WO2021087625A1 - Spool unloading device - Google Patents
Spool unloading device Download PDFInfo
- Publication number
- WO2021087625A1 WO2021087625A1 PCT/CA2020/051519 CA2020051519W WO2021087625A1 WO 2021087625 A1 WO2021087625 A1 WO 2021087625A1 CA 2020051519 W CA2020051519 W CA 2020051519W WO 2021087625 A1 WO2021087625 A1 WO 2021087625A1
- Authority
- WO
- WIPO (PCT)
- Prior art keywords
- spool
- unloading device
- tape
- drive mechanism
- spindle
- Prior art date
Links
- 239000000463 material Substances 0.000 claims abstract description 120
- 230000007246 mechanism Effects 0.000 claims abstract description 41
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Classifications
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- B65H51/00—Forwarding filamentary material
- B65H51/20—Devices for temporarily storing filamentary material during forwarding, e.g. for buffer storage
- B65H51/22—Reels or cages, e.g. cylindrical, with storing and forwarding surfaces provided by rollers or bars
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B25—HAND TOOLS; PORTABLE POWER-DRIVEN TOOLS; MANIPULATORS
- B25J—MANIPULATORS; CHAMBERS PROVIDED WITH MANIPULATION DEVICES
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B25—HAND TOOLS; PORTABLE POWER-DRIVEN TOOLS; MANIPULATORS
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- B65H19/18—Attaching, e.g. pasting, the replacement web to the expiring web
- B65H19/1842—Attaching, e.g. pasting, the replacement web to the expiring web standing splicing, i.e. the expiring web being stationary during splicing contact
- B65H19/1852—Attaching, e.g. pasting, the replacement web to the expiring web standing splicing, i.e. the expiring web being stationary during splicing contact taking place at a distance from the replacement roll
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- B65H59/38—Adjusting or controlling tension in filamentary material, e.g. for preventing snarling; Applications of tension indicators by regulating speed of driving mechanism of unwinding, paying-out, forwarding, winding, or depositing devices, e.g. automatically in response to variations in tension
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- B65H2404/50—Surface of the elements in contact with the forwarded or guided material
- B65H2404/53—Surface of the elements in contact with the forwarded or guided material with particular mechanical, physical properties
- B65H2404/531—Surface of the elements in contact with the forwarded or guided material with particular mechanical, physical properties particular coefficient of friction
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- B65H2404/50—Surface of the elements in contact with the forwarded or guided material
- B65H2404/53—Surface of the elements in contact with the forwarded or guided material with particular mechanical, physical properties
- B65H2404/539—Surface of the elements in contact with the forwarded or guided material with particular mechanical, physical properties other
- B65H2404/5391—Surface of the elements in contact with the forwarded or guided material with particular mechanical, physical properties other adhesive properties
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- B65H2406/30—Suction means
- B65H2406/31—Suction box; Suction chambers
- B65H2406/312—Suction box; Suction chambers incorporating means for transporting the handled material against suction force
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- B65H2557/00—Means for control not provided for in groups B65H2551/00 - B65H2555/00
- B65H2557/50—Use of particular electromagnetic waves, e.g. light, radiowaves or microwaves
- B65H2557/51—Laser
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- B65H37/00—Article or web delivery apparatus incorporating devices for performing specified auxiliary operations
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Definitions
- the present disclosure relates to an automated apparatus for application of adhesive tape on a substrate.
- Adhesive-backed tape is commonly applied to body surfaces, interior and exterior claddings and panels (e.g. trim, moldings, covers, trays, panels, doors and hatches) of a vehicle (e.g., an automobile, aircraft, or watercraft), or structures (e.g. buildings, HVAC units).
- a vehicle e.g., an automobile, aircraft, or watercraft
- structures e.g. buildings, HVAC units.
- an adhesive-backed tape mounted around the periphery of a cladding on a vehicle component provides a seal which helps to control water intrusion, and reduce cabin noise due to wind when the vehicle is in motion, as well as control dust intrusion into the cabin and engine parts.
- Such tapes may be manually installed, however such a process is not only slow, but labour intensive, and prone to human error.
