Abstract:
A collet for locking a tube in a tube coupling body is moulded in plastics and comprises an annular collar having a plurality of arms extending from the collar generally parallel to the collar axis. Each arm has a head at its distal end spaced from the collar for engaging between a tube and coupling body to lock the tube in the coupling body. Different materials are used for the heads of the collet and the rest of the collet whereby the heads are stronger and relatively rigid whereas the rest of the collet is relatively flexible.

Description:
BACKGROUND OF THE INVENTION  
       [0001]     1. Field of the Invention  
         [0002]     This invention relates to collets for use in tube couplings for locking the tube in a coupling body and to methods of manufacturing such collets.  
         [0003]     2. Background Prior Art  
         [0004]     Our UK Patent Specification Nos. 1520742 and 1573757 describe and illustrate a number of forms of collets for locking tubes in coupling bodies. The collets disclosed comprise an annular collar having resilient arms formed with heads at the distal ends of the arms.  
         [0005]     The coupling body with which the collet is used has an open ended throughway and the collet is located in the open end of the throughway with the arms extending from the collar into the throughway. The throughway is formed with a tapered cam surface narrowing towards the open end of the throughway with which the arms of the collet engage to be pressed inwardly with movement of the collet outwardly of the throughway. A tube is inserted through the collet into the throughway and the heads of the collet are forced into gripping engagement with the tube by the tapered cam surface to lock the collet in the coupling body.  
         [0006]     Other arrangements of collet for locking a tube in a coupling body are described in our European Patent Specification Nos. 0691503, 0663557 and 0756125. In these arrangements a coupling body has an open ended throughway and a collet comprising a collar and resilient arms is located in the throughway with the arms extending towards the open end of the throughway. A tube to be locked in the coupling body has an encircling rib adjacent the end which the heads of the collet arms snap over when the tube is inserted into the coupling body. The heads of the arms engage in slots or abutments formed around the coupling body to prevent the collet from being drawn outwardly of the coupling body and hence the tube is restrained in the coupling body.  
         [0007]     The collet is formed from plastics material which has the necessary flexibility to allow the arms to flex as required to grip and release the tube. The flexibility of the collet does impose some restriction on the overall load which the collet can withstand particularly at higher temperatures. An object of the present invention is to provide a collet which can withstand higher loads and particularly at higher temperatures than hitherto available.  
       SUMMARY OF THE INVENTION  
       [0008]     This invention provides a collet for locking a tube in a tube coupling body, the collet being moulded in plastics and comprising an annular collar having a plurality of arms extending from the collar generally parallel to the collar axis, each arm having a head at its distal end spaced from the collar for engaging a tube and coupling body to lock the tube in the coupling body, different materials being used for the heads of the collet and the rest of the collet whereby the heads are stronger and relatively rigid whereas the rest of the collet is relatively flexible.  
         [0009]     More specifically the heads and the rest of the collet are formed from the same plastics materials, the heads including a filler to strengthen and increase the rigidity of the plastics material in the heads.  
         [0010]     For example the filler may be glass fibres.  
         [0011]     Also by way of example the plastics material for the heads and rest of the collet may be nylon, the heads being filled with glass to increase the strength and rigidity of the heads compared with the rest of the collet.  
         [0012]     Different plastics materials may be used for the heads and collet, the heads being formed from a relatively rigid and strong plastics material whereas the rest of the collet is formed from a relatively flexible plastics material.  
         [0013]     Thus the heads may be formed from glass-filled PPS and the rest of the collet may be formed from unfilled polypropylene or a mineral filled propylene.  
         [0014]     In any of the above arrangements inserts of said relatively rigid strong plastics material are moulded into the heads on the collet arms, the insert extending radially through the heads.  
         [0015]     In addition the inserts may have metal teeth moulded into the inserts which project from the inner sides of the heads for engaging a tube to be gripped.  
         [0016]     The invention also provides a method of making a collet for locking a tube in a tube coupling body and comprising a plastics moulded annular collar having a plurality of arms extending from the collar generally parallel to the collar axis, each arm having a head at its distal end, which method comprises forming (e.g. by moulding) inserts for the heads of the collet connected in a ring in a relatively rigid strong plastics material and then forming (e.g. by moulding) the collet with the insert supported in the ring to be embedded in the heads of the collet in a second, relatively flexible plastics material and then removing the ring to allow the arms to flex independently of one another.  
