WO2018048409A1 - Unité de retenue de fils réglable - Google Patents

Unité de retenue de fils réglable Download PDF

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Publication number
WO2018048409A1
WO2018048409A1 PCT/US2016/050783 US2016050783W WO2018048409A1 WO 2018048409 A1 WO2018048409 A1 WO 2018048409A1 US 2016050783 W US2016050783 W US 2016050783W WO 2018048409 A1 WO2018048409 A1 WO 2018048409A1
Authority
WO
WIPO (PCT)
Prior art keywords
retention unit
wire retention
location
wire
output
Prior art date
Application number
PCT/US2016/050783
Other languages
English (en)
Inventor
Jason T. Squire
Original Assignee
Hewlett-Packard Development Company, L.P.
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 Hewlett-Packard Development Company, L.P. filed Critical Hewlett-Packard Development Company, L.P.
Priority to PCT/US2016/050783 priority Critical patent/WO2018048409A1/fr
Publication of WO2018048409A1 publication Critical patent/WO2018048409A1/fr

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Classifications

    • GPHYSICS
    • G03PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
    • G03GELECTROGRAPHY; ELECTROPHOTOGRAPHY; MAGNETOGRAPHY
    • G03G21/00Arrangements not provided for by groups G03G13/00 - G03G19/00, e.g. cleaning, elimination of residual charge
    • G03G21/16Mechanical means for facilitating the maintenance of the apparatus, e.g. modular arrangements
    • G03G21/1642Mechanical means for facilitating the maintenance of the apparatus, e.g. modular arrangements for connecting the different parts of the apparatus
    • G03G21/1652Electrical connection means
    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02GINSTALLATION OF ELECTRIC CABLES OR LINES, OR OF COMBINED OPTICAL AND ELECTRIC CABLES OR LINES
    • H02G3/00Installations of electric cables or lines or protective tubing therefor in or on buildings, equivalent structures or vehicles
    • H02G3/02Details
    • H02G3/04Protective tubing or conduits, e.g. cable ladders or cable troughs
    • H02G3/0462Tubings, i.e. having a closed section
    • H02G3/0487Tubings, i.e. having a closed section with a non-circular cross-section

