11. Atool according to any of claims 1 to 10, including a clamping device for gripping and pulling rearwardly the tail of the tie threaded through the apertured head, a knife for cutting the tail behind the SPECIFICATIONAutomatic tie gunThis invention relates to the automatic application of ties.
It is often necessary to tie an elongate roll or bundle, more especially bundles of elongate objects such as 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 respect 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 mounted 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 have proved consistently reliable in use.
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.
Accordingly the invention provides a tool for automatically applying around an elongate roll or bundle a flexible tie having a tail and a apertured head, comprising a push rod, driving means for causing said push rod to perform an operating cycle consisting of a forward stroke and a rearward stroke, indexing means driven by the push rod during the rearward stroke of an operating cycle, said indexing means causing a tie to be stepped laterally into a tail forward, ready position in front of the retracting tie rod with the apertured head of said tie turned into an orientation ready to receive the tail, and guide means at the forward end of the tool whereby, during the forward stroke of the next operating cycle of the push rod, said push rod drives the tie forwardly to advance the tail in a loop around the guide means to cause the tail to enter the preorientated apertured head.
The indexing means conveniently includes a rotary drum the rotation of which is indexed to the stroke of a push rod so that the drum sequentially engages a plurality of laterally connected flexible ties and conveys each tie in turn to a position in front of the push rod which pushes the tie, which has been disconnected from its adjacent ties, so that one end of the tie passes along a guide and into engagement with the apertured head which is joined to the other end of the tie.
Once the one end of the tie is engaged with the head it may be pulled until the loop formed by the tie grips the roll or bundle at a predetermined tension.
The tool preferably includes a unit which senses the tension to which the tie has been pulled, and at a predetermined tension, which may be adjustable, cuts off the excess length of the tie adjacent the head.
The head of the flexible tie may have a longitudinal aperture through which the tail of the tie is threaded, and a resiliently biased pawl which engages with ratchet serrations in the tie and prevents the tie unthreading but permits the tail to be pulled further through the aperture. With this type of tie, once threaded, the threaded portion of the tie overlies the portion of the tie adjacent the head. The ties may be injection moulded as a belt with bridging pieces connecting the tails of the ties.
The tool may be controlled by a fluid operated cylinder and piston unit, with the drum rotation, the rod pushing and tie cutting indexed to the stroke of the piston in the cylinder.
Atool in accordance with the invention is now described by way of example with reference to the accompanying drawings in which:Figure 1 is a section through an embodiment of the invention in the form of a tie gun;Figure 2 is a plan view from above of the tie gun ofFigure 1;Figure 3 is a view in the direction of arrows A-A of the gun of Figure 1;Figure 4 is a view of the ratchet mechanism which rotates the drum of Figure 1;Figure 5 shows the preferred type of flexible tie;Figures 6a and 6b show two alternative embodiments of support for a belt of flexible ties;Figure 7 is a front perspective view of the tie gun of Figure 1;Figures 8a and 8b are perspective and crosssectional views of a preferred form of drum used in the invention;Figure 9 shows a preferred mechanism for discon nectinglhe ties from the adjacent ties; ;Figure 10 illustrates a volute by which in the preferred embodiment the ties are positioned;Figures 1 la, 1 lib and 1 1,c show a lipped slot, along which, in the preferred embodiment, the tie is diverted;Figure 12 shows a section through a threaded tie;Figure 13 is a perspective view of the buckle of a tie;Figure 14 illustrates a bundle of cables bound by flexible ties;Figure 15 illustrates a belt of flexible ties, Figure 15b showing a preferred form of belt for use in conjunction with the tie gun of Figure 1;Figures 16a and 16b are sectional views through a flexible tie;Figure 17 illustrates an elongated belt of ties comprising several shorter belts joined together; andFigures 18a to 18e show a modified form of low profile flexible tie.
The tie gun illustrated in Figure 1 is particularly adapted for binding cables together with flexible ties, the fastenings of which have a low profile when secured around the cable bundle. Operation of the gun is controlled by a pneumatic cylinder and the various stages in the operating cycle are indexed to the stroke of the piston of the cylinder. In the following description, before the detailed construction of the gun is described, the general sequence of its operation is outlined along with a brief description of the tie and the feed mechanism.Then the operating sequence is explained in more detail with reference to the drawings, and this is followed by a detailed description of the construction oftheva- rious units of the gun which perform specific functions which are referred to in the operating sequence, and also by a more detailed description of the flexible ties used in the gun.
