Patent Application
20240116715
The present finding refers to an apparatus for transporting products on a respective path, particularly comprising at least one curved length or a corresponding spiral route.
Apparatuses are known, for transporting products on a respective spiral path, preferably for carrying out a corresponding ascending or descending movement length of said products.
Said already-known spiral apparatuses generally comprise, respective means, or frame, for supporting a conveyor belt, for example of the type comprising a plurality of mutually articulated meshes for supporting the product, and which conveyor belt is slidable, with gliding, along respective guide means that are supported by said support means, or frame. However, these already-known conveying apparatuses, due to the fact that they develop an excessive friction between the belt and the supporting structure, require, in order to achieve the forwarding motion of the same belt, the use of an excessive towing power.
Other already-known spiral conveying apparatuses have, between the conveyor belt and the corresponding, guide means corresponding volving friction engaging means, defined by a plurality of small wheels converging on a respective guide cable. Therefore, these apparatuses have a very complex structure, which structure employs an overabundant number of components and which is difficult to manufacture and maintain.
Therefore, it would be desirable in the field to have an apparatus in which the advancement, or sliding, of the conveyor belt takes place in a particularly efficient manner.
It would also be desirable in the field to have available an apparatus, which has a particularly essential configuration.
Furthermore, it would also be desirable in the field to have an apparatus available, which promotes the engagement, or meshing, of said towing means with said conveyor belt, without causing excessive friction to the sliding of the conveyor belt.
By the present finding, it is aimed to propose a new and alternative solution to the solutions known so far, and particularly it is aimed to propose to obviate one or more of the drawbacks or problems referred to above and/or to satisfy one or more needs referred to above, and/or in any case felt in the art, and particularly evident from the above.
Therefore, an apparatus for transporting products on a respective path is provided, particularly comprising at least one curved length or a corresponding spiral route, the apparatus comprising respective support means of a conveyor belt, particularly comprising a plurality of mutually articulated meshes, in which preferably the respective mesh has a respective small transversally extending plate for supporting the product defining a resting surface for said product, and, extending from the perpendicular side opposite the same resting surface of the product, a portion for supporting said small plate for supporting the product and articulating the mesh to the adjacent meshes of the conveyor belt, which supporting and articulating portion of the mesh is slidable on a corresponding elongated block for supporting and guiding said support means of the apparatus; characterized in that said conveyor belt, particularly the respective mesh thereof, comprises volving friction sliding means that are adapted to engage said supporting and guiding elongated block at a corresponding perpendicular face or surface thereof which faces the outer side of the bend.
In this manner, a reduction of the friction along the path, particularly a curved path, particularly a spiral path, of the conveyor belt is obtained, thus considerably reducing the use of towing power, all with a configuration of the transporting apparatus that is particularly essential, i.e. using a relatively low number of components.
This and other innovative aspects are, however, set forth in the attached claims, the technical characteristics of which can be found, together with corresponding advantages achieved, in the following detailed description, illustrating a purely exemplary and non-limiting embodiment of the invention, and which is given with reference to the attached drawings, in which:
In the attached figures, a preferred implementation 10 of apparatus for transporting products on a respective path is illustrated, particularly comprising at least one curved route, i.e., a corresponding spiral route, particularly in which said spiral path is suitable to perform a corresponding ascending or descending movement length of the corresponding products. Particularly, said spiral route comprising one or more coils, or lengths having a respective helicoidal extension, preferably mutually consecutive.
The apparatus 10 comprises respective means 12 for supporting conveyor belt 14, particularly which conveyor belt 14 is composed of a plurality of meshes 140, preferably of rigid plastic material, which are mutually articulated, and in which preferentially the respective mesh 140 includes a respective small transversally extending plate 141 for supporting the product that, particularly, defining a resting surface 141′ for said product, and extending from the perpendicular side opposite the same surface 141′ for resting the product, a support portion 142 of said small plate 141 and articulating the mesh to the adjacent meshes of the conveyor belt 14.
As illustrated, the present implementation of conveying apparatus 10 comprises a conveyor belt having a plurality of coils 140′, vertically mutually aligned, and corresponding connecting length between the upper coil 140′a and the lower coil 140′b, which connecting length comprises at least one perpendicular length 140″ and corresponding substantially horizontal lengths 120″a and 120″b for a connection, or joining, to said upper 120′a and lower 120′b coils of the conveyor belt 14.
