EP2149761A2 - Extruded ventilation channel - Google Patents

Abstract

The duct (10) has a wall (12) provided with inner and outer sides (14, 16), where a retaining element (20) is formed at the outer side. An inner volume (18) is provided for flowing with gas i.e. air, and is provided with quadratic, rectangular, circular or oval-shaped cross-sectional profile. The inner volume sectionally has a coating of anti-microbial material and/or electrically conductive material that is metallic material or electrically conductive plastic or electrically conductive plastic compound. The wall and the retaining element are made of polymer foam material.

Description

The present invention relates to an extruded ventilation duct, wherein the ventilation duct has a wall with an inside and an outside.

Known extruded ventilation ducts, such as air ducts, which are used in building technology, are usually attached via conventional connecting means or holding devices, such as screws or clamps, to corresponding fastening structures, such as ceiling walls or the like, wherein for producing a sufficiently stable or fixed connection between the ventilation duct and the fastening structure are generally provided in the wall of the ventilation duct openings formed in which the fastening means, such as Screws or clamps are arranged in sections. Especially with ventilation ducts made of plastic material, these openings are quite susceptible to cracking. Furthermore, it is usually necessary, in particular for the installation of ventilation ducts in humid environments, to provide sufficient seals which reliably prevent ingress of liquid through the openings into the interior volume of the ventilation duct.

The present invention is therefore an object of the invention to provide an extruded ventilation duct, which in comparison to known ventilation ducts very easy to provide, in particular without openings that extend into the inner volume of the ventilation duct, can be attached to corresponding mounting structures.

This object is achieved according to the invention with an extruded ventilation duct, wherein the ventilation duct has a wall with an inside and an outside and wherein on the outside at least one retaining element is formed.

The ventilation channel formed from an extrusion material, wherein the extrusion material is preferably a thermoplastic material, such as PVC, ABS, PP or PE, according to the invention comprises a holding element which is integrally formed on the outside of the ventilation duct.

By way of the retaining element, the ventilation duct can be attached to a corresponding fastening structure or support structure, such as a support structure. a subfloor or concrete pavement, preferably such that at least one per se known attachment means attached to the support member and to the attachment structure can provide a connection between the ventilation duct and the attachment structure. The at least one retaining element according to the invention thus makes possible, in comparison to known solutions, a laying-friendly and easier assembly or fixation on the corresponding fastening structures. Preferably, for this purpose, at least one opening can be formed in or on the at least one retaining element, in which the fastening means, such as a conventional screw or the like, can be received or arranged at least in sections. According to the invention, it is therefore in contrast to known solutions in particular not necessary to create openings which extend continuously through the wall of the ventilation duct into the inner volume of the ventilation duct and which are difficult to seal under certain circumstances, for example, to prevent penetration of moisture. In particular, by means of the ventilation duct according to the invention, the tightness when using terminal fittings can be significantly increased.

In a preferred embodiment, the extruded ventilation duct, which may be formed, for example, as a solid wall duct, an internal volume, which is provided for the flow with a gas, preferably air, wherein the inner volume has a substantially square, rectangular, circular or oval-shaped cross-sectional profile ,

In a practical embodiment, the inner side at least in sections at least one coating of an antimicrobial material and / or an electrically conductive material, wherein the electrically conductive material is a metallic material or an electrically conductive plastic or an electrically conductive plastic compound. The antimicrobial material has a beneficial growth inhibiting effect on microorganisms, such as fungi and bacteria, which can settle on the inside especially after prolonged use. The electrically conductive material allows avoidance or significant reduction of a disadvantageous static charge of the ventilation duct, in particular on the inside of the wall due to a reduction of the electrical resistance or electrical surface resistance.

The outer side and / or the retaining element may according to the invention at least in sections, at least one coating of an antimicrobial material and / or an electrically conductive material, wherein the electrically conductive material is a metallic material. Alternatively, the electrically conductive material may be an electrically conductive plastic or an electrically conductive plastic compound of which the coating is made. Alternatively, it can also be provided that it consists of the entire wall of the tube.

More preferably, the coating has a surface with a coefficient of sliding friction that is within a range of 0.03 to 0.5.

In a further practical embodiment, the inside is at least partially provided with at least one lubricious coating. The outer side and / or the holding element can also be provided, according to the invention, at least in sections with at least one lubricious coating, the lubricious coating preferably having a surface with a sliding friction coefficient which lies within a range of 0.03 to 0.5.

By virtue of the lubricious coating or coating provided according to the invention, the surface of which has a sliding friction coefficient which is preferably within a range from 0.03 to 0.5, a very lubricious surface is provided by which contamination of the wall can be effectively reduced internally or externally. Furthermore, any necessary cleaning operations are very easy to carry out.

In a further practical embodiment, at least one depression is formed on the outside. According to the invention may also be attached to the outside and / or the holding element also at least one insulating element made of a heat and / or sound insulating material. In a particularly preferred embodiment, an area of the outer side is formed as a contact side, wherein on the contact side preferably at least one recess is formed and / or at least one insulating element made of a heat and / or sound insulating material is attached.