Definitions

  • Scanning devices and/or printing devices can utilize an integrated scanner assembly (ISA) coupled to a control panel.
  • the control panel can be utilized to provide inputs and/or make selections associated with the ISA.
  • Different scanning devices and/or printing devices can utilize different configurations or designs that position the control panel in different locations, in some examples, a number of physical wired connectors can couple the ISA to the control panel so that the control panel can communicate with the product.
  • Figure 1 illustrates an example system for an adjustable wire retention unit consistent with the present disclosure.
  • Figure 2 illustrates an example wire harness with an output consistent with the present disclosure.
  • Figure 3 illustrates an example wire retention unit consistent with the present disclosure.
  • Figure 4 illustrates an example system for an adjustable wire retention unit consistent with the present disclosure.
  • Figure 5 illustrates an example system for an adjustable wire retention unit consistent with the present disclosure.
  • Figure 6 illustrates example nosecones for an adjustable wire retention unit consistent with the present disclosure.
  • an adjustable wire retention unit includes a wire retention unit to align a plurality of wired connectors from an integrated scanner assembly, wherein the wire retention unit receives a locking dimple coupled to an output of the integrated scanner assembly to couple the wire retention unit at a plurality of different locations within the output of the integrated scanner assembly.
  • the adjustable wire retention unit can adjust a location of a plurality of wired connectors from an integrated scanner assembly.
  • the adjustable wire retention unit can be adjusted from a first location to a second location based on an input of a nosecone to be coupled to the integrated scanner assembly. For example, a plurality of different nosecones can be utilized with the integrated scanner assembly by adjusting the location of the wire retention unit based on a corresponding integrated scanner assembly.
  • the wire retention unit can be adjusted from a first location to a second location without utilizing additional tools (e.g., screw driver, etc.).
  • the wire retention unit can be coupled to an output of the integrated scanner assembly with a locking dimple.
  • the locking dimple can be depressed to uncouple the wire retention unit such that the wire retention unit can be adjusted from a first location to a second location.
  • the locking dimple can include a locking edge angle.
  • the wire retention unit can include a corresponding edge angle that can depress the locking dimple to uncouple the wire retention unit.
  • the integrated scanner assembly can include an elongated output with a plurality of locations for the wire retention unit to be positioned.
  • each of the plurality of locations can be separated by a locking dimple.
  • the locking dimple can be utilized to couple the wire retention unit to one or more of the plurality of locations.
  • the locking dimple can interact with an edge of the wire retention unit such that the wire retention unit is locked or secured in a particular location of an elongated output.
  • the edge of the wire retention unit can include a particular edge angle.
  • the edge angle of the wire retention unit can interact with a locking edge angle of the locking dimple.
  • the edge angle of the wire retention unit can be utilized to depress the locking dimple to uncouple the wire retention unit to adjust a location of the wire retention unit.
  • Figure 1 illustrates an example system 100 for an adjustable wire retention unit consistent with the present disclosure
  • the system 100 can include a first orientation 102-1 and a second orientation 102-2.
  • the system 100 can include an integrated scanner assembly 104-1 , 104-2.
  • an integrated scanner assembly can include a media feeder and a scanner unit
  • the first orientation 102-1 can represent when a wire retention unit 1 14- 1 is coupled to a first location 108-1.
  • the second orientation 102-2 can represent when a wire retention unit 1 14-2 is coupled to a second location 1 10-2.
  • adjusting the wire retention unit 1 14-1 to the first location 08-1 can be utilized to couple wired connectors 108-1 to a first type of nosecone and/or a first location of a user interface (e.g., control panel, etc.).
  • adjusting the wire retention unit 1 4-2 to the second location 1 0-2 can be utilized to couple wired connectors 106-2 to a second type of nosecone and/or a second location of a user interface (e.g., control panel, etc.).
  • the system 100 can utilize a plurality of different nosecone types and/or utilize a plurality of different mounting locations for a control panel that utilizes the wired connectors 106-1 , 106-2.
  • the first orientation 102-1 can include an integrated scanner assembly 104-1.
  • the integrated scanner assembly 104-1 can include a wire harness 120-1 that can be utilized to align a plurality of wired connectors 106-1 from the integrated scanner assembly 104-1 to an output 105-1.
  • the plurality of wired connectors 106-1 can be coupled to a printing device coupled to the integrated scanner assembly 104-1.
  • the output 105-1 can be an elongated output.
  • an elongated output is an output that accepts a wired retention unit 1 14-1 at a plurality of locations.
  • the output 105-1 can extend beyond a size of the wired retention unit 1 14-1 such that the wired retention unit 1 14-1 can be coupled to a first location 108-1 or a second location 1 10-1.
  • the output 105-1 can be at least double the size of the wired retention unit 1 14-1 to allow the wired retention unit 1 14-1 to fit within the first location 108-1 and/or the second location 1 0-1.
