RU127875U1 - AIR HANDLING UNIT FOR VENTILATION AND AIR CONDITIONING - Google Patents

Abstract

1. The supply and exhaust installation for ventilation and air conditioning, comprising a housing installed in the through hole of the outer wall of the building, the inner surface of the housing is covered with insulating material, a stationary regenerative nozzle and a reversible axial fan are located in the housing cavity, characterized in that the installation comprises a mobile air conditioner is included, and the wall of the body is bifurcated along its length with the formation of an annular channel between the parts of the wall with an exit to the atmosphere of the outside about air at one end and a plugged end at its other end, while the annular channel is connected to the duct of the mobile air conditioner through a pipe mounted in the outer part of the casing wall and having a valve latch, the cavity of the casing connected to the atmosphere of the outside air and the room through pipes having valve valves, while an air heater is installed in the body cavity. 2. Installation according to claim 1, characterized in that a filter for air entering the room is installed in the cavity of the housing. Installation according to claim 1, characterized in that the ends of the housing are equipped with protective grilles. Installation according to claim 1, characterized in that the stationary regenerative nozzle is made of corrugated aluminum foil.

Description

The utility model relates to techniques for ventilation and air conditioning and can be used in stand-alone year-round ventilation and air conditioning systems for residential and office premises.

A device for regulating heat transfer in a ventilation system, which operates as follows.

Heating gas, passing through the nozzle from top to bottom, gives it heat. In the next period of the regenerator’s operation, the heated medium (air) enters from the bottom up, receiving heat from the heated nozzle. Then the process is cyclically repeated. The regenerative heat exchanger nozzle in this device is a system of metal hemispheres arranged in a checkerboard pattern on the side faces of flat plates (RF patent No. 2075718, F28D 17/00, publ. 03.20.1997).

The use of metal elements leads to partial condensation of moisture during the movement of warm air from the room and its evaporation upon receipt of dry cold outside air.

The use of devices with heat exchangers of this type in cold climates leads to freezing of condensed moisture and partial or complete blockage of passage channels in the heat exchanger nozzle.

Also known is a supply and exhaust unit with a regenerative heat exchanger, comprising a housing, channels for supply and exhaust air, a fan and a chamber with regenerative heat exchanger (RF patent No. 2011127, P24F 5/00, publ. 15.04.1994).

A disadvantage of the known installation is the relatively low efficiency due to the cross-organization of air flows.

Closest to the claimed technical essence and the achieved result is a supply and exhaust installation for ventilation and air conditioning, comprising a housing installed in the through hole of the outer wall of the building, the inner surface of the housing is covered with insulating material, and in its cavity there is a stationary regenerative nozzle and a reversible axial fan (abstract of a dissertation for the degree of candidate of technical science, Vasiliev VA "Methods of calculating thermal processes in a stationary switching regenerative heat exchanger ", St. Petersburg, 2010, p.5 - prototype).

The prototype shows the design of the installation, in which the heat-accumulating mass of the nozzle in the cold season is alternately heated due to the heat of the exhaust air coming from the room and gives the accumulated heat to the cold supply air. However, with a significant temperature difference between indoor and outdoor air, heating the nozzle with exhaust air from the room is ineffective due to the large energy consumption for the fan in the operation of the nozzle for a long heat storage cycle.

In addition, this design of the installation does not allow for intensive air exchange in the room for normal human life.

The technical result of the utility model is the creation of a new design of the supply and exhaust unit for ventilation and air conditioning, which has high efficiency and increased air exchange in the room,

The technical result is achieved by the fact that in the supply and exhaust installation for ventilation and air conditioning, comprising a housing installed in the through hole of the outer wall of the building, the inner surface of the housing is covered with insulating material, a stationary regenerative nozzle and a reversible axial fan are placed in the cavity of the housing, according to the useful models, the installation includes a mobile air conditioner, and the body wall is bifurcated along its length with the formation of an annular channel between an hour wall, having an outlet to the atmosphere of external air at one end and a muffled end at its other end, while the annular channel is connected to the duct of the mobile air conditioner through a pipe mounted in the outer part of the casing wall and having a valve gate, and the cavity of the casing is connected with the atmosphere of the outer air and the room by means of the branch pipes having valve gate valves. at the same time, an air heater is installed in the body cavity.

In such an installation may be:

- a filter is installed in the body cavity for the air entering the room;

- the ends of the housing are equipped with protective grilles;

- the nozzle is made of corrugated aluminum foil.

In the proposed supply and exhaust installation for ventilation and air conditioning, placement in the cavity of the housing of the air heater provides, under conditions of a significant difference in temperature of indoor and outdoor air, when it is turned on, it allows rapid heating of the exhaust air, which accelerates the heat accumulation process by the nozzle, increasing the efficiency of the installation.

The use of a mobile air conditioner in the design of the installation, connected by an annular channel formed between parts of the housing wall bifurcated along the length of the body and released into the atmosphere, allows the release of room air while fresh air is supplied into the room through the nozzle in the body cavity, which increases the air exchange rate in the room .

