KR101169346B1 - Air conditioner system of air circulation preheating and inner change defrosting mode - Google Patents

Abstract

PURPOSE: An air circulation preheating and inner reversing defrostation type air conditioning system is provided to easily perform heating or defrost by an opening/closing state or extent of a damper according to a heating or defrosting mode. CONSTITUTION: An air circulation preheating and inner reversing defrostation type air conditioning system comprises a case(30), an air supply unit(50), and an exhaust unit(60). The case comprises a first heat exchanging chamber(32) and second heat exchanging chamber(33). The first and second heat exchanging chambers comprise outdoor air supplying holes(34,35). An indoor air supplying hole(36) is formed in the first heat exchanging chamber and an outdoor discharging hole(37) is formed in the second heat exchanging chamber. The air supplying unit comprises a first heat exchanger(51) arranged in the first heat exchanging chamber, a first auxiliary heater(52) preheating air has passed through the first heat exchanger, and an air supplying fan(53) supplying cold air or hot air to an indoor side. The exhausting chamber unit comprises a second heat exchanger(61), a second auxiliary heater(62), and an exhausting fan(63). The second heat exchanger is arranged in the second heat exchanging chamber, thereby being connected to the first heat exchanger by a heat media line. The second auxiliary heater preheats the air passing through the second heat exchanger. The exhausting fan discharges the air to an outdoor side.

Description

Air conditioner system of air circulation preheating and inner change defrosting mode

The present invention relates to an air conditioning system of an air circulation preheating and internal switching defrosting system, and more particularly, to indoor circulation air for heating supply and exhaust for defrosting operation during temporary defrosting operation during heating supply in winter. It relates to an air conditioning preheating and internal switching defrosting system in which air circulated from the side forms a separate route.

In general, an air conditioning system is used to supply cooling or heating by heat exchange according to a phase change of a refrigerant by interconnecting a heat exchanger, a compressor, and an expansion valve with a refrigerant pipe. Including the outdoor unit to exhaust to the side.

The indoor unit and the outdoor unit each include a heat exchanger and an air supply fan or an exhaust fan for supplying or discharging air exchanged through the heat exchanger, which will be described below with reference to the drawings.

As shown in FIG. 1, a single case 10 is partitioned so that a first heat exchanger 12 and a second heat exchanger 13 are disposed, respectively, and one side of each of the heat exchangers 12 and 13. It is provided with an air supply fan 14 for supplying air cooled or heated to the indoor side and an exhaust fan 15 for discharging air to the outdoor side.

In addition, the case 10 is provided with an indoor side discharge duct 16 and an outdoor side discharge duct 17 in which discharge holes are extended so that indoor and outdoor air passing through the heat exchangers 12 and 13 are discharged indoors or outdoors. A suction duct 18 is provided at a position adjacent to the partition 11 partitioning the inside of the case 10 so that outdoor air flows in, and the suction duct 18 is disposed to cover both sides of the partition 11. A plurality of dampers 19 are provided on the inlet to adjust the amount of air.

In addition, the first duct duct 20 and the second bypass duct 21 are provided in the suction duct 18 so that air circulated from the indoor side or air discharged to the outdoor side is bypassed and introduced into the case 10. The auxiliary heaters 22 and 23 are further provided at positions adjacent to the heat exchangers 12 and 13, respectively, in the case 10.

With this configuration, in the initial stage of heating, the first heat exchanger 12 acting as a condenser is preheated by the auxiliary heater 22 so that the first heat exchanger 12 can be operated normally within a short time, and the defrosting operation is performed. At the time, the second heat exchanger 13 acting as an evaporator is heated by the auxiliary heater 23 to increase the defrosting effect.

However, such a conventional air conditioning system is provided so that outdoor air is sucked in through one suction duct 18 and indoor air circulating air and outdoor air exhaust are bypassed. There is a possibility of backflow through the suction duct 18, and in particular, the air discharged to the outside during the defrosting operation is heated by the auxiliary heater 23 to perform the defrosting operation of the second heat exchanger 13. There is a high possibility that the contaminated air, which has been subjected to this, will be supplied to the indoor side through the suction duct 18.

Korean Registered Patent Publication No. 10-0348450 2002. 07. 30.

The present invention is to solve the above problems, the present invention is to increase the heating and defrosting effect by a compact configuration and at the same time the indoor side circulating air for heating supply during the defrosting operation and the exhaust side for the defrosting operation It is to provide an air conditioning system of the air circulation pre-heating and internal switching defrosting system that is provided to form a separate route to prevent the contaminated air from flowing back to the indoor side.

