Patent Grant
11959675
This application is a U.S. national stage application of PCT/JP2018/043715 filed on Nov. 28, 2018, the contents of which are incorporated herein by reference.
The present disclosure relates to an air-conditioning apparatus provided with an indoor unit and an outdoor unit connected to each other via a refrigerant pipe through which refrigerant flows.
In recent years, there has been a demand to shift refrigerants for air-conditioning apparatuses to refrigerants with low global warming potential, in view of preventing global warming. Among such refrigerants, HFC32 having a lower global warming potential than HFC410A has become the mainstream refrigerant.
However, HFC32 is slightly flammable. Many other refrigerants with low global warming potential are also flammable to one degree or another. Further, it has been discussed to replace low global warming potential refrigerants with refrigerants having lower environmental load such as propane or CO2 in the future, and more consideration needs to be paid to the safety.
It is assumed here that a predetermined time period has elapsed from occurrence of leakage of flammable refrigerant, without the user noticing the leakage. In this case, because the room in which the indoor unit with refrigerant leakage is installed is not ventilated and the refrigerant is not diffused, an area with high refrigerant concertation may appear due to the accumulated refrigerant. This is an emergency situation, and the user needs to be immediately notified of the leakage by some notification means in the case where the leaking refrigerant is flammable.
Conventional notification means, such as one provided in an air-conditioning apparatus disclosed in Patent Literature 1, generally notifies of leakage by turning on a lamp disposed on a decorative panel of an indoor unit, or by outputting voice or sound such as buzzer sound from a speaker disposed on the indoor unit. Other than that, there is known notification means that displays an indication for notifying of refrigerant leakage on a display unit of a remote controller for operating an indoor unit. The remote controller is provided in a room where the indoor unit is installed.
Patent Literature 1: Japanese Unexamined Patent Application Publication No. 2016-223650
According to the air-conditioning apparatus disclosed in Patent Literature 1, in the case where refrigerant leakage occurs, it is possible to provide a notification to users in the vicinity of the indoor unit with the refrigerant leakage or other indoor units. However, there is no way to provide a notification to users not in the vicinity of these indoor units.
Therefore, in the case of the air-conditioning apparatus disclosed in Patent Literature 1, if the user is not in the vicinity of the indoor unit with the refrigerant leakage, it is not possible to notify the user of the refrigerant leakage, so that the user may not become aware of occurrence of the refrigerant leakage.
Further, even if the user is in the vicinity of the indoor unit, the user may not notice a notification of the refrigerant leakage for some reason. In this case, the user is less likely to become aware of the refrigerant leakage even if the notification continues to be provided in the same form. That is, the form of notifying of refrigerant leakage is not adequate.
The air-conditioning apparatus of the present disclosure has been made to overcome the above problems, and aims to provide an air-conditioning apparatus that provides a warning notification of refrigerant leakage not only in the vicinity of an indoor unit, but also on an external terminal device to attract more attention to the notification even from a user not in the vicinity of the indoor unit such that the user easily notices the notification and becomes fully aware of the refrigerant leakage.
According to an embodiment of the present disclosure, there is provided an air-conditioning apparatus provided with an indoor unit and an outdoor unit connected to each other via a refrigerant pipe through which refrigerant flows, the air-conditioning apparatus including: a refrigerant detection unit configured to detect leakage of the refrigerant in the indoor unit; a notification unit configured to provide a notification of occurrence of leakage of the refrigerant; a communication unit capable of communicating with an external terminal device via a network; and a controller configured to control at least the notification unit and the communication unit; wherein the notification unit includes at least one of a display unit and a speaker disposed on a surface of a casing of the indoor unit, and the external terminal device, in addition to a display unit disposed on a remote controller for operating the indoor unit; and wherein when leakage of the refrigerant is detected by the refrigerant detection unit, the controller controls the notification unit and the communication unit to provide a notification of occurrence of leakage of the refrigerant.
According to the air-conditioning apparatus of the above embodiment, a warning notification of refrigerant leakage is provided not only from the notification unit disposed on the indoor unit, but also from the external terminal device to attract more attention to the notification even from a user not in the vicinity of the indoor unit such that the user easily notices the notification and becomes fully aware of the refrigerant leakage.
