RU2427764C1 - Installation for micro-climate in room - Google Patents

Abstract

FIELD: power engineering. ^ SUBSTANCE: installation consists of heating gas boiler, of cooling aggregate with thermo-regulating valve, also, part of cooling aggregate is separated into a separate unit and is located on external wall of room, while another part of aggregate - evaporator is pressure tight installed inside heating boiler and is connected with offset unit by means of copper pipes. Pipelines with a pump, temperature sensor, expansion tank and batteries are connected to the boiler. ^ EFFECT: avoiding noise in room, reduced output of electric power. ^ 1 dwg

Description

The invention relates to a power system, in particular to devices for creating a microclimate in a room.

The objective of the invention: the development of the installation to create a microclimate in the room for use in the field of application of reversible air conditioners - devices that cool the air in residential and other rooms in the warm season and heat these rooms in the cold season.

Air conditioners are known that cool indoor air in the warmer months, use an indoor evaporator that draws heat from the air in the room, a compressor with a drive in which the vapor of the working fluid is compressed, and a condenser in which the vapor of the fluid undergoes phase transition and, turning into a liquid, give off latent heat to the outside air.

Air reversible air conditioners are known as air-to-air heaters, in which during the cold season the evaporator and condenser are interchanged, for example, having a four-way valve for reversing purposes. In them, in the cold season, the heat exchanger inside the room serves as a condenser. And the vapor of the working fluid gives off heat to the air inside the premises, thereby heating these rooms. The heat is taken from the outside air in the evaporator, which in cold weather is an external heat exchanger. Thus, in parallel with the existing air conditioning, one has to have, as a rule, qualitatively different heating devices, most often electric heaters, the main negative quality of which is the “burning out” of oxygen in the room and high energy consumption.

Famous household autonomous air conditioning (application from 05.01.2000, No.2000000131 / 06), patent 2170886, F24F 1/02, 2001 - prototype.

The main disadvantage of these systems is that the temperature of heating the air in the room is limited, and the required temperature is provided mainly in one room.

The task of the invention is to develop a device that eliminates the above disadvantages.

The proposed installation for creating a microclimate in the room contains a gas heating boiler, a refrigeration unit with a thermostatic valve, and part of the refrigeration unit is allocated in a separate unit and located on the outer wall of the room, and the other part of the unit is an evaporator, hermetically integrated inside the boiler and connected to a remote unit copper insulated pipes, pipelines with a pump, temperature sensor, expansion tank and batteries are connected to the boiler. The installation allows not only heating the room in the winter, but also cooling the room in the summer, and not in a separate room, but at the same time in all rooms of the living room.

The technical result achieved by the implementation of this invention is that it reduces energy consumption, reduces noise in the room, extends the range of adjustable temperatures, and not in one room, as happens when using an air conditioner or split system, but in all rooms of a residential at home, indoor aesthetics are improving.

The task is achieved using the proposed device containing a heating gas boiler, a refrigeration unit with a thermostatic valve, and part of the refrigeration unit is allocated in a separate unit and located on the outer wall of the room, and the other part of the unit is an evaporator, hermetically integrated inside the heating boiler and connected by heat-insulating copper tubes with a remote unit.

Pipelines with a pump, temperature sensor, expansion tank and batteries are connected to the gas boiler. With this arrangement, the installation will not only heat the room in the winter, but also cool it in the summer, and not in a separate room, but at the same time in all rooms of the living room. The temperature of the batteries is controlled by the device 6.

Installation can be used year-round.