- the application process may not be uniform, predictable or reproducible.
- a spool unloading device comprising: a spindle; a first bulk spool of material is mounted on the spindle, wherein the spindle is rotatably controlled to dispense the material; a series of pulleys for receiving the unspooled material such that a variable length of the material is stored within the device before exiting the device to an upstream equipment; and a material drive mechanism for indexing the unspooled material exiting the spool unloading machine at a controlled rate.
- the spool unloading device is useful in an exemplary robotized tape application system, and allows for faster application rates, and increased efficiency; accurate and consistent application of the tape; reduced labor costs and increased flexibility by allowing for longer application times, and application of tape in more complex paths on the substrate.
- the robotized tape application minimizes human intervention and human error during runtime.
- Figure la shows a perspective view of an exemplary robotic adhesive tape application system
- Figure lb shows an exemplary tape
- Figure lc shows another exemplary tape
- Figure Id shows a roll of the exemplary tape
- Figure le shows spools of the exemplary tape
- Figures 2a to 2c show perspective views of an exemplary spool payout device
- Figure 3 shows a perspective view of an exemplary applicator head
- Figure 4 shows a view of an exemplary application tip
- Figures 5a-c show a flowchart outlining exemplary steps for a method for applying an adhesive tape to a substrate or a surface; and [0015] Figure 6 shows an exemplary computing system.
- FIG. 10 there is shown a robotic tape applicator system for attaching a tape to a receiving surface or a substrate, generally identified by numeral 10, in an exemplary embodiment.
- Figures lb and lc show tape 11, such as adhesive tape, or double-sided tape, comprising material 12 and tape liner 13, while Figures Id and le show a roll and spool of adhesive lined tape 11, respectively.
- System 10 comprises payout device 14 which feeds adhesive tape 11 into flexible conduit 15 terminating at adhesive tape applicator head 18 mounted on robotic arm 19 of an industrial robot 20 with various axis configurations.
- the industrial robot may include six axes, or six degrees of freedom, which allow for greater flexibility.
- flexible conduit 15 bends as needed based on the movements of robotic arm 19.
- Flexible conduit 15 comprises infeed conduit 16 through which adhesive tape 11 is conveyed from payout device 14 to applicator head 18, and alongside flexible infeed conduit 16 is flexible outfeed conduit 21 which transports liner 13 which is removed from material 12 and dispensed during the application process.
- payout device 14 comprises payout spool shaft 30 rotatably attached to the mounting frame 32, and payout spool shaft or spindle 30 receives payout spool 34 of adhesive tape 11.
- elastomeric adhesive lined tape 11 include, but are not limited to, crushed ethylene propylene diene monomers (EPDM); neoprene closed cell; expanded polyvinyl chloride (PVC); polyethylene; acrylic foam tapes (e.g. very high bond (VHB) tape); weld-thru tapes, sealer tapes, electrical circuit tapes, heat activated tapes.
- Material 11 may include a range of widths, thickness and length depending on the application.
- material 11 comprises a width ranging from 1.5mm to 25mm or material thickness ranges from 0.05mm to 20mm.
- adhesive tape 11 can be fed from any type of tape dispensing means or tape supply means, such as a conveying platform.
- Payout device 14 also comprises system controller 40 which exchanges signals with associated components, such as, sensors, motors, actuators, and communicates with robotic arm 19, and applicator head 18 and other components, to provide tape 11 on demand as called for by applicator head 18 in a relatively fast, accurate and consistent manner.
- Human machine interface 42 is communicatively coupled to system controller 40 for inputting program instructions and configure system 10 settings, and outputting alerts, warnings, notifications and displaying system 10 settings.
- System controller 40 comprises board logic or programmable circuitry or a processor.
- payout spool 34 of tape 11 is unwound by toggling spool brake 44 on and off, and tape 11 is fed through a series of lower pulleys 46 and upper pulleys 48 of tape material accumulator 50.
- a spool motor is controllable to initiate and stop rotation of payout spool shaft 30 or regulate the rotational speed of payout spool shaft 30.
