EP4230537A1 - Outil de ligature de câble - Google Patents

Outil de ligature de câble Download PDF

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Publication number
EP4230537A1
EP4230537A1 EP23150991.0A EP23150991A EP4230537A1 EP 4230537 A1 EP4230537 A1 EP 4230537A1 EP 23150991 A EP23150991 A EP 23150991A EP 4230537 A1 EP4230537 A1 EP 4230537A1
Authority
EP
European Patent Office
Prior art keywords
cable
strap
reel
cable tie
locking
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.)
Pending
Application number
EP23150991.0A
Other languages
German (de)
English (en)
Inventor
Federico Cabrele
Michele Sala
Lorenzo ALTARINO
Michele Lucon
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.)
Illinois Tool Works Inc
Original Assignee
Illinois Tool Works Inc
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 Illinois Tool Works Inc filed Critical Illinois Tool Works Inc
Priority to US18/152,894 priority Critical patent/US20230219706A1/en
Publication of EP4230537A1 publication Critical patent/EP4230537A1/fr
Pending legal-status Critical Current

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65BMACHINES, APPARATUS OR DEVICES FOR, OR METHODS OF, PACKAGING ARTICLES OR MATERIALS; UNPACKING
    • B65B13/00Bundling articles
    • B65B13/18Details of, or auxiliary devices used in, bundling machines or bundling tools
    • B65B13/22Means for controlling tension of binding means
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B25HAND TOOLS; PORTABLE POWER-DRIVEN TOOLS; MANIPULATORS
    • B25BTOOLS OR BENCH DEVICES NOT OTHERWISE PROVIDED FOR, FOR FASTENING, CONNECTING, DISENGAGING OR HOLDING
    • B25B25/00Implements for fastening, connecting or tensioning of wire or strip
    • 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
    • B65B13/04Applying and securing binding material around articles or groups of articles, e.g. using strings, wires, strips, bands or tapes with means for guiding the binding material around the articles prior to severing from supply
    • B65B13/06Stationary ducts or channels
    • 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
    • B65B13/34Securing ends of binding material by applying separate securing members, e.g. deformable clips
    • B65B13/345Hand tools
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B26HAND CUTTING TOOLS; CUTTING; SEVERING
    • B26DCUTTING; DETAILS COMMON TO MACHINES FOR PERFORATING, PUNCHING, CUTTING-OUT, STAMPING-OUT OR SEVERING
    • B26D1/00Cutting through work characterised by the nature or movement of the cutting member or particular materials not otherwise provided for; Apparatus or machines therefor; Cutting members therefor
    • B26D1/01Cutting through work characterised by the nature or movement of the cutting member or particular materials not otherwise provided for; Apparatus or machines therefor; Cutting members therefor involving a cutting member which does not travel with the work
    • B26D1/04Cutting through work characterised by the nature or movement of the cutting member or particular materials not otherwise provided for; Apparatus or machines therefor; Cutting members therefor involving a cutting member which does not travel with the work having a linearly-movable cutting member
    • B26D1/045Cutting through work characterised by the nature or movement of the cutting member or particular materials not otherwise provided for; Apparatus or machines therefor; Cutting members therefor involving a cutting member which does not travel with the work having a linearly-movable cutting member for thin material, e.g. for sheets, strips or the like
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B26HAND CUTTING TOOLS; CUTTING; SEVERING
    • B26DCUTTING; DETAILS COMMON TO MACHINES FOR PERFORATING, PUNCHING, CUTTING-OUT, STAMPING-OUT OR SEVERING
    • B26D5/00Arrangements for operating and controlling machines or devices for cutting, cutting-out, stamping-out, punching, perforating, or severing by means other than cutting
    • B26D5/08Means for actuating the cutting member to effect the cut
    • B26D5/10Hand or foot actuated means
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B26HAND CUTTING TOOLS; CUTTING; SEVERING
    • B26DCUTTING; DETAILS COMMON TO MACHINES FOR PERFORATING, PUNCHING, CUTTING-OUT, STAMPING-OUT OR SEVERING
    • B26D7/00Details of apparatus for cutting, cutting-out, stamping-out, punching, perforating, or severing by means other than cutting
    • B26D7/08Means for treating work or cutting member to facilitate cutting
    • B26D7/14Means for treating work or cutting member to facilitate cutting by tensioning the work

