JP6704264B2 - Drain up device and air conditioner equipped with the same - Google Patents

Description

The present invention relates to a drain-up device and an air conditioner including the drain-up device.

The indoor unit of the air conditioner is provided with a drain pan into which drain water (condensation water) generated in the heat exchanger flows. The drain water that has flowed into the drain pan is normally automatically discharged to the outside by a drain hose using a gradient. Alternatively, drain water collected in the drain pan is pumped up by a drain pump and forcedly discharged to the outside.

However, in an indoor unit that does not have a built-in drain pump, it may be desirable to forcibly discharge the drain water that has flowed into the drain pan due to the location of installation. In such a case, a drain up device is provided separately from the indoor unit, and the drain water in the drain pan of the indoor unit is discharged to the outside by the drain up device.

When discharging to a higher position, a plurality of drain up devices may be connected to one indoor unit. In this case, in the conventional connection, the signal wiring is branched and connected in parallel, and when an abnormality occurs in any of the drain-up devices, the indoor unit connected to the drain-up device is notified of the abnormality.
As a prior art document, there is Patent Document 1.

JP, 2010-175213, A

By the way, when an abnormality is notified to the indoor unit, it cannot be determined which drain-up device connected to the indoor unit has the abnormality. However, even after the air conditioner is stopped, the drain water remaining in the heat exchanger is discharged for a while.

In addition, since it is not possible to determine which drain up device has an abnormality, the operation of the drain pump that sends drain water is continued. In this way, drain water remaining in the heat exchanger of the indoor unit may be sent to the drain-up device in an abnormal state, and overflow may occur from the water tank of the drain-up device.

In addition, conventionally, in order to wire-connect a plurality of drain-up devices, it is necessary to branch and connect the signal lines at the installation location.
In the case of connecting two (a plurality of) drain-up devices, conventionally, separate power supplies are used for external power supply. Conventionally, since there is one power supply connector for each drain-up device, it is necessary to connect each drain-up device.

The second and subsequent units are often installed in the ceiling, and if power is to be supplied from the outside, they must be installed near the external power supply, which poses a problem that the installation location is limited.

The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a drain-up device in which overflow of drain water does not occur and wiring connection is easy, and an air conditioner including the drain-up device.

In order to solve the above problems, the drain-up device of the present invention detects a drain pump that sucks up drain water in a water tank, a first control board that controls the drain pump, and a water amount of the drain water in the water tank. And a first control board having a signal first connection portion connected to the air conditioner and a signal second connection portion connected to another drain-up device, Further, it has a first connection portion for power supply and a second connection portion for power supply, and one of the first connection portion for power supply and the second connection portion for power supply is connected to a power supply. Which is a connecting part, and the other is a connecting part for supplying power to the other drain-up device, and when the sensor detects an abnormal water level, the air conditioner is stopped, When the abnormal signal of the water amount is received from the other drain-up device connected to the second connection portion for the signal, the drain pump is stopped and the operation of the air conditioner is stopped. ..

ADVANTAGE OF THE INVENTION According to this invention, the overflow of drain water does not generate|occur|produce, but the drain-up apparatus with which wiring connection is easy and an air conditioner provided with this can be realized.

1 is an external view showing a state in which an indoor unit of an air conditioner according to an embodiment of the present invention is connected to a plurality of drain up devices. The disassembled perspective view of a drain up apparatus. FIG. 3 is an exploded perspective view of the drain-up device body. A system diagram when a plurality of indoor units and a signal wire of a drain up device are connected. The system diagram at the time of connecting the signal wire of other multiple indoor units and a drain up device. (A) is a figure which shows an example of the connection of the control board which connected the upper drain-up device only to the indoor unit of its own company, (b) is the control which connected the upper drain-up device to the indoor unit of its own company and the lower drain-up device The figure which shows an example of connection of a board|substrate. (A) is a figure which shows the other example of connection of the control board which connected the upper drain-up device only to the indoor unit of another company, (b) connected the upper drain-up device to the indoor unit of another company, and the lower drain-up device. The figure which shows an example of connection of a control board.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings as appropriate.
The present invention relates to a drain-up device that is provided separately from an indoor unit of an air conditioner and discharges drain water in a drain pan of the indoor unit to the outside, and an air conditioner including the drain-up device.

