CH709245A2 - Strap application of a strapping device for strapping goods with a strapping band. - Google Patents

Abstract

A strapping device of a strapping device for strapping packaged goods with a strapping band, in particular with a plastic strapping band, the band feed device (20) for feeding the strapping band during formation of a belt loop, a belt retraction device (21) for retraction of the strapping band after formation of the belt loop around the strapping band attached to packaged goods, as well as with a clamping device (22), with which in the packaging material applied to the pack strapping a belt tension is steigerbar, is to be improved to the effect that the strapping head can be formed as compact as possible. To solve this problem, only a common motor for driving in the tape feed device (20) of the tape retracting device (21) and the clamping device (22) rotatably driven by motor rollers is proposed.

Description

The invention relates to a strapping device of a strapping device for strapping of packaged goods with a strapping, in particular with a plastic strapping, the tape feed device for advancing the strapping during formation of a belt loop, a belt retraction device for retraction of the strapping after formation of the belt loop to the strapping apply to packaged goods, as well as with a clamping device with which a band tension can be increased in the strapping band applied to the packaged goods

Such strapping devices, as they are also affected by the invention, may be formed as a stationary system that is used to provide larger packaged goods or packaged to a Packguteinheit several individual packaged goods with one or more Bandumreifungen. The band strapping is usually formed from a strip which is withdrawn from a supply roll and placed as an annular strapping around the packaged. For this purpose, the strapping tape is shot with its free end ahead in a channel of the strapping device, which surrounds the packaged with portal-like or annular distance. Usually, as soon as the end of the tape has reached a certain point in the channel, the end of the tape is clamped and the tape is then withdrawn again. As a result of this, the loop of the strapping band contracts and the band comes out of the channel in abutment against the packaged goods. Subsequently, the tape is pulled tight and this applied to the tape, a tape tension, the band ring or the belt loop provided with a closure and separated from the supply roll. As a strapping band both metallic bands and plastic bands are used. The strapping devices are usually adapted to the Umreifungsbandtypen to be used with them, in particular with respect to the connecting device, with the two sections superimposed tape layers of the strapping are inextricably linked.

In prior art solutions, the strapping device generally comprises a plurality of rollers of the tape feed device, the tape retracting means and the clamping device, which are driven by a motor to achieve by contact of the peripheral surfaces of each driven rollers with the strapping the desired band movement, namely the Tape feed, a belt retraction or a tightening tightening by the tensioning wheel. These three functional components tape feed device, tape retracting device and tensioning device usually require a variety of components in order to reliably apply the individual movements on the tape. As a result of this, the strapping device, which is usually designed as a strapping head, builds up relatively large and requires a large volume in the strapping device. In addition, this results in a high weight of the strapping device.

The invention is therefore an object of the invention to improve a strapping device for strapping of packaged goods with a strapping to the effect that the strapping head can be made as compact as possible.

This object is achieved in a strapping device of the type mentioned by only one motor to drive in the tape feed device, the belt retractor and the tensioning device rotationally driven by motor rollers. By reducing the number of motors provided directly for generating the belt movements to only one motor, the strapping device according to the invention can not only be made more compact, it can also increase the functional safety and reduce the maintenance requirements of strapping devices according to the invention, which are usually known as Strapping heads are formed by stationary strapping devices. In the context of the present invention, "motor" can be understood as any drive with which a belt movement including minimum belt displacement lengths can be achieved in order to produce an increased belt tension. In many cases, such motors are designed as electric motors, but it can also be provided in connection with the invention, pneumatic, hydraulic or other drives.

