The invention relates to a conveying system of the type which comprises at least one curved corridor of adjustable width.
A conveying system is known from document FR 2 806 395 which comprises at least one curved corridor in which a queue of products is conveyed. This corridor is delimited by a first lateral wall which is an integral part of the frame of the system and has a first fixed radius of curvature, and a second lateral wall which is radially mobile and is guided on said frame.
Document FR 2 806 395 mentions that the second mobile wall consists of a continuous guide which extends from the entrance to the exit of said curved corridor, facing said first fixed wall. This guide has a second radius of curvature which varies in size based on the diameter of said products, to allow moving said second lateral wall closer to or further away from said first lateral wall.
Such a system is in particular designed to guide bottles supported by the neck.
The invention aims to provide an alternative solution to the one described in document FR 2 806 395, better suited to conveying bottles which sit upright on a continuous conveyor belt, between two lateral walls.
Such systems are known. In particular, documents U.S. Pat. No. 5,211,280, DE 43 30 702, DE 20 2005 00168, and DE 87 14 605 describe systems comprising at least one corridor in which products are supported by their bottoms as they are conveyed. The corridor is delimited by two walls, at least one of them having a variable radius of curvature to allow increasing or decreasing the width of the corridor.
These documents all specify distributed guide supports, each connected to a means for moving them further apart from each other (enlarging the radius of curvature) or moving them closer together (shrinking the radius of curvature).
Such an embodiment requires changing the guide or removing the guide to change the radius of curvature. In other words, when the radius of curvature is to be changed, it is necessary to remove the guide, adjust the distributed supports to a desired position, and install longer or shorter guides depending on whether the radius of curvature is to be increased or decreased. To increase the width of a corridor, it is necessary to stop the system in order to replace the guide.
The guides can be made of elastic materials. However, when the supports are moved to increase or decrease the radius of curvature, the guides are stretched or bent. This can weaken the guides, or can cause problems in guiding the products which touch the guides.
The solution of the invention not only does not require stopping the system to change the width of the corridor, but it also overcomes the above disadvantages. The invention also proposes a more robust technical solution for conveyed products which exert greater pressure on the outside wall of the curve formed by the curved corridor due to centrifugal force.
The invention relates to a conveyor system, also referred to herein as conveyor equipment, comprising at least one curved corridor in which a queue of products is conveyed by a continuous conveyor belt, said corridor being delimited by:
The system of the invention comprises one or more corridors which are composite, meaning they consist, as described in document FR 2 918 983, of a rigid structural element and a flexible guide which encases said structural element. The curved wall with a variable radius of curvature has a dual thickness: one of the thicknesses is created by the thickness of the guide and the other thickness is created by the sections in abutment which extend along the entire length of the guide. This wall with variable radius of curvature is therefore more resistant than those of the systems described in the prior art (non-deformable for all practical purposes).
The sections slide in the guide between a position in which they are in abutment, and a position in which they are apart from each other but they each form an arc of a circle, each supporting a portion of the guide for a certain length. Thus it is unnecessary to provide supplemental supports for the guide when the radius of curvature is increased considerably, because the guide is not supported at specific points as in the prior art, but in multiple portions of the adjacent curves formed by the sections.
Aside from the section which is integrally attached to the guide, the sections slide within said guide when actuated by the movement means, to increase or decrease the radius of the second wall.
The distance between the two walls can thus be varied by actuating the movement means.
The invention may also comprise the following characteristics, singly or in combination:
The invention will be better understood by reading the description of several embodiments which will now be presented with reference to the attached drawings, in which:
and
In the system of the invention, the bottles are conveyed in a queue in the corridors 1. Each corridor 1 has two lateral walls 2 and 3 facing one another.
In the invention, the wall 2 is fixed and the wall 3 is mobile. The fixed wall 2 has a fixed radius of curvature and the mobile wall 3 has a variable radius of curvature.
The spacing between the walls 2 and 3 of the corridors 1 can thus be adjusted to the different diameters of the bottles B to be conveyed (see
The fixed wall 2 is an integral part of a frame 4 of the system, illustrated in more detail in
Each wall 2 has a metal core 5 inserted into and attached to a guide 6 (
In addition, the core 5 of each wall 2 is fixed to the frame 4 by means of brackets 7.
As is shown in
The brackets 7 can be of shapes which substantially vary depending on the location where they are attached to the frame 4.
Some of these brackets 7 are attached to a curved exterior wall 9 of the frame 4, which delimits the exterior of that portion of the system.
Other brackets 7, substantially different in shape from those attached to the curved wall 9, are attached at regular intervals to cross-pieces 8 of the frame.
The cross-pieces 8 form radii of the frame 4 and are also distributed at regular intervals along the curved portion of the system (see
In the context of the embodiment now being described, it is the inner wall 3 which is made to be mobile.
However, it should be understood that the invention is not limited to this embodiment and the mobile wall could be the outer wall of the corridors while remaining within the scope of the invention.
