WO1982002867A1 - Automatic tie gun - Google Patents
Automatic tie gun Download PDFInfo
- Publication number
- WO1982002867A1 WO1982002867A1 PCT/GB1982/000044 GB8200044W WO8202867A1 WO 1982002867 A1 WO1982002867 A1 WO 1982002867A1 GB 8200044 W GB8200044 W GB 8200044W WO 8202867 A1 WO8202867 A1 WO 8202867A1
- Authority
- WO
- WIPO (PCT)
- Prior art keywords
- tie
- tail
- head
- ties
- tool
- Prior art date
Links
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65B—MACHINES, APPARATUS OR DEVICES FOR, OR METHODS OF, PACKAGING ARTICLES OR MATERIALS; UNPACKING
- B65B13/00—Bundling articles
- B65B13/02—Applying and securing binding material around articles or groups of articles, e.g. using strings, wires, strips, bands or tapes
- B65B13/025—Hand-held tools
- B65B13/027—Hand-held tools for applying straps having preformed connecting means, e.g. cable ties
Definitions
- This invention relates to the automatic application of ties.
- BACKGROUND TO THE INVENTION It is often necessary to tie bundles of elongate objects together, for example bundles of cables or wires which if left unbound might present a hazard as well as being unsightly.
- One way in which cables are often bound together is by flexible plastic ties which have an integral fastener, or buckle, at one end through which the tail end of the tie is threaded once it has been passed around the bundle of cables.
- Manual application of the ties is slow and laborious, and it is therefore desirable to have a tool which automatically performs the binding operation.
- a gun for automatically applying ties has been designed in which a pair of jaws can be closed around a bundle of cables, and a flexible tie pushed forwards by a plunger so that the tail is pushed around the loop defined by the jaws and through an apertured buckle at the other end of the tie. The tail is then pulled tight, twisted by 90 with respecf to the buckle to lock it in place, and the excess length cut off. Ties are supplied singly to this gun from a pre-loaded magazine which is mounted on the exterior of the gun.
- the present invention is directed towards a tie gun which may provide a reliable tie feed mechanism, which may be readily serviced, and which may incorporate standard replaceable components.
- Tie applying tools or guns provided in accordance with this invention, and to be described herein, utilise a belt or bandolier of ties connected in parallel arrangement by integral bridging pieces, and preferably fed into the gun from a replaceable magazine in which the bandolier is coiled.
- the buckle or head, of the tie is formed with an aperture which extends through the buckle transverse to the plane of the tie.
- the buckle portion of the tie is orientated at 90o (relative to the remainder of the tie) prior to the tie being pushed tail-first from the gun around the bundle or roll to be tied, said head orientation being such as to ensure that the tail will be directed through the buckle aperture after said tail has been guided around the bundle and back towards the gun.
- Figure 1A shows a small part of the length of a bandolier according to a preferred embodiment and Figure 1B is a sectional view thereof;
- FIGS 2A to 2D show details of the tie in the preferred embodiment of Figure 1;
- FIG 3 shows the interior of an opened magazine for the bandolier of Figure 1;
- Figure 4 shows the closed magazine;
- Figures 5A and 5B are sectional views on the lines A-A and B-B of Figure 4;
- Figure 6 is a plan view of a preferred embodiment of tie gun, for use with the bandolier and magazine of Figures 1 to 5;
- Figure 7 is an eievational view inside a side wall of the gun of Figure 6;
- Figures 8 and 8A show to an enlarged scale details at the front end of the gun of Figure 6, including a nose loop assembly;
- Figure 9 shows the construction of a pusher rod in the gun of Figure 6;
- Figure 10 shows detail of a changeover valve assembly in the gun of Figure 6
- Figure 11 and 11A show details of an entranceregion of the gun of Figure 6, at which entrance ties are fed in from a magazine, and also showing a tie-indexing assembly
- Figures 12, 12A and 12B show details associated with a tie-cutting assembly of the gun of Figure 6.
- Figure 1A shows part of a bandolier 8 ⁇ of ties 100, each tie having a head with a tail trailing therefrom, the head being apertured in a direction transverse to the plane of the tail to receive the free end of the tail when the tie is being tied.
- the bandolier comprises say 500 ties in parallel side-by-side arrangement, with each pair of adjacent ties being interconnected by two integral bridging pieces 90.
- the bridging pieces 90 connect to the tails 102 of the ties through grooves 92
- the knife means in the gun acts to apply a break-off pressure to the bridging pieces substantially in line with the longitudinal edge 96 of the tail 14, and causes the bridging pieces 52 to break off substantially along the lines 94.
- any defects or roughnesses along the breakage lines will not project laterally beyond the full width of the tail between its longitudinal edges, and will not interfere with operation of the gun, will not be liable to damage the roll or bundle during tightening of the tie therearound, and will not impair the general appearance and feel of the applied tie.
- Figure, 1B is a sectional view on the line B-B of Figure 1A, from which is apparent the lesser thickness of the bridging pieces 90 as compared to that of the tails 102 of the ties 100.
- the ties 100 differ from the ties 10 previously described in that the buckle consists of a head 104 apertured at 106 transversely to the length of the tie 100, i.e. normally to the plane of the drawing in Figure 1A.
- the tie 100 is intended for use in the tie gun of Figures 6-12 which acts to push the tie forwardly around a nose loop closed around the roll or bundle to be tied so that the tail 102 re-enters the barrel of the gun to be threaded through the aperture 106 in the buckle 104, the latter being orientated at right angles to the re-entrant tail.
- the tie 100 when located in the gun is bent through 90 degrees adjacent the buckle, thus appropriately orientating the buckle aperture 106.
- the bending of the tie 100 can be achieved by preforming the tie with its head portion bent through the required 90o. Then if the tie is packed flat (e.g. in a magazine), on entering the gun the buckle springs into required orientation.
- a bending means may be incorporated in the gun, or as later described a bending means may be provided in the magazine from which the tie is supplied to the gun.
- FIG. 2A The construction of an individual tie 100 is shown in Figures 2A to 2D.
- Figure 2B is a central longitudinal section through the tie and
- Figure 2D is a section on line D-D of Figure 2A .
- the tail 102 has serrations 108 which engage with a pawl 110 formed on the inside of the aperture 106 in the buckle or head 104, so that the serrated tail can be threaded and advanced through the buckle to tension the tie around the roll or bundle to to tied, whilst said tail once threaded cannot be pulled back through the buckle.
