WO2023279724A1 - 一种空调柜机及其湿度调控方法 - Google Patents
一种空调柜机及其湿度调控方法 Download PDFInfo
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- WO2023279724A1 WO2023279724A1 PCT/CN2022/076668 CN2022076668W WO2023279724A1 WO 2023279724 A1 WO2023279724 A1 WO 2023279724A1 CN 2022076668 W CN2022076668 W CN 2022076668W WO 2023279724 A1 WO2023279724 A1 WO 2023279724A1
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- WIPO (PCT)
- Prior art keywords
- air
- air supply
- heat exchange
- evaporator
- humidification module
- Prior art date
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- 238000000034 method Methods 0.000 title claims abstract description 35
- 238000000889 atomisation Methods 0.000 claims abstract description 9
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 claims description 72
- 239000007788 liquid Substances 0.000 claims description 33
- 238000004378 air conditioning Methods 0.000 claims description 27
- 238000007664 blowing Methods 0.000 claims description 17
- 238000001816 cooling Methods 0.000 claims description 12
- 230000001276 controlling effect Effects 0.000 claims description 11
- 238000007791 dehumidification Methods 0.000 claims description 7
- 230000001105 regulatory effect Effects 0.000 claims description 4
- 238000004891 communication Methods 0.000 abstract description 10
- 230000007613 environmental effect Effects 0.000 abstract 2
- 238000004590 computer program Methods 0.000 description 10
- 230000007246 mechanism Effects 0.000 description 8
- 230000000694 effects Effects 0.000 description 6
- 238000010586 diagram Methods 0.000 description 4
- 238000010926 purge Methods 0.000 description 4
- 239000000428 dust Substances 0.000 description 3
- 238000004140 cleaning Methods 0.000 description 2
- 238000001704 evaporation Methods 0.000 description 2
- 238000010438 heat treatment Methods 0.000 description 2
- 238000012986 modification Methods 0.000 description 2
- 230000004048 modification Effects 0.000 description 2
- 230000003287 optical effect Effects 0.000 description 2
- 230000008569 process Effects 0.000 description 2
- 230000009471 action Effects 0.000 description 1
- 230000009286 beneficial effect Effects 0.000 description 1
- 238000001514 detection method Methods 0.000 description 1
- 230000008020 evaporation Effects 0.000 description 1
- 230000006870 function Effects 0.000 description 1
- 230000005484 gravity Effects 0.000 description 1
- 239000003595 mist Substances 0.000 description 1
- 239000003507 refrigerant Substances 0.000 description 1
- 238000005057 refrigeration Methods 0.000 description 1
Images
Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F1/00—Room units for air-conditioning, e.g. separate or self-contained units or units receiving primary air from a central station
- F24F1/0007—Indoor units, e.g. fan coil units
- F24F1/0043—Indoor units, e.g. fan coil units characterised by mounting arrangements
- F24F1/005—Indoor units, e.g. fan coil units characterised by mounting arrangements mounted on the floor; standing on the floor
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F1/00—Room units for air-conditioning, e.g. separate or self-contained units or units receiving primary air from a central station
- F24F1/0007—Indoor units, e.g. fan coil units
- F24F1/0011—Indoor units, e.g. fan coil units characterised by air outlets
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F1/00—Room units for air-conditioning, e.g. separate or self-contained units or units receiving primary air from a central station
- F24F1/0007—Indoor units, e.g. fan coil units
- F24F1/0018—Indoor units, e.g. fan coil units characterised by fans
- F24F1/0022—Centrifugal or radial fans
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F1/00—Room units for air-conditioning, e.g. separate or self-contained units or units receiving primary air from a central station
- F24F1/0007—Indoor units, e.g. fan coil units
- F24F1/0059—Indoor units, e.g. fan coil units characterised by heat exchangers
- F24F1/0063—Indoor units, e.g. fan coil units characterised by heat exchangers by the mounting or arrangement of the heat exchangers
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F1/00—Room units for air-conditioning, e.g. separate or self-contained units or units receiving primary air from a central station
- F24F1/0007—Indoor units, e.g. fan coil units
- F24F1/0083—Indoor units, e.g. fan coil units with dehumidification means
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F1/00—Room units for air-conditioning, e.g. separate or self-contained units or units receiving primary air from a central station