Definitions

  • the present invention relates to hand-held tensioning and cutting tools and in particular, to an improved hand tool for tensioning and cutting cable ties including a magazine and cable / locking head feeder mechanism.
  • Cable ties also known as zip ties or hose ties, are widely used in a variety of environments and applications.
  • cable ties may be used to securely bundle a plurality of wires, cables or conduits such as those found in the automotive industry.
  • cable ties may be used to secure articles to rigid structures (e.g. a chassis) but may also be utilised as hose clamps.
  • a cable tie comprises a tie head portion and a tie tail portion of various lengths that is integrally formed with the head portion. During use, the tie tail is threaded through the tie head so as to encircle the articles to be bound or secured.
  • the tie tail section is usually provided with teeth that engage with a pawl provided in the tie head and forming a ratchet so that, as the free end of the tie tail is pulled, the cable tie tightens and does not come undone. Once the tie tail of the cable tie has been pulled through the tie head and past the ratchet, it is prevented from being pulled back, thus, the resulting loop may only be pulled tighter.
  • Some cable ties may include a tab that can be depressed to release the ratchet so that the cable tie can be loosened or be removed and possibly reused.
  • a cable tie tensioning device also known as cable tie tool or cable tie gun, may be used to install cable ties and apply a predefined degree of tension, as well as, cut off the extra tail.
  • the cut tie tail is flush with the tie head portion so as to avoid sharp edges, which might otherwise cause injuries.
  • Light-duty tools may be operated by simply and repeatedly squeezing the handle and trigger with the fingers until a desired tension of the cable tie has been reached to then cut off the tail section of the tightened cable tie.
  • Heavy-duty or automated tools may be powered, for example, by compressed air or a solenoid (i.e. actuator) to assist the user when operating the tool.
  • binding tools or cable tie tools including a magazine or magazines that comprise(s) a plurality of either separate cable ties including heads, or a long reeled up cable strap and separate locking heads to be used with the strap.
  • Such known tools using reeled cable straps are relatively complicated mechanism that often utilise electronically powered components to tension and cut a desired length of cable tie that is used to secure or bundle up one or more structures.
  • a power source e.g. electric, pneumatic, hydraulic or the like.
  • a tool for tensioning and severing a cable tie comprising:
  • said blade guard is moveable between a first position, retaining said locking head in said loading position, and a second position, releasing said locking head through an aperture of said blade guard, while moving another one of said plurality of locking heads into said loading position.
  • said blade guard comprises a blade member adapted to cut through said cable tie strap when moved into said second position.
  • movement of said blade guard is actuated by said cut-off mechanism.
  • said reel magazine assembly further comprises a reel biasing mechanism configured to provide said spring biased rotation and selectively releasably coupleable with a hub member receiving said cable strap reel.
  • said reel magazine assembly further comprises a release mechanism adapted to disengage said reel biasing mechanism from said hub member.
  • said feeder guide mechanism further comprises a roller guide adapted to allow movement of said cable tie strap towards said distal housing end portion and prevent movement of said cable tie strap back towards said cable strap reel.
  • said feeder guide mechanism further comprises a manual slider mechanism, configured to grippingly engage with a portion of said cable tie strap and slidingly move between a first trigger position, adjacent to said roller guide, and a second trigger position, spaced apart from said roller guide towards said distal housing end portion.
  • said manual slider mechanism is biased towards said first trigger position.
  • said locking heads magazine assembly is adapted bias said plurality of locking heads towards said blade guard, during use.
  • said locking heads magazine assembly is adapted to retain two parallelly arranged rows of said plurality of locking heads, such that one row of said plurality of locking heads is axially offset relative to the other row of said plurality of locking heads, by a distance equivalent to half the thickness of one of said plurality of locking heads.
  • said locking heads magazine assembly further comprises a level indicator, adapted to indicate the number of locking heads left in said locking heads magazine assembly.
  • said locking heads magazine assembly further comprises a pivot cover, movable between a closed position, covering said plurality of locking heads, and an open position, allowing access to said plurality of locking heads.
  • said pivot cover is biased towards said open position and lockingly engaged with a releasable hook mechanism when in said closed position.
  • the described example embodiment relates to a hand-held tensioning and cutting tool such as a cable tie tool for use with a reeled cable tie strap (magazine) and separately stored locking heads (magazine).
  • a hand-held tensioning and cutting tool such as a cable tie tool for use with a reeled cable tie strap (magazine) and separately stored locking heads (magazine).
  • the invention is not limited to hand-held devices with manual tool mechanisms and may be used for any tool suitable for tensioning and cutting cable ties, including tools using electric or pneumatic motors etc.