- Pulleys 46, 48 accumulate tape 11 for on the fly spool changes, and account for any feeding variances, as will be explained later.
- Lower pulleys 46 are mounted on lower pulley arm 52, and upper pulleys are mounted on upper pulley arm 54.
- Lower pulley arm 52 slides vertically, such that the position of lower pulley arm 52 determines the length of tape 11 stored in accumulator 50. As tape 11 is dispensed, lower pulley arm 52 rises, and the amount of stored tape 11 decreases. As an example, in the upper most position of lower pulley arm 52 there may be 2 meters of tape 11 in accumulator 50, while in the lower most position of lower pulley arm 52 there could be as much as 20 meters of tape 11 depending on the number of pulleys 46, 48 and windings of tape 11.
- Accumulator position sensor 60 is mounted on frame 32 of accumulator 50 to detect the position of movable lower pulley arm 52, and spool level sensor 68 detects amount of tape 11 on payout spool 34.
- Accumulator position sensor 60 comprises a plurality of set points e.g. lower limit and upper limit. For example, when lower pulley arm 52 passes the upper limit set point spool brake 44 is released to allow new tape 11 to feed into accumulator 50, as lower pulley arm 52 falls under the force of gravity, spool 34 unwinds and accumulator 50 fdls with tape 11. When lower pulley arm 52 passes the lower limit set point brake 44 is re-applied to stop spool 34 unwinding.
- tape 11 exits accumulator 50 into payout drive mechanism 70, which indexes tape 11 out towards robotic arm 19 via flexible infeed conduit 16 at a controlled, metered rate as it is called for by applicator head 18.
- Drive mechanism 70 may include servo motors or stepper motors, pulleys, to control the advancement of tape 11 to applicator head 18.
- spool level sensor 68 indicates spool 34 is empty, or close to being completely depleted
- payout device 14 switches into a spool change mode, as will be described later.
- accumulator 50 is associated with at least one accumulator position sensor 60 which determines a numerical position of tape 11 in accumulator 50, ranging from a predefined low threshold to a predefined high threshold.
- accumulator position sensor 60 comprises a plurality of sensors located at different positions associated with the lower limit and the higher limit.
- Payout drive mechanism 70 comprises fluid amplifier 72 which creates a vacuum effect inside therein to effectively reduce frictional forces between tape 11 and the interior wall of flexible conduit 16 as tape 11 is fed along flexible conduit 16 towards applicator head 18. The vacuum is activated only when payout drive mechanism 70 is feeding new tape 11.
- tape 11 exits flexible tube 16 at robotic applicator head 18, and tape 11 is wound around material buffer 80 by buffer refill mechanism 82.
- material buffer 80 is a loop of tape 11, or a reserve, of variable size, which accounts for feeding variances between payout drive mechanism 70 and head drive mechanism 90 and promotes application of consistent tension to tape 11 , or controls the tension forces associated with tape 11.
- buffer refill mechanism comprises resilient means and a slide mechanism, such that as material buffer 80 shrinks, sensor 92 detects the level of compressed buffer loop 101 and commands payout drive mechanism 70 to send more tape 11 causing material buffer 80 to grow again.
- Material buffer 80 is associated with buffer sensor 92 which determines a numerical position of material buffer 80, ranging from a predefined low threshold to a predefined high threshold. When material buffer 80 reaches the low threshold payout drive mechanism 70 is called upon to feed additional tape 11 to refill material buffer 80. When the buffer reaches the high threshold payout drive mechanism 70 is shut off.
- the numerical data being measured by position sensor 92 can predict tape 11 jams and tape 11 breakages and shut down system 10, thereby minimizing any possible further damage or equipment faults.
- head drive mechanism 90 is actuated and feeds tape 11 from material buffer 80 towards the application tip 100.
- head drive mechanism 90 may include servo motors or stepper motors to control the advancement of tape 11 to applicator tip 100.
- head drive mechanism 90 comprises a set of rollers or gears coupled to an electric motor, and configured to pull tape 11 around application tip 100, as shown in Figures 3 and 4.
- Material 12 is peeled off liner 13, or vice versa, by virtue of the geometry of application tip 100, which comprises rounded member 102, exposing the adhesive layer.
