GB2475270A

GB2475270A - Housing for HVAC apparatus

Info

Publication number: GB2475270A
Application number: GB0919761A
Authority: GB
Inventors: Colin J Biggs
Original assignee: Nuaire Ltd
Current assignee: Nuaire Ltd
Priority date: 2009-11-12
Filing date: 2009-11-12
Publication date: 2011-05-18
Also published as: EP2322868A3; GB0919761D0; EP2322868A2

Abstract

A housing, especially for heating, ventilating and air conditioning (HVAC) apparatus, has a frame to which panels are fixed to define an enclosure. The frame may have a profile so that the transverse edges of a first panel 2 are located outwardly of the inner skin of an adjacent transversely extending panel 3, 4. Also described is a panel formed of inner and outer skins 2a, 2b connected by a bridge, in which is located a moveable securing element 12 to connect the panel to a frame. A connection system is disclosed that includes housing components with angled edge surfaces which when presented together define an angled recess, a connection element is positioned in the angled recess and secured to each of the housing components (Figs 6-8). Some frame members may include a slot and recess to receive the edges of a sheet that forms the top cover of the housing, which is preferably held in a bowed configuration (Figs 9, 10).

Description

Housing for HVAC Apparatus.

The present invention relates to an improved housing for use in HVAC applications.

HVAC apparatus such as combined units for air extraction and conditioned ventilation frequently include multiple devices including fans, heat exchangers (for example for heat recovery), controllable baffles and the like. Such units are typically supplied for installation in walled enclosures or housings. An exemplary housing may comprise double skinned metal sheet panels mounted to a box frame. The panels may be acoustically and/or thermally insulated and typically one or more of the panel will be demountable to provide access for inspection and/or maintenance. The housing may be roof mounted or suspended in the space above a suspended ceiling in a building.

A schematic view of an exemplary prior art housing structure is shown in figure 1. The structure has a metallic frame fabricated from box section frames or posts 101 to which are welded L shaped brackets 102 having flanges 102a 102b. A double skin panel 103 is mounted to the frame as shown in figure 1 resting against the surface of the corner posts 101 and the flanges 102b. The other sides of the housing can be built up in the same way.

The panels 103 can be secured to the box section frames or posts by means of rivets or screws, for example where a panel is required to be removable or demountable.

As shown in figure 1, due to the presence of the flange brackets 102, the access space (Xiimi in figure 1) is restricted to significantly less that the overall depth of the housing unit.

An improved arrangement has now been devised.

According to a first aspect, the present invention provides a housing for HVAC apparatus, the housing comprising a frame to which panels are arranged to be fixed to define an enclosure, the frame comprising a panel receiving frame profile arranged to accommodate an edge of a first one of the panels, the panel receiving frame profile defining a seat for the panel edge, to locate against transverse surfaces of the panel, such that the panel is seated with its seated edge at a position outwardly of the inner skin of an adjacent transversely extending panel connected to the frame.

This provides a benefit that the access space dimension, when the panel is removed, is maximised for a given height/depth of housing.

It is preferred that the seat is provided with a sealing formation enabling a seal to be formed against an internal facing skin of the panel. The sealing formation may comprise a rib upon which an elastomeric sealing strip can be mounted.

Beneficially, the panel receiving frame profile defining the seat includes a securing formation arranged to interact with a securing formation on the panel to secure the panel in position.

In one embodiment, it is preferred that the securing formation on the frame profile is provided to connect with the panel at a position intermediate the position of the inner and outer skin of the panel, preferably adjacent a bridge portion of the panel which connects the inner and outer skins of the panel.

In one embodiment, it is preferred that the securing formation comprises a securing recess which is obscured by the panel when in position.

In one embodiment, it is preferred that the securing formation comprises an elongate longitudinally running slot formed integrally with the frame profile on an internal surface of the frame profile.

The frame profile may be of extruded metallic construction in which case the securing formation is beneficially extruded integrally with the frame profile.

In a preferred embodiment, the frame profile has a further seat for the adjacent transversely extending panel. It is preferred that the further seat supports the lower skin of the adjacent transversely extending panel at a level spaced inwardly of the said edge of the first one of the panels.

