KR101603904B1 - An air conditioning system with one body heat pump and method for operating the same - Google Patents

Abstract

The present invention relates to an air conditioning system having an integrated heat pump and a method for operating the same, and to an integrated heat pump type air conditioning system capable of temperature and humidity maintenance and ventilation for a space which requires air conditioning. By integrating outdoor units (a compressor and a condensation heat exchanger) and indoor units (a supply unit and an evaporation heat exchanger) which are normally configured separately, the present invention reduces an installation space (construction space) so as to increase space utilization and shortens the length of a refrigerant pipe so as to increase cooling and heating efficiency. Moreover, the present invention is configured to maximize reduction of energy during cooling and heating since the work done of the compressor can be significantly reduced by passing heat that is discharged and disposed from the inside to the outside of the air conditioning system as much as the introduced amount of fresh outdoor air through the condensation heat exchanger and the ambient environment of a freezing unit so as to lower condensation temperature and pressure.

Description

[0001] The present invention relates to an air conditioning system and a method for operating the same,

The present invention relates to an integrated heat pump air conditioner capable of cooling and heating and ventilating operation, and more particularly, to a heat pump air conditioner capable of performing normal operation without any influence of external conditions, The efficiency is excellent, and during the winter, no frost occurs even in extreme conditions, so that normal heating operation is possible, and energy is greatly reduced.

In general, the air conditioner (heat pump) is an air conditioner that can function as both a cooling and heating system by reversing the cooling cycle of the air conditioner. In particular, It can be used without receiving it, and its use is gradually expanding.

The cooling / heating air conditioner achieves the cooling operation or the heating operation by changing the flow of the refrigerant using the four-way valve, and mixes and re-supplies the indoor air and the outdoor air. And exhausted.

Conventionally, the cooling / heating air conditioner used in the conventional air conditioner has a complex internal arrangement and a damper installed therein to reduce the heat exchanging area, thereby deteriorating cooling and heating efficiency, and shortening the service life of the compressor due to overload. Although a branch damper is installed outside the air conditioner to expand the heat exchange area, there is no benefit.

In addition, although the defrosting operation is performed in order to solve the problem of the accumulated frost occurring during the winter heating operation in the winter season, there is a problem that the heating operation is difficult or impossible due to the inflow of cold air into the room during the defrosting operation, There is a problem that the power is wasted, the whole heating efficiency is lowered, and the function is simple.

Korean Patent Publication No. 0-0770594 (entitled " Air-conditioner combined air conditioner ", issued on Nov. 1, 2007) Korean Patent Publication No. 0-0770594 (entitled " Air-conditioner combined air conditioner ", issued on Nov. 1, 2007) Korean Unexamined Patent Publication No. Hei 0-1513305 (entitled "Injection Mode Switching Method of Injection-Type Air Conditioner Combined with Air-conditioning and Heating and Its Air Conditioner," published on Apr. 17, 2015)

In view of the above, it is an object of the present invention to provide an air conditioner that can achieve the most efficient cooling and heating operation and ventilation operation on the basis of a great deal of experience in actual field, provide pleasant indoor conditions, significantly reduce electric energy, The present invention provides an integrated heat pump air conditioner in which the heat generated by the heat pump is reduced.

It is another object of the present invention to provide a compressor and an electric panel integrally formed so as to reduce the volume of the compressor so that the compressor can be easily installed anywhere outside the building, and the space utilization of the building is high. In addition, Thereby providing an integrated heat pump air conditioner.

It is another object of the present invention to provide a heat pump type air conditioner in which defrosting operation due to accumulated frost is solved by using both waste heat and an electric heater to reduce human and electric energy consumption for defrosting, And a method of operating the same.

An integrated heat pump air conditioner according to the present invention comprises an air supply unit (19), a mixing unit (18) and an exhaust unit (20) which are sequentially arranged in the main body; An air supply heat exchanger (9), a filter (14) and an emergency air supply heater (11) installed between the air supply unit (19) and the mixing unit (18); An exhaust heat exchanger (10) and a filter (14a) installed between the mixing portion (18) and the exhaust portion (20); An air supply fan (7), an air supply chamber (1) and an air supply mechanism (2) sequentially installed in the air supply unit (19); An exhaust chamber 8, an exhaust chamber 3 and an exhaust port 4, which are sequentially installed in the exhaust portion 20; A plurality of mixing chambers 18a and 18b provided in the mixing section 18; A machine room (15) having a compressor (13) and a freezing unit installed on one side of the mixing part (18); A plurality of indoor air inlets (6a) (6b) formed on one side of the body and connected to the mixing chamber (18a); A fresh outside air inlet 5 formed at one side of the main body and connected to the mixing chamber 18b; An isolation member 18c for isolating the mixing chamber 18a and the mixing chamber 18b; A mixing damper 16a installed in the isolating member 18c; A damper 16d installed at the new outboard fan inlet 5; Dampers 16b and 16c installed in the room air inlets 6a and 6b, respectively; A connecting duct 1a connecting the indoor air inlet 6a to the air supply chamber 1; A damper 16e installed in the connecting duct 1a; A connecting duct 3a connecting the new outboard inlet 5 and the exhaust chamber 3; A damper 16f installed in the connecting duct 3a; A control unit 17 installed at one side of the supply unit 19; The supply unit 19 is provided with a thermometer 21a for detecting the supply air temperature and then inputting the temperature to the control unit 17. The mixing unit 18 senses the temperature of the mixed air, A thermometer 21b for inputting the temperature and humidity to the control unit 17 and a thermometer 21b for inputting the temperature and humidity to the control unit 17 are installed in the exhaust unit 20, And drainage holes 27, 28 and 29 are provided at the bottom of the mixing unit 18 and the supply unit 19, respectively, and a thermometer 21c for detecting the over- The control unit 17 controls the operation setting (ON / OFF) and the data setting such as temperature / humidity and the operation of the damper (not shown) at the input of the control unit 17 composed of a central processing unit (CPU) or a microcomputer A thermometer 21 and a thermometer 22 are connected to the control unit 17 and the setting unit S for setting and selecting the opening degree and the operation mode, An alarm unit 24 that issues an alarm to a warning light when an abnormality such as an operation failure or an operation stop occurs, a motor 7M of the air supply fan 7, The motor 8M of the exhaust fan 8, the damper motor DM of various dampers, the red-eye prevention heater 12, the emergency air supply heater 11, the compressor 13, And the cooling / heating unit is connected to the water side (25) for spraying the cooling water.

