EP2304395A1

EP2304395A1 - Device and method for weighing an object during transportation

Info

Publication number: EP2304395A1
Application number: EP09781247A
Authority: EP
Inventors: Jürgen FRANCKE
Original assignee: Siemens AG
Current assignee: Siemens AG
Priority date: 2008-07-29
Filing date: 2009-07-29
Publication date: 2011-04-06
Also published as: US20110192656A1; DE102008035300A1; US8710380B2; WO2010012779A1; DE102008035300B4

Abstract

The invention relates to a device and method for weighing an obeject, in particular a flat item of mail, during transportation. A conveyer device with a continuous conveyer belt (15) and a corresponding conveyer belt (16) is capable of temporarily grasping an object (5, 7) in a clamping area and transporting it in a transporting direction (4). The scale (17) is capable of weighing an object (5, 7) while the object (5, 7) is grasped in the clamping area. The damping element (6) is configured to damp oscillations which an object (5, 7) which is grasped in the clamping area carries out. The damping element (6) has a surface which is curved in the transporting direction (4). The continuous conveyer belt (15) is made to extend around the curved surface in such a way the continuous conveyer belt (15) bears in a planar fashion against the curved surface in the damping area, and the continuous conveyer belt (15) and the corresponding conveyer element (16) are configured to direct an object (7) grasped in the clamping area past the curved surface.

Description

description

Apparatus and method for weighing an item during transport

The invention relates to an apparatus and a method for weighing an article, in particular a flat postal item, during transport.

It is desired to weigh a mail piece while this mail piece is being transported through a sorting system. Weighing should delay as little as possible the transport and processing of the mail. However, a transported mail carries out vibrations that can lead to a false measurement result.

A device with the features of the preamble of claim 1 and a method with the features of the preamble of claim 10 are known from DE 202007016722 Ul. A weighing object is temporarily clamped in a clamping area between two horizontal endless conveyor belts and led away from the rotating conveyor belts via a scale. In order to dampen vibrations which the object to be weighed performs and which could falsify the measurement result, a damping element (referred to therein as a guide element) is provided. This damping element exerts a lateral force on the transported object. In one embodiment, the damping element comprises two brushes which are pressed from two sides against the object held in the clamping area. Also possible are other types of guide elements between which the article is passed.

In the post-published patent EP 2040049 Al a letter scale with calming section is described. This calming zone is provided in front of or behind the scale, so that a mail item passes through this calming zone before or after it is weighed. In this calming zone, the mail piece is guided without lateral clamping. EP 1603083 A1 describes a method for describing a mail item. If necessary, the balance is stabilized with additional weights.

The invention is based on the object, a device having the features of the preamble of claim 1 and a

To provide methods having the features of the preamble of claim 10, which do not require that the object to be weighed is transported between two components of the damping element.

The object is achieved by a device having the features of claim 1 and a method having the features of claim 10. Advantageous embodiments are specified in the subclaims.

According to the solution, a device is provided for weighing a counter stand, in particular a flat mail item. This device comprises the following components:

- a conveyor,

- a balance and

- A damping element.

The conveyor has an endless conveyor belt and a counter-conveying element. The counter-conveying element is, for example, also a conveyor belt or a sliding plane. The endless conveyor belt and the counter-conveying element are arranged so that between the conveyor belt and the counter-conveying element, a clamping area for temporarily grasping an object to be weighed is formed. The conveyor is designed to transport a captured in the clamping area object in a transport direction.

The scale is designed to weigh an object while the object is gripped in the clamping area.

The damping element is designed to damp oscillations which an object held in the clamping region has. leads. The damping element has a curved surface in the transport direction.

The endless conveyor belt is guided around the curved surface such that

- The endless conveyor belt in a damping area lies flat against the curved surface and

- The endless conveyor belt and the counter-conveying element are designed to pass a captured in the clamping area object on the curved surface.

The object to be weighed is temporarily flat on the endless conveyor belt before or while it is being weighed. This solution according to the invention causes a particularly good damping of the object, better than two opposing damping components, because the damping element absorbs the vibrations of the object quickly.

The damping element of the device according to the invention can be realized and produced in a mechanically simple manner. This damping element requires significantly less cleaning and maintenance than z. B. a set of brushes, between which the object to be weighed is transported through.

Thanks to the damping element, it is not necessary to dampen vibrations of the object to be weighed in front of or behind the balance, z. B. in a separate rest area. Such a design requires waiting time in which the vibrations subsidence. The invention shows a way to avoid such a waiting time.

Preferably, the counter-conveying element is designed as an elastic endless conveyor belt. This embodiment makes it possible to weigh articles of different thickness, the thickness of the article being its extension perpendicular to the transport direction. The elastic endless conveyor belt adapts to different thicknesses. It is not necessary to differentiate the damping element perpendicular to the transport direction. ben to adapt the device to different article thicknesses.