FIG. 1 is an external view showing a state in which an indoor unit of an air conditioner according to an embodiment of the present invention and a plurality of drain up devices are connected.
The air conditioner C of the embodiment includes an indoor unit (indoor unit) 1 that cools and heats the room.
An upper drain up device 2 and a lower drain up device 3 are sequentially connected to the indoor unit 1. The units (1, 2, 3) are connected by drain pipes 4 (4a, 4b, 4c).
Drain water described below flows through the drain pipe 4 for drainage.

The indoor unit 1 has a heat exchanger (not shown) inside the housing 1k, through which a refrigerant sent from an outdoor unit (not shown) flows. The refrigerant in the heat exchanger of the indoor unit 1 exchanges heat with the air in the room to cool or heat the room.

When the indoor unit 1 is in the cooling operation, the indoor air is cooled by the low-temperature refrigerant flowing to the heat exchanger, so that the temperature becomes lower than the dew point and condensed water (drain water) is generated. Inside the indoor unit 1, a drain pan (not shown) for storing dew condensation water (hereinafter referred to as drain water) that drops from the heat exchanger is provided below the heat exchanger.

The indoor unit 1 is installed in a place where the drain water in the drain pan cannot be discharged to the outside by utilizing the gradient.
Therefore, since the lower drainage device 3 discharges the drain water to the outside from a place higher than the indoor unit 1, it is arranged at a position higher than the indoor unit 1.

The upper drain up device 2 has a function of sucking up drain water in the drain pan of the indoor unit 1. The lower drain-up device 3 is connected to the upper drain-up device 2. The lower drain-up device 3 further sucks up the drain water sucked up by the upper drain-up device 2 through the drain pipe 4b and discharges it to the outside through the drain pipe 4c.

<Upper drain up device 2 and lower drain up device 3>
FIG. 2 is an exploded perspective view of the drain-up device.
Since the upper drain-up device 2 and the lower drain-up device 3 have the same configuration, only the upper drain-up device 2 will be described, and the description of the lower drain-up device 3 will be omitted.
The main body portion 5 of the upper drain-up device 2 is covered with the front cover 10.

The front cover 10 is a substantially box-shaped cover that detachably covers the front surface, the upper and lower surfaces, and both side surfaces of the main body 5 including the electrical component cover 8. A part of the front cover 10 is engaged with the main body 5, and one front side is fixed to the main body 5 with a screw.
A water tank accommodating portion 7 in which a water tank 6 is detachably accommodated is provided below the main body portion 5 of the drain-up device 2. A drain port 4k connected to the indoor unit 1 by a drain pipe is provided on one side wall of the water tank 6 in the left-right direction, and drain water in the drain pan of the indoor unit 1 is drained up through the drain pipe 4a. It automatically flows into the water tank 6 of the device 2.

FIG. 3 is an exploded perspective view of the main body of the drain-up device.
Above the water tank accommodating portion 7, an electric component 14 that constitutes a control portion or the like that controls the operation of the upper drainage device 2 is arranged.
The electrical component 14 is covered with an electrical component cover 8 (see FIG. 2) which is detachably screwed. The electrical component 14 includes a control board 2a (see FIG. 4) that drives the upper drain device 2. In the case of the lower drain up device 3, the electrical component 14 includes a control board 3 a (see FIG. 4) that drives the lower drain up device 3.