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A method of operating an integrated heat pump air conditioner in accordance with the present invention comprises the steps of: a) setting a cooling temperature in a selected cooling mode; b) The damper 16a of the mixing section 18 is opened by 30%, the damper 16b of the indoor air inlet port 6b is opened by 30%, the room air flows into the mixing section 18b, The damper 16c of the fresh air outside air inlet 5 is 100% opened and the damper 16e between the room air inlet 6a and the air supply chamber 1 is completely closed Opening and closing the damper so that the damper 16f between the new outboard inflow port 5 and the exhaust chamber 3 is fully closed and an air flow in the cooling mode can be generated; c) By the operation of the air supply fan 7, the exhaust fan 8 and the compressor 13, the indoor air flowing into the indoor air inlet 6b and the fresh outdoor air flowing into the fresh air outside air inlet 5 are mixed with each other 18, cooled by the supply air heat exchanger 9, and then supplied to the room through the air supply fan 7, the air supply chamber 1 and the air supply unit 1 to be cooled. the compressor 13 is stopped and the operation of the air supply fan 7 and the exhaust fan 8 is stopped by the operation of the indoor air inlet 6b And the fresh outdoor air introduced into the fresh air outside air inlet 5 are mixed in the mixing portion 18 and then cooled by the air supply heat exchanger 9 and then supplied to the air supply fan 7 and the air supply chamber 1 ) And the air supply mechanism (1), while the air is circulated through the indoor unit; e) If the current cooling temperature is out of the set cooling range, if there is an abnormality, the air is introduced into the room air inlet 6b until the cooling temperature is satisfied by the operation of the air supply fan 7, the exhaust fan 8 and the compressor 13 And the fresh outdoor air flowing into the new outboard air inlet 5 is mixed in the mixing portion 18 and then cooled by the air supply heat exchanger 9 and then supplied to the air supply fan 7 and the air supply chamber 1, (1) so that cooling is maintained; f) When the temperature of the exhaust heat exchanger 10 exceeds the set temperature, the control unit 17 operates the water side 25 and the cooling water is sprayed to the exhaust heat exchanger 10 through the water spray nozzle 26, Cooling the heat exchanger (10); g) When the temperature of the exhaust heat exchanger 10 is maintained at the predetermined temperature, the step of stopping the spraying water 25 is turned off by the stop signal of the control unit 17, and the spraying is stopped; Lt; / RTI >

A method of operating an integrated heat pump air conditioner according to the present invention comprises the steps of: (a) setting a heating temperature in a heating mode; The damper 16a of the mixing section 18 is opened by 30% and the damper 16b of the indoor air inlet port 6b is opened by 30% so that the indoor air flows into the mixing section 18b, The damper 16c of the new outdoor fan unit 6a is opened by 70% and the room air is introduced into the mixing unit 18b and the damper 16d of the new fan unit inlet 5 is opened by 30%, the room air inlet 6a, The damper 16e between the new outboard air inlet 5 and the exhaust chamber 3 is fully closed and the damper 16e between the new outboard air inlet 5 and the exhaust chamber 3 is fully closed so that the air flow in the heating mode can be generated. ; The indoor air flowing into the room air inlets 6a and 6b and the fresh outdoor air flowing into the fresh outboard air inlets 5 are discharged by the operation of the air supply fan 7, the exhaust fan 8 and the compressor 13 Mixed in the mixing section 18 and then heated by the air supply heat exchanger 9 and then supplied to the room through the air supply fan 7 and the air supply chamber 1 and the air supply mechanism 1 to be heated; D) When the temperature of the compressor 13 is normal and the heating temperature is within the set heating temperature range, the compressor 13 is turned off and the indoor fan 14 is turned on by the continuous operation of the air supply fan 7 and the exhaust fan 8 The indoor air flowing into the inlet ports 6a and 6b and the fresh outdoor air flowing into the fresh outboard inlet 5 are mixed in the mixing section 18 and then heated by the air supply heat exchanger 9 and then supplied to the air supply fan 7 Circulating the air through the air supply chamber 1 and the air supply unit 1, If the current heating temperature satisfies the set heating range and there is no abnormality, the operation of the air supply fan 7 and the exhaust fan 8 in the state where the compressor 13 is stopped causes the indoor air inlets 6a and 6b The fresh indoor air flowing into the new outdoor unit inlet 5 is mixed in the mixing unit 18 and then heated by the air supply heat exchanger 9 and then supplied to the air supply fan 7 and the air supply chamber 1 Maintaining the heating while continuing to circulate through the air supply mechanism (1) to the room; If the current heating temperature is outside the set heating range, the operation of the air supply fan 7, the exhaust fan 8 and the compressor 13 causes the indoor air inlets 6a and 6b And the fresh outdoor air flowing into the new outboard air inlet 5 are mixed in the mixing portion 18 and then heated by the air supply heat exchanger 9 and then supplied to the air supply fan 7 and the air supply chamber 1 ) And the air supply device (1), and the heating is maintained while circulating to the inside of the room; When the air supply fan 7 and the exhaust fan 8 operate normally and the compressor 13 does not operate, power is supplied to the emergency air supply heater 11 to be turned on and heated so that the air supply fan 7 and the exhaust fan 8, The outdoor air introduced into the indoor air inflow ports 6a and 6b and the fresh outboard air inflow inlet 5 is mixed in the mixing section 18 by the air supply fan 8 and then supplied to the air supply fan 7 by the emergency air supply heater 11 The air circulating through the air supply chamber (1) and the air supply mechanism (1) is heated to a predetermined temperature, thereby performing emergency heating; Lt; / RTI >

In the present invention, the emergency air supply heater is operated for a predetermined time at the beginning of heating operation to eliminate the discomfort caused by the inflow of cold air, and the emergency air heater is operated when the compressor and the freezing unit malfunctions to operate in conjunction with the by- So that heating can be supplied.

The present invention improves the performance of a compressor by passing indoor air (waste heat) that passes through an indoor air inlet to a machine room to cool the compressor, mixes it with air that has passed through a damper, and passes through an exhaust heat exchanger, And the remaining air is ventilated again through the damper to perform the repeated heating operation so that the exhaust part can be kept at room temperature, thereby preventing the accumulation of frost in the exhaust heat exchanger, so that continuous heating operation is possible without any defrosting .

