DE10038690C1 - Mail sorting drum has inner swing and overlapping blades and fixed membranes to tumble the mail for sorting by thickness effectively and without damage - Google Patents

Abstract

The appts. to sort mail by thickness categories has a rotating drum with a cylindrical frame (1) and inner angled and overlapping swing blades (2). Two clamped membranes (6) are fitted within the drum, fixed over each other. The membrane at the lower half of the drum is at the side where the blades (2) swing upwards, but sufficiently close to the drum so that the thickest mail items (5) cannot stick. The membrane (6) at the upper section of the drum, is angled against the horizontal and against the direction of drum rotation, and is aligned to the surface of the lower membrane, so that the packages (5) fall to the lower membrane and slide to the lower section of the drum. The membranes are at an angle of 90 deg to each other, with an angle adjustment.

Description

The invention relates to a device for separating Sen applications in thickness classes according to the preamble of claim ches 1.

Automatically around the shipments during the sorting and distribution process To be able to edit them, they must Size classes are separated because the transport and sor animal equipment tailored to different classes are. So there are different systems for packages and Parcels, large letters and normal letters. Differentiate these in addition to the format, especially in the thicknesses.

For automatically dividing incoming shipments into Different thickness classes have been popular for a long time Melt-shaped separators are known. These have on their zy Lindric frame overlapped slats between two Positions are pivotable. The open on the front Drum is slightly ge in its longitudinal axis to the horizontal inclines (approx. 4 °).

The slats are in the direction of rotation of the drum to the tangentia len inclined inwards and between two by An limited tilt positions swiveling. On every slat le attacks a spring element attached to the frame so that in the lower drum area, the slat pulled to the stop that limits the low slope, i.e. H. between the La mellen are only narrow gaps, z. B. 6 mm through which corresponds to the rotation when starting up in the lower part accordingly thin shipments slip and below the drum to be caught and transported away. The thicker Sendun Conditions that do not fit through this column remain in the Drum and are infol in a helical motion the inclined position of the drum, transported to its lower end,  where they are collected or transported. At this transport through the drum it happens that Sendun jam in the gaps between the slats. There with which they are released from this deadlock, they are Slats pivoted. In the course of the rotary movement ge reach the slats in the upper part of the drum. there the distance of the center of gravity of the fins from ih rem pivot point always bigger. Exceeds what it creates Torque the torque generated by the spring element, so the slats are inclined more (until the second approach impact) and the gaps between the slats are enlarged eats. This will free shipments jammed in the columns and they fall to the bottom of the drum. Furthermore fall down thick programs that do not fit in the column, a Via the centrifugal force relatively far upwards be taken before they also fall down (GB 21 00 691 A). Hard and compact shipments (e.g. parcel chen) or programs with heavy content with proportionate Large and unstable envelopes hit the bottom several times area of the drum and you and other sen destroy or damage

The invention specified in claim 1 is the object based on a rotating, inclined to the horizontal their lateral surface with changeable in their inclination, over lapped lamellas equipped drum to separate Sen in thickness classes, whereby the correspondingly thin sen in the lower part of the drum by narrow gaps between between the slightly inclined slats and slide down thicker shipments by centrifugal force or by Ver jams in the columns, but in the upper part of the trom mel by opening the column as a result of increasing the inclination of the La mellen be solved again, be taken up, so equip that damage or destroy the Sendun is prevented due to falling down.  

According to the invention, the two are arranged spatially firm, tensioned membranes a falling of the thicker Shipments from a relatively large height and thus their damage or destruction prevented. By centrifugal force or entrained by jamming between the slats Shipments fall, depending on where they are from the drum loosen, either directly onto the lower membrane, if not be taken very high, or if they continue up be taken to the upper membrane from which they are on the lower membrane and then on the lowest Slip part of the drum. This happens until the Shipments leave the drum at the bottom.

Advantageous embodiments of the invention are in the sub claims set out.

So it is advantageous if the membranes at an angle of are arranged approximately 90 ° to each other. It is advantageous even if the membranes are inclined at 45 ° to the horizontal are. It has also proven to be beneficial the inclination of the To make membranes adjustable.

The invention is then described in an exemplary embodiment explained in more detail.

It shows

Fig. 1 is a schematic view of the open side ei ner drum for separating a program by the prior art,

Fig. 2 shows an enlarged detail of Fig. 1,

Fig. 3 is a schematic view of the open side of a drum for separating items with two tensioned membranes.

On a cylindrical frame 1 18 slats 2 are pivotally mounted. Each slat 2 is pulled radially towards the frame against a stop by spring force. By the impact the tapered slats 2 are kept at a distance from each other, so that there is a gap of 6 mm between the slats 2 . For the sake of clarity, the stops and the spring elements are not shown, but can easily be implemented by a person skilled in the art.