Briefly, the operating sequence of the gun is governed by the piston of the pneumatic control cylinder which is linked to a ram so that during the inward and outward strokes of the piston, which respectively produce forward and rearward strokes of the ram, flanges on the ram engage with and activate other parts of the mechanism. The piston is activated to move inwardly by depression of a trigger, whereupon a guide loop is closed about the bundle of cables which are to be bound and the tip of a flexible tie is pushed forward so that it passes around the cable via the guide loop and is threaded through a fastener in the form of an apertured head on the other end of the tie. Once the tie is threaded the piston commences its outward stroke and the tip of the tie is gripped, the tie pulled tight, and, once a predetermined tension is reached, the excess length of tie is trimmed off.Then, whilst the piston completes its outward stroke, another tie is advanced to the firing or ready position, the scrap trim is ejected and the guide loop is released from the bound cable. This completes an operating cycle of the ram initiated by a single depression of the trigger.
The feed mechanism by which the ties are advanced includes a cylindrical drum with longitudinal recesses which accommodate the tails of the ties as they are fed laterally into the gun from one side of the drum. The ties are advanced by rotation of the drum during the latter part of each outward stroke of the piston which brings successive ties to the topmost position ready for subsequent firing. In order to simplify the indexing of the ties into their respective recesses, in the correct orientation, the ties are joined together by bridging pieces to form a belt. Once a tie is in the firing position it is cut free from its bridging pieces by a cropping mechanism.
In order to achieve a low profile fastening, a tie may be employed in which the tail threads through a longitudinal aperture in the buckle so that the threaded portion lies along the portion of the tie adjacent to the buckle rather than projecting perpendicular to it. To thread this type of tie the buckle needs to be rotated through 1800 (compared with when the tie is laid flat) to receive the tail which has been passed around the bundle of cables. Therefore, in addition to advancing successive ties to the firing position, the feed mechanism of the gun also rotates the buckle to the correct orientation for receiving the tail.This is achieved by the buckles of the ties, which overhang the rearward edge of the drum, abutting a volute which causes the buckle portion of thetie to be progressively bent outward and then back on itself as the drum is rotated, so that the 1800 rotation has been completed by the time the tie is in the firing position.
Referring now to Figure 1,thetie gun is shown generally as 1, and has a spring return trigger 2. A guide loop 3 is provided at the end of barrel 4 of the gun, and can be closed about a suitable bundle of cables adjacent to which the end of the barrel 4 has been placed. Trigger 2 is provided with an inclined surface 5 which abuts an inclined surface on the spool 6 of a valve 7 so that upon a depression of the trigger the spool 6 is lifted and air is provided to one end of a pneumatic cylinder 8 which, as may be seen from Figures 2 and 3, is disposed in the barrel 4 of the gun with its piston rod free to extend into rear portion 9 of the gun 1. Spool 6 is held in its lifted position by detent 10 and the extended piston of the pneumatic cylinder retracts moving a ram 11,which is connected to the piston, to the left as viewed.Ram 11 is provided with a flange 12 at its end remote from the barrel which abuts a flange 13 on a biased rod 14, so that as flange 13 moves leftwards it permits rod 14 to move left under the influence of spring 15, which closes guide loop 3. The barrel end of ram 11 acts as a pusher for a tie 16, whereby said ram may more generally be referred to as a push rod. As it advances it pushes the buckle 17 of a tie 16 into a pair of spring loaded jaws 18, which are mounted on the forward end of the barrel of the tool, the tail end of the tie being pushed down a lipped slot 19, around the guide loop 3 and through the buckle. Ram 11 is now in its most leftward position, and the piston is fully retracted.In this position an inclined surface 20 on flange 12 has engaged with a corresponding upper inclined surface 21 on spool 6 and pushed down the spool, which is then retained in its down position by detent 10, which causes the action of the pneumatic cylinder 8 to be reversed.
On the outward stroke of the piston the tail of tie 16, which is gripped by a clamp 22, is pulled, the buckel being retained by jaws 18 until a predetermined tension is sensed by a cut-off unit 23, whereupon a rod 24 is moved to the right causing knife 25 to sever the tail of the tie 16 close to the buckle 17. The release of tension caused by cutting the tail resets the cut-off unit which retracts the knife 25, and also causes the piston to continue to extend at an increased speed. A scrap release trigger 26 head, and a tension sensing device for actuating the knife when a preselected tension of the tie has been achieved at the beginning of the rearward stroke of the push rod.