As shown in FIG. 3, a drain hose 9 for draining the drain water collected in the water tank 6 by the drain pump 11 is provided adjacent to the electrical component 14 and connected to the outlet of the drain pump 11. There is.
The upper drain-up device 2 includes a drain pump 11, a drive device that drives the drain pump 11, and sensors (12, 13) such as a float switch and a drain sensor that detect the amount of water. Two sensors (12, 13) for detecting the water level are attached to one drain-up device (2, 3). The sensors (12, 13) detect the operating water level and the abnormal water level of the drain pump 11 inside the water tank 6, respectively.

Reference numeral 12 is a water level sensor for detecting the operating water level in the water tank 6 of the drain pump 11. As the water level sensor 12, for example, a float switch is used.
Reference numeral 13 denotes a drain sensor that detects that the drain water level in the water tank 6 has reached an abnormal water level for some reason. The drain sensor 13 detects that the inside of the water tank 6 has reached an abnormal water level.

The operating water level of the drain pump 11 is the water level of the drain water in the water tank 6 that is predetermined for controlling the start and stop of the operation of the drain pump 11. The drain pump 11 is operated when the drain water inside the water tank 6 has accumulated to a certain water level (water level at the start of operation) due to the operating water level, and the water level is lowered to a certain level (water level at which operation is stopped). That is, the operation water level includes an operation start water level that is the water level at which the drain pump 11 starts to operate and an operation stop water level that is the water level at which the operation of the drain pump 11 is stopped.

The abnormal water level detected by the drain sensor 13 is a water level that is set as a critical water level without drain water in the water tank 6 being discharged for some reason, and is set in advance.
The water level sensor 12 is, for example, a float switch, and continuously detects the operating water level of the drain pump 11 in the water tank 6.

The drain water of the indoor unit 1 flows into the water tank 6 through the drain port 4k. Then, when the drain water stored in the water tank 6 reaches a certain level (water level at the start of a predetermined operation), the water level sensor 12 detects the operating water level. Then, the control unit of the electric component 14 starts driving the drain pump 11 based on the detection signal, and the drain pump 11 sucks up the drain water in the water tank 6 and uses the drain hose 9 to the lower drain up device 3 or the outside. Discharge. Further, when the drain sensor 13 detects an abnormal water level, the control unit of the electric article 14 notifies the indoor unit 1 of the higher-level device based on the detection signal. When the drain-up device is the lower drain-up device 3, the upper drain-up device 2 is notified of the abnormality.
The control boards 2a and 3a (see FIGS. 4 and 5) for controlling the upper and lower drain-up devices 2 and 3 respectively have the same configuration.

<Signal line connection of indoor unit 1, upper/lower drain up devices 2, 3>
As described above, the conventional method of connecting the signal lines of the two drain-up devices is such that the connection line of one drain-up device connected to the indoor unit is branched and the other drain-up device is connected to the branch wiring. The device was connected. That is, the drain-up devices were connected in parallel. Therefore, for example, when an abnormality occurs in any of the drain-up devices and an abnormality signal is transmitted to the control unit of the indoor unit, the control unit of the indoor unit is not sure which drain-up device has an error. there were.

On the other hand, in the upper drain-up device 2 of the present embodiment (the present invention), since the upper drain-up device 2 and the lower drain-up device 3 are connected in series for signals, which drain-up device is It is possible to know from the signal flow whether there is an abnormality. Therefore, it is possible to take measures according to each abnormal state of the upper drain-up device 2 and the lower drain-up device 3.

FIG. 4 shows a system diagram when a plurality of indoor units and signal lines of the drain-up device are connected.
The control board 1a of the indoor unit 1, the control board 2a of the upper drain-up device 2, and the control board 3a of the lower drain-up device 3 are connected via a connection line s1. The connection line s1 is a signal connection line for connecting the control boards 1a, 2a, 3a of the respective devices. Signals are exchanged between the control boards 1a, 2a and 3a via the connection line s1. The control board 2a has a first connecting portion 2a1, a second connecting portion 2a2, and a third connecting portion 2a3. Similarly, the control board 3a has a first connecting portion 3a1, a second connecting portion 3a2, and a third connecting portion 3a3. Peripheral circuits such as a microcomputer, a drain pump drive control circuit, and a sensor circuit are mounted on the control boards 2a and 3a.
The first connection portion 2a1 of the control board 2a of the upper drain-up device 2 is a signal connection portion connectable to an external device.