- Material 12 is advanced to application tip 100 prior to the commencement of the application of material 12 to the substrate, and buffer 101 includes a loop of tape 11 which accounts for feeding variances between payout drive mechanism 70 and head drive mechanism 90 and to ensure consistent tension is applied to tape 11 , and assist with peeling off liner 13, and feeding tape 11.
- robotic arm 19 moves to the start position on the substrate and applicator head 18 begins to apply material 12 along a predefined application path while sending a feed command to actuate head drive mechanism 90 to index more tape 11, as needed.
- the predefined paths may be linear, nonlinear, three-dimensional, and so forth.
- specialized hardware associated with robotic arm 19 determines the speed of robotic arm 19 movements, and transmits that speed to system controller 40, and the speed of head drive mechanism 90 is automatically adjusted to match the speed of the movements of the robotic arm 19. In other instances, the speeds may be calculated and manually adjusted in the program. With the aid of encoders or other tracking means, system controller 40 can determine the amount of tape 11 passing under applicator tip 100, including the precise location where tape 11 is to be applied.
- wet-out roller 104 associated with applicator head 18 follows the path of applied material 12 and applies pressure to material 12 to enhance adherement; or activate the adhesive on pressure-sensitive adhesive tapes 11.
- an additional tool is used to apply adhesion promoter on the substrate, such as along the predefined application path, before material 12 is applied.
- a vision system may be used to detect the presence of adhesion promoter on the substrate, and automatically apply material 12 to the sensed locations on the substrate.
- applicator head 18 reaches the end of its pre-programmed application path it sends a command to system controller 40.
- a cut sequence commences, and entails commanding blade actuator 95 to actuate and cause straight blade 106 to sever tape 11.
- Straight blade 106 performs a precision kiss cut by severing material 12 without severing liner 13 underlying material 12. Accordingly, the speed and depth of straight blade 106 into material 12 is precisely calibrated and stored in the calibration parameters in memory means associated with system controller 40, and may be dependent on the thickness of material 12 and liner 13. Alternatively, the speed and depth of straight blade 106 into material 11 is precisely calibrated via mechanical means. For example, a positioning device comprising one of a threaded adjuster, an eccentric lobe, and a stop capable of modification to suit a predetermined thickness, for performing adjustments. Blade actuator 95 may be any one a fluidic muscle, electric actuator, pneumatic actuator, and a hydraulic actuator.
- robotic arm 19 Upon completion of the cut, robotic arm 19 makes a final move to apply the last millimeters of material 12 up to the cut location and rolls material 12 with wet-out roller 104.
- blade 106 may be serrated or non-serrated, angled, curved, or heated to enhance the cutting sequence.
- outfeed tube 21 includes outfeed fluid amplifier 73 to pull the spent liner 13 away from applicator head 18 towards payout device 14, where used liner 13 is collected in a disposal bin 110.
- Payout device 14 may include cutting device 66 to cut used liner 13 to manageable sizes to facilitate disposal.
- robotic arm 19 in a cell receives a start command from an external source having programmed instructions to apply adhesive tape 11 along a predefined path on a substrate.
- robotic arm 19 moves to a start position and the external source sends a robot in position signal (204), and system controller 40 determines whether payout device 14 is in auto mode (205)
- system controller 40 activates fluid amplifier 73 (211), otherwise system controller 40 determines the conditions of accumulator 50 and payout spool 34 based on the status signals from the accumulator sensor 60, and spool level sensor 68, step 206.
- operator instructs system controller 40 to reset payout device 14 to home position (208) and switches payout device 14 to auto mode (209).
- step 210 system controller 40 determines whether payout device 14 is in auto mode, and when payout device 14 is not in auto mode the process returns to step 206, otherwise system controller 40 activates payout drive mechanism 70, fluid amplifier 72 to feed material 11 along flexible infeed conduit 16 towards applicator head 18 (211), including head drive mechanism 90 to feed material 11 to the application tip 100 (212).