Preferably, the damping element is connected via a coupling with a stationary holder. By this design, vibrations are delivered via the coupling to the stationary holder.

In the following the invention will be described with reference to an embodiment. Showing:

1 shows the weighing device with an infeed and a removal conveyor in plan view.

FIG. 2 shows the weighing device of FIG. 1 in a side view; FIG.

3 is a view in the plane A - A of Fig. 2nd

In the exemplary embodiment, the solution according to the device is used in a sorting system for mail. To weigh are flat mail, especially standard and large letters, magazines and postcards. The determined weight of each item of mail is used, for example, to calculate the fare or to check the already paid fare.

Fig. 1 shows the weighing device with a feeding conveyor 8 and a wegführenden conveyor 9 in plan view.

The feeding conveyor 8 comprises two lateral endless conveyor belts 11, 13 which are guided around rollers. The axes of rotation of these rollers are perpendicular to the plane of Fig. 1. The mail items to be transported stand on one edge and approximately perpendicular to an underfloor conveyor belt 12 and are transported from the underfloor conveyor belt 12 to the weighing device 1. The feeding Conveyor forms a U-shaped transport channel. The mail items are not clamped between the two conveyor belts 11, 13, but lean against only one of these conveyor belts. This causes the weight force aligns the mail items on their lower edges and that the mail items are transported with little slippage.

The carrying away conveyor 9 is designed as a U-shaped transport channel. It comprises two lateral endless conveyor belts 18, 19 and an underfloor conveyor belt 10.

The weighing device 1 is arranged between the feeding conveyor 8 and the conveying away conveyor 9. The weighing device comprises in the exemplary embodiment two elastic endless conveyor belts 15, 16. These are arranged so that between them a clamping area for temporarily grasping a mail piece is formed. Instead of endless conveyor belt 16, the counter-conveying element can also be configured in other ways, for. B. as a role or as a sliding plane, d. H. as an immovable component with a smooth surface.

When passing through the weighing device 1, the mail items are temporarily clamped between two elastic endless conveyor belts 15, 16. Once a mail item has reached the end of the feeding conveyor 8, it is caught by the two endless conveyor belts 15, 16 and is temporarily located between these conveyor belts. These conveyor belts rotate at the same speed and have a rough surface. The mail items are transported with little slippage.

Each of the two endless conveyor belts 15, 16 is guided around several rollers. The roller 2 is a driven roller which drives and moves the conveyor belt 16. The conveyor belt 15 is moved by the driven roller 3. The remaining rollers around which the endless conveyor belts 15, 16 are guided are non-driven rollers. The endless conveyor belts 15, 16 are elastic and tightly guided around the rollers. In FIG. 1, by way of example, a thick postal item 5 and a thin postal item 7 are shown. The thin mail item 7 is located just above a scale 17 of the weighing device 1. The thick mail item 5 has already been weighed and is on the way to the conveying conveyor 9 leading away. Both mail items 5, 7 are captured by the two conveyor belts 15, 16.

The scale 17 is designed to weigh moving mailpieces. The two conveyor belts 15, 16 are therefore not stopped as soon as a mail item is above the scale 17, but continue to move. In one embodiment, the mail item to be weighed is not even slowed down.

According to the solution, the weighing device 1 further comprises a damping element 6 which has a curved surface. The endless conveyor belt 15 lies flat against this curved surface of the damping element 6. The damping element 6 preferably has a smooth surface, so that only a slight friction occurs between the conveyor belt 15 or an adjacent mail item and the curved surface. Also, the conveyor belt 16 is flat on this curved

Surface, as long as the two conveyor belts 15, 16 do not take any mail.

The damping element 6 is preferably formed as a solid body. This is connected via a mechanical coupling with that base on which the rollers are mounted, around which the endless conveyor belts 11, 13, 15, 16, 18, 19 are guided around. In one embodiment, the mechanical coupling is configured to absorb vibration energy that exerts a mail item on the damping element.

Fig. 2 shows the weighing device of Fig. 1 in a side view in the plane B - B. For clarity, the conveyor belt 15 is omitted. Shown are three endless conveyor belts 13, 16, 19 and a plurality of rollers around which these conveyor belts are guided. The curvature of the Damping element 6 is not shown in the side view. Furthermore, the underfloor conveyor belts 10, 12 are indicated.

It can be seen that the thin mail item 7 to be weighed is higher than the endless conveyor belt 16 is wide. This causes a piece of mail to be weighed in a strip on the two endless conveyor belts 15, 16 and in two further strips bears directly on the curved surface. The two endless conveyor belts 15, 16 cause the mail item to be curved. As a result, the mail item lies flat against the curved surface of the damping element 6. This configuration has the effect that vibrations which the thin mail item 7 carries out are transmitted directly to the damping element 6 and are damped thereby. As a result, the thin postal item 7 carries out almost no more vibrations when it reaches the scale 17.

