GB2579606A - Corrugated panel mounting system - Google Patents

Abstract

A structural component 5 supports a corrugated panel 10 of a panel system. The component comprises at least one receiving portion, defined by two receiving members 30, 35 for receiving the panel in between. One of the two members is curved. The arrangement of the receiving members is such that the panel can be freely inserted by a certain range of angles but once the panel is at a second range of angles the panel is prevented from being removed from the component. The panel may be corrugated. The component may include two base members 20, 25 that extend perpendicularly to each other and configured to engage different sides of a support structure. Also claimed is an assembly with a panel and a roof comprising the assembly.

Description

CORRUGATED PANEL MOUNTING SYSTEM

FIELD

The present disclosure describes a mounting system for mounting panels, particularly to mounting corrugated panels such as corrugated panels. Such panel systems can be used as roofing systems or glazing systems

BACKGROUND

Roofing systems can be formed from structural pieces that support one or more panels to form a roof. The structural pieces may vary in shape, form and function depending on the design of the roofing system.

The structural pieces are generally rigid and can be formed or a metallic material such as aluminium or aluminium alloy or from a rigid polymeric material. The panels can be glass panes, integrated glass units, polymeric panels, such as polycarbonate panels, bituminous panels, metal panels, and/or the like. Whereas planar panels can often be used, in many cases, corrugated panes can be preferred. Corrugating provides many benefits, such as improved structural and drainage properties. However, suitable structural pieces (e.g. clips or frames) are required to hold the corrugated sheets in place. Providing improved structural pieces for holding corrugated panels would be beneficial.

SUMMARY

Aspects of the present disclosure are defined by the independent claims appended herewith. Preferred but optional features are defined by the dependent claims appended herewith.

According to a first aspect is a structural component for a panel system, such as a roofing or glazing system, the structural component being configured to support a non-planar, e.g. corrugated, panel of the panel system. The structural component may comprise at least one receiving means for receiving the panel of the panel system, the receiving means comprising at least a pair of receiving members for receiving part of the panel therebetween, wherein at least one of the receiving members is curved. The receiving members may define a receiving channel therebetween for receiving a peripheral part of the panel. The receiving members may comprise at least one first receiving member, which may be an upper receiving member in use, and at least one second receiving member, which may be a lower receiving member in use.

The receiving channel may be defined between the first and second receiving members.

The receiving members may be configured or shaped such that when the panel is at a first angle or within a first range of angles then a peripheral portion of the panel is insertable or freely insertable into and/or out of the receiving channel and/or between the first and second receiving members, e.g. by translational movemement. The receiving members may be configured or shaped such that when the panel is at a second angle or range of angles that is different and/or rotated with respect to the first angle or range of angles then the panel is held or secured against movement, e.g. translational movement, in at least one direction by the first and/or second receiving members, e.g. by the combined action of the first and/or second receiving members. When the panel is angled at the second angle or within the second range of angles, then the panel may be held or locked against movement, e.g. translational movement in a direction corresponding to a longitudinal direction of the panel or a direction in the plane of the panel or in a direction away from the structural component. The first angle or range of angles may be a smaller or more acute angle to the vertical than the second angle or range of angles. The first range of angles may not overlap the second range of angles.

In this way, the panel system can be assembled by inserting the panel into the receiving channel and/or between the first and second receiving members at the first angle or within the first range of angles, and then rotating or pivoting the panel around or moving the panel in a curved rocking motion so that it is at the second angle or within the second range of angles in order to hold or secure the panel against translational movement in the at least one direction.

The second angle or range of angles may correspond with a substantially horizontal direction but may be a different direction and may generally correspond with a panel direction in the finished structure, e.g. roof, in which the structural component is or to be comprised. The first angle or range of angles may be oblique to the horizontal and/or vertical, but may not be limited to this and may be other angles depending on the finished structure.