In an expedient inventive embodiment can be provided that with the only one motor in each case a role of the clamping device, a role of the tape feed device and a roll of the tape retractor is driven. All three functional units should thus be operatively connected to one drive motor rigidly (in the sense of non-detachable) or to be operatively connectable. The latter can be realized, for example, by one or more freewheels or clutches, by means of which the respective operative connection to one or more of the functional units can be temporarily canceled and regenerated as needed. In a preferred embodiment, however, no switchable clutches or freewheels can be provided, whereby

Further preferred embodiments of the invention will become apparent from the claims, the description and the drawings. The disclosure of the claims is hereby incorporated by reference into the description. The invention will be explained in more detail below with reference to exemplary embodiments shown purely schematically in the figures, in which:

The invention will be explained in more detail with reference to embodiments purely schematically illustrated in the figures, in which: <Tb> FIG. 1 <SEP> A ____; <Tb> FIG. 2 <September> <Tb> FIG. 3 <September> < <Tb> FIG. 4 <September>

In Fig. 1, a strapping device 1 is shown, which is provided with a controller 2, a storage device 3 for stocking and disposal of a strapping, and with a strapping head 5. The strapping head 5 is used inter alia to generate a feed and to generate a return movement of the strapping. He is also provided with a tensioning device, for applying a belt tension on a belt loop, and a closure device for producing a closure on the strapping. In addition, the strapping device has a tape guide 6, with which the tape can be placed automatically and automatically on a predetermined path around a packaged goods 7. In addition, a welding and clamping unit 16 is integrated into the strapping head 5. Except for the strapping head 5, these are known components of strapping devices.

The arranged together with the tape guide 6 on a frame 8 and shown separately in Fig. 2 strapping head 5 has a tape drive means 15. Belt drive devices are generally already known, which is why below essentially addresses the differences to previously known belt drive devices. The tape drive device according to this embodiment can in particular with one or more pairs of rollers 11, 12; 13 and possibly be provided with further individual pulleys. The latter, however, do not participate in the generation of the band movement and are only intended for the determination of the band progression direction. Of the embodiment in the three rollers 11, 12, 13, which generate the tape movements, at least one of the rollers 11, 12, 13 should be driven by a motor for producing a tape feed or tape retraction movement. It should preferably be driven in each case a roller 11, 12, 13 of the roller pairs formed from these roles, between which carried the strapping and thereby a feed, retraction or tensioning movement and optionally a relaxation movement is transmitted to the tape.

The strapping head 5 has two components, a control component 16 and a band handling component 17. In the embodiment, the control component 16 in addition to the execution of control functions for the components of the strapping device even more functions, such as the generation of closures between the two band layers of a strapping and separating the strapping tape from the tape supply. The control component 16 is mounted on a sub-carrier 18 of the strapping head, wherein the sub-carrier 18 is in turn releasably secured to a common main carrier 19 of the strapping head 5. As can be seen in particular from FIG. 4, the sub-carrier 18 of the control component 16 is pivotable about an axis 23. The elements of the Bandhabungskomponente 17 are attached directly to the main carrier 19 of the Umreifungskopfs without its own sub-carrier. In the exemplary embodiment, the control component 16 is provided essentially for carrying out control and coordination functions of the functions performed with the strapping head. The bandaging component 17 and the components attached to it, however, are intended for direct action on the strapping band.

In the Bandhabungskomponente 17 of the Umreifungskopfs 5 is a tape feed device 20, a belt retraction device 21 and a clamping device 22 is integrated. According to the embodiment shown here are for the Bandvorschub-, Bandrückzugs- and the clamping device 20, 21, 22 common rollers 11, 12; 13 provided. Of the three rollers 11, 12, 13 are two rollers 11, 12 motor-driven rollers. The two rollers 11, 12 are driven by the same (only one) motor, in the embodiment an electric motor. For this purpose, for example, from the common motor in each case a drive train to one of the two rollers 11,12 be performed. The roller 11 is in this case provided both as a drive wheel for the tape feed (Bandvorschubsrad) and as a drive wheel for the tape retraction (Bandrückzugsrad). In order to perform these two functions with only one wheel in the illustrated embodiment, the roller 11 with the same drive motor in both directions of rotation can be driven. In the illustration of Fig .__ Here is the direction of rotation counterclockwise, the tape feed direction and the direction of rotation in the clockwise direction Bandrückzugrichtung.

