RU193659U1 - VENTILATION DEVICE - Google Patents

Abstract

The utility model relates to the field of ventilation and can be used as a device for regulating the flow of outdoor air into a room, mainly in areas with a cold climate. The technical result consists in improving the performance of a ventilation device with a supply air heater by providing thermal protection and increasing the reliability of the ventilation device at low negative air temperatures, as well as in ensuring the unification of the ventilation device for various temperature operating conditions. To achieve a technical result, a ventilation device is proposed that provides heating of the supply air and contains a supply air duct (1) with an external ventilation grill (2), installed in the opening of the building wall, an associated air-heat exchanger (5), installed directly above the heating device (8 ) perpendicular to the supply air duct, and an adjustable damper (7). According to a utility model, the supply air duct (1) and the air duct-heat exchanger (5) are interconnected via a horizontal elbow (4) that mates with them. In the supply air duct (1), an additional protective liner (3) is installed, which has heat-insulating, noise-proofing and filtering properties, made of a polymer material with a honeycomb structure having a cell perimeter not exceeding 20 mm and with the axis of the honeycomb channels parallel to the direction of air movement through the supply air duct. In this case, the protective insert (3) is installed on the end of the supply air duct (1), protruding from the inner surface of the wall by the size of the mating part with the elbow (4), and most of the protective insert (3) is recessed into the supply air duct (1), and the adjustable flap (7) is made gate and installed in the elbow (4) to ensure contact with the protective liner (3) with the possibility of regulating the flow rate of the supply air. 2 ill.

Description

The utility model relates to the field of ventilation and can be used as a device for regulating the flow of outdoor air into a room, mainly in areas with a cold climate.

A ventilation device is known that comprises a housing with a window, a control valve adjacent to the housing, a thermal insulation layer with a honeycomb structure located in the window and providing thermal protection for the control valve, and a pressure device with fasteners for fixing the control valve (RF Patent No. 149658 U1, priority date 12/11/2012, publication date 1/10/2015, authors: Kuzema G.P. et al., RU).

The disadvantages of the known analogue are low performance, due, firstly, to the fact that in the cold season, the ventilation device passes outside air at low temperatures into the room, and secondly, the lack of an air heating system, which leads to a violation of the indoor climate.

The technical solution adopted as a prototype closest to the utility model is an intake ventilation device containing an air intake pipe installed in the opening of the building wall and closed with an intake grill from the outer end, an adjustable damper, a filter and a labyrinth type sound absorber, in addition, the device is equipped with a connected with an air intake duct installed along the inner side of the building wall and located in the immediate vicinity of the heating radiator, and a window or perforation is made in the duct wall to direct the air flow to the radiator (RF Patent No. 2364800 C1, priority date 04/01/2008, publication date 08/20/2009, author Dmitriev N.V., RU, prototype).

The disadvantages of the prototype are: low performance, limited use and low reliability due to the absence of a heat-insulating layer in the air intake pipe, which can lead to freezing of the building wall and sound absorber in the cold season, as well as to failure in operation.

The technical problem solved by the utility model is to improve the performance of a ventilation device with a supply air heater, provide thermal protection and increase the reliability of a ventilation device in regions with low temperature characteristics.

The technical result consists in improving the operational characteristics of a ventilation device with a supply air heating by providing thermal protection and increasing the reliability of the ventilation device at low negative air temperatures, as well as in ensuring the unification of the ventilation device for various temperature operating conditions.

To solve a technical problem and achieve a technical result, a ventilation device is proposed that provides heating of the supply air and contains a supply air duct with an external ventilation grill installed in the wall opening of the building, an associated air-heat exchanger installed directly above the heater perpendicular to the supply air duct, and an adjustable damper . According to a utility model, the supply air duct and the heat exchanger duct are interconnected via a horizontal elbow mating with them. An additional protective liner is installed in the supply air duct, which has heat-insulating, noise-proofing and filtering properties, made of a polymer material with a honeycomb structure having a cell perimeter not exceeding 20 mm and with the location of the axis of the honeycomb channels parallel to the direction of air movement through the supply air duct. In this case, the protective insert is installed on the end of the supply air duct protruding from the inner surface of the wall by the size of the mating part with the elbow, the greater part of the protective insert being recessed into the supply air duct, and the adjustable damper is made gate-mounted and installed in the specified elbow with the possibility of contact with the protective insert regulation of supply air flow.

In FIG. 1 schematically shows a ventilation device, a view from the room; in FIG. 2 is a section AA in FIG. one.

A ventilation device that provides heating of the supply air contains a supply air duct 1 installed in an opening of a building wall. From the outer end, the supply air duct 1 is closed by a ventilation grill 2, which provides protection against ingress of extraneous fragments. At the end of the supply air duct 1, a protective insert 3 is installed that overlaps the cross-section of the supply air duct. The protective insert 3 has heat-insulating, soundproofing and filtering properties and is made of a polymer material with a honeycomb structure, for example, polycarbonate having a preferred cell perimeter of cells from 16 mm to 20 mm, and with the location of the axis of the honeycomb channels parallel to the direction of air movement through the intake pipe 1. The optimal thickness of the protective liner 3, providing the heat-shielding function of the wall from freezing, is determined by the heat engineering calculation. The ventilation device also contains a horizontal elbow 4 connecting the supply air duct 1 and the air duct-heat exchanger 5 with each other using mating parts. The air duct-heat exchanger 5 is installed in the holder 6, mounted on the wall, and at the end it is equipped with a ventilation grill 2. In the horizontal knee 4, an adjustable gate valve 7 is installed, which has contact with the protective liner 3. At the same time, the end of the supply air duct 1, in which the protective the insert 4, protrudes from the inner surface of the wall by the size of the mating part with the elbow 4, and most of the protective insert is recessed into the supply air duct 1. The air duct-heat exchanger 5 for the performance of the specified x function and ease of maintenance if necessary purification set perpendicularly to the air intake duct 1 and is located directly above the heating device 8. The open area of the air intake duct 1, the duct 4 and knee-exchanger 5 should be equal to the resistance was no supply air movement. The bottom wall of the duct-heat exchanger 5 can be perforated.

The inventive ventilation device operates as follows. With the damper 7 open, outside air enters through the ventilation grill 2 into the supply air duct 1 and further, passing through the cells of the honeycomb channels of the protective insert 3, which has heat-insulating, noise-proofing and filtering properties, and through knee 4, enters the air-duct heat exchanger 5 located above the heating device 8, where it is heated and then enters through the ventilation grill 2 into a ventilated room. When the shutter 7 is closed, due to its contact with the protective insert 3, thermal protection of the wall and shutter from freezing is provided. This ensures the reliability of the ventilation device at low freezing temperatures.

Claims (1)

A ventilation device that provides heating of the supply air and contains a supply air duct with an external ventilation grill, installed in the opening of the building wall, an associated air-heat exchanger installed directly above the heater perpendicular to the supply air duct, and an adjustable damper, characterized in that the supply air duct and air duct - the heat exchanger is interconnected through a horizontal elbow mating with them; in the supply air duct a protective liner having heat-insulating, noise-proofing and filtering properties is made of a polymeric material with a honeycomb structure having a cell cell perimeter not exceeding 20 mm and with the axis of the honeycomb channels parallel to the direction of air movement through the supply air duct, while the protective liner is mounted on the end of the supply duct protruding from the inner surface of the wall by the size of the mating part with the elbow, and most of the protective liner is recessed into the supply duct and the adjustable flap is made of a gate valve and is installed in the specified elbow, ensuring contact with the protective insert with the possibility of controlling the supply air flow.

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