- robotic arm 19 commences applying tape 11 along the predefined path on the substrate, and head drive mechanism 90 indexes material 11 in relation to robotic arm 19 movement. As material 11 is applied to the substrate, the length of material 11 in buffer loop 101 of applicator head 18 diminishes (215), and system controller 40 continually determines the level of buffer 101 based on the output signals from buffer sensor 92 (222).
- robotic arm 19 stops and signals system controller 40 (216), and system controller 40 issues a command to head drive mechanism 90 to stop indexing material 11 and another command to applicator head 18 to actuate straight blade 106 to sever material 11 (217), and the process continues with robotic arm 19 applying material 11 at a new location of the predefined path, or another predefined path on the substrate.
- robotic arm 19 completes the final path movement to apply the remainder of material 11, and payout device 14 issues a cycle complete signal to the external source (219), and the cycle ends.
- step 215 As material 11 is applied to the substrate, in step 215, the length of material 11 in buffer 101 of applicator head 18 diminishes (220), and system controller 40 continually determines the level of buffer 101 based on the output signals from buffer sensor 92 (222). If the level of buffer 101 is within a predefined threshold then the process continues (224), otherwise a request for more material 11 is made (226) and system controller 40 activates fluid amplifier 72 to facilitate transport of material 11 via infeed conduit 16 (228). Payout drive mechanism 70 indexes material 11 to applicator head 18 to replenish buffer loop 101 (230), and system controller 40 determines whether the level of buffer 80 is within the predetermined levels based on the output signals from buffer sensor 92 (232).
- step 224 a determination is made as to whether material 11 feeding has timed out (234), if there is a time out then a fault alarm or notification is issued by system controller 40 alerting an operator to rectify the situation (236), otherwise the process returns to step 232.
- step 215 As material 11 is applied to the substrate the length of material 11 in buffer 80 and accumulator 50 also diminishes (238), spool brake 44 is released (240) and lower pulley arm 52 lowers by way of gravity (242), and system controller 40 determines whether the lower threshold has been flagged based on the output from accumulator sensor 60 when lower limit set point is triggered (244). When the lower threshold has been flagged then spool brake 44 is re-applied (246) and the process returns to step 238; otherwise the process proceeds to step 248 where system controller 40 determines the level of payout spool 34 based on the output from payout spool sensor 68.
- payout spool sensor 68 indicates that payout spool 34 is empty then a fault alarm or notification is issued by system controller 40 to alert an operator to rectify the situation (250), otherwise system controller 40 determines whether accumulator 50 upper threshold has been flagged (252) based on output signals from accumulator sensor 60.
- depleted spool 34 may be swapped for a new spool 34 of material 11 without interrupting the application cycle in progress. Accordingly, the spool 34 changeover minimizes production downtime. If upper threshold has not been flagged then operation continues (253), otherwise material clamp 36 on incoming side of accumulator 50 is actuated (254) to clamp the new material 11 entering accumulator 50. In step 255 system controller 40 issues an alert notifying an operator to change spool 34.
- payout device 14 continues to index material 11 to applicator head 18 by using up reserve material 11 (e.g. up to 20 meters) stored in accumulator 50, while operator swaps spools 34 within a predefined swap time i.e. the amount of time to complete a spool 34 change (256).
- the predefined swap time may be determined by dividing the length (meters) of the reserve material 11 in accumulator 50 by application rate of material 11 (meters per minute). For example, for a material 11 reserve of 20 meters, and an application rate of 1 meter per minute, then the predefined swap time is 20 minutes.
- the predefined swap time depends on the cycle time of system 10, user preferences and settings.
- step 257 when system controller 40 determines that the spool change and the splice process is completed before lower pulley arm 52 passes upper limit of sensor 60, then the process proceeds to step 266, otherwise operation of payout device 14 is halted by system controller 40 (258) and operator is alerted by system controller 40 to change spool 34 (256).
- Operator cuts material 11 at splice location (259) and operator removes empty spool 34 and loads a new full spool 34 (260).
- operator creates splice joint to join an end of new material 11 to an end of in-progress material 11 clamped before accumulator 50 (262).
- Splicing fixture 65 is provided to make these splices expeditiously, and in a consistent manner.
