Decking Clip and Decking Assembly Comprising a Decking Clip

Abstract

A decking assembly comprising a first decking panel (202), a second decking panel (202) adjacent the first decking panel (202), a clip (100) comprising a base (102) and a retaining portion (104), wherein the retaining portion (104) cooperates with the first decking panel to affix the clip thereto, the base projects from the first decking panel to engage the second decking panel and, the base defines a fastener opening for receiving a fastener to secure the first and second decking panels to an underlying substrate.

Claims

1. A decking assembly comprising: a first decking panel; a second decking panel adjacent the first decking panel; a decking clip comprising a base and a retaining portion, wherein: the retaining portion is configured to engage the first decking panel such that the decking clip in retained in engagement with the first decking panel; and, wherein the decking clip defines a fastener opening for receiving a fastener to secure the first and second decking panels to an underlying substrate.

2. A decking assembly according to claim 1, wherein: the decking clip is configured such that when it is retained in engagement with the first decking panel, a clearance gap is provided between the clip and the second decking panel; and the fastener is secured to close the clearance gap and thereby secures the second decking panel to the underlying substrate.

3. (canceled)

4. A decking assembly according to claim 2, wherein the base projects from the first decking panel to engage the second decking panel in use.

5. A decking assembly according to claim 4, wherein the base extends at an angle from the first decking panel to provide the clearance gap between the clip and the second decking panel.

6. A decking assembly according to claim 5, wherein an angle of less than 90 degrees is defined between the retaining portion and the base in an undeformed state of the clip.

7. A decking assembly according to claim 5, wherein the retaining portion is an upright extending from the base, and the upright has a lower thickness than the base.

8. A decking assembly according to claim 1, wherein the retaining portion comprises a curved portion, the curved portion configured to engage with a receiving formation of the first decking panel.

9. A decking assembly according to claim 10, wherein the upright comprises an S-shaped portion proximate the base to facilitate elastic deformation.

10. A decking assembly according to claim 8, wherein the first decking panel comprises a support flange and a pocket above the support flange, and wherein the retaining portion is an upright engaging the pocket when the base contacts the flange.

11. A decking assembly according to claim 9, wherein the clip is configured such that the contact between the upright and the pocket and the contact between the flange and the base is such that a torque is applied to the clip to retain the clip relative to the first decking panel.

12. A decking assembly according to claim 1, wherein the base defines a first foot contacting the first decking panel and a second foot contacting the second decking panel.

13. A decking assembly according to claim 1, wherein the retaining portion comprises a U-shaped portion proximate a free end.

14. A decking assembly according to claim 13, wherein the uppermost tip of the upright is curved.

15. A decking assembly according to claim 14, wherein the uppermost tip of the upright engages the first panel.

16. A decking clip comprising: a base defining an opening for a fastener; and, a retaining portion extending from the base, wherein the retaining portion comprises an elastically deformable coating configured to elastically deform upon assembly with a decking panel to retain the clip.

17. A decking clip according to claim 16, wherein the retaining portion is curved and has a lower thickness than the base such that the retaining portion has a lower stiffness than the base.

18. (canceled)

19. (canceled)

20. (canceled)

21. (canceled)

22. (canceled)

23. A method of installing a decking assembly comprising the steps of: providing a first decking panel; providing a second decking panel; providing a decking clip comprising a base and a retaining portion, the base having an opening for a fastener; affixing the clip to the first decking panel by engaging the retaining portion into the first decking panel to retain the decking clip; positioning a second decking panel adjacent the first decking panel; securing a fastener through the opening and thereby elastically deforming the decking clip to clamp the first and second decking panels to an underlying substrate.

24. A method of installing a decking assembly according to claim 23, wherein the decking clip is configured to be a tight fit in the decking panel to retain the decking clip.

25. A method of installing a decking assembly according to claim 23, wherein the decking clip comprises a coating of a resilient material, which material is compressed upon engagement with the first decking panel.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0048] FIG. 1 is an end view of a first decking clip according to the present invention;

[0049] FIG. 2 is a top view of the clip of FIG. 1;

[0050] FIG. 3 is a side view of the clip of FIG. 1 in a first step of installation into a decking assembly;

[0051] FIG. 4 is a side view of the clip of FIG. 1 in a second step of installation into a decking assembly.

DETAILED DESCRIPTION

[0052] Referring to FIGS. 1 and 2, a decking clip 100 is provided. The clip 100 is a unitary component which in this case is constructed from an extruded aluminium material. The clip 100 is generally prismatic, having a constant cross-sectional profile (except for an opening, which will be described below). For the purposes of this description, the clip 100 has a longitudinal direction X along its prism axis, a transverse, horizontal direction Y and a vertical direction Z.

[0053] The profile of the clip 100 comprises a base 102 and an upright 104.

[0054] The base 102 is generally flat and planar having a first edge 105 and a second edge 106, a first, upper surface 108 and a second, lower surface 110. The base 102 has two feet 112, 114 each running in the longitudinal direction X. The first foot 112 is proximate the first edge 105, and the second foot 114 proximate the second edge 106. The feet therefore define a raised portion 116 therebetween.

[0055] The base 102 defines a fastener opening 118 in the centre thereof, positioned between the feet 112, 114. The opening passes through the thickness of the base 102 and is coincident with the raised portion 116.

[0056] The upright 104 defines a profile having a first, lower end 120 attached to the base 102 on the upper surface 108 of the base. The first end 120 is positioned inboard of the first foot 112 such that it is positioned above the raised portion 116. The upright has and a second, free end 122 distal to the base 102. The upright is of generally constant thickness but has a curved profile as will be described below.

