EP2285689A1 - Umreifungsvorrichtung mit einem energiespeicher - Google Patents

Umreifungsvorrichtung mit einem energiespeicher

Info

Publication number
EP2285689A1
EP2285689A1 EP09734679A EP09734679A EP2285689A1 EP 2285689 A1 EP2285689 A1 EP 2285689A1 EP 09734679 A EP09734679 A EP 09734679A EP 09734679 A EP09734679 A EP 09734679A EP 2285689 A1 EP2285689 A1 EP 2285689A1
Authority
EP
European Patent Office
Prior art keywords
strapping
welding
friction
drive
motor
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Ceased
Application number
EP09734679A
Other languages
German (de)
English (en)
French (fr)
Inventor
Mirco Neeser
Roland Widmer
Flavio Finzo
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Signode International IP Holdings LLC
Original Assignee
Orgapack GmbH
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Family has litigation
First worldwide family litigation filed litigation Critical https://patents.darts-ip.com/?family=40445863&utm_source=google_patent&utm_medium=platform_link&utm_campaign=public_patent_search&patent=EP2285689(A1) "Global patent litigation dataset” by Darts-ip is licensed under a Creative Commons Attribution 4.0 International License.
Application filed by Orgapack GmbH filed Critical Orgapack GmbH
Publication of EP2285689A1 publication Critical patent/EP2285689A1/de
Ceased legal-status Critical Current

Links

Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65BMACHINES, APPARATUS OR DEVICES FOR, OR METHODS OF, PACKAGING ARTICLES OR MATERIALS; UNPACKING
    • B65B13/00Bundling articles
    • B65B13/18Details of, or auxiliary devices used in, bundling machines or bundling tools
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65BMACHINES, APPARATUS OR DEVICES FOR, OR METHODS OF, PACKAGING ARTICLES OR MATERIALS; UNPACKING
    • B65B13/00Bundling articles
    • B65B13/18Details of, or auxiliary devices used in, bundling machines or bundling tools
    • B65B13/185Details of tools
    • B65B13/187Motor means
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65BMACHINES, APPARATUS OR DEVICES FOR, OR METHODS OF, PACKAGING ARTICLES OR MATERIALS; UNPACKING
    • B65B13/00Bundling articles
    • B65B13/18Details of, or auxiliary devices used in, bundling machines or bundling tools
    • B65B13/22Means for controlling tension of binding means
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65BMACHINES, APPARATUS OR DEVICES FOR, OR METHODS OF, PACKAGING ARTICLES OR MATERIALS; UNPACKING
    • B65B13/00Bundling articles
    • B65B13/18Details of, or auxiliary devices used in, bundling machines or bundling tools
    • B65B13/24Securing ends of binding material
    • B65B13/32Securing ends of binding material by welding, soldering, or heat-sealing; by applying adhesive
    • B65B13/322Friction welding
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65BMACHINES, APPARATUS OR DEVICES FOR, OR METHODS OF, PACKAGING ARTICLES OR MATERIALS; UNPACKING
    • B65B13/00Bundling articles
    • B65B13/18Details of, or auxiliary devices used in, bundling machines or bundling tools
    • B65B13/24Securing ends of binding material
    • B65B13/32Securing ends of binding material by welding, soldering, or heat-sealing; by applying adhesive
    • B65B13/327Hand tools