In the reproduced in Fig. 5, 6 mounting position of the Umreifungskopfs the roller 11 is disposed above the roller 12. The roller 12 is part of the clamping device 22 and has the function of the tensioning wheel. It has a significantly larger diameter than the roller 11. The tensioning wheel 12 is due to the rigid connection with the engine and the drive movements performed by the motor in both directions of rotation, also driven in both directions of rotation. For the application of the intended band tension on the strapping, in particular on the belt loop, however, the tensioning wheel only the drive movement is used in the clamping direction, i. referred to the illustration of Fig. 6, the direction of rotation in the clockwise direction. In preferred embodiments, a subsequent to the clamping operation and the direction of rotation during the clamping process opposite rotational movement of the tensioning wheel take place a relaxation of the Umreifungskopf located and no longer belonging to the band loop band section. The drive movements both for the clamping movement and for the relaxation movement come from the same drive motor as for the roller 11. As an alternative to the embodiment of the invention shown here, in other embodiments in the drive train, not shown, from the engine to the two rollers 11, 12, a switchable clutch provided with the drive movement can be directed either to the roller 11 or the roller 12. In addition to embodiments in which the tensioning wheel can in turn be driven in both directions of rotation, it can also be provided that the tensioning wheel can also be driven only in the direction of rotation provided for the tensioning operation.

As the illustration of Fig. 6 it can be seen, the roller 13 adjacent to both the roller 11 and the tensioning wheel 12. The roller 13 is rotationally driven and articulated pivotally by means of a pivoting device. The pivoting device is operatively connected to a drive, through which the roller can perform (motorized) driven pivoting movements. By the pivoting movement acting as a counter-roller 13 can be brought either in abutment against the roller 11 or in abutment against the tensioning wheel 12, wherein in the respective end position of the pivotable roller 13, respectively, the strapping between one of the rollers 11,12 and the role 13 is located. Depending on which of the rollers 11, 12, the counter-roller 13 is present, the counter-roller 13 then presses the tape to the corresponding roller 11, 12, so that the corresponding roller 11, 12 their rotation as slipping as possible as feed, retraction or tensioning movement as well as possibly transferred as a relaxation movement on the strapping. The counter-roller 13 is thus together with the roller 11 both part of the tape feed as well as part of the tape retracting device. Together with the tensioning wheel 12, the counter-roller 13 is also part of the tensioning device 22. By virtue of this preferred embodiment according to the invention, the fourth roller, which has hitherto been the case in previously known solutions, can be avoided. In these known solutions, the drive roller and the tensioning wheel are each assigned one of two counter-rollers. In contrast, the preferred 3-roll solution according to the invention can make a significantly more compact design possible.

The rollers 11, 12, 13 are in Umreifungskopf 5 also part of a tape guide channel 28 through which the course and the forward and Rückzugsweg of the band is predetermined. The band guide channel 28 is again part of the band guide 6. As can be seen in Fig. 6, the strapping head 5, a first interface 29, at which the strapping head 5 connects to the supply roll side of the tape guide. The here formed one end of the band guide channel 28 is formed as a quick change interface. This has a by means of a pivotable clamping lever 30 to the strapping head clamped channel piece 31, through which the tape is fed into the strapping head. The channel piece 31 terminates immediately in front of the peripheral surface 11a of the roller 11, so that the strapping band can be fed at least approximately tangentially to the circumferential surface 11a of the roller 11. If the roller 13 is in its end position pivoted to the roller 11, then the belt is passed between the rollers 11, 13, the roller 13 pressing the belt against the roller 11.

As seen in the tape feed direction 32, the belt passes in its further course to the tensioning wheel 12. Here is from the counter-roller 13, formed by suitable channel forming means over about 180 ° on the circumference of the tensioning wheel 12 extending arcuate channel portion 28a. With regard to the strip thickness, the channel section 28a is significantly wider than the strip thickness. The inner boundary of the channel section is formed by the section of the peripheral surface 12a of the tensioning wheel 12 located in the region of the channel section. The outer boundary of the channel section 28a in the radial direction has guide plates as well as an outer channel segment, which is pivotable together with the counter-roller 13, with which the outer channel section can be closed, although the pivotable counter-roller 13 is located in the area of the outer channel section. Without the pivotable channel segment 33 or an equivalent other element, at least in one of the two pivot end positions of the counter-roller 13 would result in an open position of the channel section, which could possibly have a negative effect with respect to a secure tape guide.