  • the designated directions used in the description are with respect to the hand-held tool held by the user in a normal, upright position, i.e. the handle portion pointing downwards and the barrel portion pointing forward and away from the user. It is understood that the tool may be used in any other orientation suitable for the job at hand, though, for simplicity, the designated directions are used when the tool is in a "normal" orientation.
  • the words 'inner', 'inwardly' and 'outer', 'outwardly' refer to directions toward and away from, respectively, a designated centreline or a geometric centre of an element being described (e.g. central axis), the particular meaning being readily apparent from the context of the description.
  • the terms 'connected', 'attached', 'coupled', 'mounted' are intended to include direct connections between two members without any other members interposed therebetween, as well as, indirect connections between members in which one or more other members are interposed therebetween.
  • the terminology includes the words specifically mentioned above, derivatives thereof, and words of similar import.
  • the cable tie tool 100 comprises a housing 102 having a barrel portion 104 extending along a longitudinal axis 110 between a distal housing end portion 106 and a proximal housing end portion 108.
  • a handle portion 112 extends away from the proximal housing end portion 108 in a direction intersecting with the longitudinal axis 110, for example, at an angle between 60° and 90° with respect to the longitudinal axis 110.
  • the housing 102 may further comprise a trigger housing 206.
  • An adjustment knob 630 and a biased locking switch 636 is provided at the proximal housing end portion 108.
  • a magazine 700 for a cable strap reel (inside) is provided on top of the barrel portion 104 and operably coupled with the tool mechanisms, so as to feed the coiled or reeled cable strap 2002 into the barrel portion 104 of the tool 100.
  • Figures 2 (a) to (c) shows the cable tie tool 100 in respective (a) front-view (distal end), (b) rear-view (proximal end) and (c) top-view.
  • Figure 3 shows a cross-sectional view (along centre plane A-A, see Figure 2(c) ) of the cable tie tool 100 illustrating the mechanism(s) operably embedded within the housing 102.
  • the tool mechanism has been divided into separate functional groups with respective ones operably coupled to one another, so as to provide the desired functions of the tool 100.
  • These functional groups include a trigger mechanism 200, mostly embedded within the handle portion 112 and trigger housing portion 206 and adapted to be moved by the user's hand during operation, a tension mechanism 300, embedded within the barrel portion 104 and adapted to grippingly engage the cable tie tail and apply a predetermined maximum tension, a locking mechanism 400, embedded within the barrel portion 104 and adapted to lock the trigger mechanism 200 and tensioning mechanism 300 at the predetermined (i.e.
  • the trigger mechanism 200 is the main actuator of the cable tie tool 100.
  • the user grips the handle portion 112 with the palm of one hand and uses the fingers of that hand to squeeze the trigger lever 202 towards the handle portion 112.
  • the trigger lever 202 is urged back into its starting position via a biasing member (i.e. a spring) 246 operably embedded into the handle portion 112 and coupled to a handle lever 224. Repeated movement of the trigger lever 112 will pull the looped tie tail back and apply a tension.
  • a biasing member i.e. a spring
  • the trigger mechanism 200 is partially integrated into the handle portion 112 of the housing 102.
  • the elongate trigger lever 202 is located forwardly of the handle portion 112 and pivotably mounted within the housing 102 at its proximal (or upper) end so as to allow movement about a substantially horizontal pivot axis.
  • the trigger lever 202 may include two substantially parallel spaced side faces 210a,b and a front face 212 forming a generally U-shaped profile with an elongate recess.
  • the trigger lever 202 is movable from an initial forward position to a final rearward position and back to its initial forward position.
  • An inner trigger link 204 extends upwardly within the elongate recess of the trigger lever, a lower link end of the inner trigger link 204 is pivotally joined to the trigger lever 202 for pivot movement about a substantially horizontal pivot axis.
  • the upper link end of the inner trigger link 204 comprises an elongate aperture (see Fig.3 ) suitable to operably link to the cutting mechanism 500 (described in a following section).
  • the handle lever 224 is pivotally coupled at its lower (distal) lever end at a pivot axis within the handle portion 112 of housing 102 and its upper (proximal) lever end is operably coupled to a proximal end of a pawl link 302 of the tension mechanism 300 (described in a subsequent section).
  • the handle lever 224 is pivotally movable about its pivot axis between a forward position (relative to the handle portion) and a rearward position within the handle portion 112.
  • the handle lever 224 is biased towards its forward position by the biasing member 246, such as, for example, a coil spring or a leaf spring or a torsion spring, or any other spring element suitable to urge the handle lever 224 into its forward position.
  • a forward end of a short link 230 is pivotally joined to the inner trigger link 204 and a rearward end of the short link 230 is pivotally joined to the handle lever 224.
  • Each one of the forward end and the rearward end are configured to allow pivot movement about respective pivot axes and.