In the present invention, when the temperature of the exhaust unit is operated above the set value, the water spouting operation is performed and the cooling water is sprayed to the exhaust heat exchanger, So that the condensation temperature of the exhaust heat exchanger is lowered and the condensing efficiency is increased, so that the overload of the compressor is prevented, so that stable operation can be achieved.

In the present invention, the automatic operation includes: setting a desired temperature in a state in which the automatic operation mode is selected; Opening and closing a plurality of dampers installed at respective positions so that an air flow to a corresponding mode state can be generated; Wherein the cooling operation is performed when the current temperature is within the set temperature range and the cooling operation is performed when the current temperature is within the set temperature range and the set temperature is exceeded; Lt; / RTI >

The present invention can be installed in a simple manner regardless of the indoor and outdoor places because the compressor and the electric panel are integrally formed so that the volume is greatly reduced and the space utilization is high and the emergency heating operation is possible as well as the installation convenience and the cooling and heating operation and the ventilation operation, It has various functions and effects such as constant temperature and humidity function and easy application to clean room by applying advanced specifications of installation and filter.

The present invention relates to a refrigerant pipe length measuring apparatus and a refrigerant pipe length measuring method which can reduce an installation space (building space) by integrating an outdoor unit (compressor and a condensation heat exchanger) and an indoor unit (an air supply unit and an evaporation heat exchanger) The efficiency of cooling and heating can be greatly improved.

The present invention reduces the condensation temperature and pressure through the surrounding environment of the waste heat refrigerating unit and the condensation heat exchanger, which are discharged from the inside of the air conditioner to the outside by the amount of fresh outdoor air introduced, thereby greatly reducing the energy consumption during cooling and heating There is an effect that can be.

According to the present invention, it is possible to easily achieve a negative pressure by providing an air supply fan and an exhaust fan installed in an air supply unit and an air discharge port, respectively, to be installed in an operating room or an isolation room.

In the present invention, since the indoor air and / or the machine room is supplied with the fresh outdoor air and the air (indoor air) exhausted from the room during the summer cooling operation, the amount of the compressor is reduced or the overload is prevented, There is an effect to be improved.

The present invention introduces fresh air (5 ~ 30%) of indoor air (5 ~ 30%) to the exhaust part during heating in winter (winter) and circulates it by bypass to maintain room temperature The defrosting phenomenon generated in the exhaust heat exchanger of the exhaust unit can be prevented beforehand, so that the defrosting operation is not necessary and the continuous heating operation is achieved.

The present invention is characterized in that, before the operation of the exhaust heat exchanger is stopped due to high temperature and high pressure (high pressure is generated) due to an increase in outdoor air temperature (for example, 35 ° C or more) 35 deg. C) is relieved to prevent the operation stop and the operation stop, thereby enabling the continuous cooling operation.

The present invention provides an integrated heat pump air conditioner in which a driving unit capable of selecting and controlling all operation modes such as cooling, heating, ventilation, emergency heating, and automatic operation is installed inside the integrated heat pump air conditioner, It is a very useful invention having an effect such that electric work other than the first power supply is unnecessary and the installation is easy.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a plan view showing an embodiment of the present invention. Fig.
2 is a side view showing an example of the present invention.
3 is a cooling operation state diagram showing an example of the present invention.
4 is a heating operation state diagram showing an example of the present invention.
Fig. 5 is a view showing the ventilation operation state shown in an example of the present invention. Fig.
Fig. 6 is a circuit block diagram of the control unit shown as one example of the present invention. Fig.
7 is a flowchart of cooling operation shown as an example of the present invention.
8 is a flowchart of the ventilation operation shown in the embodiment of the present invention.
9 is a heating operation flowchart shown in an example of the present invention.
10 is an automatic operation flowchart showing an example of the present invention.

Preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS In the following description of the embodiments of the present invention, the same components as in the drawings are denoted by the same reference numerals as possible, and detailed descriptions of known configurations and functions are omitted so as not to obscure the gist of the present invention. May be different from what is actually implemented with the schematized drawings in order to easily describe the embodiments of the present invention.

The present invention relates to an integrated heat pump air conditioner capable of maintaining temperature, humidity, and ventilation in a space requiring air conditioning, and more particularly, to an integrated type heat pump air conditioner in which an outdoor unit (a compressor and a condensation heat exchanger) and an indoor unit (an air supply unit and an evaporation heat exchanger) The waste heat, which is used to increase the utilization of space (installation space), reduce the length of refrigerant piping and increase the efficiency of cooling and heating, and discharge the outside air from the inside of the air conditioner to the outside as much as the amount of fresh outdoor air introduced is passed through the surrounding environment of the freezing unit and the condensation heat exchanger By lowering the condensation temperature and pressure, the amount of the compressor is greatly reduced, so that the electric energy in the cooling and heating can be greatly reduced.

FIG. 1 is a plan view of an integrated heat pump air conditioner according to an embodiment of the present invention. FIG. 2 is a front view of the air conditioner of FIG. 1, showing a supply unit 19 for supplying fresh air, A mixer 18 for introducing air returning from the room and fresh outdoor air into the air supply unit 19 and the exhaust unit 20 for use in accordance with the use and an exhaust unit 20 for exhausting the waste heat to the outside And the free space of the mixing unit 18 is secured to provide a compact refrigeration unit to integrate and simplify the peripheral duct installation.

An air supply heat exchanger 9, a filter 14 and an emergency air supply heater 11 are installed between the air supply unit 19 and the mixing unit 18, and between the mixing unit 18 and the air exhaust unit 20, A water spray nozzle 26 provided with an exhaust heat exchanger 10 and a filter 14a, a red-eye prevention heater 12 and a water side 25 is provided, and the air supply unit 19 is provided with an air supply heat exchanger 9 An exhaust fan 8 and an exhaust chamber 3 are provided in this exhaust unit 20 in order. The exhaust fan 8 and the exhaust chamber 3 are connected to each other by the air supply fan 7, And an exhaust port 4 are sequentially installed in the mixing chamber 18. The mixing chamber 18 is provided with a plurality of mixing chambers 18a and 18b.

