor disposed functionally in cascade after the first conveyor, and having at least a second conveyor lower active run extending between a second conveyor inlet section and a second conveyor outlet section the second conveyor being operated in a second forward direction, substantially concordant with the first forward direction and along a second longitudinal direction line inclined by a first angle with respect to said first longitudinal direction line; a first rotating diverting member, situated above said second conveyor lower active run of said second conveyor and near said second conveyor inlet section, the first diverting member having rotation axis substantially perpendicular to said second longitudinal direction line, and operated in time relation with passage of a sheet article on said first conveyor, said first rotating diverting member having an active portion designed to contact corresponding portions of each sheet article arriving at said first conveyor outlet section and to push the sheet article onto said second conveyor, without changing orientation of said sheet article .

BRIEF DESCRIPTION OF THE DRAWINGS

The characteristic features of the invention, which do not appear from what has been just said, will be pointed out in the following, in accordance with the claims and with reference to the enclosed figures, in which:

- Figure 1 is a qualitative and schematic, top view, of the path followed by the sheets inside the proposed apparatus;

- Figure 2 is an enlarged view of the particular Kl indicated in Figure 1;

- Figure 3 is an enlarged view of the particular K2 indicated in Figure 1;

- Figures 4A, 4B are enlarged views according the direction X of Figure 2, in as many work configurations.

MODES OF CARRYING OUT THE INVENTION

Having regard to the enclosed Figures, the reference numeral 1 indicates a first pair of conveyor belts IA, IB (later called first upper conveyor belt IA and first lower conveyor belt IB, arranged with respect to each other in such a way as to define two active runs, lower Ih and upper Ij, facing each other along a given section, and operated at the same speed in a first longitudinal direction line Dl and in a forward direction Vl . The two active runs Ih, Ij are aimed at receiving the sheets 10 at an inlet section and at conveying them, one by one, toward an outlet section IU.

In particular, the lower active run Ih extends further beyond the upper active run Ij at its outlet section IU, by a given quantity Wl (see Figures 2, 4A, 4B) .

The reference numeral 2 indicates a second pair of conveyor

belts 2A, 2B (later called second conveyor belt 2A and second lower conveyor belt 2B) , functionally disposed in cascade after the first pair of conveyors 1.

The conveyor belts 2A, 2B are arranged with respect to each other in such a way as to define two active runs, a lower run 2h and an upper run 2j, facing each other along a given section, and operated at the same speed in a second longitudinal direction line D2 and in a forward direction V2. The two active runs 2h, 2j are aimed at receiving the sheets 10 at their inlet section 21 and at conveying them, one by one, toward the outlet section 2U.

In particular, the lower active run 2h extends beyond the upper active run 2 j by a given quantity W2, W3 at its inlet section 21 as well as at its outlet section 2U (Figure 3) .

The reference numeral 3 indicates a third pair of conveyor belts 3A, 3B (later called third conveyor belt 3A and third lower conveyor belt 3B) , functionally disposed in cascade after the second pair of conveyors 2. The conveyor belts 3A, 3B are arranged with respect to each other in such a way as to define two active runs, a lower run 3h and an upper run 3j, facing each other along a given section, and operated at the same speed in a third longitudinal direction line D3 and in the forward direction V3.

The two active runs 3h, 3j are aimed at receiving the sheets 10 at their inlet section 31 and at conveying them, one by one, toward the outlet section.

In particular (see Figure 3), the lower active run 3h extends beyond the upper active run 3j by a given quantity W4 at the inlet section 31.

In the shown example, the second forward direction V2,

deviates with respect to the first forward direction Vl, e.g. to the right, 45 degrees, and the third forward direction V3 deviates with respect to the first forward direction Vl again to the right. This way, a complete 90 degrees deviation of the conveyors forward direction motion is obtained.

A first rotating diverting member 4 is situated above the lower active run 2h of the second lower conveyor belt 2B and particularly near its inlet section 21, with the related rotation axis 4A perpendicular to the second longitudinal direction line D2.

The first rotating diverting member 4 includes a cam-like element with an active portion 4h, made for example of a pliable elastic material (such as rubber or similar material) , has a circumference arc profile and is aimed at going in touch with the sheets 10 conveyed to the outlet of the related section IU of the first conveyor 1.

In a completely analogous way, a second rotating diverting member 5, for example identical to the first member 4, thus likewise including a cam-like element, is situated above the lower active run 3h of the third lower conveyor belt 3B and in particular near its inlet section 31, with its rotation axis 5A perpendicular to the third longitudinal direction line D3. The second diverting member 5 has an active portion 5h of a pliable elastic material (such as rubber or similar material), which has a circumference arc profile and is aimed at going in touch with the sheets 10 conveyed to the outlet of the related section 2U of the second pair of conveyor belts 2.

Relative horizontal supports 6 are interposed between the adjacent conveyors 1, 2, 3, to allow the passage of each sheet article 10 from one pair of conveyor belts to another

one .