A comparative analysis of the claimed device and prototype reveals the presence of distinctive features of the claimed utility model in comparison with the closest analogue, which allows us to conclude that the claimed device meets the criterion of utility model "novelty".

The presence of distinctive features makes it possible to obtain a positive effect, which consists in creating a new supply and exhaust system for ventilation and air conditioning, which has high efficiency and increased air exchange in the room.

The use of the claimed utility model in ventilation and air conditioning technology ensures that it meets the criterion of "industrial applicability".

The inventive utility model is depicted in the drawing, which shows a General view in section of a supply and exhaust installation of ventilation and air conditioning.

The supply and exhaust installation for ventilation and air conditioning contains a housing 1 installed in a through hole of the outer wall 2 of the building, the inner surface of the housing 1 is covered with insulating material 3, in the cavity of the housing 1 there is a stationary regenerative nozzle 4 and a reversible axial fan 5, while the installation includes a mobile air conditioner (not shown in the drawing), and the wall of the housing 1 is bifurcated along its length with the formation of an annular channel 6 between the parts of the wall with an outlet in atm a sphere of external air at one end and a plugged end 7 at its other end, while the annular channel 6 is connected to the duct of the mobile air conditioner through a pipe 8 with a valve gate mounted in the outer part 9 of the wall of the housing 1, and the cavity 10 of the housing 1 is connected with the atmosphere of the outer air and the room through the pipes 11, 12 with valve valves, while in the cavity 10 of the housing 1 is installed an air heater 13.

In such an installation, a filter 14 may be installed for the air entering the room; the ends of the housing 1 can be equipped with protective grilles 15; nozzle 4 can be made of corrugated aluminum foil.

When the unit is turned on during cold periods of the year, the reversible axial fan 5 used in it (for example, embpapst model "4312 GL") draws warm air from the room through the pipe 11 into the unit casing 1, the inner surface of which is covered with a heat-insulating material (for example, "foam foam" or "rockwool"). This air, passing through the stationary regenerative nozzle 4, heats it and is subsequently released through the pipe 12 into the atmosphere. After a certain period of time (70 seconds), the fan 5 changes the direction of rotation and subsequently (70 seconds) delivers cold outside air through the pipe 12 into the housing 1 of the installation. In this case, such air is heated by passing the nozzle 4, and through the air filter 14 (for example, a filter of the type "plasma" or "streamer") is cleaned into the room through the pipe 11. In the future, the cycles are repeated.

With a large temperature difference between atmospheric air and room air, the nozzle 4 is significantly cooled by atmospheric air, which requires a significant amount of time to heat it with a stream of warm room air. In this case, to shorten the heat storage cycle, the nozzle 4 briefly turns on the air heater 13 (for example, an electric air heater "IP 43" or "KH-E"). Then, in the regeneration cycle, the heat accumulated by the nozzle 4 heats the fresh cold atmospheric air entering the housing 1. This increases the efficiency of the installation in such climatic conditions.

In warm periods of the year, when the temperature of the air exceeds the room temperature, the cold content of room air is utilized in the installation, which, when the fan is operating, enters through the pipe 11 into the housing 1, where it passes through the nozzle 4, cools it and then is released into the atmosphere through the pipe 12. When changing the direction of rotation of the fan 10, the atmospheric air is sucked into the housing 1, which then passes through the nozzle 4 and enters the room cooled through the filter 14 and the pipe 12.

The mobile air conditioner included in the installation (for example, the Elektrolux or Beko mobile floor air conditioner) through the air duct connected to the nozzle 8 draws air from the ventilated room into the annular channel 6 from which it is vented to the atmosphere. At the same time as the air conditioner, the unit fan works to supply air from the atmosphere, which intensifies the process of air exchange in the room. Such an installation can be used by the user at any time if they feel a lack of oxygen in the atmosphere of the room, increasing the comfort of being in it.

Thus, the use in the supply and exhaust installation of an air heater and a mobile air conditioner ensures high efficiency of its work and increases the intensity of air exchange in a residential and office building compared to the prototype.

Claims (4)

1. The supply and exhaust installation for ventilation and air conditioning, comprising a housing installed in the through hole of the outer wall of the building, the inner surface of the housing is covered with insulating material, a stationary regenerative nozzle and a reversible axial fan are located in the housing cavity, characterized in that the installation comprises a mobile air conditioner is included, and the wall of the body is bifurcated along its length with the formation of an annular channel between the parts of the wall with an exit to the atmosphere of the outside about air at one end and a plugged end at its other end, while the annular channel is connected to the duct of the mobile air conditioner through a pipe mounted in the outer part of the casing wall and having a valve latch, the cavity of the casing connected to the atmosphere of the outside air and the room through pipes having valve valves, while an air heater is installed in the body cavity. 2. Installation according to claim 1, characterized in that a filter for the air entering the room is installed in the cavity of the housing. 3. Installation according to claim 1, characterized in that the ends of the housing are equipped with protective grilles. 4. Installation according to claim 1, characterized in that the stationary regenerative nozzle is made of corrugated aluminum foil.

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