A machine room 15 having a compressor 13 and a freezing unit is installed at one side of the mixing unit 18 and a control unit 17 is installed at a side of the body or the air supply unit 19.

The supply unit 19 is provided with a thermometer 21a for detecting the supply air temperature and then inputting the temperature to the control unit 17. The mixing unit 18 senses the temperature of the mixed air and then inputs the temperature to the control unit 17. [ A thermometer 21c is installed in the machine room 15 so as to be connected to the compressor 13 ) Is prevented.

The emergency air supply heater 11 is provided at one side of the air supply heat exchanger 9 so that the air heated by the emergency air supply heater 11 in the emergency state in which the compressor 13 does not operate is supplied to the air supply fan 7 and the air discharge And is supplied to the room by the fan 8, thereby achieving emergency heating.

The anti-redeposition heater 12 is installed on one side of the exhaust heat exchanger 10 to prevent the redemption of the exhaust heat exchanger 10 by the redemption prevention heater 12 when the anti-redeposition heater 12 is periodically or subcooled.

In the present invention, in the compressor (13) and the freezing unit, the cooling operation and the heating operation are achieved while the flow of the refrigerant is changed by the four sides 23 (reverse conversion of the cooling cycle). For example, in cooling operation, the air supply heat exchanger 9 becomes an evaporator or a cooler, the exhaust heat exchanger 10 becomes a condenser or a radiator, and in the cooling operation, the exhaust heat exchanger 10 becomes an evaporator or a cooler, 9) become a condenser or a radiator.

The machine room (15) is characterized in that a freezing unit, which is made compact by securing a clearance space of the mixing section (18), is installed and integrated. The branching of the air in the mixing section (18) maximizes the internal space, (16a, 16b, 16c) to the supply unit (19) and the exhaust unit (20).

The amount of air that is branched to the exhaust part 20 is proportional to the amount of fresh outdoor air introduced into the fresh outside air inlet 5 and is maintained at a proper temperature for the operation of the compressor 13 while passing through the machine room 15, Is mixed with fresh outdoor air introduced into the inlet port (5) and is passed through the exhaust heat exchanger (10) at a temperature lower than the outdoor air temperature during cooling to increase the cooling efficiency, and the exhaust heat exchanger (10) .

Attach and detach filters 14 and 14a are installed in the air supply and exhaust heat exchangers 9 and 10 to filter out foreign matter and dust in the circulated air.

Drain drains 27, 28 and 29 are installed at the bottom of the exhaust unit 20, the mixing unit 18 and the supply unit 19 to collect water and the like generated during operation, .

A plurality of room air inlets 6a and 6b connected to the mixing chamber 18a are formed on one side or the upper side of the main body and a new outside air inlet 5 connected to the mixing chamber 18b is formed on one side or the upper side of the main body .

The mixing chamber 18a and the mixing chamber 18b are separated by the separating member 18c and the separating member 18c is provided with the mixing damper 16a to mix the outdoor air in a proper ratio.

An inlet damper 16d whose opening rate is controlled by the damper motor DM is installed in the new outboard inflow opening 5 so that the amount of air flowing into the mixing chamber 18b is controlled and the indoor air inlets 6a, The inlet air dampers 16b and 16c whose opening ratios are controlled by the damper motor DM are respectively installed to control the amount of air flowing into the mixing chamber 18a and the indoor air inlet 6a and the air supply chamber 1, A mixing damper 16e whose opening rate is controlled by a damper motor DM is installed in the connecting duct 1a to be connected to the mixing chamber 18a to control the amount of mixed air flowing into the mixing chamber 18a, A mixing damper 16f whose opening rate is controlled by the damper motor DM is installed in the connecting duct 3a to which the exhaust chamber 3 is connected so that the amount of mixed air flowing into the mixing chamber 18b is controlled.

The dampers 16a, 16b, 16c, 16d, 16e and 16f are opened / closed by the respective damper motors DM operated by the control (control signal) Is set and / or controlled.

The branching of the air in the mixing section 18 is branched to the supply section 19 and the exhaust section 20 through the damper motor DM of the damper 16a, 16b, 16c, The amount of air that is branched to the exhaust part 20 is proportional to the amount of fresh outdoor air introduced into the new outboard air inlet 5 and maintains a proper temperature for operation of the compressor 13 while passing through the machine room 15, Is combined with the fresh outdoor air introduced into the outdoor heat exchanger (5), passes through the exhaust heat exchanger (10) at a temperature lower than the outdoor air during cooling, thereby enhancing the cooling efficiency or helping to prevent the product frost in heating.

A damper 16e is provided as a by-pass between the air supply chamber 1 connected to the air supply unit 19 and the room air inlet 6a for returning from the room, A thermometer 21a is installed in the air supply unit 19 to sense the temperature supplied to the room and supply the air having the set temperature during the heating / cooling operation.

In the present invention, since the outside air flowing into the room at the beginning of the heating operation is in a cold state, the emergency air heater 11 is operated for a predetermined time to eliminate the discomfort caused by the inflow of cold air, , The emergency supply heater 11 is operated to interlock with the by-pass unit as shown in Fig.

The opening ratio of each of the dampers 16a, 16b, 16c, 16d, 16e, and 16f used in the branch or by-pass device of the present invention is illustrated for the sake of understanding, And it can be properly opened and interlocked with each other in accordance with the air supply unit 19, the exhaust unit 20, outdoor air temperature conditions, and the like.

In the present invention, the temperature inside the exhaust unit 20 is sensed by the hygrometer 22 during the heating operation and the temperature inside the exhaust unit 20 is maintained as an image, so that the image is prevented in advance and continuous heating operation is possible.

In the present invention, the control unit 17, which controls all the operation modes (cooling operation, heating operation, ventilation operation, emergency heating operation, automatic operation, etc.), is installed in the main body, And there is no separate electrical work.

The mixing unit 18 is provided with a space for mixing the air returning from the room and the fresh outdoor air introduced from outside the room into the supply unit 19 and the space for passing the room through the exhaust heat exchanger 10 of the exhaust unit 20 And a plurality of dampers 16a, 16b, 16c and 16d for controlling the amount of circulation of air (air volume adjustment). Further, a compression unit that is made compact by utilizing the free space of the mixing portion 18 is provided.

The filter 14 installed in the air supply heat exchanger 9 and the filter 14a installed in the exhaust heat exchanger 10 are detachably attached to easily clean the foreign matter or dust that has been filtered. 14a is also easy to exchange.