In Figs. 7, 8, 9, the tensioning wheel is shown in three illustrations. This has a ring 37 which is provided with a recess 38 which is provided for connecting the tensioning wheel 12 with a shaft of the drive, in particular with a shaft of a transmission of the drive. In Fig. 2, the tensioning wheel 12 mounted on the shaft is shown. As also shown in Fig. 6, the circular tensioning wheel is provided with a circumferential surface 12a of at least substantially constant width. The tensioning wheel 12 is provided on its circumferential surface 12a with a knurling or toothing 39, by which the engagement conditions of the tensioning wheel 12 are improved on the strapping. Instead of a knurling or toothing 39, any other geometrically determined or indefinite roughening of the circumferential surface 12a of the tensioning wheel could be provided, with which a slippage between the tensioning wheel and the strapping band, which is possible during the tensioning process, can at least be largely prevented.

Preferably, at least approximately in the middle - with respect to the width of the tensioning wheel 12 - a groove 40 is introduced at a distance from the lateral edges of the tensioning wheel over the entire circumference of the peripheral surface 12a with a comparatively small width, which formed significantly deeper than wide is. In the groove 40 are in the embodiment, two rubber-elastic O-rings 43, 44 one above the other, which are arranged in the groove 40 radially one behind the other. In this case, one of the O-rings 43 is arranged with a smaller and the other O-rings 44 with a greater distance compared to the axis of rotation of the tensioning wheel 12. The width of the O-rings 43, 44 is provided such that they correspond approximately to the width of the groove 40. The two O-rings 43, 44 are completely within the groove 40. Both O-rings 43, 44 are formed of rubber-elastic material.

On the outer of the two O-rings 43, 44 sits a ring 45, which is designed in the embodiment of a metallic material. The ring 45 is elastically deformable. Likewise, the ring could be substantially rigid. To achieve these elastic properties of the ring, the ring 45 could also be formed of one or more materials other than a metallic material, for example of an elastic plastic. In the embodiment, this metal ring 45 is provided with respect to its cross section with a smaller width B than height H. The height of the O-ring is adjusted with respect to the groove depth and the height of the O-rings such that the ring protrudes from the groove 40. The ring 45 is thus in its unloaded state shown in Fig. 9 on the peripheral surface 12 a of the clamping ring 12 via.

The strapping is pushed at the beginning of the strapping with preferably high speed of the strapping head 5 with its free end of the tape through the tape guide 6. For this purpose, the counter-roller 13 is in abutment against one side of the tape. The tape is pressed by the counter-roller with its other side against the motor-driven roller 11. The rotational drive movement of the roller 11 in the feed direction is thereby transmitted to the strapping, which causes its advancing movement in the feed direction. The tape comes behind the outlet region of the tape from the gap between the roller 11 and counter roller 13 in contact with the tensioning wheel 12, but without exerting on the tensioning wheel 12 a significant pressure.

After the tape is completely pushed through the tape guide 6, the end of the tape reaches the closure head again. Here, the tape end actuates a limit switch, whereby the feed movement is stopped and the end of the tape is clamped. These and other on and off operations of components of the closure head are made by the control component 16, which is provided for this purpose with a basically known motor-driven camshaft control.

Now sets the camshaft control of the control component 16, the roller 11 in the direction of feed reverse direction of rotation in motion. The still clamped between the roller 11 and the counter-roller 13 strapping is thereby in the reverse, ie in the tape retraction 48 moves. The circumferential length of the belt loop, the band end is still clamped, is thereby continuously shortened. The tape is thereby torn from the tape guide 6 and created as a result of the respective packaged goods.

