EP3374256A1 - Tool setting management system and method configured to pair with the tool to change how the tool can function - Google Patents

Tool setting management system and method configured to pair with the tool to change how the tool can function

Info

Publication number
EP3374256A1
EP3374256A1 EP16751701.0A EP16751701A EP3374256A1 EP 3374256 A1 EP3374256 A1 EP 3374256A1 EP 16751701 A EP16751701 A EP 16751701A EP 3374256 A1 EP3374256 A1 EP 3374256A1
Authority
EP
European Patent Office
Prior art keywords
tool
wireless communication
strap
user
user device
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.)
Withdrawn
Application number
EP16751701.0A
Other languages
German (de)
English (en)
French (fr)
Inventor
Wayne J. SKONIECZNY
Walter L. BOSS
Janusz Figiel
Mark Ragusa
Guido Simon LEINE
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 Industrial Group LLC
Original Assignee
Signode Industrial Group LLC
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
Application filed by Signode Industrial Group LLC filed Critical Signode Industrial Group LLC
Publication of EP3374256A1 publication Critical patent/EP3374256A1/en
Withdrawn legal-status Critical Current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
    • B65B13/02Applying and securing binding material around articles or groups of articles, e.g. using strings, wires, strips, bands or tapes
    • B65B13/025Hand-held 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
    • 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
    • B65B13/30Securing ends of binding material by deforming the overlapping ends of the strip or band
    • B65B13/305Hand 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
    • B65B57/00Automatic control, checking, warning, or safety devices
    • GPHYSICS
    • G05CONTROLLING; REGULATING
    • G05BCONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
    • G05B19/00Programme-control systems
    • G05B19/02Programme-control systems electric
    • G05B19/04Programme control other than numerical control, i.e. in sequence controllers or logic controllers
    • G05B19/042Programme control other than numerical control, i.e. in sequence controllers or logic controllers using digital processors
    • GPHYSICS
    • G05CONTROLLING; REGULATING
    • G05BCONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
    • G05B2219/00Program-control systems
    • G05B2219/30Nc systems
    • G05B2219/31From computer integrated manufacturing till monitoring
    • G05B2219/31104Remote configuration of parameters of controlled devices

