This application claims priority from PCT/GB/2011/050299 filed on Feb. 16, 2011 and from GB 1002856.1, filed Feb. 19, 2010, which are hereby incorporated by reference in their entireties.
1. Field of the Invention
The present invention relates to wire handling for vehicle glazing panel cut out techniques.
2. State of the Art
Vehicle glazing panels such as vehicle windscreens (windshields) are typically bonded in supporting frames by adhesive bonding material such as polyurethane, applied in a continuous bead about the periphery of the glazing panel and frame.
Wire cutting techniques have been previously proposed and used to effect glazing panel removal (for replacement or otherwise). Exemplary techniques are disclosed in, for example, EP-A-0093283, Canadian Patent Specification 2034221, U.S. Pat. No. 6,616,800, German Patent 4012207 and PCT Publications WO2006/030212, WO86/07017 and WO98/58779.
An improved technique and apparatus has now been devised which aids in cutting out a windscreen by having a dispenser unit for dispensing cutting wire the dispenser having means for mounting to the glazing panel and enabling cutting wire to be payed out from the dispenser whilst mounted to the glazing panel during the cut out procedure. A wire winder unit is typically mounted on the windscreen, the winder unit including one or more winder spools. The winder unit may be moved about the screen between several mounted positions with separate respective cuts being effected at the different mounted positions.
When the setting a wire dispenser unit is initially set on the windscreen, the cutting wire may be looped about the periphery of the glazing panel and a free end of the wire payed out from the dispenser may be connected to the winder spool of the winder unit.
Typically the winder spool of the winder unit is operated to wind the wire and thereby cut the bonding material, wherein during cutting wire is payed out from the dispenser unit in order to effect slip cutting of the bonding material.
According to a first aspect, the present invention provides a dispensing system for dispensing cutting wire to be used in a glazing panel cut out procedure, the system comprising;
Considered alternatively the invention provides a dispensing system for dispensing cutting wire to be used in a glazing panel cut out procedure, the system comprising a mounting device arranged to be mounted on a glazing panel, the mounting device being provided with a docking station configured for demountable docking of a wire store device.
Beneficially, the docking station is provided with rotary means operable to pay out cutting wire from the wire store device.
It is preferred that the rotary means is controllable to adjust the applied torque required to operate the rotary means. Adjustable brake means may be provided for this purpose, preferably being operable to adjust the applied torque required to operate the rotary means.
In one embodiment, the adjustable brake means preferably comprises a friction brake which is tightenable to increase the braking effect, or relaxable to reduce the braking effect.
It is preferred that the rotary means comprises a rotary device to which the wire store device is arranged to be coupled in docked demountable engagement.
In a preferred embodiment, when in docked engagement a spool of the store is coupled for rotation with the rotary device.
In certain embodiments it may be preferred that the store device has a central aperture for accommodating the rotary device in docked demountable engagement.
The docking station and the wire store device may beneficially be provided with respective complementary engaging docking formations arranged to engage when the wire store is docked with the docking station.
In a preferred realization, the engaging docking formations are arranged to permit the store to be mounted and demounted from the docking station but ensure that the store and docking station are coupled for rotation together in unison when in the docked configuration.
Where adjustable brake means is utilized this may beneficially be operated by a cam and lever arrangement.
In a preferred embodiment, the mounting device for securing on the glazing panel comprises a suction mount.
According to an alternative aspect, the invention provides a dispensing system for dispensing cutting wire to be used in a glazing panel cut out procedure, the system comprising a mounting device arranged to be mounted on a glazing panel, the mounting device being provided with rotary means operable to pay out cutting wire from the system, wherein the rotary means is controllable to adjust the applied torque required to pay out the cutting wire.
In a preferred realization, the system includes adjustable brake means operable to adjust the applied torque required to operate the rotary means.
The adjustable brake means may comprises a friction brake which is tightenable to increase the braking effect or relaxable to reduce the braking effect.
The rotary means may comprise a rotary device to which a wire store device is arranged to be coupled, the system including adjustable brake means engaging with the rotary device (preferably at an interface perpendicular to the rotational axis of the rotary device) and operable to adjust the applied torque required to operate the rotary device.
According to a further alternative aspect, the invention provides a wire store device for storing cutting wire for dispensing, the store device comprising:
It is preferred that an inner cylindrical wall for the store device is provided by an inner cylindrical wall of the annular spool body.
The annular spool body member may, in a preferred embodiment, be received nested internally of the arcuate upstanding outer wall of the annular housing by means of formations (preferably snap fit engagement formations) that prevent separation of the spool body out of nested engagement with the housing but permit relative rotation between the annular housing and annular spool body.
In preferred embodiment the inner cylindrical wall of the device (preferably the inner cylindrical wall of the spool body) may be provided with formations permitting the wire store device to be rotary coupled to a rotary means operable to pay out, or draw in, cutting wire.
The invention will now be further described in a specific embodiment by way of example only and with reference to the accompanying drawings.
Referring to the drawings, and initially to
The winder unit 1 comprises a pair of releasable suction cup mounts 10, 11 enabling the winder unit to be releasably secured to the windscreen. The suction cup mounts comprise a rigid plastics cup 12 and underlaying flexible rubber skirt membrane 13. Respective actuation/release levers 14 enable consistent suction to be applied and released. Such suction mounts are commonly employed in windscreen replacement and repair technology. The suction cup mounts 10, 11 are pivotably/tiltably mounted to the support bracket 15 of the winder unit to ensure that both mounts 10, 11 can locate in good engagement with the windscreen despite the curvature of the windscreen. The main body of the support bracket 15 carries a pair of underslung winding spools 4, 5 in side by side relationship. The spools are connected to axial winding shafts which are supported in bearings 16, 17 provided on the winder unit. The spools 4, 5 are driven axially rotationally either manually via a hand winder or by means of a mechanical actuator such as a motorised winding or winching tool.
