GB2576083A - Connector for a walkway handrail - Google Patents

Abstract

The connector comprises a socket 52 for receiving a hand rail 43 and a transverse socket 55 for receiving a transverse link 45. The connector also includes a flange plate 50 which in use has a face which is in the same direction as the direction of the transverse link. The flange formation in use may contact a supporting beam for the stair case which supports treads. The sockets may be perpendicular to each other. The flange may contain aperture formations which allow a securing member to attach to the beam. The flange may also include a retention surface which interlocks with a complementary surface on the support.

Description

Connector for a Walkway Handrail

This invention relates to a connector for use in securing a handrail to a walkway.

For pedestrian walkways provided at exposed locations, typically at elevated locations or in proximity to hazardous material, it is desirable to provide a handrail assembly that acts as a barrier to restrain personnel from falling from the walkway.

If the walkway is provided at a location which is away from a wall or other such structure to which a handrail may be directly secured it is necessary to secure the handrail to posts that in turn are secured to appropriate supports such as that of a roof structure or the walkway.

Securing a handrail post directly to a roof structure can provide a firm location for the handrail but achieving a strong and watertight connection often cannot be readily and reliably accomplished. In particular, attaching directly to the roof structure creates a risk of undue localised loading of the roof structure and associated risk that the integrity of a watertight connection might be compromised.

The alternative of attaching a post to the walkway avoids the need for puncturing of the roof material but does require that the walkway is of sufficient strength to provide a firm location of handrail posts such that they are able sufficiently to resist sideways loading of a handrail. Because of the general desirability, particularly for rooftop installations, for the walkway to be of a low weight that does not disadvantageously apply additional loading to the roof structure there is the potential problem that the walkway may have insufficient strength to provide adequate support for handrail posts. Thus the walkway may be of a lightweight design which, although comprising relatively low strength components, has sufficient strength and rigidity when the components are assembled together to provide mutual support for one another, for example to form a walkway assembly such as that described in the specification of our UK patent publication GB 2478564A. Thus a walkway assembly of that type of construction is not necessarily suitable for firmly supporting a handrail.

The present invention seeks to provide a connector for a handrail post which mitigates or overcomes the aforedescribed difficulties.

In accordance with one aspect of the present invention there is provided a connector for location of the support posts of a walkway handrail assembly, said connector comprising two socket formations each for securing a respective one of a handrail post and an end of a link which, in use, extends transversely across the walkway, the connector comprising a flange formation which defines a flange surface which faces in the same direction as the direction of the longitudinal axis of the socket formation for receiving the transverse link.

The connector may be employed as the second connector of a walkway installation that comprises a walkway assembly which comprises at least one tread module supported by a pair of spaced apart elongate supports which extend in the direction of the length of the walkway installation, the walkway installation additionally comprising a handrail assembly comprising a handrail which extends in the direction of the length of the walkway assembly and a plurality of spaced apart posts which each secure the handrail relative to the walkway assembly, the handrail assembly additionally comprising a first connector which secures a post to one side of the walkway assembly and said first connector having secured thereto a substantially inflexible transverse link which extends across the walkway assembly in a direction perpendicular to the length of the walkway installation, said transverse link extending to a second connector secured to the other side of the walkway.

The first connector may be a component which is secured to a tread module which in turn is secured to one of the elongate tread module supports but preferably the first connector is a component which is secured directly to a first of the elongate supports.

The second connector may be a component which is secured to a tread module which in turn is secured to one of the elongate tread module supports but preferably the second connector is a component which is secured directly to a second of the elongate supports. As an alternative to use of a second connector which is a component secured to a second of the elongate supports, the second of the elongate supports may be adapted to serve as the second connector whereby, without an interposed connector, the second elongate support serves to restrain the transverse link from moving in a direction, typically a vertical direction, which is perpendicular to a plane containing the walkway surface. Thus instead of the transverse link being secured to a second connector which in turn is secures to the second elongate support, the transverse link may be secured directly to the second elongate support, for example either by means of fasteners, such as a screw or bolt, or by means of a mechanical interlock.

The second connector optionally may be a component which is may be similar or identical to the first connector whereby it is able to provide support for a handrail post such that handrails may the be provided along each side of the walkway.

