RU209218U1 - VENTILATION UNIT WITH HEAT RECOVERY - Google Patents

Abstract

The ventilation device with heat recovery includes a heat exchanger with air ducts, a fan and a heat exchanger, interconnected and mounted in the wall of the room between its outer and inner surfaces, and two direct-flow concentric cylinders are installed in the hole between the outer and inner surfaces of the room, between which, along the outer surface of the inner Ω-shaped corrugated heat exchanger is attached to the cylinder, and external and internal fans are additionally installed oppositely on the inner surface of the cylinder, the openings of the device are equipped with corresponding external and internal covers, where the internal cover is respectively equipped with a supply air grill and an internal air outflow slot with an air diffuser, the outer cover is additionally equipped with a condensate drain hole, located outside the surface of the outer wall, and an air intake grille, and a corresponding internal air outlet grille.

Description

The utility model relates to room ventilation technology, in particular to extract air heat recovery devices.

Modern energy problems have increased the demand for the latest designs and cheaper forced ventilation, especially with the massive demand for heat recuperators.

The replacement and heating of air in residential areas of megacities has led to the emergence of the latest, more efficient designs of recuperators.

So, according to the Patent of Ukraine 101552 Heat exchanger / 25.09.2015, Bull. No. 18/ declared in 2015, a combined-type recuperative device for ventilation systems was registered, which contains a housing, a system of directional air ducts, contains a cell structure that consists of three zones with different functional purposes, an increase in the active areas of heat carrier flow.

Patent of Ukraine №27057 Tubular heat exchanger 06/22/2007 registered a recuperative device with complex L-shaped air ducts, perforated wall holes and a complex fan with counter-rotating impellers, which led to significant energy consumption due to excessive turbulence of air movement in the air ducts.

These devices are difficult to manufacture and do not meet modern energy saving requirements.

The objective of the proposed solution is the technical and technological simplification of the device for the production and saving of heat at the consumer.

The problem is solved by the fact that in the ventilation device with heat recovery, which includes a heat exchanger with air ducts, a fan and a heat exchanger, interconnected and mounted in the wall of the room, between its outer and inner surfaces, two direct-flow concentric cylinders 3, 4, between which an Ω-shaped corrugated heat exchanger is attached along the outer surface of the inner cylinder 4, and external and internal fans 5 and 8 are additionally installed oppositely on the inner surface of the cylinder 4, the openings of the device are equipped with the corresponding external 10 and internal 14 covers, where the inner cover 10 is respectively equipped with a supply air grille 11 and a slot 12 for the outflow of internal air with an air diffuser 13, the outer cover 14 is additionally equipped with a condensate drain hole 15, placed beyond the plane of the surface of the outer wall 1, with an air grille 16 a and grate 17 for ejecting internal air, between the heat exchanger 6 and the outer wall of the inner cylinder 4, an additional heating element 7 is installed.

The device is illustrated in the drawings, where in Fig. 1-7 shown

Fig. 1. Longitudinal section of the device, where

1 - the surface of the outer wall of the room

2 - surface of the inner wall

3 - outer cylinder

4 - inner cylinder

5 - external fan

6 - heat exchanger

7 - heating element of the heat exchanger

8 - internal fan

9 - dividing partition

10 - inner cover

11 - supply grille (clean air)

12 - air inflow slot

13 - air diffuser

14 - outer cover

15 - condensate drain hole

16 - external supply air intake grille

17 - grille for ejection of internal warm air

18 - hole for mounting the device.

Fig. 2. Cross-section of the device with the "cut-out" of the inner cover, where you can see

3 - outer cylinder

4 - inner cylinder

6 - heat exchanger

8 - internal fan

10 - inner cover

11 - supply air grille.

Fig. 3. Cross section of the device with the "cut" of the outer cover, where you can see

3 - outer cylinder

4 - inner cylinder

5 - external fan

6 - heat exchanger

14 - outer cover

15 - condensate drain hole

17 - grate for ejection of internal air.

Fig. 4. Longitudinal section of the device showing the movement of air in statics, where you can see

1 - the surface of the outer wall of the room

2- surface of the inner wall

3 - outer cylinder

4 - inner cylinder

5 - external fan

6 - heat exchanger

7 - heating element of the heat exchanger

8 - internal fan

9 - dividing partition

10 - inner cover

11 - supply grille (clean air)

12 - air inflow slot

13 - air diffuser

14 - outer cover

15 - condensate drain hole

16 - external supply air intake grille

17 - grille for ejection of internal warm air

18 - hole for mounting the device.

With idle fans 5, 8, ventilation is carried out through cylinders 3, 4 according to the usual laws of physics.

External air (cold) due to the pressure difference penetrates through the intake grate 16 into the space between cylinders 3 and 4, passes through the heat exchange surface of the corrugated heat exchanger 6, after which it passes through the holes in the internal cylinder 4, bypasses the air diffuser 13 and enters the room through grill 11 of the inner cover 10. The process described above can be replaced by changing the position of the inner cover 10, then the process of air movement in the device will not be carried out.

The device is installed in a wall hole without additional assembly and plumbing work, compacted by traditional means, exposed to the possibility of air movement and condensate outflow by gravity, without the use of special channels and containers, which does not destroy the building.

The device, in itself, without turning on the fans 5, 8 serves as the primary ventilation means of the room. (Fig. 4)

The accompanying harmful microflora that accumulates in the device also does not threaten the user.