  • a trigger bearing (not shown) may be provided at the coupling of the upper lever end of the handle lever 224 coupled within the housing 102 such that the tension mechanism 300 movement is limited to a horizontal, linear reciprocal movement relative to the housing 102, i.e. the housing 102 is provided with a first cam or guide surface adapted to guidingly engage with respective trigger bearing such that pivotal movement of the handle lever 224 about its pivot axis is translated into to a linear movement of the operably coupled pawl link 302.
  • the tension mechanism 300 is operably linked to and actuated by the trigger mechanism 200 in order to securely grip the inserted tie tail of the cable tie and pull the engaged tie tail backwards (i.e. towards the proximal end portion of the tool 100), thus, tightening the cable tie around the bundle of components until a predetermined maximum tension of the tie tail is reached.
  • the tension mechanism 300 comprises a pawl link 302 mounted for horizontal, linear reciprocal movement relative to the housing 102.
  • the pawl link 302 is guidingly supported for linear movement via suitable link bearings (not shown in any more detail) configured to operably engage with a suitable second cam surface or guide of the housing 102 (see section (i)).
  • a gripping pawl 310 is operably mounted to the distal end portion of the pawl link 302.
  • the gripping pawl 310 is rotatably attached to the pawl link, so as to allow pivot movement between a lower position and an upper position relative to the pawl link 302.
  • the distal end portion of the pawl link 302 further comprises a backing plate or backing portion arranged so as to trappingly or grippingly engage the tie tail in cooperation with the gripping pawl 310 when in its upper position.
  • a spring member (not shown) provides a bias of the gripping pawl 310 towards its upper position, i.e. towards the backing plate.
  • any suitable biasing member may be used to provide a spring bias.
  • the gripping pawl may be slidably mounted with the pawl link 302, so as to allow sliding movement between a lower, rearward position and an upper, forward position relative to the pawl link 302.
  • the pawl link 302 comprises two parallel arranged symmetrical pawl link members configured to sandwichingly mount the gripping pawl 310, therebetween.
  • a proximal end portion of the pawl link comprises a bearing pin configured to receive the trigger bearings, as well as, pivotally couple with the upper lever end of the handle lever 224 via its elongated aperture.
  • the elongate aperture is shaped so as to allow an arcuate trajectory of the handle lever 224 about its pivot axis while the pawl link 302 is moved horizontally linearly.
  • the locking mechanism 400 is operably coupled with the tension mechanism 300 and its function is to lock the movement of the pawl link 302 (i.e. interrupt the backward movement of the pawl link) and initiate the actuation of the cutting mechanism 500 when reaching a predetermined tension applied to the tie tail, during use.
  • the locking mechanism 400 comprises a locking lever 402 arranged adjacent to and substantially in parallel with a proximal section of the pawl link 302 between a proximal lever end 406 and a distal lever end.
  • a contact surface in an alternative embodiment the contact surface could also be a contact protrusion
  • a stop member i.e. a plurality of teeth
  • the locking lever 402 is pivotally coupled with the pawl link 302 via a fulcrum pin, thus, allowing the locking lever 402 to rotate about the fulcrum pin with respect to the pawl link 302 between an engaged, locked position (i.e. teeth 426 of stop member 402 lockingly engage with corresponding teeth of a rack member 414) and a disengaged, unlocked position (i.e. disengaged from the rack member 414).
  • the lower contact surface of the distal lever end is configured to contactingly engage with a contact portion situated on an upper surface of the cutting lever 502.
  • a rack member 414 is mounted to the housing 102 and within the biasing mechanism group 600 and orientated so as to operably face in a direction of the stop member 404 (e.g. an array of equidistantly arranged teeth). This allows locking engagement between the teeth 426 of the stop member 404 and the teeth of the rack member 414 when the locking lever 402 is rotated into its locked position.
  • a lever support member (see EP21211181.9 for more detail) is mounted to the proximal end portion of the pawl link 302 and configured to support the proximal lever end when in its unlocked position.
  • the lever support member comprises a spring element operably embedded within the support surface of the lever support member and configured to bias the proximal lever end towards its locked position (i.e. towards the rack member). This bias is counteracted by the contact portion of the cutting lever 502 when the cutting lever 502 is pivoted into its upper position (i.e. blade is retracted).
  • the locking lever 402 and lever support member are "sandwiched" or operably installed between the two assembled pawl link members 302.
  • the cut-off mechanism 500 cuts or severs the engaged cable tie tail when a predetermined tension is reached.
  • the cut-off mechanism 500 is directly coupled with the trigger mechanism 200 (via inner trigger link 204) and the adjustable biasing mechanism 600 (via fulcrumed lever link 602 about its fulcrum pin), as well as, operably engaged with the locking mechanism 400 (via its contact portion).
