PL67904Y1 - Ventilation knee - Google Patents

Description

Pattern description

The subject of the utility model is the bend of the ventilation duct, in particular for connecting it in the ducts of the ventilation system outside the building. From the patent description PL182097 a flexible ventilation duct is known, made of a flexible pipe, covered with an insulating sheath, and then surrounded around with an insulating jacket, attached with a flexible mesh sleeve, over which an outer sealing sleeve is applied. The flexible pipe is perforated in the form of holes located between the skeleton. The openings preferably have an oval contour and their area covers at least 60% of the total internal surface of the flexible tube. From the patent description PL 193585 a ventilation assembly is known which has a connecting ring detachably connecting identical shields, placed with its projections on the projections at the ends of the sleeve parts of the shields. The ventilation cover has peripheral projections and peripheral tooth cuts located on the outer surface of the sleeve portion. The frontal surface is covered with oblique, flat ribs with air flow gaps between them. From application description P.343666 a ventilation duct is known, which consists of a base element with a rectangular cross-section, consisting of a plinth, intended to be attached to the wall, and a closing cover, which together constitute a conduit, the plinth and the cover are made of plastic and are snapped together.

The purpose of the utility model is to develop a bend of a ventilation duct that allows to obtain tightness at the air pressure specified in the standard for ventilation (PN-B-76001 entitled "Ventilation. Ventilation ducts. Tightness. Tests and requirements) and, at the same time, the tightness of the outer jacket against water permeability to the internal space thermal isolation.

The essence of the solution according to the utility model is that the internal channel and the external channel differ in length by the dimension α along the axis, while the external flange of the external channel is provided with a clamp segment. The inner channel is longer than the outer channel. The clamp segment is connected to the external flange with screws, and the gap between them is sealed with a sealing compound. The distance between the walls of the inner channel and the outer channel is maintained by a spacer. The spacer is a PVC pipe section.

The presented utility model increases the market offer of thermally insulated and covered bends for air-conditioning installations.

The duct bend is shown in the drawing, in which Fig. 1 shows the bend from above with the wall broken, Fig. 2 - view of the part from the side of the flanges without the clamp, Fig. 3 - enlarged detail with the sealing.

The bend of the ventilation duct has two concentric channels formed substantially in a rectangular arc and provided with flanges with openings: the outer duct 2 and the inner duct 1, separated by insulating material 7 as thermal insulation between them. The internal channel 1_ and the external channel 2 differ in length by the axis dimension, while the external flange 20 of the external channel 2 is provided with a clamp segment 3. The internal channel 1_ is longer than the external channel 2. The clamp segment 3 is connected by screws 6 to the external flange 20, and the gap therebetween is sealed with mastic 4. The distance between the walls of the inner channel 1 and the outer channel 2 is maintained by a spacer 5. The spacer 5 is a PVC pipe section.

External channel 2 and internal channel 1_, with flanges of standard flange profiles and corners, are made of sheet embossed for stiffness on the wall surface. The internal channel 1 is placed axially in the external channel 2. The space between them is filled with insulating material 7 constituting thermal insulation, the thickness of which depends on the intended use and the place of installation (roofs of buildings, engine rooms, fire installations, production halls). The cross-sections of the channels 1, 2 and the thickness of the thermal insulation between them are therefore made according to the design documentation. The inner channel 1 and the outer channel 2 differ in length by the dimension a, the flanges 10, 20 on one side being offset from each other by a distance b, approximately 25 mm. The outer flange 20 of the outer channel 2 is provided with a clamp segment 3 in the shape of a C-section. The clamp segment 3 is connected by screws 6 to the outer flange 20.

Claims (5)

To maintain a constant distance between the walls of the internal channel 1 and the external channel 2 with large wall surfaces, there are spacers 5. The distance insert 5 is a section of PVC pipe, also filled with insulating material 7. On the edge of the clamp 3 and the external flange 20 a gap - between with them - it is sealed with sealing compound 4. The flashing used for the thermal insulation cover, which in the pattern is in the form of external channel 2 walls, is made of 0.6 mm thick galvanized sheet with zinc coating Z 275. For the installation of duct elbows on roofs of buildings , the cladding is made of coated sheets, stainless steel sheets or sheets protected with a layer of aluzinc. When connecting the line modules with each other, the internal channels 1 on the internal flanges 10 are tightly screwed together with a gasket between them. The space between the outer flanges 20 of the outer channels 2 is additionally filled with insulating material 7 and the outer flanges 20 are connected with clamps 3 from the outside and screwed with screws 6. All gaps on the edges of the metal sheets: contact of the inner flanges 10 with the walls of the inner channel 1, the edges of the longitudinal walls of the channels 1 2, the contact of the outer flanges 20 with the walls of the outer channel 2, and particularly at the junction of the segments of the clamp 3 with the outer flanges 20, is covered with a mastic 4, for example the polyurethane Inter Troton mastic. Cable elbows according to the utility model and ventilation systems made with them ensure trouble-free use and the required tightness. Protective Claims 1. The bend of the ventilation duct has channels that are essentially curved and provided with flanges with openings: the outer and inner duct separated by insulating material between them, characterized in that the inner duct (1) and the outer duct (2) differ in length by the axis dimension (a), wherein the outer flange (20) of the outer channel (2) is provided with a clamp segment (3). 2. The knee according to claim A device according to claim 1, characterized in that the inner channel (1) is longer than the outer channel (2). 3. The knee according to p. The clamp according to claim 1, characterized in that the clamp segment (3) is screwed to the outer flange (20). and the gap between them is sealed with a sealing compound (4). 4. The knee according to p. The device of claim 1, characterized in that the distance between the walls of the inner channel (11) and the outer channel (2) is maintained by a spacer (5). 5. The knee according to p. 4. A method according to claim 4, characterized in that the spacer (5) is a PVC pipe section.