The panel may comprise first and second oppositely facing surfaces, e.g. top and bottom surfaces. The at least one first receiving member may be shaped to engage the first, e.g. top, surface of the panel, in use. The at least one second receiving member may be configured to engage the second, e.g. bottom, surface of the panel, in use. The structural component may be configured such that when the panel is inserted into the receiving channel at the second angle, then the at least one first receiving member engages the first, e.g. top, surface of the panel and/or the at least one second receiving member engages the second, e.g. bottom, surface of the panel. The panel may comprise a plurality of corrugations. Each corrugation may comprise at least a first curved or sloping portion extending to an apex or inflexion and a second curved or sloping portion extending from the apex or inflexion, e.g. on an opposite side of the apex or corrugation to the first curved or sloping portion. The first curved or sloping portion may generally extend in a direction that is different to the general direction in which the second curved or sloping portion extends. For example, the first sloping or curved portion may extend between 0° and 180°, such as between 20° and 160°, e.g. between 45° and 135° to the direction in which the second curved or sloping portion generally extends.

The first and second receiving members may be configured such that, when the panel is within the second range of angles, the first and second receiving members respectively engage the panel on opposing surfaces of the panel and on different sides of an apex of a corrugation of the panel. The at least one first receiving member may be shaped to engage the second curved or sloping portion of a corrugation, in use. The at least one second receiving member may be configured to engage the first curved or sloping portion of a corrugation, in use. The first receiving member may be configured to extend past at least one apex or inflexion of the corrugated panel in use, e.g. when the panel is inserted into the receiving channel at the second angle. The structural component may be configured such that when the panel is inserted into the receiving channel at the second angle, then the at least one first receiving member engages the second curved or sloping portion of a corrugation and/or the at least one second receiving member engages the first curved or sloping portion of a corrugation.

The at least one first receiving member may be curved. The structural component may comprise a base section, which may be a section that contacts, mounts to or receives a supporting structure upon which the structural component is mounted or mountable, such as a wall, beam or rafter, in use. The supporting structure may be formed from wood / timber, or could be polymeric (e.g. PVC), metallic (e.g. aluminium or steel), or the like.

The at least one first receiving member may comprise at least a first curved portion that curves from the base section to an apex or inflexion and may comprise at least a second curved portion that curves away from the apex or inflexion in a different direction to the first curved portion. The at least one second receiving member may extend in a direction that is within 70°, e.g. within 45° or 35° or less of the direction in which the first curved portion of the at least one first receiving member extends. The at least one first receiving member may be configured to follow or match the shape of a single corrugation of the panel.

The base section may comprise at least two base members, which may be elongate and may extend substantially perpendicularly to each other. At least one of the base members may be configured to engage a different side of the supporting structure to that of at least one other base member. For example, at least one of the base members may be configured to engage with a side of the structural member and at least one other of the base members may be configured to engage a top surface of the structural member, in use. The base members may be integral with each other.

The at least one first receiving member may extend from the junction of the at least one base member and the at least one other base member. The at least one second receiving member may extend from the at least one other base member. Both the first and second receiving members may extend above or overhead of one of the base members, e.g. the base member that is configured to engage the top surface of the supporting structure in use.

In this way, one of the base members may be configured to extend down the side of the supporting structure in use whilst the other base member extends from it, generally perpendicularly, so as to cover the top of the supporting structure in use. The base members may be shaped such that they rest on the anpport structure (e.g. beam), e.g at 90 so that the side bane member vertical and prevent,s. the base section when on the beam from ailowirc] the ang:e between the panel aria the base mambers to return to the first angle or first range of angies.

The structural component may be formed of a metallic material, e.g. aluminium, or may be formed from a polymeric material, e.g. UPVC, or the like. The structural component may comprise or be comprised in a panel clip, frame or the like. The structural component may be part of a roof. The panel may be formed from a polymeric material, such as polycarbonate, PVC, or the like. The panel may be formed from a composite material such as fibre reinforced polymer, e.g. glass or carbon fibre reinforced polymer. The panel may be metal or be formed from a bituminous material.

According to a second aspect of the present disclosure is an assembly comprising the structural component according to the first aspect and a panel, such as a corrugated panel. The corrugated panel may be located in the receiving channel, e.g. between the first and second receiving members, of the structural component.

The panel may be formed from a polymeric material, such as polycarbonate, PVC, or the like. The panel may be formed from a composite material such as fibre reinforced polymer, e.g. glass or carbon fibre reinforced polymer or from a metal or from a bitumen material. The assembly may be an assembly for a roof comprising the panel.