- the serrations 108 are formed on the side of the tail 102 which will face inwardly of the loop around the roll or bundle being tied, but the converse arrangement can be used if desired.
- the tail 102 of the tie 100 has untoothed ribs 112 along its edges, which ribs are accommodated in clear portions 114 of the aperture 106 in the buckle 104 to the sides of the pawl 110.
- Figures 3 to 5 show a magazine for housing the bandolier 80 of Figure 1.
- the magazine 120 is formed of two parts 122, 124 hinged at 126, as indicated in Figure 3 , which shows the interior of the opened magazine when empty.
- the closed magazine 120 is generally of cylindrical form but with a maximum diameter at an intermediate position 130 in its length generally corresponding to the level of one end of the mouth 128.
- the magazine is shaped in this manner to receive a bandolier 8 ⁇ of ties 100 which is coiled spirally, with the adjacent turns of buckles in juxtaposed but not overlapping relationship.
- the one end of the spiral coil formed by a turn of buckles is accommodated at the bottom end 132 of the magazine as shown in Figure 4.
- the diameter of the coil increases to a maximum at a level corresponding to the immediate position 130 along the magazine. This level is the level of the final turn of buckles; i.e.
- the mouth 128 of the" magazine is adapted to preform a 90 degrees bend in the tie 100, adjacent the head, as the tie emerges from the magazine into a tie gun to which the magazine is adapted to attach. The purpose of such bend in the tie is to pre-orientate the buckle in the gun ready to receive the tail, as previously described.
- the mouth is formed with a series of five ribs, 136, 138, 140, 142 and 144, as shown in Figures 4 and 5A. While the tie 100 is emerging from the magazine, the ribs 136, 138, 140 act on the head and adjacent portion of the tie to bend the head through 90 degrees relative to the length of the tail, the latter being held straight and flat by the ribs 142 and 144. The manner in which the 90 degree bend is formed in the tie 100 by the ribs appears clearly from Figure 5A which is a section through the mouth 128 near its exit.
- reference 146 denotes the passage traversed by a buckle
- reference 148 denotes the passage traversed by the bent portion of the tie adjacent the buckle.
- the rib 136 (not visible in Figure 5A) graduates away from the mouth exit to a shallower bend of greater radius, so that the bend in the tie is gradually developed as the tie progresses towards the mouth exit.
- ties 100 at the end of the bandolier 80 will be following one another to emerge from the mouth 128, being suitably advanced by an indexing means in the gun to which the magazine is attached.
- the previously referred to knife means which acts to break off the bridging pieces will not be operative until the leading tie has emerged from the magazine, and in any event such knife means will be disposed on the remote side of the above-mentioned indexing means from the mouth of the magazine.
- FIG 5B serves to show a pawl 150 provided within the mouth 128 of the magazine to prevent the bandolier 8 ⁇ from sliding back inwardly of the magazine.
- the ties 100 are drawn out over this pawl 150 to drop in front of it as the bandolier is indexed outwardly of the magazine.
- the gun shown in Figures 6 to: 12 will now be described, which gun uses the bandolier and magazine of Figures 1 tcj 5.
- the .tool has a casing 200 housing a longitudinally movable pusher rod 212, the construction of which is shown in Figures 9.
- the pusher rod 212 is connected through member 2l4 at the rear of the tool to the piston rod 2l6 of a (preferably pneumatic) cylinder/piston assembly, the cylinder being referenced by 218.
- a trigger 220 is operable against the restoring action of a trigger spring 222 to actuate a change-over valve 224 thereby to drive the pusher rod 212 forwardly via the piston 2l6 and connecting member 2l4.
- a nose loop operating rod 226 is coupled to the rear of the tool through member 228 and pin 230 to the pusher rod 212.
- the nose loop 232 is normally urged closed by a torsion spring 234 (see also Figures 8 and 8A), whereby the operating rod 226 is normally urged longitudinally in the forward direction.
- the member 228 also constitutes a valve change-over striker (see also Figure 10), whereby a return longitudinal movement of the piston 2l6 is initiated at the end of its forward movement, so that at the end of an operating cycle the cylinder/piston assembly and changeover valve is restored to its original condition ready for further actuation by the trigger 220.
- the valve changeover striker 228 re-engages the nose loop enabling pin 230 towards the end of its rearward stroke, and in completing its stroke drives the operating rod 226 rearwardly to re-open the nose loop 232.
- reference 242 denotes a handle associated with the trigger 220
- reference 244 denotes a handle cover.
- the body of the changeover valve 224 is located within the handle.
- a prime purpose of the continued forward movement of the pusher rod 212, after the nose loop 232 has closed e.g. around a bundle to be secured, is to drive a tie which has been entered into the tool around a channel defined between the closed nose loop and a bundle to be secured. Ties are entered from a magazine 248 (see also
- FIG 11 in which a bandolier of ties is wound in a spiral helix of increasing diameter, as shown and described in Figures 1 to 5.
- one tie is advanced into the tool from the magazine 248 and is severed from the bandolier.
- One such tie 250 having a head 252, is shown in Figure 7, in its position of initial insertion into the tool by advance from the magazine 248. It is to be noted that the tie 250 is bent through approximately ninety degrees at a point 254 adjacent its head 252, so that the aperture in the head is orientated in the longitudinal direction of the tool.
- the tool incorporates a longitudinally extending index bar 256 (see also Figure 11).
- This bar 256 is mounted for rotation against the action of a torsion spring 258 on spindle 26 ⁇ , under the drive of an index operating cam 262, which cooperates with a cam driving slot 264 in the push rod 212.
- the rod 212 drives the index bar 256 rotationally during the initial part of its forward movement, raising a shearing blade to cut an individual tie free from the bandolier.
- the cam 262 is at full travel after this action it remains at full travel, its toe sliding along the side of the rod 212.
- the index bar 256 is therefore not rotated during the latter part of the forward movement of the pusher rod 212.
- a tie 250 is already in its initial position in the tool.
- the front end of the rod therefore engages the head 252 of the tie, and pushes the tie around the closed nose loop.
- the end of the tie opposed to the head (the toe) is deflected downwards by a pair of opposed ramps 265, one of which is shown in Figure) 8 so as to enter a channel in the nose loop and pass right round the bundle.