Definitions

  • Patent Application No. 15/ (Any. Docket No. 026787- /70028-US), which was filed on May 5, 2016, and is entitled “Tool Setting Management System and Method.” BACKGROUND
  • one known strap tensioning tool is operable to tension a strap until the strap tension reaches a designated strap tension level.
  • the strap tension level is a tool setting of the strap tensioning tool.
  • This known strap tensioning tool enables a user to modify this designated strap tension level if the user desires a higher or lower strap tension. For instance, the user may desire a strap having a width of 1/2 inch (13 millimeters) to have a different strap tension than a strap having a width of 3/4 inch (19 millimeters).
  • the user would modify the tool setting to change the defined strap tension level when switching between using the strap tensioning tool to tension 1/2 inch (13 millimeter) wide straps and 3/4 inch (19 millimeter) wide straps.
  • the fact that these known tools have one or more modifiable tool settings renders these tools more valuable and flexible than their counterparts having non-modifiable tool settings because they can conform to different applications as needed.
  • a user before using a tool having modifiable tool settings, a user ensures the tool is appropriately configured for its intended use by, for each tool setting, confirming that the tool setting is set to the user's desired tool setting value or modifying the tool setting to the desired tool setting value.
  • the user if the user desires to use the known strap tensioning tool to tension 3/4 inch (19 millimeter) wide straps, the user ensures that the strap tension level of the tool is set to the desired strap tension level for 3/4 inch (19 millimeter) wide straps.
  • Known tools having modifiable tool settings typically include one or more mechanical or electromechanical tool setting modification devices.
  • a user can directly physically manipulate the tool setting modification device(s) to modify one or more tool settings.
  • the user must directly physically manipulate a tool setting modification device that is a physical part of the tool.
  • the tool setting modification devices may take any of a variety of forms.
  • mechanical tool setting modification devices can include knobs, levers, or dials
  • electromechanical tool setting modification devices can include button panels or touch screen displays.
  • a tool setting modification device of a known strap tensioning tool enables the user to set the tool's strap tension level anywhere from a lower strap tension level limit to an upper strap tension level limit.
  • Another problem is that providing users the unchecked ability to modify tool settings throughout their entire functional ranges increases the chances that the user will accidentally select an undesired tool setting, which results in suboptimal tool performance. For instance, a user may unknowingly fail to turn a tool setting modification knob of a strap tensioning tool far enough when setting the strap tension level of the strap tensioning device. This results in a lower-than-desired strap tension level. If the user does not realize that the tension level setting is lower than desired and continues to tension straps, those straps will be tensioned to a strap tension level that does not provide the desired performance.
  • Various embodiments of the present disclosure are directed to a tool and a tool setting management system and method that solve the above problems.
  • the tool setting management system of the present disclosure is configured to pair with the tool of the present disclosure to change how the tool can function.
  • the tool of the present disclosure stores a set of a plurality of different available tool settings at which the tool can operate to control certain components of the tool.
  • the tool includes a mechanical or electromechanical tool setting selection device that a user can directly physically manipulate to choose the particular tool setting of the set of available tool settings at which the user desires the tool to operate.
  • the tool prevents the user from selecting any tool setting not included in the stored set of available tool settings, even though the tool could otherwise operate at tool settings not included in the stored set of available tool settings. That is, the tool could operate at any of a first quantity of tool settings, but the tool only enables the user to configure the tool to operate at one of a second, lesser quantity of tool settings.
  • the tool setting management system of the present disclosure enables a user to wirelessly pair (such as via a Bluetooth connection) a user device (such as a smartphone or a computer) with the tool to change the set of available tool settings that the tool stores and employs.
  • a user device such as a smartphone or a computer
  • the user device enables the user to modify the set of available tool settings— such as by changing one of the tool settings of the set, adding a tool setting to the set, or deleting a tool setting from the set— and sends the modified set of available tool settings to the paired tool.
  • a controller of the paired tool replaces the currently-stored set of available tool settings with the modified set of available tool settings.
  • a user can use the tool setting selection device of the tool to select one of the tool settings of the stored modified set of available tool settings at which to operate the tool.
  • the tool prevents the user from selecting any tool setting not included in the stored modified set of available tool settings, such as a tool setting included in the previously-employed set of available tool settings but not included in the currently-employed modified set of available tool settings.
  • the tool and tool setting management system solve the above problems by limiting the tool settings at which the user can configure the tool to operate to a particular set of available tool settings while providing a quick and easy way to modify that set should the need arise. Limiting the available tool settings makes it easier for users to select a desired tool setting and less likely that they will accidentally select an undesired tool setting, thus increasing productivity and reducing the potential for error.
  • a method of operating a strapping device setting management system comprises: receiving, by an input device of a user device, a pair request; broadcasting, by a wireless communication device of the user device, a pair inquiry; receiving, by the wireless communication device of the user device, one or more responses to the pair inquiry, each response received from a wireless communication device of a strapping device available for pairing with the user device; displaying, by a display device of the user device and for each strapping device available for pairing that responded to the pair inquiry, a selectable indicator associated with said strapping device; receiving, by the input device of the user device, a selection of one of the displayed indicators; pairing the user device and the strapping device associated with the selected indicator; receiving, by the wireless communication device of the user device and from the wireless communication device of the paired strapping device, a set of a plurality of available tool settings; receiving, by the input device of the user device, a modification to the set of available tool settings; and communicating, by the wireless communication device of the user device, the modified
  • the strapping device setting includes a tension level setting.
  • the strapping device includes a handheld strap tensioning tool.
  • the wireless communication devices of the user device and the strapping device are Bluetooth devices.
  • the method includes receiving, by the wireless communication device of the user device and from the wireless communication device of the paired strapping device, confirmation that the paired strapping device has implemented the modified set of available tool settings.
  • the set of available tool settings cannot be modified other than via receipt of the modified set of available tool settings from the wireless communication device of the user device.
  • a method of operating a strapping device setting management system comprises: pairing a user device and a strapping device such that wireless communication devices of the user device and the strapping device can communicate with one another over a network; receiving, by an input device of the user device, a modification to a set of a plurality of available strapping device settings of the paired strapping device; and communicating, by the wireless communication device of the user device, the modification to the set of available strapping device settings to the wireless communication device of the paired strapping device to cause the paired strapping device to change a set of available strapping device settings in accordance with the modification.
  • the strapping device setting includes a tension level setting.
  • the strapping device includes a handheld strap tensioning tool.
  • the wireless communication devices of the user device and the strapping device are Bluetooth devices.
  • the method includes receiving, by the wireless communication device of the user device and from the wireless communication device of the paired strapping device, confirmation that the paired strapping device has changed the set of available tool settings.
  • the set of strapping device settings cannot be modified other than via receipt of the modification from the wireless communication device of the user device.
  • a method of operating a strapping device setting management system comprises: receiving, by a wireless communication device of a strapping device, a pair inquiry from a wireless communication device of a user device; if the strapping device is available for pairing, sending, by the wireless communication device of the strapping device, a response to the pair inquiry to the wireless communication device of the user device; pairing the strapping device and the user device; receiving, by the wireless communication device of the strapping device, a strapping device setting modification from the wireless communication device of the user device; and changing, by a controller of the strapping device, a set of a plurality of available strapping device settings in accordance with the received strapping device setting modification.
  • the strapping device setting includes a tension level setting.
  • the strapping device includes a handheld strap tensioning tool.
  • the wireless communication devices of the user device and the strapping device are Bluetooth devices.
  • the includes communicating, by the wireless communication device of the strapping device and to the wireless communication device of the paired user device, confirmation that the strapping device has changed the set of available tool settings.
  • the set of available strapping device settings cannot be modified other than via receipt of the strapping device setting modification from the wireless communication device of the user device.