- F24F1/0007—Indoor units, e.g. fan coil units
- F24F1/0087—Indoor units, e.g. fan coil units with humidification means
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/62—Control or safety arrangements characterised by the type of control or by internal processing, e.g. using fuzzy logic, adaptive control or estimation of values
- F24F11/63—Electronic processing
- F24F11/64—Electronic processing using pre-stored data
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/62—Control or safety arrangements characterised by the type of control or by internal processing, e.g. using fuzzy logic, adaptive control or estimation of values
- F24F11/63—Electronic processing
- F24F11/65—Electronic processing for selecting an operating mode
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F13/00—Details common to, or for air-conditioning, air-humidification, ventilation or use of air currents for screening
- F24F13/30—Arrangement or mounting of heat-exchangers
Definitions
- the present application relates to the technical field of air conditioners, in particular to an air conditioner cabinet and a humidity control method thereof.
- An air conditioner is a widely used household appliance, generally having heating and cooling functions. When the ambient temperature is too low or too high, the air conditioner can adjust the temperature of the indoor air to provide users with a suitable indoor environment and effectively improve the user's quality of life.
- a humidification module is usually provided in the air conditioner.
- the humidity adjustment method of the existing air conditioner is single, and the humidity adjustment effect cannot meet the needs of users.
- the adjustment of indoor humidity depends on the operating mode of the air conditioner.
- the capacity of the air conditioner remains unchanged, when the indoor humidification control is performed, the air conditioner needs a long running time to reach the user-set value.
- the present application provides an air conditioner cabinet and a humidity control method thereof, which are used to solve the problem that the existing air conditioner has a single humidity control method and the humidity control effect cannot meet the needs of users.
- the application provides an air conditioner cabinet, including: a casing; a first air outlet and a second air outlet are provided on the casing wall of the casing; and a plurality of heat exchange air supply devices and humidification modules,
- the first ports of the heat exchange air supply devices are respectively facing the first air outlets, the second ports of the plurality of heat exchange air supply devices are respectively communicated with the second air outlets; the atomization outlet of the humidification module is connected to the At least one of the plurality of heat exchange air blowing devices is communicated.
- the heat exchange air supply device includes a first heat exchange air supply device and a second heat exchange air supply device;
- the first heat exchange air supply device includes a first evaporator, The first fan and the first air channel;
- the first side of the first evaporator faces the first air port, the second side of the first evaporator faces the first port of the first air channel, and
- the second port of the first air channel communicates with the second air outlet;
- the first fan is arranged in the first air channel;
- the second heat exchange air supply device includes a second evaporator, a second fan and a second fan Two air passages;
- the first side of the second evaporator faces the first air outlet, the second side of the second evaporator faces the first port of the second air passage, and the second air passage
- the second port communicates with the second air outlet;
- the second fan is arranged in the second air passage;
- the atomization outlet of the humidification module is arranged in the first port of the second air passage and the second between the
- an air conditioner cabinet there are two first air outlets; the first evaporator and the second evaporator are isolated from each other, and the first evaporator and the second evaporator correspond to the two first tuyeres respectively; or, the first evaporator and the second evaporator are integrated evaporators, and the integrated evaporators are jointly corresponding to the two first tuyeres .
- At least one of the first fan and the second fan is a centrifugal fan; when the first fan is a centrifugal fan, the first air duct is The shape of a volute; when the second fan is a centrifugal fan, the second air duct is in the shape of a volute.
