GB2307359A

GB2307359A - Cable equipment enclosure

Info

Publication number: GB2307359A
Application number: GB9523535A
Authority: GB
Inventors: Raymond Charles Foss
Original assignee: Bowthorpe PLC
Current assignee: Bowthorpe PLC
Priority date: 1995-11-17
Filing date: 1995-11-17
Publication date: 1997-05-21
Anticipated expiration: 2015-11-17
Also published as: DE69615791D1; GB9523535D0; EP0774819A2; EP0774819B1; EP0774819A3; GB2307359B

Description

1 Cable Equipment Enclosure 2307359 The present invention relates to a

cable equipment enclosure for use underground.

There is a common need to connect telecommunications cables, e.g. telephone cables or cable television lines, with associated equipment. It is necessary to provide enclosures for cable splices or connectors and also to house equipment to which the cables are connected. Many cables are laid underground and our UK patent No. 2277644 discloses a cable jointing enclosure which comprises a one-piece housing formed by rotational moulding and having an opening in its top, and a metal plate for sealing over the opening in the top of the housing.

We have now devised a cable equipment enclosure, for underground use, which exhibits a number of improvements.

In accordance with the present invention, there is provided an enclosure for electrical equipment and for use underground, the enclosure comprising an inner housing disposed within an outer housing, the inner and outer housings each being formed of plastics material by rotational moulding, and a space between the inner and outer housings being filled with foamed plastics material.

This arrangement provides a construction which is very strong and rigid, so that it is well able to resist internal or external pressure. A further advantage of the construction is that even if the outer housing is punctured, water can still not enter the enclosure unless and until the inner housing becomes punctured.

Preferably the bottom of the inner housing is concavecurved, to resist internal air pressure. Preferably the bottom of the outer housing is correspondingly concave-curved.

The inner and outer housings may comprise separate mouldings, the inner being fitted into the outer. In this case, the two housings may be of different materials: for example, the inner housing may comprise a material, such as polypropylene which is rigid even at high pressures and temperature, whilst the outer housing may comprise a material, 2 such as chemically cross-linked polyethylene, which has high impact resistance.

Alternatively, the enclosure may be made as a single rotational moulding such that the inner and outer housings are formed together as one-piece.

Preferably the outer housing has a peripheral collar portion which runs around the inner housing adjacent its open top. Preferably the enclosure further comprises a metal cover which fits over the open top of the inner housing. Preferably the cover includes a peripheral flange which seats on a peripheral neck of the enclosure, with the interposition of a seal. Preferably the enclosure is circular or generally oval in cross-section, at least adjacent its open top, so that the peripheral flange of the cover and the corresponding neck of the enclosure can be engaged and tightened together by a ring clamp: this form of securement can be applied or released in much less time than if the enclosure is rectangular and a large number of separate fixings have to be applied at spaced points along its sides.

Preferably the inner housing includes at least one tubular projection, the end of which includes one or more ports for the entry of cables, and is accessible through an opening in the outer housing. Preferably this tubular projects outwardly and upwardly and the corresponding opening in the outer housing lies in a portion of the wall of the latter which slopes outwardly and downwardly. Alternatively the outer housing may comprise a socket which extends inwardly to the peripheral wall of the inner housing.

Also in accordance with the present invention, there is provided an enclosure for electrical equipment and for use underground, the enclosure comprising a housing which has a bottom wall, a peripheral wall projecting upwardly from the bottom wall, and an open top, the housing being formed of plastics material by rotational moulding and being generally circular or oval in cross-section.

A further advantage of the enclosure housing being generally circular or oval in cross-section is that, under internal or external pressure, the peripheral wall of the housing will deflect less than would the wall of a straight- 3 sided rectangular housing.

Embodiments of the present invention will now be described by way of examples only and with reference to the accompanying drawings, in which:

FIGURE 1 is a longitudinal section through a first embodiment of enclosure in accordance with the present invention; FIGURE 2 is an end view of the enclosure of Figure 1; FIGURE 3 is a partial plan view of the enclosure of Figures 1 and 2; and FIGURE 4 is a section through a mould for forming a second embodiment of enclosure.

Referring to Figures 1 to 3 of the drawings, there is shown an enclosure which comprises an inner housing 10 which has a generally oval cross-section, a concave bottom wall 11, a generally upright peripheral wall 12 and an open top. The inner housing 10 also has, at either or both ends, a projecting tubular portion 14, the outer end of which is formed with ports 15 through which cables may enter or leave the enclosure and are connected to electrical equipment which, in use, is installed in the enclosure. The enclosure further comprises an outer housing 20 into which the inner housing 10 is fitted, with the space between the two housings filled with foamed plastics material 30.

The outer housing 20 includes a collar portion 21 which fits closely around the inner housing 10, and an enlarged neck 22 immediately above the collar 21, the neck 22 being filled with foamed plastics and formed, in its upper surface, with a peripheral groove to receive a soft rubber seal 32. The outer housing 20 has a concave bottom wall 23 which is spaced from and follows the contours of the bottom wall 11 of the inner housing 10. Below the collar portion 21, the side wall of the outer housing 20 curves outwardly, then downwardly and finally inwardly to meet the bottom wall 23. It will be noted that the space between the inner and outer housings is greater at the opposite ends of the enclosure than along it opposite sides. The outer housing 20 is formed with an opening 24 through which the cable entry ports 15 project: the outer end of the projecting tubular portion 14 of the inner housing 10 abuts the 4 inner surface of the outer housing 20 around the opening 24.

