JP2021527193A - Condensed water removal device for air conditioner, air conditioner and condensed water removal method - Google Patents

Abstract

The condensate removing device (1) of the air conditioner includes a control unit (8) and a valve (9) connected to the control unit (8), wherein the valve (9) is at least one first heat exchanger ( An inlet (10) suitable for connecting to 5, 6) and at least one first outlet (11, 12) suitable for connecting to at least one second heat exchanger (6, 5). The control unit (8) opens and closes the first outlets (11, 12) of the valve (9) in order to convey the condensed water toward the second heat exchangers (6, 5). Suitable for setting.
[Selection diagram] Fig. 1

Description

The present invention relates to a condensed water removing device for an air conditioner. The present invention also relates to an air conditioner and a method for removing condensed water from the air conditioner.

An air conditioner is usually a device used to cool air by a refrigeration cycle.

The air conditioner includes a refrigerant flow circuit that houses a compressor, a condenser, an evaporator, and a throttling unit inserted between the condenser and the evaporator.

In "cooling" mode, the compressor compresses the low temperature and low pressure refrigerant vapors, leaving the vapors at high temperature and high pressure. The steam is sent to the condenser via a copper tube. The condenser cools the vapor and then releases heat to the outside air to turn the vapor into a liquid, which heats the outside air. The refrigerant that has passed through the condenser, which is in a liquid state but still at high pressure, passes through a drawing unit, which is usually a capillary tube, thereby changing from high pressure to low pressure while maintaining the liquid state. The low-temperature, low-temperature liquid is transported to an evaporator, where it is converted into vapor by heat absorption. Then, the air in the room where the air conditioner is arranged is cooled. The refrigerant then returns to the compressor in the form of steam and the cycle resumes.

Modern air conditioners can also operate in heating mode by reversing the direction of refrigerant flow. In this mode, also known as the "heat pump" method, the flow of refrigerant is reversed by a four-way valve, allowing it to absorb a certain amount of heat from the cold outside air and release the hot inside air in winter.

There is an air conditioner including an indoor unit and an outdoor unit. The outdoor unit houses the condenser and motor of the air conditioner, the indoor unit or "split" unit houses the evaporator, and air is supplied into the room through a specially designed slot.

Recently, "integrated" devices that do not have an outdoor unit, can use air or water condensation, consist of a single device, and perform the functions of both the indoor and outdoor units are also commercially available. There is.

In the two types of air conditioners, condensed water (condensation) is generated in both the condenser and the evaporator.

In "cooling" mode, condensed water is generated in the evaporator (generally housed in the indoor unit) due to the temperature difference from the moist air present in the room. In the heating mode, once defrosted during the inverted refrigeration cycle, condensed water is generally produced in a heat exchanger located outdoors.

Condensed water is usually collected in trays, which must be emptied on a regular basis or removed by gravity through a specially designed outdoor drain. If the condensate cannot be removed through such a drain, a pump should be used.

However, these systems require piping and exhaust ducts outside the air conditioner itself, so they are not always feasible in buildings where air conditioners are installed (eg, installed in historic buildings). Can not). Further, it cannot be realized by an integrated air conditioner in which two units are integrated with a single device arranged in a room.

An object of the present invention is to eliminate the above-mentioned drawbacks by ensuring that condensed water can be removed without increasing the size of the entire air conditioner while avoiding the installation of a drainage pipe specially designed. ..

The present invention achieves this object by the condensed water removing device having the feature according to claim 1.

The apparatus according to the present invention makes it possible to remove the condensed water generated in the exchanger by moving it to another exchanger and vaporizing it. Furthermore, it can be installed in an existing air conditioner simply by connecting it according to the components of the air conditioner itself.

Advantageously, the valve has at least one second outlet suitable for connecting to the second heat exchanger, and the control unit transports the condensed water towards the second heat exchanger. Therefore, it is suitable for setting the opening and closing of the second outlet of the valve. This ensures that the device can be used when operating the air conditioner in either the cooling mode or the heating mode, and that the condensed water is removed and discarded in either of the operating modes.