- the front end of the rod pushes the head between two spring loaded combination head catching and tie cut off pawls, which will prevent any rearward movement of the head of the tie when the pusher rod commences its return stroke.
- the tail of the tie emerges rearwardly from the nose loop to re-enter the front of the tool casing 210 in the rearward direction, in line with the apertured head 252, which it then enters. Further movement of the pusher rod 212 completes the stroke, pushing the head between the combination head catching and tail cut-off pawls and simultaneously engaging the tie tail toe teeth with sprag 302. The pusher rod 212 now reverses and commences its rearward movement, pulling the tie tail and leaving the head of the tie held by the combination head catching and tie cut-off pawls.
- the rod 212 now draws back the tie tail, engaged between the sprag and the roof of the breech in the casing, drawing it through the head of the tie over the heads internal ratchet teeth.
- the tie body (tail) teeth thus engage both with the internal head teeth and the rod sprag teeth.
- This tensioning action pulls the tie body out from between the ramps 265 ( Figure 8), the distance between the ramps having been carefully chosen to be just less than the tie body width so that downwards deflection of the toe occurs on forwards driving, but there is only moderate resistance to pull-out on tensioning This action tensions the bundle, and pressure builds up inside the cylinder.
- the body end of the cylinder is mounted to a rocking arm 268 by a mounting pin 272.
- the rocking arm 268 is pivoted to the tool body by a pin 270, and retained by a notch cam 266 (attached to or formed integrally with arm 268) engaged by a spring loaded plunger 282.
- the increasing pressure in the cylinder 218 of the cylinder/piston drive as the tie is tensioned, develops an increasing force on the cam 266 tending to cause said cam to release from the spring-loaded plunger 282.
- the cam 266 releases, thus causing the cylinder to drive the rocking arm 266 with a sharp, short movement into contact with the tie-cutting pawl device so as to sever the tail of the tie protruding through the apertured head.
- One or more air channels 278 enable ejection of cut-off tails from the tool.
- the amount of tensioning applied to the tie 250 is adjustable by a tension adjuster 280 which comprises the indent plunger 282 engaging the cam 266 under the pressure of a detent compression spring 284. Adjustment of this adjuster 28 ⁇ alters the level to which the pressure in the cylinder 218 must build up before the cam 266 releases itself from the plunger 282.
- Figures 8 and 8A show details of the front end of the tool including the nose loop assembly.
- the nose loop 232 is shown closed, with the open position in dotted line.
- the reference 286 denotes a nose loop pivot pin about which the nose loop is urged closed by the torsion spring 234. This pivot pin extends through a profiled front end 246 to the casing 210, (see Figure 7), which casing may conveniently be integrally made of moulded plastics material.
- Figure 8 also shows a tie tail directing ramp, referenced 300, together with the sprag 302 and sprag compression spring 304 by means of which the sprag is urged into its tie tail holding condition when the tie tail arrives through the tie head, in the latter part of the forward stroke of the pusher rod 212.
- Figure 10 shows additional details associated with the changeover valve 224, including the relative positions of valve changeover striker 228, the nose loop enable pin 230, the pusher rod 212, the nose loop operating rod 226 and the cylinder 218.
- Reference 288 denotes a cylinder mounting spindle.
- Figuresl 11 and 11A show details of the entrance region of the tool through which ties are advanced from th magazine 248.
- reference 290 denotes the mouth of the casing 210 of the tool into which the magazine 248 is received.
- the exit of the magazine 248 has upper and lower lips 292, 294 between which the leading end of a bandolier of ties housed in the magazine is drawn towards the tool. These lips 292, 294 m be formed as integral parts of the plastics moulded magazine.
- a bearing post 296 supports the adjacent parts of the indexing mechanism, including the frontend of the index bar 256 on spindle 26 ⁇ .
- the index bar 256 driven by an index operating cam 298 during the continued reverse stroke of the pusher rod after tensioning and cutting of one tie, moves an index finger 206 which engages the leading tie (disposed lengthwise perpendicular to the plane of the drawing) of the bandolier to advance it into the tool.
- the leading tie disposed lengthwise perpendicular to the plane of the drawing
- the tie instead of the mouth of the magazine being profiled to bend the tie adjacent its head through approximately ninety degrees, for the tie to assume the condition of the tie 250 shown in Figure 7, in the tool shown the mouth of the tool itself is profiled to bend the tie.
- FIG 11A shows the cropping mechanism by which the leading tie, having been indexed into the mouth of the tool during the preceding reverse stroke of the pusher rod, is severed from the bandolier during the next forward stroke of the pusher rod prior to engagement of the front end of the latter with the head of the tie.
- a cropping blade 308 is mounted on a pair of rocking levers 310 and is tensioned downwards by a spring 312 (see also Figure 7).
- the cropping blade rocking levers 310 are operable by toe rollers 314 carried with the index bar 256, the latter driven under its cam drive previously referred to.
- Figures 12 -12A and.12B show details associated with the tie tensioning and cutting mechanism.
- Figure 12B shows the mounting 272 of the cylinder 2l8 to the rocking arm 268, which is pivotally mounted to the casing on spindle 270.
- Reference 316 denotes a support block for the index plunger 282 previously described.
- the tie-cutting pawl device comprises a pair of cut-off pawls 318 connected to pawl links 320 which are primarily tensioned by spring 322.
- a pivot pin for the linkage is referenced 324 in Figure 12A .
- Certain other details of this part of the mechanism appear in Figure 6 , including a pawl stop plate 326, the support block 328 for the adjuster and a pair of spring blades 330.
- the pawls 318 are held partly open by blades 330 against tension spring 322 to enable the tie to pass through. The head passes through first, when the pawls half close, then at the desired tension the rocking arm 268 is released.
- Each pawl includes a post portion 318a mounted for rotation about its own axis and having the blade 318b projecting radially from its lower end, and a limb 318c projecting radially from its upper end to the respective link 320.
- the springs 330 bear against the outer surfaces of the limbs 318c near the rear ends of the latter.
Landscapes
- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Basic Packing Technique (AREA)
Abstract
A tool or gun for automatically applying around an elongate roll or bundle, a flexible tie having a tail and a head which is apertured transversely to the length of the tie. The feedstock for the gun comprises a bandolier of ties arranged parallel side-by-side and interconnected by integral bridging pieces. The gun includes indexing means for stepping each tie laterally of itself into a tail forward, ready position within the tool, with the head of the tie turned through 90 DEG relative to its tail (see tie (250) with its head (252)) whereby the head is orientated ready to receive the tail upon a push rod (212) of the gun driving the tie forwards and its tail being guided (by a guide means (232) of the gun) around the bundle or roll and back towards the head.