  • the first location 108-1 and the second location 1 10-1 can be separated by a locking dimple 1 12-1.
  • the locking dimple 1 12- 1 can be utilized to couple the wire retention unit 1 14-1 to the first location 108-1 of the output 105-1
  • the locking dimple 1 12-1 can be utilized to uncouple the wire retention unit 1 14-1 from the first location 108-1 such that the wire retention unit 1 14-1 can be adjusted from the first location 108-1 to the second location 1 10-1.
  • a locking dimple includes a raised portion of the output 105-1 , 105-2 that can lock the wire retention unit 1 14-1 , 1 14-2 at a particular location.
  • the wire retention unit 1 14-1 can include an edge angle that can depress the locking dimple 1 12-1 to uncouple the wire retention unit 1 14-1 from the first location 108-1.
  • the edge angle of the wire retention unit 1 14-1 can correspond to a locking edge angle of the locking dimple 1 12-1.
  • the edge angle of the wire retention unit 1 14-1 can comprise the same angle as the locking edge angle of the locking dimple 1 12-1 to depress the locking dimple 1 12-1 and uncouple the wire retention unit 1 14-1.
  • the second orientation 102-2 can include an integrated scanner assembly 104-2.
  • the integrated scanner assembly 104-2 can include a wire harness 120-2 that can be utilized to align a plurality of wired connectors 106-2 from the integrated scanner assembly 104-2 to an output 105-2.
  • the output 105-2 can be an elongated output.
  • the first location 108-2 and the second location 1 10-2 can be separated by a locking dimple 1 12-2 as described herein.
  • the locking dimple 1 12-2 can be utilized to couple the wire retention unit 1 14-2 to the second location 1 10-2 of the output 105-2.
  • the locking dimple 1 12-2 can be utilized to uncouple the wire retention unit 1 14-2 from the second location 1 10-2 such that the wire retention unit 1 14-2 can be adjusted from the second location 1 10-2 to the first location 108-2.
  • the wire retention unit 1 14-2 can include an edge angle that can depress the locking dimple 1 12-2 to uncouple the wire retention unit 1 14-2 from the second location 1 10-2.
  • the edge angle of the wire retention unit 1 14-2 can correspond to a locking edge angle of the locking dimple 1 12-2,
  • the edge angle of the wire retention unit 1 14-2 can comprise the same angle as the locking edge angle of the locking dimple 1 12-2 to depress the locking dimple 1 12-2 and uncouple the wire retention unit 1 14-2.
  • the system 100 can be utilized to adjust the wire retention unit 1 14-1 , 1 14-2 between a plurality of locations (e.g., location 108-1 , 108-2, location 1 10-1 , 1 10-2, etc.) within the output 105-1 , 105-2.
  • the system 100 can be utilized to attach a plurality of different nosecones to the same integrated scanner assembly 104-1 , 104-2.
  • a location from the plurality of locations can be determined based on an input location of a nosecone to be coupled to the integrated scanner assembly 104-1 , 104-2 and/or a mounting location for a user interface of the integrated scanner assembly 104-1 , 104-2.
  • Figure 2 illustrates an example wire harness 220 with an output 205-1 , 205-2 consistent with the present disclosure.
  • the wire harness 220 can be utilized to direct a plurality of wired connectors from an integrated scanner assembly to an input of a nosecone and/or a user interface as described herein.
  • the wire harness 220 can include a wire channel 222-1 , 222-2 that directs the wired connectors from the integrated scanner assembly to the output 205-1 , 205-2 of the wire harness 220.
  • the output 205-1 , 205-2 can be coupled to an input of the nosecone as described herein, in some examples, the wired connectors can be connected to a plurality of devices within a printing device coupled to the integrated scanner assembly.
  • the wire harness 220 can include a wire channel 222- 1 , 222-2 that includes a plurality of wire damps 224-1 , 224-2 to couple wired connectors along the length of the wire channel 222-1 , 222-2 of the wire harness 220.
  • the wire clamps 224-1 , 224-2 can align the plurality of wired connectors substantially parallel along the length of the wire channel 222-1 , 222-2. in some examples, the wire clamps 224-1 , 224-2 can prevent the wired connectors from overlapping or crossing over other wired connectors.
  • preventing the wired connectors from overlapping can prevent wear on the wired connectors and/or cross talk between one or more of the wired connectors. For example, when moving a wire retention unit from a first location 208-1 , 208-2 to a second location 210-1 , 210-2 at the output 205-1 , 205-2 of the wire harness 220 can potentially alter a position of the wired connectors within the wire channel 222-1 , 222-2. In this example, adjusting the wire retention unit can potentially cause friction between the wired connectors within the wire channel 222-1 , 222-2 and/or cause damage to the wired connectors within the wire channel 222-1 , 222-2.
  • the wire harness 220 can include an output 205-1 , 205-2.
  • the output 205-1 , 205-2 can be an elongated output to receive and/or couple a wire retention unit at a plurality of different locations (e.g., location 208-1 , 208-2, location 210-1 , 210-2, etc.).
  • the output 205-1 , 205-2 can be separated into a plurality of locations (e.g., location 208-1 , 208-2, location 210-1 , 210-2, etc.) by a locking dimple 212-1 , 212-2.
  • a locking dimple 212-1 , 212-2 can include a raised portion of the output 205-1 , 205-2.
  • the raised portion of the output 205-1 , 205-2 can be at an angle that corresponds to an edge angle of a wire retention unit.
  • the raise portion can be generated by stamping an opposite side of the output 205-1 , 205-2. That is, the locking dimple 212-1 , 212-2 can comprise the same material and is a single piece of material with the output 205-1 , 205-2.