As is clear from the figures, said supporting and articulating portion 142 of the mesh is also slidable on a corresponding supporting and guiding elongated block 16 of said conveyor belt 14, i.e., of the corresponding meshes thereof.
Advantageously, it is provided for that said conveyor belt 14, particularly the respective mesh 140 thereof, comprises volving friction sliding means 18 that are adapted to engage said supporting and guiding elongated block 16 at a corresponding perpendicular face 161 thereof, which faces the outer side of the bend, i.e., which faces the side of said supporting and guiding elongated block 16 that is opposite the one facing the center of curvature of the corresponding curved, or spiral, route of the same conveyor belt 14.
In this manner, a reduction of the friction along the curved path, particularly a curved, spiral path, is obtained, thus reducing the towing power requirements, all with a configuration of the transporting apparatus that is particularly essential, i.e. that uses a relatively limited number of components.
As is clear from the figures, particularly, said supporting and guiding elongated block 16 of the conveyor belt, i.e. the corresponding meshes thereof, is arranged below said conveyor belt 14, i.e. the corresponding mesh 140 of the same conveyor belt 14.
Furthermore, as is clear from the figures, particularly, said supporting and guiding elongated block 16 of the conveyor belt, i.e. the corresponding meshes thereof, is arranged centrally to said conveyor belt 14, i.e. to the corresponding mesh 140 of the same conveyor belt 14.
As is clear from the figures, particularly, said supporting and guiding elongated block 16 of the conveyor belt, i.e. the corresponding meshes thereof, extends along a respective path, particularly comprising at least one curved route, i.e., according to a corresponding spiral route.
Furthermore, as is clear from the figures, particularly, said supporting and guiding elongated block 16 of the conveyor belt, i.e. the corresponding meshes thereof, extends in support by said means, or frame, for supporting the conveying apparatus 10.
As is clear from the corresponding figures, advantageously, the small transversally extending plate 141 for supporting the product defining the resting surface 141′ for said product extends laterally on both sides, preferably in a symmetrical manner, of said portion 142 for supporting and articulating the mesh 140.
In an advantageous manner, as is clear from said figures, said volving friction sliding means 18 are in the form of corresponding bearing, or caster, means that are distributed along said conveyor belt 14.
As is clear from the corresponding figures, with advantage, said volving friction sliding means 18 preferably comprise a corresponding bearing 18 that is directly carried by the respective mesh 140 of the conveyor belt 14.
With particular advantage, as is clear from the corresponding figures, said volving friction sliding means, or component, 18 are supported, particularly directly, on the small transversally extending plate 141 for supporting the product of the respective mesh 140 of the conveyor belt 14.
In an advantageous manner, as is clear from the corresponding figures, said volving friction sliding means, or component, 18 are rotatable with respect to an axis 180, perpendicular to said small plate 141 for supporting the product, i.e., with respect to an axis 180 that is parallel to the planar surface 161 of said supporting and guiding elongated block 16 which is engaged by the outer surface 181 of the same volving friction sliding means, or component 18.
As is clear from the figures, advantageously, said volving friction sliding means, or component, 18 have a circumferential and longitudinally planar, i.e. cylindrical, outer surface, 181 which is adapted to engage a corresponding planar side surface 161 of said supporting and guiding elongated block 16.
With advantage, as is clear from said figures, said small plate 141, transversally extending, for supporting the product has a lifted portion 141a and a lowered portion 141b, particularly adapted to be inserted, in use, at least partially below, or which is at least partially perpendicularly aligned to, said lifted portion of an adjacent mesh 140 of the same conveyor belt 14.
Said volving friction sliding means, or component, 18 are supported, in a freely rotatable manner, by said lifted portion 141a of said small plate 141 for supporting the product.
In an advantageous manner, as is clear from the figures, said volving friction sliding means, or component, 18 extend inferiorly to said small transversally extending plate 141 for supporting the product, in a side position with respect to the corresponding supporting and articulating portion 142 of the same mesh 140 of the conveyor belt 14, particularly on the part of said small plate 141 for supporting the product that faces the outer side of the bend.
As is clear from the figures, advantageously, said volving friction sliding means, or component, 18 are supported by a corresponding perpendicular pin 182, particularly secured to said small transversally extending plate 141 for supporting the product.
