RU16196U1 - AIR CONDITIONING - Google Patents

Description

SHYAL „mil SIP 1111 III

The utility model relates to the design of devices for air conditioning and its distribution inside the room (s), and can be used in ventilation and air conditioning.

A conditioner is known, comprising a first fan and a condenser, at least one second fan and a heat exchanger, a compressor, sections of the direct and return pipes, the compressor being connected by segments of a direct pipe to the inlet of the condenser and a return pipe to the output of the heat exchanger, the input of the heat exchanger connected by a section of the return pipe with the exit of the condenser with the possibility of circulation of the refrigerant in the circuit formed by the segments of the direct and return pipelines (1).

In this design, the air conditioner is exhaust, placed in a single housing. The case is divided into two compartments. In the external compartment there is a condenser of the chiller with two fans located in parallel to the outlet of the housing. In another compartment, a fan, heat exchanger and heat exchanger are installed with cross-precise channels of recirculation and external air separated by a nozzle. At the output of the first fan, a two-position damper is installed, which alternately closes the output of the condenser and the cross-precise channel. The compartment in which 1ep: exchanger is installed is connected to the room. The heat exchanger has a control flap. For heat exchange, the heat exchanger nozzle and the heat exchanger are used simultaneously.

Despite the separation of the case into two compartments, the design limitations are large dimensions and the impossibility of ensuring an even distribution of cold air in the interior space of the room, since the principle of exhaust ventilation is incorporated into the technical solution.

Known air conditioner manufactured by AIRWELL, comprising a first fan and a condenser located in the outer casing, designed to be placed connected with the environment outdoors, at least one second fan and heat exchanger located in at least one inner casing, designed to accommodate it indoors, compressor, segments of the forward and reverse

F 24 F 1/00

AIR CONDITIONING

pipelines, and the compressor is connected by segments of the direct pipeline to the inlet of the condenser and to the output of the heat exchanger, the input of the heat exchanger is connected by a segment of the return pipe to the output of the condenser, allowing the refrigerant to circulate in the circuit formed by the segments of the direct and return pipelines (2).

These air conditioners are manufactured to create comfortable conditions in offices and residential premises and are not designed for continuous round-the-clock operation.

A significant drawback is the inability to work with humpechra below -15 ° C.

An air conditioning installation is also known, comprising a first fan and a condenser located in an outer casing, designed to accommodate at least one second fan and heat exchanger located in at least one inner casing, intended to be connected with the environment outdoors. for placing it indoors, a compressor, segments of the direct and return pipelines, and the compressor is connected by segments of the direct pipeline to the inlet of the condenser and to the output of the heat exchange On the other hand, the inlet of the heat exchanger is connected by a segment of the return pipe to the output of the condenser, allowing the refrigerant to circulate in the circuit formed by the sections of the forward and return pipes (3).

In this design, in order to increase energy efficiency in humidified air heating modes, the unit is equipped with an additional ieii.Too6 reiiiiiiKOM installed in the humidifier side and included in the refrigerant circuit between the external heat exchanger and the compressor, and a non-return valve parallel to the additional heat exchanger. The compressor in this design is installed directly in the indoor unit, which eliminates the possibility of freezing of the heat exchanger.

Design limitations are the large dimensions of the inner case due to the placement of a compressor in it, as well as the inability to ensure an even distribution of cold air throughout the room (s).

The closest constructive solution is an air conditioner containing a first fan and a condenser located in the outdoor court. intended to be placed outside the environment

/ Uw / x / /

the environment outdoors, at least one second fan and heat exchanger located in at least one inner casing designed to accommodate the room inside it, a compressor, sections of the direct and reverse pipelines, the compressor being connected by straight pipe sections to the condenser inlet and to the outlet of the heat exchanger, the inlet of the heat exchanger is connected by a segment of the return pipe to the output of the condenser, allowing the refrigerant to circulate in the circuit formed by the segments of the direct and reverse th pipeline (4).