  • a method of operating a strapping device setting management system comprises: receiving, by an input device of a user device, a pair request; broadcasting, by a wireless communication device of the user device, a pair inquiry; for each of one or more strapping devices, receiving, by a wireless communication device of said strapping device, the pair inquiry from the user device; for each of the one or more strapping devices, if said strapping device is available for pairing, sending, by the wireless communication device of the strapping device, a response to the pair inquiry to the wireless communication device of the user device; receiving, by the wireless communication device of the user device, one or more responses to the pair inquiry from the wireless communication devices of the one or more strapping devices available for pairing with the user device; displaying, by a display device of the user device and for each strapping device available for pairing that responded to the pair inquiry, a selectable indicator associated with said strapping device; receiving, by the input device of the user device, a selection of one of the displayed indicators; pairing the user device and the strapping device
  • the strapping device setting includes a tension level setting.
  • the strapping device includes a handheld strap tensioning tool.
  • the wireless communication devices of the user device and the strapping device are Bluetooth devices.
  • the method includes communicating, by the wireless communication device of the strapping device and from the wireless communication device of the paired user device, confirmation that the strapping device has changed the set of available tool settings.
  • the set of available tool device settings cannot be modified other than via receipt of the modified set of available tool settings from the wireless communication device of the user device.
  • a strap tensioning device comprises: a body; a tensioner supported by the body and including a tensioning motor; a battery supported by the body and configured to power the tensioning motor; a strap tension level selection device supported by the body; a first wireless communication device pairable with a second wireless communication device of a user device such that the first wireless communication device can send data to and receive data from the second wireless communication device; and a controller including a memory device storing a set of a plurality of available strap tensioning device settings each associated with a tension level, the controller configured to: (1) designate one of the strap tensioning device settings following receipt of an actuation of the strap tension level selection device; (2) control the tensioning motor in accordance with the designated strap tensioning device setting to tension a strap until a strap tension of the strap reaches the first tension level, and (3) after the first wireless communication device is paired with the second wireless communication device and the first wireless communication device receives a request to modify the set of available strap tensioning device settings from the second wireless communication device, modify
  • the set of available strap tensioning device settings cannot be modified other than via receipt of the request to modify from the second wireless communication device.
  • the controller is configured to pair the first wireless communication device with the second wireless communication device upon receiving a pair request from the second wireless communication device.
  • the first and second wireless communication devices are Bluetooth devices.
  • the controller is configured to cause the first wireless communication device to, after modifying the set of available strap tensioning device settings, send confirmation to the second wireless communication device that the set of available strap tensioning device settings has been modified.
  • the strap tensioning device is a handheld strap tensioning tool.
  • Figure 1 is a block diagram of one embodiment of the tool setting management system of the present disclosure including a user device and a tool configured to communicate over a wireless communication network.
  • Figure 2 is a perspective view of one embodiment of a tool of the tool setting management system of the present disclosure.
  • Figure 3 is another perspective view of the tool of Figure 2.
  • Figure 4 is another perspective view of the tool of Figure 2.
  • Figure 5 is another perspective view of the tool of Figure 2 similar to the view shown in Figure 3 with portions of the housing removed for clarity.
  • Figure 6 is an enlarged perspective view of the tool of Figure 2 showing various components and features of the tool.
  • Figure 7 is another perspective view of the tool of Figure 2 similar to the view shown in Figure 4 with portions of the housing removed for clarity.
  • Figure 8 is an illustration of the interlocking key arrangement formed in the overlapping courses of strap by the tool of Figure 2.
  • Figure 9 is an illustration of portions of the sealing and tensioning sections of the tool of Figure 2.
  • Figure 10 illustrates the positioning of the strap around a load.
  • Figures 11 A and 1 IB are top plan and bottom plan views of an example circuit board of the tool of Figure 2.
  • Figure 12 is a flowchart of an example process or method of operating the tool of Figure 2.
  • Figures 13A and 13B are top plan views of one embodiment of a user device of the tool setting management system of the present disclosure during initialization of the tool setting management software application.
  • Figure 14 is a flowchart of an example process or method of pairing the user device and the tool via the tool setting management software application.
  • Figures 15A, 15B, 15C, 15D, 15E, and 15F are top plan views of the user device of Figures 13A and 13B during the pairing process of Figure 14.
  • Figures 16A, 16B, and 16C are block diagrams of the user device and a plurality of tools during the pairing process of Figure 14.
  • Figure 17 is a flowchart of an example process or method of modifying a set of available tool settings of a tool paired with a user device via the tool management software application.
  • Figures 18A, 18B, 18C, and 18D are top plan views of the user device of Figures 13A and 13B during the process of modifying the set of available tool settings of Figure 17.
  • Figures 19A and 19B are top plan views of the user device of Figures 13A and 13B during a statistics viewing process.
  • Figures 20A and 20B are top plan views of the user device of Figures 13A and 13B during a diagnostics viewing process.
  • Various embodiments of the present disclosure are directed to a tool and a tool setting management system and method that solve the above problems.
  • the tool setting management system of the present disclosure is configured to pair with the tool of the present disclosure to change how the tool can function.
  • the tool of the present disclosure stores a set of a plurality of different available tool settings at which the tool can operate to control certain components of the tool.
  • the tool includes a mechanical or electromechanical tool setting selection device that a user can directly physically manipulate to choose the particular tool setting of the set of available tool settings at which the user desires the tool to operate.
  • the tool prevents the user from selecting any tool setting not included in the stored set of available tool settings, even though the tool could otherwise operate at tool settings not included in the stored set of available tool settings. That is, the tool could operate at any of a first quantity of tool settings, but the tool only enables the user to configure the tool to operate at one of a second, lesser quantity of tool settings.
  • the tool setting management system of the present disclosure enables a user to wirelessly pair (such as via a Bluetooth connection) a user device (such as a smartphone or a computer) with the tool to change the set of available tool settings that the tool stores and employs.
  • a user device such as a smartphone or a computer
  • the user device enables the user to modify the set of available tool settings— such as by changing one of the tool settings of the set, adding a tool setting to the set, or deleting a tool setting from the set— and sends the modified set of available tool settings to the paired tool.
  • a controller of the paired tool replaces the currently-stored set of available tool settings with the modified set of available tool settings.
  • a user can use the tool setting selection device of the tool to select one of the tool settings of the stored modified set of available tool settings at which to operate the tool.
  • the tool prevents the user from selecting any tool setting not included in the stored modified set of available tool settings, such as a tool setting included in the previously-employed set of available tool settings but not included in the currently-employed modified set of available tool settings.
  • the tool setting management system of the present disclosure can be used in conjunction with to any suitable machine, such as a strapping machine, or any suitable tool, such as a handheld strapping tool configured to cut, tension, seal, and/or otherwise apply steel or plastic straps.
  • any suitable machine such as a strapping machine, or any suitable tool, such as a handheld strapping tool configured to cut, tension, seal, and/or otherwise apply steel or plastic straps.
  • tools any and all of these machines and tools are referred to herein as "tools.”
  • Figure 1 illustrates one example embodiment of the tool setting management system 10 of the present disclosure.
  • the tool setting management system 10 includes a user device 200 and a tool 300 configured to send data to and receive data from one another over a wireless communication network 150, such as a Bluetooth network, a WiFi network, a cellular network, or other suitable data network.
  • a wireless communication network 150 such as a Bluetooth network, a WiFi network, a cellular network, or other suitable data network.
  • the user device 200 may be any suitable computing device including components configured to send data to and receive data from the tool 300 such as, but not limited to: a desktop computer, a laptop computer, a tablet computer, a personal digital assistant, or a smartphone.
  • the user device 200 includes: (1) a controller 210 that includes a processing device 212 and a memory device 214, (2) one or more output devices 220 in communication with the controller 210, (3) one or more input devices 230 in communication with the controller 210, and (4) one or more wireless communication components 240 in communication with the controller 210.
  • the processing device 212 may be any suitable processing device, such as a microprocessor, a microcontroller-based platform, a suitable integrated circuit, or one or more application-specific integrated circuits.
  • the memory device 214 may be any suitable memory device, such as such as one or more volatile memory elements (e.g., random access memory (RAM, such as DRAM, SRAM, SDRAM, etc.)) and/ or one or more nonvolatile memory elements (e.g., ROM, hard drive, tape, CDROM, etc.).
  • the one or more output devices 220 include at least one display device 222.
  • the at least one display device may include, without limitation: a monitor, a plasma display, a liquid crystal display (LCD), a display based on light emitting diodes (LEDs), a display based on a plurality of organic light-emitting diodes (OLEDs), a display based on polymer light-emitting diodes (PLEDs), a display based on a plurality of surface-conduction electron-emitters (SEDs), a display including a projected and/or reflected image, or any other suitable electronic device or display mechanism.
  • the at least one display device 222 may be of any suitable size, shape, and configuration.
  • the one or more output devices 220 include a sound generating device, such as one or more speakers.
  • the one or more input devices 230 may include any suitable device(s) that enables an input signal to be produced and received by the controller 210.
