Patent Publication Number: US-RE34398-E

Title: Apparatus for and method of manufacturing brush seals

Description:
FIELD OF THE INVENTION 
     This invention relates to an apparatus for, and method of, manufacturing brush seals. It relates in particular not exclusively, to brush seals produced by the winding technique. 
     Brush seals are already well known per se and are therefore not described in detail herein. Briefly, however, they comprise a pair of generally annular sideplates and a plurality of closely packed metallic bristles. The bristles are sandwiched between the sideplates and extend radially therefrom. The free ends of the bristles act against a relatively rotating component to effect a seal. 
     DESCRIPTION OF THE RELATED ART 
     The production of brush seals by winding is already well known and is described in detail in UK Patent No. 2001400B. Briefly, however, the process involves winding a filament of wire onto an annular former having two seals sideplates incorporated therein and sandwiching the wire between a second pair of sideplates. Each of the two sideplates on either side of the former are then integrally joined to the wire situated therebetween by for example welding or brazing. The otherwise free ends of the wire are then cut away from the former to allow the two seals to be separated therefrom. Final finishing of the wire, or rather bristle, may be achieved by grinding. 
     One well known method of grinding makes use of a centreless grinding technique. This method is time consuming, expensive and lacks accuracy. Further to this, it has been found that the bristle elements bend away from the grinding wheel and make accurate machining difficult. 
     It is an object of the present invention to reduce and possibly eliminate the disadvantages of the above mentioned method of manufacture by providing an apparatus for and method of manufacture brush seals which makes use of the advantages of electro discharge machining, is simple, accurate and which lends itself to both automation and batch processing. 
     SUMMARY OF THE INVENTION 
     The apparatus of the invention comprises an annular former having radially outer and inner portions radially separated from each other by a gap and held relative to each other by locating means, and further includes a travelling wire electro discharge machining device and a guide tube. A brush seal is wound onto the former and the filament material cut in the region of the gap by the travelling wire. The wire is inserted between the filaments by first inserting a tube therebetween and passing the wire therethrough. Machining of the filament material is achieved by traversing the wire around the gap. 
    
    
     BRIEF DESCRIPTION OF THE DRAWINGS 
     The present invention will now be described by way of example only with reference to the accompanying drawings, in which: 
     FIG. 1 is a cross sectional view of a brush seal. 
     FIG. 2 is a general view of a portion of an annular former onto which the bristle elements of the brush seal are wound. 
     FIG. 3 is a cross sectional view of the annular former shown in FIG. 2 having bristle elements wound thereon and an ED wire cutting apparatus inserted therein, and 
     FIG. 4 is a perspective view of part of the cutting apparatus of FIG. 3, taken in the direction of arrow IV. 
    
    
     DESCRIPTION OF THE PREFERRED EMBODIMENT 
     Referring to FIG. 1, a brush seal 10 generally comprises one long and one short annular sideplate 12,14 and a plurality of bristle elements 16 which are sandwiched therebetween and which extend generally radially therefrom. The bristles shown extend generally radially inwards and their free ends 18 act against a rotating component such as for example a shaft 20 to effect a seal therebetween. 
     Turning now to FIG. 2, the annular former of the present invention 22 comprises a first radially outer portion 24, having a pair of annular sideplates 12 situated in recesses 26,28 provided on either side thereof and a second inner portion 30. The second inner portion 30 is spaced radially from the outer portion 24 by a predetermined amount G, and held relative thereto by a plurality of pins 32 which locate in holes 34,36 provided in both portions 24,30. 
     A filament of bristle material 38 is wound onto the annular former 22 in the conventional manner. It will, however, be appreciated that the filament 38 will lie over the gap G on both sides of the former 22 as shown in FIG. 3. The outer annular sideplates 14 are then applied to the outer surface of the wound filament adjacent their associated sideplates 12. The joining operation is then performed by for example welding the two pairs of sideplates 12,14 to each other and the bristle material 38 sandwiched therebetween and any surplus material removed by for example grinding. 
     Prior to machining the internal diameter of the brush seal 10, the outer 24 and if necessary the inner 30 portions of the former are supported in fixtures 40 and 42 respectively. The cutting wire 44 from a travelling wire electro discharge machining apparatus 46 is passed between the layers of the bristle material 38 in the region of the gap G and connected for operation to the apparatus 46 via machining heads 48,50 respectively. In order to facilitate the passing of the wire 44 through the mass of bristle material 38 it may be necessary to employ a tube 52 which is inserted between the bristle material prior to passing the wire 44 therethrough. Preferably, the tube is provided with a chamfered end 54 (best seen in FIG. 4) and a slot 56 along its length L. The chamfered end aids the passage thereof through the bristle material 38, whilst the slot 56 provides an outlet for the wire 44 during machining or allows the tube 52 to be removed prior to machining. 
     The filament material 38 is cut to size by passing a machining current through the cutting wire 44 and moving it in a circle along the gap G. It will be appreciated that the wire will cut through the filament material as it is so traversed together with any locating pins 32. It will be further appreciated that an accurate circular form may be machined by for example rotating the support means 40,42 and hence the seal 10 about a central axis of rotation R. Once all the filament material has been cut, the wire 44 may be removed and the two finished seals separated from the former 22. 
     It will be appreciated that the effect of the inner portion 30 is to locate the ends of the filaments of bristle material 38 not sandwiched between the sideplates 12,14 (the otherwise free ends) in order to facilitate the machining operation. It will be further appreciated that the above mentioned method of machining may be used on brush seals 10 not produced by a winding technique if the otherwise free ends of said seals 10 are similarly constrained by a locating means and a similar gap G provided between the annular sideplates 12,14 of said seal 10 and said locating means. Machining of the bristle elements 18 in the region of the gap may be achieved in the same manner as described above. 
     It will be still further appreciated that both the above described methods may be adopted for batch processing by stacking a number of seals 10 on top of each other such that the gaps G are in line with each other and by using the same cutting wire 44 to cut through all the bristle filaments 38 in the region of all the gaps in one operation.