NZ197250A - Recoverable sleeve and liner for covering cable joints - Google Patents

Description

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Complete Specification Filed: Clasa Publlution Date: P.O. Journal No: ....... ....

NEW ZEALAND I PATENTS ACT, 195 3 p r r, f%.^r £ * i mf b^ij] ;No.: ;Date: ;COMPLETE SPECIFICATION "RECOVERABLE CLOSURE ASSEMBLY" ;ji/We, N.V. RAYCHEM S.A., a company organized and existing under the laws of Belgium of Diestsesteen-weg 692, 3200 Kessel-lo, Belgium hereby declare the invention for which we pray that a patent may be granted to g>£/us, and the method by which it is to be performed, to be particularly described in and by the following statement:- ;(followed by page la) ;RECOVERABLE CLOSURE ASSEMBLY ;This invention relates to a recoverable closure assembly, a method of enclosing a body in such an assembly, and component parts for such an assembly. ;Recoverable closure assemblies have a wide variety of uses, one important use being the enclosure and protection of cable splices by means of a recoverable outer sleeve which is shrunk around the cable splice to provide a protective enclosure for the splice. Recoverable articles are, in general, articles whose dimensional configuration may be made substantially to change when subjected to an appropriate treatment. Of particular interest here are heat-recoverable articles, the dimensional configuration of which may be made substantially to change when subjected to heat treatment. Heat-recoverable articles may be produced by deforming a material having a diinensionally heat-stable configuration on the application of heat alone. As is made clear in US Patent No. 2,027,962, however, the original dimensionally heat-stable configuration may be a transient form in a continuous process in which, for example, an extruded tube is expanded, whilst hot, to a dimensionally heat-unstable form. Alternatively a preformed dimensionally heat-stable article may be deformed to a dimensionally heat-unstable form in a separate stage. In the production of dimensionally recoverable articles, the composition may also be cross-linked at any stage in the production process that will accomplish the desired additional dimensional recoverability. ;197250 ;-2- ;The present invention can also be relevant to recoverable sleeves whose recoverability results from mechanical resistance to change rather than from kinetic stability. In such cases the recoverable sleeve 5 may return to its stable state on removal, ..destruction, or melting of an additional hold-out agent, such as a further sleeve within the recoverable sleeve. ;Various other components may be included in a 10 closure assembly, and for example there may be provided between a cable splice and the recoverable sleeve a liner to achieve, for example, a moisture barrier or a physical support for the sleeve. One particularly useful form of liner, which is capable of being wrapped 15 around such a splice prior to recovery of the sleeve, is described in our U.K. Patent ;2059373. Alternatively, a liner and recoverable sleeve may be provided as an integral laminate. ;20 It is possible, however, that such a liner may be expensive in certain circumstances, particularly when total physical support is required for heat-recoverable sleeves of large diameter. We have now devised an alternative closure assembly which can combine high flexibility at installation, 25 and high static and impact load resistance. ;Thus, the present invention provides a recoverable closure assembly, comprising a recoverable outer sleeve which can surround a body to be enclosed thereby, and a 30 liner which can surround the body within the sleeve; the liner comprising an internal thermoplastic support layer and an external heat barrier layer comprising a foamed polymeric material. ;The outer sleeve is preferably heat-recoverable, in 35 which case the heat barrier layer would be capjafei-e—of - ^ ;v:; ;• =-ice ;-3- ;preventing thermal deformation of the support layer during heat-recovery of the sleeve. Where the outer sleeve is recoverable by means other than heat, the heat barrier layer will simply be capable of providing heat resistance sufficient 5 for whatever conditions the assembly will be subjected to. The liner preferably includes a substantially vapour impermeable moisture barrier, and each layer of the liner is preferably substantially incapable of capillary transfer of liquid. The moisture barrier may be an 10 additional layer, or the function of preventing ingress of moisture may be carried out by one of the existing layers. ;The invention also provides a liner suitable for use 15 in the assembly of the invention, and we prefer that the layers of the liner are bonded together to form a laminate. ;The invention further provides a method of enclosing a body, such as a cable splice, which comprises positioning 20 about the body a liner and a recoverable sleeve as defined above, and effecting recovery of the sleeve. ;Where the liner and sleeve are not or the liner is not a bonded laminate, the various layers may be placed around the body separately in the desired order, or all 25 at once if desired. ;The invention still further provides in a kit-of-parts for making the assembly. ;30 It