- a command is input via human machine interface 42 to indicate completion of the task (264).
- System controller 40 receives the completion signal and deactivates material clamp 36 (266) and accumulator 50, which was depleted during the splice sequence as per normal operation, refills (268).
- the purge cycle consists of applying material 11 with the splice to disposal surface, that is, not on the predefined application path. Once enough material 11 has been purged to ensure the splice is eliminated, system 10 resumes normal operation, and the process ends. Alternatively, the operator may load a new spool 260 and thread the new material 11 in the payout device 14 and advance the material 11 to the applicator head 18, that is, without any splice joints.
- adhesive tape 11 can be single- or double-sided tape, in a monolithic or layered format.
- material clamp 36 on the incoming side of accumulator 50 is manually actuated to clamp the new material 11 entering accumulator 50.
- material clamp 36 on the incoming side of accumulator 50 is electrically actuated to clamp the new material 11 entering accumulator 50.
- material clamp 36 on the incoming side of accumulator 50 is pneumatically actuated to clamp the new material 11 entering accumulator 50.
- adhesive tape 11 travels through a delamination device comprising rollers configured to separate material 12 and removable liner 13 from each other temporarily before reapplying material 12 to removable liner 13 to loosen the bond.
- applicator head 18 comprises a vision system, which includes an image capture device to verify the correct application of material 11 on the substrate part or work piece, and identify substrate features or edges to facilitate self-alignment of application tip 100 with the predefined application path.
- applicator head 18 comprises a vision system, which includes a laser profiler to verify the correct application of material 11 on the substrate part or work piece, and identify substrate features or edges to facilitate self alignment of application tip 100 with the predefined application path.
- application tip 100 comprises means for tracking and calculating the amount of material 11 between blade 106 and the application tip 100.
- applicator head 18 comprises a sensor located on the outbound side of applicator tip 100 to sense the presence of material 11 indicating a failed application
- applicator head 18 comprises an attachment containing an adhesion promoter and a device for applying said adhesion promoter to the substrate.
- applicator head 18 comprises an air blower located at the application tip to help peel the material 11 off liner 13.
- liner 13 is collected and severed into smaller manageable pieces.
- applicator head 18 comprises at least one safety device for mounting on industrial robot 20.
- industrial robot 20 is a servo gantry style robot.
- industrial robot 20 is a collaborative robot.
- applicator head 18 is fixed in position and the part to receive material 11 is moved to applicator head 18, that is, a part-to-process strategy.
- the part may be on a robot or any other means of actuation.
- system 10 comprises a ‘quick change’ blade system.
- system 10 comprises one or more safety devices mountable on a collaborative robot to enhance safe operation.
- drive mechanism 70, 90 comprises a linear grip and pull mechanism, such as a walking beam transfer.
- System 10 may be useful in the automotive sector, where material 11 is applied to automotive interior and exterior trim and claddings to reduce noise, seal moisture and to couple components together; and in the construction industry, such as trim and seals for glazing materials e.g. interior and exterior building architectural claddings and HVAC equipment.
- system 10 is coupled to a measurement or data acquisition (DAQ) devices, such as, instruments, smart sensors, data acquisition devices or boards, and any of various types of devices that are operable to acquire and/or store data.
- DAQ measurement or data acquisition
- system controller 40 comprises computing means with computing system 300 comprising at least one processor such as processor 302, at least one memory device such as memory 304, input/output (I/O) module 306 and communication interface 308, as shown in Figure 6.
- processor 302 at least one processor
- memory 304 is capable of storing instructions.
- processor 302 is capable of executing instructions.
- processor 302 may be configured to execute hard coded functionality.
- processor 302 may be embodied as an executor of software instructions, wherein the software instructions may specifically configure processor 302 to perform algorithms and/or operations described herein when the software instructions are executed.
- processor 302 may be embodied as a multi-core processor, a single core processor, or a combination of one or more multi-core processors and one or more single core processors.