In an advantageous manner, as is clear from said figures, said perpendicular pin 182 extends from said lifted portion 141a of said small plate 141 for supporting the product and it is secured at a hole 19 obtained perpendicularly in said small plate 141.
As is clear from the figures, with advantage, on said small transversally extending plate 141 for supporting the product, means 20 for retaining the product resting on said resting surface 141′ of the same product are provided.
Advantageously, as is clear from the figures, said means 20 for retaining the product comprise one or more engaging means 20 associated to, or inserted in, one or more corresponding holes 19 provided in said small transversally extending plate 141 for supporting the product, particularly in said lifted portion 141a of the same small plate 141.
In an advantageous manner, as is clear from the figures, said members 20 for engaging the lower surface of the product are distributed along said small transversally extending plate 141 for supporting the product, particularly in said lifted portion 141a of said small plate 141 for supporting the product, according to a general V-shaped configuration.
Preferably, as illustrated, said means for retaining the product comprise a plurality of members 20 for engaging the lower surface of the product, which are secured to said mesh through corresponding perpendicular holes 19 provided in said small transversally extending plate 141 for supporting the product, particularly in said lifted portion 141a of said small plate 141 for supporting the product.
With advantage, said members 20 for engaging the lower surface of the product, are provided in a corresponding elastomeric material.
Particularly, as is clear from said figures, said members 20 for engaging the lower surface of the product, comprise a small head, particularly having a general shape of a spherical sector, 20′ and an insertion, particularly a snap-insertion, shaft 20″, into the corresponding hole 19.
As is clear from the figures, in an advantageous manner, said perpendicular pin 182, for the rotatable support of said volving friction sliding means, or component, 18, extends from said lifted portion 141a of said small transversally extending plate 141 for supporting the product and it is secured at a hole 19, which is usually adapted to house corresponding means, or a respective member, 20 for retaining the product resting on the resting surface of the same product.
In this manner, it is not necessary to obtain in said mesh 140 new and specific securing holes for said volving friction sliding means, or component, 18.
With particular advantage, as is clear in particular from
Advantageously, as is clear in particular from said
In an advantageous manner, as is clear in particular from said
With advantage, as is clear in particular from said
As is clear in particular from said
In an advantageous manner, as is clear in particular from the corresponding figures, said perpendicular pin 182 for supporting said volving friction sliding means, or component, 18 is defined by a corresponding securing rivet of said same volving friction sliding means, or component, 18 to said small transversally extending plate 141, for supporting the product.
In this manner, by virtue of the fact that the rivet creates a substantially integral connection, the loss of pieces by the conveyor is avoided to a maximum degree.
With particular advantage, as is clear in particular from said
With advantage, as is clear from the figures, said volving friction sliding means, or component, 18 engage the side surface 161 on the outer side of the bend of said supporting and guiding elongated block 16, in a corresponding position that is in the proximity of the respective resting end 162 for said small transversally extending plate 141 for supporting the product.
In an advantageous manner, as is clear in particular from said
As is clear from
Advantageously, as is clear from the corresponding figures, said supporting and articulating portion 142 of the mesh comprises a small transversal block 145, from which longitudinally extend, particularly starting from the opposite side or transversal ends of this small block 145, corresponding side wings 142b, 142b supporting said fins 144, 144 for a perpendicular retaining of the respective mesh of said conveyor belt 14.
In an advantageous manner, as is clear from the corresponding figures, for articulating meshes adjacent, or longitudinally adjacent, meshes 140 of said conveyor belt 14, a corresponding pin is used, not particularly illustrated in the attached figures, which is adapted to insert in corresponding transversal holes respectively provided in said small transversal block 145 of the respective supporting and articulating portion 142 of the mesh and in said side wings 142b, 142b of the adjacent mesh, at which, or between which, said small transversal block 145 of the mesh is located.
With advantage, as referred to and as is also clear from said
With particular advantage, as is clear from the corresponding figures, said support means 12 comprise a lower pedestal 121 and a central column member 122 from which a plurality of radial members extends, not illustrated in particular in the attached figures, which are adapted to support said supporting struts 124 of said conveyor belt 14.
In an advantageous and preferred manner, said volving friction sliding means, or component, 18 are provided on each mesh 140 of said conveyor belt 14. Anyhow, it shall be understood that, according to a different embodiment, said volving friction sliding means, or component, 18 could also be provided on meshes 140 of said conveyor belt 14, which are alternated with meshes of the same conveyor belt 14, on which said volving friction sliding means, or component, 18 are not provided.