Embodiments of the present disclosure will be described with reference to the drawings. Note that the forms of the elements described herein are merely examples, and the elements are not limited thereto. The embodiment of the present disclosure can be appropriately modified without departing from the scope or spirit of the present disclosure that can be read from the appended claims and the entire specification. Air-conditioning apparatuses with such modifications fall within the technical idea of the present disclosure. Further, in the drawings, elements denoted by the same reference signs correspond to the same or equivalent elements. This applies throughout the specification.
<Configuration of Air-Conditioning Apparatus 1>
Each of the indoor units 2a and 2b is disposed on a ceiling surface R of an air-conditioned space, namely, a room E, and a decorative panel 5 is attached to the front side of a casing having a rectangular shape in a plan view. That is, each of the indoor units 2a and 2b is installed on the ceiling surface R of the single room E in such a manner that the decorative panel 5 is exposed. The decorative panel 5 is configured as a four-way air-flow type that can blow out conditioned air in four directions. Note that the indoor units 2a and 2b may be installed in the same room E, or may be installed in a plurality of different rooms. Further, one or more indoor units 2a and 2b are installed in each room. The decorative panel 5 is not limited to the four-way air-flow type, and may be a two-way air-flow type. That is, various other types of decorative panels may be used as the decorative panel 5.
Each of the indoor units 2a and 2b has an air inlet 6 for suctioning indoor air at its center portion. An air-sending device 7 is disposed at the back of the air inlet 6. The air-sending device 7 is, for example, a fan. Four air outlets for blowing out conditioned air subjected to heat exchange in four directions are disposed around the air inlet 6. The four air outlets are respectively provided with louvers 8a to 8d for controlling the air blowing direction of the conditioned air.
Each of the indoor units 2a and 2b is provided with a refrigerant sensor 9 serving as a refrigerant detection unit configured to detect refrigerant leakage. The refrigerant sensor 9 is a gas sensor configured to detect the presence of HFC32 or refrigerant gas, such as LP gas, that is likely to be used as refrigerant for environmental protection in the future, and output the concentration of the detected gas as a sensor output (ppm). The refrigerant sensor 9 may be, for example, a semiconductor gas sensor that detects gas leakage, based on a reduction in electrical resistance due to separation of oxygen atoms from a detection portion in response to contact of reducing gas with the detection portion.
Further, a display unit 10 and a speaker 11 are disposed on the decorative panel 5 of each of the indoor units 2a and 2b. Each of the display unit 10 and the speaker 11 serves as a notification unit that provides a notification of occurrence of refrigerant leakage when refrigerant leakage is detected by the refrigerant sensor 9. Although the display unit 10 is a light emitting diode (LED) in Embodiment 1, the display unit 10 is not limited thereto. The display unit 10 and the speaker 11 are disposed adjacent to each other on the decorative panel 5. With this arrangement, when providing a notification of refrigerant leakage, light from the display unit 10 and sound from the speaker 11 are emitted side by side. This allows to attract more attention from the user. Moreover, since the display unit 10 and the speaker 11 are disposed adjacent to each other, it is easy to replace parts when performing maintenance. This improves the serviceability.
Moreover, in Embodiment 1, each of the indoor units 2a and 2b is provided with a wired remote controller 12 connected to a controller 13 via the wire 14. The remote controller 12 can perform an ON/OFF operation of the indoor unit, and allows to configure the detailed settings such as temperature, air volume, air-flow direction, and timer. The remote controller 12 is connected also to the outdoor unit 3 through the wire 14.
The remote controller 12 is provided with a communication unit 15 that can communicate with an external terminal device 20 via a network. Specifically, the network between the communication unit 15 and the external terminal device 20 may be a near field communication network such as a wireless local area network (LAN) or Bluetooth (registered trademark), or any of various communication networks such as the Internet and mobile phone networks.
When the refrigerant sensor 9 detects refrigerant leakage, the controller 13 controls at least one of the display unit 10 and the speaker 11 to provide a notification of occurrence of refrigerant leakage, and also controls the external terminal device 20 to provide the notification via the communication unit 15. The external terminal device 20 may be any of various terminals, such as a personal computer, a smart phone, and a tablet terminal, that can provide a notification in the form of sound, light, or visual indication.