Accordingly it is to be understood that, by the provision of a first connector which rigidly interconnects a handrail post and a transverse link, any sideways load applied to a handrail to tend to cause sideways movement of the handrail is resisted by both of the elongate tread module supports. Thus even though a first connector may be secured to a lightweight elongate tread module support that has a low torsional stiffness (about an axis extending in the direction of the length of the elongate support) the provision of the transverse link attached to the other elongate support, and which loads the other elongate support typically in a vertical direction, without imposition of a torsional load to that other elongate support, ensures that the first ( and also the second) elongate support is not subject to any unacceptable torsional load. Thus the post and associated handrail is better able to resist sideways deflection when loaded in a sideways direction than if secured to only one elongate support.

The first connector may comprise two socket formations each for receiving and securing a respective one of a handrail post and an end region of one of a tube or rod of a transverse link.

The first connector flange surface may be firmly secured to a surface, such as a side surface, of an elongate tread module support. The flange section may be planar or may have a contour which is complimentary to that of a confronting surface of the elongate support.

The two socket formations may comprise bores which interconnect with one another. Preferably, however, the socket formation for the transverse link is a blind bore. The socket formation for the handrail post may be a blind bore or a through bore, and, in use of the connector the socket formation for the post may extend lengthwise both above and below the longitudinal axis of a socket formation of the transverse link. The longitudinal axes of the two socket formations may extend in directions perpendicular to one another.

A connector, whether a first or second connector, may comprise an apertured flange for receiving a retainer, such as a bolt or grub screw, for attachment of the connector to an elongate support, for example by a clamping action. Alternatively it may be provided with retention surfaces that interlock with complimentary surfaces of an elongate support.

Suitable materials for first and second connector components include materials such as extruded or cast aluminium, malleable cast iron, ductile cast iron, and steel, or plastics such as polyamide and moulded reinforced plastics materials such as glass reinforced polyamide and nylon.

The connector of the present invention is particularly suitable for providing a walkway installation comprising a handrail assembly and a walkway assembly wherein the walkway assembly is of a type such as that described in the specification of our UK patent publication GB 2475914A.

The walkway assembly may be of a type comprising a plurality of tread modules which may be of a non-metallic composite material and of a lower stiffness than if formed from metallic material. The walkway assembly may comprise lightweight aluminium elongate extrusions to support the tread modules and the extrusions may be of a cross sectional shape that defines at least in part one open sided cavity region which enables a handrail post connector to be secured thereto by a clamping action and without the need for on site drilling of metal during installation of the walkway.

The walkway assembly may comprise other features as described in more detail in the specification of GB 2475914A.

The walkway assembly may comprise tread modules of the type described in the specification of our UK patent publication GB 2478564A.

In a walkway installation of a type wherein the walkway assembly comprises spaced apart tread modules, one or more transverse links may extend across the walkway assembly at a position above the elongate tread module supports, the or each to lie between spaced apart tread modules.

Alternatively one or more transverse links may extend across the walkway assembly at a position underneath the elongate tread module supports.

An embodiment of a connector in accordance with the present invention will now be described, by way of example and in the context of a walkway assembly, with reference to the accompanying diagrammatic drawings in which:Figure 1 is a perspective view of part of a walkway assembly known per se and of a type to which a handrail assembly may be secured to provide a walkway installation;

Figure 2 is a an end view of one of the elongate supports of Figure 1;

Figure 3 is a perspective view of a tread module of the walkway assembly of Figure 1;

Figure 4 is a perspective view of part of a walkway installation comprising connectors in accordance with the present invention;

Figure 5 shows part of the view of Figure 4 with one of the tread modules removed;

Figure 6 is a perspective view of part of a handrail assembly that is a modification of the handrail assembly of Figures 4 and 5 and showing a connector in accordance with the present invention;

Figure 7 is an isometric view of a first of the connectors of Figure 6 and which is in accordance with the present invention;

Figure 8 is a view in the direction X of Figure 7;

Figure 9 is a cross-section on the plane A-A of Figure 8;

Figure 10 is an isometric view of a second of the connectors of Figure 6;

Figure 11 is a view in the direction of the arrow Y of Figure 10, and;

Figure 12 is a cross-section in the plane A-A of Figure 11.