- the humidification module includes: a water tank, a water pump, and an atomizing humidifier; The condensed water produced on the surface of the first evaporator and the second evaporator; the water inlet of the water pump communicates with the water tank, and the water outlet of the water pump communicates with the atomizing humidifier; the mist The atomization outlet of the humidifier is arranged between the first port of the second air channel and the second evaporator.
- the water tank is provided with a water filling port and an overflow port; the overflow port is provided at a preset height on the water tank; a first liquid level is provided in the water tank
- the sensor and the second liquid level sensor; the first liquid level sensor and the second liquid level sensor are respectively connected to the information prompt module; the first liquid level sensor is used to reach the first liquid level in the water tank , feed back the first switching value information to the information prompt module, so that the information prompt module sends a prompt message to stop adding water; the second liquid level sensor is used to send the The information prompting module feeds back the second switching value information, so that the information prompting module sends a water replenishment prompting message; the first liquid level is higher than the second liquid level.
- an air conditioner cabinet provided by the present application, it also includes: an air outlet control device; the air outlet control device is arranged at the second air outlet, and the air outlet control device has a first state of closing the second air outlet and the second state of opening the second tuyere; the heat exchange air supply device has a first air supply state and a second air supply state; in the first air supply state, the heat exchange air supply device is used for Drive the air from the first tuyere to the second tuyere; in the second air supply state, the heat exchange air supply device is used to drive the air from the second tuyere to the first tuyere.
- the present application also provides a method for controlling the humidity of the air-conditioning cabinet as described above, including: detecting the relative humidity of the indoor environment; when the relative humidity is less than or equal to the first preset value, controlling to turn on the humidification module and The part corresponding to the humidification module in the plurality of heat exchange air supply devices selectively turns on or off the other parts of the plurality of heat exchange air supply devices to humidify and adjust the temperature of the indoor environment; When the relative humidity is greater than the first preset value and less than the second preset value, the humidification module is controlled to be turned off, and the plurality of heat exchange air supply devices are selectively turned on or off, so as to improve the indoor environment.
- the controlling to turn on the part corresponding to the humidification module in the humidification module and the plurality of heat exchange air supply devices further includes: determining the relative humidity according to the relative humidity.
- the operating state of the air-conditioning cabinet is detected; when the operating state satisfies the preset condition, the air outlet control device is controlled to be in the first state, and a plurality of heat exchange air At least one of the air supply devices is working in the first air supply state, and other parts of the multiple heat exchange air supply devices are shut down or working in the second air supply state; wherein, the preset conditions include that the air conditioner cabinet receives Any one of receiving a start-up command signal, receiving a shutdown command signal of the air-conditioning cabinet, and running time of the air-conditioning cabinet is longer than a first preset duration.
- the present application also provides an electronic device, including a memory, a processor, and a computer program stored on the memory and operable on the processor.
- the processor executes the computer program, the humidity as described above can be realized.
- the steps of the regulation method are described above.
- the present application also provides a non-transitory computer-readable storage medium, on which a computer program is stored, and when the computer program is executed by a processor, the steps of any one of the humidity control methods described above are implemented.
- the application provides an air conditioner cabinet and its humidity control method.
- a humidification module and a plurality of heat exchange air supply devices in the air conditioner cabinet, when the humidity of the indoor environment is adjusted, according to the relative humidity of the indoor environment, both It can control the opening of the humidification module and the part corresponding to the humidification module in the multiple heat exchange air supply devices, and selectively open or close the other parts of the multiple heat exchange air supply devices to humidify and adjust the temperature of the indoor environment, and It can control the shutdown of the humidification module, selectively turn on or off multiple heat exchange air supply devices, only adjust the temperature of the indoor environment, and also control the shutdown of the humidification module, and the part of the multiple heat exchange air supply devices corresponding to the humidification module works
- the indoor environment is dehumidified, and other parts of the plurality of heat exchange air supply devices are selectively turned on or off, so as to assist in adjusting the indoor environment temperature.