Definitions

  • the invention relates to a mobile strapping device for strapping of packaged goods with a strapping, the clamping device for applying a
  • Energy storage for storing energy, as the drive energy for motor drive movements at least for the Verbind ⁇ ngs adopted and / or for the
  • Clamping device is releasable, has.
  • Such mobile strapping device are used for strapping of packaged goods with a plastic tape.
  • a loop of the respective plastic strip is placed around the packaged goods.
  • the plastic tape is here deducted from a supply roll.
  • the end portion of the band overlaps with a portion of the band loop.
  • the strapping device is then applied to this two-layer region of the band, in which case the band is clamped in the strapping device, a band tension is applied to the band loop by means of the tensioning device and a closure is produced by means of the connection device at the loop between the two band layers.
  • closure technologies possible, among others, the friction welding.
  • the belt loop is pressed onto the belt with an oscillatingly moving friction shoe in the region of two ends.
  • the pressure and the heat generated by the movement melts the usually plastic-containing band locally for a short time. This creates between the two band layers a permanent and at most with great force again to be solved connection between the two band layers.
  • the loop is separated from the supply roll. The respective packaged goods are thereby strapped.
  • Such strapping devices generally have a rechargeable and optionally replaceable accumulator for supplying energy, with which DC motors are supplied with electrical energy.
  • the DC motors are provided in the portable mobile strapping devices for generating drive movements of the tensioning device and / or the welding device.
  • Such generic mobile strapping devices are often used in industry for the packaging of goods in continuous use. It is therefore desirable as simple as possible operation of the strapping devices. This is on the one hand a high reliability of the strapping device connected to the generation of high quality strapping and on the other hand the lowest possible loads for the serving people to be ensured. Previously known strapping tools can not be completely satisfactory in this respect.
  • the invention is therefore an object of the invention to provide a generic mobile strapping device of the type mentioned, which has a high reliability and good handling properties despite the possibility of at least largely automated generation of tape strapping.
  • a strapping device of the type mentioned in the present invention that the energy storage has a lithium-ion battery, with the energy to drive a trained as a friction welding device connection device is available. It has been found that particularly good reliability can be achieved with such accumulators, since these accumulators provide sufficient energy to perform a high number of Umreifungszyklen with mobile strapping, even if applied high band tensions and at least largely automated strapping processes with motor Drive movements should take place.
  • lithium-ion batteries in combination with friction-welding devices can be considered as an ideal complement to other storage devices for electrical energy.
  • the friction welding process as such is dependent on the pressure of the two belts on one another and on the frequency of the oscillatingly moving welding shoe or welding element.
  • frequencies of the welding shoe of approx. 250 - 300 Hz with a contact pressure of 300 - 350 N are aimed for.
  • a speed of an eccentric driving the welding shoe of approximately 6000 rpm to 7000 rpm 5 is required on the drive side.
  • a welding process takes place in a period of 1, 5 seconds to 2 seconds.
  • the supply voltage provided by lithium-ion accumulators 0 drops to values which should be avoided in friction-welding processes.
  • the signal for charging can also be provided as an indication to the user, that from now on the required quality of the subsequently generated strapping no longer exists.
  • lithium-ion batteries in conjunction with at least one brushless DC motor as a drive for the clamping device and / or friction welding.
  • This can be further increased by a planetary gear, especially if the at least one planetary gear together with the brushless DC motor and the lithium-ion battery in the
  • a speed-dependent tensioning operation also enables a quick first tensioning, i. a tensioning at a high belt retraction speed, followed by a second tensioning operation with reduced belt retraction speed compared to the first tensioning operation.
  • the belt retraction speeds can be adjusted in particular in such brushless motors due to the possibility of the speed of the motor shaft and the engine torque in certain areas independently adjust the required in the two clamping operations the desired conditions.