  • the one or more input devices 230 include a plurality of buttons that are programmable to, when actuated, cause the user device to perform particular functions.
  • these buttons may be hard keys, programmable soft keys, or icons displayed on the display device 222 of the user device 200 that are actuatable via a touch screen of the user device 200 (described below) or via use of a suitable input device of the user device 200 (such as a mouse or a stylus).
  • the one or more input devices 230 include a touch-screen coupled to a touch-screen controller or other touch- sensitive display overlay to enable interaction with any images displayed on the display device.
  • One such input device is a conventional touch-screen button panel.
  • the touch-screen and the touch-screen controller are connected to a video controller.
  • signals are input to the user device 200 by touching the touch screen at the appropriate locations.
  • the one or more wireless communication components 240 include one or more communication interfaces having different architectures and utilizing a variety of protocols such as, but not limited to: 802.11 (WiFi); 802.15 (including Bluetooth); 802.16 (WiMax); 802.22; cellular standards such as CDMA, CDMA2000, and WCDMA; Radio Frequency (eg., RFID); infrared; and Near Field Communication (NFC) protocols.
  • the one or more wireless communication components 240 transmit electrical, electromagnetic, or optical signals that carry digital data streams or analog signals representing various types of information.
  • the controller 210 is configured to operate one or more separate programs.
  • the separate programs comprise ordered listings of executable instructions for implementing logical functions.
  • the controller 210 may be configured to operate a suitable operating system such as, but not limited to: (1) a Windows operating system available from Microsoft Corporation; (2) a Macintosh operating system available from Apple Computer, Inc.; (3) a UNIX operating system, which is available for purchase from many vendors, such as the Hewlett-Packard Company, Sun Microsystems, Inc., and AT&T Corporation; (4) a LINUX operating system, which is freeware that is readily available on the Internet; (5) a run time Vxworks operating system from Intel, Inc.; or (6) an appliance-based operating system, such as that implemented in smartphones, tablet computers, and personal digital assistants (e.g., iOS available from Apple Computer, Windows Mobile available from Microsoft Corporation, and Android available from Google).
  • the operating system essentially controls the execution of other programs, and provides scheduling, input-output control, file and data management, memory management, and communication control
  • the tool 300 may be any suitable tool including components configured to send data to and receive data from the user device 200.
  • the tool 300 includes: (1) a controller 310 that includes a processing device 312 (such as any of those described above) and a memory device 314 (such as any of those described above), and (2) one or more wireless communication components 340 (such as any of those described above) in communication with the controller 310.
  • Figures 2, 3, 4, 5, 6, 7, 8, 9, 10, 11A, 11B, and 12 illustrate the components, features, and operation of one example embodiment of a tool 300a of the tool setting management system of the present disclosure.
  • the tool 300a is a steel strap tensioning, sealing, and cutting tool configured to, as best shown in Figures 8, 9, and 10, tension a steel strap S or strapping material around an object or load L, seal overlapping portions of the strap S to itself at a seal or joint J to form a tensioned loop around the load L, and cut the tensioned loop from the strap supply P.
  • the strap S includes a feed or supply end P and a free end F that is fed around the load L and reinserted into the tool 300a to overlap the supply end P.
  • sealless refers to the configuration or type of seal or joint that is made in the overlapping portions of the strap. Although a “seal” is made in the strap courses, the sealless joint is made by cutting or punching interlocking keys K or sections of the courses, as illustrated in Figure 8.
  • sealless is intended to define this type of joint or seal J as compared to a joint that is made using a separate element such as a crimp seal that is applied over and crimped onto the overlapping strap courses.
  • the tool 300a includes a body 12, a tensioning section 14, and a sealing section 16.
  • the tensioning section 14 includes a housing 18 and a first or tensioner motor assembly 20 operably mounted to the body 12.
  • the sealing section 16 includes a sealer 21, a housing 22, and a second or sealer motor assembly 24 operably mounted to the body 12.
  • the body 12 includes a foot 26, a housing 28, and one or more handles 30 and 32 to facilitate handling and using the tool 300a.
  • One handle can be a tool opening handle 30 above the tensioner motor assembly 20 and the other an operating handle 32 mounted above the body 12.
  • a receiver 34 is formed as part of or mounted to the body 12 for receiving a battery 36 or other power source.
  • a temporary hold-down finger 38 can be positioned on the foot 12, opposite the tensioner motor assembly 20. The hold-down finger can be biased toward the foot 26.
  • the tensioning section 14 includes the tensioner motor assembly 20, which has a motor 40, such as a DC motor, and a gear housing 42 including a gear set 44 to convert the motor 40 output drive to a usable speed.
  • the gear set 44 can include a planetary gear set (not shown) to reduce the output speed and to increase the output power or torque from the motor 40.
  • the gear set 44 includes a final drive (not shown) that meshes with a gear (not shown) on a tension wheel 46.
  • the tension wheel 46 is mounted normal to the final drive.
  • the gear set 44 and final drive are housed in the gear housing 18 mounted to the tool body 12.
  • a gripping pad 48 can be positioned in the foot 26, opposite the tension wheel 46.
  • the tensioner motor assembly 20, gear housing 42, and tension wheel 46 are movably mounted to the body 12 to move the tension wheel 46 toward and away from the foot 26. This enables the tool 300a to be opened to position the strap S between the foot 26 and the tension wheel 46.
  • the tensioner motor assembly 20, gear housing 42, and tension wheel 46 are pivotably mounted to the body 12 to pivot the tension wheel 46 toward and away from the foot 26.
  • the tensioner motor assembly 20, gear housing 42, and tension wheel 46 can be biasedly mounted to the body 12, such as by a spring (not shown), to bias the tension wheel 46 toward the foot 26 and into contact with the strap S in the closed position.
  • the sealing section 16 includes the sealer motor assembly 24 which has a motor 50 (such as a DC motor) and a drive 52.
  • the drive 52 is a gear set 54 that includes a planetary gear set (not shown) that drives a cam shaft 56 through a final drive gear (not shown).
  • the planetary gear set reduces the output speed and increases the output power or torque from the motor 50.
  • Other drives can be used to transfer power from the motor 50 to the cam shaft 56, such as belts, chains, and the like.
  • Cams 58 on the cam shaft 56 contact and move a set of dies 60 in the sealing section 16.
  • the dies 60 reciprocate toward and away from a punch 62 located on the foot 26 to bring the dies 60 into and out of contact with the overlapping course of strap S positioned between the dies 60 and the punch 62.
  • the dies 60 and punch 62 form keys K in the strap S that, when shifted longitudinally, lock into one another.
  • An example of a sealer section 16 is illustrated in Figure 9 and an example of an interlocking key K seal or joint J is illustrated in Figure 8.
  • the sealing section 16 also includes a cutter 64 to cut the looped and sealed strap S from the strap supply P during the sealing cycle. Similar to the dies 60, the cutter 64 is driven by the rotation of the cam shaft 56.
  • the tool 300a is configured to permit operation in fully automatic and manual modes.
  • the tool 300a includes a control system, shown generally at 66, to control operation of the tool 300a.
  • the tool 300a includes an actuation switch 68, the controller 310 (described above), and one or more circuits 70 and 72 to control the tensioner motor 40 and the sealing motor 50.
  • the tensioner motor and sealing motor circuits 70 and 72 are provided on separate boards within the tool 300a.
  • the controller 310 is a Bluetooth Low Energy (BLE) microcontroller that includes a Bluetooth radio.
  • the BLE microcontroller 310 is configured to control both the operation of the tool 300a and its components and the Bluetooth radio to pair and communicate with one or more user devices, as described below.
  • the tool includes a single board including the controller, the tensioner circuit, and the sealer circuit.
  • Figures 11A and 11B illustrate one such board 1000.
  • the board 1000 includes: (1) a metal- oxide-semiconductor field-effect transistor (MOSFET) 1001 configured to activate the dynamic brake, (2) MOSFETs 1002 and 1006 configured to control the tensioner motor in a forward or first direction, (3) MOSFET 1003 configured to control the sealer motor in a forward or first direction, (4) MOSFETs 1004 and 1005 configured to control the tensioner motor in a reverse or second direction, (5) a current sensor 1007 configured to sense the current level in both the tensioner motor and the sealer motor, (6) a power resistor 1008 configured to slow down and stop sealer motor rotation, (7) an integrated circuit 1010 configured to control the tensioner motor, and (8) a BLE microcontroller 1009 communicatively connected to the MOSFETs 1001, 1002, 1003, 1004, 1005, 1006; the current sensor 1007,
  • the BLE microcontroller 310 includes a memory device 314 as described above.
  • the memory device 314 stores one or more sets of a plurality of available tool parameters or tool settings at which the tool 300a can operate to control certain components of the tool.
  • the memory device of the tool 300a stores a set of two or more available strap tension levels (i.e., tool settings in this example embodiment) at which the tool 300a can operate to tension a strap.
  • a user selects one of the strap tension levels of the set of two or more available strap tension levels.
  • the BLE microcontroller of the strap tensioning tool controls the tensioner motor 40 such that the tool 300a tensions a strap to that selected strap tension level.
  • the tool setting management system of the present disclosure enables a user to change the set of available strap tension levels (such as by modifying one of the strap tension levels of the set, adding another strap tension level to the set, or deleting a strap tension level from the set) via the tool setting management software application on the user device.
  • the tool prevents the user from selecting any tool setting not included in the stored set of available tool settings, even though the tool could otherwise operate at tool settings not included in the stored set of available tool settings. That is, the tool could operate at any of a first quantity of tool settings, but the tool only enables the user to configure the tool to operate at one of a second, lesser quantity of tool settings.
  • the strap tensioning tool could operate according to any of ten different strap tension levels, but the strap tensioning tool only enables the user to configure the strap tensioning tool to operate at three of those strap tension levels.
  • the tool includes a mechanical or electromechanical tool setting selection device (not shown) that a user can directly physically manipulate to choose the particular tool setting of the set of available tool settings at which the user desires the tool to operate.