- the present application can control the air-conditioning cabinet to work in different operating modes according to the relative humidity of the indoor environment. While realizing the rapid adjustment of the indoor environment humidity, it can ensure the stability of the indoor environment temperature and improve the user experience.
- Fig. 1 is one of structural representations of the air-conditioning cabinet provided by the present application.
- Fig. 2 is the second structural diagram of the air-conditioning cabinet machine provided by the present application.
- Fig. 3 is the third structural diagram of the air-conditioning cabinet machine provided by the present application.
- Fig. 4 is the fourth structural representation of the air-conditioning cabinet machine provided by the present application.
- Fig. 5 is a schematic flow chart of the humidity control method of the air-conditioning cabinet machine provided by the present application.
- Fig. 6 is a schematic structural view of the humidity control device provided by the present application.
- FIG. 7 is a schematic structural diagram of an electronic device provided by the present application.
- Chassis Chassis
- 2 The first heat exchange air supply device
- 3 The second heat exchange air supply device
- 43 atomizing humidifier; 410: first liquid level sensor; 411: second liquid level sensor;
- 412 Water filling port
- 413 Overflow water port
- 6 Air intake grille
- this embodiment provides an air conditioner cabinet, which includes: a casing 1 ; a first air outlet 11 and a second air outlet 12 are provided on the wall of the casing 1 .
- the air conditioner cabinet shown in this embodiment also includes: a plurality of heat exchange air supply devices and a humidification module 4, the first ports of the plurality of heat exchange air supply devices face the first tuyere 11 respectively, and the plurality of heat exchange air supply devices The second port of the air supply device communicates with the second tuyere 12 respectively; the atomization outlet of the humidification module 4 communicates with at least one of the plurality of heat exchange air supply devices.
- the humidifying module 4 and multiple heat exchange air blowing devices can be controlled to be turned on according to the relative humidity of the indoor environment.
- the part corresponding to the humidification module 4 in each heat exchange air supply device can selectively open or close other parts in multiple heat exchange air supply devices to humidify and adjust the temperature of the indoor environment, and can also control and close the humidification module 4 , selectively turn on or off multiple heat exchange air supply devices, only to adjust the temperature of the indoor environment, and also control the shutdown of the humidification module 4, and control the part of the multiple heat exchange air supply devices corresponding to the humidification module 4 to work in refrigeration mode, to dehumidify the indoor environment, and selectively turn on or off other parts of the multiple heat exchange air supply devices to assist in adjusting the indoor environment temperature.
- the present application can control the air-conditioning cabinet to work in different operating modes according to the relative humidity of the indoor environment. While realizing the rapid adjustment of the indoor environment humidity, it can ensure the stability of the indoor environment temperature and improve the user experience.
- the heat exchange air supply device and the humidification module 4 shown in this embodiment are both arranged in the casing 1; when the heat exchange air supply device is turned on in this embodiment, the heat exchange air supply device can be used to drive The air in the indoor environment flows from the first air outlet 11 to the second air outlet 12, and in this process, the air in the indoor environment is refrigerated or heated.
- the atomization outlet of the humidification module 4 communicates with multiple heat exchange air supply devices, during the process of driving the air flow by the heat exchange air supply devices, the atomized water droplets output by the humidification module 4 can be driven by the air flow from the second air outlet 12 Delivered to the indoor environment, so as to realize the humidification treatment of the indoor environment.
- this embodiment can turn off the humidification module 4, and control the heat exchange air supply device to work in the cooling mode, so that when the indoor air passes through the heat exchange air supply device, it will be condensed due to cold , as the dehumidification operation proceeds, the water vapor in the air is continuously condensed into condensed water, so as to achieve the effect of dehumidification.
- the heat exchange air supply device shown in this embodiment includes a first heat exchange air supply device 2 and a second heat exchange air supply device 3 .
- the first heat exchange air supply device 2 includes a first evaporator 21, a first fan 22 and a first air channel 23; the first side of the first evaporator 21 faces the first tuyere 11, and the first The two sides face the first port of the first air channel 23 , and the second port of the first air channel 23 communicates with the second air port 12 ; the first fan 22 is arranged in the first air channel 23 .