In this embodiment, the inner wall was chosen to be the mobile wall 3 because the bottles B which are conveyed in the corridors 1 are supported by the outer wall of the corridors 1 due to the centrifugal force generated by their movement along this curved portion of the system.
The mobile wall 3 is thus the internal wall of the corridors 1; its radius of curvature is less than that of the fixed wall 2 with which it is associated to form a corridor.
The mobile wall 3 has a structure 10 consisting of several metal sections 11 (
Depending on the length of the corridor between its entrance E and its exit S, the structure 10 may have three to five sections 11 for example, as can be seen in
As represented in
As will be understood from
When the mobile wall 3 is in a position where it is as far as possible from the fixed wall 2 in order to guide bottles Bg of large diameter, the arc of a circle which it defines has a minimum radius Rmin.
When the mobile wall 3 is in a position where it is as close as possible to the fixed wall 2 to guide bottles Bp of small diameter, the arc of a circle which it defines has a maximum radius Rmax.
The metal sections 11 are rigid and are assembled to slide within the guide 12.
As can be seen in
The sections 11 are sufficiently rigid to force said guides 12 into the shape which defines the arc of the required radius, according to the position of the mobile wall 3 relative to the fixed wall 2.
When the radius of curvature changes, the guide 12 acts as a bridge and hinge between the ends of two adjacent sections 11.
As is seen in the embodiment illustrated in
On the part 16 of the conveyor having the largest radius of curvature (
In this case, the guide 12 can consist of several elements, as is shown in
The guide 12 can thus comprise several elements in abutment, denoted 12a, 12b, 12c in
In
It is understood that the structure 10 could comprise a different number of sections 11 and that the sections 11 could be made of a material other than metal, while remaining within the scope of the invention.
The central section 11 of the structure 10, meaning the section 11 which is substantially at mid-distance between the entrance E and the exit S of the corridor 1, serves to anchor the guide 12.
The ends 13 of the guides 12 (
The guide 12 is made of a relatively resistant thermoplastic material to withstand the friction from the conveyed bottles, but still has a certain flexibility to allow it to adopt different radii of curvature when the means for moving the sections 11 are actuated. The guide 12 assumes the curvature imposed by the sections 11.
Each section 11 is integrally attached to movement means which will now be presented with reference to
The movement means, which move the sections 11, comprise sliding rails 17, each rail being in the form of a U-section bar that serves as a support 17 for the sections 11 and being arranged radially in the system. For clarity in the following description, the supports 17 will be referred to as “radial supports” to distinguish them from the other supports referred to as brackets.
The U-section radial supports 17 are assembled to allow translational movement relative to the cross-pieces 8 of the frame.
To achieve this, the U-section radial supports 17 each comprise at least one longitudinal through hole 18 in the form of a slot of a given length, this given length defining the maximum travel of the U-section radial support 17 relative to the cross-piece 8.
A roller 19, attached to the cross-piece 8, moves freely on an axle which acts as a guide for the radial support 17 as it moves between the two ends of the slot 18.
The radial supports 17 are U-section supports. It is the bottom of this U which has said slots 18, and this bottom lies against a surface of the cross-piece 8.
The sections 11 of the structure 10 are attached to an arm 20 of the U-section radial support 17 by means of attaching brackets 21 (see
The translational motion of the U-section radial support 17 is controlled by an actuating mechanism 22 which will now be described with reference to
The actuating mechanism 22 has a first mechanism for moving the radial support 17, comprising a floating nut 23 fixed to the U-section radial support 17, and an endless screw 24. This is schematically illustrated in
The endless screw 24 is arranged radially and can be guided in a guide sleeve or bearing 33 integrally attached to the frame 4 (
The endless screw 24 is connected to a rotational driving means 25.
The driving means 25 comprises a toothed wheel 26 which is integrally attached to the endless screw 24. The toothed wheel 26 is associated with a flexible threaded shaft 30 (represented schematically in
Preferably, to avoid damage to the flexible shaft 30, it is within a sheath 27.
Similarly, to avoid damage to the toothed wheel 26, it is enclosed in a housing 28.
The housing 28 is fixed to the curved exterior wall 9 of the system and is designed to easily open and close for easier maintenance of the parts it encloses.
The curved exterior wall 9 has through holes 29 to accommodate the passage of the endless screw 24 integrally attached to the toothed wheel 26.
The rotation of the threaded shaft 30 is controlled at the end of the flexible shaft by an electric motor (represented in
To advance the queues of bottles in the corridors 1, the system has a bed 31 (
There are curved grooves 32 in the bed 31 (
The conveyor belt is a continuous belt and has not been represented in the figures for simplicity and clarity.
It is understood that the above describes how the invention can achieve its aims, particularly the aim of providing means for adjusting the width of the corridors to the size of the bottle (see
However, it should be understood that the invention is not limited to the specific embodiment described above, and that it extends to any equivalent embodiment.
Number | Date | Country | Kind |
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09 53871 | Jun 2009 | FR | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/FR10/51159 | 6/10/2010 | WO | 00 | 12/9/2011 |