The invention relates to apparatus for swaging a deformable collar onto an externally grooved member. The grooves may be in the form of a thread (when the grooved member comprises a bolt or stud). Alternatively the grooves may extend circumferentially around the member (when the member comprises a lockbolt).
Such a member is hereinafter referred to as “an externally grooved member of the type defined”.
The invention provides, in one of its aspects, apparatus as claimed in appended claim 1. Further preferred features of this invention are as claimed in claims 2 to 8.
An embodiment of the invention will now be described by way of example. This is a hydraulically-powered hand-held tool for swaging a collar onto a lockbolt. In the accompanying drawings:
In these drawings, some parts of the tool which are common in the art, and are not directly parts of the present invention, are not shown.
Referring first to
The rod 17 of the piston 13 extends forwardly through the front plate 18 of the cylinder 11. To the forwards end (i.e. to the left as shown in the Figures) of the hydraulic cylinder 11 is threadedly attached a body 19 containing a cylindrical internal bore 21. At the front end of the body 19 is mounted a nosepiece tube 22, which can reciprocate to a limited extent with respect to the body 19. Thus the rear of the tube 22 has a radially extending flange 23 received within an enlargement 24 at the front of the body bore 21. The front end of the enlarged bore 24 is covered by a threadedly-engaged cap 25, through which the nosepiece tube 22 protrudes. As shown in
reciprocate axially to a limited extent. The forward end of the tube 22 carries an anvil 26 which is of annular form and made from hardened steel. The front end of the anvil bore 27 is formed with a chamfer or taper 28, which is of appropriate size and shape to swage over the end of a bolt collar 35. The rear end of the anvil tube 26 is threadedly attached to the front end of the nosepiece tube 22. Between the two is an annular cam plate 29. The cam plate 29 comprises two semi-circular halves, to enable the cam to be inserted into the appropriate place when the tool is assembled.
To the front end of the piston rod 17 is threadedly attached a piston tube 31, which extends forwardly through the body bore 21 and the nosepiece tube 22. The piston tube 31 has a slight radial clearance with respect to the body bore 21 and the interior of the nosepiece tube 22 (this may not be apparent from the drawings), sufficient to enable compressed air to flow along it for the purposes which will be described below. To the front end of the piston tube 31 is threadedly attached a jaw-support tube 32, which has an outwardly extending flange 33 about halfway along its length. Radially outside the jaw support tube 32 and radially inside the front end part of the nosepiece tube 22 are a set of jaws comprising three jaw members 34, 34, 34. Each jaw member has a cross-section of a 120 degrees angled sector, so that the three jaw members fit together to form an elongated generally cylindrical shaped set of jaws. Each jaw member 34 has a recess 42 which receives, with some clearance, the appropriate part of the flange 33. The jaw members are urged rearwardly with respect to the support tube 32 by means of a helical spring 49.
This tool is designed to swage a deformable collar 35 onto an externally grooved member of the type defined which is in the form of a bolt 36 with grooves 20, which is inserted through an aperture 37 in a workpiece 38. Accordingly the front portion of each jaw member 34 has an internal enlargement recess 39, the three recesses together providing a substantially cylindrical socket 41 to receive the end portion of the bolt 36. Each recess face is formed with grooves 40 (only a few of which are shown in
The forward ends of the jaw members, around the recess 39, are radially thickened. This thickening has a front face 43 to contact the end face of the bolt collar 35, and a tapered rear slope 44 which co-operates with the chamfer 28 at the front end of the anvil bore. Further back each jaw member has an external recess 45 which accommodates the radially innermost part of the cam plate 29. The forward end of this recess has a rearwards-facing chamfer 46 which co-operates with the inner front edge of the cam plate 29. The recess 45 is slightly longer than the thickness of the cam plate 29, and has a rear face which can engage the rear face of the cam plate 29, there thus being a small amount of axial lost motion between the cam plate 29 and the jaw members 34.