The exhaust heat exchanger 10 installed in the exhaust part 20 serves as a condensation heat exchanger during cooling and serves as an evaporation heat exchanger during heating and is provided with an exhaust fan 8 for controlling the flow of outdoor air and mixed air .

The spray device installed in the exhaust heat exchanger 10 is connected to a water supply source in order to increase the condensation efficiency by lowering the condensation temperature by sensing the temperature of the exhaust part 20 during cooling and to reduce an excessive load of the compressor 13 And the cooling water is sprayed to the exhaust heat exchanger 10 through the spray nozzle 26 while the sloping water side 25 is opened so as to spray the cooling water under the control of the exhaust heat exchanger 10 are cooled.

Accordingly, the exhaust heat exchanger 10 is cooled and is maintained at the normal temperature or the set temperature (29 to 32 DEG C). As a result, the condensing efficiency of the exhaust heat exchanger 10 is lowered and the condensing efficiency is increased. So that stable operation and efficient cooling and heating can be achieved.

1. Cooling operation

3 shows the cooling operation state shown in the embodiment of the present invention. The indoor air (for example, temperature 25 ° C, RA 70%) passing through the indoor air inlet 6a and the fresh outdoor air (For example, a temperature of 31 DEG C and an OA of 30%) is mixed (27 DEG C, OA 100%) in the mixing section 18 and is supplied to the air supply heat exchanger 9, SA 100%), and then supplied to the room through the supply fan 7, the supply chamber 1, and the supply mechanism 1.

The room air (for example, temperature 25 ° C and RA 30%) that has passed through the other room air inlet 6b passes through the machine room 15 to cool the compressor 13 to improve the performance of the compressor 13 The exhaust heat exchanger 10 and the exhaust fan 8, the exhaust chamber 3 and the exhaust port 3 (130%) after passing through the fresh outboard fan inlet 5 (for example, at a temperature of 31 ° C and an airflow EA of 100% 4). This is because the waste heat discharged as the amount of fresh outdoor air is the same as the room temperature (25 DEG C) and is sent to the exhaust heat exchanger 10 that performs the condensing operation using the waste heat, unit) can be optimized by lowering the ambient temperature.

Also, since the cooling operation can be stopped while the compressor 13 is stopped due to the elevated temperature of the outdoor air, in the present invention, when the temperature of the exhaust part 20 is operated above a set value (for example, 45 DEG C) The condensing efficiency of the exhaust heat exchanger 10 is lowered and the compressor 13 is prevented from being overloaded while cooling water is sprayed to the exhaust heat exchanger 10 to cool the exhaust heat exchanger 10, Efficient cooling is achieved.

2. Heating operation

4 shows the heating operation state shown in an example of the present invention. The indoor air (for example, temperature 20 ° C, RA 70%) passing through the indoor air inlet 6a and the fresh outdoor air (For example, a temperature of 5 ° C and an OA of 30%) is mixed (for example, at a temperature of 15 ° C and an OA of 100%) in a mixing section 18 and then passed through an air supply heat exchanger 9 to obtain a proper supply air temperature and air flow rate , SA 100%).

The room air (for example, the temperature 20 ° C and the RA 30%) that has passed through the room air inlet 6b as shown in FIG. 4 is cooled by passing through the machine room 15 to cool the compressor 13, (For example, EA 30%) while passing through the exhaust heat exchanger 10 while being mixed with the bypass air (10 DEG C, BY-PASS 100%) passing through the damper 16f after passing through the damper 16f. 100%) is again ventilated through the damper 16f to perform the repeated heating operation. At this time, since the exhaust part 20 can be maintained at a normal temperature, it is possible to control the amount of external ventilation irrespective of the outdoor air temperature so that the outdoor air temperature is prevented from being lowered at a low temperature (for example, 7 DEG C) Heating operation becomes possible.

That is, the waste heat can be maintained at the room temperature of the compressor (13), the refrigeration unit and the ambient temperature while maintaining the displacement amount and the outdoor air introduction amount, for example, 10 to 15%.

In addition, when the compressor (13) and the freezing unit are stopped, cold air is supplied to the room in a rapid thermal equilibrium, so that the emergency supply heater (11) is operated to automatically control the heating temperature, thereby reducing discomfort.

The emergency air supply heater 11 generates 20% of the total heat amount that the emergency air supply heater 11 can generate, and the remaining heat amount uses the heat amount by-passed rather than the entirety Not only the electric energy is greatly reduced, but also the energy utilization efficiency is excellent.

3. Ventilation operation

FIG. 5 shows the ventilation operation state shown in an example of the present invention. The indoor air (for example, OA 100%) that has passed through the indoor air inlet 6b is discharged after passing through the exhaust heat exchanger 10, Fresh air (for example, 100% SA) that has passed through the air supply heat exchanger 5 passes through the air supply heat exchanger 9 and fresh air is supplied to the room to be ventilated.

4. Emergency heating operation

The heater 13 can be heated for a predetermined time in combination with the emergency air heater 11 when the compressor 13 fails in the heating operation. The emergency air supply heater 11 generates 20% of the total heat amount that the emergency air supply heater 11 can generate, and the remaining heat amount uses the heat amount by-passed rather than the entirety , The electric energy is greatly reduced and the energy utilization efficiency is excellent.

6 shows an operation setting (ON / OFF) of an input of a control block 17 constituted by a central processing unit (CPU), a microcomputer (MICOM), a PLC or the like, (S) configured by a switch pad and / or a touch screen capable of setting and selecting data such as temperature / humidity, damper opening degree setting, various operation modes (cooling operation, heating operation, The thermometer 21 and the hygrometer 22 are connected to each other and may include a remote control receiver for remotely controlling the remote controller.

An output of the control unit 17 includes an alarm unit 24 for issuing an alarm to a warning lamp when an abnormality such as an operation failure or an operation stop occurs, The motor 8M of the exhaust fan 8, the damper motor DM of various dampers, the red-eye prevention heater 12, the emergency supply heater 11, the compressor 13, (4-WAYS VALVE) 23 for switching the operation mode, the salvage water side 25 for spraying the cooling water, and the cooling / heating unit or the cooling / heating unit control unit, respectively.