  • the tool setting selection device includes one or more buttons that the user can press to select the desired tool setting.
  • different tool settings are associated with different button-press sequences.
  • the user presses the button according to the sequence associated with the desired tool setting to select that tool setting.
  • the tool includes a display device, such as an LED display, and the user can press the button to cycle through the tool settings of the set of available tool settings, which the display device displays, until the user finds the desired tool setting.
  • the tool setting selection device includes a knob or dial that a user can rotate to select the desired tool setting.
  • the tool setting selection device includes a touch screen that the user can manipulate to select the desired tool setting.
  • one or more existing devices on the tool are configured such that a user may use this device or these devices to select the desired tool setting.
  • the tool may include a power button configured to power the tool on and off and a home button usable to return one or more components of the tool to its(their) initial or home position(s).
  • actuating these buttons in a particular way e.g., holding the home switch while pressing the power button
  • switches, buttons, or other devices of the tool may be dual-purpose switches usable to control the tool to both select the desired tool function and carry out one or more other different functions.
  • the controller 310 compiles and stores in the memory device 314 any of a variety of different data associated with operation of the tool 300a.
  • the controller 310 compiles and stores: the average operating time of the tensioner motor, the total quantity of tension/seal/cut cycles performed by the tool, the amount of battery life remaining, the average quantity of tension/seal/cut cycles performed by the tool per day, the serial number of the tool, the quantity of tension/seal/cut cycles remaining before the tensioning wheel should be replaced, and the quantity of tension/seal/cut cycles remaining before the punch and die components should be replaced.
  • the tool 300a is paired with a user device, the tool is configured to send the stored data to the user device, which enables display of the operating data via the tool setting management software application.
  • the control system 66 can further include a cam position switch or sensor 74 to sense the position of the cam shaft 56 in the sealing section 16, a strap size adjustment device 76, an anti-jam device 78, and a dynamic brake 80.
  • the cam position switch 74 is positioned to determine the position of the cam shaft 56 and thus the position of the cam lobes 58 (or cams), and consequently the dies 60 and cutter 64.
  • the strap size adjustment device 76 can be, for example, a knob-type dial adjustment provided on the tool body 12. Control of the anti-jam device 78 can be incorporated within the tension/strap size adjustment dial 76.
  • the dynamic brake 80 is associated with the sealing motor 50 to brake or stop the motor 50 when the cam shaft 56 is at a home position and to bleed power from the motor 50 at the completion of the sealing cycle.
  • the tool 300a can further include one or more indicators, such as LEDs, to provide indication of certain functions and states of the tool.
  • An LED indicator 82 can be positioned within or around the actuation switch 68.
  • An indicator such as the LED 84 in the actuation switch 68, can be configured to flash in a predetermined sequence to indicate the operating state of the tool 300a.
  • the LED 84 can flash once to indicate that the tool 300a is in an automatic operating mode and twice to indicate that the tool 300a is in a manual operating mode.
  • the tool 300a is opened by urging or pulling the tensioner motor assembly 20 toward the tensioner handle 30 to open a gap between the tension wheel 46 and the foot 26.
  • a lead or free end F of the strap S is positioned around the load and a supply end P of the strap S (from a strap dispenser) is positioned overlapping the free end F.
  • the overlapping courses of strap S are positioned in the tool 300a between the tension wheel 46 and the foot 26 and between the dies 60 and punch 62 with the supply end P entering from the rear end (the tension wheel 46 end) of the tool 300a as illustrated in Figures 9 and 10, with the strap S courses positioned under the hold-down finger 38.
  • depressing and releasing the actuation switch 68 commences the operating cycle.
  • the tension cycle starts, as at step 108, in which the tensioner motor 40 operates to drive the tension wheel 46 to draw tension in the strap S.
  • the actuation switch LED 84 is illuminated.
  • the tensioner motor 40 stops and the LED indicator 84 goes out.
  • the sealing cycle then starts, as at step 110, in which the sealing motor 50 operates to rotate the cam shaft 56 and the cams 58 move into contact with and move the dies 60 downward to contact the strap S.
  • the actuation switch LED 84 illuminates to indicate tool 300a operation.
  • the interlocking keys K are cut by the force of the cams 58 on the dies 60 forcing the dies 60 into the strap S and forcing the strap S against the punch 62.
  • the strap supply P end is cut to separate the looped strap S from the strap supply P.
  • the sealing motor 50 continues to operate, and when the cam shaft 56 completes one full (360 degree) revolution, the cam switch or sensor 74 is triggered and the sealing motor 50 turns off.
  • the dynamic brake 80 stops the cam shaft 56 at the home position by absorbing excess energy from the sealing motor 50.
  • the hold-down finger 38 at the foot 26 holds the strap S temporarily in place in the tool 300a.
  • the tensioner motor 40 operates in reverse for a short period (less than about 1 second) to allow the tension in the strap S to "pull" the keys K into an interlocking arrangement (see Figure 8), which forms the seal or joint J.
  • step 112 Once the sealing cycle is completed, as at step 112, with the dies 60 returned to the home position and the sealing motor 50 stopped, the LED indicator 84 goes out. The tool 300a is then in the ready/sleep state.
  • depressing and releasing the actuation switch 68 at any time during the tension and/or sealing cycles can, for example, stop the tool 300a, and depressing and holding the actuation switch 68, as at step 114, can operate the tensioner motor 40 in reverse. This functions as an emergency stop of the tool 300a.
  • the tool 300a can also be operated in manual mode in which, for example, a first depression of the actuation switch 68 commences the tension cycle, and the tensioner motor 40 stops when a predetermined tension is reached. In this example of manual operation, a second depression of the actuation switch 68 may then be required to commence the sealing cycle.
  • the auto-stop functions (for example, depressing and/or depressing and holding the actuation switch) can again serve to stop the tool 300a and/or reverse the tensioner motor 10 in manual mode.
  • Trigger Function (1) when in Ready mode 106, will begin the tensioning cycle; Trigger Function (2) (-) when in Ready mode 106, will cause the tool to reverse until the trigger is released; and Trigger Function (3) ( ⁇ ) at any time during the tension cycle will stop the motor, where ( ⁇ ) indicates that the trigger is held for less than a specified period of time and (-) indicates that the trigger is held for more than a specified period of time.
  • the tool 300a can include an anti-jam feature 78, actuation of which can be incorporated into the strap size adjusting device 76.
  • the tensioner motor 40 operates in reverse to clear any material that may be jammed in the tool 300a, between the tension wheel 46 and the foot 26.
  • the sealing motor 50 will cycle once, also to clear any material that may be jammed in the tool 300a.
  • the tool 300a as disclosed and described is an electrically powered tool that uses a battery 36; it will however be appreciated that the tool 300a can be configured to operate with a voltage converter (not shown) for example, for use at line voltages (e.g., 120 V to 240 V).
  • a voltage converter not shown
  • line voltages e.g. 120 V to 240 V.
  • the tool 300a is described as including a tensioner motor 40 and a sealing motor 50, it is contemplated that a single motor can be used to carry out both the tension and sealing functions with appropriate drives in place.
  • a user device before a user device can: (1) pair with a tool, (2) enable a user to modify the predefined set of available tool settings of the paired tool, (3) display operating data associated with the paired tool, or (4) display diagnostic information associated with the tool setting management software application itself and/or the tool, the user device must first download, install, and initialize the tool setting management software application or program.
  • the user device may download and install the tool setting management software application to the memory device of the user device in any of a variety of manners, such as by downloading and installing the tool setting management software application from a software application store or a website or by installing the tool setting management software application via use of a CD, a DVD, a USB memory device, or other computer-readable medium.
  • the tool setting management software application is a web-based application that is accessible via a website. In these embodiments, the user device need not download and install the tool setting management software application, but can instead visit the website to use the web-based application.
  • Figure 13A is a top plan view of one example embodiment of the user device 200, which is a smartphone in this embodiment, displaying a plurality of icons each associated with a software application installed on the user device 200.
  • the plurality of icons include an icon 213 associated with the tool setting management software application that is selected via a touch screen of the user device to initialize the tool setting management software application.
  • the user device 200 displays a Home screen 250 including the following four virtual buttons, which are actuatable via the touch screen of the user device 200: (1) a Scan button 251, (2) a Parameters button 252, (3) a Statistics button 253, and (4) a Diagnostics button 254.
  • the Scan button 251, when actuated, causes the user device to initiate the pairing process to pair the user device with a tool.
  • the Parameters button 252, when actuated, causes the user device to display one or more tool parameters or tool settings of a tool paired with the user device and to enable the user to modify at least one of those tool settings.
  • a user device before a user device: (1) enables a user of the user device to modify the predefined set of two or more tool settings of a tool, (2) can display operating data associated with the tool, or (3) can display diagnostic information associated with the tool, the user device and the tool must be paired such that the user device and the tool can transfer data to and receive data from one another.
  • FIG 14 is a flowchart of one example process or method 400 of pairing a user device and a tool. Although the process 400 is described with reference to the flowchart shown in Figure 14, many other processes of performing the acts associated with this illustrated process 400 may be employed. For example, the order of certain of the illustrated blocks may be changed, certain of the illustrated blocks may be optional, and/or certain of the illustrated blocks may not be employed.
