The present invention relates to an installation for sorting mailpieces that includes a sorting conveyor with sorting outlets and storage trays in which the sorted mailpieces in the sorting outlets are stowed, the storage trays being received in respective ones of the sorting outlets in such a manner as to be removable so as to be handled to be removed from the sorting outlets.
In this type of installation, as in the installation described in Document EP-A-1 393 823, the sorting outlets are sorting outlets having stackers that need to be emptied during the sorting process.
In addition, in this type of installation, the sorting takes place in a plurality of sorting passes, which requires the sorted mailpieces to be brought from the sorting outlets to the inlet of the sorting conveyor a plurality of times in the sorting process.
Storage trays are used for handling the sorted mailpieces. An operative is generally assigned to the task of emptying the stackers of the sorting outlets in handfuls into the storage trays associated with said sorting outlets.
The trays are handled quasi-manually by the operative, which can limit the performance of the installation.
An object of the invention is to remedy that drawback.
To this end, the invention provides an installation for sorting mailpieces that includes a sorting conveyor with sorting outlets and storage trays in which the sorted mailpieces in the sorting outlets are stowed, the storage trays being received in respective ones of the sorting outlets in such a manner as to be removable so as to be handled to be removed from the sorting outlets, said installation being characterized in that it further includes a tray conveyor disposed along the sorting conveyor under the sorting outlets, and a shuttle robot suitable for being controlled by a monitoring and control unit for automatically taking hold of a tray in a sorting outlet and for placing it below on the tray conveyor, the shuttle robot being designed with motor-driven wheels for traveling under the control of the monitoring and control unit over a path extending along the sorting outlets of the sorting conveyor in such a manner as to remove the trays automatically from the sorting outlets to the tray conveyor, the shuttle robot also being provided with a safety system arranged to detect the presence of an obstacle being approached in the direction in which the robot is traveling while at a certain safety distance away, and arranged to respond to such detection by reducing the speed of movement of the shuttle robot.
These characteristics contribute to enabling the shuttle robot that automatically handles the trays of the sorting outlets to share the workspace with the operative who is working along the sorting conveyor for emptying the mailpieces from the stackers of the sorting outlets into the storage trays.
This installation may have the following features:
The present invention can be better understood and other advantages appear on reading the following detailed description of an embodiment given by way of non-limiting example and with reference to the accompanying drawings, in which:
In an installation of the invention, the sorting conveyor 2 may comprise several hundreds of sorting outlets as is well known.
The mailpieces may be letters that are stowed on edge in the trays 3 (small-format tray), large-format mail or “flats” stored flat in the trays 3 (large-format tray), or indeed mixed mail stowed on edge in the trays 3.
In
The trays 3 are designed to be detachable from the sorting outlets so as to be handled for being placed in the sorting outlets empty and for being removed from the sorting outlets full or indeed once the sorting process is finished.
In particular, in the installation of the invention, the trays filled with mailpieces may be recycled a plurality of times to the inlet of the installation for the purpose of sorting the mailpieces in a plurality of passes.
In accordance with the invention, the installation includes a tray conveyor 4 that is disposed along the sorting conveyor under the sorting outlets and that is designed to transport the full trays to be removed.
The installation also includes a shuttle robot 5 that is suitable for being controlled by a monitoring and control unit 6 for automatically taking hold of a tray in a sorting outlet and for placing it below on the tray conveyor.
The shuttle robot 5 has an elevator 7 that is suitable for raising or lowering (as indicated by double-headed arrow MD in
The shuttle robot 5 is designed with motor-driven wheels M so as to be suitable for traveling under the control of the monitoring and control unit 6 over a path extending along the sorting outlets 2 of the sorting conveyor.
In particular, the shuttle robot 5 is controlled by the unit 6 to move from sorting outlet to sorting outlet in such a manner as to remove the trays automatically from the sorting outlets to the tray conveyor, the trays being, in this example, filled with letters A stored on edge.
In the installation of the invention, the sorting outlets 2 are sorting outlets having stackers that must be emptied during the sorting process.
An operative OP shown in
As can be understood, the operative moves from sorting outlet to sorting outlet along the path of the shuttle robot.
In accordance with the invention, a safety system based on laser or “LIDAR” scanners 9 provided on two sides of the shuttle robot as shown in
The safety distance is indicated by reference DS in
More particularly, the safety system is arranged in such a manner that if the obstacle and the shuttle robot come closer together than said safety distance DS, the shuttle robot is caused to “go into a flight mode” in which it moves automatically away from the obstacle while remaining at said safety distance.
With this safety system, the operative OP and the shuttle robot 5 can share the same workspace without any risk of collision.
In accordance with the invention, as shown in
The monitoring and control unit 6 can cause the shuttle robot 5 to operate in the following manner.
A sorting outlet 2 is detected by the unit 6 as having a storage tray to be removed, e.g. because it is full of mailpieces.
The unit 6 causes the shuttle robot 5 to move to the location of said sorting outlet 2 as shown in
The operative OP is positioned at another sorting outlet that is situated between the shuttle robot and the tray 3 to be removed.
On approaching the operative OP, the system 9 detects the presence of an obstacle and, in response, stops the shuttle robot at the safety distance DS.
If the operative OP moves towards the shuttle robot, said robot is caused to go into a flight mode by said safety system.
If the operative moves away from the shuttle robot, the safety system causes the shuttle robot to resume moving towards the tray to be removed.
The shuttle robot is now positioned facing the sorting outlet of the tray 3 to be removed, and the unit 6 causes the fork 8 to lengthen and thus to come into engagement with the tray 3, and then causes the fork 8 to retract, and finally the fork 8 to be lowered towards the motor-driven ramp 10 of the shuttle robot 5.
On coming into contact with the motor-driven ramp 10, the storage tray filled with mailpieces is then transferred automatically to the tray conveyor 4 as shown in
Number | Date | Country | Kind |
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1757464 | Aug 2017 | FR | national |
Filing Document | Filing Date | Country | Kind |
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PCT/FR2018/051427 | 6/15/2018 | WO | 00 |