The second connection portion 2a2 is a signal connection portion that can be connected to another drain-up device.
The third connection part 2a3 is a signal connection part different from the first connection part 2a1 and can be connected to the connection part 1b1 of another external device 1b. For example, the first connecting portion 2a1 is a connector that can be connected to a unique in-house product. On the other hand, the third connecting portion 2a3 is a connector that can be connected to a general-purpose product of another company. The third connection portion 2a3 is, for example, a communication standard of JEMA (Japan Electrical Manufacturers' Association). The third connecting portion 2a3 may be one other than the communication standard of JEMA (Japan Electrical Manufacturers' Association).

Each signal transmitted/received via the first/second/third connection portions 2a1, 2a2, 2a3 for signal includes operation information of the equipment and water level abnormality information.
The first, second, and third connecting portions 3a1, 3a2, 3a3 of the control board 3a of the lower drainage device 3 are respectively connected to the first, second and third connecting portions 2a1, 2a2, 2a3 of the control board 2a. It has a similar configuration.

With the above configuration, the upper drain-up device 2 is connected to, for example, the connection part 1a1 of the indoor unit 1 unique to the company with the first connection part 2a1, and the first drain-up device 3 of the lower drain-up device 3 is connected with the second connection part 2a2. It can be connected to the connecting portion 3a1.
The wiring connection for power supply between the control boards 1a, 2a and 3a is a connector or terminal block connection.

FIG. 5 shows another example of a system diagram when a plurality of indoor units and signal lines of the drain-up device are connected.
The third connecting portion 2a3, which is different from the first connecting portion 2a1 on the control board 2a, can be connected to another external device to exchange signals.

For example, as shown in FIG. 5, the first connecting portion 2a1 is a connecting portion for connecting with a company product, and the third connecting portion 2a3 is a connecting portion for connecting with a connecting portion 1b1 of another product (1b), or The first connecting portion 2a1 can be used as a connecting portion for connecting to the air conditioner, and the third connecting portion 2a3 can be used as a connecting portion for connecting to the connecting portion 1b1 of the external device 1b other than the air conditioning device.
The control board 2a of the upper drain-up device 2 has the second connection portion 2a2 for exchanging signals, which enables the control board 3a of the lower drain-up device 3 to be connected. Therefore, the indoor unit 1, the upper drain-up device 2, and the lower unit A configuration in which the drain-up device 3 is connected in series in this order is possible.

<Power supply for upper/lower drain up devices 2 and 3>
FIG. 6A shows an example of the connection of the control board in which the upper drain-up device is connected only to the indoor unit of the own company, and FIG. 6B shows the upper drain-up device of the indoor unit and the lower drain-up device of the own company. An example of the connection of the control board connected to and is shown.

The control boards 2a and 3a of the upper and lower drain-up devices 2 and 3 are provided with second connecting portions 2v2 and 3v2 (see FIG. 6(b)) for power supply (for example, a power supply wiring connection connector). It is provided. As a result, the control boards 2a and 3a can be connected for power supply, and the power of the lower drain-up device 3 of the child device can be supplied from the upper drain-up device 2 of the parent device.

The upper drain-up device 2 is connected to the control board 1a of the indoor unit 1 by the first connecting portion 2v1 or the second connecting portion 2v2 for power supply to obtain power. As a result, the upper drain-up device 2 can drive the control board 2a, which is a drive device. The power may be supplied from a single power supply instead of being supplied from the indoor unit 1.