A walkway assembly 10 for securing to a roof structure of the type comprising a flat section and an inclined section comprises a horizontal walkway assembly sectionl 1 and a stairway assembly section 12.

The walkway and stairway assemblies 11,12 each comprise a pair of mutually parallel elongate primary support members each in the form of a beam 13, the two support beams lying side by side in spaced apart relationship.

Each beam 13 (see figure 2) is an aluminium extrusion comprising an upper support surface 14 and a pair of side face walls 15 each of which is grooved such that in each side wall there is an opening 16 to a substantially C shaped retention channel 17 as viewed in transverse cross-section.

The channels 17 in each side face are of the same cross-sectional shape and comprise a pair of abutment surfaces 18 disposed respectively above and below the opening 16. The cross-section of each channel departs from an exact C shape in that the channel has upper and lower recess regions 19 whereby, for a purpose described below, a rectangular-section plate may locate and be supported in upright manner in the channel. Additionally the base region 20 of each channel defines a recess and the base region 20 or channel 17 may accommodate the head of a bolt that extends outwards through the opening 16, and may act to prevent rotation of the bolt head. Conversely the base region channel 17 may non-rotatably locate a nut into which a bolt may be fitted from externally of the beam.

In the case of a roof or other support structure that comprises a rib formation, such as a standing seam, the beams may each be secured to the roof by clamps (not shown) having a hook shaped end that fits in the beam opening 16 thereby to secure the beam against the flange formation when a nut is tightened to draw the clip towards the flange formation.

In the case of a roof structure having a surface to which a retainer bracket (not shown) may be bolted, the channel 17 of a beam may be used nonrotatably to locate a bolt that extends outwards and through one limb of an L shaped bracket to enable the bracket to be bolted firmly to the beam. The other limb of the bracket may be formed with an opening to enable the bracket to be secured by a bolt or self tapping screw to the roof structure.

Prior to or, or optionally, after securing the beam sections to a roof or other support structure tread modules 25 (see Figure 1) are secured to the upper surfaces 14 of the beams by means of self tapping screws which locate in recesses in the tread modules. These tread modules may, for example, be of the kind described in our aforementioned UK patent publication GB 2478564A, and also described in detail below.

For the horizontal walkway section 11 the tread modules define a substantially level tread surface, but successive modules are spaced apart to define gaps 26 which (particularly on an outdoor walkway) provide drainage in addition to drainage facilitated by apertures 27 in the tread modules. Not all modules are necessarily of the same size and Figure 1 shows a small module 28 formed by severing one of three regions 29 of a module from the other two sections by cutting of interconnecting webs 22 (see Figure 3).

Typically, as also shown in GB 2478564 and the Figures 1 and 3 of this specification, the longer edges of each module are formed with integral spacer formations 24 to assist in maintaining adjacent modules slightly spaced apart to provide the gaps 26.

The stairway assembly section 12 comprises a pair of spaced apart beams 13 secured to the inclined surface of the roof structure by transversely extending bars 30 which are seamed to the roof structure.

For each tread position of the stairway assembly section (see Figure 1) each beam 13 has an auxiliary support beam 31 secured thereto. Each auxiliary beam is secured pivotally relative to a support beam 13 by means of a hinge (not shown) and is held in position to maintain the tread module horizontally by means of a spacer post 32 secured by self-tapping screws respectively to an upper surface 14 of a beam 13 and underside surface 33 of the auxiliary beam 31.

A walkway installation comprising the walkway assembly 10 of Figures 1 to 3 and a handrail assembly 40 is shown in part in Figures 4 and 5.

The handrail assembly 40 of this embodiment of the invention is of a type which provides a handrail along each side of the walkway. The handrail assembly 40 comprises at each side of the walkway a handrail 41, and an intermediate safety barrier bar 42 that extends parallel with the handrail 41, a plurality of posts 43 to maintain the handrail 41 and barrier 42 spaced above the walkway tread modules 25, and handrail connectors 44 in accordance with the present invention and by means of which posts are secured to respective side faces 15 of the elongate support beams.

The handrail assembly additionally comprises a transversely extending rod 45 that is positioned to extend across the walkway, positioned in the gap 26 (see Figure 1) between adjacent tread modules 25. For location of a module between a pair of tread modules the edge spacers 24 may, if necessary, be removed.