In Fig. 6, the tensioning wheel 12 is shown during the tape retraction operation. As can be seen from this illustration, the belt comes into abutment against the tensioning wheel 12 during the belt retraction process. The strapping belt lies essentially over the entire arcuate channel section 28a on the tension wheel 12, similar to the case of the subsequent tensioning operation. Although the tape is withdrawn here, but due to its ability to yield to this movement by moving out of the tape guide as intended, only a small amount of tape tension is applied to the tape of the tape loop during this phase. As a result of this contact with the tensioning wheel 12 and the protruding over the peripheral surface of the ring 45, the tape is not on the peripheral surface of the tensioning wheel 12 but at the located in the peripheral surface 12a ring 45 at. This contact with the spacer element designed here as a ring 45 in the exemplary embodiment results in that the strip can not be damaged during the strip retraction by the knurling or toothing 39 of the peripheral surface 12a.

After the tape is applied by the tape retraction to the packaged, is switched by the control of tape retraction on generation of a tape tension, whereby the voltage applied to the packaged tape should be pulled tight. For this purpose, first the counter-roller 13 is pivoted from its contact position against the roller 11 in an abutment position against the tensioning wheel 12. The offset in the same direction of rotation tensioning wheel 12 as before the roller 11, but rotates at a lower speed but using a larger torque and continues to pull on the strapping. On the other hand driven in the embodiment and faster rotating roller 11 is due to the lack of pressure of the counter-roller 13, the tape now, however, no longer in a manner by which the roller 11 could transmit their movement on the tape. Since the strapping band already bears against the packaged goods at this stage, the band is pulled back by the tensioning wheel 12 at most with a length that is short compared with the band retraction phase. During this tensioning phase, above all a greater tension is applied to the band.

Already at the beginning of the clamping phase is by the pressure of the counter-roller 13 in the direction of the tensioning wheel and the belt located therebetween, the ring 45 in the direction of the groove bottom and thus also in a substantially radial direction in the direction of the axis of rotation of the tensioning wheel 12th pressed. As a result, the band abuts against the ring 45 already at the beginning of the tensioning phase and also presses it against the groove base, at least in the region of the counter-roller 13. The ring 45 has thus in the counter roller 13 already at the beginning of the clamping process a smaller distance from the axis of rotation of the tensioning wheel than in its unloaded state, for example during the Bandvorschub- or Bandrückzugsphase.

The transmitted in the further course of the clamping operation of the tensioning wheel 12 on the belt larger torque compared to the belt retraction phase of the roller 11 has a greater reaction force of the tape result. This greater reaction force now causes the band, the ring 45 not only in the contact area with the counter-roller 13, but over its contact length (wrap, seen in the circumferential direction) with the ring 45 into the groove, whereby the band is now along its wrap on the Tensioning wheel 12 abuts against its peripheral surface. The band pushes the ring against the spring forces of the O-rings into the groove along its wrap angle on the tensioning wheel. Depending on the properties of the ring 45, this thereby optionally deforms elastically and can escape from the groove along that peripheral portion, where the strapping band does not bear against the tensioning wheel, partially again (with respect to its height). Outside the angle of wrap of the belt with the tensioning wheel, the ring 45 can protrude from the peripheral surface to a greater extent than in the unloaded state in which it projects beyond a height Hi. Since the ring is arranged rotationally fixed in the groove, depending on the respective rotational position of the tensioning wheel 12, each individual point of the ring alternately pressed alternately into the groove 40 and again comes out of her until they due to the rotation of the tensioning wheel again Achieved point at which the band wraps around a portion of the peripheral surface and thereby pushes the ring along this section in the groove. Thus, despite the existing protection of the strapping band from contact with the peripheral surface of the tensioning wheel during the belt retraction phase, nevertheless, a functionally reliable contact of the belt with the same tensioning wheel can be achieved during the belt tensioning phase.