  • Independent meaning can also have a design of the strapping device, in which the tensioning device and the welding device are provided with only one common drive.
  • This only one drive can preferably be designed as an electric motor, with the drive movement successively the clamping device and the friction welding device can be driven.
  • a motor not only the drive movement of the welding process itself, but also a movement of the friction welding device from a rest position to a welding position in which a welding element of the friction welding device rests on the belt layers to be welded together with pressure and by an oscillating movement the band layers a Reibschweissharm generated.
  • the welding element is the Friction welding device in the rest position preferably inactive and is preferably set only with the beginning of a movement from the rest position in motion.
  • the strapping device is provided with means by which rotational positions of the motor shaft or positions of components of the strapping device that depend on the motor shaft can be determined.
  • the information about one or more rotational positions may preferably be used by a control of the strapping device to control components of the strapping device, such as the friction-welding device and / or the tensioning device.
  • a brushless DC motor is used as the drive, this can be done in a particularly simple manner.
  • Such motors must already for their commutation information about current positions of the rotating component of the engine, which is usually designed as a rotating armature determine.
  • detectors or sensors, such as Hall sensors are provided on the motor, determine the rotational positions of the rotating engine component and provide the engine control available. This information can be used with advantage also in particular for controlling the friction-welding device.
  • a number of revolutions of the rotating component of the engine is determined to make a switching operation when a predetermined value for the revolutions.
  • This switching operation may in particular be a switching off of the friction-welding device to end the generation of a friction-welded connection.
  • the engine can not be turned off at one or more specific rotational positions or can only be parked at one or more specific rotational positions.
  • a toggle device for transferring the welding device from the rest position into the welding position and back.
  • the levers of the toggle device connected to one another via a joint can be overcome by two dead center positions be brought into their two end positions, in which they hold the welding device in the rest position or in the welding position.
  • the toggle device is held at least in the two end positions by a respective force, preferably by a force delivered by a mechanical spring force.
  • the toggle device should only be able to get from one end position to the other by overcoming this force.
  • With the knee lever device can achieve the advantage that end positions of the welding device can only be changed by overcoming relatively high torques.
  • the toggle device Since this applies in particular to the welding position, the toggle device contributes to further increasing the functional reliability of the strapping device. Furthermore, the toggle device complements in an embodiment of the invention in addition to the toggle lever device also a brushless DC motor and a planetary gear having driveline of the strapping device for automated transfer of the welding device in its welding position in an advantageous manner, since all components are able to generate high torques or Only execute movements when high torque is present.
  • FIG. 1 shows a perspective view of a strapping device according to the invention
  • FIG. 2 shows the strapping apparatus from FIG. 1 without housing
  • Fig. 3 is a partially sectioned view of the motor of the strapping apparatus of Fig. 1 together with arranged on the motor shaft
  • FIG. 7 is a side view of the drive train of FIG. 5 with the
  • Fig. 8 is a side view of the drive train of FIG. 5 with the
  • Welding device in a position between two end positions
  • FIG. 9 shows a side view of the drive train from FIG. 5 with the welding device in a welding position
  • FIG. 10 is a side view of the clamping device of the strapping device without housing, in which a clamping rocker is in a rest position.
  • FIG. 11 is a side view of the clamping device of the strapping device without housing, in which a clamping rocker is in a clamping position.
  • FIG. 13 shows the tensioning rocker from FIG. 12 in a front view
  • FIG. 14 shows a detail from FIG. 12 according to the line C - C.
  • the exclusively manually operated strapping device 1 according to the invention shown in FIGS. 1 and 2 has a housing 2 which surrounds the mechanism of the strapping device and on which a handle 3 for handling the device is formed.