It follows that the seats for the adjacent transversely extending panels are preferably provided on the same frame member. In one embodiment the seats are separated by a structural spacer section of the profile frame member. This may be a closed frame cell portion to increase the structural strength of the frame.

According to a further aspect, the present invention provides a panel comprising an outer skin and an inner skin and a bridge connecting the outer and inner skins; the panel further comprising a securing arrangement mounted to the panel for securing the panel to a frame, the securing arrangement comprising a securing element movable from a stowed position to a deployed position projecting outwardly of the bridge.

The securing element is preferably stowed in the interior of the panel in the stowed position and extends to project through the bridge when in the deployed position.

In one embodiment it is preferred that the securing member is actuatable to move pivotally or rotatably. This may be achieved by means of the securing element being mounted on a rotatable spindle in the interior of the panel.

In an alternative aspect, the invention provides a housing for HVAC apparatus, the housing comprising: a panel comprising an outer skin and an inner skin and a bridge connecting the outer and inner skins; the panel further comprising a securing arrangement mounted to the panel for securing the panel to a frame, the securing arrangement comprising a securing element movable from a stowed position to a deployed position projecting outwardly of the bridge, and; a frame to which panels are arranged to be fixed to define an enclosure, the frame comprising a panel receiving frame profile arranged to accommodate an edge of a said panel, the panel receiving frame profile defining a seat for the panel edge and including a securing formation arranged to receive the securing element on the panel to secure the panel in position.

According to a further aspect, the invention provides a connection system for HVAC housing components, the system comprising housing components having angled corner surfaces to together define an angled recess when the components are presented for connection, and a connection element to be positioned in the angled recess and comprising first and second limbs extending in opposed directions from an apex portion of the connection element, the first and second limbs being configured to each lie adjacent with a respective one of the angled corner surfaces of the housing components and being provided with a securing formation enabling securing to the respective housing component.

Connection using the connection element positioned in the angled recess provides that the connection does not result in connection components standing proud of the housing profile, but rather the fixings are tucked away in a recess. This makes the connection bracket less obtrusive and cumbersome.

It is preferred that the connection element is provided with a fixing, such as a through bore or slot for receiving a suspension rod or other suspension means such a suspension cable.

In one preferred embodiment a through bore is provided at the apex portion of the connection element for receiving the suspension rod or other suspension means.

In a preferred embodiment the connection element includes a spacer projection extending into a gap between the connected components. The spacer projection may extend from the apex portion. The spacer portion can be dimensioned accurately to maintain a required spacing distance between the connected components. For example, the spacer may maintain the distance for correct compression of a seal between the components.

It is preferred that the securing formations on the limbs comprise means for accommodating mechanical fixings. For example bolt holes may be provided on the limbs for accommodating connection bolts. Beneficially, the mechanical fixings (such as bolts) are accommodated so as not to project outwardly out of the recess.

According to a further aspect, the invention provides a housing for HVAC apparatus, the housing comprising a frame and panel arrangement to define an enclosure, the frame arrangement of the housing comprising first and second longitudinally running frame members, spaced from one another at opposed sides at the top of the housing, the respective frame members including a respective longitudinally running slot communicating with a respective recess spaced outwardly of the slot, the slot and recess together receiving a respective edge of a sheet as a top cover for the housing.

Typically, the top cover sheet is retained in a bowed configuration. Preferably, the top cover sheet is retained in the slot and recess in a resiliently defonned condition such that the top cover sheet springs outwardly to be held in engagement within the slots and recesses in the frame members.

The invention will now be further described in specific embodiments, by way of example only and with reference to the accompanying drawings, in which; Figure 1 is a schematic explanatory view of a prior art panel and frame housing arrangement for use in HVAC applications; Figure 2 is a schematic exemplary view of a housing in accordance with the invention; Figure 3 is a detailed view of a part of the structure of figure 2; Figure 4 is a detailed view of a part of the structure of figures 2 and 3; Figure 5 is a schematic exemplary view of a variant on the housing of figures 2 to 4; Figure 6 is a sectional view of a connection system for housing components in accordance with the invention; Figures 7 and 8 are perspective views of the connection system of figure 6; Figure 9 is a schematic view of a housing fitting permitting connection of a top cover in accordance with the invention; and Figure 10 is a perspective view of a housing having a top cover fitted in accordance with the invention.