The control unit 17 is additionally connected to a drive driver and a memory unit for driving various actuators, and a communication unit for wirelessly transmitting a remote control or status to a computer (PC) or a mobile unit.

The thermometer 21 that detects the temperature and inputs the detected temperature to the controller 17 includes an inlet unit thermometer 21a, a mixing unit thermometer 21b, a compressor thermometer 21c, And a temperature and humidity sensor 22 for detecting the temperature and the humidity and inputting the detected temperature and humidity to the control unit 17.

FIG. 7 is a flow chart of the cooling operation state shown in the embodiment of the present invention. When a desired cooling temperature is set in the cooling mode selected state (step S1), a plurality of dampers 16 provided at respective positions are set to air The air conditioning atmosphere is set while being opened or closed so that a flow can be generated (step S2).

For example, the damper 16a of the mixing section 18 is opened by 30%, the damper 16b of the indoor air inlet port 6b is opened by 30%, the room air flows into the mixing section 18b, The damper 16c of the air inlet 6a is closed and the damper 16d of the fresh outside air inlet 5 is 100% opened and the damper 16e between the room air inlet 6b and the air supply chamber 1 And the damper 16f between the new outboard inlet 5 and the exhaust chamber 3 is also completely closed.

3, external fresh air is introduced through the fresh outboard air inlet 5 opened by 100% by the operation of the air supply fan 7, then cooled by the air supply heat exchanger 9, Operation is achieved.

On the other hand, when the damper 16 is opened and closed in the cooling mode, the air supply fan 7 operates (step S3), the exhaust fan 8 operates (step S4) The compressor 13 is stopped when the temperature of the compressor 13 is normal (step S6) and the cooling temperature is within the set cooling temperature range (step S7) And the air supply fan 7 and the exhaust fan 8 continue to operate (step S8), the compressor 13 is stopped (OFF) when the current cooling air temperature satisfies the set cooling range (step S9) The cooling air is circulated (ventilated) to the room by the continuous operation of the air supply fan 7 and the exhaust fan 8 in the state where the current cooling air temperature is outside the predetermined cooling range (Step S9), the cooling air is continuously circulated to the room by the operation of the air supply fan 7, the exhaust fan 8 and the compressor 13 (ON) until the cooling temperature is satisfied (Ventilation) while cooling is maintained.

When the air supply fan 7, the exhaust fan 8 and the compressor 13 are not operated due to failure, disconnection, or the like, the cooling operation is performed and the alarm is outputted through the alarm unit 24, The stop state and the contents of the alarm are displayed on the screen (step S10), so that the user can quickly deal with the problem through checking, repair, and the like.

The temperature of the exhaust heat exchanger 10 detected by the temperature and humidity meter 22 of the exhaust unit 20 is set to a normal temperature or a set temperature (29 to 32 DEG C) due to an overload of the exhaust heat exchanger 10, The cooling water is injected into the exhaust heat exchanger 10 through the spray nozzle 26 while the water surface 25 is turned ON by the control unit 17 in step S11, When the temperature of the exhaust heat exchanger 10 is maintained at the normal temperature or the set temperature (29 to 32 DEG C) (step S12) (Step S13). Therefore, the condensation efficiency of the exhaust heat exchanger 10 is lowered, and the excessive load of the compressor 13 is reduced, thereby achieving efficient cooling.

FIG. 8 is a flowchart of the ventilation operation state shown in the embodiment of the present invention. When ventilation conditions such as ventilation time and humidity are set in the ventilation mode (step S21), a plurality of dampers 16 The air conditioning atmosphere is set while being opened or closed so that an air flow in a mode state can be generated (step S2).

For example, the damper 16a of the mixing portion 18 is opened 100%, the damper 16b of the room air inlet 6b is opened 100%, and the fresh air is introduced into the mixing portion 18b, The damper 16c of the room air inlet 6a is closed and the damper 16d of the new outboard air inlet 5 is opened by 30% and the damper 16e between the room air inlet 6b and the air supply chamber 1 is opened. And the damper 16f between the new outboard inlet 5 and the exhaust chamber 3 is also completely closed.

Therefore, when the air supply fan 7 is operated (step S23), the exhaust fan 8 is operated (step S24), and the compressor 13 is turned off (step S25) The indoor air is ventilated by the fresh air because the air introduced into the mixing part through the air supply port 5 is supplied to the room through the air supply part and the ventilated indoor air is discharged to the outside air through the indoor air inlet 6b opened to the 100% And when the desired ventilation is satisfied (step S26), the ventilation state is ended.

When the air supply fan 7, the exhaust fan 8 and the compressor 13 are not operated due to failure, disconnection, or the like, the cooling operation is performed and the alarm is outputted through the alarm unit 24, The stop state and the contents of the alarm are displayed on the screen (step S27), so that the user can promptly deal with the trouble by checking, repairing, or the like.

Fig. 9 is a flow chart of a heating operation state shown in the embodiment of the present invention. When a desired heating temperature is set in a heating mode selected state (step S31), a plurality of dampers 16 provided at each position are cooled The air conditioning atmosphere is set while being opened or closed so that a flow can be generated (step S32).

For example, the damper 16a of the mixing section 18 is opened by 30%, the damper 16b of the indoor air inlet port 6b is opened by 30%, the room air flows into the mixing section 18b, The damper 16c of the air inlet 6a is opened by 70% and the damper 16d of the new outside air inlet 5 is opened by 30% and the damper 16e between the room air inlet 6b and the air supply chamber 1 Is completely closed and the damper 16f between the new outboard inlet 5 and the exhaust chamber 3 is also completely closed.

4, external fresh air is introduced through the fresh outside air inlet 5 opened by the operation of the air supply fan 7 and the exhaust fan 8, then heated by the air supply heat exchanger 9, So that the heating operation is achieved.

On the other hand, the air supply fan 7 operates (S33) and the exhaust fan 8 operates (S34) while the dampers 16 are opened and closed in the heating mode, (Step S35). When the temperature of the compressor 13 is normal and the heating temperature is within the set heating temperature range (step S36), the compressor 13 is stopped and the air supply fan 7) and the exhaust fan 8 continue to operate in the heating operation (step S37). If the current heating temperature satisfies the set heating range and there is no abnormality (step S36), the compressor 13 is stopped The air is circulated (ventilated) by the continuous operation of the air supply fan 7 and the exhaust fan 8 (step S37). If the current heating temperature is lower than the set temperature (step S38) The heating air is continuously circulated (ventilated) until the heating temperature is satisfied by the operation (ON) of the exhaust fan 8 and the compressor 13 (step S36) .