  • the plurality of locations can be utilized to lock a wire retention unit. For example, a wire retention unit can be locked at a first location 208-1 , 208-2 by the locking dimple 212-1 , 212-2. In another example, the wire retention unit can be adjusted and locked at a second location 210-1 , 210-2.
  • the wire retention unit can be locked at location 210-1 , 210-2 between the locking dimple 212-1 , 212-2 and an edge dimple 226-1 , 226-2.
  • the locking dimple 212-1 , 212-2 can include a locking edge angle that can interact with a first edge angle of the wire retention unit.
  • the edge dimple 226-1 , 226-2 can include a locking edge angle that can interact with a second edge angle of the wire retention unit.
  • the locking dimple 212- 1 , 212-2 and the edge dimple 226-1 , 226-2 can each lock the wire retention unit at location 210-1 , 210-2.
  • the output 205-1 , 205-2 can be an elongated output that can receive and/or lock the wire retention unit at a plurality of different locations.
  • the elongated output can include a first location 208-1 , 208-2 that can receive the length of the wire retention unit and include a second location 210-1 , 210-2 that is separate from the first location 208-1 , 208-2 to receive the length of the wire retention unit. That is, the length of the elongated output can be greater than double a length of the wire retention unit.
  • the length of the first location 208-1 , 208- 2 can be the length of the wire retention unit and the length of the second location 210- 1 , 210-2 can also be the length of the wire retention unit, in this example, the elongated output would be double the length of the wire retention unit plus a length of the locking dimple 212-1 , 212-2 and the length of the edge dimple 226-1 , 226-2.
  • the output 205-1 , 205-2 can include additional locations and/or additional locking dimples.
  • the wire harness 220 can provide an adjustable wire retention unit to allow a plurality of different nosecones to be coupled to the output 205- 1 , 205-2.
  • the wire harness 220 can lock a wire retention unit at a first location 208-1 , 208-2 to provide wired connectors to an input of a first style of nosecone.
  • the wire harness 220 can adjust the wire retention unit to a second location 210-1 , 210-2 to provide wired connectors to an input of a second style of nosecone.
  • the same wire harness 220 with the same output 205-1 , 205-2 and wire retention unit can be utilized for a plurality of different types of nosecones and/or a plurality of different mounting locations for a user interface.
  • Figure 3 illustrates an example wire retention unit 314 consistent with the present disclosure.
  • the wire retention unit 314 can be coupled to an output of a wire harness (e.g., output 205-1 , 205-2 of wire harness 220 as referenced in Figure 2, etc.).
  • the wire retention unit 314 can be utilized to align a plurality of wired connectors at the output of the wire harness.
  • the wired connectors can be connected to a plurality of devices within a printing device coupled to the integrated scanner assembly.
  • the wire retention unit 314 can include a plurality of notches 330-1 , 330-2, 330-N.
  • the plurality of notches 330-1 , 330-2, 330-N can be utilized to couple a plurality of wired connectors from an integrated scanner assembly.
  • the plurality of notches 330-1 , 330-2, 330-N can each be utilized to couple a corresponding wired connector of the plurality of wired connectors.
  • a particular wired connector can have a shape that corresponds to a particular notch of the plurality of notches 330-1 , 330-2, 330-N.
  • the shape of the wired connector can correspond to a shape of the
  • the plurality of notches 330-1 , 330-2, 330-N can align the plurality of wired connectors in parallel. As described herein, aligning the plurality of wired connectors can prevent the plurality of wired connectors from crossing over other wired connectors and/or twisting together. As described herein, the plurality of wired connectors can be damaged when the wired connectors are crossed or twisted.
  • the plurality of notches 330-1 , 330-2, 330-N can separate each of the plurality of wired connectors to avoid friction and/or cross talk between the plurality of wired connectors.
  • friction can be caused between the plurality of wired connectors when the wired connectors cross over other wired connectors. The friction can create wear on a coating of the plurality of wired connectors, which can cause damage and/or shorting of the wired connectors.
  • the plurality of wired connectors can be coupled to the plurality of notches 330-1 , 330-2, 330-N by positioning the plurality of wired connectors through a corresponding aperture 334-1 , 334-2, 334-N.
  • the corresponding apertures 334-1 , 334-2, 334-N can include a size that corresponds to the type of wired connector to be couple to a corresponding notch of the plurality of notches 330-1 , 330- 2, 330-N.
  • the wire retention unit 314 can be coupled to a plurality of different locations within an output of a wire harness (e.g., output 105-1 , 105- 2 of wire harness 120-1 , 120-2 as referenced in Figure 1 , etc.).
  • the wire retention unit 314 can include a first rail 336-1 and a second rail 336-2 that can be received by the wire harness.
  • the wire harness can include a first guide (e.g., rail guide, etc.) to receive the first rail 336-1 and a second guide to receive the second rail 336-2.
  • the first rail 336-1 and the second rail 336-2 can prevent the wire retention unit 314 from being removed from the output of the wire harness, but still allow the wire retention unit 314 to be adjusted from a first location to a second location.