According to a feature of the present invention, the first heat exchange chamber 32 and the second heat exchange chamber 33 each having an external air supply port 34 and 35 so that the inside is partitioned by the partition 31 to introduce outdoor air are provided. Is formed, the first heat exchange chamber 32 is formed with an indoor supply port 36 for supplying air into the room, the second heat exchange chamber 33 is an outdoor discharge port 37 to discharge the air to the outside The case 30 is formed;

A first heat exchanger 51 positioned in the first heat exchange chamber 32, a first auxiliary heater 52 configured to preheat air passing through the first heat exchanger 51, and the first heat exchanger An air supply unit 50 provided at one side of the 51 and including an air supply fan 53 for supplying cold or warm air to the indoor side;

A second heat exchanger 61 located in the second heat exchange chamber 33 and connected to the first heat exchanger 51 by a heat medium line, and to preheat the air passing through the second heat exchanger 61. A second auxiliary heater 62 and an exhaust unit 60 provided on one side of the second heat exchanger 61 and an exhaust fan 63 for discharging air to the outdoor side;

An indoor air circulation port 38 is formed in the first heat exchange chamber 32 to circulate the indoor air, and an outdoor air circulation port 39 is formed in the second heat exchange chamber 33 to circulate the outdoor air. Formed;

The indoor air circulation port 38 and the outdoor air circulation port 39 are provided with a first damper 40 and a second damper 41 respectively for opening and closing a flow path or adjusting a flow rate, and the partition 31 has a Each of the heat exchangers is opened to discharge a part of the indoor air circulated through the indoor air circulation port 38 to the second heat exchange chamber 33 or when the outdoor air is bypassed through the outdoor air circulation port 39. An air conditioning preheating and internal switching defrosting type air conditioning system is provided, characterized in that the third damper 42 is closed to block the air flow between the chambers 32 and 33.

As described above, according to the present invention, there is provided a case 30 whose interior is partitioned into the first heat exchange chamber 32 and the second heat exchange chamber 33 by the partition wall 31, and the partition wall 31 is provided. Each of the heat exchange chambers is opened to discharge a portion of the indoor air circulated through the indoor air circulation port 38 to the second heat exchange chamber 33 or when air is bypassed through the outdoor air circulation port 39. The damper 42 is closed to block the air flow between the 32 and 33, so that the heating or defrosting operation can be conveniently performed by the opening or closing state or degree of the damper 42 according to the heating or defrosting mode. In particular, the damper 42 is closed during the defrosting operation, thereby preventing the contaminated air from being supplied to the indoor side.

In addition, each of the heat exchange chambers 32 and 33 includes a first auxiliary heater 52 and a second auxiliary heater 62 configured to preheat air passing through the first heat exchanger 51 or the second heat exchanger 61. In this case, the heating operation is quickly normalized by preheating air passing through the first heat exchanger 51 or the second heat exchanger 52 by the auxiliary heaters 52 and 62 during the initial heating or defrosting operation. Not only can there be an advantage to increase the defrosting effect.

1 is a configuration diagram showing an example of a conventional air conditioning system
2 is a block diagram showing an embodiment of the present invention

The objects, features and advantages of the present invention will become more apparent from the following detailed description. Hereinafter, description will be made with reference to the accompanying drawings.

Figure 2 shows a preferred embodiment of the present invention, as shown in Figure 2, the present invention is the first heat exchange in the case 30 to supply cooling or heating by switching the flow of the heat medium according to the mode A unit 51 and a second heat exchanger 61 are built in, and each of the heat exchangers 51 and 61 includes a first heat exchange chamber 32 formed by partitioning the inside of the case 30 by a partition wall 31. It is built in the second heat exchange chamber 33.

Referring to the detailed configuration and operation of the present invention as follows. Outside air supply ports 34 and 35 are formed in the first heat exchange chamber 32 and the second heat exchange chamber 33 to allow outdoor air to flow into one side thereof, and the first heat exchange chamber 32 includes the first heat exchange chamber 32. An indoor supply port 36 is formed to supply the cold air or the heat exchanged by the heat exchanger 51 to the room, and the air discharged from the inside of the second heat exchange chamber 33 is the second heat exchanger 61. Outdoor discharge port 37 is formed so as to be discharged to the outside through.

Here, the air supply unit 50 including the first heat exchanger 51 is built in the first heat exchange chamber 23 to supply cooling or heating to the room, and the outdoor heat exchange chamber 33 has an outdoor unit. An exhaust unit 60 for discharging air to the furnace is built in, and the air supply unit 50 is disposed near the first heat exchanger 51 and the first heat exchanger 51. Is provided, and also comprises an air supply fan 53 is connected to the indoor supply port 36 to blow cold air or warm air to the indoor side.

On the other hand, the exhaust unit 60 is provided with the second heat exchanger 61 and the second auxiliary heater 62 disposed in close proximity to the second heat exchanger 61, it is also connected to the outdoor discharge port 37 It is made to include an exhaust fan 63 to blow air to the outdoor side.

By such a configuration, the first heat exchanger 51 and the second heat exchanger 52 are connected to each other by a heat medium line and connected to a compressor and an expansion valve provided at one outside of the case 30 to cool or The cycle for heating is formed, and the first heat exchanger 51 and the second heat exchanger 61 operate as an evaporator or a condenser, respectively, according to the cooling and heating modes. Something similar.

