RU2657992C1 - Supply-exhaust installation for ventilation of apartment - Google Patents

Abstract

FIELD: ventilation.

SUBSTANCE: invention relates to ventilation and air conditioning with regenerative heat exchangers and can be used to create a microclimate in residential, public, administrative and industrial premises. Installation contains pressure and exhaust air ducts, a housing with channels for supply and exhaust air with branch pipes having valve assemblies, an electric fan and a chamber with a regenerative heat exchanger. These channels are interconnected by an intermediate air duct forming said chamber with a regenerative heat exchanger made in the form of a felt filter. In each of said inner and outer nozzles, said electric fan is provided with a valve device adjacent thereto in the form of a check valve with the possibility of alternating flow through the regenerative heat exchanger of the intermediate air duct of the atmospheric outside air and the air removed from the apartment in the modes of the three phases selected by the relay: phase 1 – "inflow", at which valve devices of the external inlet branch pipe and the internal branch pipe of the pressure duct are open, and the valve devices of the outer outlet pipe and the inner branch pipe of the exhaust duct are closed, and the electric fans adjacent to the open valve devices are switched on to the run of atmospheric outside air through the regenerative heat exchanger into the living quarters of the apartment; phase 2 is the "outlet" at which the valve devices of the outer outlet and the inner branch pipe of the exhaust duct are open, and the valve devices of the external inlet pipe and the internal branch pipe of the pressure duct are closed, and the electric fans adjacent to the open valve devices are included in the run of indoor room air of room temperature through the regenerative heat exchanger into the atmosphere, and phase 3 – "recirculation", at which the valve devices of the internal branch pipe of the pressure duct and the inner branch pipe of the exhaust duct are open, and the valve devices of the outer outlet and the external inlet are closed, and the electric fans adjacent to the open valve devices are included in the internal air run through the regenerative heat exchanger into the living quarters of the apartment.

EFFECT: reduction of energy consumption, improvement of the microclimate by reducing the dehumidification of apartment air and simplifying the manufacturing technology.

14 cl, 12 dwg

Description

The invention relates to ventilation and air conditioning with regenerative heat exchangers and can be used to create a microclimate in residential, public, administrative and industrial premises.

Known supply and exhaust installation for ventilation of the apartment with built-in exhaust openings of intake shafts in non-residential premises, containing pressure and exhaust ducts with intake and exhaust openings connected to channels for supply and exhaust air in the cavity of the housing by means of internal nozzles having valve devices and communicated with the atmosphere of external air through external pipes, an electric fan and a chamber with regenerative heat exchanger, while the internal rhnost body is covered heat insulating material, and in commercial premises has standard apartment exhaust air intake openings shafts (RU Patent No. 127875, F24F 5/00, Publ. 10.05.2013 g).

This technical solution has an inherent set of features that is closest to the set of essential features of the invention, it has the same purpose as the invention, and is closest in terms of the result achieved, therefore it is taken as a prototype.

The disadvantage of this technical solution is: increased energy consumption, unacceptable microclimate due to excessive drainage of room air and the complexity of manufacturing.

The technical result from the use of the invention is to reduce energy consumption, improve the microclimate by reducing the degree of dehumidification of indoor air and simplify manufacturing technology.

Below are disclosed all the general and particular essential features of the invention, characterizing their causal relationship with the specified technical result, sufficient for implementation by a person skilled in the art.