- the second heat exchange air supply device 3 shown in this embodiment includes a second evaporator 31, a second fan 32 and a second air channel 33; the first side of the second evaporator 31 faces the first air outlet 11, The second side of the second evaporator 31 faces the first port of the second air channel 33, and the second port of the second air channel 33 communicates with the second air port 12; the second fan 32 is located in the second air channel 33; humidification The atomization outlet of the module 4 is located between the first port of the second air duct 33 and the second evaporator 31 .
- the first tuyere 11 shown in this embodiment is provided with two; the first evaporator 21 and the second evaporator 31 are isolated from each other, and the first evaporator 21.
- the second evaporator 31 corresponds to the two first tuyeres 11 respectively.
- the first evaporator 21 and the second evaporator 31 shown in this embodiment are set as an integrated evaporator, and the integrated evaporator is used together with two Corresponding to the first tuyere 11.
- At least one of the first fan 22 and the second fan 32 shown in this embodiment is a centrifugal fan; when the first fan 22 is a centrifugal fan, the first air duct 23 is in the shape of a volute; When the second fan 32 is a centrifugal fan, the second air duct 33 is in the shape of a volute.
- the first fan 22 and the second fan 32 shown in this embodiment are preferably centrifugal fans.
- the first air duct 23 and the second air duct 33 shown in this embodiment are correspondingly designed in a volute shape.
- the first blower fan 22 and the second blower fan 32 shown in this embodiment can start to run when a certain current is input. Since the first evaporator 21 and the second evaporator 31 shown in this embodiment communicate with the condenser of the air conditioner external unit respectively through refrigerant pipelines, the corresponding connection between the first evaporator 21 and the second evaporator 31 can be controlled. The control valve on the pipeline is opened to start the cooling or heating operation of the first evaporator 21 and the second evaporator 31 .
- an air intake grill 6 is provided at the first air outlet 11 in the room.
- the humidification module 4 shown in this embodiment includes: a water tank 41, a water pump 42, and an atomizing humidifier 43;
- the water inlet of the water pump 42 communicates with the water tank 41, and the water outlet of the water pump 42 communicates with the atomizing humidifier 43;
- the atomizing outlet of the atomizing humidifier 43 It is arranged between the first port of the second air channel 33 and the second evaporator 31 .
- a water receiving tray is arranged on the lower sides of the first evaporator 21 and the second evaporator 31 , and the water receiving tray is communicated with the water tank 41 .
- the condensed water produced on the surface of the first evaporator 21 and the second evaporator 31 flows into the water receiving pan under the action of its own gravity, and then flows into the water tank through the connecting pipeline between the water receiving pan and the water tank 41 41 in.
- a water filling port 412 is provided on the water tank 41 in this embodiment.
- a switch door 13 corresponding to the water filling port 412 is provided on the shell wall of the casing 1 .
- an overflow water port 413 is provided on the water tank 41 in this embodiment; high.
- the present embodiment is provided with a first liquid level sensor 410 and a second liquid level sensor 411 in the water tank 41; the first liquid level sensor 410, the second liquid level sensor The position sensors 411 are respectively connected in communication with the information prompting modules.
- the first liquid level sensor 410 shown in this embodiment is used to feed back the first switching value information to the information prompt module when the first liquid level is reached in the water tank 41, so that the information prompt module sends a prompt message to stop adding water;
- the second liquid level sensor 411 is used to feed back the second switching value information to the information prompting module when the second liquid level is reached in the water tank 41, so that the information prompting module sends a water replenishment prompt message; the first liquid level is higher than the second liquid level.
- the information prompt module shown in this embodiment includes a control unit and an alarm unit, the first liquid level sensor 410 and the second liquid level sensor 411 shown in this embodiment are respectively connected to the control unit by communication, and the control unit and the alarm unit communication connection.
