US20060213498A1

US20060213498A1 - Ventilation duct

Info

Publication number: US20060213498A1
Application number: US10/553,218
Authority: US
Inventors: Ian Sellwood
Original assignee: Verplas Ltd
Current assignee: Verplas Ltd
Priority date: 2003-04-16
Filing date: 2004-04-08
Publication date: 2006-09-28
Also published as: CA2522160A1; GB2400639B; EP1613900A1; KR20060008883A; GB2400639A; WO2004094922A1; CN1774603A; JP2006523818A; GB0308825D0

Abstract

A seamless ventilation duct (1) is disclosed. The duct (1) includes integrally formed hinge means (6) that enables the duct (1) to be collapsed for transportation and/or storage prior to use.

Description

The present invention relates to a ventilation duct or tube primarily used in buildings to convey hot or cold air for heating and cooling purposes respectively, and in other circumstances where a circulation of air or fluids is requited.
Conventional ducting of tubing is usually assembled prior to delivery to the installation site so that it can be installed quickly without any further assembly. However, this means that the ducting is cumbersome and bulky and so is difficult to transport easily. This results in an increase in costs.
Ventilation ducts are known which are delivered to the installation site as individual panels which are then assembled prior to installation. However, assembly is time consuming and often requires welding equipment or the ducting includes other components to enable the panels to be connected together. Again, the need for additional components increases manufacturing costs.
It is an object of the present invention to overcome or substantially alleviate the disadvantages with conventional ducting and provide a ventilation duct that has the desirable aspects of being easily manufactured, stored, transported and erected for installation.
According to the invention, there is provided a seamless ventilation duct including integrally formed hinge means to enable the duct to be collapsed for transportation and/or storage.
In a preferred embodiment, the duct comprises a plurality of elongate panels, each panel being joined to an adjacent panel by the integrally formed hinge means to enable relative movement between said panels.
Preferably, the hinge means comprises an elongate channel in the duct between each panel so that the duct folds in the region of the channel to enable relative movement between the panels.
Each panel is preferably disposed substantially at right angles to two adjacent panels when the duct is erected.
In a preferred embodiment, each panel is rigid or semi-rigid and forms one side-wall of the duct.
When the duct is collapsed, each side-wall conveniently lies substantially in contact with another side-wall.
The side-walls preferably define a parallelogram in cross-section. However, it is envisaged that their may be more than four side-walls in which case the side-walls together define a multi-sided profile in cross-section.
The duct is advantageously made from plastics material such as polypropylene or PVC. However, it may also be made from any thermoplastic or thermoplastic elastomer with appropriate physical properties to produce an effective hinge mechanism. The duct is preferably extruded. However, it is envisaged that other methods of manufacture such as injection moulding or blow moulding could be employed.
The present invention also provides a method of manufacturing a seamless extruded ventilation duct including integrally formed hinge means comprising the steps of extruding or moulding the duct, allowing the duct to cool and folding the duct about the hinge means to collapse it for transportation or storage.
The duct may be extruded or moulded in an erect or partially erect condition. However, it may alternatively be extruded in a flat condition and subsequently erected for installation.
An embodiment of the invention will now be described, by way of example only, and with reference to the accompanying drawings, in which:
FIG. 1 illustrates an end view or cross-sectional view of a ventilation duct shown in a fully erect state, according to the invention;
FIG. 2 illustrates an enlarged partial view of part of the ventilation duct shown in FIG. 1;
FIG. 3 illustrates an end view or cross-sectional view of the ventilation duct shown in FIG. 1, but in a fully collapsed state, and
FIG. 4 illustrates an enlarged partial view of part of the ventilation duct shown in FIG. 3.
Referring now to the drawings, there is shown in FIG. 1 an end view or cross-sectional view of a rectangular ventilation duct or tube 1 according to the invention comprising parallel first and second major walls 2,3 spaced from each other by first and second minor walls 4,5, the walls 2,3,4,5 together forming an hollow elongate duct space 7. The duct 1 is seamless and is integrally formed by extrusion in one tubular piece. The longitudinal edge of each wall is connected to an adjacent wall by hinge means 6 formed from elongate channels cut into the duct 1. As can be seen more clearly from FIG. 2, each channel 6 comprises a region in the duct 1 having a reduced wall thickness which makes the duct more flexible in that region. The flat planar surfaces of the walls 2,3,4,5 themselves have a greater thickness and so are rigid or semi-rigid so do not flex so readily. Although the illustrated embodiment shows a duct 1 having a generally rectangular cross-section, it may also be square in cross-section in which case each wall 2,3,4,5 has the same width.
The duct 1 formed by the walls 2,3,4,5 and the hinge means 6 is extruded as a tube in one-piece and, preferably, in the form in which it is shown in FIG. 1 namely, in its fully erect state and in which the major walls 2,3 and minor walls 4,5 are at right angles to each other. However, it could also be extruded in a partially collapsed state.
Referring to FIG. 3, the duct 1 is illustrated in a completely collapsed or folded-flat condition in which the major wall 2 and minor wall 4 overlap major wall 3 and minor wall 5. Collapse of the duct 1 is achieved by applying a shear force to the duct in the direction of arrow “X” or “Y” in FIG. 1 sufficient to cause the duct to fold or crease about the hinges 6. The duct 1 shown in FIG. 3 has been collapsed by applying a force in the direction of arrow “Y”.
FIG. 4 illustrates an enlarged view of the region of the hinge 6 between major wall 2 and minor wall 4 and between minor wall 4 and major wall 3. As can be seen, the angle between these two walls 3,4 has been reduced substantially to zero so that the faces of these walls 3,4 now lie in contact. The channel forming the hinge 6 now assumes a generally hemispherical opening when the duct 1 is in the folded state.
As can be seen most clearly in FIG. 2, the channel has a bottom wall 8 and two side walls 9. The bottom wall 8 may define an arcuate surface and the side walls may extend from the bottom wall 8 at an angle of 90 degrees or some other angle. A smooth radius may connect the bottom wall 8 to each side wall 9 and each side wall 9 to the face of the wall in which the channel is formed.
It will be appreciated that when the duct 1 has been extruded, it can be folded from its erect state shown in FIG. 1 into its folded state shown in FIG. 3 due to the flexibility of the duct 1 in the region of the channels to substantially reduce its size and substantially simplify storage and transportation.
It will be appreciated that the duct 1 will usually only need to be folded flat once i.e. immediately following manufacture and erected once for installation. Once installation is complete, there is generally no requirement to ever fold the duct again. Therefore, the material of the duct 1 and in particular the thin-walled section of the duct 1 in the region of the channel only needs to be capable of being flexed two, or possibly a few times, without breaking in order for the duct 1 to be collapsed and erected for installation. Preferably, the material will maintain a degree of stiffness despite being flexed so that the duct 1 can be released in its erect state without collapsing under its own weight.
In a preferred embodiment, the duct 1 is made from plastics material which can be extruded easily. Preferred materials are polypropylene or PVC or any other thermoplastic or thermoplastic elastomer with appropriate physical properties to produce an effective hinge mechanism.
Although in one embodiment, the hinge means 6 and the walls 2,3,4,5 are all extruded from the same material, it is also envisaged that the hinge means 6 could be formed from a dissimilar material to the walls 2,3,4,5. For the avoidance of doubt, the walls 2,3,4,5 and the hinge means 6 are still extruded together and so the duct remains seamless even when the hinge means 6 are formed from a different material. This can be achieved using a dual hardness extrusion process.
It can be seen that the present invention provides a ventilation duct that can be manufactured, collapsed and erected easily. As the duct is entirely formed from one component or piece, there are no additional components and no tools required to assemble it. Therefore, the duct is cheaper to make and easier to assemble. Furthermore, as the duct is seamless, it is not necessary to join two ends or walls together when the duct is erected. This is an important aspect of the duct of the invention as no joining technique such as welding or riveting needs to be employed either after manufacture or at installation site.
This description relates to a preferred embodiment only and all modifications falling within the scope of the appended claims are also considered to form part of the invention.