The supply and exhaust installation for ventilation of the apartment premises with built-in exhaust openings of the intake shafts in non-residential premises contains pressure and exhaust ducts with intake and exhaust openings connected to the supply and exhaust air channels in the body cavity by means of internal nozzles having valve devices and in communication with the atmosphere external air through external pipes, an electric fan and a chamber with regenerative heat exchanger. The inner surface of the case is covered with heat-insulating material, and in non-residential premises standard apartment exhaust openings of air intake shafts are located. These intake openings of the exhaust duct are located in at least one of the living rooms or in the hallway. The indicated inlet openings of the pressure duct are located in each living room. The case of the supply and exhaust unit is installed in one of the non-residential premises. In this case, the housing cavity is connected with the atmosphere of the outdoor air and the apartment premises by means of channels for supply and exhaust air made in it in the form of internal pipes connected to the rooms and external pipes connected to the atmosphere of the outdoor air, while all pipes are equipped with valve devices. At the same time, the design parameters that establish the balance of the performance of the inlet and outlet openings of the apartment premises are limited by the air exchange balance in the apartment, at which the supply air volume is equal to or greater than the sum of the volume of air removed from the premises through the regenerative heat exchanger and the volume of air removed through the specified standard apartment exhaust openings air inlets from non-residential premises of the apartment. These channels are interconnected by an intermediate duct forming the specified chamber with a regenerative heat exchanger made in the form of a felt filter. At the same time, the specified electric fan is installed in each of the mentioned internal and external pipes, and the valve device adjacent to it is made in the form of a check valve with the possibility of alternating flow through the regenerative heat exchanger of the intermediate air duct of the outside air and the internal air removed from the apartment in three-phase modes selected by the relay : phase 1 - “inflow”, in which the valve devices of the external inlet pipe and the internal pipe of the pressure duct are open, and TED device external outlet and an internal exhaust duct closed pipe, wherein adjacent to the valve opening pressure electric devices included in the run atmospheric outside air through a regenerative heat exchanger to accommodation apartments; phase 2 - “outlet”, in which the valve devices of the external exhaust pipe and the internal pipe of the exhaust duct are open, and the valve devices of the external pipe and the internal pipe of the pressure pipe are closed, and the electric fans adjacent to the open valve devices are connected to run the room temperature indoor air through regenerative heat exchanger into the atmosphere and phase 3 - “recirculation”, in which the valve devices of the internal outlet of the pressure head are open the duct and the internal pipe of the exhaust duct, and the valve devices of the external exhaust pipe and the external inlet pipe are closed, and the electric fans adjacent to the open valve devices are connected to run the internal air through the regenerative heat exchanger into the living quarters of the apartment. Check valves can be located in front of or behind electric fans. The device can be equipped with an air heater - a heater, as well as one electric fan adjacent to the regenerative heat exchanger and valve devices with an electromagnetic drive. These channels can be L-shaped. The specified time relay for the phases of "inflow", "release" can be performed in the form of a pressure sensor, and for the phase of "recirculation" in the form of a time interval adjuster. The specified time relay for the "inflow" phase can be made in the form of a pressure sensor, for the "release" phase in the form of a temperature sensor located in the external outlet pipe, and for the "recirculation" phase can be made in the form of a time interval adjuster. The specified time interval relay can be made in the form of sensors of temperature, pressure, humidity, time interval setter. The specified felt filter can be made in the form of felt from: copper metal fibers; aluminum metal fibers; stainless steel fibers; synthetic fibers; from a ceramic washable material with filtering properties for air or from a plastic washable material with filtering properties for air.

The invention is illustrated by drawings, where: in FIG. 1 shows the installation location in a one-room apartment; in FIG. 2 - longitudinal section of the housing; in FIG. 3 - phase 1 "influx" in a two-room apartment; in FIG. 4 is a diagram of air circulation in the housing in the phase of the "influx"; in FIG. 5 - phase 2 “release” in a two-room apartment; in FIG. 6 is a diagram of air circulation in the housing in the "release" phase; in FIG. 7 - phase 3 "recycling" in a two-room apartment; in FIG. 8 is a diagram of air circulation in the housing in the "recirculation" phase; in FIG. 9 - embodiment with one fan and four valves; FIG. 10 is a variant of the location of the channels; in FIG. 11 - channel arrangement; in FIG. 12 is a view A in FIG. eleven.

The supply and exhaust installation for ventilation of the premises of apartment 1 contains pressure 2 and exhaust 3 air ducts made with intake 4 and exhaust 5 openings in communication with channels 7 made in the cavity of the housing 6.

