Patent Application
20230304698
The present invention relates to a connection element for connecting with rectangular ducting components, a rectangular ducting system comprising said connection element and a heating, ventilating or air conditioning (HVAC) system comprising said rectangular ducting system.
Rectangular ducting components are widely used in heating, ventilating and air conditioning systems. The use of such ducting components is advantageous in locations such as floors and ceilings, because ducting of other shapes such as circular ducting components occupy to much space.
Ducting components with a rectangular cross section typically have a relatively short length and it is necessary to connect ducting components to realize a desired overall length.
When exposed to pressure load or vacuum, rectangular ducting components are more vulnerable deflecting than circular ducting components because in rectangular ducting components forces are not distributed equally, especially in case of ducting components with an oblong cross section. This can lead to deflecting of the ducting component panels, which on its turn may cause fatigue, leakage or even collapse of the ducting. In particular the connections between ducting components cause a challenge in this respect.
Connecting ducting components with a rectangular cross section is often time consuming and expensive and it is difficult to avoid leakage. A number of ways of connecting ducting components with a rectangular cross section is disclosed in US 2008/0134745 A1. The connections described therein require multiple hardware components such as flanges, separate corner pieces, which cause installation and maintenance difficulties and which imposes vulnerability to leakage.
The present invention aims to overcome these problems.
Therefore the invention relates in a first aspect to a connection element for connecting with at least one rectangular ducting component, preferably for connecting two or more rectangular ducting components, comprising a main body with an end section having a rectangular outer circumference, said end section being insertable into an end section of a respective ducting component with a rectangular inner circumference; and separate lip elements fixed on each panel of the rectangular outer circumference of the main body, which are configured to extend at least partially over the outer face of an end section of said ducting component when the main body is inserted therein so as to clamp said ducting component between the lip elements and the rectangular outer circumference of the main body.
In a second aspect the invention relates to a rectangular ducting system, comprising at least a ducting component with a rectangular inner circumference and connected with a connection element of the first aspect, wherein at least one end section of the main body of the connection element is inserted into an end section of said ducting component; and wherein the lip elements of the connection element clamp said end section of said ducting component between the lip elements and the rectangular outer circumference of the main body of the connection element.
In a third aspect the invention relates to a HVAC system, comprising a rectangular ducting system according to the second aspect.
The connection element according to the invention provides a one piece connector for connecting rectangular ducting components, which only requires sliding the connection element into a female ducting component to obtain a sealing connection between rectangular ducting components, without further equipment or hardware. The connection element according to the invention allows easy installation and de-installation at all times. The inventors have found that the connection obtained this way is able to withstand high pressures from inside or outside without leaking. Furthermore, the connection provides a reinforcement of the ducting system in which it is installed. This allows to use ducting components with relatively thin walls while still meeting requirements with respect to strength, pressure load, and air leakage. For instance the inventors have found that by using the connection elements according to the invention in a HVAC system a leakage class norm D according to EN-12237 can be achieved.
The present invention is based on the advantageous design of a connection element for connecting rectangular ducting components which has at least one male end section for insertion into a female end section of a ducting component and which comprises at each panel of the connection element at least one separate lip element fixed on the outer face of the panel. The lip elements are each configured to extend at least partially over the outer face of said end section of said ducting component when the male part of the connection element is inserted therein and to clamp the female end section of the ducting component between the lip elements and the male end section of the connection element. This way the male end section of the connection element can be inserted into the female end section of a ducting component simply by sliding, to obtain a sealing connection between rectangular ducting components, without the need for further equipment or hardware.
The main body of the connection element is made out of one piece. In other words the main body forms a continuous structure in its circumference. This way, connecting rectangular ducting components, only requires sliding the connection element into a female ducting component to obtain a sealing connection between rectangular ducting components, without further equipment or hardware. Moreover, because the main body forms a continuous structure in the circumference thereof, any risk of leakage in the corners of the main body is prevented, while on the other hand a reinforcement of the ducting system in which the connection element is installed is provided.