In the case of Embodiment 1, each of the display unit 10, the speaker 11, and the external terminal device 20 serving as a notification unit is a device that, when refrigerant leakage is detected by the refrigerant sensor 9, provides a notification of occurrence of refrigerant leakage to make the user recognize the refrigerant leakage. The display unit 10, the speaker 11, and the external terminal device 20 are connected to the controller 13 through a wire or wirelessly. When refrigerant leakage is detected by the refrigerant sensor 9, the notification described above is provided under the control of the controller 13. One method of providing a notification by the speaker 11 may be to notify the user of refrigerant leakage by, for example, outputting warning sound such as buzzer sound, or providing a voice announcement indicating the refrigerant leakage. One method of providing a notification by the display unit 10 may be to notify the user of refrigerant leakage by, for example, emitting light. The light may be emitted by turning on or blinking a lamp such as a warning lamp. The display unit 10 may notify the user of refrigerant leakage in the form of text, by displaying text indicating that there is refrigerant leakage. One method of providing a notification using both the display unit 10 and the speaker 11 may be to notify the user of refrigerant leakage by a combination of sound, light, and visual indication. One method of providing a notification using the external terminal device 20 may be to notify the user of refrigerant leakage by a combination of sound, light, and visual indication. Furthermore, the indoor unit 2a (2b) with refrigerant leakage may provide a notification in a different form from the other indoor unit 2b (2a). Providing a notification in a different form is achieved by, for example, changing the buzzer sound to be output from the speaker 11, or changing the voice message to be output from the speaker 11.
A light receiving unit 17 is provided on the decorative panel 5 of each of the indoor units 2a and 2b. The light receiving unit 17 is configured to receive an operation signal transmitted from a wireless remote controller 16 that allows to configure simple air-conditioning settings such as temperature, air volume, and air-flow direction. A human sensor 18 serving as a temperature sensor configured to detect a person in the vicinity thereof is also provided on the decorative panel 5 of each of the indoor units 2a and 2b. Note that the communication unit 15 does not have to be disposed on the remote controller 12, and may be disposed on the remote controller 16, on both the remote controllers 12 and 16, or on the decorative panel 5. The light receiving unit 17 and the human sensor 18 are disposed to face each other on the decorative panel 5. The light receiving unit 17 is disposed adjacent to the display unit 10 and the speaker 11, on the decorative panel 5. With this arrangement, since the light receiving unit 17 is disposed adjacent to the display unit 10 and the speaker 11, it is easy to replace parts when performing maintenance. This improves the serviceability. Moreover, since the display unit 10 and the speaker 11 are disposed apart from the human sensor 18, it is possible to prevent an error in temperature detection by the human sensor 18 due to the heat generated by the display unit 10 and the speaker 11.
Shutoff valves 19 are provided, one in each of the refrigerant pipes 4a and 4b respectively connecting the indoor units 2a and 2b to the outdoor unit 3. The shutoff valves 19 are configured to cut off the flow of refrigerant between the indoor unit 2a and the outdoor unit 3 and between the indoor unit 2b and the outdoor unit 3, respectively. When refrigerant leakage is detected by the refrigerant sensor 9, the shutoff valve 19 is switched from the open state to the closed state by the controller 13, thereby isolating the indoor unit 2a or 2b with refrigerant leakage.
When refrigerant leakage is detected by the refrigerant sensor 9, the air-sending device 7 of each of the indoor units 2a and 2b is forcibly operated. The term “forcibly operate” as used herein means to operate the air-sending device 7 of each of the indoor units 2a and 2b to send a strong airflow regardless of whether the air-sending device 7 is stopped or in operation. As a result, it is possible to diffuse the refrigerant leaked into the room E and prevent appearance of an area with high concentration of refrigerant due to accumulation of refrigerant. Moreover, when refrigerant leakage is detected by the refrigerant sensor 9, it is possible to prevent spread of refrigerant leakage, by performing both a forced operation of the air-sending device 7 of each of the indoor units 2a and 2b and isolation of the indoor unit 2a or 2b with refrigerant leakage by the shutoff valve 19.