- the air conditioner cabinet machine shown in this embodiment also includes: an air outlet control device; The second state of the second air port 12; the heat exchange air supply device has a first air supply state and a second air supply state; in the first air supply state, the heat exchange air supply device is used to drive the air in the first air port 11 to The second air outlet 12 ; in the second air supply state, the heat exchange air supply device is used to drive the air in the second air outlet 12 to the first air outlet 11 .
- the second air outlet 12 can be closed by the air outlet control device, and at least one of the multiple heat exchange air supply devices can be controlled to work in the first air supply state, and the other air supply devices among the multiple heat exchange air supply devices can be controlled to work in the first air supply state. Part of the work is in the second air supply state, which can conveniently carry out reverse blowing of the dust attached to the evaporation device inside the heat exchange air supply device.
- the air outlet control device shown in this embodiment includes a windshield 5 and a linear drive mechanism; the drive end of the linear drive mechanism and the windshield
- the plates 5 are connected to drive the windshield 5 to move along the height direction of the air-conditioning cabinet, wherein the linear drive mechanism shown in this embodiment is not specifically shown in FIGS. 1 and 4 .
- the air outlet regulating device When the air outlet regulating device is in the first state, the windshield 5 is shielded from the second air outlet 12; when the air outlet regulating device is in the second state, the windshield 5 is separated from the second air outlet 12.
- slide rails can be provided on the casing 1, and the slide rails are arranged along the height direction of the casing 1.
- the wind deflector 5 shown in this embodiment is slidably mounted on the slide rail, and can stably move up and down along the height direction of the casing 1 under the guidance of the slide rail.
- the linear drive mechanism shown in this embodiment is preferably an electric push rod or screw drive mechanism.
- the drive end of the linear drive mechanism may be specifically configured to be connected to the lower end of the windshield 5 .
- the driving end of the linear driving mechanism can move up and down along the height direction of the casing 1 , and the driving end of the linear driving mechanism is connected to the back of the windshield 5 .
- a method for controlling humidity of an air-conditioning cabinet as described above includes: Step 510 , detecting the relative humidity of the indoor environment.
- Step 520 when the relative humidity is less than or equal to the first preset value, control to turn on the humidification module and the part corresponding to the humidification module among the multiple heat exchange air supply devices, and selectively open or close the multiple heat exchange air supply devices
- the other parts in the room are used to humidify and adjust the temperature of the indoor environment.
- Step 521 when the relative humidity is greater than the first preset value and lower than the second preset value, control to turn off the humidification module, and selectively turn on or turn off a plurality of heat exchange air blowing devices to adjust the temperature of the indoor environment .
- Step 522 when the relative humidity is greater than the second preset value, control to turn off the humidification module, and the parts corresponding to the humidification module among the plurality of heat exchange air supply devices work in cooling mode to dehumidify the indoor environment and selectively Open or close other parts of multiple heat exchange air supply devices in a timely manner, so as to assist in adjusting the indoor ambient temperature.
- the air conditioner by setting a humidifying module and multiple heat exchange air supply devices in the air conditioner cabinet, when controlling the humidity of the indoor environment, the air conditioner can be controlled based on the cooperation of the humidification module and multiple heat exchange air supply devices.
- the cabinet works in different operating modes. While realizing the rapid adjustment of the indoor environment humidity, it also ensures the stability of the indoor environment temperature and improves the user experience.
- the relative humidity of the indoor environment can be detected by the humidity sensor provided at the first air outlet of the air conditioner cabinet.
- the first preset value in summer can be set to 40%, and the second preset value is 80%.
- the first preset value in winter can be set to 30%, and the second preset value is 60%.
- control shown in this embodiment to turn on the part corresponding to the humidification module in the humidification module and the plurality of heat exchange air supply devices further includes:
- the relative humidity determine the humidification amount of the humidification module and the air supply speed of the heat exchange air supply device; control the humidification module according to the humidification amount, and control the heat exchange air supply device according to the air supply speed.
