FI60439C - KOMPRESSOR-VAERMEPUMPSYSTEM - Google Patents

Description

ESPTI M („.ICIPTION PUBLICATION, n.,„

4ΕΠ »lBJ () UTLÄGGNINGSSKAIFT 0U40V

C exam admitted H 01 1902

Patent neddelat ^ ^ ^ (51) Kv.ik.3 / h «.a.3P 24 D 11/02, P 24 F 5/00 SUOMI — FINLAND <M> Pat« nttihak «mut - P * tent» n » eknlnj T 9112 9 (22) Hik «ml * p * lvl - Anteknlngsdtg 05.0 * 4. 79 ^ ^ (23) Primary Cloud - Giltl | 05.0 * 4. 79 (41) Become Public - Bllvlt efftntllg 06.10.80

National Board of Patents and Registration ....,,, _ 1 (44) Date of issue and date of issue. -

Patent- och registerstyrelsen AnsSkan utlagd och utl. -Finland (Fl) (72) Taisto Tapani Nieminen, Lahti, Finland-Finland (Fl) (7 * 4) Oy Kolster Ab (5 * t) Compressor heat pump system - Kompressor-värmepumpsystem The present invention relates to a compressor heat pump system for the heating and cooling of buildings with air heating, in particular residential buildings, and for the production of domestic hot water, comprising a water heater, a condenser fitted to a water heater, a sub-cooling element connected to a hot water heater, a heat exchanger, a heat exchanger and a heat exchanger, wherein the condenser, the heat exchanger, the evaporator and the compressor are connected in series in a sequence, the subcooling member n being connected in parallel with the heat exchanger a and the branch line s a of the heat exchanger and the subcooling element is a valve by means of which the corresponding component can alternatively be excluded from the circulation.

When air heating is used to heat buildings, the air to be blown must be heated, usually by a flue gas, hot water or electric radiator, through which the air is blown and then directed to the space to be heated. Heat pumps have also been used to heat domestic water and air, in which case the condenser of the heat pump has formed a heating coil. In the case of cooling, a separate cooling coil has been used through which air has been blown. As such a radiator, an evaporator of a cooling mechanism or a cooling coil from a cold water circuit or a circulating circuit formed by a heat transfer fluid, which cools the air by means of a liquid radiator, has been used.

Previous solutions have generally had to use two separate heat exchangers, one for heating and the other for cooling. Heat transfer-liquid heat exchangers have also been used, in which case the same heat exchanger is heated and cooled, but in this case there must also be additional heat exchangers for cooling and heating the heat transfer medium. The heat pump has also been used for the above purpose, so that in the case of heating the condenser has acted as a heat sink and the evaporator as a heat sink. In the case of cooling, the connection is changed so that the condenser acts as a heat sink and cools the air and the evaporator acts as a heat sink, i.e. as a condenser, and the heat is discharged. Such a connection is very fault-prone and insecure in operation.

In connection with the heat pump, it has also been used in such a way that when cooling is needed, the evaporator and condenser of the heat pump are kept unchanged, but the air ducts coming to them are exchanged with each other, whereby cooling is obtained instead of heating. This method has proved very difficult to implement in practice.

The object of the present invention is to eliminate the above-mentioned drawbacks and to provide a new type and more practical compressor heat pump system.

One of the basic ideas of the invention is to use the same heat exchanger for both heating and cooling in an air heating plant where heating and cooling take place by means of a heat pump. The invention relates to a system in which either water or air can be heated by means of a heat pump, but only air can be cooled.

The system according to the invention comprises three separate heat exchangers used in connection with a heat pump, one of which acts solely as a water condenser and is installed in a hot water accumulator. The second heat exchanger is located in the recirculating air network of the building to be heated or cooled and this heat exchanger can both heat and cool. A third heat exchanger 3 60439 is located in the exhaust pipe of the building, and this only serves as a cooling heat suction and binds the heat removal to the air.

The condensing heat output produced by the heat pump can be controlled by either the condensing heat or the heat output, and the cooling output can be controlled by either the heat output or the output. n t o air-to-heat exchanger.