The cavity of the housing 6 is connected with the premises of the apartment and with the atmosphere of the outside air through channels 7 for supply and exhaust air made in it in the form of internal nozzles 8 and 9 connected to the premises and external nozzles 10 and 11 communicated with the atmosphere of the outdoor air, wherein all the nozzles are equipped with valve devices 12.

The installation comprises an electric fan 13 and a chamber 14 with a regenerative heat exchanger 15.

The inner surface of the housing 6 is covered with insulating material (not shown), and in non-residential premises 16 and 17 (Fig. 1) there are standard apartment exhaust openings 18 of the air intake shafts.

These intake openings 4 of the exhaust duct 3 are located in at least one of the living rooms 19 (Fig. 1) or in the hallway.

These inlets 5 of the pressure duct 2 are located in each living room 19 (FIG. 1) and 20, 21 (FIG. 3, FIG. 5, FIG. 7).

The case 6 of the supply and exhaust installation can be installed in one of the non-residential premises, for example, in the kitchen 17 (Fig. 1) or on the loggia 22 (Fig. 3, Fig. 5, Fig. 7).

At the same time, the design parameters that establish the balance of the performance of the inlet 4 and outlet 5 openings of the premises of apartment 1 are limited by the balance of air exchange in apartment 1, in which the volume of supply air is equal to or greater than the sum of the volume of air removed from the premises 19 through the regenerative heat exchanger and the volume of air removed through the indicated standard apartment exhaust openings 18 of the air intake shafts from non-residential premises 16 and 17 of apartment 1.

These channels 7 are interconnected by an intermediate duct 23 containing the specified chamber 14 with a regenerative heat exchanger 15, made in the form of a felt filter.

In each of the mentioned internal 8 and 9 and external 10 and 11 nozzles, the specified electric fan 13 is installed with an adjacent valve device 12 in the form of a check valve with the possibility of alternating flow through the regenerative heat exchanger 15 of the intermediate air duct 14 of the outside air and air removed from the apartment 1 into modes of three phases selected by the relay: phase 1 - "inflow" (Fig. 3, Fig. 4), in which valve devices 12 of the external inlet pipe 11 and the internal pipe 9 of the pressure head 2 of the duct are open the valve devices 12 of the outer exhaust pipe 10 and the inner pipe 8 of the exhaust duct 3 are closed, and the electric fans 13 adjacent to the open valve devices 12 are connected to run outside air through the regenerative heat exchanger 15 into the living rooms 19 (Fig. 1) and 20, 21 (Fig . 3, Fig. 5, Fig. 7);

phase 2 - “outlet” (Fig. 5 and Fig. 6), in which the valve devices 12 of the outer exhaust pipe 10 and the inner pipe 8 of the exhaust duct 3 are open, and the valve devices 12 of the external inlet pipe 11 and the internal pipe 9 of the pressure duct 2 are closed moreover, the electric fans 13 adjacent to the open valve devices 12 are connected to run the room temperature indoor air through the regenerative heat exchanger 15 into the atmosphere and phase 3 is “recirculation” (Fig. 7 and Fig. 8), in which the valve units are open properties 12 of the internal pipe 9 of the pressure duct 2 and the internal pipe 8 of the exhaust duct 3, and the valve devices 12 of the external exhaust pipe 10 and the external inlet pipe 11 are closed, and the electric fans 13 adjacent to the open valve devices 12 are connected to run the internal air through the regenerative heat exchanger 15 in living quarters 19 (Fig. 1) and 20, 21 (Fig. 3, Fig. 5, Fig. 7).

The outer nozzles 10 and 11 may be provided with external ducts 24.

Check valves 12 may be located in front of or behind the electric fans 13.

The device can be equipped with an air heater - a heater (not shown). A device variant is possible, for example, with one electric fan 13 (Fig. 9) in the intermediate duct 23 adjacent to the regenerative heat exchanger 15, and valve devices 12 in each of the four nozzles 8, 9, 10, 11.

When this valve device 12 can be performed with an electromagnetic actuator (not shown).