can be seen, therefore, that the desirable properties of a liner can be achieved by using a support layer which has the required strength and flexibility and can resist the force of the outer sleeve during recovery; any lack of heat-resistance of the support layer can therefore be 35 compensated for by provision of a heat barrier layer. ;The liner of the new assembly can be resistant to delamination of its layers, and can resist ingress of water by capillary transfer (wicking), which could otherwise allow water or other moisture to by-pass via the ends of the liner any moisture-barrier layer that may be provided. ;The idea of using as the support layer a material which is itself thermoplastic allows great freedom of choice for this material, whilst thermal deformation of the thermoplastic support layer during recovery of the outer sleeve can be substantially avoided by means of a foamed heat barrier layer. Also, thermoplastic material is relatively inexpensive and is easy to shape by moulding, extrusion or other thermoforming process, which means that the support layers can readily be provided in any form. The length of a piece of support layer is not critical, but it should not be so long that collapse occurs when the sleeve is recovered. Strength can be increased by overlap using, say, 2 or 3 rolls of support. Alternatively the material thickness can be increased. ;The material of the support layer will be chosen bearing in mind the desired strength and any heat that it may have to resist, for example during and after heat recovery of the sleeve. A preferred material for the support layer is an olefinic polymer such as calcium carbonate-filled polypropylene, but other suitable thermoplastics may be used, such as high density polyethylene or polycarbonate.Desirable properties of the support layer include resistance to low-temperature impact, a deflection temperature high enough that collapse under stress is avoided, and a suitable flexural modulus. A suitable deflection temperature at 264 p.s.i. is from 55-65 °C, preferably about 62°C. A suitable impact strength at 23°C is 6-10, preferably about8ft lb/in and at 18°C is .8-12, preferably about 1ft lb/in. A skilled man, knowing ;-s- 1G7250 ;these requirements, would be able to select a suitable material. ;The invention is particularly suitable for dealing with cable splice enclosures having a diameter greater than 100 especially greater than 126 mm, and a length of 250-300 preferably about 300 mm, which are approximately the upper size limits of satisfactory operation using the cable sleeve liner described in our aforeflientioBed U.K. Patait 2059 873. Filled polypropylene sheet is preferred as the support layer of the present invention because of its high strength, its high melting point (160°C) and its good flexibility at room temperature. It is known that installation temperatures can exceed 160°C in the vicinity of the liner, but the heat barrier layer of the present invention can be used as aforesaid to minimise any difficulties in this respect. ;The filled polypropylene sheet is preferably 0.8 to 1.2 mm in thickness, and need not necessarily have exactly the same dimensions as the heat barrier layer. A well chosen support layer can prevent any collapse or deformation during recovery of the heat-shrinkable sleeve, while providing the strength and flexibility to prevent the system from being permanently damaged when subjected to mechanical load and/or impact. The present invention is expected to be usable or adaptable for cable splice enclosures having diameters up to at least 200 mm. ;The heat barrier layer is preferably non thermoplastic, for example a closed cell foam to minimise moisture penetration (say o *5 -o• 84 particularly about 0-67 Kg/m3), an<3 may be any foam capable of withstanding operating temperatures encountered in use, i.e. at least 140, particularly above 160°C. A suitable thermal conductivity of a foam is 3.7 —.4.3 preferably about 3.9 kg cal/hr sq m°C per cm (.3 - .35 preferably.0.32 I BTU/hr sq ft F per inch). The foam •} ri^n 7. Xd t V is preferably flexible, although relatively rigid foams could be used if suitable folding lines are scored therein or if other means are provided to assist their being wrapped around the body to be enclosed. Most closed cell 5 non moisture absorbent foams having the requisite heat stability appear to be suitable, neoprene or polyolefins being currently preferred. Cross-linking may be carried out, and it gives additional heat stability and will be advantageous in some cases. One suitable method of cross-10 linking is by irradiation. Two or more layers of such heat barrier material may be used between the support layer and the sleeve. When we refer to a foamed material we siiflply mean materials containing many holes throughout its bulk: we do not intend to be limited to a method of production. 15 The thickness of the foam, and the size and distribution of the holes can be chosen according to the particular use for which the product is intended. The heat transfer rate during any heat recovery will be one consideration, and a satisfactory value will depend on the susceptibility to 20 damage of the support layer and on the efficiency of the heat barrier layer.