Description
AUTOMATIC TIE GUN
FIELD OF THE INVENTION
This invention relates to the automatic application of ties. BACKGROUND TO THE INVENTION It is often necessary to tie bundles of elongate objects together, for example bundles of cables or wires which if left unbound might present a hazard as well as being unsightly. One way in which cables are often bound together is by flexible plastic ties which have an integral fastener, or buckle, at one end through which the tail end of the tie is threaded once it has been passed around the bundle of cables. Manual application of the ties is slow and laborious, and it is therefore desirable to have a tool which automatically performs the binding operation. PRIOR ART
A gun for automatically applying ties has been designed in which a pair of jaws can be closed around a bundle of cables, and a flexible tie pushed forwards by a plunger so that the tail is pushed around the loop defined by the jaws and through an apertured buckle at the other end of the tie. The tail is then pulled tight, twisted by 90 with respecf to the buckle to lock it in place, and the excess length cut off. Ties are supplied singly to this gun from a pre-loaded magazine
which is mounted on the exterior of the gun. Some of the disadvantages of such a gun stem from the type of tie which is used; the "twist and lock" type of tie has to be overtensioned then relaxed back before it locks, which does not always provide satisfactory tensioning, also the fastened tie has a knobby finish at the buckle, which is apertured so that the tail of the tie is threaded at approximately right angles to the longitudinal direction of the tie adjacent the fastener. Furthermore the gun is made in a sealed unit which is heavy, bulky and cannot be readily serviced.
Another gun has been proposed in which ties are conveyed one at a time from a magazine mount.ed remote from the gun, but is otherwise similar to that previously described. A third machine uses separate buckles and a continuous spool of tape. Neither of these machines has proved consistently reliable in use. OBJECT OF THE INVENTION
The present invention is directed towards a tie gun which may provide a reliable tie feed mechanism, which may be readily serviced, and which may incorporate standard replaceable components. SUMMARY OF THE INVENTION
Tie applying tools or guns provided in accordance with this invention, and to be described herein, utilise a belt or bandolier of ties connected in parallel arrangement by integral bridging pieces, and preferably fed into the gun from a replaceable magazine in which the bandolier is coiled. The buckle or head, of the tie is formed with an aperture which extends through the buckle transverse to the plane of the tie. In the gun, the buckle portion of the tie is orientated at 90º (relative to the remainder of the tie) prior to the tie being pushed tail-first from the gun around the bundle or roll to be tied, said head orientation being such as to
ensure that the tail will be directed through the buckle aperture after said tail has been guided around the bundle and back towards the gun.. BRIEF DESCRIPTION OF THE DRAWINGS Embodiments of the invention will now be described, by way of examples only, with reference to the accompanying drawings, in which:
Figure 1A shows a small part of the length of a bandolier according to a preferred embodiment and Figure 1B is a sectional view thereof;
Figures 2A to 2D show details of the tie in the preferred embodiment of Figure 1;
Figure 3 shows the interior of an opened magazine for the bandolier of Figure 1; Figure 4 shows the closed magazine;
Figures 5A and 5B are sectional views on the lines A-A and B-B of Figure 4;
Figure 6 is a plan view of a preferred embodiment of tie gun, for use with the bandolier and magazine of Figures 1 to 5;
Figure 7 is an eievational view inside a side wall of the gun of Figure 6;
Figures 8 and 8A show to an enlarged scale details at the front end of the gun of Figure 6, including a nose loop assembly;
Figure 9 shows the construction of a pusher rod in the gun of Figure 6;
Figure 10 shows detail of a changeover valve assembly in the gun of Figure 6; Figure 11 and 11A show details of an entranceregion of the gun of Figure 6, at which entrance ties are fed in from a magazine, and also showing a tie-indexing assembly; and
Figures 12, 12A and 12B show details associated with a tie-cutting assembly of the gun of Figure 6.
DETAILED DESCRIPTION
Figure 1A shows part of a bandolier 8θ of ties 100, each tie having a head with a tail trailing therefrom, the head being apertured in a direction transverse to the plane of the tail to receive the free end of the tail when the tie is being tied. The bandolier comprises say 500 ties in parallel side-by-side arrangement, with each pair of adjacent ties being interconnected by two integral bridging pieces 90. The bridging pieces 90 connect to the tails 102 of the ties through grooves 92
defining lines of weakness or breakage 94 just inside the projected lines of the longitudinal edges 96 of the tails 102.
In use, the knife means in the gun acts to apply a break-off pressure to the bridging pieces substantially in line with the longitudinal edge 96 of the tail 14, and causes the bridging pieces 52 to break off substantially along the lines 94. Thus, any defects or roughnesses along the breakage lines will not project laterally beyond the full width of the tail between its longitudinal edges, and will not interfere with operation of the gun, will not be liable to damage the roll or bundle during tightening of the tie therearound, and will not impair the general appearance and feel of the applied tie. Figure, 1B is a sectional view on the line B-B of Figure 1A, from which is apparent the lesser thickness of the bridging pieces 90 as compared to that of the tails 102 of the ties 100.
The ties 100 differ from the ties 10 previously described in that the buckle consists of a head 104 apertured at 106 transversely to the length of the tie 100, i.e. normally to the plane of the drawing in Figure 1A.
The tie 100 is intended for use in the tie gun of Figures 6-12 which acts to push the tie forwardly around a nose loop closed around the roll or bundle to be tied so that the tail 102 re-enters the barrel of the gun to be threaded through the aperture 106 in the buckle 104, the latter being orientated at right angles to the re-entrant tail. Thus, for enabling the tail 102 to be threaded through the buckle 104, the tie 100 when located in the gun is bent through 90 degrees adjacent the buckle, thus appropriately orientating the buckle aperture 106. The bending of the tie 100 can be achieved by preforming the tie with its head portion bent through the required
90º. Then if the tie is packed flat (e.g. in a magazine), on entering the gun the buckle springs into required orientation. Alternatively, a bending means may be incorporated in the gun, or as later described a bending means may be provided in the magazine from which the tie is supplied to the gun.
