UA27057U - Pipe ventilation air heat recuperator on counter flows - Google Patents

Abstract

A pipe ventilation air heat recuperator on counter flows has heat exchangers placed in the body, fans. Besides that the body is arranged of two plastic cylinders with smaller and larger diameters between which in long positions pack of heat exchangers is placed, each of those is made of two coaxial metal pipes with smaller and larger diameters, at that the pipe with smaller diameter is L-shaped and is rigidly fixed with bended end in the opening of the pipe wall with larger diameter at side of its open end with access to the cavity of inner body cylinder through opening in its wall near which additional opening is perforated, and at side of closed end of larger diameter pipe opening is provided in the wall, its center is coaxial to center of opening in the wall of inner body cylinder in which fan is placed with one working wheel or two placed in opposite positions working wheels rotation of blades of which provides two-side air suction.

Description

Description of the invention

The useful model refers to the area of room ventilation, in particular to heat recovery devices 2 of exhaust air.

The activation of the use of modern hermetic windows has aggravated the issue of ensuring air change in residential premises equipped with such windows, since their use excludes ventilation by infiltration. The most effective way to create air exchange in this case is to use forced supply-exhaust ventilation. 70 The well-known exhaust air heat utilization device (declaration patent for utility model Mo11134,

Official Bulletin "Industrial Property" Mo2, 2005), containing heat exchangers placed in the case and fans. The device is equipped with a supply air inlet nozzle and a cooled air outlet nozzle, and both nozzles are installed in the wall of the room, which causes the need to make two holes in it, which is the main disadvantage of the known device, as it creates additional conditions for violating the integrity of the walls of residential buildings and increasing the cost assembly works when installing the device.

The task of the technical solution proposed for patenting is to simplify the design of the ventilation air recovery device and reduce the negative impact on the integrity of the walls of residential premises.

The task is solved by the fact that in the tubular recuperator of heat of ventilation air on counterflows, containing heat exchangers placed in the housing, fans, according to the useful model, the housing is made of two hollow plastic cylinders of smaller and larger diameters, between which a package of heat exchangers is placed longitudinally, each of which is made of two coaxial metal tubes of smaller and larger diameters, and the smaller diameter tube is L-shaped and rigidly fixed with a bent end in the hole in the wall of the larger diameter tube from the side of its open end with access to the cavity of the inner body cylinder through the hole in its wall, next to which an additional hole is perforated, and on the side of the closed end of the larger-diameter tube, a hole is made in the wall, the center of which is coaxial with the center of the hole in the wall of the inner housing cylinder, which houses a fan with one impeller or two oppositely located impellers, the rotation of the bladeswhich are provided with two-way air suction. In a tube with a smaller diameter, it is possible to place a metal plate X-shaped in cross-section with its edges resting on the inner surface of the tube. in

The specified distinguishing features of the useful model provide the necessary ventilation of the premises while maintaining the energy-saving effect of modern windows with dense pediments (for example, plastic windows with double-glazed windows). The use of a tubular heat recuperator of ventilation air on opposite flows o allows you to obtain standardized, in accordance with sanitary and hygienic norms, air exchange in the premises, and to reduce energy costs for maintaining the necessary temperature in them, to maintain thermal comfort during ventilation of the premises. high school

The main difference from the prototype and advantage is the possibility of perforating only one hole in the wall of the building for installing the recuperator.

The essence of the useful model is explained by figure 1 (longitudinal section), which shows the main elements of the proposed recuperator. C 50 Figure 2 shows one impeller of a fan with countercurrent blades, and Figure C shows a cross-section of a smaller diameter X-plate heat exchanger tube. z" Tubular ventilation air heat recuperator on counterflows contains a body of two hollow plastic cylinders of larger diameter 1 and smaller diameter 2, a package of heat exchangers is placed longitudinally between the housing cylinders 1 and 2. Each heat exchanger is made of two coaxial metal tubes of larger diameter C and smaller diameter 4. Tube 4 is L-shaped and rigidly fixed with a bent end 5 in hole 6 on the wall of tube C on the exhaust side of the recuperator. The bent end 5 has access to the cavity of the cylinder 2 through the hole 7, next to which the hole 8 is perforated.

On the side of the closed end of the tube C (from the inflow side of the recuperator), hole 9 is made on its wall, and hole 10 is made in the wall of cylinder 2, and the centers of these holes are coaxial. Ring seals 11 are used when assembling the SL 20 recuperator.

A fan 12 with two oppositely located impellers 13 and 14 is fixed in the cylinder 2, the blades of which 15 and 16 provide bilateral air suction during rotation. When using a fan with one impeller, its blades 17 and 18 are made in accordance with the diameters of the body cylinders 1 and 2, the profile of the blades is made with the possibility of creating opposite air flows when the fan rotates in one 29 direction. Tube 4 can be additionally equipped with an X-shaped cross-section metal plate 19. c The recuperator is installed in the opening of the wall of the room to be ventilated.

The tubular recuperator of ventilation air heat on counterflows works as follows.

When the fan 12 is turned on, under the action of the blades 16, fresh atmospheric air passes into the middle of the inner body cylinder 2 and everywhere through the holes 10 and 9, it enters through the cavity of the metal tube C into the room 60. Under the action of blades 15, warm air from the room passes into the cavity of the housing cylinder 2 from the other side of the recuperator and through the metal tube 4 with a bent end 5 gets outside. The exhaust air flow is also created in the cavity between the plastic cylinders 1 and 2 of the recuperator body thanks to the opening 8. Passing through the cavity of the tube 4 and the cavity between the cylinders 1 and 2, the warm exhaust air heats the tubes

With and 4 heat exchangers and thus heats the fresh (inflow) air supplied from the street with the outside temperature.

During the passage of supply and exhaust air through the cavities of the recuperator elements, heat exchange occurs between them. Outside air enters the room partially heated (in summer, on the contrary - partially cooled) due to the heat (in summer - cold) taken from the air flow coming out of the room.

At the same time, the heat exchange process takes place through the heat transfer surface of the pipes and the air flows do not mix with each other.

The use of the proposed useful model allows you to reduce heating costs due to the effective recovery of exhaust air heat, increase the comfort level of living spaces, and avoid additional damage to the integrity of the walls of residential and administrative buildings.

Claims (2)

The formula of the invention 1. Tubular ventilation air heat recuperator on counterflows, containing heat exchangers placed in the housing, fans, which is distinguished by the fact that the housing is made of two hollow plastic cylinders of smaller and larger diameters, between which a package of heat exchangers is placed longitudinally, each of which is made of two coaxial metal tubes of smaller and larger diameters, and the tube of smaller diameter is L-shaped and rigidly fixed with a bent end in the hole of the wall of the tube of larger diameter from the side of its open end with access to the cavity of the inner body cylinder Through the hole in its wall, next to the or, which is perforated an additional hole, and on the side of the closed end of the tube with a larger diameter, a hole is made in the wall, the center of which is coaxial with the center of the hole in the wall of the inner body cylinder, which houses a fan with one impeller or two oppositely located impellers, the rotation of the blades of which provides bilateral suction i am air 2. Tubular ventilation air heat recuperator on counterflows according to claim 1, which differs in that the smaller diameter tube has an X-shaped cross-section metal plate with its ribs resting on the inner surface of the tube. - in IF) "c) in the village - and? ime) -i («c) 1 that 60 b5