A preferred thickness of the foam layer is 0.8mm but slightly thicker or thinner foam will be suitable. The 25 density of the cells is preferably such as to give an 3 overall density of 90 - 110 more preferably 100Kg/m .

The heat barrier layer may consist only of the foamed polymeric material, or alternatively, it, may 30 additionally comprise a non-woven cellulosic material, for example one or more layers of press board.

A substantially vapour-impermeable moisture barrier layer is preferably included in the assembly, usefully 35 between the foamed heat barrier layer and the support layer. tiZ. PATENT^ 24N0V1983 RECEIVED • • •••• •• • • • ••••• • The moisture barrier layer, preferably a flexible metallic layer, such as aluminium, may be positioned elsewhere in the assembly if desired, for example on the exterior surface of the foam, between the outer sleeve and the foamed layer, or 5 incorporated in the sleeve itself, preferably on the inner surface thereof, which then may receive the usual adhesive or mastic coatings for sealing the enclosure. The thickness of the aluminium or other metal should be such that it is not destroyed when the assembly is produced. A thickness 10 of 10 - 30 preferably 12 - 25 more preferably 15 microns is preferred.

The support layer may itself be laminated to the foamed heat barrier layer or to the moisture barrier/heat barrier 15 laminate, or may be provided as a separate component. We prefer that the support layer is bonded to the heat barrier layer and to any other layer present, to form a laminated support liner. Suitable bonding procedures and adhesives, pressure-sensitive or otherwise, may readily be selected by 20 persons familiar with such technology. Heat activated adhesive may be used, and of these polyamides are preferred -see our US Patent, 4181775 which describes suitable adhesives the disclosure of which is incorporated herein by reference.

Where the support layer is part of a laminated support liner with (at least) one other layer, it may be desirable that a longitudinal strip at one edge of the support layer can be removed to expose a strip of the other layer: this exposed edge strip forms a tag which can be used for bonding to the 30 oposite edge or other portion of the liner to hold the liner in a substantially cylindrical or other configuration around a body to be protected. Preferred ways to provide for removal of such a strip include provision of a line of weakness along the length of the support layer at a suitable 35 distance from one edge or provision of an indentation at one > -j c ^ ~i " ib.'w O side of the layer by means of which a strip can be gripped for tearing. A series of such lines of weakness may be provided to allow a single design of liner to be used to protect bodies of various thickness. Such lines can be identical to or additional to lines provided to aid curving of an originally flat liner around the body.

The tag can have the additional or alternate function of protecting the outer sleeve from the generally sharp edge of the support layer which may otherwise be prominent at the point of overlap of the support layer. Conveniently, the laminated support liner that we are referring to here is produced on a continuous line using a pressure-sensitive adhesive. Such adhesive allows easy removal of the support layer strip to leave a pressure-sensitive tag. This laminated support liner is preferably a three part laminate of support (preferably polypropylene), heat barrier and moisture barrier (preferably aluminium sheet), which would produce on removal of the strip of support layer a foam-aluminium adhesive tag.

Each end of the liner may taper gradually to the diameter of the body which it surrounds, the advantages of this are good seals at the end of the liner and reduction in the number of sharp points or edges which could damage the outer sleeve. The tapered ends of the liner are preferably produced by providing longitudinal slits into the ends of the support layer, which allow the ends of the liner to close down into cone shapes.

It is desirable that the slits are produced by removing tapered portions of material from the support layer, to define a series of oppositely tapered fingers; such an arrangement would allow the conical ends to be formed without gaps.

An embodiment of the present invention isjshown by way 2 4.W M3 187250 of example in the accompanying drawings, wherein Figures 1 and 2 show a closure assembly according to the present invention respectively before and after recovery of the outer sleeve; Figures 3 and 4 show a support member according to the present invention as used in the assembly of Figures 1 and 2; Figures 5 and 6 show the support member structure in more detail as viewed from an edge of the support member; Figures 7 and 8 show, in part section, an outer sleeve 10 and an inner sleeve liner; and Figure 9 shows a sleeve liner in perspective view.

In Figures 1 and 2, a cable 1 is shown joined by known means such as a crimped ferrule 2 and a support liner 3 is 15 placed around the joint. The liner has slit end portions forming tapered fingers 4 which can be deformed inwards to form a tapering transition from the liner 3 to the cable The tapered fingers 4 of the liner 3 can be seen more clearly in Figures 3 and 4, Figure 3 also showing the foamed polymeric heat barrier layer 6 carried in this example as a laminate on substantially the whole outside 30 surface of the liner 3. The calcium carbonate-filled polypropylene support layer 7 of the liner is also shown in Figure 3, the liner being shown in perspective in the configuration assumed when it is wrapped around the cable 1 with the tapered fingers 4 bent inwards towards the 35 cable. Since the fingers preferably are formed only by the 1.