The construction of an individual tie 100 is shown in Figures 2A to 2D. Figure 2B is a central longitudinal section through the tie and Figure 2D is a section on line D-D of Figure 2A . The tail 102 has serrations 108 which engage with a pawl 110 formed on the inside of the aperture 106 in the buckle or head 104, so that the serrated tail can be threaded and advanced through the buckle to tension the tie around the roll or bundle to to tied, whilst said tail once threaded cannot be pulled back through the buckle. It should be noted that as shown the serrations 108 are formed on the side of the tail 102 which will face inwardly of the loop around the roll or bundle being tied, but the converse arrangement can be used if desired. It will also be clear from the drawings that the tail 102 of the tie 100 has untoothed ribs 112 along its edges, which ribs are accommodated in clear portions 114 of the aperture 106 in the buckle 104 to the sides of the pawl 110.
Figures 3 to 5 show a magazine for housing the bandolier 80 of Figure 1. The magazine 120 is formed of two parts 122, 124 hinged at 126, as indicated in Figure 3 , which shows the interior of the opened magazine when empty. The shaped elongate mouth of the magazine 120, formed when the two parts 122, 124 are closed together, is referenced 128 in Figure 4 .
The closed magazine 120 is generally of cylindrical form but with a maximum diameter at an intermediate position 130 in its length generally
corresponding to the level of one end of the mouth 128. The magazine is shaped in this manner to receive a bandolier 8θ of ties 100 which is coiled spirally, with the adjacent turns of buckles in juxtaposed but not overlapping relationship. Thus, when the magazine is full, the one end of the spiral coil formed by a turn of buckles is accommodated at the bottom end 132 of the magazine as shown in Figure 4. As successive turns of buckles progressing up the coil are wound around an increasing number of tails, the diameter of the coil increases to a maximum at a level corresponding to the immediate position 130 along the magazine. This level is the level of the final turn of buckles; i.e. the outermost turn of the coil. The end of the bandolier 8θ emerges through the mouth 128 from this final turn. The upper part of the coil progressing towards the top end 134 of the magazine is constituted by a reducing number of tails, so that the coil gradually reduces in diameter. The mouth 128 of the" magazine is adapted to preform a 90 degrees bend in the tie 100, adjacent the head, as the tie emerges from the magazine into a tie gun to which the magazine is adapted to attach. The purpose of such bend in the tie is to pre-orientate the buckle in the gun ready to receive the tail, as previously described. In order to bend the tie, the mouth is formed with a series of five ribs, 136, 138, 140, 142 and 144, as shown in Figures 4 and 5A. While the tie 100 is emerging from the magazine, the ribs 136, 138, 140 act on the head and adjacent portion of the tie to bend the head through 90 degrees relative to the length of the tail, the latter being held straight and flat by the ribs 142 and 144. The manner in which the 90 degree bend is formed in the tie 100 by the ribs appears clearly from Figure 5A which is a section through
the mouth 128 near its exit. In Figure 5A, reference 146 denotes the passage traversed by a buckle, and reference 148 denotes the passage traversed by the bent portion of the tie adjacent the buckle. The rib 136 (not visible in Figure 5A) graduates away from the mouth exit to a shallower bend of greater radius, so that the bend in the tie is gradually developed as the tie progresses towards the mouth exit.
In practice, several ties 100 at the end of the bandolier 80 will be following one another to emerge from the mouth 128, being suitably advanced by an indexing means in the gun to which the magazine is attached. The previously referred to knife means which acts to break off the bridging pieces will not be operative until the leading tie has emerged from the magazine, and in any event such knife means will be disposed on the remote side of the above-mentioned indexing means from the mouth of the magazine.
Figure 5B serves to show a pawl 150 provided within the mouth 128 of the magazine to prevent the bandolier 8θ from sliding back inwardly of the magazine. The ties 100 are drawn out over this pawl 150 to drop in front of it as the bandolier is indexed outwardly of the magazine. The gun shown in Figures 6 to: 12 will now be described, which gun uses the bandolier and magazine of Figures 1 tcj 5. The .tool has a casing 200 housing a longitudinally movable pusher rod 212, the construction of which is shown in Figures 9. The pusher rod 212 is connected through member 2l4 at the rear of the tool to the piston rod 2l6 of a (preferably pneumatic) cylinder/piston assembly, the cylinder being referenced by 218. A trigger 220 is operable against the restoring action of a trigger spring 222 to actuate a change-over valve 224 thereby to drive the pusher rod 212 forwardly via the
piston 2l6 and connecting member 2l4. Additionally, a nose loop operating rod 226 is coupled to the rear of the tool through member 228 and pin 230 to the pusher rod 212. The nose loop 232 is normally urged closed by a torsion spring 234 (see also Figures 8 and 8A), whereby the operating rod 226 is normally urged longitudinally in the forward direction.
During an initial part of the forward movement of the pusher rod 212, operating rod 226 follows in the forward direction under the action of the torsion spring 234. As indicated in Figure; 8, only a relatively small movement of a nose loop link 236 is necessary to complete closure of the nose loop 232. Following such nose loop closure, the member 228 separates from the stop pin 230 as the forward movement of the pusher rod 212 continues. Forward and rear guides for the nose loop operating rod 226 are indicated at 238 and 240. The member 228 also constitutes a valve change-over striker (see also Figure 10), whereby a return longitudinal movement of the piston 2l6 is initiated at the end of its forward movement, so that at the end of an operating cycle the cylinder/piston assembly and changeover valve is restored to its original condition ready for further actuation by the trigger 220. In the direction of return movement of the pusher rod 212, the valve changeover striker 228 re-engages the nose loop enabling pin 230 towards the end of its rearward stroke, and in completing its stroke drives the operating rod 226 rearwardly to re-open the nose loop 232. In Figure 7, reference 242 denotes a handle associated with the trigger 220, and reference 244 denotes a handle cover. The body of the changeover valve 224 is located within the handle.
A prime purpose of the continued forward movement of the pusher rod 212, after the nose loop 232 has closed
e.g. around a bundle to be secured, is to drive a tie which has been entered into the tool around a channel defined between the closed nose loop and a bundle to be secured. Ties are entered from a magazine 248 (see also
Figure 11), in which a bandolier of ties is wound in a spiral helix of increasing diameter, as shown and described in Figures 1 to 5. During each operating cycle, one tie is advanced into the tool from the magazine 248 and is severed from the bandolier. One such tie 250, having a head 252, is shown in Figure 7, in its position of initial insertion into the tool by advance from the magazine 248. It is to be noted that the tie 250 is bent through approximately ninety degrees at a point 254 adjacent its head 252, so that the aperture in the head is orientated in the longitudinal direction of the tool.