Preferably, the device comprises a pump having an inlet suitable for connecting to a first heat exchanger and / or a second heat exchanger, and the pump is a first heat exchanger and / or a second. Suitable for transporting condensed water from the heat exchanger to the valve. As a result, the condensed water can be efficiently transferred to the valve.

Advantageously, the device comprises at least one collection tank intervening between the first heat exchanger and the pump and / or between the second heat exchanger and the pump, the tank containing the first heat. Suitable for collecting condensed water from the exchanger and / or the second heat exchanger. The device preferably comprises at least one level sensor located in the collection tank and connected to the control unit. In this way, above a certain level of condensed water, the valve opens towards the exchanger.

A preferred embodiment of the device comprises at least one atomizer or vaporizer located downstream of the valve. In particular, the valve has a third outlet connected to the atomizer / vaporizer.

An advantageous embodiment of the device includes at least one humidity sensor suitable for indoor placement, the humidity sensor being connected to the control unit.

Preferably, the control unit directs the atomizer / vaporizer to open or close the outlet of the valve by a signal from the level sensor and / or the humidity sensor.

The control unit then turns the valve towards the atomizer / vaporizer if the condensate is not effectively removed by the heat exchanger or if the humidity in the room where the air conditioner is located exceeds a certain level. The opening degree can be controlled, whereby the condensed water can be vaporized to the outside air.

Advantageously, the control unit is suitable for connecting to the cycle reversing valve of the air conditioner, and commands the opening and closing of the valve outlet toward the first heat exchanger or the second heat exchanger in response to the cycle reversal. do. This allows the condensate removing device to operate automatically in both cooling and heating modes.

According to another aspect of the present invention, the air conditioner includes the features according to claim 11.

According to a further aspect of the present invention, the method for removing condensed water from an air conditioner includes the feature according to claim 15.

Further advantages and features of the present invention will become more apparent from the following detailed description with reference to the accompanying drawings showing non-limiting embodiments.

The operating configuration of the air conditioner in the "cooling" mode into which the device according to the preferred embodiment of the present invention is inserted is shown. The operation configuration of the "heating" mode of the air conditioner shown in FIG. 1 is shown.

FIG. 1 shows a condensed water removing device according to a preferred embodiment of the present invention with reference to reference numeral 1. The device 1 is inserted inside the air conditioner 2.

The air conditioner 2 can preferably operate in both a "cooling" mode and a "heating" ("heat pump") mode. However, the device 1 according to the present invention can also be used in a "cooling only" air conditioning unit.

The air conditioner 2 is inserted between the compressor 4, the first heat exchanger 5, the second heat exchanger 6, the first heat exchanger 5, and the second heat exchanger 6. A refrigerant flow circuit 3 including a throttle unit 7 such as a capillary tube or a control valve is included in a known manner.

In the cooling mode shown in FIG. 1, the steam contained in the circuit 3 of the air conditioner 2 becomes high pressure and high temperature in the compressor 4 before moving to the first heat exchanger 5. In this mode, the first heat exchanger 5 functions as a condenser. In the first heat exchanger-condenser 5, the vapor is converted into a liquid by releasing heat to the outside air. The throttle unit 7 then reduces the pressure of the liquid from the first heat exchanger-condenser 5 and regulates the amount of liquid delivered to the second heat exchanger 6.

In the cooling mode, the second heat exchanger 6 functions as an evaporator. In the second heat exchanger-evaporator 6, the liquid absorbs heat from the room, cools the room, and turns into vapor. Next, the compressor 4 is headed again to restart the cycle.

In the cooling mode, condensed water is generated in the second heat exchanger-evaporator 6 due to the temperature difference from the moist air in the room in contact with the second heat exchanger-evaporator 6.

In the heating mode shown in FIG. 2, the steam contained in the circuit 3 of the air conditioner 2 becomes high pressure and high temperature in the compressor 4 before moving to the second heat exchanger 6. In the cooling mode, the second heat exchanger 6 functions as a condenser. In the second heat exchanger-condenser 6, the vapor releases heat into the room to heat the room and turns into a liquid. The throttle unit 7 then reduces the pressure of the liquid from the second heat exchanger-condenser 6 and regulates the amount of liquid delivered to the first heat exchanger 5. In the cooling mode, the first heat exchanger 5 functions as an evaporator.