The specified technical result is achieved by the fact that the installation contains a heating boiler 1, a drawing, inside of which there is an evaporator 2 of the refrigeration unit 3, and the refrigeration unit itself is divided into two parts. One part, consisting of a compressor 15 of the condenser 16, a filter drier 17, a thermostatic valve 18 and a sun shield 21, is located on the outer wall of the room, and the other part is an evaporator 2, which is mounted in the inner cavity of the heating boiler 1. These parts are connected between thermally insulated copper tubes. This arrangement of the system makes it possible to produce both heating the room in the cold period and cooling it in the warm period. The sun shield 21 is used in the summer to prevent sunlight from entering the condenser of the refrigeration unit, and in winter it covers the condenser from rain and snow. The drawing schematically shows a device containing a boiler 1, with an evaporator 2 built-in to it of the refrigeration unit 3, which is connected through a thermostatic valve 18 with heat-insulated copper pipes 13 and 14 to the unit of the refrigeration unit 3. Heat-insulated copper pipes 13 and 14 are passed through drillings 8 in the wall buildings 10. Block 3 (dashed around the drawing) includes a compressor 15, a condenser 16, a filter drier 17 and a sun shield 21. Moreover, block 3 is mounted on the outer surface of the wall of the building 10.

Pump 4, standard, is produced by the industry for pumping the coolant through the heating system. It is silent, has a switch that provides operation in three modes, and consumes from 30 to 50 watts.

To compensate for the level of coolant in the system, an expansion tank 20 is installed.

The installation works in two modes.

Summer operation

The gas supply is shut off.

Inside the heating gas boiler 1, the evaporator 2 of the refrigeration unit 3 is hermetically integrated, which is mounted on the outer wall 10 of the room and connected to the evaporator 2 with heat-insulated copper pipes passed through openings in the wall of the room 10.

When the compressor 15 is operating, the refrigerant vapor is injected into the condenser 16, in which the vapor condenses, after which the liquid refrigerant passes through the filter drier 17, is throttled by the thermostatic valve 18, as a result, getting into the evaporator 2 located in the boiler, the refrigerant expands intensively, taking off heat from the heat carrier.

And since the evaporator 2 is in the liquid coolant, there is intensive cooling of the coolant with which the entire system is filled. The evaporator 2 removes heat from the coolant, which completely filled the system, including the boiler 1, pipelines 11, 12, expansion tank 20, batteries 5, 19, pump 4.

While ensuring the circulation of the coolant, i.e. when you turn on the pump 4, there is an intensive and uniform cooling of the batteries 5, 19 over the entire area. As a result, air is cooled in all rooms of a residential or industrial building.

Cold operation

In the winter, the power to the compressor 15, the refrigeration unit 3 is turned off. In this case, the system is switched to heating mode. The gas supply to the boiler burners is turned on. The gas is ignited and the coolant is heated. The heated coolant is pumped by pump 4 along the same circuit as in the summer period: boiler 1, pump 4, pipe 12, batteries 5, 19, pipe 11, while the batteries 5, 19 are uniformly heated.

In this case, the heated coolant will be distributed throughout all the batteries and pipelines, and due to the circulation of the coolant, the batteries will be heated evenly throughout the area, which contributes to intensive and uniform heating of the air in all rooms of the living room. The optimal temperature mode of the coolant is monitored by a standard boiler temperature regulator 9.

Technical result:

1. Provides uniform cooling or heating of the air (depending on the operating mode) not in a single room, but in all rooms of the living room.

2. Provides an adjustable temperature regime in a wide temperature range, regardless of the season.

3. It is possible to regulate the temperature separately in each room separately.

4. The internal aesthetics of the room does not deteriorate.

5. The noise in the room is almost completely eliminated.

6. Significantly reduced power consumption.

7. Excludes the possibility of a cold in the summer.

Claims (1)

Installation for creating a microclimate in the room, containing a gas heating boiler, pipelines, pump, temperature sensor, expansion tank, batteries, characterized in that it contains a refrigeration unit with a sun shield, containing a compressor, a condenser, a filter drier, a thermostatic valve, and part of the refrigeration the unit, including the compressor, condenser, filter drier, sunscreen, is allocated in a separate block and is located on the outer wall of the room, and its other part - the evaporator - seal it is built into the boiler and connected through a thermostatic valve to the remote unit with copper insulated pipes.