When the air supply fan 7 and the exhaust fan 8 are not operated due to failure or disconnection, the air conditioner is operated in the cooling mode and alarmed via the light path 24, and at the same time, The content is displayed on the screen (step S39), so that the user can quickly respond to the request through inspection, repair, or the like.

When emergency heating is required because the air supply fan 7 and the exhaust fan 8 operate normally and the compressor 13 does not operate due to a failure or the like, when entering the emergency heating operation state, power is supplied to the emergency air supply heater 11 The air circulated by the air supply fan 7 and the exhaust fan 8 is heated to the emergency set temperature (step S41), and the air is heated.

The heating air is supplied to the room and the temperature of the thermometer 21a of the air supply unit 19 is maintained at a predetermined value, When the temperature inputted to the controller 17 is included in the emergency set temperature range and the proper temperature is maintained (step S43), the power supplied to the emergency supply heater 11 is cut off (OFF) (Step S44).

If the emergency set temperature is not reached during the set emergency operation time (for example, 5 to 10 minutes), the trouble or abnormality of the emergency supply heater 11 is displayed on the screen display part of the touch screen and an alarm is generated (step S39) Inspection, and repair.

FIG. 10 is a flowchart showing the automatic operation state shown in the embodiment of the present invention. When a desired temperature range is set in a state in which the automatic operation mode is selected (step S51), a plurality of dampers 16 provided at respective positions are set to the corresponding mode state Automatic operation is accomplished while opening or closing to allow air flow to be generated. For example, if the set temperature is within the set temperature range (S53), the heating operation is performed (S54). If the set temperature is exceeded (or is abnormal), the cooling operation is performed Step S54) Automatic operation is achieved.

While the invention has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. This is possible. Therefore, the scope of the present invention should not be construed as being limited to the embodiments described, but should be determined by equivalents to the appended claims, as well as the appended claims.

(1) - feed chamber (2) - feed mechanism
(3) - exhaust chamber (4) - exhaust port
(5) - Outer air inlet (6a) (6b) - Outer inlet
(7) - Supply fan (8) - Exhaust fan
(7M) - Supply fan motor (8M) - Exhaust fan motor
(9) - Supply heat exchanger (10) - Exhaust heat exchanger
(11) - Emergency air supply heater (12) - Reduction heater
(13) - compressor (14) (14a) - filter
(Compressor room) 16a, 16b, 16c, 16d, 16e, 16f,
(17) -control part (18) -mixing part
(18a) - mixing chamber (18b) - mixing chamber
(18c) - Isolation member (19) - Supply part
(20) - exhaust part (21a) (21b) (21c) - thermometer
(22) - Hygrometer (23) - Four sides
(24) - Alarms (25) - Salvation
(26) - Sprinkling nozzle (27) (28) (29) - Drain drain
(DM) - Damper motor

Claims (5)