Particularly, the respective mesh 140 of the conveyor belt 14 is of a moulded plastic material, preferably of a rigid or substantially rigid material.
Particularly, said supporting and guiding elongated block 16 is also of rigid plastic material.
In an advantageous manner, said volving friction sliding means, or component, 18 are preferably of a metal material.
Therefore, advantageously, as referred to herein above, said volving friction sliding means 18 are distributed along said conveyor belt 14, particularly, they are provided on corresponding meshes 140 of the conveyor belt 14, and preferably on each mesh 140 of the conveyor belt 14.
Advantageously, as cited herein above, said volving friction sliding means comprise, on the respective mesh 140 of the conveyor belt 14, a respective, and preferably single, component 18 defining a rotatable outer surface 181 for the engagement and sliding on said supporting and guiding elongated block 16.
In an advantageous manner, as is clear from
As referred to and as is clear from said corresponding figures, particularly advantageously, said mesh supporting and articulating portion 142 comprises a first and a second longitudinal wings 143, 143, perpendicularly extending with respect to said small transversally extending plate 141 for supporting the product, and transversally mutually spaced apart.
As is clear, said longitudinal wings 143, 143 are preferably generally diverging in the normal forwarding direction of said conveyor belt 14, marked by the arrow A in
As is clear, said first and second fins 144, 144 are perpendicularly spaced apart and preferably parallel from said small plate 141 for supporting the product and are respectively peripherally defined by corresponding transversal, particularly respectively front and rear, edges 144a, 144b, and by a corresponding longitudinal outermost edge 144c, which extends between said transversal edges 144a, 144b, at least one of which transversal edges 144a, 144b is preferentially oblique, i.e., as illustrated, they are both oblique, with respect to the direction longitudinal to said conveyor belt 14, and particularly being oriented mutually converging outwardly of said mesh 140 of the conveyor belt 14.
As reported, as is clear from said figures, said longitudinal wings 143, 143, perpendicularly extending with respect to said small plate 141 for supporting the product of said mesh supporting and articulating portion 142, are mutually connected, preferably at a respective longitudinal, preferably rear end according to the usual forwarding direction of said conveyor belt 14, through a small transversal block 145, particularly having a generally cylindrical outer profile, and having a transversal through hole 145′ aligned, in use, with corresponding transversal through holes 143′, 143′, of the respective adjacent longitudinal mesh 140, and which are obtained in said longitudinal wings 143, 143, perpendicularly extending with respect to said small transversally extending plate 141 for supporting the product, particularly at the respective end that is opposite the one where said small transversal block 145 is located, said holes being adapted to receive the insertion of a corresponding transversal pin articulating the same mesh 140 of the conveyor belt 14 with the respective adjacent longitudinal mesh 140 of the same conveyor belt 14.
In an advantageous manner, as is clear from said
Furthermore, with advantage, as is clear from said
Furthermore, particularly advantageously, as is clear from said
As is clear from said
Advantageously, as is clear from said figures, said elongated supporting and guiding block comprises one, particularly a second, transversal segment 16ye, preferably horizontal and/or parallel to said bottom wall 16ya, particularly which extends from the corresponding, particularly second, side wall 16yc of said elongated supporting and guiding block 16, especially transversally opposite said first transversal segment 16yd, and which defines said, or part of said, resting surface 162 for said small plate for supporting the product 141, and, on the perpendicular opposite side, a corresponding retaining surface 163 for a corresponding transversal fin 144 externally projecting from said mesh supporting and articulating portion 142 of said conveyor belt 14, as well as a corresponding perpendicular end surface 166, for the side centering of said conveyor belt 14 and particularly defining, together with the opposite perpendicular end surface of said first transversal segment 16yd, said inlet mouth 164 into the inner cavity of said supporting and guiding elongated block 16 of the conveyor belt 14.
With particular advantage, as is clear particularly from
In an advantageous manner, as is clear from said
Particularly advantageously, as is clear from said
As is clear from said
In an advantageous manner, as is clear from said
With advantage, as is clear from said
Particularly advantageously, as is clear from said
In an advantageous manner, as is clear in particular from said
As is clear from said
Advantageously, as is clear from said
In an advantageous manner, as is clear from said
Particularly, said towing means of said conveyor belt 14 comprise a plurality of wheels, 221, which are distributed along the spiral path of said conveyor belt 14, particularly at respective vertically aligned positions and/or especially acting on corresponding coils of said conveyor belt 14, and preferably at each coil 120′ of the same conveyor belt 14.