Referring initially to figures 2, 3 and 4, there is shown a housing 1 constructed to enclose HVAC apparatus. The apparatus contained within the housing 1 may, for example, include multiple devices including fans, heat exchangers (for example for heat recovery), controllable baffles and the like. The housing may be roof mounted or suspended in the space above a suspended ceiling in a building.

The housing 1 is shown in schematic side view in figure 2, the view is of part of a top panel 3, part of a bottom panel 4 and a side panel 2 mounted to a respective upper or lower support frame member 5, 6 which is of extruded aluminium zinc alloy. The upper support frame member 5 comprises three sections, a side panel seat portion 5a, a top panel seat portion 5b and an interconnecting closed cell section 5c between the sections 5a and Sb.

The lower support frame member 6 comprises three sections, a side panel seat portion 6a, a bottom panel seat portion 6b and an interconnecting closed cell section 6c between the sections 6a and 6b.

For the upper and lower support frame members the sections 5b, 5c and 6b 6c are generally similar. The top panel seat portion Sb comprises a flange upon which the top panel rests and may be secured y means of mechanical fixings or adhesives. Similarly, the lower panel seat portion 6b comprises a flange to which the lower panel is secured by means of a bolt 7 and L shaped bracket 8, which has a transverse limb received in a slot 6d of the lower frame member.

For the lower frame member 6, the side panel seat portion 6a for seating the lower edge of the side panel 2 comprises a channel section having an outer lip 6e extending upwardly which retains the lower edge of the side panel 2. The frame member 6 includes a projecting rib 6f which retains a compressible elastomeric seal 10 for sealing against the inner skin of the side panel 2. The closed cell section 6c acts as a spacer and provides rigidity to the frame structure. It is important to note that, when received in the lower frame member 6, the lower edge of the side panel 2 is positioned below the level of the inner skin of the adjacent bottom panel 4. Also, the lower frame member 6 does not have any part that projects significantly above the level of the inner skin 4a of the adjacent bottom panel 4.

This means that when the side panel 2 is removed from the frame, maximum access clearance is available through the space between the upper and lower frame members 5, 6.

In respect of the upper frame member 5, the side panel seat portion 5a for seating the upper edge of the side panel 2 comprises an outer in-turned lip 5e extending inwardly from an outer marginal web 5h. The upper edge of the panel 2 abuts against the lip 5e. When seated in position, the upper edge of the panel 2 is retained by the upper frame member 5 as a result of engagement of a securing element 12 in a receiving slot 5j. The receiving slot 5a runs along the length of the frame member 5 and is formed integrally during the extrusion procedure. The slot is positioned at a position intermediately between 9and above) the inner and outer skin of the side panel.

The locking element is retained in a stowed position substantially entirely within the interior of the panel 2 and, when the panel is correctly positioned with respect to the frame memberS, can be deployed to project upwardly through an aperture in the upper bridge surface 2c of the panel connecting the inner and outer skins 2a 2b, in order to engage within the longitudinally running retaining slot 5j. The retaining element is rotatably mounted on a mounting spindle 13. A rotatable drive shaft 14 connects with the securing element 12. A drive head 15 connects with the drive shaft 14 and is mounted to the outer skin 2b of the side panel. Using a screwdriver or other tool to rotate the head 15 causes the drive shaft 14 and hence the securing element to be rotatably moved between the stowed and deployed positions. A number of actuatable securing elements may be provided at different points along the length of the side panel 2 (i.e. into the plane of the paper in the figure). Also the retaining slot can be incorporated to accommodate foxing of top and bottom panels if required, as can be seen at 5k 6k.

The frame member 5 includes a projecting rib 5f which retains a compressible elastomeric seal 10 for sealing against the inner skin of the side panel 2. The closed cell section Sc acts as a spacer and provides rigidity to the frame structure. It is important to note that, when received in the upper frame member 5, the upper edge 2c of the side panel 2 is positioned above the level of the inner skin 3a of the adjacent, transversely extending, top panel 3.