         [0017]     For example the inserts may be moulded on the inner periphery of a ring spaced positions around the ring in said relatively rigid strong plastics material and the ring is used to support the inserts for the moulding the collet embedding the inserts in the relatively flexible plastics material of the collet but not the ring which is subsequently removed to allow the arms to flex independently of one another.  
         [0018]     Additionally metal teeth may be moulded into the insert to project on the inner sides of the insert in the heads of the collet.  
         [0019]     Preferably the metal teeth are formed around the inner periphery of an aperture in a metal strip, the ring of plastics inserts is moulded around the aperture on the metal strip and the inserts are moulded around the metal teeth, the strip is then used to support the inserts with their metal teeth with the inserts being embedded in the heads at the distal ends of the collet arms following which the metal strip with the ring of plastics supporting the insert is detached to allow the arms to flex independently of each other.  
         [0020]     The periphery of the aperture around the metal strip on which the metal teeth are formed may be cutaway to leave teeth attached to the strip by narrow nibs of metal only to enable the strip to be readily removed following the moulding operation.  
         [0021]     The invention also provides a method of injection moulding the collet in which a mould is provided for forming the collet in one piece, high strengths plastics is injected into the moulding to form the heads of the collet followed by a lower strength more resilient plastic for forming the rest of the collet.  
         [0022]     The mould can have separate supplies of plastics to provide the two strengths which are required and which are fed alternately to the extruder supplying the mould. Alternatively, separate extruders for each of the plastics can be provided for injecting the high strength and weaker more resilient plastics in a common inlet runner to the mould to form the collet. 
     
    
     BRIEF DESCRIPTION OF THE DRAWINGS  
       [0023]     The following is a description of some specific embodiments of the invention, reference being made to the accompanying drawings in which:  
         [0024]      FIG. 1  is a side elevation view of a collet for locking a tube in a tube coupling body in accordance with the invention;  
         [0025]      FIG. 2  is an end elevation view of the collet of  FIG. 1 ;  
         [0026]      FIG. 3  is a section on the line  3 - 3  on  FIG. 2 ;  
         [0027]      FIG. 4  is a perspective view showing a first stage in the moulding of the collet with elements of the collet supported on a length of strip metal;  
         [0028]      FIG. 5  is a perspective view showing a second stage in the moulding of the collet after completion of the moulding operation with the length of strip metal still present;  
         [0029]      FIG. 6  is a view of the completed moulding from the reverse side of the strip; and  
         [0030]      FIG. 7  is a perspective view of the collet following detachment from the strip metal; and  
         [0031]      FIG. 8  is a diagrammatic view of one form of injection moulding tool for forming a collet in accordance with the invention.  
     
    
     DESCRIPTION OF THE PREFERRED EMBODIMENTS  
       [0032]     Referring now to FIGS.  1  to  3  of the drawings, the collet is shown indicated generally at  10  comprising an annular collar  11  having an out-turned flange  12  on one side and a plurality of resilient arms  13  extending from the other side generally parallel to the collet axis which is indicated at  14 . At the distal ends of the arms remote from the collar, heads  15  are formed on the arms the outer faces  16  of which are shaped to cooperate with a tapered cam surface in the coupling body in which the collet is to be used to force the arms inwardly into engagement with a tube extending through the collet. The inner sides of the heads formed with a step  17 , in use, will face inwardly of the coupling body. The greater part of the collet including the collar, head, arms and part of the heads at the ends of the collet arms is formed from a relatively flexible plastic material such as nylon or polypropylene with or without a mineral filling. The material is selected to provide adequate strength for the collet but also flexibility in the arms  13  to allow the arms to be deflected inwardly into griping engagement with a tube by the tapered cam surface as mentioned earlier.  
         [0033]     The heads  15  of the collet at the ends of the collet arms are formed with inserts  16  moulded in a more rigid plastics material such as glass filled nylon or glass filled PPS to enable the heads to withstand higher loads in the plastics material used for the rest of the collar particularly at higher temperatures.  