This technical solution uses a standard precision air-cooled condenser system, which allows the device to function smoothly even at a temperature of -30 ° C. However, in this design, as in the previous one, the compressor is located in one internal case with a heat exchanger and a second fan, which creates large the dimensions of the indoor unit are cupboard type and does not allow for an even distribution of cold air over the room (s). The design functions normally in newly constructed rooms in which it is possible to design the location of an internal building that does not interfere with the location of other equipment, but it is difficult to use in reconstructed rooms in which there is limited space for a large functional unit - the internal case of the air conditioner. This circumstance forces the users of the systems operating devices to create additional air distribution channels for supplying chilled air to predetermined points in the room and limits the use of the air conditioner when space is limited in the room and there is no free space for equipment installation.

The task being solved by a utility model is to expand the functional capabilities and arsenal of technical means to ensure the quality of air conditioning in indoor premises (s).

Technical results-ai, which can be obtained by performing a utility model, are an increase in the operating temperature range of the air conditioner; providing a dynamic mode of distribution of air flows indoors (s); providing the possibility of reducing the production area when installing an air conditioner inside the reconstructed premises; and also the convenience of layout of the air conditioner in rooms that are not subject to reconstruction.

V if-wf1

To solve the problem with achieving the specified technical result in a known air conditioner containing a first fan and a condenser located in an outer casing, designed to be placed connected with the environment outdoors, at least one second fan and heat exchanger, located at least at least, in one inner case, designed to be placed indoors, a compressor, straight sections and straight pipe lines. moreover, the compressor is connected by segments of the direct pipeline to the inlet of the condenser and to the output of the heat exchanger, the input of the heat exchanger is connected by a segment of the return pipe to the output of the condenser to allow the refrigerant to circulate in the circuit formed by the segments of the direct and return pipelines, according to the claimed design, an additional casing is designed to be placed inside the room and in which the compressor is located, and the sections of the direct and return pipes are made with a length, ensuring ayuschey possibility of changing the position and the additional inner body inside.

Additional embodiments of the utility model are possible, in which it is advisable that:

-the additional housing was located adjacent to the outer housing;

-additional housing was located adjacent to at least one inner housing;

- the number of inner casings was chosen to be larger than one, in each of which there is a second fan and heat exchanger, while sections of the direct and return pipelines were made with a length that allows the additional housing to be located at a distance from the outer housing and at a distance from at least one, the inner case.

These advantages, as well as the features of the utility model are illustrated by the best options for its implementation with reference to the accompanying drawings.

Figure 1 depicts a functional diagram of the connection of the compressor elements;

FIG. 2 is the same as FIG. 1, in an adjacent arrangement of the additional housing with the outer housing;

The air conditioner (Fig. 1-3) contains the first fan 1 and the condenser 2 of the chiller located in the outer casing 3, designed to be placed connected with the environment outside the room 4 (which is shown by a dashed line). The air conditioner also has at least one second fan 5 and a heat exchanger 6 located in at least one inner casing 7, designed to be placed indoors 4. The air conditioner is made with a compressor 8 connected by segments 9. 10 forward and reverse pipelines, respectively, with functional units of the air conditioner. The compressor 8 is connected by segments 9 of the direct pipeline to the inlet of the condenser 2 and to the output of the heat exchanger 6. The input of the heat exchanger 6 is connected by a segment 10 of the return pipe to the output of the condenser 2, allowing the refrigerant to circulate in the circuit formed by the segments 9. 10 of the direct and return pipes.

An additional casing 11. in which the compressor 8. is located, is introduced. This additional casing 11 is located inside the room 4. The lengths 9, 10 of the straight and sheared piping are made so that the position of the additional casing 11 and the inner casing 7 inside the room 4 can be changed.

To ensure the possibility of changing the position of the additional housing 11 and the inner housing 7 indoors 4, the segments 9, 10 of the direct and return pipes can be made with different lengths, or from a material capable of changing lengths of segments 9, 10 due to bending, or in the form of bellows air ducts capable of changing both their length and the position of the inlet / outlet of the air duct. Due to this embodiment of sections 9, 10 of the direct and return piping, it is possible to place an additional housing 11 in any convenient place of room 4. for example, in its closed niches, behind false panels, in ventilation passages previously made in the walls of the room. The inner housings 11 of one or more indoor units (Fig. 1) can also be located in any place satisfying the consumer, for example, in the niches of room 4, under its ceiling, under false panels of radiators, etc. In addition, the air flows from the second fans 5 could i be directed from the inner housings 7 in any direction pre-selected and desirable for the consumer. Thus, due to the dismemberment of the overall design and placement of the compressor 8 in the additional housing 1 1