<About Refrigerant Circuit>
In the air-conditioning apparatus 1, the outdoor unit 3 and each of the indoor units 2a and 2b are connected via the refrigerant pipes 4a and 4b to form a refrigerant circuit 30 in which refrigerant circulates. In the refrigerant circuit 30 of the air-conditioning apparatus 1, a compressor 31, a flow switching device 32, an outdoor heat exchanger 33, an expansion valve 34, and an indoor heat exchanger 35 are connected via the refrigerant pipes 4a and 4b.
The outdoor unit 3 includes the compressor 31, the flow switching device 32, the outdoor heat exchanger 33, and the expansion valve 34. The compressor 31 compresses the suctioned refrigerant and discharges the compressed refrigerant. The compressor 31 may include an inverter device, and may be configured such that the inverter device changes the operating frequency, thereby changing the capacity of the compressor 31. Note that the capacity of the compressor 31 is the amount of refrigerant discharged therefrom per unit time. The flow switching device 32 is, for example, a four-way valve, and is configured to switch directions in which refrigerant flows.
The air-conditioning apparatus 1 switches the flow directions of refrigerant using the flow switching device 32 in response to an instruction from the controller 13 (
Each of the indoor units 2a and 2b includes the indoor heat exchanger 35 configured to exchange heat between refrigerant and indoor air, and the air-sending device 7 configured to adjust the flow of air to be subjected to heat exchange by the indoor heat exchanger 35. Each of the indoor units 2a and 2b further includes the refrigerant sensor 9 configured to detect refrigerant leakage used in the refrigerant circuit 30.
During a heating operation, the indoor heat exchanger 35 serves as a condenser to exchange heat between the refrigerant having flowed from the refrigerant pipe 4a and indoor air, condense and liquefy the refrigerant, and discharge the refrigerant toward the refrigerant pipe 4b. During a cooling operation, the indoor heat exchanger 35 serves as an evaporator to exchange heat between the refrigerant decompressed by the expansion valve 34 and outdoor air, evaporate and gasify the refrigerant through removal of heat from the air, and discharge the refrigerant toward the refrigerant pipe 4a. The operation speed of the air-sending device 7 is specified by the user's setting. An inverter device may be attached to the air-sending device 7 to change the operating frequency of a fan motor and thereby change the rotation speed of the fan.
<Exemplary Operations of Cooling and Heating Operations of Air-Conditioning Apparatus 1>
The following describes an exemplary operation of a cooling operation of the air-conditioning apparatus 1. High-temperature high-pressure gas refrigerant compressed by the compressor 31 is discharged therefrom to flow into the outdoor heat exchanger 33 via the flow switching device 32. The gas refrigerant that has flowed into the outdoor heat exchanger 33 is condensed through heat exchange with outside air sent by the outdoor air-sending device 36 to become low-temperature refrigerant. Then, the refrigerant is discharged from the outdoor heat exchanger 33. The refrigerant discharged from the outdoor heat exchanger 33 is expanded and decompressed by the expansion valve 34 to become low-temperature low-pressure two-phase gas-liquid refrigerant. The two-phase gas-liquid refrigerant flows into the indoor heat exchanger 35 of each of the indoor units 2a and 2b, and evaporates through heat exchange with indoor air sent by the air-sending device 7 to become low-temperature low-pressure gas refrigerant. Then, the refrigerant is discharged from the indoor heat exchanger 35. The indoor air cooled through heat removal by the refrigerant is discharged as conditioned air (discharged air) from each of the indoor units 2a and 2b into the air-conditioned space, namely, the room E (
The following describes an exemplary operation of a heating operation of the air-conditioning apparatus 1. High-temperature high-pressure gas refrigerant compressed by the compressor 31 is discharged therefrom to flow into the indoor heat exchanger 35 of the indoor units 2a and 2b via the flow switching device 32. The gas refrigerant that has flowed into the indoor heat exchanger 35 is condensed through heat exchange with indoor air sent by the air-sending device 7 to become low-temperature refrigerant. Then, the refrigerant is discharged from the indoor heat exchanger 35. The indoor air heated by the heat received from the gas refrigerant is discharged as conditioned air (discharged air) from each of the indoor units 2a and 2b into the room E (
As described above, according to the air-conditioning apparatus 1 of Embodiment 1, when refrigerant leakage is detected by the refrigerant sensor 9, the controller 13 controls the display unit 10 and the speaker 11 to provide a notification of occurrence of refrigerant leakage. Also, the controller 13 controls the external terminal device 20 via the communication unit 15 to provide the notification of occurrence of refrigerant leakage. With this configuration, according to the air-conditioning apparatus 1 of Embodiment 1, a warning notification of refrigerant leakage can be provided not only from the display unit 10 and the speaker 11 disposed on the decorative panel 5 of each of the indoor units 2a and 2b, but also from the external terminal device 20. This makes it possible to attract more attention to the notification even from a user not in the vicinity of either of the indoor units 2a and 2b such that the user easily notices the notification and becomes fully aware of the refrigerant leakage.