         [0034]     The inserts  16  extend radially through the heads so that each head comprises the insert  16  and a U-shaped portion  17  the ends of which are integral with the arms of the collet and which is formed in the same material as the rest of the collet. Each insert  16  has a raised rib  18  extending around the sides and bottom of the insert adjacent the U-shaped element  17 . The U-shaped element  17  is moulded onto the insert and, in so doing, envelopes the rib  18  so that the insert is positively keyed into the part  17  of the head. The outer surface of the head  15  has an inclined face  19  which engages with the tapered cam surface in the coupling body to force the arms of the collet inwardly into engagement with the tube passing through the collet with slight outward movement of the collet in the coupling body.  
         [0035]     The inner side of the insert is formed with a step  20  facing away from the collar  11  of the collet and is a Z-shaped metal tooth  21  is embedded in the insert  16 . The inner end of the tooth  22  is angled to project outwardly of the insert at the top of the step  20  and to provide an edge to engage and grip a tube in the collet.  
         [0036]     The manufacture of the collet will now be described with reference to FIGS.  4  to  7 . Referring firstly to  FIG. 4  of the drawings, a strip  25  of stainless steel is used to provide the teeth  21  of the plastic inserts for the heads of the collet and also serves to carry the teeth through the moulding operation. Apertures  26  are punched in the strip with spaced curve recesses  27  to define a series of teeth  21  spaced around the aperture  26  at appropriate positions for the forming of the collet. Deep rectangular apertures  28  are also punched at the outer sides of the teeth leaving the teeth connected to the strip by narrow nibs of metal  29  which can readily be when the moulding operation is complete as described later. The punching operation is also used to appreciate teeth  21  to have the slight Z form cross-section which can be seen in  FIG. 3 .  
         [0037]     The strip is then fed to a moulding machine where the inserts  16  are moulded onto the teeth in a glass filled nylon or glass filled PPS plastics material to a provide a relatively rigid and strong body of material in which the teeth  21  are embedded to produce a strip as shown in  FIG. 4 . The rib  18  encircling each tooth to key into the rest of the head can clearly be seen. The strip then moves in the mould to a moulding station where the rest of the collet is moulded to produce a complete collet as shown in  FIGS. 5 and 6 . The nibs  29  attaching the strip to the teeth are then severed to leave the completed collet as shown in  FIG. 7 .  
         [0038]     In practice the moulding of the inserts will produce a ring of plastics material around the aperture in the strip which is removed with the strip.  
         [0039]     It will be appreciated that many modifications may be made to the above described collet construction and method of producing the collet without departing from the scope of the invention. Other plastics materials may be used and collets can be formed without metal teeth embedded in the inserts.  
         [0040]     Furthermore the moulding steps may be carried out in the reverse order. Also the moulding operation could be carried out in one operation first forming the inserts and then the complete collet using the same machine barrel/nozzle.  
         [0041]     The invention is also applicable to forming collets for use in the tube couplings described in our Specification Nos. 0691503, 0663557 and 0756125 (GSL and SL type collets).  
         [0042]     Referring now to  FIG. 8  of the drawings, there is shown in diagrammatic form an injection moulding tool for producing a collet in accordance with the invention. The tool is indicated generally at  100  and comprises an annular cavity  101  designed to mould the collet head and having an inlet runner  102  connected to a screw extruder for feeding plastics material to the mould cavity. Elongate cavities  103  extend from the annular cavity at spaced positions around the cavity coaxially with the axis of cavity to form the collet arms and the distal ends of the elongate cavities have enlarged chambers  104  to form the heads at the ends of the arms.  
         [0043]     In carrying out the moulding operation, a high strength plastics material is initially fed by the extruder to fill the chambers  14  and thereby form high strength heads for the collet to the required shape. The high strength plastics material injected into the mould cavity is followed by a lower strength material which forms the arms and annular end of the collet.  
         [0044]     Although only one supply extruder is shown in the above apparatus, separate extruders can be provided for supplying the high and low strengths plastics material. The plastics materials may be different but compatible materials or may have the same base material with the high strengths are filled with reinforcing fibres and the low strengths material having no fibre content or a much lower fibre content.