Means for detecting when a bolt 36 has fully entered into the jaws recess 39 includes an elongated detector rod 51 positioned axially within the piston tube 31. The rear end of the detector rod has an enlarged head 52, against which presses a helical spring 53. This urges the detector rod forwards with respect to the piston tube 31, so that its head 52 seals the inner end of a radial bore 54 in the piston tube located towards its rear end. In this position the front end portion 55 of the detector rod projects slightly into the jaw recess 39, as shown in
The way in which the tool operates will now be described with reference to
When the tool is in the rest position as illustrated in
The operator, holding the tool in his hand by means of its handle 14, offers up the tool to the projecting end of the bolt 36 so that the latter enters the jaw socket 41. He pushes the tool forwards so that the jaw front face 43 contacts the front end face of the collar 35 and pushes the collar along the bolt until the other end of the collar contacts the front face of the workpiece 38. The bolt in the workpiece has been selected so that, when this occurs, the front end of the bolt will have contacted the front end 55 of the detector rod 51 and will have pushed the rod sufficiently far backwards to unseal the inner end of the radial bore 58. This is the position illustrated in
As previously described, this allows compressed air to be fed to the rear of the nosepiece flange 23. Since the area of the rear face of the nosepiece flange 23 is substantially greater than the area of its front face, the forwards force due to the air pressure on its rear face is substantially greater than the rearwards force on its front face, and the nosepiece tube 22 moves forwards, until the front face of its flange contacts the cap 25, as illustrated in
As the nosepiece tube 22 and the anvil 26 move forwards with respect to the jaws (the operator is still pushing the tool towards the bolt), the jaw members 34 are urged to close together by two successive thrusts.
Firstly, the inner front edge part of the cam plate 29 engages the rearwards-facing chamfer 46 of the recess 45 on the jaw members. This urges the jaws to close together. If the grooves on the jaw recesses 39 are not accurately aligned with those on the bolt 36 (that is to say, if the crests of the grooves on the jaws are not aligned axially of the bolt with the valleys of the grooves on the bolt so that the former can immediately enter the latter), so that the jaws cannot close onto the bolt, the axial force applied by the cam plate 29 to the jaw members 34 increases. This pushes the jaw members along the bolt by a small distance sufficient to align the crests of one set of grooves with the valleys of the other set of grooves, so that the jaws can close together to engage the bolt by interengagement of the two sets of grooves.
If the grooves on the jaws are aligned with those on the bolt, the initial engagement between the cam plate 29 and the chamfer 46 on the jaws urges the jaws radially inwardly, without any adjustment of their axial position, to engage the bolt.
Secondly, the anvil bore chamfer 28 engages the rear slopes 44 on the front exterior of the jaw members. This locks the jaw members together, in the position in which they are locked onto the grooves in the bolt 36, as illustrated in
The operator now presses the tool trigger 16. This applies hydraulic fluid pressure to the front of the piston 13 and removes hydraulic pressure from its rear. This applies an increasing high force to the anvil 26, which is sufficient to overcome the forwards pneumatic force on the nosepiece flange 23, so that the tool body 19 moves forwards until the rear end of its bore 24 contacts the rear face of the flange 23. The reaction to the force on the anvil is supported by the bolt 36, and the anvil moves axially over the collar and swages it to the bolt. The anvil locks the jaws together against the radially outwards force on them from the collar as it is compressed by the anvil. The fully swaged position is shown in
The operator now releases the trigger 16, so that hydraulic fluid pressure is switched back to the rear face of the hydraulic piston 13, and the anvil is thereby retracted back along the jaws, thereby releasing them from the swaged collar.
The invention is not restricted to the details of the foregoing example.
Number | Date | Country | Kind |
---|---|---|---|
0602695.9 | Feb 2006 | GB | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/GB2007/000063 | 1/11/2007 | WO | 00 | 8/14/2008 |