  • the first rail 336-1 and the second rail 336-2 can prevent the wire retention unit 314 from being moved out of the output of the wire harness and/or moved further into the wire harness, but allow the wire retention unit 314 to move from a first location of the output to a second location of the output as described herein.
  • the wire retention unit 314 can include a plurality of notch covers (not shown) that can block the plurality of apertures 334-1 , 334-2, 334-N when a wired connector is positioned within the plurality of notches 330-1 , 330-2, 330- N.
  • a rail 336-2 can be positioned within a guide of an output of a wire harness as described herein, in these examples, the rail 336-2 positioned within the guide can prevent the wired connectors from being removed when the wire retention unit 314 is coupled to a location within the output of the wire harness as described herein.
  • the plurality of wired connectors are fixed to the wire retention unit 314 by the plurality of notches 330-1 , 330-2, 330-N when the wire retention unit 314 is adjusted from the first location to the second location of an output.
  • the wire retention unit 314 can include a first edge angle 332-1 on a first side of the wire retention unit 314 and a second edge angle 332-2 on a second side of the wire retention unit 314.
  • the first edge angle 332-1 and the second edge angle 332-2 can be utilized to receive a locking dimple and/or an edge dimple to couple or lock the wire retention unit 314 as described herein.
  • the first edge angle 332-1 and/or the second edge angle 332-2 can correspond to a locking edge angle of a locking dimple.
  • first edge angle 332-1 and/or the second edge angle 332-2 can be utilized to depress the locking dimple by moving along the locking edge angle of the locking dimple
  • first edge angle 332-1 and/or the second edge angle 332-2 can be the same angle as the locking edge angle of the locking dimple, but in an opposite direction to allow the first edge angle 332-1 and/or the second edge angle 332-2 to move along the locking edge angle and depress the locking dimple.
  • first edge angle 332-1 and/or the second edge angle 332-2 of the wire retention unit 314 can recess or depress the locking dimple via the locking edge angle of the locking dimple.
  • the wire retention unit 314 can be utilized to change a location of the wired connectors coupled to the wire retention unit 314 without changing a relative position of the wired connectors.
  • the wired connectors can be coupled to the plurality of notches 330-1 , 330-2, 330-N in parallel and are fixed in the parallel position when the wire retention unit 314 is moved from a first location to a second location of the output of a wire harness. This can allow for adjustment of the wire retention unit without damaging the wired connectors as described herein.
  • FIG. 4 illustrates an example system 400 for an adjustable wire retention unit consistent with the present disclosure.
  • the system 400 can include a wire harness 420 that can be utilized to direct a plurality of wired connectors 406 from an integrated scanner assembly to an input of a nosecone and/or a user interface as described herein, in some examples, the wire harness 420 can include a wire channel 422 that directs the wired connectors 406 from the integrated scanner assembly to the output 405 of the wire harness 420. In some examples, the output 405 can be coupled to an input of the nosecone as described herein. In some examples, the wired connectors 406 can be connected to a plurality of devices within a printing device coupled to the integrated scanner assembly.
  • the wire harness 420 can include a wire channel 422 that includes a plurality of wire clamps 424 to couple wired connectors 406 along the length of the wire channel 422 of the wire harness 420.
  • the wire damps 424 can align the plurality of wired connectors 406 substantially parallel along the length of the wire channel 422.
  • the wire clamps 424 can prevent the wired connectors 406 from overlapping or crossing over a different wired connector.
  • preventing the wired connectors 406 from overlapping can prevent wear on the wired connectors 406 and/or cross talk between one or more of the wired connectors 406.
  • adjusting the wire retention unit 414 can potentially cause friction between the wired connectors 406 within the wire channel 422 and/or cause other issues with the wired connectors 406 within the wire channel 422.
  • the wire harness 420 can include an output 405.
  • the output 405 can be an elongated output to receive and/or couple a wire retention unit 414 at a plurality of different locations 408, 410.
  • the output 405 can be separated into a plurality of locations 408, 410 by a locking dimple 412,
  • the plurality of locations 408, 410 can be utilized to lock a wire retention unit 414.
  • a wire retention unit 414 can be locked at a second location 410 by the locking dimple 412 as illustrated in Figure 4.
  • the wire retention unit 414 can be adjusted and locked at a first location 408 by moving the wire retention unit 414 over the locking dimple 412 by depressing the locking dimple 412 as described herein.
  • the wire retention unit 414 can be locked at the second location 410 between the locking dimple 412 and an edge dimple.
  • the locking dimple 412 can include a locking edge angle that can interact with a first edge angle of the wire retention unit 414.
  • the edge dimple can include a locking edge angle that can interact with a second edge angle of the wire retention unit 414.
  • the locking dimple 412 and the edge dimple can each lock the wire retention unit 414 at the second location 410.
  • the output 405 can be an elongated output that can receive and/or lock the wire retention unit 414 at a plurality of different locations 408, 410.