- processor 302 may be embodied as one or more of various processing devices, such as a coprocessor, a microprocessor, a controller, a digital signal processor (DSP), a processing circuitry with or without an accompanying DSP, or various other processing devices including integrated circuits such as, for example, an application specific integrated circuit (ASIC), a field programmable gate array (FPGA), a microcontroller unit (MCU), a hardware accelerator, a special-purpose computer chip, Application-Specific Standard Products (ASSPs), System-on-a-chip systems (SOCs), Complex Programmable Logic Devices (CPLDs), Programmable Logic Controllers (PLC), Graphics Processing Units (GPUs), and the like.
- ASIC application specific integrated circuit
- FPGA field programmable gate array
- MCU microcontroller unit
- ASSPs
- Memory 304 may be embodied as one or more volatile memory devices, one or more non-volatile memory devices, and/or a combination of one or more volatile memory devices and non-volatile memory devices.
- memory 304 may be embodied as magnetic storage devices (such as hard disk drives, floppy disks, magnetic tapes, etc.), optical magnetic storage devices (e.g., magneto-optical disks), CD-ROM (compact disc read only memory), CD-R (compact disc recordable), CD- R/W (compact disc rewritable), DVD (Digital Versatile Disc), BD (BLU-RAYTM Disc), and semiconductor memories (such as mask ROM, PROM (programmable ROM), EPROM (erasable PROM), flash ROM, RAM (random access memory), etc.).
- magnetic storage devices such as hard disk drives, floppy disks, magnetic tapes, etc.
- optical magnetic storage devices e.g., magneto-optical disks
- CD-ROM compact disc read only memory
- CD-R compact disc recordable
- CD- R/W compact disc rewritable
- DVD Digital Versatile Disc
- BD Blu-RAYTM Disc
- semiconductor memories such as mask ROM
- EO module 306 is configured to facilitate provisioning of an output to a user of computing system 300 and/or for receiving an input from the user of computing system 300, and send/receive communications to/from the various sensors, components, and actuators of system 10.
- EO module 306 is configured to be in communication with processor 302 and memory 304.
- Examples of the I/O module 306 include, but are not limited to, an input interface and/or an output interface.
- Some examples of the input interface may include, but are not limited to, a keyboard, a mouse, a joystick, a keypad, a touch screen, soft keys, a microphone, and the like.
- processor 302 may include EO circuitry configured to control at least some functions of one or more elements of EO module 306, such as, for example, a speaker, a microphone, a display, and/or the like.
- Processor 302 and/or the EO circuitry may be configured to control one or more functions of the one or more elements of EO module 306 through computer program instructions, for example, software and/or firmware, stored on a memory, for example, the memory 304, and/or the like, accessible to the processor 302.
- computer program instructions for example, software and/or firmware, stored on a memory, for example, the memory 304, and/or the like, accessible to the processor 302.
- Communication interface 308 enables computing system 300 to communicate with other entities over various types of wired, wireless or combinations of wired and wireless networks, such as for example, the Internet.
- the communication interface 308 includes a transceiver circuitry configured to enable transmission and reception of data signals over the various types of communication networks.
- communication interface 308 may include appropriate data compression and encoding mechanisms for securely transmitting and receiving data over the communication networks.
- Communication interface 308 facilitates communication between computing system 300 and I/O peripherals.
- various components of computing system 300 may be configured to communicate with each other via or through a centralized circuit system 310.
- Centralized circuit system 310 may be various devices configured to, among other things, provide or enable communication between the components (302- 308) of computing system 300.
- centralized circuit system 310 may be a central printed circuit board (PCB) such as a motherboard, a main board, a system board, or a logic board.
- PCAs printed circuit assemblies
- system 10 may be coupled to these external devices via the communication, such that system 10 is controllable remotely.
- Embodiments may also be practiced in distributed computing environments where tasks are performed by local and remote processing devices that are linked (either by hardwired links, wireless links, or by a combination thereof) through a communications network.
- program modules may be located in both local and remote memory storage devices.
- system 10 follows a cloud computing model, by providing an on-demand network access to a shared pool of configurable computing resources (e.g., servers, storage, applications, and/or services) that can be rapidly provisioned and released with minimal or nor resource management effort, including interaction with a service provider, by a user (operator of a thin client).