Particularly advantageously, as is clear from said
Advantageously, as is clear from said
As is clear from said
With particular advantage, as is clear from said
In this manner, the engagement, or meshing, of said towing means with said conveyor belt 14 is promoted.
Particularly advantageously, as is clear from said
In an advantageous manner, as is clear from said
With advantage, as is clear from said
As is clear from said
In an advantageous manner, as is clear from said
In this manner, an advancement, or sliding, of the conveyor belt that is particularly effective can be obtained.
Particularly advantageously, as is clear from said
With particular advantage, as is clear from said
In an advantageous manner, as is clear from said
As is clear from the figures, advantageously, said rotatable, or volving friction means, comprise a corresponding rotatable component 18 having an outer surface 181 for the engagement and sliding on said means, or guide, 222 acting on said conveyor belt 14 in opposition to said towing means 221 of the conveyor belt 14, which is supported by a corresponding mesh 140 of the conveyor belt 14, preferably, as illustrated, a respective rotatable component 18 being supported by each mesh of the same conveyor belt 14.
Particularly advantageously, as is clear from said figures, said rotatable means, or component, 18 for sliding with a volving friction on said means, or guide, 222, acting on said conveyor belt 14 in opposition to said towing means 221 of the conveyor belt 14, are defined by the same rotatable volving friction sliding means, or component, 18 which are adapted to slide on said supporting and guiding elongated, particularly central block, 16 of said conveyor belt 14.
In this manner, apparatus is obtained, which has a particularly essential configuration and with a particularly reduced number of components.
In an advantageous manner, as is clear from said
In practice, said volving friction sliding means 18 engage in an alternated manner said supporting and guiding elongated block 16 of the conveyor belt 14 and said sliding engaging means 222 acting on said conveyor belt 14 in opposition to said towing means 221 of said conveyor belt 14, i.e. the respective and opposite engaging surfaces 161 and 223 thereof.
With particular advantage, as is clear from said
In this manner, by taking advantage of the yoke that is present between the supporting and articulating portion 142 for supporting and articulating the mesh of the same conveyor belt 14 and opposite perpendicular surfaces 166, 166 for an engagement against the opposite side faces, said mesh supporting and articulating portion 142, the radial thrust of said towing means 221 of the conveyor belt 14 is adapted to force said volving friction sliding means 18 against the surface 223 of the outer guide 222 and to avoid the friction with the opposite surface 161 of said supporting and guiding elongated block 16 of the conveyor belt 14.
While it is not particularly illustrated in the attached figures, in an advantageous manner, actuating means for said towing means 221 of the conveyor belt 14 can be provided, which particularly comprise a respective motor and a corresponding, particularly vertically extending, drive shaft, which receives the motion from said motor, and which is connected to corresponding towing means, or wheel, 221 of the conveyor belt 14, through a corresponding toothed ratchet, which, in turn, moves a corresponding chain, particularly lying in a horizontal, or substantially horizontal plane, and which transmits the movement to said towing means 221 of the conveyor belt 14.
Particularly advantageously, it can be expected that said means for actuating said towing means 221 of the conveyor belt 14, i.e., the respective drive shaft 242, extend internally to said spiral-shaped conveyor belt 14, i.e., inside the respective inner edge of the same conveyor belt 14.
Particularly, as is clear from said
In practice, as is clear, the above-illustrated technical characteristics allow, individually or in a respective combination, to achieve one or more of the following advantageous results:
The present finding is susceptible of evident industrial application. The person skilled in the art can also devise a number of modifications and/or variations to be made to the same finding, while still remaining within the scope of the inventive concept, as widely explained. Furthermore, the person skilled in the art will be able to devise further preferred implementations of the finding, which comprise one or more of the characteristics illustrated herein above of the preferred implementation. Furthermore, it must also be understood that all the details of the finding can be replaced by technically equivalent elements.
| Number | Date | Country | Kind |
|---|---|---|---|
| 102019000019040 | Oct 2019 | IT | national |
| Filing Document | Filing Date | Country | Kind |
|---|---|---|---|
| PCT/IB2020/059687 | 10/15/2020 | WO |