By at least one depression, preferably a number of depressions, e.g. 2 to 20 depressions, which may preferably be formed on an abutment side, which may be provided, e.g. a surface, such as a wall surface or a floor surface of a building, at least partially or partially touching, a significant reduction of sound transmission and heat transfer from the air duct to this surface (and vice versa) can be created due to the reduced contact surface caused by the recesses or contact area. So can be provided in a practical way, a significant reduction in the possibly associated with the use of a ventilation duct noise pollution. With the insulating element according to the invention, furthermore, a very effective thermal insulation can be created, which in particular very effectively reduces a heat transfer between the inner volume of the air duct around the outer area, in which case the insulating element is preferably arranged between the contact side and a corresponding contact surface, such as a wall or a floor is.

In a further practical embodiment, at least one reinforcing web is integrally formed on the outside. The reinforcing web allows a significant increase in rigidity, in particular the torsional rigidity, with comparatively low weight and low material use. In order to achieve a very effective or high torsional rigidity, the at least one reinforcing web preferably extends along the entire longitudinal extent of the inner volume or along the entire longitudinal extension of the ventilation channel.

In a practical embodiment, the wall and the retaining element are made of a polymer foam material, accompanied by a very effective thermal insulation for reducing the heat transfer between the air in the inner volume of the ventilation duct and the outside area. With the thermal insulation thus provided in particular a high energy saving is connected.

In a further practical embodiment, the wall and the retaining element are partly made of a polymer foam material, and the ventilation channel has at least one polymer material core which is embedded in the wall and the retaining element and surrounded by the polymer foam material.

By means of this embodiment, a ventilation duct is provided, which allows a very effective thermal insulation and is also very stable due to the polymer material core, in particular a risk of damage during cleaning measures or cleaning work is very effectively reduced.

In a preferred embodiment, the wall and the retaining element are made of a mixture of at least one electrically conductive material and a polymeric material, wherein the electrically conductive material is a metallic material or an electrically conductive plastic or an electrically conductive plastic compound, and wherein the polymeric material is preferably is a polymeric foam material.

The electrically conductive material, e.g. may be an electrically conductive carbon black or any other electrically conductive additive may be preferably added as an additive to the polymeric extrusion material in the extrusion of the ventilation duct. The electrically conductive material causes the ventilation duct according to the invention is designed to be electrically conductive, along with the prevention or significant reduction of adverse static charge of the ventilation duct.

In a further preferred embodiment, the wall and the holding element consist of a mixture of a polymer material and at least one filling material. Preferably, the wall and the retaining element may also consist of a mixture of a polymer material, at least one filler material and at least one electrically conductive material, wherein the electrically conductive material is a metallic material or an electrically conductive plastic or an electrically conductive plastic compound. Particular preference is given here if the filler material is a reinforcing material and / or a heat and / or sound insulating material.

By providing a filling material in the form of a reinforcing material, which substantially increases the stability or rigidity of the wall or of the holding element, a very stable or solid ventilation channel can be provided overall, in particular by means of the reinforcing material the polymer base reinforced polymer matrix. The reinforcing material may be a fibrous reinforcing material or a glass fiber material or a carbon fiber material or a natural fiber material (eg in the form of a wood fiber material).

By providing a filling material in the form of a heat-insulating material can be very effectively reduced heat transfer or heat conduction between the air and the gas in the inner volume of the ventilation duct and the outside, along with a high energy conservation.

In a practical embodiment, the extruded ventilation duct is formed from at least two sections which are interconnected by coextrusion and consist of different materials. The by coextrusion almost inextricably interconnected sections exist to optimize the mechanical / electrical properties of the ventilation duct from this suitably selected different materials.

An embodiment of the invention will be explained in more detail with reference to the accompanying drawing, in which the Fig.1 shows a schematic cross-sectional profile of an extruded ventilation duct according to the invention.

The in Fig.1 shown in cross-section extruded ventilation duct 10 has a wall 12 with an inner side 14 and an outer side 16. The limited by the inner side 14 inner volume 18 of the ventilation duct 10, which is provided in a conventional manner for the flow of air, has a rectangular cross-sectional profile. At one in Fig. 1 left and right lateral region of the outer side 16, an inventive retaining element 20 is formed in each case that extends along the entire longitudinal extension of the inner volume 18 and along the entire longitudinal extent of the ventilation duct 10. In or on each of the two holding elements 20 are preferably a number of openings (not shown here) formed, for example, have a circular cross-sectional profile or slit-shaped, wherein the openings preferably substantially perpendicular to the longitudinal extent of each elongated holding elements 20th extend. In the openings, a fastener, such as a conventional screw, can be partially received or arranged, wherein the fastener is intended to provide a connection between the ventilation duct 10 and a mounting structure which, as in Fig. 1 represented, in the form of a bottom 22 is designed to provide or provide.

The ventilation duct 10 consists of a mixture of a polymer foam material and an electrically conductive material, wherein the polymer foam material provides a very effective thermal insulation for reducing the heat transfer between the air in the interior volume 18 of the ventilation duct 10 and the outside area. The electrically conductive material, which may preferably be admixed to the polymeric extrusion material during the extrusion of the ventilation duct 10 as an additive, avoids disadvantageous static charging of the ventilation duct 10.