  • the user device receives a pair input from the user, as indicated by block 402.
  • the user device detects any tools within a designated range of the user device, as indicated by block 404.
  • the user device receives, from each detected tool, information associated with that tool, as indicated by block 406.
  • the information may include, for example, a name of that tool, a tool type of that tool, a location of that tool, a unique identifier of that tool (such as a serial number), and the like.
  • the user device displays, for each detected tool, a selectable tool indicator associated with that detected tool, as indicated by block 408.
  • the tool indicator may include all of or a subset of the information associated with that tool to help distinguish the detected tools from one another.
  • the user device receives a selection of one of the tool indicators from the user, as indicated by block 410.
  • the user device pairs with the tool associated with the selected tool indicator, as indicated by block 412.
  • the user device 200 receives an actuation of the Scan button 251 on the Home screen 250 of the tool setting management software application from the user via the touch screen of the user device 200. This initiates the pairing process.
  • the user device 200 After receiving the actuation of the Scan button 251, as shown in Figure 16A, the user device 200 broadcasts, via its Bluetooth radio, an inquiry receivable by all Bluetooth-enabled tools 300a, 300b, ... 300z within range of the Bluetooth radio of the user device 200. While doing so, as shown in Figure 15B, the user device 200 displays a Scan screen 260 that includes a Cancel button 269. If the user device 200 receives an actuation of the Cancel button 269, the user devices 200 stops the pairing process and returns to the Home screen 250.
  • the Bluetooth radio of a tool 300a, 300b, ... 300z that is "listening" for inquiries broadcast by user devices receives the inquiry from the Bluetooth radio of the user device 200, as shown in Figure 16B, the Bluetooth radio of that tool 300a, 300b, ... 300z sends the user device 200 data representing certain information about that tool 300a, 300b, ... 300z, such as a name of that tool, a tool type of that tool, a location of that tool, a unique identifier of that tool (such as a serial number), and the like.
  • the user device 200 displays, for each of those tools 300a, 300b, ...
  • 300z a selectable tool indicator associated with that tool.
  • the user device 200 displaying a plurality of different tool indicators 261, 262, 263, and 264 on the Scan screen 260. Each tool indicator represents a different one of the Bluetooth-enabled tools 300a, 300b, ... 300z within range of the user device 200 that responded to the inquiry of the user device 200.
  • the user device 200 also displays a Cancel button 269 and a Re-Scan button 268.
  • the user device 200 receives an actuation of the Cancel button 277, the user device 200 exits the Scan screen 260 and returns to the Home screen 250.
  • the user device 200 receives an actuation of the Re-Scan button 268, the user device 200 re-starts the pairing process by broadcasting another inquiry as described above.
  • the user device 200 After displaying the plurality of different tool indicators 261, 262, 263, and 264, the user device 200 enables the user to indicate which tool 300a, 300b, ... 300z (if any) the user desires the user device 200 to pair with by selecting the corresponding displayed tool indicator. As shown in Figure 15D, in this example embodiment the user device 200 receives a selection of the tool indicator 261 from the user via the touch screen of the user device 200.
  • FIG. 16C the user device 200 securely pairs with the Bluetooth-enabled tool 300a, which is associated with the selected tool indicator 261, in a manner known in the art.
  • Figures 15E and 15F show the Scan screen 260 of the user device 200 while the user device 200 is in the process of pairing with the Bluetooth-enabled tool 300a and after the user device 200 has successfully paired with the Bluetooth-enabled tool 300a, respectively.
  • the tool setting management system may employ any suitable network to do so, such as a WiFi network, a cellular network, and the like.
  • the user device after the user device receives the data from each detected tool within range of the user device, the user device identifies which tool is located the closest to the user device and displays an indication identifying the closest tool. This enables the user to quickly and easily pair a particular tool and the user device by moving the user device close to that tool before initiating the pairing process.
  • the tool and the user device include suitable hardware that enables the user device and the tool to pair via NFC.
  • the user device instead of the user device broadcasting an inquiry to determine tools within range of the user device and the user then searching through a list of within-range tools to select the tool the user desires to pair with the user device, the user simply taps the user device to (or brings the user device within a designated distance of) a particular area of the tool to pair the tool and the user device via NFC.
  • the tool setting management system enables the user to provide unique identifying information associated with a particular tool to enable the tool setting management system to quickly pair the user device with that tool. This saves time by eliminating the need for the user to search through a list of within-range tools to select the tool the user desires to pair with the user device.
  • the user device enables the user to input a unique serial number of a tool, such as by entering the serial number using an alphanumeric keyboard or by using a camera of the user device to take a photo of the serial number. If the tool having this unique serial number responds to the user device's broadcast inquiry, the user device automatically pairs itself with that particular tool.
  • the user device enables the user to take a photo of a unique quick response (QR) code, barcode, or other indicia associated with a particular tool using the camera of the user device. If the tool associated with this unique QR code, barcode, or other indicia responds to the user device's broadcast inquiry, the user device automatically pairs itself with that particular tool.
  • the user device stores a database that associates unique indicia with their corresponding tools, and in this embodiment the user device uses the database to identify the tool associated with the indicia in the photo.
  • another device such as a server, stores this database.
  • the user device communicates the photo to this other device, such as via a suitable wireless communication network, and the other device determines the corresponding tool and sends this information to the user device.
  • the tool may initiate the pairing process instead of the user device.
  • the tool when the tool receives a pairing input, such as an actuation of a button, the tool broadcasts its request for pairing (via Bluetooth, WiFi, cellular, or any other suitable wireless communication network) to user devices within range. Each user device within range that receives this request then enables the user of the user device to either ignore the request or confirm the request, which initiates pairing of the tool and the user device.
  • the tool illuminates the lighting device in different manners to convey different information associated with the pairing process to the user. For instance, in one example embodiment: (1) the tool illuminates the lighting device in yellow after the tool has responded to the user device's broadcast inquiry and is awaiting pairing instructions, (2) the tool illuminates the lighting device in yellow and in a flashing manner while the user device is in the process of securely pairing with the tool, (3) the tool illuminates the lighting device in green while the tool is securely paired with the user device, and (4) the tool illuminates the lighting device in red and in a flashing manner while the user device is in the process of unpairing from the tool.
  • the user device when the user device receives a selection of a displayed tool indicator, the user device causes the corresponding tool to illuminate the lighting device of that tool. This enables the user to quickly and easily visually confirm that the user selected the desired tool indicator to prevent an undesired tool/user device pairing.
  • the tool is configured to "listen" for and respond to an inquiry broadcast by a user device whenever the tool is powered on.
  • the Bluetooth radio of the strapping tool is configured to "listen” for and respond to an inquiry broadcast by the user device whenever the strapping device is powered on, but not when the strapping device is powered off.
  • a tool must be actively configured by a user to "listen” for and respond to inquiries broadcast by a user device through a series of activation steps.
  • the tool is a Bluetooth-enabled battery-powered handheld strapping device
  • the user if the user desires the strapping device to "listen" for and respond to an inquiry broadcast by the user device, the user must first: (1) depress and hold the actuation (i.e., on/off) switch of the strapping device; (2) while depressing the actuation switch, insert the battery into the strapping device; and (3) after inserting the battery, releasing the actuation switch.
  • the controller of the strapping device causes the Bluetooth radio to begin "listening" for and responding to any inquiries broadcast by any user devices and illuminates an LED light to indicate that the Bluetooth radio is doing so.
  • the activation steps may be any other suitable activation steps, such as depressing the actuation button for a designated period of time or depressing the actuation button according to a designated sequence. 5. Modifying the stored set of available tool settings of a paired tool
  • the tool setting management software application After the user device is paired with a tool, the tool setting management software application enables a user to use the user device to modify the set of available tool settings the paired tool stores and employs.
  • the memory device of the paired tool stores one or more sets of a plurality of available tool settings at which the tool can operate to control certain components of the tool.
  • the tool setting management system enables a user to modify a set of tool settings stored in the memory device of the tool, such as by changing one of the tool settings of the set, adding a tool setting to the set, or deleting a tool setting from the set.
  • the memory device of the strap tensioning tool stores a set of a plurality of strap tension levels.
  • a user uses a tool setting selection device of the strap tensioning tool to select one of the strap tension levels of the set of available strap tension levels, and the controller of the strap tensioning tool controls the tensioner of the strap tensioning tool to operate such that the strap tensioning tool tensions a strap to the selected strap tension level.
  • the strap tensioning tool thus enables quick, on- the-fly adjustment of the strap tension level.
  • the tool setting management system enables a user to modify the set of available strap tension levels via the tool setting management software application.
  • Figure 17 is a flowchart of one example process or method 500 of using a user device to modify a set of a plurality of tool settings stored in a memory device of a tool paired with the user device.