These channels can be L-shaped (Fig. 11).

The intermediate duct 23 may have a C-shape in communication with the channels 7 through the holes.

The specified time relay for the phases of "inflow", "release" can be performed in the form of a pressure sensor, and for the phase of "recirculation" in the form of a time interval adjuster.

The specified time relay for the "inflow" phase can be made in the form of a pressure sensor, for the "release" phase in the form of a temperature sensor located in the external outlet pipe 10, and for the "recirculation" phase can be made in the form of a time interval adjuster.

The specified time interval relay can be made in the form of sensors of temperature, pressure, humidity, time interval setter.

The specified felt filter 15 can be made in the form of felt from: copper metal fibers; aluminum metal fibers; stainless steel fibers; synthetic fibers; from a ceramic washable material with filtering properties for air or from a plastic washable material with filtering properties for air.

Comparison of the claimed technical solution with the prior art known from the scientific, technical and patent documentation as of the priority date in the main and related sections did not reveal a tool that has features identical to all the features contained in the claims proposed by the applicant, including the purpose of the application. That is, the set of essential features of the claimed solution was not previously known and is not identical to any known technical solutions, therefore, it meets the condition of patentability “novelty”.

The technical solution is workable, feasible and reproducible, and the distinguishing features of the device allow to obtain the desired technical result, i.e. are significant.

The invention, as described in the formula, can be carried out using the tools and methods described in the prototype patent RU127875, which became public until the priority date of the invention.

Therefore, the claimed technical solution meets the condition of patentability "industrial applicability".

An analysis of the known technical solutions in the art showed that the proposed technical solution does not follow explicitly from the prior art for the specialist, since solutions having features matching his distinctive features are not identified, and the known effects of the distinctive features on the identified solutions are not confirmed the technical result indicated in the application materials.

Those. the claimed solution has features that are not found in the known technical solutions, and the use of these features in the claimed combination of essential features makes it possible to obtain a new technical result - reducing energy consumption, improving the microclimate by reducing the degree of drainage of room air and simplifying manufacturing technology.

Therefore, the proposed technical solution can only be obtained through a creative approach and is not obvious to the average person skilled in this field, i.e. has an inventive step in comparison with the existing level of technology.

The implementation of the claimed invention is achieved by the implementation of this purpose.

To confirm the feasibility of carrying out the invention, the following information about the operation of the device is disclosed, disclosing how the invention can be implemented with the realization of the destination indicated by the applicant and with confirmation of the possibility of achieving a technical result in carrying out the invention.

The supply and exhaust installation works as follows.

Energy efficiency is achieved due to the balance between the supply air and the exhaust air through the device itself and through standard apartment exhaust shafts (which is not taken into account in other similar devices). This balance allows maximum use of the heat recovered in the device (taking into account the fact that heat is lost through standard apartment exhaust shafts in any case, since warm air is removed through them).

The installation provides for alternating passage through the regenerative heat exchanger 15 of the intermediate duct 23 of atmospheric external air and air removed from the apartment 1 in the three-phase modes selected by the relay: phase 1 - "inflow" (Fig. 3, Fig. 4), in which the valve devices 12 the outer inlet pipe 11 and the inner pipe 9 of the discharge duct 2, and the valve devices 12 of the outer exhaust pipe 10 and the inner pipe 8 of the exhaust duct 3 are closed, and adjacent to the open valve devices 12, electric fans 13 are connected to run outside atmospheric air through a regenerative heat exchanger 15 into living quarters 19 (FIG. 1) and 20, 21 (FIG. 3, FIG. 5, FIG. 7);

phase 2 - “outlet” (Fig. 5 and Fig. 6), in which the valve devices 12 of the outer exhaust pipe 10 and the inner pipe 8 of the exhaust duct 3 are open, and the valve devices 12 of the external inlet pipe 11 and the internal pipe 9 of the pressure duct 2 are closed moreover, adjacent to the open valve devices 12, the electric fans 13 are included to run the room temperature indoor air through the regenerative heat exchanger 15 into the atmosphere and,

phase 3 - "recirculation" (Fig. 7 and Fig. 8), in which the valve devices 12 of the internal pipe 9 of the pressure duct 2 and the internal pipe 8 of the exhaust duct 3 are open, and the valve devices 12 of the external exhaust pipe 10 and the external inlet pipe 11 are closed moreover, adjacent to the open valve devices 12, the electric fans 13 are included to run the indoor air through the regenerative heat exchanger 15 into the living quarters 19 (Fig. 1) and 20, 21 (Fig. 3, Fig. 5, Fig. 7).