The enclosure of Figures 1 to 3 further comprises a generally oval-shape cover 40, which is die cast from aluminium and includes longitudinal ribs 42 on its outer surface, to increase the surface area for heat transfer. The cover 40 also includes a peripheral flange 44 the underside of which is formed with a groove to engage the seal 32. The enclosure further includes a ring clamp 46, which has a groove with tapered sides on its inner periphery, for engaging correspondingly tapered surfaces on the top of the flange 44 of the cover and the underside of the neck portion 22, respectively, of the outer housing 20. The clamp 46 may comprise a one-piece ring which is split at one point around its circumference, or a two-piece ring: the clamp includes means for tightening its split ends together in order to secure the cover 40 tightly, and in sealed manner, onto the enclosure.

The inner and outer housings 10,20 of the enclosure of Figures 1 to 3 are formed separately from plastics material by rotational moulding, the materials of the two housings having different characteristics if required. The foamed plastics material 30 may be injected into the space between the two housings after the inner housing 10 has been fitted into the outer housing 20.

Referring to Figure 4, the enclosure may be made as a single rotational moulding, such that the inner and outer housings are formed together as one-piece. Thus, in the example shown in Figure 4, the enclosure is made using a mould having a first mould part 50 fixed to the rotating part 51 of the moulding machine, and a second mould part 52 which is separable from the first mould part 50 in the lengthwise direction of the enclosure being made. The mould comprises a third, cup-shaped mould part 54, which is fitted into an opening 53 which remains when the mould parts 50,52 are clamped together, a flange 55 on the mould part 54 being then clamped to a flange 56 around the latter opening. The mould part 52 is formed with a re-entrant tubular portion 57, which leaves a small gap between its inner end and the outer surface of the inner mould part 54. During the rotational moulding process, the plastics material (introduced into the mould 50,52 before the mould part 54 is fitted) costs the inner surfaces of the mould parts 50,52 and the outer surfaces of the mould part 54, to form the inner and outer housings 10,20 as a one-piece moulding. The outer housing is accordingly formed with a socket 58, of which the inner end is united with the wall of the inner housing.

After the enclosure has been moulded, firstly the inner mould part 54 is removed, then the mould part 52 is removed from the mould part 50, and finally the moulded enclosure is removed. The foamed plastics material 30 may be injected into the enclosure subsequent to formation of the enclosure. Alternatively, the plastics material from which the enclosure is moulded may incorporate of blowing agent, so that the body 30 of foamed plastics is formed at the same time as the enclosure walls 10,20: in effect, the enclosure will then comprise a body of foamed plastics having internal and external skins.

In a modification, a metal (e.g. aluminium) sheet may be wrapped around the outer periphery of the inner mould part 54, before the latter is fitted into the mould parts 50,52. The enclosure which is then formed incorporates the aluminium sheet as an internal lining for the peripheral wall of the inner housing. This gives increased rigidity to the enclosure and provides RF screening.

It will be appreciated that the enclosure of Figure 4 is completed by a cover, seal and clamp arrangement as described above for the embodiment of Figures 1 to 3.

6 claims 1) An enclosure for electrical equipment and for use underground, said enclosure comprising an inner housing disposed within an outer housing, said inner and outer housings each being formed of plastics material by rotational moulding, and a space between said inner and outer housings being filled with foamed plastics material.

Claims

2) An enclosure as claimed in Claim 1, wherein the bottom of said inner

housing is concave-curved.

3) An enclosure as claimed in Claim 1 or 2, wherein the bottom of said outer housing is concave-curved.

4) An enclosure as claimed in any preceding claim, wherein said inner and outer housings comprise separate mouldings, said inner housing being fitted into said outer housing.

5) An enclosure as claimed in claim 4, wherein said inner and outer housings are formed from different materials.

6) An enclosure as claimed in Claim 5 wherein said inner housing comprises a rigid material.

7) An enclosure as claimed in Claim 5 or 6, wherein said 20 outer housing comprises a material having high impact resistance. material.

8) An enclosure as claimed in any of Claims 1 to 3, formed from a single rotational moulding such that said inner and outer housings are formed together as one-piece.

9) An enclosure as claimed in any preceding claim, wherein said outer housing has a peripheral collar portion which runs around said inner housing adjacent its open top.

10) An enclosure as claimed in any preceding claim, comprising a metal cover which fits over the open top of said 7 inner housing.

11) An enclosure as claimed in Claim 10, wherein said cover is formed with a plurality of longitudinal ribs.

12) An enclosure as claimed in claim 10 or 11, wherein said cover includes a peripheral flange which seats on a peripheral neck of said enclosure, with the interposition of a seal.

13) An enclosure as claimed in Claim 12 of circular or generally oval cross-section, at least adjacent its open top, so that said peripheral flange of said cover and the corresponding neck of said enclosure can be engaged and tightened together by a ring clamp.

14) An enclosure as claimed in any preceding claim, wherein said inner housing includes at least one tubular projection, the end of which includes one or more ports for the entry of cables, and is accessible through an opening in said outer housing.

15) An enclosure as claimed in Claim 14, wherein said tubular projection projects outwardly and upwardly and the corresponding opening in said outer housing lies in a portion of the wall of the latter which slopes outwardly and downwardly.

16) An enclosure as claimed in any of claims 1 to 13, wherein said outer housing comprises a socket which extends inwardly to the peripheral wall of said inner housing.

17) An enclosure as claimed in any preceding claim, comprising a metal sheet as an internal lining for the peripheral wall of said inner housing.

18) An enclosure for electrical equipment and for use underground, said enclosure comprising a housing which has a bottom wall, a peripheral wall projecting upwardly from the bottom wall, and an open top, said housing being formed of 8 plastics material by rotational moulding and being generally circular or oval in cross-section.

19) An enclosure for electrical equipment for use underground, said enclosure being substantially as herein described with reference to Figures 1 to 3 or Figure 4 of the accompanying drawings.