The main body of the connection element has an end section having a rectangular outer circumference, said end section being insertable into an end section of a ducting component with a rectangular inner circumference. In one preferred embodiment the full main body has a rectangular outer circumference and the full ducting component in which it is inserted has a rectangular inner circumference. This allows to connect multiple rectangular ducting components by means of a connection element.
In a practical design the inner circumference of the main body has the same shape as the outer circumference, i.e. if the end section has a rectangular outer circumference, it suitably also has a rectangular inner circumference.
The main body may form a straight channel on its inside, or it may contain a contains a turn that forces a change in direction of air flow.
The connection element may be symmetrical or not. In this respect it may contains a single end section being insertable into an end section of a ducting component with a rectangular inner circumference or multiple, such as two opposite end sections. The latter embodiment is best suitable to connect two rectangular ducts to each other.
In this respect, in an asymmetric embodiment the convection element contains an end section being insertable into an end section of a ducting component with a rectangular inner circumference, while another end section is designed to be connected with ducting components having a different cross-section, such as a circular or elliptic cross section. This allows to connect a rectangular ducting system with a ducting system of a different shape. This is in particular practical if a new ducting system has to be connected to an already existing ducting system.
In order to achieve a sealing connection it is preferred that the inner circumference of the end section of the ducting component and the outer circumference of the end section of the connection element are designed such that the end section of the connection element can be inserted fittingly or substantially fittingly into the end section of the ducting component.
The connection element is in the shape of a duct, for instance in the shape of a short rectangular duct. Due to the elongated shape of the connection element the end sections of the connection element can be inserted into end sections of respective ducting components to a substantive depth. This provides strength to the connection, preventing—also in combination with the lip elements—deformation of the ducting walls due pressure differences. The connection obtained this way improves resistance of a ducting system to high pressures from inside or outside without leaking and reinforces the ducting system in which it is installed.
In a preferred embodiment, however the connection element is designed as a male-male connector of which panels at each end section can be inserted in respective ducting components. In this case the main body comprises opposite end sections having a rectangular outer circumference, said opposite end sections being insertable into end sections of respective ducting components with a rectangular inner circumference; and wherein said connection element comprises separate lip elements fixed on each panel of the rectangular outer circumference of the main body, which are configured to extend at least partially over the outer face of end sections of said respective ducting components when the main body is inserted therein so as to clamp said respective ducting components between the lip elements and the rectangular outer circumference of the main body.
The end sections may be positioned opposite with respect to each other in a straight line in case of a straight connection element or opposite with respect to each other under an angle in case the connection element contains a bend or turn. In this respect the term “opposite” in the context of this application is to be understood as “on the other side”, regardless whether the other side is in a straight line or not. In this respect opposite end sections can also be referred to as entry end section and exit end section, wherein in a ducting system a medium flowing through the connection element enters on the side of the entry end section and exits on the side of the exit end section.
In this respect it is preferred that the main body of the connection element comprises end sections having a rectangular outer circumference, said end sections being insertable into end sections of respective ducting components with a rectangular inner circumference; and wherein said connection element comprises separate lip elements fixed on each panel of the rectangular outer circumference of the main body, which are configured to extend at least partially over the outer face of end sections of said respective ducting components when the main body is inserted therein so as to clamp said respective ducting components between the lip elements and the rectangular outer circumference of the main body. This embodiment is preferred because this way basic rectangular ducts without further features or additional components, i.e. a hollow profile consisting of four panels interlinked via corner sections, can be connected. Such basic rectangular ducts can easily be sized at any size. The use thereof in combination with the connection element of this embodiment provides large flexibility in the design of rectangular ducting systems, including HVAC systems. Moreover it also allows very efficient use of ducting materials because loss of ducting material due to sizing is kept at a minimum. The connection element is thus preferably designed to form a connection between two ducting components. In view of the above a ducting component in the context of the invention preferably is a rectangular duct.
In the context of the present invention the term “rectangular” is meant to encompass square and oblong shapes. The corner of these shapes may be flattened or rounded if desired.