Also, the upper frame member 5 does not have any part that projects significantly below the level of the inner skin 3a of the adjacent top panel 3. This means that when the side panel 2 is removed from the frame, maximum access clearance is available through the space between the upper and lower frame members 5, 6. This enables relatively larger components to be accommodated and serviced in the interior housing than is possible with comparable prior art constructions such as that shown in figure 1.

As shown in figure 5, the design is particularly versatile, enabling additional panels 502, 503, 505 to be acconmiodated to provide enhanced acoustic and/or thermal insulation.

As shown in figures 6 7 and 8, housing units (such as housed components to be mounted in-line) can be connected using a novel connection system. Figure 6 shows a first housing 601 to be connected to a second housing 701. The first housing includes a panel 602 mounted between extruded frame members 620, 621. The second housing 701 has a panel 702 mounted between frame members (only frame member 721 is shown). The connection system of the invention provides for improved connection between housing components, particularly frame members such as adjacent or abutting frame members 620, 721. The adjacent or abutting frame members 620, 721 are provided with angled edge surfaces 620a 721 a, that together define an angled recess 725 when the components are set up for connection. The connection system further includes a connection bracket 750 which has limbs 750a 750b extending in V shaped configuration in opposed directions from an apex portion 750c of the connection bracket. The angle between the limbs750a 750b is matched to the angle at which the angled edge surfaces 620a 721a of the frame members are set.

The bracket 750 is provided with a spacer rib 750d which extends from the apex of the bracket 750 between the frame members 620 721. The spacer rib 750d can be dimensioned accurately to maintain a required spacing distance between the connected components. For example, the spacer may maintain the distance for correct compression of a seal that may be provided between the components.

The limbs 750a, 750b are arranged to be secured to the respective angled edge surfaces 620a 721 a, that together define an angled recess 725 when the components are set up for connection. To this end the limbs and the angled edge surfaces 620a 721 a are provided with holes for accommodating mechanical fixings such as the bolts 761. The connection system of the invention provides that the mechanical fixings (such as bolts) can be conveniently accommodated so as not to project outwardly out of the angled recess 725 defined by the angled edge surfaces 620a 721 a. Connection using the connection bracket positioned in the angled recess provides that the connection does not result in connection components standing proud of the housing profile, but rather the fixings are tucked away in a recess. This makes the connection bracket less obtrusive and cumbersome.

The bracket is provided with a through bore 750e at the apex portion for receiving a suspension rod 771 or other suspension means such a suspension cable. This enables the assembly to be suspended from a supporting structure.

Referring now to figures 9 and 10, it can be seen that the housing 801 is provided with a top cover or roof 855. The top cover 855 is formed from a sheet of aluminium zinc alloy.

The frame of the housing 801 has at each longitudinally running upper edge, a frame member 860 shown in perspective section in figure 9. Only a fragment of the frame member 860 is shown for ease of explanation. The frame members 860, running along both opposed longitudinal edges of the housing 801 are used to releasably retain the top sheet 855 in bowed flexed configuration without the necessity of other mechanical fixings.

The frame members 860 have a respective longitudinally running slot 865 between a pair of guide tongues 866 867. The slot 865 communicates with a recess 868 positioned peripherally outwardly of the slot 865 and below the tongue 866. In use the longitudinally running edge of the top cover sheet 855 is inserted into the slot 865 and anchors in the recess 868. The tongue 866 overlays the peripheral edge of the top cover sheet 855. The tongue 867 lies under the top cover sheet 855. Typically, the top cover sheet 855 is retained in a bowed configuration. Preferably, the top cover sheet is retained in the slot and recess in a resiliently defonned condition such that the top cover sheet springs outwardly to be held in engagement within the slots and recesses in the frame members 860. The bowed configuration provides that that rainwater and condensation will run off the top cover sheet 855. Water leaking into the frame member can be channelled away along channels or grooves 870 provided in the extruded profile of the frame member 860.