According to the invention, the condensed heat can be directed either to a hot water tank to heat domestic water or to an air coil to heat the circulating air of the building, whereby evaporator coils are arranged so that they can cool the exhaust air of the building and the recirculated air. The heat transfer medium pumped by the compressor passes through said radiator in the opposite direction as in the case of cooling.

More specifically, the system according to the invention is characterized in that a bypass connection with a valve is connected across the heat exchanger and the evaporator, the other end of which is connected to the branch line of the heat exchanger at a point between the heat exchanger and its corresponding valve.

It should be noted, however, that in defining the scope of protection, this patent and the accompanying drawing must be taken into account in their entirety, as required by the Patent Act.

With the help of the system according to the invention, hot domestic water and air heating are provided with the same heat pump, and even the cooling of the building is provided when it is needed. In addition, subcooling according to FI patent application 790015 and bypassing the recirculating air heat exchanger can be implemented with a relatively simple connection.

The invention will now be examined in more detail with the aid of the accompanying drawing, which schematically shows one embodiment of a system according to the invention.

1. Hot water is required

When the heat pump is running and there is a need for hot water, the compressor 1 pumps the refrigerant steam to the water condenser 2. The steam condenses by heating the water and travels to the sub-cooling coil 3 with the valve 5 closed. After subcooling in the coil 3, the refrigerant liquid passes through the accumulator 10 to the open shut-off valve h to the pressure relief valve 7 and further evaporates in the evaporator 9 »from which the compressor 1 sucks the steam and then pumps it into circulation. During this cycle, the shut-off valves k 60439 5 and 1 k are closed and the valve is open.

2. Hot hot water and hot circulating air are required

When the heating scars of the building's circulating air 1 occur, the heat pump equipment operates as follows: The liquid condensed from the condenser 6 enters the expansion valve lie 7 and further evaporates in the evaporator 9 and cools the exhaust air blown by the fan 11. Compressor 1 again draws steam from the evaporator 9 and re-pumps it into circulation. During this rotation process, valve 1U is closed and valves k and 5 are open.

3. Hot running water and cooled circulation air are required

When the circulating air in the building needs to be cooled, the compressor 1 pumps the refrigerant steam to the water condenser 2, where it condenses and transfers its heat to the water, passes through the subcooling coil 3 to the accumulator 10, where it enters the expansion valve 13. 1 draws steam along the bypass line 15 and re-pumps it into circulation. During the cooling process, valves 5 and ä are closed and valve 1U open.

Within the scope of the invention, solutions deviating from those described above can also be considered. Thus, for example, the heating and cooling coils of the exhaust air and the recirculating air can be circulating heat exchangers located in the air ducts in question, the heat transfer fluid of which is heated and cooled by means of a heat pump condenser and an evaporator.

Claims (2)

5,60439 Claims: A compressor heat pump system for heating and cooling air-heated buildings, in particular residential buildings, and for producing hot water, comprising a water heater (8), a condenser (2) connected to the water heater (8), a heater (8) connected to the heater (8) ), a heat exchanger (6), an evaporator (9) and a compressor (1) for pumping heat transfer medium to different parts of the heat transfer circuit (2, 8, 3, 6, 9), the condenser (2), the heat exchanger (6), the evaporator (9) and the compressor (l) are connected in series in a loop, the subcooler (3) is connected in parallel with the heat exchanger (6) and the branch line of the heat exchanger (6) and the subcooler (3) has a valve (5> * 0 »by means of which the corresponding component (6, 3) can alternatively be excluded from the circulation, characterized in that a bypass switch with a valve (IU) is connected across the heat exchanger (6) and the evaporator (9) what about (15), the other end of which is connected to the branch line of the heat exchanger (6) at a point between the heat exchanger and its corresponding valve (5). System according to Claim 1, characterized in that the arrangement of the branch lines and the bypass valves (5, **, 1 * 0) is such that the bypass valve (IU) is closed in heating operation and the branch line valves (U, 5 ) at least the valve (H) in the branch line of the subcooling member is open.