Drive bosses 18 are provided with female sockets 19 (square bores) for receiving the male driving tool. Positioned outwardly of the winding spools are respective wire guide pulley wheels 8, 9 of low friction plastics material. The pulley wheels are mounted to be rotatable about respective rotational axes. The guide pulleys rotate as the cutting wire is drawn tangentially across the pulleys as will be described. The winder spools 4, 5 are held to rotate in one direction only (each in opposite senses) by respective ratchet mechanisms. Each mechanism includes ratchet override permitting prior tightened wire to be slackened, or unwound (reverse wound).
The winder unit 1 is secured internally of the vehicle to the surface of the glazing panel 3 above the steering wheel as shown in
Removal is commenced by winding the spool 5 to move the cut from the corner A upwardly along the side edge and around corner B. During cutting, if excessive resistance occurs, from tough or large PU adhesive beads, the wire is able to spool off the dispenser spool 2 and slip and slice past the PU adhesive in what can be referred to as ‘slip cutting’. The use of the spool dispenser mounted on the windscreen enables this ‘slip cutting’ to occur early in the cut out procedure and without pre cutting of the other free end of the wire 41. Once the cutting wire 40 has travelled around the corner B, the winder unit 1 is moved across the windscreen to the other side and re-secured to the windscreen in the configuration shown in
When the cut has almost been completed along the top edge, the winder unit is rotated through 90 degrees and re-secured as shown in
The wire store/dispenser device 50 according to the present invention is shown in
The store/dispenser device 50 as shown in
As shown in
The mount device 75 to which the store/dispenser device 50 is mounted for dispensing the wire is best shown in
Effectively therefore the reaction cap is biased upwardly to an equilibrium position by the spring 97. When the lever is moved to its actuation position (the position shown in
When the lever is moved to its actuation position (the position shown in
The rotary capstan 75 is provided on opposed circumferential wall portions, with detents 106107 which are arranged to match up and engage in the recesses 7071 on opposed internal circumferential walls of the wire spool 52 as the wire store 50 is docked downwardly to rest on the platform flange 89a, settling snugly about the outer surface of the capstan. The engagement recesses 7071 are shaped to cooperate with the detents 106107 such that once engaged the spool 52 is effectively rotationally locked with respect to the capstan 75 such that the capstan and the spool 52 rotate in unison (unless rotation is effectively inhibited by the braking mechanism earlier described). It should be noted that the housing 51 does not rotate in unison with the capstan and the spool body 52 ensuring that the dispensing gap between the edges 5556 of the wall 54 remains in position.
However, the engagement between the detents 106107 and the recesses is such that the store device 50 can be lifted upwardly clear of the capstan 90, from the docked position with relatively little manual force applied. To this end the engagement formations (either the detents 106107 or the recesses 7071) are preferably linear formations extending upwardly/downwardly with respect to the circumferential walls of the capstan 90 and the spool 52. The recesses 7071 preferably comprise slots or channels. The capstan 90 also includes a recess 105 for accommodating the end portion of the wire that extends through the wire aperture 72 in the store dispenser device 50.
When a store/dispenser device 50 is loaded with wire and secured to the mount 75, wire can be drawn from the store/dispenser device 50 and used in a similar way to the wire store dispenser device 2 as described in relation to
Several advantages are however realised by the invention over the store dispenser device as described in relation to
Firstly, the wire store 50 can be easily and conveniently demounted from the mount 75. This enables the store, with the wire still wound on the spool body 52, to be passed from one side of the windscreen to the other by prising out the already released corner of the windscreen to form a small gap and passing the spool through the gap. The required length may then be payed out from the spool 52 before being cut.
Secondly, the adjustable braking mechanism ensures that the cutting out process can be tailored to ensure that wire dispensing is accurately controlled. For example when setting out the wire around the periphery of the windscreen there are instances at which it is desirable to prevent any further wire from being pulled out from the store/dispenser. At such instances maximum brake force can be applied. At other instances it is desirable to permit the wire to be dispensed freely and therefore the brake system can be completely released. At other instances during the procedure, for example when slip cutting, some torque resistance is required and the present system enables the torque resistance applied for slip cutting to be readily adjusted and set to the level desired by the operator.
The provision of the store/dispenser device 50 having an annular outer sleeve 51 and which receives, seated therein, a relatively rotatable spool 52 upon which wire is wound is also advantageous. This provides for dispensing and or loading of the store device 50 in a controlled manner and prevents so called ‘birds nesting’ occurring. ‘Birds nesting’ occurs when a poorly constrained wound coil of wire springs of a spool in an uncontrolled manner thereafter becoming tangled, possibly kinked and difficult to use.
The present invention provides the benefits of wire cutting systems without over complex system apparatus arrangements or the need to re configure the apparatus significantly following initial set up. The technique can be used by operators of relatively little experience or physical strength following an initial set up routine of minimal complexity.
Number | Date | Country | Kind |
---|---|---|---|
1002856.1 | Feb 2010 | GB | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/GB2011/050299 | 2/16/2011 | WO | 00 | 10/22/2012 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2011/101667 | 8/25/2011 | WO | A |
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Number | Date | Country | |
---|---|---|---|
20130037648 A1 | Feb 2013 | US |