  • process 500 is described with reference to the flowchart shown in Figure 17, many other processes of performing the acts associated with this illustrated process 500 may be employed.
  • the order of certain of the illustrated blocks may be changed, certain of the illustrated blocks may be optional, and/or certain of the illustrated blocks may not be employed.
  • the user device receives, through the tool setting management software application, a tool setting set modification from the user, as indicated by block 502.
  • the user device sends the tool setting set modification to the paired tool, as indicated by block 504.
  • the paired tool modifies a set of available tool settings based on the tool setting set modification received from the user device, as indicated by block 506.
  • the user device 200 receives an actuation of the Parameters button 252 on the Home screen 250 of the tool setting management software application from the user via the touch screen of the user device 200.
  • the user device 200 After receiving the selection of the Parameters button 252, the user device 200 displays a Parameters screen 270, as shown in Figure 18B.
  • the Parameters screen includes a plurality of displayed tool setting indicators 271, 273, and 274.
  • Each tool setting indicator 271, 273, and 274 is associated with a tool setting of the set of available tool settings the paired tool 300a currently stores and employs.
  • the paired tool 300a is a steel strap tensioning and sealing tool
  • each tool setting indicator 271, 273, and 274 is associated with a different strap tension level setting of the set of available tension level settings the paired tool 300a stores and employs.
  • the strap tension level setting indicates the tension to which the tensioning device of the paired tool 300a tensions the steel strap during operation if the user selects that particular strap tension level setting, as described above.
  • the Parameters screen 270 includes a tool set setting modification slider 276 usable to modify a selected one of the strap tension level settings of the set of available strap tension level settings of the paired tool 300a. Specifically, after the user device 200 receives a selection of one of the displayed tool setting indicators 271, 273, and 274, the user device 200 enables the user to manipulate the tool setting modification slider 276 to increase or decrease the strap tension level associated with the selected tool setting indicator.
  • the Parameters screen 270 also includes a Back button 277. When the user device 200 receives an actuation of the Back button 277, the user device 200 exits the Parameters screen 270 and returns to the Home screen 250.
  • the Parameters screen includes different tool setting modification sliders for each displayed tool setting indicator, and the user device enables the user to manipulates the tool setting modification sliders to increase or decrease the strap tension levels associated with the corresponding tool setting indicators.
  • Figure 18C shows the Parameters screen 270 after the user device 200 has received a selection of the tool setting indicator 274 and a manipulation of the tool setting modification slider 276.
  • the Parameters screen 270 indicates that the manipulation of the tool setting modification slider 276 increased the strap tension level from 900 pounds (4003 Newtons) to 920 pounds (4092 Newtons).
  • the user device 200 displays a Confirm Modification button 278 and a Cancel button 279.
  • the user device 200 receives an actuation of the Confirm Modification button 278, the user device 200 sends the modified set of strap tension level settings to the paired tool 300a.
  • the paired tool 300a When the paired tool 300a receives the modified set of tension level settings from the user device 200, the paired tool 300a replaces the set of strap tension level settings currently employed and stored in the memory device 314 with the modified set of strap tension level settings received from the user device 200. After doing so, the paired tool 300a sends confirmation that the paired tool 300a is currently employing the modified set of strap tension level settings, and as shown in Figure 18D the user device 200 displays confirmation that the paired tool 300a has done so. When the user device 200 receives an actuation of the Cancel button 279, the user device 200 cancels the pending tool setting modification.
  • the user device may enable the user to modify the set of available tool settings in any suitable manner instead of or in addition to the use of a tool setting modification slider. For instance, in one embodiment, the user device enables the user to modify a tool setting by entering a new value via an alphanumeric or numeric keyboard. In another embodiment, the user device enables the user to modify a tool setting by selecting from one of a plurality of predetermined tool setting options. In another embodiment, the user device enables the user to modify the set of available tool settings by adding another tool setting to the set (e.g., modifying the set of available tool settings from including three tool settings to four tool settings). In another embodiment, the user device enables the user to modify the set of available tool settings by deleting a tool setting from the set (e.g., modifying the set of available tool settings from including three tool settings to two tool settings).
  • the tool setting management software application employs one or more security measures to ensure that only authorized users can modify a tool's set of available tool settings via the tool management software application.
  • the tool setting management software application is password-protected, and only enables users who enter a designated password (or one of a plurality of designated passwords) or other particular unique identifier (e.g., fingerprint, eye scan, face recognition, etc.) to modify a tool setting using the tool setting management software application.
  • the tool setting management software application After the user device is paired with a tool, the tool setting management software application enables a user to use the user device to display operating data and diagnostic information associated with the paired tool.
  • the controller of the tool compiles and stores in the memory device of the tool any of a variety of different data associated with tool operation. Once the tool pairs with a user device, the tool sends the stored operating data to the user device, which enables display of the operating data via the tool setting management software application.
  • the user device 200 receives an actuation of the Statistics button 253 on the Home screen 250 of the tool setting management software application from the user via the touch screen of the user device 200.
  • the Statistics screen 280 displays a plurality of operating data associated with and received from the paired tool 300a.
  • the operating data includes: the average operating time of the tensioner motor per cycle, the total quantity of cycles performed by the paired tool 300a, the percentage of power remaining of the battery of the paired tool 300a, the average quantity of cycles performed by the paired tool 300a per day, the total time between cam position switch or sensor pulses for the last cycle, and the average time between cam position or sensor pulses.
  • the Statistics screen 280 is read-only in that the tool setting management software application does not enable the user to interact with any of the displayed information aside from viewing that information.
  • the user device 200 receives an actuation of the Diagnostics button 254 on the Home screen 250 of the tool setting management software application from the user via the touch screen of the user device 200.
  • the user device 200 After receiving the actuation of the Diagnostics button 254, the user device 200 displays a Diagnostics screen 290, as shown in Figure 20B.
  • the Diagnostics screen 290 displays a plurality of diagnostic data associated with and received from the paired tool 300a.
  • the diagnostic data includes: the serial number of the paired tool 300a, the quantity of cycles remaining before the tensioning wheel of the paired tool 300a should be replaced (along with a Reset button that enables the user to reset that quantity to an initial quantity), a quantity of cycles remaining before the punch and die elements of the paired tool 300a should be replaced (along with a Rest button), the status of the sealer and tensioner motors, the total run time of the tensioner motor, and the total run time of the sealer motor.
  • the Diagnostics screen 290 displays visual indicators that indicate how "used" a component is and whether the component needs to be replaced. For instance, the Diagnostics screen may display an indicator that changes color from green to yellow to red as a component is used to indicate that the component is becoming "used up” (transitioning from green to yellow) and needs to be replaced (transitioning from yellow to red). Since the user can quickly and easily gauge when the tool will need its components replaced, the user can plan ahead accordingly and order replacement components in advance to minimize downtime when the components in fact need replacement.
  • the user device may provide an alert (e.g., a visual output, audible output, or tactile output) whenever a component needs replacement.
  • an alert e.g., a visual output, audible output, or tactile output
  • the user device is configured to automatically order a replacement component when yellow or red status is reached.
  • the Diagnostics screen 290 also enables a user to request the instruction manual corresponding to the tool by actuating a particular button, which causes the user device 200 to automatically download the instruction manual or causes the user device 200 to navigate to a web page from which the user device can then download the instruction manual.
  • the Diagnostics screen 290 also enables a user to view a maintenance log associated with the tool, which indicates the maintenance history of the tool, by actuating a particular button.
  • the Diagnostics screen 290 also enables a user to export a file (such as a *.csv file or any other suitable file extension) indicative of tensioner motor and/or sealer motor current as a function of time.
  • a file such as a *.csv file or any other suitable file extension
  • the user device if the user device receives an indication from the tool that a particular component of the tool is broken or otherwise malfunctioning, the user device displays an indication that the component is broken and needs to be repaired or replaced. Additionally or alternatively, an indicator of the tool itself could indicate that a particular component of the tool is broken or otherwise malfunctioning, such as by an LED of the tool blinking according to a certain pattern or in a certain color to indicate an error. Different patterns and/or colors could correspond to different errors. In one embodiment, the user device enables the user to order a replacement component or request a maintenance call via the tool setting management software application.
  • the tool stores data associated with the tool itself and/or operation of the tool in persistent memory, such as a nonvolatile memory device of a tool's Bluetooth controller.
  • persistent memory such as a nonvolatile memory device of a tool's Bluetooth controller.
  • the controller moves certain stored data into a working memory of the tool, which enables that data to be modified. If modified, changes are copied back into persistent memory.
  • the tool setting management software application employs one or more security measures (such as any of those described above) to control access to the Diagnostics screen.