Claims

Claims: 1. A housing for HVAC apparatus, the housing comprising a frame to which panels are arranged to be fixed to define an enclosure, the frame comprising a panel receiving frame profile arranged to accommodate an edge of a first one of the panels, the panel receiving frame profile defining a seat for the panel edge, to locate against transverse surfaces of the panel, such that the panel is seated with its seated edge at a position outwardly of the inner skin of an adjacent transversely extending panel connected to the frame.
2. A housing according to claim 1, wherein the seat is provided with a sealing formation enabling a seal to be formed against an internal facing skin of the panel.
3. A housing according to claim 1 or claim 2, wherein the panel receiving frame profile defining the seat includes a securing formation arranged to interact with a securing formation on the panel to secure the panel in position.
4. A housing according to claim 3, wherein the securing formation is provided to connect with the panel at a position intermediate the position of the inner and outer skin of the panel.
5. A housing according to claim 3 or claim 4, wherein the securing formation comprises: a securing recess which is obscured by the panel when in position; and/or an elongate longitudinally running slot formed integrally with the frame profile on an internal surface of the frame profile
6. A housing according to any preceding claim, wherein the frame has a further seat for the adjacent transversely extending panel.
7. A housing according to claim 6, wherein the further seat supports the lower skin of the adjacent transversely extending panel at a level spaced inwardly of the said edge of the first one of the panels
8. A housing according to claim 6 or claim 7, wherein the seats for the adjacent transversely extending panels are provided on the same frame member.
9. A housing according to claim 8, wherein the seats are separated by a structural spacer section of the profile frame member.
10. A panel comprising an outer skin and an inner skin and a bridge connecting the outer and inner skins; the panel comprising a securing arrangement for securing the panel to a frame, the securing arrangement comprising a securing element movable from a stowed position to a deployed position projecting outwardly of the bridge.
11. A panel according to claim 10, wherein the securing element is stowed in the interior of the panel in the stowed position and extends to project through the bridge when in the deployed position.
12. A panel according to claim 10 or claim 11, wherein the securing member is actuatable to move pivotally or rotatably.
13. A panel according to claim 12, wherein the securing element is mounted on a rotatable spindle in the interior of the panel.
14. A housing for HVAC apparatus, the housing comprising: one or more panels according to any of claims 10 to 13, and; a frame to which panels are arranged to be fixed to define an enclosure, the frame comprising a panel receiving frame profile arranged to accommodate an edge of a said panel, the panel receiving frame profile defining a seat for the panel edge and including a securing formation arranged to receive the securing element on the panel to secure the panel in position.
15. A connection system for HVAC housing components, the system comprising housing components having angled edge surfaces that together define an angled recess when the components are presented for connection, and a connection element to be positioned in the angled recess and comprising first and second limbs extending in opposed directions from an apex portion of the connection element, the first and second limbs being configured to each lie adjacent with a respective one of the angled corner surfaces of the housing components and being provided with a securing formation enabling securing to the respective housing component.
16. A connection system according to claim 15, wherein the connection element is provided with a through bore for receiving a suspension rod.
17. A connection system according to claim 16, wherein the through bore is provided at the apex portion of the connection element.
18. A connection system according to any of claims 15 to 17, wherein the connection element includes a spacer projection extending into a gap between the connected components.
19. A connection system according to claim 18, wherein the spacer projection extends from the apex portion.
20. A connection system according to any of claims 15 to 19, wherein the securing formations on the limbs comprise means for accommodating mechanical fixings. -14.-21. A connection system according to claim 20, wherein the mechanical fixings are accommodated so as not to project outwardly out of the recess.22. A housing for HVAC apparatus, the housing comprising a frame and panel arrangement to define an enclosure, the frame arrangement of the housing comprising first and second longitudinally running frame members, spaced from one another at opposed sides at the top of the housing, the respective frame members including a respective longitudinally running slot communicating with a respective recess spaced outwardly of the slot, the slot and recess together receiving a respective edge of a sheet as a top cover for the housing.23. A housing according to claim 22 wherein the top cover sheet is retained in a bowed configuration.24. A housing according to claim 22 or 23, wherein the top cover sheet is retained in the slot and recess in a resiliently deformed condition such that the top cover sheet springs outwardly to be held in engagement within the slots and recesses in the frame members.