The present invention relates to the field of mail handling and it relates more particularly to a storage tray for storing mailpieces for a mail-handling machine.
A mail-handling machine conventionally comprises three main elements: a feed module for feeding in mailpieces, a franking module or “postage meter” for franking said mailpieces, which franking module is disposed at the outlet of the feeder (and optionally includes a weigh device), and, disposed at the outlet of the franking module, a mailpiece-receiving module or stacker for the franked mailpieces. Currently, such a mail-handling machine can frank mailpieces of any type and of any format, and both the feed module and also the mailpiece-receiving module must be capable of loading and of receiving all of said mailpieces. In addition, for high processing rates, e.g. about 15,000 envelopes per hour (i.e. about 4 envelopes per second), in order to avoid frequent stopping of the machine, and in order to increase its storage capacity, the feed and mailpiece-receiving modules can be equipped with a plurality of moving support shelves making it possible to store the mailpieces by accumulation in a vertical position.
Unfortunately, such devices suffer from the drawback of being relatively voluminous, and above all of being specific to their function, i.e. dedicated either to loading or to receiving mailpieces.
An object of the invention is to mitigate those drawbacks by proposing a compact and ergonomic storage tray that can be used equally well for loading a mail-handling machine or for receiving franked mailpieces. Another object of the invention is to propose a tray that is simple and very quick to fasten to its base, i.e. to mount and to remove.
These objects are achieved by a storage tray for storing mailpieces, which storage tray comprises a support wall, a first jogging wall adjacent and perpendicular to said support wall, and a second jogging wall adjacent and perpendicular both to said support wall and to said first jogging wall, these three walls meeting at a single junction point, said support wall being provided with at least one first slot adapted to allow external motor-driven members to pass through, and said jogging walls being provided with respective ones of two orifices formed symmetrically on either side of a single junction line along which said first and second jogging walls are united with each other, each of which orifices is adapted to receive, to the exclusion of the other orifice, a drive pin from an external motor-driven base.
Thus, with this configuration, the tray becomes reversible and can be used equally well for feeding in or for receiving mailpieces.
Advantageously, said support wall is further provided with at least one second slot that is adapted to allow other external motor-driven members to pass through, said at least one first and at least one second slots being symmetrical about a diagonal passing through said single junction point.
Preferably, said orifices have the same non-circular shape so as to avoid any movement in rotation of the storage tray about said drive pin.
Advantageously, each of said jogging walls has a trapezoid shape, said sides that form the junctions with said support wall forming the large bases of the trapezoids whose small bases formed by opposite parallel sides co-operate with the last sides that extend them slantwise to form one of the outer edges of the storage tray.
Preferably, said outer edges are formed without any sharp edges and are preferably rounded to avoid any risk of injury when taking hold of the mailpieces.
Advantageously, said support wall is united via a first one of its sides with said first jogging wall via a first side of said first jogging wall, and is united via a second one of its sides, disposed at 90° to its first side, with said second jogging wall via a first side of said second jogging wall, said two jogging walls being united with each other via second ones of their respective sides, perpendicular to said side that unites with said support wall, so as to enable said mailpieces to be jogged into abutment so as to be engaged fully into said storage tray.
Advantageously, said support wall is provided with a notch at its free corner that is opposite from said single junction point so as to impart substantially an L-shape to said support wall, or said support wall has a rectangular or square shape.
Preferably, said storage tray is made by one-piece molding of a plastics material or of metal.
The invention also provides a feed module of a mail-handling machine, which module comprises a motor-driven base provided with a plurality of drive pins and, fastened to said plurality of drive pins, a plurality of storage trays as mentioned above for loading mailpieces, and said invention also provides a mailpiece-receiving module of a mail-handling machine, which module comprises a motor-driven base provided with a plurality of drive pins and, fastened to said plurality of drive pins, a plurality of storage trays as mentioned above for unloading mailpieces.
The characteristics and advantages of the present invention appear more clearly from the following description given by way of non-limiting indication and with reference to the accompanying drawings, in which:
A conventional configuration of a mail-handling system is shown in
In accordance with the invention, the mailpiece feed and the mailpiece-receiving modules are both made up of the same components, namely each of them is made up of a motor-driven base 10A, 14A and of a plurality of storage trays 20. As shown by the first embodiment in
In order to enable the mailpieces to be driven by the conveyor means of the mail-handling machine, the support wall 22 is provided with at least one slot 22C for allowing the motor-driven feed rollers or belts 12A forming the conveyor means to pass through. The storage tray can thus be used equally well for feeding (loading) or for receiving (unloading) mailpieces, unloading then being performed merely by allowing the mailpieces to fall into the mailpiece-receiving tray.
When the tray is being used as a mailpiece feed tray, the second jogging wall 26 performs the function of a longitudinal wall for guiding the mailpieces, and the series of slots 22C enables the feed rollers 12A at the inlet of the franking module to pass through (see
In a second embodiment shown in
In order to make it possible to take hold of the mailpieces more easily, the two jogging walls 24, 26 are not of rectangular shape but rather they are of trapezoid shape, the sides 24A, 26A that form the junctions with the support wall 22 forming the large bases of the trapezoids whose small bases formed by the opposite sides 24C, 26C co-operate with the last sides 24D, 26D that extend them slantwise to form one of the outer edges of the storage tray. Likewise, the support wall 22 can also be provided with the same notch 30 in its free corner opposite from the junction point 28, thereby imparting substantially an L-shape to it. Preferably, the various edges of the storage tray are formed without any sharp edges, and are preferably rounded so as to avoid any risk of injury when taking hold of the mailpieces.
In order to make it possible to achieve a high processing rate, the storage tray is preferably mounted with other similar trays on a base 10A, 14A provided with suitable motor drive means for causing the various storage trays to be used in turn. In this way, it can be guaranteed that each of the storage trays can be put into place successively at the inlet or at the outlet of the franking module. Coupling each tray to the base is preferably implemented directly on the respective drive pin (25, 26) of said motor-drive means, which drive pin (25, 26) then advantageously has a section that is polygonal with n sides (n>2), e.g. triangular, square, or hexagonal, in order to prevent any movement in rotation of the storage tray about its own axis, and co-operates with a respective one of orifices 34, 36 having the same shape that are provided in respective ones of the two jogging walls on either side of their junction line.
The storage tray is advantageously made by one-piece molding of a plastics material or of metal. Thus, it is very easy to clean, and the ease with which it can be removed also makes it particularly easy to maintain. The ease and simplicity of loading/unloading is particularly advantageous, as is its compactness.
Number | Date | Country | Kind |
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09 50547 | Jan 2009 | FR | national |
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4826147 | Shino et al. | May 1989 | A |
5092575 | Ramsey | Mar 1992 | A |
5211389 | Roch et al. | May 1993 | A |
20080122159 | Pillard | May 2008 | A1 |
Number | Date | Country |
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0481415 | Apr 1992 | EP |
1510480 | Mar 2005 | EP |
1533260 | May 2005 | EP |
1923340 | May 2008 | EP |
1268119 | Jul 1961 | FR |
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Entry |
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Machine translation of FR 2835244. |
Number | Date | Country | |
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20100187749 A1 | Jul 2010 | US |