RU2435110C2 - Cooling unit - Google Patents

Abstract

FIELD: instrument making.

SUBSTANCE: invention refers to cooling unit installed in air conditioning systems of buildings in order to cool/heat the air in rooms; at that, inner spaces are cooled/heated with plenum air and cooling elements (7) with liquid circulating cooling agent. Invention implements the cooling/heating functions of intake air, which are performed by cooling unit with cooler with liquid cooling agent, which is connected to the main circuit and passes the cooling agent to cooling devices (7) with circulating liquid cooling agent serving for cooling of inner spaces.

EFFECT: improving reliability.

4 cl, 4 dwg

Description

The present invention relates to a cooling unit, which is installed in building air conditioning systems for cooling / heating indoor air, and the interior is cooled / heated by supplying air and liquid refrigerant circulating in the cooling elements.

Currently, the implementation of the cooling function in building air conditioning systems is usually based on cooling the interior through both a stream of chilled incoming (supply) air and cooling devices such as a chiller installed in the indoor room. Cooling medium, such as water, circulates in chillers. For this purpose, water chillers produce chilled water, which circulates through the cooler of the block for incoming air and cooling devices of the internal space. In addition to the water cooler, a separate evaporator / condenser on the flat roof is required to transfer the heat removed from the interior to the outside air. Therefore, a parallel air conditioning system needs three different units: a cooling unit for the incoming air, a circulating refrigerant cooler, and a flat-roof evaporator / condenser.

The prototype cooling unit, known under the brand name “Cooler” when choosing products by the applicant, contains an integrated functional unit that can be connected to the air conditioning mechanisms of the building and serves to cool the incoming air that is supplied to the interior of the building. In more detail, this cooler is a ready-to-use unit containing compressor equipment installed at the factory with its power supply and control system. The heat taken from the incoming air is transferred to a condenser cooler located in the exhaust air stream and finally dissipated in the outdoor air around the building. The biggest drawback of the standard type cooling unit is that the cooling effect extends only to the supply air. However, cooling only the incoming air does not provide a sufficiently high cooling effect, unless a very powerful air flow rate is used.

The aim of the present invention is to propose a cooling unit of a new type, which can be installed in the air conditioning system of buildings, and the cooling unit is able to eliminate the problems of hitherto used systems and can greatly simplify the design of the system. The cooling unit according to the invention is characterized in that, in addition to the cooling / heating function of the incoming air, the cooling unit comprises a circulating refrigerant cooler connected to the main circuit and connected to circulating refrigerant cooling elements that cool the interior.

A preferred embodiment of the cooling unit according to the invention is characterized in that the cooling unit comprises three compressors and three heat exchangers, of which one compressor and one heat exchanger are used to cool the incoming air, and two other compressors and heat exchangers are connected to cooling elements with circulating refrigerant for indoor use.

A key feature of the cooling unit is that the condensation heat released during cooling is removed by means of an evaporative / condenser coil placed in the cooling unit.

Another preferred embodiment of the cooling unit according to the invention is characterized in that the cooling unit contains two compressors and two heat exchangers which serve to cool the cooling elements with circulating refrigerant for the interior spaces, and in that the line with the circulating refrigerant in this case is connected to another line, which, with the help of a pump, circulates liquid refrigerant through an air cooler for intake air, thereby cooling the incoming air.

Another preferred embodiment of the cooling unit is characterized in that the cooling unit includes an integrated function of heating the incoming air.

A cooling unit according to the present invention is integrated in the air conditioning mechanism as a unitary functional section. In addition to heating the incoming air, the cooling unit according to the invention includes an evaporator connected to the same main circuit (circulation cooling unit), which is connected to the cooling circuit of the coolers. This arrangement allows a separate unit assembled at the factory to provide all the cooling needs of the entire building. In normal applications, a water cooler can be dispensed with and a separate flat-roof evaporator / condenser also becomes redundant.

The invention will now be described in more detail using the preferred embodiments given as an example with reference to the accompanying drawings, in which:

figure 1 shows the configuration of the circuit of a preferred embodiment according to the invention;

figure 2 shows the configuration of the circuit of the second preferred embodiment according to the invention;

FIG. 3 shows a contour configuration of a third preferred embodiment according to the invention;

4 shows a contour configuration of a fourth preferred embodiment according to the invention.

Figure 1 shows the configuration of the circuit of the cooling unit, in which the compressor 1 cools the incoming air by means of a heat exchanger 3. Compressors 2 are used to cool liquid refrigerant using cooling / cooling heat exchangers 4 circulating through the pipe system of the internal air conditioning devices 7. The pump 6 circulates the cooled liquid refrigerant in the air conditioning devices 7 of the interior space, thereby providing cooling of the air in the room. The heat sink of the compressors is directed to the evaporative / condenser coil 5 of the cooling unit, where the heat taken during the cooling process is transferred through the cooling unit to the exhaust system from the air conditioning system. The output power of the compressors 1, 2 can be subjected to stepwise control and mutual distribution, so that the desired cooling effect is selectively transmitted to any point requiring cooling, while at the same time an excessively high increase in the temperature of the exhaust air is prevented.