Claims

1-18. (canceled)

19. A seamless ventilation duct comprising a plurality of elongate panels and integrally formed hinge means, each panel being joined to an adjacent panel by said integrally formed hinge means to enable relative movement between the panels so that the duct is selectively collapsible for at least one of transportation and storage.

20. A seamless ventilation duct according to claim 19, wherein said hinge means comprises an elongate channel in the duct between each panel so that the duct folds in the region of the channel to enable relative movement between the panels.

21. A seamless ventilation duct according to claim 19, wherein each panel is disposed substantially at right angles to two adjacent panels when the duct is erected.

22. A seamless ventilation duct according to claim 21, wherein each panel is at least one of rigid and semi-rigid and forms one side-wall of the duct.

23. A seamless ventilation duct according to claim 22, wherein each side wall lies substantially in contact with another side-wall when the duct is collapsed.

24. A seamless ventilation duct according to claim 22, wherein the side walls define a parallelogram profile in cross-section.

25. A seamless ventilation duct according to claim 19, wherein the hinge means are formed from a dissimilar material to the panels.

26. A seamless ventilation duct according to claim 19, wherein the duct is made from plastics material.

27. A seamless ventilation duct according to claim 26, wherein the duct is made from one of a thermoplastic and a thermoplastic elastomer.

28. A seamless ventilation duct according to claim 26, wherein the duct is made from one of polypropylene and PVC.

29. A seamless ventilation duct according to claim 19, wherein the seamless ventilation duct is formed by extrusion.

30. A seamless ventilation duct according to claim 22, wherein the side walls define a multi-sided profile in cross-section.

31. A method of manufacturing a seamless ventilation duct including a plurality of elongate panels and integrally formed hinge means, with each panel being joined to an adjacent panel by said integrally formed hinge means to enable relative movement between the panels, the method comprising the steps of:

at least one of extruding and molding the duct;

allowing the duct to cool; and

folding the duct about the hinge means to collapse the duct for at least one of transportation and storage or to erect the duct for installation.

32. A method according to claim 31, wherein the duct is extruded in a collapsed condition.

33. A method according to claim 31, wherein the duct is extruded in at least one of a partially erect and an erect condition.

34. A method according to claim 31, wherein the hinge means are extruded from a different material to the rest of the duct.

35. A seamless ventilation duct comprising:

a plurality of elongate panels; and

hinge means integrally formed between adjacent panels to enable relative movement of adjacent panels to one another, whereby the duct is collapsible for at least one of transportation and storage.

36. A seamless ventilation duct according to claim 35, wherein said hinge means is defined by an elongate channel formed between adjacent panels, wherein the duct is foldable along the channel to enable relative movement between adjacent panels.

37. A seamless ventilation duct according to claim 34, wherein the hinge means are formed from a dissimilar material to the side walls.

38. A seamless ventilation duct according to claim 34, wherein the duct is made from a material selected from the group consisting of thermoplastic, thermoplastic elastomers, polypropylene, and PVC.