The present invention concerns a cover channel, a cover frame comprising such a cover channel, an insulating panel comprising such a cover frame and an air handling unit comprising such an insulating panel, and a method for manufacturing such a cover channel.
It is known to implement air handling units on buildings, especially office buildings or supermarkets, for treating the air contained inside the building. Such handling units usually have inlet and outlet openings, for the air to be circulated through the unit, and a plurality of components, each relative to a function for treating the air, such as circulating, filtering, depolluting, humidifying, drying, heating, cooling, or the like. These components are enclosed inside a structural frame, supporting a housing made of flat insulating panels, forming a protective thermal barrier of the air handling unit. Each panel comprises an insulating core material, for example a glass-wool, interposed between two metallic walls. At least some of the panels of the unit are removable, or provided with handles, hinges or the like, so that they may be removed or opened for maintenance of the internal components contained within the unit. Usually, the panels are secured to the frame and/or to each other by means of fasteners such as screws, rivets or the like.
WO-A1-01/50068 discloses a one-piece extruded plastic channel configured to support two planar panels having a predetermined thickness in parallel spaced relationship, by receiving free edges of the panels therein. The channel includes an elongated body of U-shaped section, which includes a flat intermediate section and a pair of rigid outer walls, one of which extends from each of the lateral edges of the intermediate section. The U-shaped body further includes a pair of flexible inner walls, each of which extends from a junction with the intermediate section at a position adjacent to and spaced laterally inwardly from one of the outer walls. The channel is configured to be mounted on both planar panels, by insertion of the respective edges of the panels in between adjacent inner and outer walls.
However the known handling units are frequently subject to leakage of air, heat and humidity, especially at the outline of the panels or the inlet and outlet openings, despite the presence of plastic channels. In some cases leaking fluid may reach and harm the insulating core of the panels.
The aim of the invention is to provide a cover channel which may efficiently prevent fluid leakage at an edge of an insulating panel while being especially easy to mount onto said insulating panel.
To this end, the invention concerns a cover channel according to claim 1.
Thanks to the invention, the sealing gasket is brought in tight contact with at least one of the rim portions when the cover channel is mounted onto the edge, so that fluid leakage is prevented at the edge of the insulating panel, while the cover channel is easy to mount thereto.
Further optional and advantageous aspects of the invention are defined in claims 2 to 6.
The invention further relates to a cover frame according to claim 7.
Further optional and advantageous aspects of the invention are defined in claims 8 to 11.
The invention further relates to an insulating panel, according to claim 12, to an air handling unit, according to claim 13, and to a method for manufacturing according to claim 14.
The invention will now be explained in reference to the annexed drawings, as an illustrative example. In the annexed drawings:
The air handling unit 1 comprises two levels, namely a first level 5 and a second level 7 superposed over said first level 5. Level 7 is delimited at its ends by panels 4A and 4B, laterally by successive panels not shown in
The air handling unit 1 includes several components, some of which are illustrated in
The second air flow A2 is admitted through inlet panel 4B, and passes through the fan motor assembly 11, then the exchanger 13, where thermal energy is exchanged between the flows A1 and A2. The flow A2 is then directed to level 5 and exits the air handling unit 1 through outlet panel 4D. The inlet panel 4B is advantageously connected to an air duct of the building.
The air handling unit 1 is also provided with air filters 17 and 19 enclosed in the housing at the vicinity of inlet panels 4A and 4B.
As it is illustrated in
The panels 4E and 4F, as well as the lateral panels, are closed, while panels 4A, 4B, 4C and 4D are each provided with an opening 27, as illustrated for panel 4A in
The opening 27 is provided with a cover frame 39 covering the edge 29 of the opening 27. The cover frame 39 comprises four cover channels 41, each covering one of the longitudinal portions 37 of the edge 29.
The cover channel 41 comprises an elongated body 43, visible in particular on
The elongated body 43 of the cover channel 41 comprises a cover portion 45 forming a substantially flat board for covering the open edge 29 and avoiding the insulating material 25 to flee through the longitudinal portions 37. The cover portion 45 extends in a plane perpendicular to the walls 21 and 23 when the cover channel 41 is mounted onto the longitudinal portion 37. The cover portion 45 is provided with reinforcing ribs 47 extending along the elongated body 43, and protruding towards the insulating material 25 when the cover channel 41 is mounted onto the edge 29. A face 49 of the cover portion 45 opposite to the reinforcing ribs 47 is preferably substantially flat.
The elongated body 43 further comprises two outer portions 51, protruding respectively from lateral edges of the cover portion 45, in a substantially perpendicular direction relative to the cover portion 45, in the same direction than the ribs 47. Thus, the cross-section of the elongated body 43 is U-shaped. The outer portions 51 form two lateral wings of the elongated body 43 configured to recover the rim portions 31 and 33 when the cover channel 41 is mounted onto the edge 29. Thus, the edge 29 is continuously recovered by the elongated body 43, from the rim portion 31 to the rim portion 33.