The lower drain-up device 3 is connected to the first connection part 2v1 or the second connection part 2v2 of the control board 2a of the drive device of the upper drain-up device 2 to obtain power. As a result, it is possible to drive the control board 3a of the drive device of the lower drain-up device 3. The power supply for the control board 3a of the lower drain-up device 3 may be supplied from a single power supply instead of being supplied from the upper drain-up device 2.

<Connection between the company's indoor unit 1 and the drain up device (2, 3)>
The control board 2a of the upper drain-up device 2 has first, second, and third connecting portions 2a1, 2a2, 2a3 for signals, and two first and second connecting portions 2v1, 2v2 for power sources. (See FIG. 6A). The first and second connection parts 2v1 and 2v2 for power supply are connected to each other. Therefore, one of the first and second connecting portions 2v1 and 2v2 is connected to a power source, and the other is a connecting portion that supplies power to the other control board 3a.

As shown in FIG. 6A, when the upper drain-up device 2 is connected only to the indoor unit 1 of the company, the first and second connecting portions 2v1, 2v2 for the power source of the control board 2a of the upper drain-up device 2 are connected. Is connected to the power source from the indoor unit 1 of the company or a single power source. The first signal connecting portion 2a1 of the control board 2a is connected to the connecting portion 1a1 (see FIG. 4) of the control board 1a of the indoor unit 1.

As shown in FIG. 6B, when the upper drain-up device 2 is connected to the indoor unit 1 of the company and the lower drain-up device 3 is connected, they are connected as follows.
Regarding the connection of the power source, one of the first and second connecting portions 2v1 and 2v2 of the control board 2a of the upper drain-up device 2 is connected to the power source from the indoor unit 1 of the company or the single power source, and the other one is connected. It is connected to either one of the first/second connecting portions 3v1 and 3v2 of the control board 3a of the lower drain-up device 3. In FIG. 6B, the first connecting portion 2v1 of the control board 2a is connected to the power source, and the second connecting portion 2v2 of the control board 2a is connected to the first connecting portion 3v1 of the control board 3a of the lower drain-up device 3. It shows the case where it was done.

Regarding signal connection, as shown in FIG. 4, the first signal connection portion 2a1 of the control board 2a of the upper drain device 2 is connected to the connection portion 1a1 of the control board 1a of the indoor unit 1. The second signal connecting portion 2a2 of the control board 2a is connected to the first signal connecting portion 3a1 of the control board 3a of the lower drain-up device 3.

<Connecting indoor units of other companies and drain-up devices (2, 3)>
FIG. 7(a) shows another example of the connection of the control board in which the upper drain up device is connected only to the indoor unit of another company, and FIG. 7(b) shows the upper drain up device of the indoor unit of another company and the lower drain up device. An example of the connection of the control board connected to the device is shown.

As shown in FIG. 7A, when connecting the upper drain-up device 2 only to the indoor units of other companies, one of the first and second connecting portions 2v1, 2v2 of the control board 2a of the upper drain-up device 2 is connected. It is connected to the power source from the indoor unit 1 of another company or a single power source. The third signal connecting portion 2a3 of the control board 2a is connected to the connecting portion 1b1 of the control board 1b of the indoor unit of another company. FIG. 7A shows a case where the first connecting portion 2v1 of the control board 2a is connected to the power supply.

As shown in FIG. 7B, when the upper drain-up device 2 is connected to an indoor unit of another company and the lower drain-up device 3 is connected, the control board of the upper drain-up device 2 is connected to the power supply. One of the first and second connection portions 2v1 and 2v2 of 2a is connected to the power source from the indoor unit 1 of another company or a single power source, and the other one is the first and second control boards 3a of the lower drain-up device 3. It is connected to either one of the two connecting portions 3v1 and 3v2. In FIG. 7B, the first connecting portion 2v1 of the control board 2a is connected to the power source, and the second connecting portion 2v2 of the control board 2a is connected to the first connecting portion 3v1 of the control board 3a of the lower drain-up device 3. It shows the case where it was done.