The forced-air and exhaust installation can be used to create a favorable microclimate in the premises of an apartment, especially in cities with a polluted atmosphere and temperature fluctuations.

The advantages of the invention from the point of view of practicality in real use - the simplicity of the design allows for easy cleaning of all parts of the structure, the ease of removal and the ability to repeatedly wash the filter - regenerative heat exchanger, which is very important for applications in cities with severe air pollution, are especially relevant.

The device according to the invention is most balanced for the return of moisture, which occurs without freezing the heat exchanger in almost any frost, unlike other systems, even if they allow the moisture to return back to the room.

The operation of the device in the winter period is characterized by the fact that during the first phase of the "influx" due to the street cold air, the filter is cooled - the regenerative heat exchanger, as well as the inner walls of the internal pipe of the pressure duct. During the second “release” phase, warm room air comes in contact with the cold fibers of the regenerative heat exchanger, begins to cool, while giving away moisture and leaving it on the fibers of the regenerative heat exchanger, this completes the second phase (so that moisture is not thrown out) and the third phase begins - “ recycling. "

During the third phase, the regenerative heat exchanger is finally warmed up by the room air passing through it to room temperature, at the same time, droplets of moisture condensed on it during the previous “release” phase are mixed with the stream of room air, thereby moistening the stream of room air, at the same time , the regenerative heat exchanger and the internal pipe of the pressure duct are warmed up with room air. At the beginning of the heating of the internal pipe of the pressure head duct (when the pipe is still cold), condensation forms on its internal walls, but, as the room air moves, the internal walls of the pipe, as well as in the case of a regenerative heat exchanger, are heated to room temperature, all condensed moisture mixes with room air, and the entire system is drained from the inside by a stream of room air. Thus, moisture returns to the room and the entire system warms up to almost room temperature.

Next comes the first phase of the "influx" and the cycle repeats. During the “inflow” phase, cold street air comes into contact with a regenerative heat exchanger heated to room temperature and with the heated inner walls of the internal pipe of the pressure duct. Due to the heat of the regenerative heat exchanger, cold street air warms up and enters the room, thereby cooling the regenerative heat exchanger and, as the regenerative heat exchanger cools, it gradually cools the inner walls of the internal pipe of the pressure head duct. Since moisture is not released during heating of the air, the “influx” phase occurs without the release of moisture. Next comes phase 2 “release”, and the cycle repeats.

Thus, the device minimizes the release of moisture in the winter to the street, thereby simplifying the task of humidifying dry room air in the winter.

The return of humidity affects the creation of a microclimate that is comfortable for a person, since humidity comfortable for a person in winter should be at the level of 30% -40%. In winter, the air in the apartment is dry, the situation is aggravated by the influx of street air, the relative humidity of which drops significantly when warming to room temperature, which in winter leads to a drop in relative humidity in the room itself. Dry air in the apartment has an adverse effect on human health. Therefore, the task of preventing the release of moisture from the apartment in the winter and humidifying the air entering the apartment is relevant for such devices.

In addition, during recirculation, indoor air is cleaned of dust, since the installation gives an additional effect in the form of an air purifier function.

Using the device makes it possible to reduce energy consumption due to the balance of the supply and exhaust air (taking into account the air removed through the standard apartment openings of the exhaust shafts), to reduce the degree of drying of the room air and to simplify the manufacturing technology.