An area of the outer side 16 is formed as an abutment side 24, which is provided in this embodiment, at least partially touching the bottom surface 23, wherein on the contact side 24, a number of conical recesses 25 are formed by reducing the contact surface a significant advantage Provide reduction of sound transmission and heat transfer from the air duct 10 to the bottom surface 23 (and vice versa). According to the invention may alternatively be attached or laminated on the contact side 24 and an insulating member 26 made of a heat-insulating and / or sound-insulating material that is then arranged between the contact side 24 and the bottom surface 23. With the insulating element 26 is a very effective thermal and / or acoustic insulation possible, which reduces a heat and / or sound transmission between the inner volume 18 of the ventilation duct 10 and the outdoor area very effective. The heat-insulating material may, for. Example, an expanded polystyrene (EPS), polyurethane (PU) or a preferably expanded thermoplastic elastomer (TPE).

The inner side 14 is at least partially coated with an antimicrobial material and / or at least partially provided with a lubricious coating to create a lubricious surface (not shown in detail). The coating or sliding coating can preferably be applied to the inside 14 by coextrusion during the extrusion of the ventilation duct 10 according to the invention. The inside 14 may also include a coating of an electrically conductive material.

By virtue of the lubricious coating or coating provided according to the invention, the surface of which has a sliding friction coefficient which is preferably within a range from 0.03 to 0.5, a very lubricious surface is provided by which contamination of the wall can be effectively reduced internally or externally. Furthermore, any necessary cleaning operations are very easy to carry out

At an upper portion of the outer side 16, a number of reinforcing webs 28 is formed. The reinforcing webs 28 allow a significant increase in stiffness, in particular the torsional rigidity, with comparatively low weight or low material use, wherein each of the reinforcing webs 28 (or substantially along a.) To achieve a very high torsional rigidity along the entire longitudinal extent of the inner volume 18 extending along the entire longitudinal extent of the elongated ventilation duct 10 extends.

Claims (15)

Extruded ventilation duct (10), wherein the ventilation duct (10) has a wall (12) with an inner side (14) and an outer side (16), characterized in that on the outer side (16) at least one retaining element (20) is integrally formed. Extruded ventilation duct (10) according to claim 1, characterized in that the ventilation duct (10) has an internal volume (18), which is provided for the flow through with a gas, preferably air, wherein the internal volume (18) is a substantially square, rectangular, circular or oval-shaped cross-sectional profile has. Extruded ventilation duct (10) according to claim 1 or 2, characterized in that the inner side (14) at least partially at least one coating of an antimicrobial material and / or an electrically conductive material, wherein the electrically conductive material is a metallic material or an electrically conductive Plastic or an electrically conductive plastic compound. Extruded ventilation duct (10) according to one of the preceding claims, characterized in that the outer side (16) and / or the holding element (20) at least in sections at least one coating of an antimicrobial material and / or an electrically conductive material, wherein the electrically conductive Material is a metallic material or an electrically conductive plastic or an electrically conductive plastic compound. Extruded ventilation duct according to claim 3 or 4, characterized in that the coating has a surface with a sliding friction coefficient which is within a range of 0.03 to 0.5. Extruded ventilation duct according to one of the preceding claims, characterized in that the inner side (14) is provided at least in sections with at least one lubricious coating. Extruded ventilation duct according to one of the preceding claims, characterized in that the outer side (16) and / or the holding element (20) is provided at least in sections with at least one lubricious coating. An extruded air duct according to claim 6 or 7, characterized in that the lubricious coating has a surface with a coefficient of sliding friction which is within a range of 0.03 to 0.5. Extruded ventilation duct (10) according to one of the preceding claims, characterized in that on the outer side (16) at least one recess (25) is formed. Extruded ventilation duct (10) according to one of the preceding claims, characterized in that on the outer side (16) and / or the holding element (20) at least one insulating element (26) made of a heat and / or sound insulating material is attached. Extruded ventilation duct (10) according to one of the preceding claims, characterized in that a region of the outer side (16) is formed as an abutment side (24), wherein on the contact side (24) preferably at least one recess (25) is formed and / or at least an insulating element (26) made of a heat and / or sound insulating material is attached. Extruded ventilation duct (10) according to one of the preceding claims, characterized in that on the outer side (16) at least one reinforcing web (28) is integrally formed. Extruded ventilation duct (10) according to one of the preceding claims, characterized in that the wall (12) and the holding element (20) consist of a polymer foam material. Extruded ventilation duct (10) according to one of claims 1 to 12, characterized in that the wall (12) and the holding element (20) consist partly of a polymer foam material, and that the ventilation duct (10) has at least one polymer material core, which is embedded in the wall (12) and the holding element (20) and surrounded by the polymer foam material. Extruded ventilation duct (10) according to one of claims 1 to 12, characterized in that the wall (12) and the holding element (20) consist of a mixture of at least one electrically conductive material and a polymeric material, wherein the electrically conductive material is a metallic Material or an electrically conductive plastic or an electrically conductive plastic compound, and wherein the polymeric material is preferably a polymer foam material.

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