EP0881149B1 - Machine for hooping objects comprising a tensioning device operating as a function of the height of the objects - Google Patents

Description

The invention relates to a strapping machine for strapping objects, like product stacks from magazines, magazines or any other any batch goods, such as packages, e.g. B. shipping boxes u. Like with Features specified in the preamble of claim 1.

Such a strapping machine is e.g. B. from the older German patent application DE 196 02 579 A1 known. This strapping machine points in addition to those notoriously available with such equipment Components such as machine frame, work table, belt guide frame for Guide the strapping around the object to be strapped as loose Loop, shooting device for shooting the strapping in the tape guide frame and return device for returning the Strapping tape from the strap guide frame and to put on the Strapping around the object to be strapped also a stack height dependent Tensioning device for tightening the strapping around the object. There is a back tension dependent on the stack height in this Context is advantageous because the strapping band the product stack hold together tightly, but the tightening is all the more pronounced must be, the softer, d. H. more compressible is the material forming the stack. Usually grows with the stack height and the number z. B. from magazines in a stack its compressibility. This means that for a high stack a high back tension must be ensured, whereas with very low stacks or even when strapping individual copies practically no back tension may occur, since this becomes a Would curl up the magazine.

In the back tensioning device according to the aforementioned older patent application is an elaborate mechanical construction for stack height dependent Adjustment of the back tension provided. So there is one pivotable link lever with a control link available, the over a mechanical scanning of the stack height of the product stack is adjustable is. The mechanical scanning device is e.g. B. one Lever transmission mechanism between the press beam, the one to be strapped Stack compressed before applying the strapping, and the pivoting link lever with a control link. The latter operated a control lever for a clamping lever on the back tension generating Clamping lever of the back tensioning device is pivoted. The control lever controls the clamping lever so that the stack height decreases blocking the clamping device to fix the strapping increasingly delayed and the tensioning of the strapping is reduced.

In addition to the high mechanical effort, the known tensioning device brings other disadvantages. So only about the setting of the back tension path to vary the back tension. Further is only a proportional relationship between product height and Return path can be reached so that more complex dependencies cannot be realized are.

Based on the problems described, the object of the invention based on a strapping machine with object height dependent To create back tension with reduced mechanical effort greater flexibility in the object-dependent setting of the back tension brings with it.

This object is achieved by the in the characterizing part of claim 1 specified features solved. Accordingly, in an inventive Strapping machine a height detection device for the strapping Object provided. This shows a contactless working Sensor for scanning the object height. With the sensor is a control device coupled, by means of the back tension on the back tensioning device is adjustable. This control device can, for example are a timing control that a drive roller pair for the strapping is activated for a certain time and the strapping so that it contracts by a certain back tension. Also can the control device a motor control for a torque adjustable DC motor, which with the help of the controller Strapping tightens with a certain tension. A Force-dependent back tension can also be set using an electronically adjustable Torque clutch can be realized when reaching a certain, electronically adjustable clamping force can be triggered.

The flexibility required in the task of the invention is achieved by an inventive method further provided storage device reached for Storage of a characteristic function of the reverse voltage depending on the Object height serves. The control device intervenes to adjust the reverse voltage towards this characteristic function in the memory device.

The back tension is therefore based on an appropriate design of the characteristic function practically arbitrarily adjustable and to the respective circumstances of the objects to be strapped. So that can be an inventive Strapping machine by selecting the appropriate Identification function can be adapted to different customer specifications.

As already indicated, according to preferred embodiments the Invention of the tensioning path of the strapping, but also the tensioning force be defined as parameters in the identification function. This sets up depends primarily on the type of control device for the back tensioning device and the latter itself.

Furthermore, the identification function can be a continuous function. So that's one stepless adjustment of the back tension depending on the object height possible. It should be noted that this is a relatively accurate resolution of the sensor and adjustability of the back tension on the back tensioning device must be possible to the characteristic function in the form of a continuously variable Make full use of the continuous characteristic curve and implement its accuracy to be able to.

The characteristic function is therefore preferred from a practical point of view be a step function. This means that objects are for certain object height ranges with a fixed value of the return travel or the Tensioning force are strapped. The sequence of steps does not necessarily have to be be steadily increasing or decreasing, if this is practical require.

The sensor is advantageously an ultrasonic sensor, which is arranged in the upper horizontal strut of the tape guide frame and from there senses the height of the object passing beneath it.

An advantageous development of the strapping machine according to the invention refers to an interface for transmitting one for the Object height representative signal using the height detection device won to external devices. With an integration the strapping machine into a packaging line into the strapping machine Integrated height detection device for others Handling of the object can be used, such as. B. the control of a non-contact printhead for subsequent labeling the top of the object.

Through the coupling of the height detection device, which is also provided with the return device the return control of the strapping can can be adjusted to the object height. So that's a significant one Time advantage in the return process compared to the prior art to reach. The latter provides for this regardless of the object height Strapping for retrieval from the strap guide frame always for to transport a constant time using the pair of conveyor rollers. At very high objects, the belt lays down very early during the return cycle around the object so that the remaining conveyance time of the return device is practically "given away". With a height detection for the Object and a corresponding adjustment of the return time can immediately then the actual clamping process take place, so that the cycle time for one Strapping is optimally adapted to the object height.