  • the elongated output can include a first location 408 that can receive the length of the wire retention unit 414 and include a second location 410 that is separate from the first location 408 to receive the length of the wire retention unit 414. That is, the length of the elongated output can be greater than double a length of the wire retention unit 414.
  • the length of the first location 408 can be the length of the wire retention unit 414 and the length of the second location 410 can also be the length of the wire retention unit 414.
  • the elongated output would be double the length of the wire retention unit 414 plus a length of the locking dimple 412 and the length of the edge dimple.
  • the system 400 can provide an adjustable wire retention unit to allow a plurality of different nosecones to be coupled to the output 405.
  • the wire harness 420 can lock a wire retention unit 414 at a first location 408 to provide wired connectors 406 to an input of a first style of nosecone.
  • the wire harness 420 can adjust the wire retention unit 414 to a second location 410 to provide wired connectors 406 to an input of a second style of nosecone.
  • the same wire harness 420 with the same output 405 and wire retention unit 414 can be utilized for a plurality of different types of nosecones and/or a plurality of different mounting locations for a user interface.
  • Figure 5 illustrates an example system 500 for an adjustable wire retention unit consistent with the present disclosure
  • the system 500 can include the same or similar elements as system 100 as referenced in Figure 1.
  • the system 500 can include an integrated scanner assembly 504 that includes an output 505.
  • the integrated scanner assembly 504 can include a media feeder 550 that can be hinged over a scanner portion of the integrated scanner assembly 504.
  • the integrated scanner assembly 504 and/or media feeder 550 can be coupled to a plurality of different nosecones by adjusting the wire retention unit 514 at the output 505 of the integrated scanner assembly 504.
  • wired connectors 506 can be connected to a plurality of devices within a printing device coupled to the integrated scanner assembly 504.
  • the nosecone that is coupled to the integrated scanner assembly can include a user interface that is to be coupled to the plurality of wired connectors 506 as described herein.
  • the user interface can include a control panel or other input devices to control or manage features of the integrated scanner assembly.
  • the nosecone can include an input at a particular location to receive the plurality of wired connectors 506.
  • the location of the wire retention unit 514 can be based on the particular location of the input of the nosecone.
  • the wire retention unit 514 can be adjusted based on the particular location of an input for a nosecone to be coupled to the integrated scanner assembly 504.
  • the wire retention unit 514 can be coupled to the output 505 of the integrated scanner assembly at a plurality of different locations, in some examples, the wire retention unit 514 can be coupled by a locking dimple 512. As described herein, an edge angle of the wire retention unit 514 can be utilized to depress the locking dimple to uncouple the wire retention unit 514 from a first location. In some examples, the wire retention unit 514 can be adjusted from a first location to a second location when the wire retention unit 514 is uncoupled from the first location.
  • the same wire harness with the same output 505 and wire retention unit 514 can be utilized for a plurality of different types of nosecones and/or a plurality of different mounting locations for the user interface.
  • Figure 6 illustrates example nosecones 660 for an adjustable wire retention unit consistent with the present disclosure.
  • the adjustable wire retention units can be adjusted from at least a first location to a second location, in some examples, the wire retention unit can be adjusted from a first location to a second location based on an input location (e.g., input location 662-1 , input location 662-2) of a nosecone to be coupled to the integrated scanner assembly.
  • an input location e.g., input location 662-1 , input location 662-2
  • Figure 6 illustrates a first nosecone 660-1 that can include a first input location 662-1 and a second nosecone 660-2 that can include a second input location 662-2.
  • the first nosecone 660-1 can include a plurality of mounting apertures 664-1 that can align to mounting apertures of an integrated scanner assembly.
  • the second nosecone 660-2 can include a plurality of mounting apertures 664-2 that can align to the same mounting apertures of the integrated scanner assembly as the first nosecone 660-1.
  • the first input location 662-1 and the second input location 662-2 can align to a different location on the integrated scanner assembly.
  • the adjustable wire retention unit can be utilized to adjust the wired connectors to a corresponding location of either the first nosecone 660- 1 or the second nosecone 660-2.
  • the wire retention unit can be adjusted to a first location when the first nosecone 660-1 is coupled to the integrated scanner assembly to correspond to the input location 662-1.
  • the same wire retention unit can be adjusted to a second location when the second nosecone 660-2 is coupled to the integrated scanner assembly to correspond to the input location 662-2.
  • the first nosecone 660-1 can be a first type of nosecone that can mount a user interface to a particular location and the second nosecone 660-2 can be a second type of nosecone that can mount a user interface to a different location than the first nosecone 660-1.
  • Each nosecone type can correspond to a particular printing device model even though the same integrated scanner assembly is utilized.
  • an adjustable wire retention unit as described herein can be utilized to adjust to a plurality of different nosecone types.