In order to effect indexing and severing of the ties, the tool incorporates a longitudinally extending index bar 256 (see also Figure 11). This bar 256 is mounted for rotation against the action of a torsion spring 258 on spindle 26θ, under the drive of an index operating cam 262, which cooperates with a cam driving slot 264 in the push rod 212. The rod 212 drives the index bar 256 rotationally during the initial part of its forward movement, raising a shearing blade to cut an individual tie free from the bandolier. When the cam 262 is at full travel after this action it remains at full travel, its toe sliding along the side of the rod 212. The index bar 256 is therefore not rotated during the latter part of the forward movement of the pusher rod 212.
Thus, when the pusher rod 212 continues its forward movement after closure of the nose loop 232, a tie 250 is already in its initial position in the tool. The front end of the rod therefore engages the head 252 of the tie, and pushes the tie around the closed nose loop.
During such forwards movement the end of the tie opposed to the head (the toe) is deflected downwards by a pair of opposed ramps 265, one of which is shown in Figure) 8 so as to enter a channel in the nose loop and pass right round the bundle. The front end of the rod pushes the head between two spring loaded combination head catching and tie cut off pawls, which will prevent any rearward movement of the head of the tie when the pusher rod commences its return stroke. Towards the end of the forward movement of the pusher rod 212, the tail of the tie emerges rearwardly from the nose loop to re-enter the front of the tool casing 210 in the rearward direction, in line with the apertured head 252, which it then enters. Further movement of the pusher rod 212 completes the stroke, pushing the head between the combination head catching and tail cut-off pawls and simultaneously engaging the tie tail toe teeth with sprag 302. The pusher rod 212 now reverses and commences its rearward movement, pulling the tie tail and leaving the head of the tie held by the combination head catching and tie cut-off pawls.
The rod 212 now draws back the tie tail, engaged between the sprag and the roof of the breech in the casing, drawing it through the head of the tie over the heads internal ratchet teeth. The tie body (tail) teeth thus engage both with the internal head teeth and the rod sprag teeth. This tensioning action pulls the tie body out from between the ramps 265 (Figure 8), the distance between the ramps having been carefully chosen to be just less than the tie body width so that downwards deflection of the toe occurs on forwards driving, but there is only moderate resistance to pull-out on tensioning This action tensions the bundle, and pressure builds up inside the cylinder. The body end of the cylinder is mounted to a rocking arm 268 by a mounting pin 272. The
rocking arm 268 is pivoted to the tool body by a pin 270, and retained by a notch cam 266 (attached to or formed integrally with arm 268) engaged by a spring loaded plunger 282. The increasing pressure in the cylinder 218 of the cylinder/piston drive, as the tie is tensioned, develops an increasing force on the cam 266 tending to cause said cam to release from the spring-loaded plunger 282. When the pressure in the cylinder 218 builds to a certain preset level, the cam 266 releases, thus causing the cylinder to drive the rocking arm 266 with a sharp, short movement into contact with the tie-cutting pawl device so as to sever the tail of the tie protruding through the apertured head. One or more air channels 278 enable ejection of cut-off tails from the tool.
The amount of tensioning applied to the tie 250 is adjustable by a tension adjuster 280 which comprises the indent plunger 282 engaging the cam 266 under the pressure of a detent compression spring 284. Adjustment of this adjuster 28θ alters the level to which the pressure in the cylinder 218 must build up before the cam 266 releases itself from the plunger 282.
Continued reverse movement of the pusher rod 212 allows the index bar cam 262 to re-enter the cam driving slot 264 in rod. 212, which action operates the index mechanism, lowering a cropping blade 308 (to be described later)ready for the next tie, and also advancing a fresh tie into the tool. There is a time lag between these steps, with the blade 308 being lowered first to open the breech before the next tie is advanced. The terminal part of the reverse movement of rod 212 drives open the nose loop 232.
Additional details of important parts of the tool mechanism are shown in Figures; 8 to 12. Figures 8 and 8A show details of the front end
of the tool including the nose loop assembly. In Figure 8, the nose loop 232 is shown closed, with the open position in dotted line. In Figure 8A , the reference 286 denotes a nose loop pivot pin about which the nose loop is urged closed by the torsion spring 234. This pivot pin extends through a profiled front end 246 to the casing 210, (see Figure 7), which casing may conveniently be integrally made of moulded plastics material.
Figure 8 also shows a tie tail directing ramp, referenced 300, together with the sprag 302 and sprag compression spring 304 by means of which the sprag is urged into its tie tail holding condition when the tie tail arrives through the tie head, in the latter part of the forward stroke of the pusher rod 212. Figure 10 shows additional details associated with the changeover valve 224, including the relative positions of valve changeover striker 228, the nose loop enable pin 230, the pusher rod 212, the nose loop operating rod 226 and the cylinder 218. Reference 288 denotes a cylinder mounting spindle.
Figuresl 11 and 11A show details of the entrance region of the tool through which ties are advanced from th magazine 248. In Figure.il, reference 290 denotes the mouth of the casing 210 of the tool into which the magazine 248 is received. The exit of the magazine 248 has upper and lower lips 292, 294 between which the leading end of a bandolier of ties housed in the magazine is drawn towards the tool. These lips 292, 294 m be formed as integral parts of the plastics moulded magazine. A bearing post 296 supports the adjacent parts of the indexing mechanism, including the frontend of the index bar 256 on spindle 26θ. The index bar 256, driven by an index operating cam 298 during the continued reverse stroke of the pusher rod after tensioning and cutting of one tie, moves an index finger 206 which engages the
leading tie (disposed lengthwise perpendicular to the plane of the drawing) of the bandolier to advance it into the tool. Instead of the mouth of the magazine being profiled to bend the tie adjacent its head through approximately ninety degrees, for the tie to assume the condition of the tie 250 shown in Figure 7, in the tool shown the mouth of the tool itself is profiled to bend the tie.