In the first heat exchanger-evaporator 5, the liquid absorbs heat from the outside air and is converted into vapor. Next, the compressor 4 is headed again to restart the cycle.

Also, in the heating mode, condensed water is generated in the first heat exchanger-evaporator 5 after defrosting as part of the inverted refrigeration cycle.

In order to remove the condensed water generated in the heat exchanger, according to the present invention, a device 1 including a control unit 8 and a valve 9 connected to the control unit 8 is provided, in which the valve 9 is an air conditioner. At least one first heat exchanger, the first heat exchanger 5 of the refrigeration circuit when operating in heating mode, or the second heat exchanger 6 when operating in cooling mode. The inlet 10 connectable to the heat exchanger and the second heat exchanger 6 of the refrigeration circuit if the air conditioner is operating in heating mode, or if the air conditioner is operating in cooling mode. The control unit 8 has at least one first outlet that can be connected to at least one second heat exchanger, which is the first heat exchanger 5, and the control unit 8 transfers condensed water to the second heat exchanger. It is suitable for setting the opening and closing of the first outlet of the valve 9 to carry toward.

The valve 9 is preferably a solenoid valve.

Therefore, in the method for removing condensed water according to the present invention, the step of transporting the condensed water from the first heat exchanger 5 to the valve 11 and the control unit 8 open the first outlet 11 of the valve 9 to collect the condensed water. Includes a step of transporting to the second heat exchanger 6.

Advantageously, the valve 9 has at least one second outlet 12 that can be connected to the first heat exchanger 5 to remove the condensed water in both cooling and heating modes. Advantageously, the inlet of the valve 9 is also connected to the second heat exchanger 6.

In a preferred embodiment, the valve 9 has a third outlet 13 for transporting condensed water to the outside of the air conditioner 2. Advantageously, the device 1 includes a sprayer or vaporizer 14 connected to a third outlet 13 of the valve 9 to remove the condensed water by vaporizing it to the outside air.

In the illustrated embodiment, device 1 includes a pump 15 located upstream of valve 9. In cooling mode, the inlet 16 of the pump 15 is connected to at least the second heat exchanger 6. When the air conditioner 2 can operate in both modes, the inlet 16 of the pump 15 is connected to both the first heat exchanger 5 and the second heat exchanger 6.

In the illustrated embodiment, a collection tank 17 is installed to collect at least the condensed water from the second heat exchanger 6 when in cooling mode. The collection tank 17 is arranged upstream of the pump 15. When the air conditioner 2 can operate in both modes, the collection tank 17 is connected to both the first heat exchanger 5 and the second heat exchanger 6.

In this embodiment, the method collects the condensed water from the exchanger into the collection tank 17 and sets the level of the condensed water in the collection tank 17, preferably before pumping the condensed water to the valve 9. Includes steps to do.

Advantageously, the collection tank 17 houses the level sensor 18 connected to the control unit 8. In a preferred embodiment, the level sensor 18 includes a two-stage float switch or an infrared level indicator.

In an advantageous embodiment, the method checks the humidity in the room where the second heat exchanger 6 is located and opens the third outlet 13 of the valve by the control unit 8 when the humidity is higher than a predetermined value. The step of transporting the condensed water to the atomizer / vaporizer 14 is included.

In particular, the device 1 includes a humidity sensor 19 connected to the control unit 8. The sensor 19 detects the humidity of the room in which the air conditioner 2 is arranged in the case of the integrated type, or the room in which the internal unit of the air conditioner 2 including the second heat exchanger 6 is arranged.

The figure shows an air conditioner 2 that can be operated in both a cooling mode and a heating mode. In this case, the air conditioner 2 includes a refrigeration cycle reversing valve 20, which is usually a four-way valve attached to the compressor 4 to reverse the flow direction of the refrigerant in the circuit 3.

The valve 20 is connected to the circuit board of the air conditioner 2. Preferably, the refrigeration cycle reversing valve 20 is connected to the control unit 8 of the condensed water removing device 1.