The drum, consisting of the frame 1 and the slats 2 attached to it, rotates as shown in FIGS . 1 and 2 Darge provides counterclockwise.

If the drum according to FIG. 1 is divided into four quadrants I-IV, then the slats 2 move in a mathematically positive direction through these quadrants. Driving through the lamellae 2 the first quadrant I, the torque acting at the pivot point 3 of the lamellae 2 , generated by the mass of the lamellae len 2 gradually exceeds the torque generated by the spring element, since the downwardly acting distance of the center of gravity from the pivot point 3 is greater becomes. As a result, the slats 2 each pivot inwards against a further stop (not shown) and the gaps open to 30 mm in the course of the quadrant I and release jammed items which then fall down. In the course of the second quadrant II, the corresponding distance between the center of gravity and the fulcrum 3 of the slats 2 decreases, the torque of the spring force prevails again and the respective gap closes again to 6 mm. In the fourth quadrant IV, the gaps between the lamellae 2 are aligned so that the mail items 4 with a thickness of ≦ 6 mm slide down through this column and are collected underneath the drum and transported away. The consignments 5 with a thickness <6 mm, which do not fit through the gaps, are carried along by the centrifugal force or by clamping in the channels and fall down in the course of the first and second quadrants I, II. Since the drum is inclined with its longitudinal axis from the input side to the output side with respect to the horizontal by approximately 4 °, the mail items 5 that do not fit through the gaps fall out of the drum on the output side. In order to prevent the mail items 5 from falling with a thickness of <6 mm from the first and second quadrants onto the lamellae 2 of the lower part of the drum or mail items lying at the bottom with the consequences of damage or destruction of the mail items 5 , are in the drum Over the length of two membranes 6 , 7 stretched in frames arranged one above the other.

The bracket on a stationary frame over the open sides of the drum is not shown in detail, since this is ge to the professional action of a specialist in this area. The membrane 7 located in the lower half of the drum is arranged in the fourth quadrant IV. Their surfaces normal points to the second quadrant II and their distance from the drum is at least so far that the thickest mail items 5 cannot jam. The membrane 6 located in the upper half is inclined against the direction of rotation of the drum by approximately 45 ° to the horizontal and its plane is directed towards the surface of the lower membrane 7 . The programs that are taken away by the drum and that would damage other programs in the event of a free fall or that would themselves be damaged (hard and compact programs; programs with heavy content and large and unstable envelopes) fall on the membranes 6 , 7 , the very high mail items on the upper membrane 6 , the less high mail items on the lower membrane 7 . The hard impact on the membranes 6 , 7 is dampened by the elastic tension and the mail items slide from the upper membrane 6 over the lower membrane 7 onto the lower part of the drum, so that damage to the mail items is avoided.

Claims (4)

1. Device for separating mail in thickness classes with a rotating, laterally open drum, be standing from a cylindrical frame ( 1 ) on which overlapped, in the direction of rotation to the tangential direction inwardly slats ( 2 ) pivotable between two by stops limited tilt positions are attached, with each slat ( 2 ) engages a spring element attached to the frame so that during the rotation in the lower region of the drum, the torque generated by the spring force, the slats ( 2 ) into the position of slight inclination and Upper area, the predominant torque generated by the lamella mass presses the lamella len ( 2 ) in the strongly inclined position, and wherein the longitudinal axis of the drum is inclined to the horizontal ge, the items to be separated on the higher, open side in the drum are transportable, the thick shipments fall from the deeper, open side and those in the lower area through the Lamellar gaps between the slightly inclined lamellae ( 2 ) of slipping items can be caught underneath the drum and can be transported away by means of transport means, characterized in that two tensioned membranes ( 6 , 7 ) are arranged spatially fixed one above the other over the length of the drum, whereby the membrane ( 7 ) in the lower part of the drum on the side of the drum on which the slats ( 2 ) move upwards, but at most so close to the drum that the thickest mail items ( 5 ) cannot wedge, and is arranged such that the plane of the membrane ( 6 ) located in the upper half of the drum and inclined counter to the direction of rotation of the drum is directed towards the surface of the lower membrane ( 7 ), so that the upper membrane ( 6 ) falling mail items ( 5 ) slide onto the lower membrane ( 7 ) and from the lower membrane ( 7 ) onto the lower part of the drum. 2. Device according to claim 1, characterized in that the membranes ( 6 , 7 ) are arranged at an angle of approximately 90 ° to each other. 3. Device according to claim 1, characterized in that the membranes ( 6 , 7 ) are inclined by approximately 45 ° to the horizontal. 4. Device according to one of claims 1 to 3, characterized in that the inclination of the membranes ( 6 , 7 ) is adjustable.