Claims (14)

1. The supply and exhaust installation for ventilation of the premises of the apartment with built-in exhaust openings of the intake shafts in non-residential premises, containing pressure and exhaust ducts with intake and exhaust openings connected to the channels for supply and exhaust air in the body cavity by means of internal nozzles having valve devices and communicated with the atmosphere of external air through external pipes, an electric fan and a chamber with regenerative heat exchanger, the inner surface the housing is covered with a heat-insulating material, characterized in that the said intake openings of the exhaust duct are located in at least one of the living rooms or in the hallway, and the indicated inlet openings of the pressure duct are located in each living room, the supply and exhaust unit is installed in one of the non-residential premises , while the cavity of the housing is connected with the atmosphere of the outdoor air and the premises of the apartment by means of channels made for it for supply and exhaust air in the form of internal pipes, with communicated with the premises and external pipes connected to the atmosphere of outdoor air, all pipes being equipped with valve devices, while the design parameters that establish the balance of the performance of the inlet and outlet openings of the apartments are limited by the balance of air exchange in the apartment, in which the supply air volume is equal to or greater than the sum of the volume of air removed through the regenerative heat exchanger from the living quarters and the amount of air removed through the specified built-in apartment hood openings of air intake shafts from non-residential premises of the apartment, said channels being interconnected by an intermediate duct forming said chamber with a regenerative heat exchanger made in the form of a felt filter, wherein said electric fan is installed in each of said internal and external nozzles, and the valve adjacent to it the device is made in the form of a check valve with the possibility of alternating flow through the regenerative heat exchanger of the intermediate air duct outside air and air removed from the apartment in the three-phase modes selected by the relay: phase 1 - “inflow”, in which the valve devices of the external inlet pipe and the internal pipe of the discharge duct are open, and the valve devices of the external exhaust pipe and the internal pipe of the exhaust duct are closed, moreover, adjacent to the open valve devices, electric fans are included to run outside air through a regenerative heat exchanger into the living quarters of the apartment; phase 2 - “outlet”, in which the valve devices of the external exhaust pipe and the internal pipe of the exhaust duct are open, and the valve devices of the external pipe and the internal pipe of the pressure pipe are closed, and the electric fans adjacent to the open valve devices are connected to run the room temperature indoor air through regenerative heat exchanger into the atmosphere, and phase 3 - “recirculation”, in which the valve devices of the internal pressure pipe duhovoda and internal nozzle exhaust duct, a valve device and the outer outlet of the outer inlet closed, wherein adjacent to the valve opening pressure electric devices included in the run of indoor air through a regenerative heat exchanger in an apartment dwellings. 2. Installation according to claim 1, characterized in that the check valves are located in front of the electric fans. 3. Installation according to claim 1, characterized in that the check valves are located behind the electric fans. 4. Installation according to claim 1, characterized in that the device is equipped with an air heater - a heater. b. Installation according to claim 1, characterized in that said channels are L-shaped. 6. Installation according to claim 1, characterized in that said time relay for the phases "inflow", "release" is made in the form of a pressure sensor, and for the phase "recirculation" in the form of a time interval master. 7. Installation according to claim 1, characterized in that the said time switch for the "inflow" phase is made in the form of a pressure sensor, for the "release" phase in the form of a temperature sensor located in the external outlet pipe, and for the "recirculation" phase in the form time interval setter. 8. Installation according to claim 1, characterized in that said time interval relay is made in the form of temperature, pressure, humidity sensors, a time interval adjuster. 9. Installation according to claim 1, characterized in that said felt filter is made of copper metal fibers. 10. Installation according to claim 1, characterized in that said felt filter is made of aluminum metal fibers. 11. Installation according to claim 1, characterized in that said felt filter is made of stainless steel metal fibers. 12. Installation according to claim 1, characterized in that said felt filter is made of synthetic fibers. 13. Installation according to claim 1, characterized in that said felt filter is made of a ceramic washable material with filtering properties for air. 14. Installation according to claim 1, characterized in that said felt filter is made of plastic washable material with filtering properties for air.

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