Device operation in dynamics.

In FIG. 5 shows a longitudinal section of the device showing the movement of air during operation of one - internal - fan, where

1 - the surface of the outer wall of the room

2 - surface of the inner wall

3 - outer cylinder

4 - inner cylinder

5 - external fan

6 - heat exchanger

7 - heating element of the heat exchanger

8 - internal fan

9 - dividing partition

10 - inner cover

11 - supply grille (clean air)

12 - air inflow slot

13 - air diffuser

14 - outer cover

15 - condensate drain hole

16 - external supply air intake grille

17 - grille for ejection of internal warm air

18 - hole for mounting the device.

External air (cold) under the influence of the internal fan 8 during the rotation of the blades on its impeller penetrates through the intake grate 16 into the space between cylinders 3 and 4, passes along the heat exchange surface of the corrugated heat exchanger 6, after which it passes through the holes in the internal cylinder 4 and enters into the space of the inner cylinder 4, bypasses the air diffuser 13 and enters the room through the grate 11 of the inner cover 10.

The baffle 9, installed inside the inner cylinder 4, provides flow separation when warm and cold air in the device do not mix.

In FIG. Fig. 6. Longitudinal section of the device showing the movement of air during operation of one fan - external

1 - the surface of the outer wall of the room

2 - surface of the inner wall

3 - outer cylinder

4 - inner cylinder

5 - external fan

6 - heat exchanger

7 - heating element of the heat exchanger

8 - internal fan

9 - dividing partition

10 - inner cover

11 - supply grille (clean air)

12 - air inflow slot

13 - air diffuser

14 - outer cover

15 - condensate drain hole

16 - external supply air intake grille

17 - grille for ejection of internal warm air

18 - hole for mounting the device.

The internal warm air under the influence of the external fan 5, when the blades rotate on its impeller, passes through the slot 12 of the outflow of internal air, enters the space between the cylinders 3 and 4, passes along the heat exchange surface of the corrugated heat exchanger 6, thus transfers its thermal energy and heats ( cools) the walls of the corrugated heat exchanger 6, after which it passes through the holes in the inner cylinder 4 and enters the space of the inner cylinder 4, and is removed outside through the grille 17 for ejection of external air, which is located on the cover 14 external.

In FIG. 7 longitudinal section of the device showing the air with both fans running simultaneously

1 - the surface of the outer wall of the room

2 - surface of the inner wall

3 - outer cylinder

4 - inner cylinder

5 - external fan

6 - heat exchanger

7 - heating element of the heat exchanger

8 - internal fan

9 - dividing partition

10 - inner cover

11 - supply grille (clean air)

12 - air inflow slot

13 - air diffuser

14 - outer cover

15 - condensate drain hole

16 - external supply air intake grille

17 - grille for ejection of internal warm air

18 - hole for mounting the device.

With the simultaneous operation of both fans, namely: the internal fan 8 and the external fan 5, air flows that move in opposite directions pass along the wall of the corrugated heat exchanger 6, thus the internal air transfers its thermal energy and heats (cools) the walls of the corrugation - heat exchanger 6. When external air passes along the walls of the corrugated heat exchanger 6, it heats up (cools) under the influence of surface temperature and enters the room.

When the supply and exhaust air of different temperatures pass along the corrugation - heat exchanger 6, heat exchange (recovery) occurs between them.

In essence, the proposed solution, the cylinder 3 of the proposed device, together with the cylinder 4, is inserted into the hole 18 of the wall with the release of the covers 10, 14 beyond the plane of the surfaces 1, 2 of the wall of the premises so that the cylinder 4 is internal with the corrugated heat exchanger 6 attached to it, the fans 5 and 8, diffuser 13, heating element 7, partition 9 provided ventilation and heat exchange in the air ducts and recuperation of oncoming flows of supply and exhaust ventilation.

The condensate drain hole 15, installed outside the body of the building, serves as a means of preventing wall blockage and makes it impossible for harmful microflora to spread in the hole 18.

The radial slot 12 for the outflow of internal air is organically arranged on the surface of the internal cylinder 4 and serves as an effective intake of internal "warm" air.

The device is clearly simplified, which contributes to its reliability and duration of use.

The industrial release of the device is planned for the 4th quarter of 2020.

Claims (3)

1. A ventilation device with heat recovery, including a heat exchanger with air ducts, a fan and a heat exchanger, interconnected and mounted in the wall of the room between its outer and inner surfaces, characterized in that two direct-flow concentric cylinders are installed in the hole between the outer and inner surfaces of the room, between which on the outer surface of the inner cylinder is attached

a corrugated heat exchanger in section, and external and internal fans are additionally installed oppositely on the inner surface of the cylinder, the openings of the device are equipped with corresponding external and internal covers, where the internal cover is respectively equipped with a supply air grill and an internal air outflow slot with an air diffuser, the external cover is additionally it is equipped with a condensate drain hole located outside the plane of the surface of the outer wall, and an air intake grille, and a corresponding internal air outlet grille. 2. A ventilation device with heat recovery according to claim 1, characterized in that a heating element is additionally installed between the heat exchanger and the outer wall of the inner cylinder. 3. A ventilation device with heat recovery according to claim 1, characterized in that a separating partition is additionally attached to the inner cylinder.

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