The counter-roller 13 can be pressed with advantage with different pressure forces on the one hand against the roller 11 (feed roller or retraction roller) and on the other hand against the tensioning wheel 12 (in use of the strapping each with intermediate strapping). Compared to the possible pressure forces against the roller 11 higher pressure forces against the tensioning wheel, for a high reliability and the ability to apply high band tensions on the strapping be beneficial. The following therefore explains how in a preferred embodiment of the invention, despite the pivotal movement of the counter-roller 13 between two end positions in the end position different pressure forces can be realized.

The counter-roller 13 is arranged on an eccentric 50, which in turn is arranged on a shaft 51 of a carrier 52. The carrier has at a distance from the shaft 52, a receptacle 53 which is provided for mounting on the bearing 54 of the roller 11 (Fig. 5, 6). The receptacle 53 is in this case about its axis of rotation freely rotatable on the bearing 54 of the roller 11 and thus can perform pivotal movements about its axis of rotation.

In the area of the counter-roller 13 and the roller 11 is a more pivotally hinged together lever 57, 58, 59 exhibiting parallelogram provided. The parallelogram 56 has a long vertical lever 57, a horizontal lever 58 and a short vertical lever 59. The parallelogram is pivoted on the long vertical lever 57 and on the short vertical lever 59. The levers 57 and 59 have for this purpose pivot bearing points 60, 61. Via a bell curve 62, a rotary movement can be transmitted to the long vertical lever 57, which leads to the pivotal movement of the lever 57 about its pivot bearing point 60. In the illustration of Fig. 12, the pivotal movement of the lever 57 takes place in a clockwise direction.

The lever 58 thus pulls the latter at the pivot point of the short vertical lever in the direction of the lever 57, whereby the vertical lever 59 pivots in the illustration of Fig. 11, 12 also clockwise about its pivot bearing point 62. An inclined surface 64 formed on the short vertical lever 59 thereby pushes on a bearing 51 disposed on the shaft 51. The inclined surface thereby performs a clockwise movement (as shown in Fig. 12) and tends to assume a horizontal orientation. As a result, the carrier 52 performs a pivoting movement, whereby the counter-roller 13 is pivoted from its end position against the roller 11 in the direction of the tensioning wheel 12.

Upon reaching the tensioning wheel, the counter-roller bears against the tensioning wheel and can not perform any further pivoting movement. However, the lever 57 continues to pivot, whereby the bearing 65 of the eccentric 50 is moved counterclockwise in the direction of an L-shaped support 66. After the bearing 65 presses against the L-shaped support 65, stops the movement of the bearing 65 and this is at least approximately with an upper bearing 66, the axis of rotation 67 of the counter-roller 13 and the axis of rotation 68 of the tensioning wheel 12 in a line. A previously the pressure force of the counter-roller 13 generating spring element is thus no longer effective.

Another movement of the lever 57 in its pivotal movement now causes the lever 59 can no longer perform movement and therefore two parts 58a and 58b of the horizontal lever 58 are pulled apart. A arranged between the two parts 58a, 58b of the lever spring element 70 is thereby compressed, whereby the spring force increases. This results in a torque of the lever 59 about the pivot bearing 61 with the lever arm of the distance of the pivot bearing 61 of the articulation point 71 of the lever 58 on the lever 59. As a result, the inclined surface 64 presses in the form of a torque about the pivot bearing point 61 on the bearing , which now leads to a pressing force of the roller 13 against the tensioning wheel. By means of a correspondingly dimensioned and designed spring element 70 and corresponding lever ratios, high pressure forces of the roller 13 against the tensioning wheel can thereby be achieved.