  • the Strapping apparatus is further provided with a base plate 4, the underside of which is provided for placement on an object to be packaged. On the base plate 4 and connected to the base plate not shown carrier of the strapping device all functional units of the strapping device 1 are attached.
  • a not shown in Fig. 1 loop of a plastic tape for example, polypropylene (PP) or polyester (PET)
  • the clamping device has for this purpose a tensioning wheel 7, with which the band can be detected for a clamping operation.
  • the tensioning wheel 7 acts together with a rocker 8, which can be pivoted by means of a rocker arm 9 from an end position with distance to the tensioning wheel in a second end position about a rocker pivot axis 8a, in which the rocker 8 is pressed against the tensioning wheel 7.
  • a welding of the two layers by means of the friction-welding device 8 of the strapping device can take place at one point of the belt loop on which two layers of the belt lie one above the other.
  • the strap loop can thereby be permanently closed.
  • the friction-welding device 10 is provided with a welding shoe 11, which melts the two layers of the strapping band by mechanical pressure on the strapping band and a simultaneous oscillating movement with a predetermined frequency.
  • the plasticized or molten areas flow into each other and after cooling of the band then creates a connection between the two band layers. If necessary, then the belt loop can be separated from a supply roll of the tape by means of a cutting device of the strapping device 1, not shown.
  • the operation of the clamping device 6, the delivery of the friction-welding device 10 by means of a transfer device 19 (FIG. 6) of the friction-welding device 10 and the use of the friction-welding device per se and the operation of the cutting device are carried out using only a common electric motor 14, for these components each provides a drive movement.
  • a replaceable and removable in particular for charging accumulator 15 is arranged on the strapping device.
  • a supply of other external auxiliary energy, such as compressed air or other electricity is not provided in the strapping apparatus according to FIGS. 1 and 2.
  • the portable mobile strapping device 1 has a trained as a pressure switch actuator 16, which is provided for commissioning of the motor.
  • actuating element 16 17 three modes can be adjusted by means of a switch. In the first mode, both the tensioning device 6 and the friction-welding device 10 are actuated successively and automatically by actuation of the actuating element 16 without the need for further operator activity.
  • the switch 17 is switched to a second switching mode. In the second possible mode, only the tensioning device 6 is then released by actuating the actuating element 16.
  • a second actuating element 18 must be actuated by the operator.
  • the first actuating element 16 is to be actuated a second time.
  • the third mode is a kind of semiautomatic, in which the tension button 16 is to be pressed until the prestressed tension or tensile stress in the belt is reached. In this mode, it is possible to interrupt the clamping process by releasing the tensioning button 16, for example, to attach edge protectors to the Umreifungsgut under the strapping. By pressing the tension button, the clamping process can then be resumed.
  • This third mode can be combined with a separately triggered as well as with an automatically subsequent friction welding process.
  • a transmission device 13 is arranged.
  • a motor of the company Maxon Motor AG, Brünigstrasse 20, 6072 Sachsein, type ECI40 is used.
  • the brushless DC motor 14 can be operated in both directions of rotation, with one direction of rotation being used as the drive movement of the clamping device 6 and the other direction of rotation being used as the drive movement of the welding device 10.
  • the brushless DC motor 14 shown purely schematically in FIG. 4 is formed with a grooved internal rotor (rotor) 20 with three Hall sensors HS1, HS2, HS3.
  • This EC motor (electronically commutated motor) has a permanent magnet in its rotor 20 and is provided with an electronic control 22 which is provided for electronic commutation in the stator 24.
  • the electronic controller 22 determines via the Hall sensors HS1, HS2, HS3, which also assume the function of position sensors in the embodiment, the respective instantaneous position of the rotor 20 and switches the electric magnetic field in the windings of the stator 24.
  • phase 1 Phase 1, Phase 2, Phase 3
  • phase 2 Phase 3
  • a so-called “1 quadrant motor drive amplifier” is used, which provides the motor with the voltage, as well as peak and continuous current, and regulates the current flow for coil strands of the stator 24 (not shown) via a bridge circuit 25 (MOSFET transistors).
  • a temperature sensor (not shown) is provided on the motor to monitor and control the direction of rotation, speed of rotation, current limitation and temperature
  • the commutation is built as a separate printed circuit board and placed separately from the motor in the strapping unit.