In a further preferred embodiment, by means of the height detection device object recognition can be undertaken. In the practical Implementation, the sensor recognizes, for example, the course of the one facing it Surface of the object and can have the appropriate coordinates compare with saved coordinates of a certain object and thus recognize this. On this basis, one can do this Object function assigned to selected and a corresponding Back tension can be made.

Fig. 1 und 2

schematische Seitenansichten einer Umreifungsmaschine mit unterschiedlich hohen Objekten auf dem Arbeitstisch,

Fig. 3

ein schematisches Blockschaltbild der Höhenerfassungseinrichtung der Umreifungsmaschine gemäß Fig. 1 und 2,

Fig. 4

ein Kurvenschaubild mit unterschiedlichen Kennfunktionen für die Rückspannung.

Further features, details and advantages of the invention can be gathered from the following description, in which an exemplary embodiment of the subject matter of the invention is explained in more detail with reference to the accompanying drawings. Show it:

1 and 2

schematic side views of a strapping machine with objects of different heights on the work table,

Fig. 3

2 shows a schematic block diagram of the height detection device of the strapping machine according to FIGS. 1 and 2,

Fig. 4

a graph with different characteristic functions for the back tension.

As can be seen from FIGS. 1 and 2, the strapping machine has one Rollers 1 mounted machine frame 2 on which a work table 3 is attached is. The work table 3 has conveyor belts (not shown), by means of which the objects to be strapped - e.g. B. a magazine stack 4 in Fig. 1 or a shipping box 5 in Fig. 2 - in the strapping position the work table 3 can be transported. For so-called cross strapping a turntable can also be integrated in the work table 3, as can be found in EP 0 445 429 B1.

On the work table 3 is a vertically standing belt guide frame 6 arranged, with the help of the strapping 7 around the object 4, 5 the work table 3 can be led around as a loose loop. This will that was stored on a storage reel 8 on the side of the machine frame 2 Strapping band shown only schematically in Fig. 1 to 3 Guides 9 via a tensioning device 10 and a pair of drive rollers 11 through the welding head 12 of the strapping machine Band guide frame 6 out. To shoot the strapping 7 the drive roller pair 11 in the corresponding direction in circulation set and the strapping 7 guided around in the strap guide frame 6, until its free end lies in the area of the welding head 12 comes and is fixed there. Then the drive roller pair 11 activated in the opposite direction. This will make the strapping 7 retrieved from the tape guide frame 6, thus exits the tape guide frame 6 and wraps itself around the strap to be strapped Object 4, 5. The drive roller pair 11 with its drive motor 13 and the motor 14 thus serves as a common insertion and return device for the strapping 7 (Fig. 3).

The back tensioning device 10 shown schematically in FIGS. 1 to 3 has a rubberized tension pulley 15 with a curved pressure rail 16 cooperates. The latter represents a wrap angle of the strapping 7 of about 90 ° around the tension pulley 15 and a tight one Frictional contact between tensioning roller 15 and strapping 7 is secure. This allows a rotation of the tension roller 15 with the help of its drive motor 17 a high tensile force for retensioning the strapping 7 around the object 4, 5 to be strapped.

A back tension dependent on the object height for the object to be strapped To enable 4, 5 is a height detection device on the strapping machine 18 provided, the structure of which is shown schematically in FIG. 3 is shown. This includes a non-contact ultrasonic sensor 19, the center of the upper horizontal strut 20 of the tape guide frame 6 is arranged. His club-like measuring field 21 is vertically behind directed below towards the work table 3 and thus covers the top 22 of the objects to be strapped 4, 5. About the height-dependent distance the top 22 to the ultrasonic sensor 19, this one for the Give the height of the object to be strapped 4, 5 representative signal that Processable by the control device 23 for the tensioning device 10 is. For this purpose, the control device 23 accesses a storage device 24 to, in which one or more identification functions for the back tension of the Strapping 7 are stored depending on the object height H. Control device 23 and storage device 24 can be used together with the motor control 14 - and of course other machine control groups - based on a programmable logic controller or microprocessor control will be realized.

The large variation possibilities can be represented with reference to FIG. 4 to explain to what extent an object height dependent with the help of the subject matter of the invention Back tension takes place.

The basis of Fig. 4 is the fact that for the back tension the back tension path x of the strapping 7 as a parameter in the identification function is set. "Rückspannweg x" means the distance over which to the return of the strapping 7 with the help of the drive roller pair 11 then the tension roller 15 the strapping 7 further in Direction of arrow 25 according to FIG. 3 pulls.

The control device 23 receives the height H via the ultrasonic sensor 19 of the object 4, 5 to be strapped. The tensioning device works 10, for example with the characteristic function K1, increases with increasing Object height H the backward travel x up to a maximum of 200 mm with an object height of 500 mm. Such a continuous linear function is suitable for example for magazine stack 4 (Fig. 1) because such stacks of magazines are becoming increasingly compressible with higher heights and thus for a tight tensioning of the strapping 7 a high one Return path is required.