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  • Engineering & Computer Science (AREA)
  • Architecture (AREA)
  • Civil Engineering (AREA)
  • Structural Engineering (AREA)
  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Insulated Conductors (AREA)
  • Installation Of Indoor Wiring (AREA)

Abstract

Selon un exemple, une unité de retenue de fils réglable comprend une unité de retenue de fils servant à aligner une pluralité de connecteurs câblés provenant d'un ensemble dispositif de balayage intégré, l'unité de retenue de fils recevant une encoche de verrouillage accouplée à une sortie de l'ensemble dispositif de balayage intégré de façon à accoupler l'unité de retenue de fils au niveau d'une pluralité d'emplacements différents à l'intérieur de la sortie de l'ensemble dispositif de balayage intégré.
PCT/US2016/050783 2016-09-08 2016-09-08 Unité de retenue de fils réglable WO2018048409A1 (fr)

Priority Applications (1)

Application Number Priority Date Filing Date Title
PCT/US2016/050783 WO2018048409A1 (fr) 2016-09-08 2016-09-08 Unité de retenue de fils réglable

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Application Number Priority Date Filing Date Title
PCT/US2016/050783 WO2018048409A1 (fr) 2016-09-08 2016-09-08 Unité de retenue de fils réglable

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WO2018048409A1 true WO2018048409A1 (fr) 2018-03-15

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Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO1998029924A1 (fr) * 1996-12-27 1998-07-09 The Whitaker Corporation Contact electrique
US20030199191A1 (en) * 2002-04-22 2003-10-23 Ward Bobby Gene Wire retaining connector block
US20040007371A1 (en) * 2002-07-09 2004-01-15 Chang Chien Hua Wire collection box
US20080076291A1 (en) * 2006-07-06 2008-03-27 Server Technology, Inc. Electrical plug retainer

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO1998029924A1 (fr) * 1996-12-27 1998-07-09 The Whitaker Corporation Contact electrique
US20030199191A1 (en) * 2002-04-22 2003-10-23 Ward Bobby Gene Wire retaining connector block
US20040007371A1 (en) * 2002-07-09 2004-01-15 Chang Chien Hua Wire collection box
US20080076291A1 (en) * 2006-07-06 2008-03-27 Server Technology, Inc. Electrical plug retainer

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