  • the cut-off mechanism 500 is arranged within the barrel portion 104 of the housing 102 below and substantially parallel to the pawl link 302 and comprises a cutting lever 502 operably coupled to a blade member 504 on its distal cutting lever end (via a movable blade guard 1000) and having a contact portion (protruding towards the pawl link 302) on its proximal cutting lever end.
  • the cutting lever 502 is pivotally coupled to the housing 102 via a fulcrum pin, so as to allow rotation of the cutting lever 502 about the fulcrum pin relative to the housing 102, as well as, relative to the reciprocatingly movable pawl link 302.
  • the blade member 504 is arranged with the movable blade guard 1000 (described in more detail in section (iv)) forward of the distal housing end portion 106 mounted to the tension mechanism 300 (i.e. forward of the gripping pawl) and is operably encased by the movable blade guard 1000 (see Figure 7(b) ).
  • the cutting lever 502 is configured to move between an upper position, i.e. blade member 504 is cuttingly engaged with the tie tail, and a lower position, blade member 504 is disengaged from the tie tail.
  • an upper position i.e. blade member 504 is cuttingly engaged with the tie tail
  • a lower position blade member 504 is disengaged from the tie tail.
  • the contact portion at the proximal end is supportingly engaging the distal lever end of the locking lever 402 of the locking mechanism 400, i.e. pushing the distal lever end of the locking lever 402 into its upper position.
  • a cutting linkage 514 is coupled to the proximal cutting lever end so as to operably link the cutting lever 502 with the inner trigger link 204 of the trigger mechanism 200.
  • the cutting linkage 514 comprises a pivot link (e.g two parallel pivot link members) 516 directly and pivotally coupled to the proximal cutting lever end via a pivot pin, and a sliding link (not shown) operably coupled between the pivot link 516 (via pivot pin) and the inner trigger link 204.
  • the sliding link is slidingly retained by a third cam surface or guide within the housing 102 via a cam follower so as to only allow reciprocating linear movement of the sliding link between a forward (distal) position and a rearward (proximal) position.
  • the sliding link is provided with a pin configured to slidingly engage with the complementary cam guide of the housing 102.
  • Tension springs 528 e.g. coils springs, are provided between the pivot link 516 and the lever link 602, so as to bias the pivot link 516 and the distal cutting lever end towards respective upper positions.
  • a force acting on the sliding link is provided by the inner trigger link 204.
  • the pivot pin of pivot link 516 is forced linearly forward, the pivot link 516 can only rotatingly move away about its pivot pin, thus, moving the proximal cutting lever end downward (allowing the distal lever end of the locking lever 402 to pivot down) and the blade member 504 upward.
  • the force acting on the sliding link is translated into a rotational movement of the cutting lever 502 about its fulcrum pin.
  • the adjustable biasing mechanism 600 provides for a selectively adjustable biasing force setting the maximum tension applied to the cable tie at which the tie tail section is cut off.
  • the adjustable biasing mechanism 600 is operably coupled with the cut-off mechanism 500 and the trigger mechanism 200 via the fulcrumed lever link 602 and operably incorporates the rack member 414 of the locking mechanism 400.
  • the adjustable biasing mechanism 600 includes a spring housing 610 having a coupling member extending away from a distal end of the spring housing 610 (i.e. towards the distal cutting lever end) and is adapted to receive a spring member such as a coil spring, as well as, a plunger member.
  • the plunger member is slidably movable within the spring housing 610, so as to compress the torsion spring when moving towards the distal end of the spring housing 610 and expand the torsion spring when moving back towards a proximal end of the spring housing 610.
  • the plunger member comprises two radially opposing lateral protrusions adapted to slide into respective guide grooves (or longitudinal apertures) formed within the spring housing 610, so as to prevent rotation of the plunger member, during use.
  • a lead screw mechanism is operably coupled with the plunger member and mounted within the housing 102 such that rotation of a proximal end portion of the lead screw mechanism is translated into linear axial movement of plunger member.
  • the rotation of the proximal end portion may be provided by the user via an adjustment knob 630 coupled to the proximal end portion of the lead screw mechanism.
  • the lead screw mechanism moves the plunger member distal or proximal within the spring housing 610 to either compress or expand the coil spring within the spring housing 610.
  • Lead screw mechanisms such as the one illustrated, are well known in the art and are not described in any more detail.
  • the position of the plunger member within its spring housing 610 determines the precompression of the torsion spring and thus, controls the biasing force provided by the adjustable biasing mechanism 600 via the fulcrumed lever link 602.
  • a thrust bearing may be provided between the lead screw mechanism and the rack member 414 in order to prevent the transmission of any axial pressure to the adjustment knob 630.
  • a gear mechanism such as a spin or torque multiplier, may be operably coupled between the adjustment knob and the proximal end portion of the lead screw mechanism.
  • a magazine assembly 700 configured to operably store one or more cable strap reels 2000
  • a feeder guide mechanism 800 configured to pull and guide the reeled strap 2002 from the magazine 700 towards and out of the distal end 106 of the tool 100