- the regulation of the humidification amount can be realized by adjusting the working power of the atomizing humidifier.
- this embodiment can control the humidification module to output a large humidification amount when the relative humidity is high, and control the heat exchange air supply device to output a large air supply speed; correspondingly, in order to To improve the dehumidification effect, this embodiment can control the closing of the humidification module when the relative humidity is low, and control the heat exchange air supply device to output a larger air supply speed, so that a larger air volume passes through the evaporator per unit time, so that the air The water vapor in the sent air is condensed into condensed water by the evaporator.
- the humidity control method shown in this embodiment further includes: detecting the operating state of the air-conditioning cabinet; If the conditions are set, the air outlet control device is controlled to be in the first state, at least one of the multiple heat exchange air supply devices is controlled to work in the first air supply state, and other parts of the multiple heat exchange air supply devices are shut down or It works in the second air supply state.
- the preset condition includes any one of the air-conditioning cabinet receiving a power-on command signal, the air-conditioning cabinet receiving a shutdown command signal, and the running time of the air-conditioning cabinet being longer than a first preset duration.
- the second port of the first heat exchange air supply device communicates with the second port of the second heat exchange air supply device when the second tuyeres are closed, by controlling the first heat exchange air supply device to communicate with the second heat exchange air supply device
- the hot air blowing device blows air in the opposite direction, which can conveniently carry out reverse blowing of the dust attached to the first evaporator of the first heat exchange air blowing device and the second evaporator of the second heat exchange air blowing device.
- the first fan of the first heat exchange air supply device when the first heat exchange air supply device is controlled to be in the first air supply state, the first fan of the first heat exchange air supply device can be controlled to run in the first rotation direction; In the second air supply state, the first fan of the first heat exchange air supply device can be controlled to operate in the second rotation direction, and the rotation direction of the first rotation direction is opposite to that of the second rotation direction.
- the second fan of the second heat exchange air supply device when the second heat exchange air supply device is controlled to be in the first air supply state, the second fan of the second heat exchange air supply device can be controlled to operate in the first rotation direction; When the air supply device is in the second air supply state, the second fan of the second heat exchange air supply device can be controlled to run in the second rotation direction.
- this embodiment can perform a reverse purge on the first evaporator and the second evaporator respectively when the air-conditioning cabinet is turned on, or when the air-conditioning cabinet is turned off , perform a reverse purge on the first evaporator and the second evaporator respectively, and also perform a reverse purge on the first evaporator and the second evaporator when the running time of the air conditioner cabinet is greater than the first preset time. To purge in order to achieve better cleaning effect.
- the first preset duration shown in this embodiment may be 6-12 hours, for example: the first preset duration is specifically 6 hours, 8 hours, 10 hours, 12 hours, which is not specifically limited.
- the humidity control device provided in the present application is described below, and the humidity control device described below and the humidity control method described above can be referred to in correspondence.
- this embodiment also provides a humidity control device, including:
- the detection module 610 is configured to detect the relative humidity of the indoor environment.
- the first control module 620 is configured to control to turn on the humidification module and the part corresponding to the humidification module among the plurality of heat exchange air supply devices when the relative humidity is less than or equal to a first preset value, Selectively turn on or turn off other parts of the plurality of heat exchange air blowing devices, so as to humidify and adjust the temperature of the indoor environment.
- the second control module 621 when the relative humidity is greater than the first preset value and lower than the second preset value, controls to turn off the humidification module, and selectively turns on or off the plurality of heat exchange air blowers. device to regulate the temperature of the indoor environment.
- the third control module 622 controls to turn off the humidification module when the relative humidity is greater than the second preset value, and the part corresponding to the humidification module among the plurality of heat exchange air blowing devices works in cooling mode , to dehumidify the indoor environment, and selectively turn on or turn off other parts of the plurality of heat exchange and air blowing devices, so as to assist in adjusting the temperature of the indoor environment.