A heat recoverable sleeve 5 surrounds the liner and extends beyond its ends so as to seal the assembly after heat recovery of the sleeve, as shown in Figure 2, the sleeve normally carrying an internal coating of heat activatable adhesive to ensure moisture-proof sealing. -vTiCE 2 4 NOV 1983 RF'Y' • 197250 support layer, a continuous web of moisture barrier may be provided. This feature, combined with the inwardly bent ends provides a good seal and is described and claimed in U.K Patent publication 2077060.

The laminated structure of the liner in this example is also illustrated in the edge view of Figure 5 and the magnified detail of Figure 6, using the same references 6 and 7 for the foam and polypropylene layers.

Lamination can be affected by any convenient means such as adhesive, and this applies also to liners which incorporate in the laminate a further layer of flexible moisture impermeable material (not shown), preferably a 15 metallic film such as aluminium, either between the foam and polypropylene, or elsewhere in the liner.

Figures 7 and 8 show part of a sleeve liner 3 inside a heat recoverable outer sleeve 5. The outer sleeve 5 20 includes joining rails 10 and a closure member 11 which holds the rails in an abutting position. Such a sleeve is described and claimed in British Patent No. 1155470. The sleeve liner consists of a support layer 7, a moisture barrier 8 and a heat barrier 6 bonded together with a 25 contact adhesive. From Figure 7 it can be seen that where the sleeve liner 3 overlaps a hard edge 9 of the support layer, this edge can in some circumstances press against the outer sleeve 5. In Figure 8 a strip of the support layer 7 has been removed to leave a tag 13 which makes the 30 overlap more gentle, and thereby minimises risk of sleeve splitting on recovery. This tag 13 may also be used to bond to a portion of the support layer to hold the liner in the correct configuration around the body to be protected.

Figure 9 shows a partly rolled sleeve 1" 4>j0Yj983 ^ECKivro 9 197250 of weakness 12 is provided for removal of a strip of support layer 14 to expose a tag 13 of, in the illustrated embodiment, a moisture barrier - heat barrier laminate. This tag will preferably carry a contact adhesive for bonding to the 5 portion of the sleeve liner marked 15.

The tapered fingers 4 are preferably as shown in Figures 3 and 4, but simple straight slits or other configurations could be provided in the support layer if 10 desired to permit tapering of the liner onto the cable.

In order to give additional flexibility to the part -of the support layers which bend to form the tapering transitions from the liner 3 to the cable 1, holes may be formed in 15 the layers at the base of each finger. These holes can also prevent or reduce points or sharp edges from occuring around the junction between the central position of the rolled sleeve and each tapered end. These holes preferably penetrate only the support layer 7, and not any heat or 20 moisture barriers which may be attached.

In use, the components of the assembly are positioned about the body to be enclosed in the following order from the body surface: support layer, heat barrier layer and 25 sleeve. Heat is then applied to effect recovery of the sleeve about the body. Preferably, the moisture barrier layer is also positioned about the body, most preferably between the heat barrier layer and the exterior of the assembly, or sandwiched between the heat barrier layer and 30 the support layer. The support layer and the barriers may, of course, be provided as an integral laminate.

The heat-recoverable sleeve may be any known suitable sleeve, either of the 'tubular' or 'wrap-around' kind, for 35 example using elastic memory as described in our U.S.

Patent 3086242 , and in US Patent 2027962, or using elastomeric recovery after a sureport1'"hoJrtHrng—fcfee-^ sleeve in a stretched state is softene , JN.Z. PAT^'oV d. by hoa-t-mg;

Claims (41)

CLAIMS WHAT CLAIM IS:

1. A recoverable closure assembly, comprising a recoverable outer sleeve which can surround a body to be enclosed thereby, and a liner which can surround the body within the sleeve; the liner comprising an internal thermoplastic support layer and an external heat barrier layer comprising a foamed polymeric material.

2. An assembly according to Claim 1, in which each layer of the liner is substantially incapable of capillary transfer of liquid.

3. An assembly according to Claim 1 or 2, in which the sleeve is heat recoverable, and the heat barrier layer is capable in use of preventing thermal deformation of the? support layer during heat recovery of the sleeve.

4. An assembly according to Claim 3, in which the time and temperature required for recovery of the sleeve, the heat transfer rate of the heat barrier layer, and the heat stability of the support layer are related, such that on recovery of the sleeve the support substantially retains its strength.

5. An assembly according to any of the preceding claims, in which the heat barrier layer is substantially non-thermoplastic.

6. An assembly according to Claim 5, in which the heat barrier layer additionally comprises a non-woven cellulosic material.

7. An assembly according to Claim 6, in which the heat barrier layer additionally comprises at least one layer of press board.