- configurable computing resources e.g., servers, storage, applications, and/or services
- the operations of the methods described herein may be carried out in any suitable order, or simultaneously where appropriate. Additionally, individual blocks may be added or deleted from any of the methods without departing from the spirit and scope of the subject matter described herein. Aspects of any of the examples described above may be combined with aspects of any of the other examples described to form further examples without losing the effect sought.
Landscapes
- Engineering & Computer Science (AREA)
- Robotics (AREA)
- Mechanical Engineering (AREA)
- Textile Engineering (AREA)
- Human Computer Interaction (AREA)
- Coating Apparatus (AREA)
- Adhesive Tape Dispensing Devices (AREA)
- Folding Of Thin Sheet-Like Materials, Special Discharging Devices, And Others (AREA)
- Nozzles (AREA)
- Surgical Instruments (AREA)
- Ship Loading And Unloading (AREA)
- Adhesive Tapes (AREA)
- Lining Or Joining Of Plastics Or The Like (AREA)
- Controlling Rewinding, Feeding, Winding, Or Abnormalities Of Webs (AREA)
- Separation, Sorting, Adjustment, Or Bending Of Sheets To Be Conveyed (AREA)
- Replacement Of Web Rolls (AREA)
Abstract
Description
Claims
Priority Applications (9)
Application Number | Priority Date | Filing Date | Title |
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KR1020227019391A KR20220100000A (en) | 2019-11-08 | 2020-11-09 | Spool Unloading Device |
AU2020377411A AU2020377411A1 (en) | 2019-11-08 | 2020-11-09 | Spool unloading device |
CA3160718A CA3160718A1 (en) | 2019-11-08 | 2020-11-09 | Spool unloading device |
CN202080084850.8A CN114761342A (en) | 2019-11-08 | 2020-11-09 | Reel unloading device |
BR112022008911A BR112022008911A2 (en) | 2019-11-08 | 2020-11-09 | COIL DISCHARGE DEVICE |
EP20884628.7A EP4054964A4 (en) | 2019-11-08 | 2020-11-09 | Spool unloading device |
JP2022552992A JP2023502169A (en) | 2019-11-08 | 2020-11-09 | spool unloading device |
MX2022005582A MX2022005582A (en) | 2019-11-08 | 2020-11-09 | Spool unloading device. |
US17/755,798 US20220388805A1 (en) | 2019-11-08 | 2020-11-09 | Spool unloading device |
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US201962932699P | 2019-11-08 | 2019-11-08 | |
US62/932,699 | 2019-11-08 |
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PCT/CA2020/051517 WO2021087623A1 (en) | 2019-11-08 | 2020-11-09 | Tape applicator head |
PCT/CA2020/051518 WO2021087624A1 (en) | 2019-11-08 | 2020-11-09 | Remote feeding system |
PCT/CA2020/051519 WO2021087625A1 (en) | 2019-11-08 | 2020-11-09 | Spool unloading device |
PCT/CA2020/051516 WO2021087622A1 (en) | 2019-11-08 | 2020-11-09 | Method and system for a robotic tape applicator |
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PCT/CA2020/051517 WO2021087623A1 (en) | 2019-11-08 | 2020-11-09 | Tape applicator head |
PCT/CA2020/051518 WO2021087624A1 (en) | 2019-11-08 | 2020-11-09 | Remote feeding system |
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PCT/CA2020/051516 WO2021087622A1 (en) | 2019-11-08 | 2020-11-09 | Method and system for a robotic tape applicator |
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US (4) | US20220396451A1 (en) |
EP (4) | EP4054964A4 (en) |
JP (4) | JP2023502166A (en) |
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USD1043771S1 (en) * | 2021-05-12 | 2024-09-24 | Innovative Automation Inc. | Payout apparatus |
US20240253841A1 (en) * | 2021-05-12 | 2024-08-01 | Innovative Automation Inc. | Liner folder apparatus |
DE102021206171A1 (en) * | 2021-06-16 | 2022-12-22 | Tesa Se | Application device with a helix feed, robotic device and manufacturing system |
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