  • the power supply is ensured by the trained as a lithium-ion battery accumulator 15.
  • Such rechargeable batteries are based on a number of independent lithium-ion cells, in each of which at least substantially independently chemical processes for generating a potential difference between two poles of the respective cell take place.
  • is is a lithium-ion battery manufacturer Robert Bosch GmbH, D-70745 Leinfelden-Echterdingen.
  • the battery of the embodiment has eight cells and has a capacity of 2.6 ampere hours.
  • As an active material or as a negative electrode of the lithium-ion battery graphite is provided.
  • the positive electrode of the accumulator often has lithium metal oxides, in particular in the form of layer structures.
  • the electrolyte used is usually anhydrous salts, such as lithium hexafluorophosphate or polymers.
  • the voltage delivered by a conventional lithium-ion battery is usually 3.6 volts.
  • the energy density of such accumulators is about 100 Wh / kg - 120 Wh / kg.
  • the transmission device 13 has a freewheel 36 arranged on the motor-side drive shaft, on which a sun gear 35 of a first planetary gear stage is arranged.
  • the freewheel 36 is only in one of the two possible directions of rotation of the drive, the rotational movement of the sun gear 35 on.
  • the Son ⁇ enrad 35 meshes with three Planetary wheels 37, which are in a conventional manner in engagement with a fixed ring gear 38.
  • Each of the planet gears 37 is in turn arranged on a respective shaft 39 associated therewith, which is in each case integrally connected to a driven gear 40.
  • the rotation of the planet gears 37 about the motor shaft 27 results in a rotational movement of the driven gear 40 about the motor shaft 27 and determines a rotational speed of this rotational movement of the output gear 40.
  • the output gear 40 is located on the freewheel 36 and is therefore also on the motor shaft stored.
  • This freewheel 36 causes both the sun gear 35 and the output gear 40 rotate only in one direction of rotation of the rotational movement of the motor shaft 27.
  • the freewheel 29 may for example be of the type INA HFL0615, as offered by the company Schaeffler KG, D-91074 Herzogenaurach.
  • the gear device 13 has on the motor-side output shaft 27 also a belonging to a second planetary gear toothed sun gear 28, through the recess while the shaft 27 is performed, in this case, the shaft 27 is not connected to the sun gear 28.
  • the sun gear is fixed to a disc 34, which in turn is connected to the planetary gears 37.
  • the rotational movement of the planet gears 37 about the motor-side output shaft 27 is thus transferred to the disc 34, which in turn transmits its rotational motion rotationally identical to the sun gear 28.
  • the sun gear 28 meshes with a plurality of planet gears, namely three, each arranged on a parallel to the motor shaft 27 extending shaft 30 gears 31.
  • the shafts 30 of the three gears 31 are fixedly arranged, ie they do not rotate about the motor shaft 27.
  • the three gears 31 are in turn with an internally toothed ring gear engaged, which has on its outer side a cam 32 and hereinafter referred to as cam wheel 33.
  • the sun gear 28, the three gears 31 and the cam 33 are components of the second Planetengetriebest ⁇ fe.
  • the planetary gear on the input side Rotationsbewegegung the shaft 27 and the rotational movement of the cam wheel 33 are in a ratio of 60: 1, ie by the two-stage planetary gear is a 60-fold reduction takes place.
  • a bevel gear 43 is also arranged on a second freewheel 42, which is in engagement with a second bevel gear, not shown.
  • This freewheel 42 also transmits only in one direction of rotation of the motor shaft 27
  • the second bevel gear is arranged at one end of a clamping shaft, not shown, which carries at its other end another planetary gear 46 (Fig. 2).
  • the drive movement of the electric motor in a certain direction of rotation is thus transmitted to the two bevel gears 43 to the clamping shaft.
  • a sun gear 47 and d ⁇ ei planetary gears 48 this is the internally toothed ring gear designed clamping wheel 49 of the clamping device 6 is set in rotation.
  • the provided on its outer surface with a surface structure tensioning wheel 7 takes in its rotational movement, the respective strap through a frictional engagement, whereby the intended belt tension is applied to the belt loop.
  • the output gear 40 is formed in the region of its outer circumferential surface as a gear on which a toothed belt 50 of an envelope drive is arranged (Fig. 5 and Fig. 6).
  • the toothed belt 50 also wraps around a relative to the output gear 40 in diameter smaller pinion 51, whose shaft drives an eccentric 52 for an oscillating reciprocating movement of the welding shoe 53.
  • a toothed belt drive and any other form of enveloping drives could be provided, such as a V-belt or chain drive.