  • a locking head magazine assembly 900 configured to hold a plurality of separate locking heads 906 and automatically position a locking head 906 for use with the engaged cable tie strap 2002
  • a movable blade guard 1000 (introduced in section (iv)), configured to cut the engaged cable tie strap 2002, in use, and release the locked and cut cable tie so as to operably position another locking head 906 ready for the next use.
  • Figures 4(a) and (b) illustrate perspective- and side-view of the tool 100 with the housing removed. It is understood that any one of the respective functional groups 200, 300, 400, 500, 600, 700, 800, 900 and 1000 is partially interconnected with another functional group, and a part of one functional group may also be a component of, or at least operably coupled with, another functional group.
  • each one of the functional groups 700, 800, 900 and 1000 of the present invention is first described separately, before the cable tie strap pull-in function and combination with the locking heads 906 is described as a whole.
  • the reel magazine assembly 700 is operably coupled to a mid-section of the barrel portion 104 of the tool housing 102.
  • the reel housing 702 (made up of two halves, as is the tool housing 102) is integrally formed with the tool housing 102.
  • the reel magazine assembly 700 includes a reel biasing mechanism 704 comprising of a spiral spring 706 and an engagement disc 708 having a coaxially arranged conical engagement member 710 adapted to operably engage with a bearing hub 712.
  • the reel biasing mechanism 704 is configured to automatically rewind the cable tie strap 2002 onto the cable strap reel 2000, as well as, provide a constant tension/bias of the cable tie strap 2002 fed into the tool 100.
  • the bearing hub 712 is adapted to retainingly receive a cable strap reel 2000 storing a plurality of wound-up cable tie straps 2002 and comprises an internal conical engagement portion 714 configured to matingly engage with the conical engagement member 710 of the engagement disc 708.
  • the conical engagement member 710 and the internal conical engagement portion 714 are shaped to matingly engage and provide a friction coupling between the bearing hub 712 and the engagement disc 708.
  • the friction coupling is suitable to transfer rotational movement from the engagement disc 708 to the bearing hub 712 and vice vera.
  • a push button 716 is coaxially coupled to the bearing hub 712 through the reel housing 702, such that axial movement of the push button 716 axially moves the bearing hub 712 between an engaged position, coupled to the conical engagement member 710 of the engagement disc 708, and a disengaged position, moved away from the engagement member 710 of the engagement disc 708.
  • the push button 716, as well as, the bearing hub 712 are biased towards the engaged position (see Figure 7(a) and (b) ).
  • the bias is provided by a compression spring 718 and a plurality of stacked compression spring discs 720.
  • the reel housing 702 further comprises a removable cover 722 to allow installation and removal of the cable strap reel 2000.
  • a fully stored cable strap reel 2000 is mounted onto the bearing hub 712 through the opening provided by the removable cover 722 and an end portion of a cable tie strap 2002 is fed into the feeder guide mechanism 800 (describe in section (viii)).
  • the cable strap reel 2000 is typically under a rotational bias tension from the reel biasing mechanism 704.
  • the push button 716 is axially depressed, thus, moving the bearing hub 712 out of engagement with the engagement member 710 of the engagement disc 708 and allowing the wound-up (or loaded) spiral spring 706 of the reel biasing mechanism 704 to unwind (or unload) freely.
  • the cable strap reel 2000 can be accessed or replaced via the removable cover 722 to then feed a new cable tie strap 2002 into the feeder guide mechanism 800.
  • the cable strap reel 2000 may be made of a recycled cardboard material suitable to hold the one or more coiled cable tie straps 2002.
  • the feeder guide mechanism 800 is embedded between the magazine assembly 700 and the trigger, tension and locking mechanism 200, 300, 400.
  • the feeder guide mechanism 800 guides the cable tie straps 2002 from the reel 2000 through the barrel portion 104 out of the blade guard 1000 at the distal housing end portion 106, around the object(s) to be tied up and back into the barrel portion 104 for engagement with the gripping pawl 310 of the tension mechanism 200, ready to be tightened and cut.
  • the feeder guide mechanism 800 provides two distinct functions.
  • roller guide 802 for the cable tie strap 2002 from the reel 2000 (stored in the magazine assembly 700) into the barrel portion 104, configured to prevent or block the cable tie strap 2002 from being pulled back onto the spring-biased reel 2000 once the cable tie strap 2002 is cut and/or tension applied to the cable tie strap 2002 is released.
  • the roller guide 802 will keep the cable tie strap 2002 in position for the next use until the whole coiled up cable tie strap has been used up.
  • the feeder guide mechanism 800 provides for a manual slider 804 adapted to "grab” an end portion of the cable tie strap 2002 and move it through and out of the barrel portion 104 to be pulled around one or more object(s) and pushed back into the barrel portion 104 for tensioning and cutting.
  • the manual slider 804 is configured to allow repeated "grab” and “release” of the cable tie strap 2002 and move a section of the cable tie strap 2002 forward, while the roller guide 802 prevents the cable tie strap 2002 from being pulled back onto the biased reel 2000 when the manual slider 804 releases the cable tie strap 2002 to move back to its starting position.