When the throttle unit 7 includes a control valve, the control valve is preferably connected to the control unit 8 of the condensed water removing device 1.

Therefore, the valve 9 of the condensed water removing device 1 is controlled according to whether or not the cooling / heating mode is operating, and receives a signal from the cycle reversing valve 20.

The air conditioner 2 accommodating the condensed water removing device 1 operates as follows.

In the cooling mode shown in FIG. 1, condensed water is generated in the second heat exchanger 6. The condensed water is conveyed to the collection tank 17.

In the preferred embodiment shown, when the level sensor 18 located in the collection tank 17 has exceeded the first predetermined value, the control unit 8 is directed towards the first heat exchanger-condenser 5. Command the valve 10 to open the second outlet 12. In cooling mode, the first heat exchanger-condenser 5 reaches a temperature of about 90 ° C. and the condensed water vaporizes and drains through a fan commonly attached to the first heat exchanger-condenser 5. Will be done.

In an advantageous embodiment of the method according to the invention, the amount of condensed water upstream of the valve 9 is measured, and if the level of condensed water is higher than a predetermined value, the control unit 8 opens the valve 9 to atomize / vaporize the condensed water. Transport to vessel 14.

In particular, if the condensed water is not removed through the first heat exchanger-condenser 5, the level in the collection tank 17 will be high. When the level sensor 18 indicates that the second predetermined value has been exceeded, the control unit 8 commands the first heat exchanger-condenser 5 to close the second outlet 12 of the valve 9. And instruct the atomizer / vaporizer 14 to open the third outlet 13 of the valve 9.

Preferably, when the level sensor 18 displays that the second predetermined value has been exceeded for a certain period of time such as 1 minute, the control unit 8 transmits an alarm signal and / or turns off the air conditioner 2. Command.

In the embodiment shown in which the air conditioner 2 includes a refrigeration cycle reversing valve 20, the method sets the flow direction of the refrigerant and sets the operation mode to cooling or heating, and when the cooling operation mode is applied. , When the step of transporting condensed water from the second heat exchanger 6 to the valve 9 and opening the second outlet 12 of the valve 11 toward the first heat exchanger 5 and the heating operation mode are applied. Includes a step of transporting condensed water from the first heat exchanger 5 to the valve 9 and opening the first outlet 11 of the valve towards the second heat exchanger 6.

In particular, when changing from the cooling mode to the heating mode, the cycle reversing valve 20 changes the flow direction of the refrigerant, and when the refrigerant leaves the compressor 4, it first moves to the second heat exchanger 6 and then to the second heat exchanger 6. It moves to the first heat exchanger 5 where condensed water is generated. In this case, the control unit 8 receives a signal from the cycle reversing valve 20 and closes the second outlet 12 of the valve 9 toward the first heat exchanger 5.

In the heating mode shown in FIG. 2, the condensed water generated in the first heat exchanger 5 moves to the collection tank 17.

According to the advantageous embodiment shown, when the level sensor 18 arranged in the collection tank 17 indicates that the first predetermined value has been exceeded, the control unit 8 is directed toward the second heat exchanger 6. Command to open the first outlet 11 of the valve 9. The condensed water is supplied to the room where the air conditioner 2 is arranged in the case of the integrated type, or to the room where the internal unit is arranged in the case of the air conditioner 2 including the second heat exchanger 6. And adjust the humidity level.

When the humidity sensor 19 in the room indicates that the predetermined value has been exceeded, the control unit 8 closes the first outlet 11 of the valve 9 and opens the third outlet 13 of the valve 9 toward the atomizer / vaporizer 14. Command.

In the heating mode, as in the cooling mode, when the level sensor 18 arranged in the collection tank 17 indicates that the second predetermined value has been exceeded, the control unit 8 faces the second heat exchanger 6. The first outlet 11 of the valve 9 is closed and the atomizer / vaporizer 14 is instructed to open the third outlet 13 of the valve 9.