Landscapes

  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Automation & Control Theory (AREA)
  • Basic Packing Technique (AREA)
  • Telephone Function (AREA)
  • Telephonic Communication Services (AREA)
  • General Factory Administration (AREA)
EP16751701.0A 2015-12-22 2016-07-07 Tool setting management system and method configured to pair with the tool to change how the tool can function Withdrawn EP3374256A1 (en)

Applications Claiming Priority (3)

Application Number Priority Date Filing Date Title
US201562270906P 2015-12-22 2015-12-22
US15/147,450 US20170174374A1 (en) 2015-12-22 2016-05-05 Tool and tool setting management system and method configured to pair with the tool to change how the tool can function
PCT/US2016/041217 WO2017112002A1 (en) 2015-12-22 2016-07-07 Tool setting management system and method configured to pair with the tool to change how the tool can function

Publications (1)

Publication Number Publication Date
EP3374256A1 true EP3374256A1 (en) 2018-09-19

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EP16751701.0A Withdrawn EP3374256A1 (en) 2015-12-22 2016-07-07 Tool setting management system and method configured to pair with the tool to change how the tool can function

Country Status (8)

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US (1) US20170174374A1 (pt)
EP (1) EP3374256A1 (pt)
KR (1) KR20180086473A (pt)
CN (1) CN108473181A (pt)
AU (1) AU2016375589A1 (pt)
BR (1) BR112018012285A2 (pt)
CA (1) CA3008118A1 (pt)
WO (1) WO2017112002A1 (pt)

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Publication number Publication date
BR112018012285A2 (pt) 2018-11-27
US20170174374A1 (en) 2017-06-22
KR20180086473A (ko) 2018-07-31
CA3008118A1 (en) 2017-06-29
CN108473181A (zh) 2018-08-31
AU2016375589A1 (en) 2018-07-05
WO2017112002A1 (en) 2017-06-29

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