The panel may comprise first and second oppositely facing surfaces, e.g. top and bottom surfaces. The at least one first receiving member may be shaped to engage the first, e.g. top, surface of the panel, in use. The at least one second receiving member may be configured to engage the second, e.g. bottom, surface of the panel, in use. The structural component may be configured such that when the panel is inserted into the receiving channel at the second angle, then the at least one first receiving member engages the first, e.g. top, surface of the panel and/or the at least one second receiving member engages the second, e.g. bottom, surface of the panel.

The panel may comprise a plurality of corrugations. Each corrugation may comprise at least a first curved or sloping portion extending to an apex or inflexion and a second curved or sloping portion extending from the apex or inflexion, e.g. on an opposite side of the apex or corrugation to the first curved or sloping portion. The first curved or sloping portion may generally extend in a direction that is different to the general direction in which the second curved or sloping portion extends. For example, the first sloping or curved portion may extend between 20° and 160°, e.g. between 45° and 135° to the direction in which the second curved or sloping portion generally extends.

The structural component and/or panel may comprise any of the features of a structural component and/or panel described in relation to the first aspect.

According to a third aspect of the present disclosure is a roof comprising at least one assembly according to the second aspect.

According to a fourth aspect of the present disclosure is a method of assembling the assembly of the second aspect. The method may comprise inserting at least part, e.g. a peripheral or edge part, of the panel into a receiving channel and/or between at least the first and second receiving members of the structural component with the panel being at the first angle or within the first range of angles and then rotating or pivoting the panel such that the panel is at the second angle or within the second range of angles, e.g. so as to hold or secure the panel against movement, e.g. translation, in at least one direction, e.g. a direction away from the structural component.

According to a fifth aspect of the present disclosure is a method of producing the structural component of the first aspect by moulding, casting, additive manufacture, 3D printing, fusion forming, machining such as CNC machining, and/or the like.

According to a sixth aspect of the present disclosure is computer readable instructions configured such that, when processed by a controller of a computer controlled manufacturing apparatus cause the apparatus to form the structural component of the first aspect. The computer controller manufacturing apparatus may be, comprise or be comprised in apparatus for moulding, casting, additive manufacturing, 3D printing, fusion forming, machining such as CNC machining, and/or the like.

It will be appreciated that features analogous to those described in relation to any of the above aspects may be individually and separably or in combination applicable to any of the other aspects.

Apparatus features analogous to, or configured to implement, those described above in relation to a method and method features analogous to the use and fabrication of those described above in relation to an apparatus are also intended to fall within the scope of the present invention.

Description of the Drawings

Embodiments of the present invention will now be described, by way of example only, with reference to the accompanying drawings, which are: Figure 1 a cross section of a structural component of a panel system (e.g. a roof panel system) mounted on a support member in the form of a roof rafter; Figures 2 to 4 a panel assembly (e.g. for a roof) comprising the structural component of Figure 1 and a panel in various stages of assembly; and Figure 5 a flowchart of a method for installing the panel into the structural component of Figure 1.

Detailed Description of the Drawings

Figure 1 shows a structural component 5 for a panel assembly, such as a roof assembly or a glazing assembly, the structural component 5 being configured to hold a corrugated panel 10 of the assembly. The corrugated panel 10 could be a polymeric panel, such as a polycarbonate or PVC panel, or could be a fibre reinforced polymer panel such as a glass fibre reinforced polymer panel or a carbon fibre reinforced polymer panel or a metal panel or a bitumen panel, but is not limited to these. The panel 10 is in the form of a corrugated sheet and generally extends in two dimensions with the corrugations giving some limited height in the third dimension.

The structural component 5 is configured to be mounted on top of a supporting member 15 of a structure, such as a roof, into which the structural component is incorporated. In this example the supporting member 15 is in the form of a rafter 15, the structure is a roof and the panels 10 are panels of the roof. However, the present disclosure is not limited to this and it will be appreciated that the structural component could be used in other structures that require corrugated panels to be supported. The structural component 5 comprises a first elongate base member 20 and a second elongate base member 25 that extends generally perpendicularly to the first base member 20. The first elongate base member 20 is configured to extend down and cover a part of a side face of the rafter 15 in use. The second elongate base member 25 extends along and covers a top surface of the rafter 15 in use. The first and second base members 20, 25 are integrally formed in this example. In this way, the first and second base members 20, 25 maintain the correct shape of the final structure (e.g. of the roof) and provides protection against weather! water ingress. The base members 20, 25 can be shaped such that they rest on the ratter 15 rt. an that the fir:M base member 20 is vertical and prevents The base members 20, 25 when restft:g on the rafter 10 from a:lowing the Flu.s between:he panel 10 and the base members 20 25 to return to an ang:e where' an 10 can be hamod horn the structural component 5 by translaton.