IC OW {S3t.

it is possible to significantly expand the functionality of the air conditioner as a whole and to improve the quality of air exchange and air conditioning of the room (s). This design allows you to use one compressor 8 for air conditioning several rooms 4 due to the location of the inner buildings 7 separately for rooms in the premises. This allows you to reduce the cost of installing an air conditioner if necessary, air conditioning in several branched, parallel or adjacent rooms of the room.

If necessary, the additional housing 1 1 may be adjacent to the outer housing 3 (Fig. 2). In this case, the outer casing 3 and the additional casing 11 can be made of materials with different thermal conductivity, in order to prevent freezing of the evaporator when the additional casing 11 is located near the outer casing 3.

Additional court 11 (Fig. 3) can be located adjacent to at least one inner building 7, which allows you to use the most extensive non-productive niche in any of the rooms of the room, and in other rooms of the room to install internal buildings 7, connected respectively , segments 9 of direct pipelines with compressor 8 in the places desirable for the consumer.

Thus, the inner housings 7 (FIG. 1) can be selected more than one. Each of the inner housings 7 has its own second fan 5 and a heat exchanger 6. The segments 9, 10 of the direct and return pipelines can be made with a length that allows the additional housing 11 to be located in any intermediate position at a distance oi of the outer case 3 and at a distance from , but at least one, the inner housing 7.

Air conditioning works as follows.

Compressor 8 delivers refrigerant to condenser 2. where, with the help of fan 1, condensation of gaseous refrigerant takes place, which enters the heat exchanger 6, which is located indoors and with fan 5, the room air is driven through the exchanger, where it is cooled. Then, through the return line 10, the refrigerant through the compressor enters the condenser 2, and the cycle repeats.

conditioners of the type "Split systems of a number of manufacturers, and the compressor in an additional housing is manufactured by the applicant. Thanks to the combination in the use of standard air conditioning units such as “Splig systems and compressor 8 in the additional housing 1 1, it is possible to ensure year-round and round-the-clock operation of the air conditioner.

Comparative specifications of air conditioners are given in the table below.

The most successfully declared air conditioner is industrially applicable in the air conditioning technology of industrial and domestic premises. Sources of information:

1. The author's certificate of the USSR No. 1413367. F 24 F 1/02, publ. 07/30/88.

2. Technical catalog AIRWEI.L "Splig system with one and two indoor units, publ. March 1999, p. 25.

3. The author's certificate of the USSR No. 1211531. 1-24 F 1/00,. 02/15/86.

4. Technical description "Mini Tower" Installation Operation and Maintenance Manual, Liebert, publ. June 1994, p. 4.

Table

Claims (4)

1. An air conditioner comprising a first fan and a condenser located in an outer casing, designed to be placed connected with the environment outdoors, at least one second fan and a heat exchanger located in at least one inner casing, designed to accommodate it is indoors, the compressor, segments of the direct and return pipelines, and the compressor is connected by segments of the direct pipeline to the inlet of the condenser, and the return pipe to the outlet of the heat exchanger, the inlet the heat exchanger is connected by a section of the return pipe to the condenser outlet, allowing the refrigerant to circulate in the circuit formed by the sections of the direct and return pipes, characterized in that an additional housing is introduced, which is designed to be placed indoors and in which the compressor is located, and the pieces of the direct and return pipes are made with a length that provides the ability to change the position of the additional housing and the inner housing indoors.  2. The air conditioner according to claim 1, characterized in that the additional housing is adjacent to the outer housing.  3. The air conditioner according to claim 1, characterized in that the additional housing is adjacent to at least one inner housing. 4. The air conditioner according to claim 1, characterized in that the number of inner housings is selected to be larger than one, in each of which there is a second fan and heat exchanger, while the lengths of the direct and return pipelines are made with a length that allows the additional housing to be located at a distance from the outer housing and at a distance from at least one inner case.