In general it is preferred that rectangular duct components have rounded corners, at least in their inner circumference. This increases strength of the ducting components, which is of particular importance if the ducting components are long rectangular ducts. The rounded corners also provide efficient airflow through the ducts. In line with this, and to fit into the female ends of the ducting components it is also preferred that the rectangular outer circumference of the end section or end sections of the main body of the connection element have rounded corners.
The connection element of the invention comprises separate lip elements fixed on each panel of the rectangular outer circumference of the main body. That means that each panel of the main body, i.e. the top panel, bottom panel, first side panel and second side panel has at least one distinct lip element provided attached thereto. The advantage of separate lip element is that it facilitates fitting the connection element with ducting component(s) to be connected with the connection element because separate lips provide a certain degree of slack and flexibility when installing.
Each panel may have a single lip element attached thereto, but it also possible that multiple lip elements are provided on each panel or that part of the panels (for instance the top and bottom panel) are provided with multiple lip elements and part of the panels (for instance the side panels) are provided with a single lip element. For instance in case of a connection element with an oblong shaped outer circumference, the wider panels may preferably contain a single wide lip extending over large part of the panel to provide extra strength, while the shorter panels comprise multiple lip elements.
The lip elements are configured to extend at least partially over the outer face of an end section of a ducting component when the main body is inserted therein so as to clamp said ducting component between the lip elements and the rectangular outer circumference of the main body.
In order to exert their function as clamps as effective as possible the lips should cover a substantial portion of the outer face of a ducting component inserted by the end sections of the main body. For this purpose, it is preferred that each lip element extends over the major part of a panel of the rectangular outer circumference of the main body in a direction orthogonal to the axis of the connection element. With the axis of the connection element is meant the longitudinal axis, i.e. in the direction orthogonal to the plane of the inner circumference. In other words, it is preferred that that the lips cover a major part of the panels of the main body in direction of the circumference. This also benefits to the strength of the connection. Alternatively or in addition, it is also preferred that each lip element extends over the major part of a panel of the rectangular outer circumference of the main body in a direction of the axis of the connection element. This allows maximal insertion of the ducting component(s) by the connection element and maximal clamping over full inserted area. This is in particular beneficial for the provision of a sealing connection and increases strength of the rectangular ducting system.
Similarly, in particular in case the connection element is designed with opposite end sections in order to be inserted in two opposite ducting components, it may be preferred that the end sections form the major part of the main body of connection element in direction of the axis of the main body. In this case the ducting components may both extend over a large part of the main body of the convection element up to the position where the lip elements are fixed to the main body. In view of this a lip element may suitably comprises at least two lips extending in opposite direction with respect to each other from a central section of the lip element to the respective end sections of the main body of the connection element, wherein said central section is fixed to the main body. This way ducting components can be inserted by end sections of the main body op to the position of the central section, allowing symmetrical and deep insertion. Also this contributes to the provision of a sealing connection and increases strength of the rectangular ducting system.
The lip elements can be fixed to the main body in any suitable way, including welding, glueing or hardware such as rivets, pop nails or screws.
When lip elements with lips extending in opposite direction with respect to each other from a central section of the lip element to the respective end sections of the main body of the connection element are used, it is preferred that said central section is fixed at multiple positions in the direction of the axis of the connection element and at multiple positions in the direction orthogonal to the axis of the connection element. This avoids tilting of the lips, increases the strength of the attachment of the lip element, and as a result also contributes to the strength and sealing properties of the connection. In order to facilitate installation and de-installation of a connection it is preferred that said lip elements have an end portion under an angle of the main direction of the lip elements and facing away from the main body. This way the end portion of the lip elements functions as tab portion that allows a user to lift the lips to loosen the clamping action of the lips. This facilitates installation because this way it becomes easier to slide an end section of the main body of the connection element into a ducting component and it also facilitates de-installing a connection because it allows to slide an end section of the convection element out of the end section of the ducting component connected thereto.
Rigid rectangular ducts often have one or more seams in longitudinal direction as a result of their manufacturing process. Therefore, in case the connection element serves to connect rectangular ducts with a seam it is preferred that at least one of said lip elements comprise a notch for accommodation of a seam of a ducting component wherein said main body is to be inserted. Alternatively the connection element may have multiple lips or lip elements separated with a space for accommodation of a seam of a ducting component.