  • the roller guide 802 comprises an eccentric upper roller member 806 rotatably mounted to a first pivot link 808, and a lower roller member 810 rotatably mounted to a second pivot link 812 and cooperatively facing the eccentric upper roller member 806.
  • the upper and lower roller members 806 and 810 are arranged within the barrel portion 104 so as to guidingly “open” when the cable tie strap 2002 moves towards the distal end portion 106 of the tool 100, but “wedgingly” block the cable tie strap 2002 when moving back towards the proximal end portion 108 (i.e. back onto the biased reel 2000).
  • the eccentricly arranged roller member 806 and the lower roller member 810 arranged on a forward facing second pivot link 812 block any return movement of the cable tie strap 2002 by reducing the gap between the upper and lower roller member 806 and 810 and increasing the gripping force effected by the upper and lower roller member 806, 810 onto the cable tie strap 2002.
  • any one of the first and second pivot links 808, 812 may be biased towards the "closing" position.
  • the manual slider 804 comprises a trigger member 814 rotatably and slidably mounted between an upper rack member 910 and a lower rack member 912 of the locking heads magazine assembly 900 (see Figure 11 , section (ix)).
  • An eccentric roller 816 is rotatably mounted to the rotational axis of the trigger member 814 and arranged so as to be axially aligned with the cable tie strap 2002 when fed through the roller guide 802 into the barrel portion 104.
  • the trigger member 814 and mounted eccentric roller 816 are configured to be rotated forward (i.e.
  • the sliding movement of the manual slider 804 is also biased towards its starting position so that when releasing the trigger member 814, the trigger member 814 rotates back up (clockwise) and the manual slider 804 slides back to its starting position (towards the proximal end 108).
  • the biasing force may be provided by any biasing means, such as, for example, a compressing spring for the sliding movement and a torsion spring for the rotatable trigger lever 814.
  • the trigger member 814 is rotated forward to "grab” an end portion of the cable tie strap 2002 with the contactingly engaging eccentric roller 816, to then slide the manual slider 804 and engaged cable tie strap 2002 forward, where the trigger member 814 is simply released to spring-biasingly rotate back and disengage the eccentric roller 816 from the cable tie strap 2002.
  • the biased cable tie strap 2002 is prevented from moving back onto the biased reel 2000 by the unidirectional roller guide 802, so that the "grab” and “slide” action can be repeated until a desired length of cable tie strap 2002 is moved out of the barrel portion 104 of the tool 100.
  • the manual slider 804 is operably positioned between the upper and lower rack member 910, 912 and the sliding movement of the slider 804 may be facilitated by ball bearings 818 provided between respective upper and lower rack member 910, 912 and the manual slider 804.
  • the tool 100 is provided with a magazine assembly 900 for storing the separate locking heads 906 and a movable blade guard 1000 configured to move a new locking head 906 into position for use with the next cable tie strap 2002.
  • the locking head magazine 900 comprises an upper rack member 910, a lower rack member 912, a spring-biased locking head cover 902, a locking heads cartridge 904 including a plurality of locking heads 906 and a spring-biased plunger 914.
  • the locking head cover 902 is pivotably mounted, so as to rotatably move between an open position, allowing access to the inserted cartridge 904, and a closed position, securing the cartridge to the upper rack member 910 via a spring-biased hook mechanism 918, actuatable by a push button 920.
  • the cover 902 is spring-biased towards its open position.
  • the cartridge 904 is used to store and correctly align (parallel) the locking heads 906.
  • a spring biased plunger 914 is provided on the upper rack member 910, so as to operably engage with the locking heads 906 stored within the cartridge 904 and when placed into the locking heads magazine 900.
  • the plunger 914 is adapted to provide a biasing force onto the parallelly aligned locking heads 906, so as to push the locking heads 906 towards the distal end portion 106 (i.e. towards the blade guard 1000).
  • the plunger 914 includes an offset head engagement member 916, so that, when the locking heads 906 are stored within the cartridge 914 and operably coupled with the plunger 914, the parallelly arranged rows of locking heads 906 are axially offset, i.e. only one locking head 906 is positioned at the forefront to be loaded next. Thus, when the blade guard 1000 is actuated, only that one locking head 906 is loaded and operably positioned for the next cable tie strap 2002, during use.
  • the axial offset between the two rows of locking heads is about half a thickness of a locking head 906.
  • a plunger screw 908 may be provided to indicate the amount of locking heads 906 left in the cartridge 904 when the cover 902 is closed.
  • the plunger screw 908 is mounted through the cover 902 and cartridge 904 to, and moves with the head engagement member 916.
  • the locking heads cover 902 is opened by depressing the push button 920 and disengaging the hook 918 from the spring biased cover 902 (which will open automatically, when the plunger screw 908 is removed).
  • the locking heads 906 are then placed into the cartridge 904 and the filled cartridge 904 is placed onto the upper rack member 910 with the engagement member 916 pushing against the two locking heads 906 at the proximal end, thus, axially offsetting the two rows by about half a locking head thickness (see Figs. 12 , 13 ).