  • the eccentric drive 52 has an eccentric shaft 54, on which an eccentric 55 is arranged, on which in turn sits a welding shoe arm 56 with a circular recess.
  • the eccentric rotational movement of the eccentric 55 about the axis of rotation 57 of the eccentric shaft 54 leads to a translational oscillating reciprocating motion of the welding shoe 53.
  • Both the eccentric 52 and the welding shoe 53 itself can also be formed in any other manner known per se.
  • the welding device is further provided with a knee lever device 60, by means of which the welding device can be transferred from a rest position (FIG. 7) to a welding position (FIG. 9).
  • the toggle device 60 is attached to the welding shoe arm 56 and in this case provided with a pivotable on Schweissschuharm 56 longer toggle lever 61.
  • the toggle device 60 is further provided with a pivotable about a pivot axis 62 pivoted pivot member 63 which acts in the toggle lever 60 as a shorter toggle.
  • the pivot axis 62 of the pivot member 63 in this case runs parallel to the axes of the motor shaft 27 and the eccentric shaft 57th
  • the pivoting movement is initiated by means of the cam 32 of the cam wheel 33, which passes in the counterclockwise rotational movement - with reference to the illustrations of FIGS. 7 to 9 - of the cam wheel 33 under the pivoting element 63 (FIG. 8).
  • a ramp-like rising surface 32a of the cam 32 in this case touches an inserted into the pivot member 63 contact element 64.
  • the pivot member 63 is thereby rotated clockwise about its pivot axis 62.
  • a two-part longitudinally adjustable toggle lever of the toggle lever 61 is pivotable about a pivot axis 69.
  • the latter is also located at an articulation point 65 of the welding shoe arm 56 in the vicinity of the pivot axis 65 Welding shoe 53 and pivoted at a distance from the pivot axis 57 of the welding shoe arm 56.
  • a compression spring Between the Both ends of the longitudinally adjustable toggle rod is a compression spring on this
  • Swivel axis 62 By operating the cam wheel 33, the pivoting element 63 - in relation to the illustrations of Figs. 7 to 9 - is rotated in the clockwise direction.
  • the toggle lever 61 is taken from the pivot member 63 with.
  • Fig. 8 an intermediate position of the toggle lever 61 is shown, in which the connecting line 68 of the articulation points 65, 69, the pivot axis 62 of the pivot member 63 intersects.
  • the toggle lever 61 In the end position of the movement (welding position) shown in Fig. 9, the toggle lever 61 is with its connecting line 68 with respect to the cam wheel 33 and the rest position on the other side of the pivot axis 62 of the pivot member 63.
  • the drive movement of the electric motor which runs counterclockwise in the representation of FIGS. 6 and 9, is transmitted from the toothed belt 50 to the welding shoe 53 which has now been transferred into the welding position by the toggle lever device 60, which is pressed onto the two band layers and moves in an oscillating motion. and moved here.
  • the welding time for generating a Reibschweisstress is determined by the fact that the adjustable number of revolutions of the cam wheel 33 is counted from the time from which the cam 32, the contact element 64 is actuated. This is the number of revolutions the shaft 27 of the brushless DC motor 14 counted to determine the position of the cam wheel 33, from which the engine 14 is turned off and thus the welding process is to be terminated.
  • the described successive processes “clamping” and “welding” can be triggered jointly in a switching state of the actuating element 16.
  • the actuating element 16 is to be actuated once, whereby the electric motor 14 first runs in the first direction of rotation and in this case (exclusively) the tensioning device 6 is driven.
  • the band tension to be applied to the respective band may be at the strapping device preferably by means of a pushbutton in nine stages, the nine different
  • Band voltage values correspond to be set.
  • a continuous adjustment of the belt tension could be provided. Since the
  • Control electronics of the strapping device can be adjusted.
  • the motor 14 After reaching an adjustable and thus predeterminable limit value for the motor current or for the belt tension, the motor 14 is controlled by its controller 22 switched off. Immediately thereafter, the motor is operated by the controller 22 in the reverse direction of rotation. As a result, in the manner described above, the welding shoe 53 is lowered onto the two superposed belt layers and the oscillating movement of the welding shoe is carried out to produce the friction-welded connection.
  • the actuator 16 By operating the switch 17, the actuator 16 can be occupied only with the function of triggering the clamping device. If such a setting is made, only the clamping device is put into operation by pressing the actuator and turned off again after reaching the preset belt tension. In order to trigger the Reibschweissvorgang the second actuator 18 must be actuated. However, apart from the separate triggering, the function of the friction welding device is identical to the other mode of the first actuating element.
