UA122710U - ENERGY EFFICIENT VENTILATION SYSTEM - Google Patents

Abstract

Energy-efficient ventilation system includes a vertical exhaust shaft, supply and exhaust air ducts with exhaust and inflow vents located in the premises, an external discharge device with a throttle valve, exhaust and supply fans, filter air supply, exhaust heat. The intake air intake is made on the roof of the warm attic, the common inlet duct is partially located inside the exhaust shaft throughout the entire height of the house, and the inflow air filter and the inflow fan are placed on the ceiling of the warm attic.

Description

The useful model belongs to construction, namely to ventilation systems of residential and public buildings.

An energy-efficient ventilation system is known, which contains a vertical exhaust shaft, supply and exhaust air ducts with exhaust and supply openings located in the premises, an external discharge device with a throttle valve, exhaust and supply fans, a supply air filter, an outlet device into the warm attic space (Serov

S.F., Mylovanov A.Yu. "Apartment-by-apartment ventilation system with heat exchangers!" // AVOK. 2013. - Mo 2).

However, a ventilation system is known, in which supply and exhaust units with air heat recuperators are located in separate rooms of the house and occupy a significant amount of their useful volume, which worsens the interior of the premises, and the ventilation system is characterized by a large volume of construction and installation work and significant cost.

The useful model is based on the task of creating an energy-efficient ventilation system, in which a new design of supply air intake, supply air ducts, exhaust fan and external exhaust device with a throttle valve in the exhaust shaft, supply air filter and supply fan would allow increase the useful volume of the premises, improve their interior, reduce the amount of construction and installation work and the cost of the ventilation system.

The task is solved by the fact that in the energy-efficient ventilation system, which contains a vertical exhaust shaft with an exhaust device with a throttle valve from the exhaust shaft into the space of the warm attic, an external discharge device with a throttle valve from the space of the warm attic, exhaust and supply air ducts with exhaust and intake openings located in the premises of the house, exhaust and intake fans, intake air filter, according to the useful model, intake air for intake is made on the roof of the warm attic, the general intake duct is partially located inside the exhaust shaft along the entire height of the house, the exhaust shaft is equipped with an external exhaust a device with a throttle valve and an exhaust fan placed in its upper part in front of an exhaust device with a throttle valve into the space of the warm attic, and the supply air filter and the supply fan are placed on the ceiling of the warm attic.

In addition, the wall of the common supply air duct inside the exhaust shaft along the entire height of the house is corrugated.

Such an implementation will allow to increase the useful volume of the premises, improve their interior, reduce the amount of construction and installation work and the cost of the ventilation system, and making the wall of the supply air duct, located inside the exhaust shaft along the entire height of the building, corrugated, will allow to intensify the heat transfer process through the wall of the supply air duct and, accordingly, increase the energy efficiency of the ventilation system.

In fig. 1 shows a diagram of an energy-efficient ventilation system, in fig. 2 - cut 1-1.

The energy-efficient ventilation system includes a vertical exhaust shaft 1 with an external exhaust device 2 with a throttle valve, an exhaust device C with a throttle valve from the exhaust shaft 1 into the warm attic space 4, an exhaust fan 5 located in the upper part of the exhaust shaft 1 in front of the exhaust device 3 , an external exhaust device 6 with a throttle valve from the space of the warm attic 4, exhaust and supply air ducts with exhaust 7 and supply 8 openings located in the premises of the house, a common supply air duct 9, partially located inside the exhaust shaft and along the entire height of the house. The air intake for inflow 10 is made on the roof of the warm attic 4, the supply air filter 11 and the supply fan 12 are located on the ceiling of the warm attic 4, and the tray for collecting condensate 13 and the drain 14 into the sewer are located in the lower part of the exhaust shaft 1.

The energy-efficient ventilation system works as follows: in the cold period of the year, the exhaust air from the premises of the house through the exhaust air ducts with exhaust holes 7 enters the exhaust shaft 1, from where it is fed into the space of the warm attic 4 through the exhaust device 3. At the same time, the external exhaust device 2 with a throttle the valve is closed. The flow of fresh supply air enters the ventilation system through the supply air intake 10 located on the roof of the warm attic 4, the supply air filter 11 and the supply fan 12 located on the roof of the warm attic 4, and is fed into the common supply air duct 9, which is partially located on along the entire height of the exhaust shaft 1 and through the inlet holes 8 is supplied to the premises of the house. In the part of the general supply air duct 9, which is located inside the exhaust shaft 1, heat recovery of the exhaust air takes place without the use of separate supply and exhaust units with air heat recuperators in separate rooms of the house. Condensate that forms in the space of the exhaust shaft 1 on the walls of the common supply duct 9 is removed using a condensate collection tray 13 and drain 14 into the sewer.

In the warm period of the year, the entire volume of exhaust air is ejected from the exhaust shaft 1 through the external exhaust device 2 with a throttle valve.

To increase the energy efficiency of the ventilation system, the wall of the supply air duct 9, located along the entire height of the exhaust shaft 1, is corrugated, which will allow intensifying the heat transfer process and increase the amount of heat transferred to the supply air.

Claims (2)

USEFUL MODEL FORMULA 1. An energy-efficient ventilation system containing a vertical exhaust shaft, supply and exhaust air ducts with exhaust and supply openings located in the premises, an external exhaust device with a throttle valve, exhaust and supply fans, a supply air filter, an exhaust device into the warm attic space, which differs in that the supply air intake is made on the roof of the warm attic, the general supply air duct is partially located inside the exhaust shaft along the entire height of the house, and the supply air filter and the supply fan are located on the ceiling of the warm attic. 2. Energy-efficient ventilation system according to claim 1, which differs in that the wall of the common supply air duct inside the exhaust shaft along the entire height of the house is corrugated. Shchi she : : Ki 311, p I Z p : 1 she ! : DPP YUK MM : : DIT : Ii ko and I zv ped, no Fig. 1 I I HU M 1 7 y ; y y Z i 7 7 Fig. 2