8. An assembly according to any of Claims 1 - 5, in which the heat barrier layer consists of a foamed polymeric material.

9. An assembly according to any preceding Claim, in which the foamed polymeric material is a substantially closed cell mater ial.

10 An assembly according to any preceding Claim, in which the heat barrier layer comprises a cross-linked foam.

11. An assembly according to any preceding Claim, in which the heat barrier layer comprises a neoprene foam or polyolefin foam.

12. An assembly according to any preceding Claim, in which the heat barrier layer comprises a flexible foam.

13. An assembly according to any of the preceding claims, in which the heat barrier layer is laminated to the support layer.

14. An assembly according to any of the preceding claims, in which the support layer comprises an olefinic polymer.

15. An assembly according to Claim 14, in which the olefinic polymer is a polypropylene.

16. An assembly according to Claim 14 or 15, in which the support layer is a filled olefinic polymer.

17. An assembly according to claim 16, in which the support layer is a calcium-carbonate filled olefinic polymer.

18. An assembly according to any of the preceding claims, in which the liner, in use, has tapered end portions produced by bending inwardly tongues defined by adjacent longitudinal slits which extend into the end of the suport layer. -14- 1S7250

19. An assembly according to Claim 18, in which the tongues are tapered, produced by removal of oppositely tapered fingers of support layer material to form the slits.

20. An assembly according to Claim 18 or 19, in which the support layer has an enlarged hole at the ciosed end of each slit.

21. An assembly according to Claim 17, 18 or 19, in which the slits and/or holes penetrate only the support layer, and do not penetrate the heat barrier layer or any other layer of the liner.

22. An assembly according to any of the preceding claims, in which the support layer has longitudinal lines of weakness which aid curvature of the liner around the body.

23. An assembly according to any of the preceding claims, in which the heat barrier layer or another layer overlaps the support layer along a longitudinal edge thereof to form a tag which, when the liner is in use, bonds to a portion of the liner to hold the liner around the body.

24. An assembly according to any of the preceding claims, in which the heat barrier layer or another layer overlaps the support layer along a longitudinal edge thereof to form a tag which, when the liner is in use, provides a barrier between said edge and the outer sleeve.

25. An assembly according to Claim 23 or 24, in which the overlap is produced by removal of a longitudinal strip of support layer from a bonded laminate of support layer and heat barrier or other layer. \ \ 1r;a iu i l&OU -15-

26. An assembly according to Claim 25, in which the heat barrier or other layer, as the case may be, is bonded to the support layer by a pressure sensitive adhesive, such that removal of the strip results in a pressure sensitive adhesive tag.

27. An assembly according to any of the preceding claims, in which the liner additionally comprises a substantially vapour impermeable moisture barrier layer.

28. An assembly according to Claim 27, in which the moisture barrier layer is carried by the heat barrier layer.

29. An assembly according to Claim 27, in which the moisture barrier layer is sandwiched between the heat barrier and the support layer.

30. An assembly according Claim 27, in which the moisture barrier layer is carried by the sleeve.

31. An assembly according to Claim 30, in which the moisture barrier layer is carried on the inside surface of the sleeve.

32. An assembly according to any of Claims 27 - 31, in which the support layer, the heat barrier layer and the moisture barrier layer are bonded together.

33. An assembly according to any of Claims 27 - 32, in which the moisture barrier layer comprises a foil.

34. An assembly according to Claim 33, in which the foil is an aluminium foil. 1S72S0 -16

35. An assembly according to Claim 1, substantially as herein described with reference to any of the accompanying drawings.

36. A cable splice enclosed in an assembly according to any of the preceding claims^

37. A liner suitable for use in an assembly according to any of Claims 1 - 35.

38. A liner for use in an assembly according to any of Claims 1 - 35, comprising a support layer bonded to another layer, the support layer having a line of weakness or indentation by means of which a longitudinal strip of the support layer can be removed to expose a tag of the other layer which can bond to a portion of the liner to hold the liner around a body.

39. A liner for use in an assembly according to any of Claims 1 - 35, comprising a support layer bonded to another layer, the support layer having a line of weakness or indentation by means of which a longitudinal strip of the support layer can be removed to expose a tag of the other layer which can provide a covering for the resulting exposed edge of the support layers

40. A method of enclosing a body comprising positioning about the body an assembly as defined in any of Claims 1-35 and then effecting recovery of the sleeve.

41. A method a herein described A method according to Claim 40, substantially as DATED THIS )~| DAY OF Cyor A. J. PARK & SON PER AGHNTS FOR THE APPLICANTS