Regarding signal connection, as shown in FIG. 5, the third signal connecting portion 2a3 of the control board 2a of the upper drain-up device 2 is connected to the connecting portion 1b1 of the control board 1b of the indoor unit 1 of another company. It The second signal connecting portion 2a2 of the control board 2a is connected to the first signal connecting portion 3a1 of the control board 3a of the lower drain-up device 3.

<Operation of upper/lower drain-up devices 2 and 3 during operation of indoor unit 1>
Next, the operation of the upper/lower drain-up devices 2 and 3 when the indoor unit 1 is actually operating will be described.
Condensed water (or water supplied to the humidifier when a humidifier is incorporated) generated in the heat exchanger or the like of the indoor unit 1 flows into the water tank 6 of the upper drain up device 2 through the drain pipe (Fig. 1, See FIG. 2).

When the drain water stored in the water tank 6 reaches the predetermined operation start water level of the drain pump 11 and the water level sensor 12 operates, the control unit of the control board 2a drives the drain pump 11 based on the detection signal, and the water tank 6 The drain water and the like in the inside is sucked up and drained to the water tank 6 of the lower drain up device 3 by the drain hose 9. When the water level sensor 12 detects that the drain water stored in the water tank 6 of the lower drain up device 3 has reached the operation start water level of the drain pump 11, the control unit of the control board 3a uses the drain pump 11 based on the detection signal. Is driven to suck up drain water or the like in the water tank 6 and discharge it to the outside by the drain hose 9.

<How to send and receive signals that convey abnormalities>
When the drain sensor 13 detects an abnormal water level, the upper/lower drain-up devices 2 and 3 open the contacts (for example, relay contacts) of the control boards 2a and 3a according to a command from each control unit. The control unit of the higher-level model monitors the contact status of the lower-level model, that is, whether the contact is "open" or "closed." When the contact opening of the lower-level model is detected, the upper-level model determines that the lower-level model is in an abnormal state. To do. For example, an abnormal signal is input from the drain sensor 13 to the microcomputer of the control unit, a signal for opening the contact is output from the microcomputer to the peripheral circuit, and the contact is opened.

The upper drain-up device 2 corresponds to a higher model (master device) of the lower drain-up device 3, and the lower drain-up device 3 corresponds to a lower model (slave device) of the upper drain-up device 2.
"Master unit (upper drain up device 2)" Control at abnormal water level will be described.
When the upper drain-up device 2 of the master unit reaches the abnormal water level and the drain sensor 13 detects the abnormal water level, the control unit of the master unit opens the contact.
The control unit of the indoor unit 1 monitors the contacts of the master unit. When the control unit of the indoor unit 1 detects the contact opening of the master unit, it is determined that the master unit is abnormal, and the indoor unit 1 stops the operation (abnormal stop). The operation of the master unit is performed by the control unit of the control board 2a detecting the operating water level with the water level sensor 12 of its own, for example, a float switch, and the operation of the drain pump 11 is continued until the water level drops to the operation stopped water level.

The slave unit (lower drain up device 3) detects the operating water level of the water tank 6 with its own water level sensor 12 such as a float switch, and continues the operation of the drain pump 11 by the control unit of the control board 3a. That is, the drain pump 11 of the child device is operated while the water level of the water tank 6 of the child device is from the operation start water level of the drain pump 11 to the operation stop water level.

Next, the control when the “child device (lower drain up device 3)” has an abnormal water level will be described.
When the water tank 6 of the child device reaches the abnormal water level, the contact of the control board 3a of the child device is opened.
The control unit of the control board 2a of the parent device (upper drainage device 2) monitors the contacts of the control board 3a of the child device. When the control unit of the control board 2a of the parent machine detects that the contact of the control board 3a of the child machine is open, it determines that the child machine is abnormal and operates the drain pump 11 of the parent machine regardless of the state of the water level sensor 12 of the parent machine. Stop. Then, the control unit of the control board 2a of the parent machine opens the contact of the control board 2a of the parent machine to notify the indoor unit 1 of the abnormality of the child machine.