In suitable embodiment, wherein the end section or sections of the main body of the connection element is/are provided with a gasket surrounding the outer circumference of the main body. This is to further seal the connection and to avoid leaking. Such a seal can be placed in a circumferential groove at the end section(s) and/or be fixed to the main body by a glue. In a suitable embodiment said gasket is a synthetic rubber, preferably an ethylene propylene diene monomer (EPDM) rubber.
It is preferred that rectangular ducting systems such as HVAC systems are composed as much as possible of a fire resistant material.
Such a material is preferably based on a metal. A HVAC system consisting fully of metal components can be classified A1 in accordance with EN 13501-01. This basically means that such a HVAC system is non-flammable.
Metal materials in this respect include, without limitation galvanised steel. It is therefore preferred that the material of the main body and lip elements is constituted of galvanized steel. Similarly the ducting components to be connected by means of the connection element of the invention are preferably composed of the same material. The connection element of the invention therefore allows to construct a rectangular ducting system which is safe in use in terms of fire risks, because the only fire sensitive components are the optional gaskets which are hidden deeply in the cleft between the end section(s) of the connection element and the end section(s) of the connected rectangular ducting component(s). Because the gaskets are deeply hidden and the present invention allows the use of minimal amounts of organic gasket material, fire risk is fully prevented.
As mentioned above the invention also relates to a rectangular ducting system, comprising at least a ducting component with a rectangular inner circumference; and connected with the connection element according to invention, wherein the end section of the main body of the connection element is inserted into the sections of said ducting component; and wherein the lip elements of the connection element clamp an end section of said ducting component between the lip elements and the rectangular outer circumference of the main body of the connection element. Such a rectangular ducting system can easily be installed by simply sliding end sections of a connection element into a receiving end section (female end section) of similar shape of a ducting component with the lips of the lip elements extending at least partially over the outer surface of this ducting component. Alternatively, the connection can be established by sliding the female section of a ducting component between the end section surface and the lip element of the connection element.
In a preferred embodiment the connection element is used to connect two opposite ducting components, such as long rectangular ducts. In this case it is preferred that the rectangular ducting system comprises at least two ducts with a rectangular inner circumference connected with each other by means of a connection element designed with opposite end sections in order to be inserted in the two opposite ducting components as described above. In such a system the opposite end sections of the main body of the connection element are inserted into end sections of respective ducts with a rectangular inner circumference. Each lip element of the connection element clamp an end section of said respective ducts between the lip elements and the rectangular outer circumference of the main body of the connection element.
The present invention is in particular applicable in the field of heating, ventilating and/or air conditioning. In this respect the invention also relates to a HVAC system, comprising the rectangular ducting system of the invention.
In this respect the connector element according to the invention may be provided with structural and/or regulating components on the inside of the main body, which components serve in regulating and controlling air flow. Such components may include, without limitation, turning vanes. Such vanes serve to minimize turbulence and resistance to air flow. Such vanes are especially suitable when the main body contains a turn that forces a change in direction of air flow.
The invention will now be further elucidated in the attached drawings. The following explanation is meant to illustrate and explain the invention and not to limit the claims.
Connection element 1 has a duct shaped main body 2. Main body 2 comprises opposite end sections 31, 32 having a rectangular outer circumference. The rectangular outer circumference of the end sections of the main body 2 has rounded corners 21, 22, 23, 24 to provide efficient airflow through the ducts and facilitate installation. The end sections are provided with a gasket 71, 72 of (EPDM) rubber glued in a circumferential groove (not shown) surrounding the outer circumference of the main body. These gaskets further seal the connection and minimize leaking risks. The opposite end sections 31, 32 can be inserted into end sections of respective ducting components 91, 92 as shown in
| Number | Date | Country | Kind |
|---|---|---|---|
| 20188414.5 | Jul 2020 | EP | regional |
| Filing Document | Filing Date | Country | Kind |
|---|---|---|---|
| PCT/NL2021/050480 | 7/28/2021 | WO |