Figure 2 shows the configuration of the circuit according to the second embodiment of the invention. Its arrangement is basically similar to that shown in Fig. 1, while this arrangement contains two compressors instead of three in the embodiment described above, and here the compressors 1 by means of cooling / cooling heat exchangers 4 cool the refrigerant circulating in the pipe system 8. Accordingly the pump 9 circulates the refrigerant in the cooler for the incoming air, which serves to cool the incoming air. The pump 6 circulates the cooled liquid refrigerant in the air conditioning devices 7 of the interior space, which perform the cooling of the air in the rooms. The heat sink from the compressors is directed to the evaporative / condenser coil 5 of the cooling unit.

Under certain ambient temperature conditions, the incoming air must be heated even when the air in the building's interior requires cooling. Figure 3 shows the configuration of the circuit according to another embodiment, offering the possibility of using a cooler for the incoming air, alternatively for heating the incoming air, while the water circulating as a refrigerant in the pipe system 8 serves to cool the indoor air conditioning devices. The inclusion of the heating function in the cooling unit offers the advantage of avoiding the incoming air heater separate from the air conditioning equipment. In addition, pressure losses at the incoming air heater are eliminated and the input power of the blowers is reduced. The refusal of the heater also reduces the space required for air conditioning equipment along the length of the engine room with a flat roof by approximately 700 mm, which is a significant gain.

As shown in more detail in FIG. 3, the diagram of the present embodiment operates as follows: the compressors 1 cool through the heat exchangers 4 the refrigerant circulating in the pipe system 8. The pump 6 circulates the cooled refrigerant in the indoor air conditioning devices 7, which cool the air in indoors. A pump 9 installed in the room circulates the refrigerant from the same pipe system through the incoming air heat exchanger 3 (liquid / air heat exchanger). This cooling circuit 12 is disconnected from the liquid refrigerant circulation in the indoor air cooling devices by the valve 11. The thermal energy that is required to heat the incoming air is introduced into the auxiliary circuit 12 through a liquid-liquid heat exchanger 10. Due to the presence of circuits 8, 12, acting separately apart, these two circuits can be used at different temperature levels. Therefore, the cooling devices for air conditioning in the interior can be supplied with liquid refrigerant, which is cooled in the evaporator 4, and at the same time, warm water can be supplied to the heat exchanger 3 for incoming air while heating the incoming air to the desired set temperature of the incoming air.

The invention also allows the use of low outdoor temperatures to cool the liquid refrigerant circulating in the air conditioning devices of the internal space, and due to this, “free circulation” occurs when the compressors are stopped. When the water refrigerant circulating in the pipe system of the air conditioning devices of the internal space here also passes through the cooler the coil of the cooling unit for the incoming air, it becomes possible to use these cooling means with “free circulation” when the building needs to be cooled and the outside air is quite low temperature i.e. about 10-15 ° C, allowing to achieve a cooling effect. Cooling by “free circulation” also provides a cooling effect by passing cold outside air through the cooler for incoming air to be transferred to the pipe system of the air conditioning apparatus of the interior and from there to the desired interior. Cooling through "free circulation" can significantly reduce the energy consumption in the building.

Next, the “free circulation” discussed above is explained in more detail with reference to FIG. The liquid refrigerant returning from the cooling devices 7 is directed through the valve 11 to the cooler 3 of the incoming air of the cooling unit. In this case, the refrigerant temperature is about 19 ° C. The liquid refrigerant is cooled in the cooler 3 for incoming air to a temperature of, for example, 17 ° C. The cooled refrigerant is passed forward to the evaporator 4 of the cooling unit, where it is additionally cooled, so that in conclusion, the liquid refrigerant is cooled to a temperature of approximately, for example, 15 ° C, necessary for the operation of the pipe system of the air conditioning devices of the internal space. Cooling of the liquid refrigerant in the cooler for the incoming air becomes possible when the outdoor temperature is below 19 ° C.

For a person skilled in the art it is obvious that the invention is not limited to the embodiments described above and given as examples, but most likely may vary within the essence and scope of the attached claims. The cooling medium of the internal air conditioning devices with liquid refrigerant circulation can be any type of liquid used in this field of application in accordance with local requirements. In addition, the number of compressors and heat exchangers mentioned in the claims and above in the description is given only as an example and may vary as desired.

Claims (4)

1. The cooling unit installed in the air conditioning systems of buildings for cooling / heating indoor air, and the interior spaces are cooled / heated by the incoming air and cooling elements (7) with liquid circulating refrigerant, and in addition to the cooling / heating function of the incoming air, the cooling unit contains a circulating refrigerant cooler connected to the same main circuit, connected to circulating refrigerant cooling elements (7) that cool the inside An early space, characterized in that the cooling unit contains two compressors (1) and two heat exchangers (4), used to cool the cooling elements (7) with circulating refrigerant for the internal spaces and in that the line with the circulating refrigerant is connected to another line which, using a pump (9), circulates the refrigerant through the air cooler (3) for the incoming air, thereby cooling the incoming air. 2. The cooling unit according to claim 1, characterized in that the cooling unit includes an integrated function of heating the incoming air. 3. The cooling unit according to claim 1, characterized in that the low outside temperature is used to cool the liquid refrigerant circulating in the indoor air conditioning devices (7). 4. The cooling unit according to claim 3, characterized in that the liquid refrigerant returning from the internal air conditioning devices (7) with circulation of the liquid refrigerant is directed through the valve (11) to the air cooler (3) for the incoming air of the cooling unit for the incoming air moreover, the liquid refrigerant is cooled, after which the refrigerant passes to the evaporator (4) for further cooling.

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