Further, it is preferable that the controller 13 controls the display unit 10 and the speaker 11 such that the form in which the notification of occurrence of refrigerant leakage is provided differently in the indoor unit 2a (2b) in which leakage of the refrigeration is detected by the refrigerant sensor 9 from the other indoor unit 2b (2a). This makes it possible to provide the notification in a form such that the indoor unit 2a (2b) with refrigerant leakage is differentiated from the other indoor unit 2b (2a), and to easily identify the indoor unit 2a (2b) with refrigerant leakage when performing maintenance.
The decorative panel 5 of each of the indoor units 2a and 2b in other embodiments of the present disclosure will now be described with reference to
1 air-conditioning apparatus 2a indoor unit 2b indoor unit 3 outdoor unit 4a, 4b refrigerant pipe 5 decorative panel 6 air inlet 7 air-sending device 8a, 8b, 8c, 8d louver 9 refrigerant sensor 10 display unit 11 speaker remote controller 13 controller 14 wire 15 communication unit 16 remote controller 17 light receiving unit 18 human sensor 19 shutoff valve 20 terminal device 30 refrigerant circuit 31 compressor 32 flow switching device outdoor heat exchanger 34 expansion valve 35 indoor heat exchanger 36 outdoor air-sending device E room R ceiling surface
| Filing Document | Filing Date | Country | Kind |
|---|---|---|---|
| PCT/JP2018/043715 | 11/28/2018 | WO |
| Publishing Document | Publishing Date | Country | Kind |
|---|---|---|---|
| WO2020/110216 | 6/4/2020 | WO | A |
| Number | Name | Date | Kind |
|---|---|---|---|
| 20060026972 | Masui et al. | Feb 2006 | A1 |
| Number | Date | Country |
|---|---|---|
| 2015277826 | Jan 2017 | AU |
| 2 589 900 | May 2013 | EP |
| 2547583 | Aug 2017 | GB |
| 2006-337021 | Dec 2006 | JP |
| 2015-114031 | Jun 2014 | JP |
| 2016-070568 | May 2016 | JP |
| 2016-223650 | Dec 2016 | JP |
| 2017-032251 | Feb 2017 | JP |
| 2017-053509 | Mar 2017 | JP |
| 2017053509 | Mar 2017 | JP |
| 20140099747 | Aug 2014 | KR |
| 2016088167 | Jun 2016 | WO |
| WO-2018011994 | Jan 2018 | WO |
| 2018154652 | Aug 2018 | WO |
| WO-2018147235 | Aug 2018 | WO |
| WO-2018154652 | Aug 2018 | WO |
| Entry |
|---|
| Office Action dated Oct. 19, 2021, issued in corresponding JP Patent Application No. 2020-557448 (and English Machine Translation). |
| International Search Report of the International Searching Authority dated Dec. 25, 2018 for the corresponding International application No. PCT/JP2018/043715 (and English translation). |
| Office Action dated Aug. 11, 2023 issued in corresponding DE patent application No. 11 2018 008 171.0 (and English translation). |
| Number | Date | Country | |
|---|---|---|---|
| 20210199360 A1 | Jul 2021 | US |