The rod 45 rigidly interconnects a pair of connectors 44 at respective sides of the walkway whereby the connectors maintain a fixed angle, typically a right angle, between the longitudinal axes of the rod 45 and a respective post 43. In consequence of that rigid interconnection between a post and the transverse rod 45 as secured to each of the beams 13 any sideways force applied to a handrail when resisting toppling of personnel is resisted by both of the beams and in particular by the resistance to upwards movement of the beam at that side of the walkway opposite that of the post to which sideways loaded handrail is located.

In some walkway installations there may be a requirement for a handrail at only one side of a walkway. Accordingly in a modification of the embodiment as shown in Figures 1 and 5, one of the connectors 44 may be replaced by a connector 65 (see Figures 6 and 10 to 12) which enables only the transverse rod 45 to be connected to a beam 13.

The handrail connector 44 will now be described in more detail with reference to Figures 7 to 9. The connector 44 may be a malleable cast iron casting or an aluminium casting. The connector may comprises a planar flange 50 integral with a socket 51 in the form of a through-bore 52 the longitudinal axis of which extends parallel with the face of the flange 50. Two screw threaded apertures 53 extend to the through-bore whereby a grub screw may be provided in each aperture to engage with and secure the end of a metal rod that serves as a post 43 of the handrail assembly.

The connector 44 additionally comprises a socket 55 which defines a blind bore 56 the longitudinal axis of which extends perpendicular to the face of the through-bore. The open end of the blind bore 56 faces in the same direction as the face of the flange, away from the through-bore 52. A screw threaded aperture 57 extends to the blind bore whereby a grub screw may be provided in the aperture to engage with and secure an end of a transverse bar 45.

The flange is supported by reinforcing ribs 48 and comprises apertures 59 whereby a bolt may be employed to extend through an aperture 59 and opening 16 of a beam 13 to engage with a nut non-rotatably positioned and supported within the beam 17 thereby to clamp the connector 44 to a side face 15 of the beam as the bolt head is rotated.

In use the connector 44 may be orientated in the manner shown in Figures 4 and 5 to secure a transverse link 45 which extends across the walkway in a space 26 between two successive tread modules 25. However, because the socket 51 for securing a post is a through-bore the connector may readily be employed in an inverted orientation thereby to secure a transverse link which extends across the walkway positioned beneath the beams 13 if those beams are spaced sufficiently above a roof or other support structure.

If a handrail is required at only one side of a walkway, a connector at the other side of the walkway may be identical to the connector which supports a post but with the through-bore left vacant. Alternatively, however, that other side of the walkway may be provided with a connector 65 of the type shown in

Figures 6 and 10 to 12. This comprises a single socket formation 66 which defines a through-bore 67 supported relative to a flange 68 by reinforcing ribs 69,70. A screw threaded aperture 71 extends to the through-bore thereby to enable use of a grub screw to secure a transverse bar within the socket 66.

From the foregoing it is to be understood that the present invention provides a connector suitable for a handrail assembly for attachment to a walkway assembly and which facilitates firm location of a handrail to resist sideways movement without potentially imposing a high and localised torsional load on the walkway assembly.

Claims (8)

Claims

1. A connector for location of the support posts of a walkway handrail assembly, said connector comprising two socket formations each for securing a respective one of a handrail post and an end of a link which, in use, extends transversely across the walkway, the connector comprising a flange formation which defines a flange surface which faces in the same direction as the direction of the longitudinal axis of the socket formation for receiving the transverse link.

2. A connector according to claim 1 wherein the flange section defines a flange surface which is planar.

3 A connector according to claim 1 or claim 2 wherein the two socket formations comprise bores which interconnect with one another.

4. A connector according to claim 1 or claim 2 wherein the socket formation for a transverse link is a blind bore.

5. A connector according to any one of claims 1 to 4 wherein the socket formation for a handrail post is a through bore.

6. A connector according to any one of claims 1 to 5 wherein the two socket formations each define a bore and the longitudinal axes of the two bores extend in directions perpendicular to one another.

7. A connector according to any one of claims 1 to 6 wherein the flange formation is apertured for receiving a retainer for attachment for attachment of the connector to a support.

8. A connector according to any one of claims 1 to 7 wherein the flange formation is provided with retention surfaces adapted in use to interlock with complementary surfaces of an elongate support.