In addition, in the present invention, an indoor air circulation port 38 is formed to circulate indoor air in the first heat exchange chamber 32, and an outdoor air circulation port so that outdoor air is circulated in the second heat exchange chamber 33. 39) is formed, the indoor air circulation port 38 is provided with a first damper 40 to open and close the flow path or to control the air flow in order to control the air flow circulated from the indoor side, the outdoor air circulation The sphere 39 is provided with a second damper 41 for opening and closing the flow path or adjusting the air flow rate to control the flow of the air when the outdoor air is circulated.

In addition, the partition 31 is opened to discharge a part of the indoor air circulated through the indoor air circulation port 38 to the second heat exchange chamber 33 or when air is bypassed through the outdoor air circulation port. The third damper 42 is closed to block the air flow between the heat exchange chambers 32 and 33. A detailed operation state according to the configuration of the dampers 40, 41 and 42 will be described below. .

In the cooling (or heating) mode, the first heat exchanger 51 is operated as an evaporator (or condenser) to supply cooling (or heating), in which the second damper 41 is closed The first damper 40 and the third damper 42 are opened to circulate the air circulated in the room to the indoor side or to the outdoor side at a ratio of approximately 70% and 30%, and to the third damper 42. The amount of air discharged by the air flows through the outside air supply port 34 to compensate for the amount of air. In the initial stage of heating operation, the first outdoor heat exchanger 51 passes the cold outdoor air to the first heat exchanger 51. By heating the first heat exchanger 52 or preheating the outdoor air by the heater 52, the normal heating operation can be performed quickly.

By the way, since cold outdoor air passes through the second heat exchanger 61 that is operated as a function of the evaporator during heating in winter, defrost occurs and thus defrosting operation for removing the defrosting operation is performed. The second auxiliary heater 62 on the side of the second heat exchanger 61 is operated to perform outdoor defrost to pass the second heat exchanger 61 to perform the defrosting operation. A bypass line 43 having a bypass damper 44 is connected between the outlet 37 and the outdoor air circulation port 39.

In this defrosting operation, only a part of the outdoor air that is heated by the second auxiliary heater 62 through the bypass line 43 to defrost the second heat exchanger 61 or circulates all of the air. It may be provided so that, for this purpose, a separate valve or damper may be provided on the discharge line (E) connected to the outdoor discharge port (37).

On the other hand, during the defrosting operation as described above, the third damper 42 provided on the partition wall 31 is closed to block the contaminated air from entering the indoor side, and thus the first damper 40 is closed. Is open regardless of defrosting operation and can continuously circulate indoor air.

Here, the first damper 40 and the third damper 42 is provided to be located inside the case 30, so as to minimize the overall size of the device while maintaining the mutual airtightness is provided adjacent to the manufacturing It is desirable to provide convenience.

Reference numerals not described above are connected to the filter 54 and the indoor supply port 36 to filter air by being embedded in the first heat exchange chamber 32. And a circulation line R connected to the indoor air circulation port 38 at the indoor side to circulate indoor air.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventions. It will be apparent to those of ordinary skill in the art.

Claims (1)

The first heat exchange chamber 32 and the second heat exchange chamber 33 each having an external air supply port 34 and 35 are formed to be partitioned by the partition wall 31 to introduce outdoor air, respectively. The chamber 32 has an indoor supply port 36 for supplying air to the room, and the case 30 having an outdoor discharge port 37 for discharging air to the outside is formed in the second heat exchange chamber 33; ;
A first heat exchanger 51 positioned in the first heat exchange chamber 32, a first auxiliary heater 52 configured to preheat air passing through the first heat exchanger 51, and the first heat exchanger An air supply unit 50 provided at one side of the 51 and including an air supply fan 53 for supplying cold or warm air to the indoor side;
A second heat exchanger 61 located in the second heat exchange chamber 33 and connected to the first heat exchanger 51 by a heat medium line, and to preheat the air passing through the second heat exchanger 61. A second auxiliary heater 62 and an exhaust unit 60 provided on one side of the second heat exchanger 61 and an exhaust fan 63 for discharging air to the outdoor side;
An indoor air circulation port 38 is formed in the first heat exchange chamber 32 to circulate the indoor air, and an outdoor air circulation port 39 is formed in the second heat exchange chamber 33 to circulate the outdoor air. Formed;
The indoor air circulation port 38 and the outdoor air circulation port 39 are provided with a first damper 40 and a second damper 41 respectively for opening and closing a flow path or adjusting a flow rate, and the partition 31 has a Each of the heat exchangers is opened to discharge a part of the indoor air circulated through the indoor air circulation port 38 to the second heat exchange chamber 33 or when the outdoor air is bypassed through the outdoor air circulation port 39. A third damper 42 is provided which is closed to block the air flow between the seals 32, 33;
Between the outdoor discharge port 37 and the outdoor air circulation port 39, the outdoor air heated by the second auxiliary heater 62 is circulated in the state where the third damper 42 is closed during the defrosting operation. Air circulation preheating and internal switching defrosting air conditioning system characterized in that the bypass line 43 is provided with a pass damper (44) is connected.

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