The control unit of the indoor unit 1 monitors the contacts of the master unit. When the control unit of the indoor unit 1 detects the contact opening of the master unit, it determines that the master unit is abnormal and stops the operation of the indoor unit 1 (abnormal stop).
The slave unit is operated by detecting the water level of the water tank 6 with its own water level sensor 12, and the drain pump 11 of the slave unit is continuously operated until the water level of the water tank 6 of the slave unit reaches the operation stop water level.

Next, the control at the time of abnormal water level for both the "parent machine and the slave machine" will be described.
When both the slave unit and the master unit reach an abnormal water level, the contacts of the control boards 2a and 3a of the slave unit and the master unit are opened.
The master unit monitors the contacts of the control unit of the slave unit. When the control unit of the master unit detects the contact opening of the control unit of the slave unit, the drain pump 11 of the master unit is stopped so as not to send drain water to the slave unit.

The control unit of the indoor unit 1 monitors the contacts of the control unit of the master unit. When the control unit of the indoor unit 1 detects the contact opening of the master unit, it determines that the master unit is abnormal and stops the operation of the indoor unit 1 (abnormal stop).
The slave unit continues the operation control of its own drain pump 11 while detecting the water level of the water tank 6 with its own water level sensor 12, and continues the operation of the drain pump 11 of the slave unit until it detects the operation stop water level.

According to the above-mentioned composition, the following effects are produced.
1. Since the control board 2a of the upper drain-up device 2 has the first and second connection portions 2a1 and 2a2 for signals, the connection for each signal of the indoor unit 1, the upper drain-up device 2, and the lower drain-up device 3 can be made. Can be connected in series. Therefore, the upper drain-up device 2 can grasp the state of the lower drain-up device 3. Therefore, it can be grasped which drain up device (2, 3) is abnormal. Therefore, when the signal of the abnormal water level of the lower drainage device 3 is received, it is possible to determine whether or not the received drain pump 11 of the upper drainage device 2 needs to be operated and the indoor unit 1 needs to be operated.

2. Therefore, when an abnormality occurs in the lower drain-up device 3 and the upper drain-up device 2 receives an abnormal signal from the lower drain-up device 3 and the upper-level device recognizes the lower abnormal water level, the drain pump of the upper drain-up device 2 is detected. 11 is stopped, and the operation of sending drain water from the upper level to the lower level is stopped. For example, when the indoor unit 1 detects the abnormal water level of the upper drainage device 2, the operation of the indoor unit 1 is stopped.

Alternatively, when the upper drain-up device 2 detects an abnormal water level in the lower drain-up device 2, the operation of the drain pump 11 of the upper drain-up device 2 is stopped and the operation of the indoor unit 1 is stopped.
As a result, water is not sent to the lower drain-up device, and the drain water is suppressed from overflowing in the drain pan of the indoor unit 1 and the water tank 6 of the upper drain-up device 2.

3. Since the control board 2a of the upper drain-up device 2 has the first and third connection parts 2a1 and 2a3 for signals, it is possible to distinguish between the unique indoor unit 1 of its own and the general-purpose indoor unit 1 of another company with different connection parts. Can be connected to either.

4. Therefore, not only the indoor unit 1 of the company but also the indoor units of other companies can connect the signal lines of the control board 2a of the upper drain-up device 2 and the control board 3a of the lower drain-up device 3 in series.

5. Each of the control boards 2a and 3a of the upper/lower drain-up devices 2 and 3 has a power supply first connection portion 2v1 and 3v1 and a second connection portion 2v2 and 3v2, respectively.
Therefore, the first connection part 2v1 of the control board 2a of the upper drain-up device 2 is connected to the indoor unit 1, and the second connection part 2v2 of the control board 2a is connected to the first control board 3a of the lower drain-up device 3. By connecting to the connection part 3v1 or the second connection part 3v2, power can be supplied to the upper drain-up device 2 and the lower drain-up device 3.