  • the locking head cover 902 is then rotated back into its closed position and secured by the hook 918.
  • the locking heads magazine 900 is now ready for use with the tool 100.
  • a movable blade guard 1000 is provided at the distal end portion 106, coupled to the distal end of the cutting lever 502, so as to slidably move up and down with the rotational movement of the cutting lever 502.
  • the blade member 504 is mounted to the blade guard 1000 at its interior surface and slidably moves with the blade guard 1000.
  • the blade guard 1000 is configured to moved up and down (with the blade member 504 and cutting lever 502 from the cutting mechanism 500).
  • An exit aperture 1002 having a narrower upper portion 1004, preventing locking heads 906 from passing through, and a wider lower portion 1006, allowing a locking head 906 to pass through, is provided at a central portion of the blade guard 1000.
  • the aperture 1002 allows the engaged and loaded locking head 906 to exit through the larger, wider portion 1006 of the aperture 1002 when the blade guard 1000 is moved up during the cutting of the cable tie strap 2002.
  • the blade guard comprises two head guides 1008 arranged at an interior surface of the blade guard 1000, so as to engage with the next locking head 906, during reloading. When the blade guard 1000 moves back down (after cutting), the head guide 1008 engages with the foremost locking head 906 and moves it into the loading position (i.e. behind the narrower upper portion 1004 of the aperture 1002).
  • a left and right head guide 1008 is provided, because the foremost locking head 906 alternates sides due to the axial offset of the parallelly arranged rows of locking heads 906, so, whenever the blade guard 1000 moves back down, one of the head guides engages with the foremost locking head 906 and "drags" it down, along a lower guide surface 922 (provided at a distal end portion of the upper rack member 910) towards the centre and into the loading position (see Fig. 13 ).
  • Figure 14 shows a perspective partial view of the distal end portion 106 of the tool 100 with the blade guard 1000 made transparent for ease of understanding.
  • the loaded locking head 906a is positioned centrally behind the narrower upper portion 1004 of the aperture 1002, the foremost locking head 906b of the cartridge 904 is on the left, ready for loading with the next cable tie strap 2002 (the cartridge 904 and cover 902 have been removed).
  • FIG. 15 The cutting movement of the blade guard 1000 and mounted blade member 504 is shown Figure 15 (a) and (b) illustrating a cross-sectional partial side-view of the distal portion of the tool 100.
  • the cutting lever 502 pivots up slidably moving the blade guard 1000 and mounted blade member 504 up so as to cut through the cable tie strap 2002.
  • the loaded locking head 906a is ejected through the wider lower portion 1006 of the aperture 1002, freeing up the central space of the lower guide surface 922 and allowing one of the guides 1008 to "drag" the foremost locking head 906b down along the lower guide surface 922 into the loading position for the next use.
  • Figure 16 shows and example of the locking heads array (a) and (b) as arranged within the cartridge 904, as well as, a perspective (c) front- and (d) rear-view of an example design of a locking head 906 suitable for locking engagement with the cable tie strap 2002.
  • Figure 15(e) shows a schematic illustration of a cable tie strap 2002 wound and tensioned around a structure 3000 (e.g. two pipes or cables) and locked with an engaged locking head 906.
  • the cable tie strap 2002 in Figure 17(e) is not cut at the locking head, so as to better illustrate the arrangement between the strap 2002 and the locking head 906.
  • the strap 2002 would be cut flush with the front surface of the locking head 906.
  • Figure 18 shows an illustration of an alternative embodiment of the cable tie tool of the present invention, with the locking head magazine cover in an open position and a cartridge ready for insertion. Further, the alternative embodiment includes an alternative reel magazine housing with its cover and reel illustrated in an exploded view.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Basic Packing Technique (AREA)
EP23150991.0A 2022-01-11 2023-01-10 Outil de ligature de câble Pending EP4230537A1 (fr)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US18/152,894 US20230219706A1 (en) 2022-01-11 2023-01-11 Cable tie tool

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
EP22151068 2022-01-11

Publications (1)

Publication Number Publication Date
EP4230537A1 true EP4230537A1 (fr) 2023-08-23

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ID=79317014

Family Applications (1)

Application Number Title Priority Date Filing Date
EP23150991.0A Pending EP4230537A1 (fr) 2022-01-11 2023-01-10 Outil de ligature de câble

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Country Link
EP (1) EP4230537A1 (fr)

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS5974017A (ja) * 1982-10-07 1984-04-26 中野エンジニアリング株式会社 梱包方法および装置
US4498507A (en) * 1983-06-28 1985-02-12 Minnesota Mining And Manufacturing Company Cable tie
DE29722524U1 (de) * 1997-12-19 1998-02-19 Chen Chih Liang Bündelvorrichtung

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS5974017A (ja) * 1982-10-07 1984-04-26 中野エンジニアリング株式会社 梱包方法および装置
US4498507A (en) * 1983-06-28 1985-02-12 Minnesota Mining And Manufacturing Company Cable tie
DE29722524U1 (de) * 1997-12-19 1998-02-19 Chen Chih Liang Bündelvorrichtung

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