A provision of the parallelogram can be done by a arranged on the pin 72 of the lever 5 further spring 73

LIST OF REFERENCE NUMBERS

[0034] <Tb> 1 <September> strapping <Tb> 2 <September> Control <Tb> 3 <September> storage device <Tb> 4 <September> <Tb> 5 <September> strapping <Tb> 6 <September> tape guide <Tb> 7 <September> <Tb> 8 <September> frame <Tb> 9 <September> <Tb> 10 <September> <Tb> 11 <September> Role <Tb> 11 <September> peripheral surface <Tb> 12 <September> tensioning wheel <tb> 12a <SEP> Circumferential tensioning wheel <Tb> 13 <September> counter roller <Tb> 14 <September> <Tb> 15 <September> tape drive device <Tb> 16 <September> control component <Tb> 17 <September> Bandhabungskomponente <Tb> 18 <September> subcarrier <Tb> 19 <September> main carrier <Tb> 20 <September> ribbon feed mechanism <Tb> 21 <September> belt retractor <Tb> 22 <September> jig <Tb> 23 <September> axis <Tb> 24 <September> <Tb> 25 <September> <Tb> 26 <September> <Tb> 27 <September> pivoting device <Tb> 28 <September> tape guide channel <Tb> 28 <September> channel section <tb> 28b <SEP> outer boundary <Tb> 29 <September> Interface <Tb> 30 <September> clamping levers <Tb> 31 <September> channel piece <Tb> 32 <September> tape feed direction <tb> 33 <SEP> outer channel segment <Tb> 34 <September> <Tb> 35 <September> <Tb> 36 <September> <Tb> 37 <September> Ring <Tb> 38 <September> recess <Tb> 39 <September> knurling <Tb> 40 <September> Nut <Tb> 41 <September> <Tb> 42 <September> <Tb> 43 <September> O-ring <Tb> 44 <September> O-ring <Tb> 45 <September> Ring <Tb> 46 <September> <Tb> 47 <September> <Tb> 48 <September> belt retraction direction <Tb> 49 <September> <Tb> 50 <September> eccentric <Tb> 51 <September> wave <Tb> 52 <September> carrier <Tb> 53 <September> Recording <Tb> 54 <September> bearing <Tb> 55 <September> <Tb> 56 <September> parallelogram <tb> 57 <SEP> long vertical lever <tb> 58 <SEP> horizontal lever <tb> 59 <SEP> short vertical lift! <Tb> 60 <September> swivel bearing <Tb> 61 <September> swivel bearing <tb> 64 <SEP> oblique surface <Tb> 65 <September> bearing <Tb> 66 <September> carrier <Tb> 67 <September> rotation axis <Tb> 68 <September> rotation axis <Tb> 70 <September> spring element <Tb> 71 <September> articulation <Tb> 72 <September> pins <Tb> B <September> Width <Tb> H <September> Height <Tb> H1 <September> Height

Claims (8)

1. strapping device of a strapping device for strapping of packaged goods with a strapping, in particular with a plastic strapping, the band feed device for advancing the strapping during formation of a belt loop, a belt retraction device for retraction of the strapping after formation of the belt loop to apply the strapping to packaged goods, and with a tensioning device with which a belt tension can be increased in the strapping band lying against the packaged goods, characterized by only one motor for driving the rollers which are driven in a rotary manner in the belt feed device, the belt retraction device and the tensioning device. 2. Strapping device according to claim 1, characterized in that with the only one motor in each case a roller of the tensioning device, a roller of the tape feed device and a roller of the belt retracting device can be driven. 3. strapping device according to one or both of the preceding claims, characterized in that with the only one motor, a common role of the tape feed and tape retracting means is drivable. 4. Strapping device according to claim 3, characterized in that the common role of the tape feed and belt retraction device with the only one motor can be driven in different directions of rotation. 5. Strapping device according to at least one of the preceding claims, characterized in that a tensioning roller of the tensioning device can be driven with only one motor. 6. Strapping device according to claim 5, characterized by a non-detachable operative connection for transmitting the motor drive movement between the only one motor and the tension roller of the tensioning device and between the only one motor and the common role of Bandvorschub- and belt retraction device. 7. strapping device according to at least one of the preceding claims, characterized in that a non-rotatably driven roller (13) whose peripheral surface is provided for contact with the strapping, both part of the clamping, as well as the tape feed and the belt retraction device. 8. strapping device according to claim 7, characterized in that the non-rotatably driven roller (13) is provided as a counter-roller and is pivotally formed between two end positions.