Preferably, when the level sensor 18 displays that the second predetermined value has been exceeded for a certain period of time such as 1 minute, the control unit 8 transmits an alarm signal and / or commands the air conditioner 2 to be turned off. do.

Therefore, the device according to the present invention can effectively remove the condensed water when installing the air conditioner without the need to attach a drain pipe specially designed. The condensed water is removed by a heat exchanger already present in the air conditioner.

The device can be incorporated into any type of air conditioner, whether it contains two units or a single unit. In addition, the control unit, valves, pumps and collection tanks are located inside the air conditioner when installed, so the device does not oversize the air conditioner.

1 device 2 air conditioner 3 refrigerant flow circuit 4 compressor 5 first heat exchanger 6 second heat exchanger 7 throttle unit 8 control unit 9 valve 10 inlet 11 first outlet 12 second outlet 13 third Outlet 14 Atomizer or vaporizer 15 Pump 16 Pump inlet 17 Collection tank 18 Level sensor 19 Humidity sensor 20 Refrigeration cycle reversing valve

Claims (19)

Condensed water removal device (1) for air conditioners
Includes a control unit (8) and a valve (9) connected to the control unit (8).
The valve (9) is connected to an inlet (10) suitable for connecting to at least one first heat exchanger (5, 6) and to at least one second heat exchanger (6, 5). With at least one first outlet (11, 12) suitable for
The control unit (8) opens and closes the first outlets (11, 12) of the valve (9) in order to convey the condensed water toward the second heat exchangers (6, 5). Condensed water remover characterized by being suitable for setting. The valve (9) has at least one second outlet (12, 11) suitable for connecting to the first heat exchanger (5, 6).
The control unit (8) opens and closes the second outlet (12, 11) of the valve (9) in order to convey the condensed water toward the first heat exchanger (5, 6). The condensate water removing device according to claim 1, wherein the device is suitable for setting. Includes a pump (15) having an inlet (16) suitable for connecting to the first heat exchangers (5, 6) and / or the second heat exchangers (6, 5).
The pump (15) conveys the condensed water arriving from the first heat exchangers (5, 6) and / or the second heat exchangers (6, 5) toward the valve (9). The condensate water removing device according to claim 1 or 2, characterized in that it is suitable for use. The interposition between the first heat exchanger (5, 6) and the pump (15) and / or between the second heat exchanger (6, 5) and the pump (15). Includes at least one collection tank (17) for condensed water,
The collection tank (17) is suitable for collecting the condensed water arriving from the first heat exchangers (5, 6) and / or the second heat exchangers (6, 5). The condensate water removing device according to any one of claims 1, 2 or 3. The condensate water removing device according to claim 4, further comprising at least one level sensor (18) arranged in the collection tank (17) and connected to the control unit (8). The condensate water removing device according to any one of claims 1 to 5, further comprising at least one atomizer or vaporizer (14) arranged downstream of the valve (9). The condensate water removing device according to claim 6, wherein the valve (9) has a third outlet (13) connected to the atomizer or vaporizer (14). Any of claims 1-7, comprising at least one humidity sensor (19) suitable for indoor placement, wherein the humidity sensor (19) is connected to the control unit (8). The condensate water removing device according to item 1. The control unit (8) directs the atomizer or vaporizer (14) in response to a signal coming from the level sensor (18) and / or the humidity sensor (19). The condensate water removing device according to claim 7 or 8, wherein the opening / closing of the outlet (13) of 3 is instructed. The control unit (8) is suitable for connecting to the cycle reversing valve (20) of the air conditioner, and the first heat exchanger (5, 6) or the second heat exchange depending on the cycle reversal. The condensate water removing device according to any one of claims 1 to 9, wherein the outlets (11, 12) of the valve of the device are instructed to open and close toward the device (6, 5). Circuit (3) for circulating refrigerant fluid and
A compressor (4) for changing the refrigerant fluid from the first pressure to a second pressure higher than the first pressure.
A first heat exchanger (5) arranged downstream of the compressor and a second heat exchanger (6) arranged upstream of the compressor.
A capillary tube or a control valve, preferably a throttle unit (7) interposed between the first heat exchanger (5) and the second heat exchanger (6).