The structural component 5 further comprises a first receiving member 30 that extends upwardly from the top of the first base member 20 and then curves laterally upward towards an apex before curving laterally downward. The structural component 5 also comprises a second receiving member 35 that extends obliquely upwardly and laterally away from an upper surface of the second base member 25. A receiving channel 40 is defined between the first receiving member 30 and the second receiving member 35, the receiving channel 40 being arranged to receive a peripheral portion of the panel 10.

As can be seen from Figures 2 to 4, the first receiving member 30 and the second receiving member 35 are configured and shaped such that when the peripheral edge of the panel 10 is presented to the receiving channel 40 at an oblique angle that is within a first range or angles, then the peripheral edge of the panel 10 can be inserted into the receiving channel 40 using a translational movement, as shown in Figure 2. The panel 10 is then rotated such that an end of the panel 10 furthest from the structural component 5 is rotated upwardly and the peripheral edge of the panel pivoted using a curved rocking motion within the receiving channel 40 as shown in Figure 3 until the panel 10 reaches the configuration shown in Figure 4 in which a top surface of the panel 10 on one lateral side (e.g. a downwardly extending part) of a corrugation abuts the first receiving member 20 whilst the first receiving member 25 abuts a bottom surface of the panel 10 on another lateral side (e.g. an upwardly extending part) of the corrugation. That is, the first and second receiving members 30, 35 respectively abut opposite (top and bottom) sides of the panel 10 and respectively abut different sides of an apex of a corrugation of the panel 10. In this way, the panel 10 is held against lateral translation by a combination of the first and second receiving members 30, 35. As such, the panel 10 can't be slid out from the structural component in the plane of the panel 10 in this configuration. This prevents de-coupling of the panel 10 and the structural component 5 by lateral translation. Instead, the panel 10 must be rocked or rotated out into and out of the structural component 5.

The method of assembling the structure is illustrated in Figure 5. In step 505 the peripheral edge of the panel 10 is inserted into the receiving channel 40 between the first and second receiving members 30, 35 at an oblique angle that falls within the first range of angles. In step 510 the panel 10 is pivoted around in the channel 40 in a curved rocking motion such that the first and second receiving members 20, 25 respectively engage the panel 10 on opposing surfaces of the panel 10 and on different sides of an apex of a corrugation of the panel in order to lock the peripheral edge of the panel 10 against lateral translation and thereby prevent de-coupling of the panel 10 and structural component 5 by translation.

Claims (7)

1. Claims 1. A structural component for a panel system, the structural component being configured to support a corrugated, panel of the panel system, the structural component comprising at least one receiving means for receiving the panel of the panel system the receiving means comprising at least a pair of receiving members for receiving part of the panel therebetween, wherein at least one of the receiving members is curved.
2. 2. The structural component of claim 1, wherein the receiving members comprise at least one first receiving member and at least one second receiving member, wherein the receiving members are configured or shaped such that when the panel is within a first range of angles then the panel is insertable in and/or out from between the first and second receiving members but when the panel is at a second range of angles that is different to the first angle or range of angles then the panel is held or secured against translational movement in at least one direction by the first and second receiving members.
3. 3. The structural component of claim 2, wherein first and second receiving members are configured such that, when the panel is within the second range of angles, the first and second receiving members respectively engage the panel on opposing surfaces of the panel and on different sides of an apex of a corrugation of the panel
4. 4. The structural component of any preceding claim comprising a base section, the base section comprising at least two elongate base members that extend substantially perpendicularly to each other and/or wherein at least one of the base members is configured to engage a different side of a supporting structure upon which the structural component is mountable to that of at least one other base member.
5. 5. An assembly comprising the structural component of any preceding claim and a panel.
6. 6. A roof comprising the assembly of claim 5.
7. 7. A method of assembling the assembly of claim 5, the method comprising inserting at least a peripheral part of the panel between at least the first and second receiving members of the structural component with the panel being within a first range of angles and then rotating or pivoting the panel such that the panel is within a second range of angles such that the panel is held or secured against translational movement in at least one direction.