The elongated body 43 also comprises two clamping portions 53, each protruding from the cover portion alongside one of the outer portions 51. The clamping portions 53 are arranged between the outer portions 51 for covering inside faces of the rim portions 31 and 33, respectively. The clamping portions 53 form two longitudinal wings extending substantially parallel to the outer portions 51 and perpendicular to the cover portion 45. Each of the clamping portions 53 defines a clamping gap 55 with its adjacent outer portion 51. The two clamping gaps 55 each form a rail extending longitudinally and shaped to accommodate respective rim portions 31 and 33, all along one longitudinal portion 37 of the edge 29. Each of the clamping gaps 55 is sufficiently narrow so that each of the rim portions 31 and 33 is slightly squeezed between adjacent clamping portion 53 and outer portion 51, by slight elastic deformation of the material of the elongated body 43. Thus, the cover channel 41 is retained onto the edge 29.
The elongated body 43 comprises retaining ribs 57 and 58 protruding within the clamping gaps 55 for better retaining. In this example, as visible on
For an easier clamping of the cover channel 41 onto the longitudinal portion 37 of the edge 29, the clamping portions 53 comprise an intermediate part 59 parallel to the adjacent outer portion 51 and an end part 61 of narrower thickness than the intermediate part 59. The end part 61 extends from the intermediate part 59 and is inclined away from the adjacent outer portion 51. In other words, each clamping gap 55 is sufficiently narrow at the base for an appropriate clamping of the rim portions 31 and 33, and slightly flaring at the open end, as depicted on
The cover channel 41 further comprises two sealing gaskets 63 provided along the elongated body 43, at the base of the clamping gaps 55. Each sealing gasket 63 rests against the cover portion 45, between adjacent outer portion 51 and clamping portion 53. Each sealing gasket 63 is provided with a longitudinal V-shaped groove 65 extending along the elongated body 43. Each of the grooves 65 is open towards the opening of the clamping gap 65 within which said groove 65 is provided, in the direction opposite to the cover portion 45. Each of the grooves 65 is configured to receive one of the rim portion 31 and 33 so that, when the cover channel 41 is clamped onto the edge 29, the sealing gaskets 63 are compressed between the rim portions 31 and 33 and the cover portion 45, thus ensuring tightness and protection of the inside of the concerned panel 4A, 4B, 4C or 4D.
The sealing gaskets 63 are made of a flexible material, such as an elastomer or any other suitable material, which can be extruded. Preferably, the elongated body 43 and the sealing gaskets 63 are coextruded together, so that the cover channel 41 is easy to manufacture.
The cover frame 39 further comprises four cover corners 67, configured to be mounted onto the edge corners 35 of the opening 27, at the ends 44 of the cover channels 41, as visible on
The cover corner 67 comprises a central corner part 69, provided with two opposite overlaying portions 71 extending along planes angled with an angle β. Each of the overlaying portions 71 is configured for partially overlaying one cover portion 45 of a respective cover channel 41. As visible on
The cover corner 67 further has an anchor 73, protruding from a ridge 75 formed at the intersection of the overlaying portions 71, opposite the angle β. The anchor 73 is provided with two groups of successive fins 77, for example three successive fins 77, directed perpendicular to the ridge 75, the fins 77 of the two groups being oriented away from each other. The cover corner 67 may be mounted onto the end 44 by anchoring the fins 77 of the anchor 73 to the ends 44, the anchor being caught between the ends 44 of two adjacent cover channels 41.
As depicted on
The cover corner 67 is also provided with two planar cover wings 79, substantially parallel to each other when the cover corner 67 is not deformed. Each of the cover wings 79 protrudes from one edge of the corner part 69 in a similar direction, opposite the angle β. Thus, the anchor 73 is formed between the cover wings 79. As depicted on
Each of the cover wings 79 comprises a hook 85, or any other suitable fastening means, for being secured to one of the outer walls. Each hook 85 protrudes from the central corner part 83 of the concerned cover wing 79, in a direction oriented inwardly. The hooks 85 are adapted for being anchored to corresponding holes, not visible on the figures, of the outer wall 21 and 23.
Optionally, a through hole 80 is provided in each cover wing 79, for centering and/or mounting a component onto the opening 27, such as a damper, not illustrated.
The cover corner 67 being elastically deformable, the cover wings 79 can be elastically deformed away from each other for allowing positioning of the cover corner 67 onto the ends 44. Once the anchor 73 is forcibly inserted and retained between the ends 44 of the two adjacent cover channels 41, the cover wings 79 may be folded back onto the respective outer walls 21 and 23, and the hooks 85 secured thereto. The hooks are preferably configured to ensure tight contact of the cover wings 79 onto said outer walls 21 and 23 and onto the outer portions 51 of the adjacent cover channels 41.
Thus, the cover frame 39 constitutes tight protection means of the edge 29 of the opening 27.
In a non-illustrated alternative, the cover channels 41 may be secured to a peripheral or lateral edge of any insulating panel similar to the panels 4A to 4F disclosed hereinabove.
The aforementioned embodiments and features of the invention may be combined for generating further embodiments of the invention.
Filing Document | Filing Date | Country | Kind |
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PCT/IB2016/000370 | 3/3/2016 | WO | 00 |
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WO2017/149342 | 9/8/2017 | WO | A |
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