The condensate water removing device (1) according to any one of claims 1 to 10 is included.
The inlet (10) of the valve (9) is connected to at least the second heat exchanger (6).
The outlet (12) of the valve (9) is connected to the first heat exchanger (5).
The control unit (8) is suitable for setting the opening and closing of the outlet (12) of the valve (9) to convey the condensed water toward the first heat exchanger (5). An air conditioner characterized by that. The inlet (10) of the valve (9) is connected to the first heat exchanger (5).
The outlet (11) of the valve (9) is connected to the second heat exchanger (6).
The control unit (8) is suitable for setting the opening and closing of the outlet (11) of the valve (8) to convey the condensed water toward the second heat exchanger (5). The air conditioner according to claim 11. The inlet (16) of the pump (15) directs the condensed water arriving from the first heat exchanger (5) and / or the second heat exchanger (6) toward the valve (9). The air conditioner according to claim 11 or 12, wherein the air conditioner is connected to the first heat exchanger (5) and / or the second heat exchanger (6) in order to carry the heat exchanger. Includes refrigerant cycle reversing valve (20)
In response to the cycle reversal, the control unit (8) directs the first heat exchanger (5) or the second heat exchanger (6) toward the outlet (11,) of the valve of the device. 12) The air conditioner according to any one of claims 11, 12 or 13, wherein the opening / closing of the air conditioner is instructed. Circuit (3) for circulating refrigerant fluid and
A compressor (4) for changing the refrigerant fluid from the first pressure to a second pressure higher than the first pressure.
The first heat exchanger (5) arranged downstream of the compressor and
A second heat exchanger (6) located upstream of the compressor,
A capillary tube or a control valve, preferably a throttle unit (7) interposed between the first heat exchanger (5) and the second heat exchanger (6).
The condensate water removing device (1) according to any one of claims 1 to 10 is included.
The inlet (10) of the valve (9) is connected to the second heat exchanger (6), and the outlet (12) of the valve (9) is connected to the first heat exchanger (5). This is a method for removing condensed water from the air conditioner (2).
A step of transporting the condensed water arriving from the second heat exchanger (6) toward the valve (9), and
Condensation comprising the step of opening the outlet (12) of the valve (9) by the control unit (8) and transporting the condensed water toward the first heat exchanger (5). Water removal method. The amount of condensed water upstream of the valve (9) is confirmed, and when the amount of condensed water is greater than a predetermined value, the valve (9) is opened by the control unit (8) to spray the condensed water into a sprayer or a vaporizer (14). The method for removing condensed water according to claim 15, further comprising a step of transporting the water toward the). The air conditioner (2) includes a refrigerant fluid cycle reversing valve (20) for operating the air conditioner (2) in a cooling or heating mode.
The inlet (10) of the valve (9) of the condensed water removing device (1) is connected to the first heat exchanger (5), and the outlet (11) of the valve is the second heat exchanger. It is connected to (6) and
The step of determining the cooling or heating operation mode of the air conditioner (2), and
When the mode is cooling, the condensed water arriving from the second heat exchanger (6) is conveyed toward the valve (9) and directed toward the first heat exchanger (5). The step of opening the second outlet (12) of the valve (9) and
When the operation mode is heating, the condensed water arriving from the first heat exchanger (5) is conveyed toward the valve (9) and directed toward the second heat exchanger (6). The method for removing condensed water according to claim 15 or 16, wherein the step of opening the first outlet (11) of the valve (9) is included. At least the humidity in the room where the second heat exchanger (6) is arranged is confirmed, and when the humidity is higher than a predetermined value, the valve (9) is opened by the control unit (8) to condense the condensation. The method for removing condensed water according to any one of claims 15 to 17, further comprising a step of transporting water toward the atomizer or the vaporizer (14). Preferably, the condensed water arrives from the first heat exchanger (6) and / or from the second heat exchanger (6) before being transported towards the valve (9) by the pump (15). The condensate according to any one of claims 15 to 18, wherein the condensed water is collected in a collection tank (17) and includes a step of checking the level of the condensed water in the collection tank (17). Water removal method.

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