RU202703U1 - Modular supply and exhaust ventilation unit - Google Patents

Abstract

The utility model relates to the field of ventilation unit designs, it is proposed to exchange air in the room using a compact module made in a single housing, air intakes and outlet grilles are made on the module case, and air supply and intake occurs through openings in the lower part of the unit, while the module can be installed on the roof of the premises. 2 ill.

Description

The utility model relates to the field of ventilation unit designs. The known design of the ventilation unit, consisting of a supply fan, an exhaust fan of a heat exchanger and air ducts, which is mounted in a building and exchanges air by distributing it throughout the premises using a duct system. This design has a significant cost, takes up additional space, and requires special maintenance. In addition, the installation of such an installation, on the areas of the existing housing stock, is practically impossible due to the need to reconstruct the entire building, since it is necessary to install supply air ducts that are absent in a conventional ventilation system. Therefore, there are cases of using such installations only in newly constructed buildings.

The purpose of the utility model is to create a ventilation structure that, simply installed in any room without reconstruction of the building, would not occupy the usable area of the room, would not require complex maintenance, could simply turn on and off at the request of the consumer (which would save heat in the room and the resource installation).

The essence of the utility model is that instead of a complex ventilation system, it is proposed to exchange air in the room using a compact module made in a single housing, air intakes and outlet grilles are made on the module case, and air supply and intake occurs through openings in the lower part of the installation, when This module can be installed on the roof of the room.

An example of a specific implementation is shown in FIG. one

The unit is a monoblock made of an aluminum profile, inside of which the necessary units are located, including a heat exchanger, a supply exhaust fan, a supply air cooler with a built-in compressor and condenser, a control cabinet with a controller for unit control, a set of temperature and pressure sensors. To increase heat and sound insulation, polyurethane foam panels are installed on the frame, the thickness of the panels is at least 45 millimeters. At the same time, to ensure the necessary tightness, the joints between the profile and the panels are additionally sealed. The installed panels and other elements of the frame are coated from the outside with a polymer coating, which ensures high anti-corrosion properties of the installation. To ensure operation at negative temperatures, the drainage channel of the unit is equipped with a self-regulating heating cable that ensures the drainage of condensate from the unit regardless of the ambient temperature. Connection of air ducts of ventilation systems is carried out from below, directly to the frame or to the base frame of the air conditioner

To increase efficiency, reduce noise, vibration and ensure compactness of the installation, free wheel fans with an EC motor (Fig. 2) are used, which is a design in which the impeller with backward curved blades and the motor are installed on a single special vibration-insulated frame. The fans are driven by a special high-performance (EC) electric motor with a built-in speed controller, providing a control depth of 0-100% of the maximum speed.

Depending on the available heat supply source, the installation can use liquid, electric or gas air heaters (heat exchangers).

The cooling circuit of the unit is equipped with the following devices: high and low pressure cut-out relays; filter drier on the liquid line; sight glasses on liquid lines; supply and outside air temperature sensors. The cooling circuit is equipped with high and low pressure gauges mounted on the front of the unit, which makes it easier to read the pressures in the cooling circuit. The standard size of the coolers installed in the installation is selected based on the requirements for the temperature regime.

For filtration, cell filters of cleaning class G-3, G-4 are used, they are made of certified cloth in the form of a replaceable cassette. The filter frame is made of 0.7 mm thick galvanized steel. Pocket filters have a cleaning class of G-4, F-5, F-7, F-9 are made of a certified cloth in the form of a replaceable cassette. Standard pocket length 760 mm, shortened 360 mm. The filter frame is made of 0.7 mm thick galvanized steel.

Air valves are rectangular casing with blades installed in it, which are rotated through a gear system or by means of a crank mechanism by means of a manual or electric drive. For tightness of the connection, the blades and the body are equipped with rubber seals. The gears that rotate the blades are located in the wall of the air damper, which makes it possible to exclude them from dusting with contaminated air flow. In case of danger of icing, heating of the housing and the crank mechanism with a heating cable is provided. Its installation is carried out along the perimeter of the outer side of the frame. Always works in winter. To temporarily warm up and facilitate opening, the mating points of the valve blades can be equipped with tubular electric heaters (0.5 kW). Heating element heating time varies from 30 to 60 seconds.

The unit is fully wired and ready for operation. To start functioning, it is necessary to install it on the workplace and supply power. The unit can be used for ventilation of any premises. In the classrooms of educational institutions, hospital wards, institutions, restaurants, industrial premises, smoking rooms, offices, living quarters, etc. The pilot plant was manufactured and tested at the production site of STC Eurovent LLC. The tests gave positive results.

Claims (1)

A supply and exhaust ventilation unit, consisting of a heat exchanger, a supply fan and an exhaust fan, a supply air cooler with a built-in compressor and condenser, a control cabinet with a controller for unit control, a set of temperature and pressure sensors, characterized in that, in order to simplify installation and reduce cost of operation, the installation is made as a single module, air intakes and outlet grilles are made on the module case, and air supply and intake occurs through the holes in the lower part of the installation, while the module can be installed on the roof of the room.

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