One of the supports 6 is shown schematically only in Figures 4A, 4B.

The operation of the conveying apparatus for changing the sheets forward motion direction, proposed by the present invention, will be described hereinafter.

The sheets 10 are fed in known and thus not shown way, one after another, to the inlet section of the first conveyor 1 and there they are conveyed along a prefixed longitudinal direction line Dl and in the forward direction Vl, toward the related first conveyor outlet section IU, where they disengage from the upper active run Ij of the first upper conveyor belt IA and gradually go to rest also on the support 6 and then on the lower active run 2h of the second lower conveyor belt 2B.

This work step has been schematized in Figure 2, which shows a sheet article 10 leaving, through the outlet IU, the first conveyor 1, IB, disengaging from the upper active run Ij of the first upper conveyor belt IA and contemporarily resting on the support 6 and on the lower active runs Ih, 2h of the first lower conveyor belt IB and the second lower conveyor belt 2B.

Figure 4B shows what has been shown in Figure 2 according a view in the direction X and is marked by a vertical line Z passing through the right and rearmost corner of the article 10 being concerned, as it is shown in Figure 2, in order to show its forward motion on the lower active run Ih of the first lower conveyor belt IB.

Figure 4A is analogous to the Figure 4B, but it refers to a work configuration related to a previous instant, in which the sheet 10 is still engaged between the lower active run

Ih and the upper active run Ij of the first pair 1 of

conveyor belts IA, IB (this is confirmed by the rearmost position of the line Z with respect to the first forward direction Vl) .

The first rotating diverting member 4 is operated in step relation to the motion of the articles 10 through the outlet IU, leaving the first conveyor 1, and is aimed at touching corresponding portions of the sheet articles 10 just disengaging from the upper active run Ij of the first upper conveyor belt IA and at pushing the sheet articles 10, together with the forward motion of the lower active run 2h of the second lower conveyor belt 2B, until they are gripped by the lower active run 2h and the upper active run 2j of the second conveyor 2.

The active portion 4h of the first diverting member 4 (Figures 4A, 4B) is operated with a tangential speed equal to the operation speed of the lower active run 2h of the second lower conveyor belt 2B, so as to avoid any sliding.

The circumference arc shape of the active portion 4h allows its rolling on each article 10 leaving the first pair of conveyors 1 through the outlet IU.

Therefore, the sheet 10 leaving the first pair 1 of conveyor belts IA, IB through the outlet IU (Figure 2) is pushed by the first rotating diverting member 4, together with the operation of the lower active run 2h of the second lower conveyor belt 2B, in the second forward direction V2 and along the second longitudinal direction line D2, without any change of the orientation.

Consequently, the forward motion direction of each sheet 10 changes with a deviation e.g. to the right during the passage from the first conveyor 1 to the second conveyor 2, by a first angle Hl, that is by forty-five degrees.

Analogous considerations are valid also for the movement of

the sheet articles 10 from the second conveyor 2 including the two conveyor belts 2A, 2B to the third conveyor 3 formed by two conveyor belts 3A, 3B, which causes a further clockwise change in the forward motion direction of the articles by a second angle H2, in the example equal to 45 degrees, which however does not change the articles orientation .

It appears from the above considerations that the conveying apparatus, proposed by the invention, can cause a 90 degrees change of the initial forward motion direction of the sheets 10 conveyed to its inlet, without changing the sheets orientation .

In particular, in the shown example, the forward motion direction of the sheets 10 is changed to the right, being obviously possible to change the direction to the left by providing conveyors so disposed.

A similar apparatus can be perfectly and advantageously integrated with a large quantity of industrial working cycles and Figure 1 shows its use example, in which a generic sheet article 10 is first cut along its lateral, opposite edges, parallel to the first longitudinal direction line Dl, thus its forward motion direction is changed clockwise by 90 degrees and finally it is cut along the median line, parallel to the third longitudinal direction line D3.

Thus, these cutting operations can be carried out at high work speeds and for example, with stationary axis rotating blades, which results in the increase of the production rate and the reduction of the costs and the structural complexity of the plant, to which the conveying apparatus is applied.

Another advantage of the invention lies in the fact that it has defined a conveying apparatus, whose concept is simple, structure essential, and which is efficient, reliable and

whose costs are relatively contained with respect to the obtained results.

Therefore, the conveying apparatus proposed by the invention satisfies the objects mentioned in the introductory note, because it can cause, between its inlet section and its outlet section, a ninety degree change of the forward motion direction of the sheet articles fed thereby, maintaining unchanged the articles orientation.

Moreover, the apparatus can work at high work speeds, typically for the applications, in which it is to be integrated.

It is understood that the proposed invention has been described as a mere, not limiting example. Therefore, any practical-use changes or variants applied thereto remain within the protective scope of the invention as described above and claimed below.