Fig. 3 shows the weighing device from the front, so a view in the plane A - A of Fig. 2. From the front, the curved damping element 6 appears as a rectangle. Because the movement of the curved mail item 7 is guided past the curved surface, the air resistance causes the item of mail to be pressed in an upper and a lower strip against the curved surface and lies flat against it. Here, the mail piece is slightly curved about its longitudinal axis - as seen in the transport direction. The areal effect causes oscillations of the mail item to be transmitted particularly well to the damping element 6. In a middle strip, the thin mail piece 7 is held by the two endless conveyor belts 15, 16.

LIST OF REFERENCE NUMBERS

Claims

claims

1. Device for weighing an object (5, 7),

the device

a conveyor (15, 16),

- a balance (17) and

a damping element (6)

includes,

the conveyor (15, 16)

- An endless conveyor belt (15) and

a counter-conveying element (16)

having,

which are arranged such that between the conveyor belt (15) and the counter-conveying element (16) a clamping area for temporarily gripping an object (5, 7) to be weighed is formed,

the conveying device (15, 16) is designed to transport an article (5, 7) held in the clamping region in a transport direction (4),

the balance (17) is designed to weigh an object (5, 7) while the object (5, 7) is gripped in the clamping area, and

the damping element (6) is designed to damp vibrations which an object (5, 7), which is held in the clamping region, carries out,

characterized in that

the damping element (6) has a curved surface in the transport direction (4) and the endless conveyor belt (15) is guided around the curved surface,

that the endless conveyor belt (15) in a damping region lies flat against the curved surface and

the endless conveyor belt (15) and the counter-conveying element (16) are designed to guide an object (7) mounted in the clamping area past the curved surface.

2. Apparatus according to claim 1,

characterized in that

the damping element (6) comprises a solid body and

the curved surface is a surface of this massive body.

3. Apparatus according to claim 1 or claim 2,

characterized in that

the damping element (6) is connected via a coupling with a stationary holder and

the coupling is designed to receive vibration energy.

4. Device according to one of claims 1 to 3,

characterized in that

the device is designed in such a way

the conveying device (15, 16) transports an object (5, 7) to be weighed,

while the scale (17) weighs the article (5, 7).

5. Device according to one of claims 1 to 4,

characterized in that

the counter-conveying element (16) is designed as an elastic endless conveyor belt and

the device is designed to

that the counter-conveying element (16) and the endless conveyor belt (15) grasp and transport an object (5, 7) in the clamping region and

the elastic counter-conveying element (16) presses the endless conveyor belt (15) and the article (5, 7) against the curved surface by stretching the elastic counter-conveying element (16) as it moves past the curved surface.

6. Apparatus according to claim 5,

characterized in that

the extent in the vertical direction of the endless conveyor belt (15), which bears against the curved surface, is less than the extent of the curved surface in the vertical direction and

the device is designed such that a flexible object, which is grasped in the clamping area and pressed against the curved surface, abuts flat against the curved surface when moving past the curved surface.

7. Device according to one of claims 1 to 6,

characterized in that the device comprises an infeed conveyor (8) with underfloor conveyor belt (12), the

seen in the transport direction (4) upstream of the conveyor (15, 16) is arranged and

is designed to transport an object to be transported (5, 7) to the conveyor (15, 16).

8. Method for weighing an article (5, 7),

the method comprising the steps of

- The article (5, 7) is temporarily taken in a clamping area between an endless conveyor belt (15) and a counter-conveying element (16),

The transported object (5, 7) is transported in a transport direction (4) and thereby brought into a measuring position,

- A balance (17) located in the measuring position object (5, 7) weighs and

Vibrations which the captured object (5, 7) performs are damped,

characterized in that

the object (5, 7) grasped in the clamping area is guided past a curved surface in such a way during transport,

- That the endless conveyor belt (15) rests flat against the curved surface during a period of time and

- In this period, the direction is changed, in which the article (5, 7) is transported and

the curved surface receives vibrations of the passing object (5, 7).

9. The method according to claim 8,

characterized in that

the counter-conveying element (16) and the endless conveyor belt (15) grip and transport an object (5, 7) in the clamping area,

the counter-conveying element (16) is stretched during transport and

the elastic counter-conveying element (16) presses the endless conveyor belt (15) and the collected and transported article (5, 7) against the curved surface by stretching the elastic counter-conveying element (16) as it moves past the curved surface ,

10. The method according to claim 9,

characterized in that

the object (5, 7) is pressed against the curved surface as it moves past, such that the object (5, 7) lies flat against the curved surface.

11. The method according to claim 8,

characterized in that

the scale (17) weighs the article (5, 7),

while the conveyor (15, 16) transports the article (5, 7).