Figure 11A shows the cropping mechanism by which the leading tie, having been indexed into the mouth of the tool during the preceding reverse stroke of the pusher rod, is severed from the bandolier during the next forward stroke of the pusher rod prior to engagement of the front end of the latter with the head of the tie. A cropping blade 308 is mounted on a pair of rocking levers 310 and is tensioned downwards by a spring 312 (see also Figure 7). The cropping blade rocking levers 310 are operable by toe rollers 314 carried with the index bar 256, the latter driven under its cam drive previously referred to.
Finally, Figures 12 -12A and.12B show details associated with the tie tensioning and cutting mechanism. Figure 12B shows the mounting 272 of the cylinder 2l8 to the rocking arm 268, which is pivotally mounted to the casing on spindle 270. Reference 316 denotes a support block for the index plunger 282 previously described.
Referring now to Figures.12 and 12A, the tie-cutting pawl device comprises a pair of cut-off pawls 318 connected to pawl links 320 which are primarily tensioned by spring 322. A pivot pin for the linkage is referenced 324 in Figure 12A . Certain other details of this part of the mechanism appear in Figure 6 , including a pawl stop plate 326, the support block 328 for the adjuster and a pair of spring blades 330. The pawls 318 are held partly open by blades 330 against tension spring 322 to enable
the tie to pass through. The head passes through first, when the pawls half close, then at the desired tension the rocking arm 268 is released. When the rocking arm is released from cam 266, a cam 269 on said arm 268 strikes the pawl linkage to sever the tail of the tensioned tie. Each pawl includes a post portion 318a mounted for rotation about its own axis and having the blade 318b projecting radially from its lower end, and a limb 318c projecting radially from its upper end to the respective link 320. The springs 330 bear against the outer surfaces of the limbs 318c near the rear ends of the latter.
Claims
1. A tool for automatically applying around an elongate roll or bundle a flexible tie having a tail and a head which is apertured transversely to the length of the tie, said tool including actuating means for driving a tie forwards, tail first, and guide means at the forward end of the tool for receiving the tie being driven forward to advance its tail in a loop around the roll or bundle and back towards and through the apertured head, characterised by indexing means (256,306) arranged to cause each tie (250-Figure 7) to be stepped laterally of itself into a tail forward, ready position within the gun (prior to said driving forward of the tie), with the apertured head (252-Figure 7) of the tie turned 90 relative to its tail whereby the head is orientated ready to receive the tail upon said tail looping around the roll or bundle and back towards the head.
2. A tool as claimed in claim 1, characterised in that said actuating means comprises a push rod (212) and driving means (2l8,2l6) for causing said push rod to perform an operating cycle consisting of a forward stroke and a rearward stroke with the push rod driving said tie forwards, tail first, on the forward stroke, and in that said indexing means is controlled by the push rod during its rearward stroke to cause the next tie to be stepped laterally into its said ready position in front of the push rod, with the head of the tie turned through said 90 relative to its tail.
3. A tool according to claim 2, characterised in that the push rod reciprocates in a breech passage through which the tie is driven, an elongate mouth communicates the outside of the tool directly with said breech passage, and said indexing means includes means (306) for laterally stepping the tie, to its said ready position, from outside the tool and directly into said breech passage through said elongate mouth.
4. A tool according to claim 3, characterised in that said elongate mouth of the tool is shaped to bend the tie through said 90 at its head as it is stepped laterally into said breech passage.
5. A tool according to claim 3, characterised in that said indexing means comprises an operating member (256) and a cam coupling (262,264) between the push rod and the operating member, said laterally stepping means comprises a finger (306) carried by said operating member.
6. A tool according to claim 5, for handling a belt of ties connected by bridging pieces, characterised by shearing means (308,310) driven by said operating member for severing from the belt a tie which has been stepped laterally into said ready position in said breech passage.
7. A tool according to claim 5. characterised by a return spring (258) acting on said operating member so as to restore said operating member during the rearward stroke of said push rod.
8. A tool according to claim 7, characterised in that said return spring is a torsion spring and said operating member is rotationally driven through said cam coupling.
9. A tool according to claim 2, characterised by a clamping device (302,304) for gripping and pulling rearwardly the tail of the tie threaded through the apertured head, cutting means (318,320) for cutting the tail behind the head, and a tension sensing means (268,282) for actuating said cutting means in response to a preselected tension of the tie being achieved at the beginning of the rearward stroke of the push rod, said driving means comprising a piston and cylinder unit (2l8) and said tension sensing means comprising a pivoted arm (268) on which the cylinder of said unit is mounted, which pivoted arm is arranged to operate in response to the cylinder pressure building to a threshold level corresponding to said preselected tie tension.
10. A tool according to claim 9. characterised in that said cutting means comprises a toggle mechanism (320,320) driven by said. pivoted arm, and a pair of pawls (318,31-8) arranged to capture the tie head at the forward end of the push rod stroke, said pawls including respective knives (318b,318b) and being acted upon by said toggle mechanism.
11. A belt of flexible ties for supply to a tie gun tool, comprising a large plurality of elongate ties (100) each having an apertured head (104) and a tail (102) trailing from said head, said ties being arranged in parallel side-by-side and integral bridging pieces (92) inter-connecting adjacent ties so as to form a bandolier arrangement, at least one set of the bridging pieces connecting between the tails of the ties and connecting to each tie on breakage lines (94) disposed slightly inwardly of the width of the tail from the opposed edges (96) of the latter.
12. A magazine of flexible ties for attachment to a tie gun tool, said magazine comprising a housing (122, 124) containing a belt of flexible elongate ties (100) each having an apertured head (104) and a tail (102) trailing from said head, said ties being arranged in parallel side-by-side and integral bridging pieces (92) interconnecting adjacent ties so as to form a bandolier arrangement, and said housing being formed with an elongate mouth (128) for the belt to issue through, said mouth being shaped to bend each tie through 90 at its head as that tie passes through said mouth.
13. A magazine of flexible ties for attachment to a tie gun tool, said magazine comprising a housing (122,124 containing a belt of flexible elongate ties (100) each having an apertured head ( 104) and a tail (102) trailing from said head, said ties being arranged in parallel side-by-side and integral bridging pieces (92) interconnecting adjacent ties so as to form a bandolier arrangement, said housing being of generally cylindrical form but of maximum circumference at an intermediate point (130) in its length, said bandolier being spirally coiled within the magazine so that the heads of the ties do not overlap in the direction of the axis of the coil, the maximum diameter of the coil being defined by the final outermost turn of heads.