In the case of the linearly increasing characteristic function K2, a worked softer back tension, because the maximum back tension path x at an object height of 500 mm is only 50 mm.

The characteristic functions K3 and K4 give continuous, but not linear characteristic functions again, due to attempts for a product-dependent optimal strapping found and entered in the storage device can be. For example, there is a special feature of the K4 identification function in that the object height is less than 100 mm Return path x is minimal.

The characteristic function K5 is a continuous function, the slope of which, however Characteristic functions K1 to K4 is opposite. This in turn can result a specially necessary treatment of the goods to be strapped, the only requires a very small back tension path for large stack heights H, while for very low objects a very large back tension path x is selected becomes. Are z. B. in one and the same strapping machine in one "Mixed operation" high stacks of very little compressible products and handled low stacks with very soft products, so the Characteristic function K5 can be used.

The amount of data that is generated by the control and storage device 23, 24 is to be mastered, limited and correspondingly simpler interpretations these devices 23, 24 can also be used with step functions be worked for the identification function, as is done by the identification function K6 is indicated in Fig. 4. So with this identification function for an object height between 0 and 100 mm with a tensioning path x of 10 mm, with an object height between 100 and 200 mm with a back tension x of 50 mm, with an object height between 200 and 300 mm with a Clamping distance x of 100 mm etc. worked. As from the above Explanations can also be derived with the help of the invention Strapping machine and its height detection device also a kind Object detection can be made. If on a strapping machine e.g. B. five different objects, such as. B. sales boxes with different heavy content that can be handled by their Differentiate height, so the ultrasonic sensor via the height detection device make an object detection. Any object can Now a certain value for a back tension path can be assigned, which for this object enables optimal back tension. As an example Strapping of sales boxes called to secure the Serve cardboard closure. If a small but heavy object is packed, despite the low carton height, with a long span to work. Will lighter items in more voluminous Cartons housed, a smaller one is sufficient despite the larger carton height Return path etc.

Furthermore - as is clear from FIG. 3 - the control device 23 with the Motor controller 14 for the drive roller pair 11 coupled so that the Actuation time for the drive roller pair adapted to the product height and thus the strapping time has to be optimized for each object. Becomes a high object is detected, the drive roller pair 11 by the engine control 14 only put into operation for a short time, after which the actual back tensioning can be done. In contrast, a low object becomes a longer run of the drive roller pair 11 may be necessary to the strapping before the actual tensioning to place the object.

Finally, an interface device 26 is also shown in FIG whose help is the values obtained by the height detection device 18 passed on to other external devices via the object height.

Claims (10)

1. A looping machine for the looping of objects such as stacks of products, packages and the like, comprising

   a machine frame (2),

   a work table (3),

   a strap guiding frame (6) disposed on the work table (3) for fitting a looping strap (7) as a loose loop around the object to be looped (4, 5) which is disposed on the work table (3) within the strap guiding frame (6),

   an insertion device (11) for inserting the looping strap into the strap guiding frame (6),

   a withdrawal device (11) for withdrawing the looping strap (7) from the strap guiding frame (6) and for fitting the strap (7) around the object (4, 5) to be looped, and

   a tensioning device (10) for tightening the looping strap (7) around the object (4, 5),

   characterized by

   a height detection device (18) for the object (4, 5) to be looped, which comprises

   a sensor (19) of non-contact operation for detecting the object height (H), and

   a control unit (23) coupled therewith for the tensioning device (10) for adjusted tensioning in dependence on the object height, and

   a memory unit (24) for storing at least one characteristic function (K1 to K6) of tensioning in dependence on the object height (H), the control unit (23) accessing the characteristic function (Kl to K6) in the memory unit (24) for adjusted tensioning.
2. A looping machine according to claim 1, characterized in that as tensioning, the tensioning length (x) of the looping strap (7) is fixed as a parameter in the characteristic function (K1 to K6).
3. A looping machine according to claim 1, characterized in that as tensioning, a tensioning force acting on the looping strap (7) is fixed as a parameter in the characteristic function.
4. A looping machine according to one of claims 1 to 3, characterized in that the characteristic function (K1 to K5) is a continuous function.
5. A looping machine according to one of claims 1 to 3, characterized in that the characteristic function (K6) is a step function.
6. A looping machine according to one of claims 1 to 5, characterized in that the sensor (19) is an ultrasonic sensor.
7. A looping machine according to one of claims 1 to 6, characterized in that the sensor (19) is disposed in the upper horizontal stretcher (20) of the strap guiding frame (6).
8. A looping machine according to one of claims 1 to 7, characterized by an interface (26) for the transmission of a signal representative of the object height (H) to external equipments.
9. A looping machine according to one of claims 1 to 8, characterized in that the height detection device (18) is coupled with the withdrawal device (11, 14, 18) in such a way that the withdrawal control of the looping strap (7) is adapted to the object height (H).
10. A looping machine according to one of claims 1 to 9, characterized in that object recognition is feasible by means of the height detection device (18).

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