6. Since the power of the lower drain-up device 3 of the child device arranged in the ceiling can be supplied from the upper drain-up device 2 of the parent device, there is no restriction to install the lower drain-up device 3 near the external power supply. Therefore, the lower drain-up device 3 can be arranged without limitation in the installation place. That is, the degree of freedom of the installation location of the lower drainage device 3 of the child device is improved.

7. Since each wiring connection to the control boards 1a, 2a, 3a is a connector or terminal block connection, the connection work can be easily performed. Therefore, the installation workability of the indoor unit 1 and the upper/lower drain-up devices 2 and 3 can be improved.

8. Since the control board 1a of the indoor unit 1, the control board 2a of the upper drain-up device 2, and the control board 3a of the lower drain-up device 3 are connected in series for signal connection and power supply connection, respectively. Wiring can be done.
Further, the indoor unit 1 can detect an abnormal water level of the drain water of the upper drain-up device 2, and the upper drain-up device 2 can detect the abnormal water level of the drain water of the lower-drain device 3.
In addition, since the signal connection and the power supply connection can be connected by crossover wiring, the connection workability is good.

<<Other Embodiments>>
1. In FIG. 1 of the first embodiment, the wall-mounted indoor unit 1 is described as an example, but an indoor unit such as a ceiling cassette type, a ceiling-embedded type, or a floor-standing type is also applicable. Further, the drain-up device of the present invention is not limited to the indoor unit 1 of the air conditioner C, and can be applied to other devices that require drainage of drain water or the like.

2. The other device according to claim 1 of the claims includes a drain-up device different from itself as shown in the control board 3a of FIGS. 4 and 5.

3. The present invention is not limited to the above-described embodiments, but includes various modifications. For example, the above-described embodiments have been described in detail in order to explain the present invention in an easy-to-understand manner, and are not necessarily limited to those including all the configurations described. In addition, a part of the configuration of a certain embodiment can be replaced with the configuration of another embodiment, and the configuration of another embodiment can be added to the configuration of a certain embodiment. Further, with respect to a part of the configuration of the embodiment, another configuration can be added/deleted/replaced.

1 Indoor unit 2 Drain up device 3 Drain up device (other drain up device)
2a Control board (first control board)
2a1 First connection part (first connection part for signal)
2a2 Second connection part (second connection part for signal)
2a3 Third connection (third connection for signals)
3a Control board (second control board)
2v1 first connection (first connection for power supply)
2v2 Second connection (second connection for power supply)
6 Water tank 11 Drain pump 13 Drain sensor (sensor)
C air conditioner

Claims (4)

A drain pump that sucks up the drain water in the aquarium,
A first control board for controlling the drain pump,
A sensor for detecting the amount of the drain water in the water tank,
The first control board,
It has a first connection for signals connected to the drain pump is not an air conditioner, and a second connecting portion of the signal to be connected to other of the drain-up device, and,
A connection having a first connection part for power supply and a second connection part for power supply, one of the first connection part for power supply and the second connection part for power supply being connected to a power supply. And a connection part for supplying power to the other drain-up device, and
When the sensor detects an abnormal water level, the air conditioner is stopped,
The drain pump is stopped and the operation of the air conditioner is stopped when an abnormal signal of the water amount is received from the other drain-up device connected to the second signal connecting portion. Drain up device. The drain-up device according to claim 1,
Wherein the first control board, said the air conditioner, the drain-up apparatus characterized by having a third connection for the signal to be connected to different types of equipment. The drain-up device according to claim 1,
The other drain-up device is
With another drain pump that pumps drain water,
A second control board for controlling the other drain pump,
A drain-up device, wherein the first control board and the second control board are connected in series for signal connection. An air conditioner comprising the drain-up device according to any one of claims 1 to 3.

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