PL6985S2 - Damper mechanism for ventilation and air conditioning ducts - Google Patents

Description

The subject of the industrial design is a damper mechanism for ventilation and air conditioning ducts. The industrial design constitutes a new and unique form of a complex product, given to it in particular by the characteristics of the product's lines, contours, shapes, and materials. The novelty and originality of the industrial design lies in the square-shaped damper and the control element made of galvanized sheet metal, in which the control element is shaped like a channel with outwardly curved edges, having an arc-shaped cutout in the front and a hole for mounting a pin on which a lever is mounted. Two plastic sleeves are mounted in the openings of the ventilation duct. The subject of the industrial design is shown in the drawing, in which Fig. 1 shows a damper mechanism on a square-shaped ventilation duct in perspective view, Fig. 2 - the first variant of the damper mechanism, Fig. 3 - the second variant, Fig. 4 - the third variant, Fig. 5 - the fourth variant, Fig. 6 - the fifth variant, Fig. 7 - the sixth variant. In the first variant of the industrial design, the damper mechanism in square ventilation or air-conditioning ducts consists of a square-shaped duct and a control element made of galvanized sheet metal, shaped like a channel with edges bent outwards at a right angle, having an arc-shaped cut-out in the front part for regulating the damper position, located on the longer wall of the rectangle, and a square hole for mounting a square pin on which an L-shaped lever with a square hole in the bend axis is mounted. In the holes of the ventilation duct there are two plastic sleeves with an internal through hole in the shape of a square for mounting two pins with two covers, as shown in fig. 1 and 2. The covers are connected to the pins with screws and to the square damper in the ventilation duct in a non-detachable manner, as shown in fig. 1 and 2. In the second variant of the industrial design, the mechanism of dampers in ventilation or air-conditioning ducts in the shape of a square is a control element made of galvanized sheet metal, in the shape of a channel with edges bent at a right angle, having in the front part an arc-shaped cut-out for adjusting the position of the damper, placed on a square-shaped wall and a square hole for mounting the square pin on which it is mounted. an L-shaped lever with a square hole in the bending axis. In the ventilation duct openings, two plastic sleeves with an internal through-hole in the shape of a square are mounted for mounting two pins with two covers, as shown in Fig. 3. The covers are connected to the pins and to the damper in the ventilation duct by means of screws and to the damper in a non-detachable manner, as shown in Figs. 1 and 3. In the third variant of the industrial design, the damper mechanism in square ventilation ducts is a control element made of galvanized sheet metal, shaped in the shape of a channel with edges bent outwards in an arc, having in the front part an arc cutout for adjusting the damper position, located on the shorter wall of the rectangle, and a square hole for mounting a square pin on which a lever is mounted. with a square hole in its end. Two plastic sleeves with a square-shaped internal through hole are mounted in the ventilation duct holes for mounting two pins with two covers, as shown in Fig. 4. The covers are connected to the pins and to the damper in the ventilation duct by means of screws in a non-detachable manner, as shown in Fig. 1 and 4. In the fourth variant of the industrial design, the damper mechanism in square ventilation ducts is a control element made of galvanized sheet metal, shaped in the shape of a channel with edges bent outwards at a right angle, having in the front part an arc-shaped cutout for regulating the damper position, located on the longer wall of the rectangle, and a hexagonal hole for mounting a hexagonal pin, on which an L-shaped lever with a hexagonal hole in the bend axis is mounted. Two plastic sleeves with a hexagonal through hole are mounted in the ventilation duct holes to accommodate two pins with two covers, as shown in Fig. 5. The covers are connected to the pins and the damper by means of screws in a non-detachable manner, as shown in Fig. 1 and 5. In the fifth variant of the industrial design, the damper mechanism in square ventilation ducts is a control element made of galvanized sheet metal, in the shape of a trough with edges bent outwards at a right angle, having in the front part an arc-shaped cut-out for regulating the damper position, located on the square wall, and a hexagonal hole for mounting a hexagonal pin, on which an L-shaped lever with a hexagonal hole in the bend axis is mounted. Two plastic sleeves with an internal hexagonal through hole are mounted in the ventilation duct holes for mounting two bolts with two covers, as shown in Fig. 6. The covers are connected to the pins and to the damper in the ventilation duct by means of screws in a non-detachable manner, as shown in Figs. 1 and 6. In the sixth variant of the industrial design, the damper mechanism in square ventilation ducts is a control element made of galvanized sheet metal in the shape of a trough with edges bent outwards in an arc, having in the front part an arc cutout for regulating the damper position, located on the shorter wall of the rectangle, and a hexagonal hole for mounting a hexagonal pin on which a lever with a hexagonal hole in its end is mounted. Two plastic sleeves with an internal hexagonal through hole are mounted in the ventilation duct holes to accommodate two pins with two covers, as shown in Fig. 7. The covers are connected to the pins and the damper in the ventilation duct by means of screws in a non-detachable manner, as shown in Fig. 1 and 7. The essential features of the industrial design are a damper mechanism in ventilation or air conditioning ducts, in which the square-shaped damper and the control element are made of galvanized sheet metal, the control element being in the shape of a channel with edges bent outwards at an angle or in an arc, having an arc cut-out in the front part and a square or hexagonal hole for mounting the pin mounted on a plastic sleeve and a lever. Fig. 1 Fig. 2 Fig. 3 Fig. 4 Fig. 5 Fig. 6 Fig. 7 PL PL