An air supply unit 19, a mixing unit 18, and an exhaust unit 20 which are successively formed in the main body;
An air supply heat exchanger (9), a filter (14) and an emergency air supply heater (11) installed between the air supply unit (19) and the mixing unit (18);
An exhaust heat exchanger (10) and a filter (14a) installed between the mixing portion (18) and the exhaust portion (20);
An air supply fan (7), an air supply chamber (1) and an air supply mechanism (2) sequentially installed in the air supply unit (19);
An exhaust chamber 8, an exhaust chamber 3 and an exhaust port 4, which are sequentially installed in the exhaust portion 20;
A plurality of mixing chambers 18a and 18b provided in the mixing section 18;
A machine room (15) having a compressor (13) and a freezing unit installed on one side of the mixing part (18);
A plurality of indoor air inlets (6a) (6b) formed on one side of the body and connected to the mixing chamber (18a);
A fresh outside air inlet 5 formed at one side of the main body and connected to the mixing chamber 18b;
An isolation member 18c for isolating the mixing chamber 18a and the mixing chamber 18b;
A mixing damper 16a installed in the isolating member 18c;
A damper 16d installed at the new outboard fan inlet 5;
Dampers 16b and 16c installed in the room air inlets 6a and 6b, respectively;
A connecting duct 1a connecting the indoor air inlet 6a to the air supply chamber 1;
A damper 16e installed in the connecting duct 1a;
A connecting duct 3a connecting the new outboard inlet 5 and the exhaust chamber 3;
A damper 16f installed in the connecting duct 3a;
A control unit 17 installed at one side of the supply unit 19; , ≪ / RTI &
The supply unit 19 is provided with a thermometer 21a for detecting the supply air temperature and then inputting the temperature to the control unit 17. The mixing unit 18 senses the temperature of the mixed air and inputs the temperature to the controller 17 A thermometer 21b is installed in the engine room 15 and a temperature and humidity meter 22 for sensing the temperature and the humidity and inputting the temperature and humidity to the controller 17 is installed in the engine room 15, And a thermometer 21c for detecting the temperature of the liquid,
Drain drains 27, 28 and 29 are respectively installed at the bottom of the exhaust unit 20, the mixing unit 18, and the supply unit 19,
The control unit 17 controls the operation setting (ON / OFF) and the data setting such as temperature / humidity and the damper opening setting (setting) on the input of the control unit 17 composed of a central processing unit (CPU) or a microcomputer A setting unit S capable of setting and selecting an operation mode, a thermometer 21, and a hygrometer 22,
An output of the control unit 17 includes an alarm unit 24 for issuing an alarm to a warning lamp when an abnormality such as an operation failure or an operation stop occurs, The motor 8M of the exhaust fan 8, the damper motor DM of various dampers, the red-eye prevention heater 12, the emergency supply heater 11, the compressor 13, , The four sides (23) for switching the operation mode, the living water side (25) for sprinkling the cooling water, and the cooling / heating unit are connected to each other. delete A method of operating an integrated heat pump air conditioner comprising:
a) setting a cooling temperature in a selected cooling mode;
b) The damper 16a of the mixing section 18 is opened by 30%, the damper 16b of the indoor air inlet port 6b is opened by 30%, the room air flows into the mixing section 18b, The damper 16c of the fresh air outside air inlet 5 is 100% opened and the damper 16e between the room air inlet 6a and the air supply chamber 1 is completely closed Opening and closing the damper so that the damper 16f between the new outboard inflow port 5 and the exhaust chamber 3 is fully closed and an air flow in the cooling mode can be generated;
c) By the operation of the air supply fan 7, the exhaust fan 8 and the compressor 13, the indoor air flowing into the indoor air inlet 6b and the fresh outdoor air flowing into the fresh air outside air inlet 5 are mixed with each other 18 and cooled by the air supply heat exchanger 9 and then supplied to the room through the air supply fan 7 and the air supply chamber 1 and the air supply unit 2 to be cooled.
the compressor 13 is stopped and the operation of the air supply fan 7 and the exhaust fan 8 is stopped by the operation of the indoor air inlet 6b And the fresh outdoor air introduced into the fresh air outside air inlet 5 are mixed in the mixing portion 18 and then cooled by the air supply heat exchanger 9 and then supplied to the air supply fan 7 and the air supply chamber 1 ) And the air supply mechanism (2), while the air is circulated through the indoor unit;
e) If the current cooling temperature is out of the set cooling range, if there is an abnormality, the air is introduced into the room air inlet 6b until the cooling temperature is satisfied by the operation of the air supply fan 7, the exhaust fan 8 and the compressor 13 And the fresh outdoor air flowing into the new outboard air inlet 5 is mixed in the mixing portion 18 and then cooled by the air supply heat exchanger 9 and then supplied to the air supply fan 7 and the air supply chamber 1, (2) to maintain the cooling state;
f) When the temperature of the exhaust heat exchanger 10 exceeds the set temperature, the control unit 17 operates the water side 25 and the cooling water is sprayed to the exhaust heat exchanger 10 through the water spray nozzle 26, Cooling the heat exchanger (10);
g) When the temperature of the exhaust heat exchanger 10 is maintained at the predetermined temperature, the step of stopping the spraying water 25 is turned off by the stop signal of the control unit 17, and the spraying is stopped;
A method of operating an integrated heat pump air conditioner. A method of operating an integrated heat pump air conditioner comprising:
Setting a heating temperature in a selected heating mode;
The damper 16a of the mixing section 18 is opened by 30% and the damper 16b of the indoor air inlet port 6b is opened by 30% so that the indoor air flows into the mixing section 18b, The damper 16c of the new outdoor fan unit 6a is opened by 70% and the room air is introduced into the mixing unit 18b and the damper 16d of the new fan unit inlet 5 is opened by 30%, the room air inlet 6a, The damper 16e between the new outboard air inlet 5 and the exhaust chamber 3 is fully closed and the damper 16e between the new outboard air inlet 5 and the exhaust chamber 3 is fully closed so that the air flow in the heating mode can be generated. ;
The indoor air flowing into the room air inlets 6a and 6b and the fresh outdoor air flowing into the fresh outboard air inlets 5 are discharged by the operation of the air supply fan 7, the exhaust fan 8 and the compressor 13 Mixed in the mixing section 18 and then heated by the air supply heat exchanger 9 and then supplied to the room through the air supply fan 7 and the air supply chamber 1 and the air supply mechanism 2 to be heated;
D) When the temperature of the compressor 13 is normal and the heating temperature is within the set heating temperature range, the compressor 13 is turned off and the indoor fan 14 is turned on by the continuous operation of the air supply fan 7 and the exhaust fan 8 The indoor air flowing into the inlet ports 6a and 6b and the fresh outdoor air flowing into the fresh outboard inlet 5 are mixed in the mixing section 18 and then heated by the air supply heat exchanger 9 and then supplied to the air supply fan 7 Circulating the air through the air supply chamber 1 and the air supply mechanism 2,
If the current heating temperature satisfies the set heating range and there is no abnormality, the operation of the air supply fan 7 and the exhaust fan 8 in the state where the compressor 13 is stopped causes the indoor air inlets 6a and 6b The fresh indoor air flowing into the new outdoor unit inlet 5 is mixed in the mixing unit 18 and then heated by the air supply heat exchanger 9 and then supplied to the air supply fan 7 and the air supply chamber 1 Maintaining the heating while continuing circulation to the room through the air supply mechanism (2);
If the current heating temperature is outside the set heating range, the operation of the air supply fan 7, the exhaust fan 8 and the compressor 13 causes the indoor air inlets 6a and 6b And the fresh outdoor air flowing into the new outboard air inlet 5 are mixed in the mixing portion 18 and then heated by the air supply heat exchanger 9 and then supplied to the air supply fan 7 and the air supply chamber 1 ) And the air supply mechanism (2) while keeping the heating circulation;
When the air supply fan 7 and the exhaust fan 8 operate normally and the compressor 13 does not operate, power is supplied to the emergency air supply heater 11 to be turned on and heated so that the air supply fan 7 and the exhaust fan 8, The outdoor air introduced into the indoor air inflow ports 6a and 6b and the fresh outboard air inflow inlet 5 is mixed in the mixing section 18 by the air supply fan 8 and then supplied to the air supply fan 7 by the emergency air supply heater 11 The air circulating through the air supply chamber (1) and the air supply mechanism (2) is heated to a predetermined temperature to perform emergency heating;
A method of operating an integrated heat pump air conditioner. The indoor air flowing into the room air inlets 6a and 6b and the fresh outdoor air flowing into the new outboard air inlets 5 by the operation of the air supply fan 7, the exhaust fan 8 and the compressor 13, And is heated by the air supply heat exchanger 9 and then supplied to the room through the air supply fan 7 and the air supply chamber 1 and the air supply mechanism 2 to be heated and then operated as an integral heat pump air conditioner operating method Wherein:
The indoor air introduced into the indoor air inlet 6b is passed through the compressor 13 of the machine room 15 to cool the compressor 13 to improve the performance thereof, Pass air (BY-PASS) passing through the damper 16f between the exhaust chamber 3 and the exhaust port 4 and passes through the exhaust heat exchanger 10 to exhaust some of the air through the exhaust chamber 3 and the exhaust port 4, And the exhaust heat exchanger (10) is prevented from being roughened by allowing the exhaust portion (20) to be maintained at a normal temperature by passing the exhaust gas through the damper (16f) to be bypassed. How to operate the heat pump air conditioner.

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