Applications Claiming Priority (6)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US23658481A | 1981-02-20 | 1981-02-20 | |
US236584 | 1981-02-20 | ||
GB8106130 | 1981-02-26 | ||
GB8106130 | 1981-02-26 | ||
GB8128479810921 | 1981-09-21 | ||
GB8128479 | 1981-09-21 |
Publications (1)
Publication Number | Publication Date |
---|---|
WO1982002867A1 true WO1982002867A1 (en) | 1982-09-02 |
Family
ID=27261127
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
PCT/GB1982/000044 WO1982002867A1 (en) | 1981-02-20 | 1982-02-19 | Automatic tie gun |
Country Status (3)
Country | Link |
---|---|
EP (1) | EP0072826A1 (en) |
JP (1) | JPS58500246A (en) |
WO (1) | WO1982002867A1 (en) |
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
EP0135396A2 (en) * | 1983-09-20 | 1985-03-27 | Bowthorpe-Hellermann Limited | Automatic tie gun |
WO1988006021A1 (en) * | 1987-02-10 | 1988-08-25 | Vaso Products Australia Pty. Limited | Venous cuff applicator, cartridge and cuff |
EP0390434A1 (en) * | 1989-03-30 | 1990-10-03 | Bowthorpe-Hellermann Limited | Automatic tie gun |
DE4035968A1 (en) * | 1989-11-15 | 1991-05-16 | Hellermann Gmbh P | Cable harness fixing device - uses flexible strap passed around cable bundle via flexible push rod |
US5778944A (en) * | 1992-03-11 | 1998-07-14 | Hagens Fiedre K/S | Apparatus for applying tieing devices to crossing reinforcement rods for connecting the same |
US6047741A (en) * | 1997-03-11 | 2000-04-11 | Kurmis; Viktor | Tool for tying articles, in particular cable harnesses |
Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3976108A (en) * | 1974-03-12 | 1976-08-24 | Panduit Corporation | Automatic cable tie installation tool |
FR2401742A1 (en) * | 1977-09-06 | 1979-03-30 | Amp Inc | TOOL FOR LAYING A LIGATURE ON A WIRE HARNESS |
GB2072614A (en) * | 1980-02-27 | 1981-10-07 | Pa Management Consult | A gun for applying ties around bundles |
-
1982
- 1982-02-19 WO PCT/GB1982/000044 patent/WO1982002867A1/en not_active Application Discontinuation
- 1982-02-19 JP JP50062982A patent/JPS58500246A/en active Pending
- 1982-02-19 EP EP19820900553 patent/EP0072826A1/en not_active Withdrawn
Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3976108A (en) * | 1974-03-12 | 1976-08-24 | Panduit Corporation | Automatic cable tie installation tool |
FR2401742A1 (en) * | 1977-09-06 | 1979-03-30 | Amp Inc | TOOL FOR LAYING A LIGATURE ON A WIRE HARNESS |
GB2072614A (en) * | 1980-02-27 | 1981-10-07 | Pa Management Consult | A gun for applying ties around bundles |
Cited By (10)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
EP0135396A2 (en) * | 1983-09-20 | 1985-03-27 | Bowthorpe-Hellermann Limited | Automatic tie gun |
EP0135396A3 (en) * | 1983-09-20 | 1986-06-04 | Bowthorpe-Hellermann Limited | Automatic tie gun |
EP0264142A2 (en) * | 1983-09-20 | 1988-04-20 | Bowthorpe-Hellermann Limited | Automatic tie gun |
EP0264142A3 (en) * | 1983-09-20 | 1988-11-17 | Bowthorpe-Hellermann Limited | Automatic tie gun |
WO1988006021A1 (en) * | 1987-02-10 | 1988-08-25 | Vaso Products Australia Pty. Limited | Venous cuff applicator, cartridge and cuff |
US5211649A (en) * | 1987-02-10 | 1993-05-18 | Vaso Products Australia Pty. Limited | Venous cuff applicator, cartridge and cuff |
EP0390434A1 (en) * | 1989-03-30 | 1990-10-03 | Bowthorpe-Hellermann Limited | Automatic tie gun |
DE4035968A1 (en) * | 1989-11-15 | 1991-05-16 | Hellermann Gmbh P | Cable harness fixing device - uses flexible strap passed around cable bundle via flexible push rod |
US5778944A (en) * | 1992-03-11 | 1998-07-14 | Hagens Fiedre K/S | Apparatus for applying tieing devices to crossing reinforcement rods for connecting the same |
US6047741A (en) * | 1997-03-11 | 2000-04-11 | Kurmis; Viktor | Tool for tying articles, in particular cable harnesses |
Also Published As
Publication number | Publication date |
---|---|
EP0072826A1 (en) | 1983-03-02 |
JPS58500246A (en) | 1983-02-17 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
US4640319A (en) | Automatic tie gun | |
EP0390434B1 (en) | Automatic tie gun | |
US6082577A (en) | Cable tie dispensing apparatus | |
US5595220A (en) | Portable cable tie installation tool | |
US7438094B2 (en) | Metal tie tool with rotary gripper and ball setting device | |
US5205328A (en) | Portable cable tie tool | |
US3976108A (en) | Automatic cable tie installation tool | |
CA1154666A (en) | Automatic tie gun | |
US3946769A (en) | Automatic cable tie installation tool | |
CA1299344C (en) | Method and apparatus for automatically binding cables, by a continuous strip | |
US20090044709A1 (en) | Metal Tie Tool with Rotary Gripper and Ball Setting Device | |
EP3752425B1 (en) | Portable cable tie tool | |
EP0121878B1 (en) | Cable banding machine | |
WO1982002867A1 (en) | Automatic tie gun | |
GB2072614A (en) | A gun for applying ties around bundles | |
CA1051395A (en) | Automatic cable tie installation tool | |
GB2072739A (en) | Bandolier of band-clamps |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
AK | Designated states |
Designated state(s): AU BR GB JP |
|
AL | Designated countries for regional patents |
Designated state(s): AT BE CH DE FR GB LU NL SE |
|
WWE | Wipo information: entry into national phase |
Ref document number: 1982900553 Country of ref document: EP |
|
WWP | Wipo information: published in national office |
Ref document number: 1982900553 Country of ref document: EP |
|
WWW | Wipo information: withdrawn in national office |
Ref document number: 1982900553 Country of ref document: EP |