[0057] The profile of the upright 104, starting from the first end 120 has a first curved portion 124 extending towards the first edge 104. The first curved portion 124 is generally S-shaped such that the profile of the upright 104 moves towards and over the first foot 112 where it joins a straight section 126. The straight section 126 extends in the vertical or X direction to a second curved portion 128 which is semi-circular in form. The second curved portion terminates in the second, free end 122 that faces the base 102 and is positioned vertically above the lower end 120 of the upright 104. As such, the upright 104 defines an elongate ‘C’ shape facing from proximate the first edge 104 in the direction of the second edge 106—i.e. in the direction of the opening 118.

[0058] Referring to FIG. 1, the upright 104 is shown as vertical (aligned with the Z axis). The base 102 on the other hand is angled upwards from the Y axis by θ degrees, such that the upright 104 and base 102 form an angle of less than 90 degrees-specifically 90-θ degrees.

[0059] The outer surface of the decking clip is coated in a coating material 103. The coating material (in this case paint) is less stiff than the material from which the clip is constructed. It is elastically deformable, and resiliently compressible.

[0060] Turning to FIG. 3, the clip 100 is shown in a first stage of installation. An extruded aluminium decking panel 202 is prismatic in shape. The cross-sectional profile of the panel 202 is shown partially in FIG. 3. It will be noted that the decking panel 202 is generally symmetrical having a similar profile on the other side in the Y direction. Each panel has a flat, substantially planar deck 204. The deck 204 has a plurality of longitudinally extending grooves 206 defined therein to enhance grip and drainage.

[0061] The panel profile defines a leg 208 extending downwardly from the deck 204. Leg 208 is defined at the edge of the profile. The leg 208 at the free end (opposite the deck 204) defines an inwardly projecting first foot portion 216. The foot portion 216 is a flange extending from the free end of the leg. Extending outwardly from the leg 208 partway up, there is provided a flange 220 forming a shoulder at 90 degrees to the leg, which terminates in a downwardly depending toe portion 224.

[0062] At the edge of the deck profile a downwardly depending end flange 236 is provided. The end flange 236 is aligned with (i.e. vertically above) the toe portion 224. The end flange 236 is spaced apart from the leg 208 to define a pocket 237.

[0063] The clip 100 is assembled with the panel 202 by hooking the curved portion 128 into the pocket 237. The clip 100 is then rotated in a direction D until the first edge 105 abuts the outer side of the leg 208, and the foot 112 abuts the top surface of the flange 220 forming a shoulder. It will be noted that the height of the clip V (FIG. 1) is similar to the vertical distance A between the upper surface of the flange 220 and the upper inner surface of the pocket 237. The coating of the clip 100, needs to be elastically deformed in order to fit it into the deck profile.

[0064] The top of the clip 100 (i.e. the uppermost extend of the upright 104) is positioned horizontally inboard of the first foot 112. This means that the reaction forces F1 (from the pocket, downwardly on the clip) and F2 (from the foot upwardly on the clip) form a torque T in a direction configured to retain the clip 100 in the decking panel. This enables the clip 100 to be held in position as the panel 202 is put into place.

[0065] Referring to FIG. 4, the next step of installation is shown in which a further decking panel 202′, identical to the first is installed adjacent thereto. Whereas the right-hand side of the panel 202 is shown in FIGS. 3 and 4, the mirror-image left-hand side of the panel 202′ is shown in FIG. 4. The panel 202′ is moved towards the panel 202 such that the second edge 106 of the clip base 102 sits above the flange 220′ of the panel 202′, adjacent the leg 208′. It will be noted that because the base 102 is at an angle of 90-θ degrees to the upright, which is held snugly in the pocket 237, the base 102 sits above the flange 220′, not in contact therewith. In other words there is a gap between the flange 220′ and base 102 (or specifically the foot 114). This is beneficial because it allows the decking panel 202′ to be slid into position adjacent the decking panel 202 without the clips hitting the side of the panel 202′.

[0066] Once the panel 202′ is in position—i.e. once the base 102 abuts the leg 208′, a fastener (in this case a screw 300) is passed through the opening 118 of the clip 100 to be engaged with an underlying substrate 302. As the fastener 300 is tightened, the base 102 of the clip 100 is drawn downwards, applying a torque T2, elastically deforming the clip 100 until the foot 114 abuts the flange 220′. The raised portion 116 is also drawn downwards in bending as the fastener 300 is tightened.

[0067] It will be noted that the upright 104 is constructed with a lower thickness than the base 102. This coupled with the fact that the upright 104 is curved in profile enables it to act as a spring to permit rotation of the base 102 relative thereto. By tightening the fastener, the clip 100 is “opened out”, increasing the angle between the base 102 and upright 104 to 90 degrees.

[0068] Once tightened, the fastener 300 is placed in tension due to the elastic deformation of the clip 100. This mitigates loosening and vibration/rattling. Further, both panels 202, 202′ are clamped by the clip 100 thus reducing movement and therefore vibration/rattling.

[0069] It will be noted that multiple clips 100 are provided per panel 202 to secure it to the substrate 302 and adjacent panel 202′. Further such panels may also be assembled in a similar manner to form a decking assembly.

VARIATIONS

[0070] The clip 100 may be constructed from other materials. It may be constructed from other metal materials, such as steel or plastics materials, although it will be noted that plastics may be less desirable in certain applications dues to their reduced fire resistance.

[0071] The clip may be manufactured in a number of ways, including extrusion and moulding.