  • the rocker 8 can execute pivoting movements about the rocker axis 8a by actuating the rocker lever 9 shown in FIGS. 2, 10, 11.
  • the rocker is moved by means of a rotatable cam disc which is not visible behind the tensioning wheel 7 and therefore not visible in FIG.
  • the cam can perform a rotational movement of about 30 ° and move the rocker 8 and clamping plate 12 relative to the tensioning wheel 7, which allows insertion of the tape in the strapping or between the tensioning wheel 7 and clamping plate 12.
  • toothed clamping plate 12 can be pivoted from a rest position shown in Fig, 10 in a resulting from Fig. 11 clamping position and back again.
  • the clamping plate 12 In the rest position, the clamping plate 12 has a sufficiently large distance to the tensioning wheel 7, so that a strapping between the tensioning wheel and the clamping plate can be arranged in two layers, as is required for the formation of a closure on a belt loop.
  • the clamping plate 12 is pressed in a conventional manner, for example by means of a force acting on the rocker spring force against the tensioning wheel 7, wherein, unlike in Fig.
  • the toothed surface 12a facing the tensioning wheel 7 (clamping surface) is concavely curved, the radius of curvature corresponding to the radius of the tensioning wheel 7, or slightly greater than 5.
  • the toothed clamping plate 12 is arranged in a groove-shaped recess 71 of the rocker.
  • the clamping plate 12 is provided with a convexly curved contact surface 12b, with which it engages in the recess 71 of the rocker 8 on a flat support surface 72 is stored.
  • the convex curvature extends in a direction parallel to the belt running direction 70, 5, while the contact surface 12b is formed transversely to this direction (FIG. 13).
  • the clamping plate 12 is able to perform in the position in the band running direction 70 relative to the rocker 8 and the tensioning wheel 7 tilting movements. Furthermore, the clamping plate 12 is fastened to the rocker 8 with a screw 73 carried out from below by the rocker. For this purpose, the screw is located in an oblong hole 74 of the rocker, whose longitudinal extent runs parallel to the strip path 70 in the strapping device. The clamping plate 12 is thereby additionally arranged longitudinally displaceable on the rocker 8 in addition to the tiltability. 5
  • the tensioning rocker 8 is transferred from the rest position (FIG. 10) into the tensioning position (FIG. 11). In the clamping position, the spring-loaded rocker 8 presses the clamping plate 12 in the direction of the tensioning wheel and clamps both tape layers between the tensioning wheel 7 and the clamping plate 12. Due to different tape thicknesses can be different
  • the clamping plate 12 is directed during the pressing operation of the tape a longitudinal movement in the recess 71 and a tilting movement over the contact surface 12b on the support surface 72 independently so that the clamping plate 12 exerts over its entire length as uniform as possible pressure on the strapping.
  • the tensioning wheel 7 is turned on, the teeth of the clamping plate 12 holds the lower band position, while the tensioning wheel 7 detects the upper band position with its toothed peripheral surface 7a.
  • the rotational movement of the tensioning wheel 7 and the lower coefficient of friction between the two belt layers then causes the tensioning wheel to retract the upper belt ply and thus increase the tension in the belt loop to the desired tension value.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Basic Packing Technique (AREA)
EP09734679A 2008-04-23 2009-01-06 Umreifungsvorrichtung mit einem energiespeicher Ceased EP2285689A1 (de)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
CH6472008 2008-04-23
PCT/CH2009/000003 WO2009129635A1 (de) 2008-04-23 2009-01-06 Umreifungsvorrichtung mit einem energiespeicher

Publications (1)

Publication Number Publication Date
EP2285689A1 true EP2285689A1 (de) 2011-02-23

Family

ID=40445863

Family Applications (1)

Application Number Title Priority Date Filing Date
EP09734679A Ceased EP2285689A1 (de) 2008-04-23 2009-01-06 Umreifungsvorrichtung mit einem energiespeicher

Country Status (7)

Country Link
US (1) US9315283B2 (ru)
EP (1) EP2285689A1 (ru)
JP (1) JP2011518087A (ru)
KR (1) KR101653715B1 (ru)
CN (2) CN201411059Y (ru)
RU (1) RU2471688C2 (ru)
WO (1) WO2009129635A1 (ru)

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RU2010147639A (ru) 2012-05-27
US20110056391A1 (en) 2011-03-10
KR20100135274A (ko) 2010-12-24
CN201411059Y (zh) 2010-02-24
CN102046472A (zh) 2011-05-04
RU2471688C2 (ru) 2013-01-10
JP2011518087A (ja) 2011-06-23
US9315283B2 (en) 2016-04-19
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CN102046472B (zh) 2016-04-06
KR101653715B1 (ko) 2016-09-02

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