- the humidity control device shown in this embodiment includes all the technical solutions of the humidity control method shown in the above-mentioned embodiments, and therefore at least has all the beneficial effects brought by the technical solutions of the above-mentioned embodiments, and will not be repeated here Let me repeat them one by one.
- FIG. 7 illustrates a schematic diagram of the physical structure of an electronic device.
- the electronic device may include: a processor (processor) 710, a communication interface (Communications Interface) 720, a memory (memory) 730 and a communication bus 740, Wherein, the processor 710 , the communication interface 720 , and the memory 730 communicate with each other through the communication bus 740 .
- processor processor
- Communication interface Communication interface
- memory memory
- FIG. 740 illustrates a schematic diagram of the physical structure of an electronic device.
- the electronic device may include: a processor (processor) 710, a communication interface (Communications Interface) 720, a memory (memory) 730 and a communication bus 740, Wherein, the processor 710 , the communication interface 720 , and the memory 730 communicate with each other through the communication bus 740 .
- memory memory
- the processor 710 can call the logic instructions in the memory 730 to execute the humidity control method, the method includes: detecting the relative humidity of the indoor environment; when the relative humidity is less than or equal to a first preset value, controlling to start the humidification module and the part corresponding to the humidification module in the plurality of heat exchange air supply devices, and selectively open or close other parts in the plurality of heat exchange air supply devices to humidify and adjust the temperature of the indoor environment ; when the relative humidity is greater than the first preset value and less than the second preset value, control to turn off the humidification module, and selectively turn on or turn off the plurality of heat exchange air blowing devices, so as to indoor The temperature of the environment is adjusted; when the relative humidity is greater than a second preset value, the humidification module is controlled to be turned off, and the parts corresponding to the humidification module in the plurality of heat exchange air supply devices work in cooling mode, to dehumidify the indoor environment, and selectively open or close other parts of the plurality of heat exchange air blowing devices, so as
- the above-mentioned logic instructions in the memory 730 may be implemented in the form of software functional units and may be stored in a computer-readable storage medium when sold or used as an independent product.
- the technical solution of the present application is essentially or the part that contributes to the prior art or the part of the technical solution can be embodied in the form of a software product, and the computer software product is stored in a storage medium, including Several instructions are used to make a computer device (which may be a personal computer, a server, or a network device, etc.) execute all or part of the steps of the methods described in the various embodiments of the present application.
- the aforementioned storage media include: U disk, mobile hard disk, read-only memory (ROM, Read-Only Memory), random access memory (RAM, Random Access Memory), magnetic disk or optical disc, etc., which can store program codes. .
- the present application also provides a computer program product
- the computer program product includes a computer program stored on a non-transitory computer-readable storage medium
- the computer program includes program instructions, and when the program instructions are executed by a computer
- the computer can execute the humidity control method provided by the above methods, the method includes: detecting the relative humidity of the indoor environment; when the relative humidity is less than or equal to the first preset value, controlling to open the humidification module and The part corresponding to the humidification module in the plurality of heat exchange air supply devices selectively turns on or off the other parts of the plurality of heat exchange air supply devices to humidify and adjust the temperature of the indoor environment; When the relative humidity is greater than the first preset value and less than the second preset value, the humidification module is controlled to be turned off, and the plurality of heat exchange air supply devices are selectively turned on or off, so as to improve the indoor environment.
- the present application also provides a non-transitory computer-readable storage medium, on which a computer program is stored, and when the computer program is executed by a processor, it is implemented to perform the humidity control methods provided above, and the method includes: detecting The relative humidity of the indoor environment; when the relative humidity is less than or equal to the first preset value, control to open the humidification module and the part corresponding to the humidification module among the plurality of heat exchange air supply devices, selectively Open or close the other parts of the plurality of heat exchange air supply devices to humidify and adjust the temperature of the indoor environment; when the relative humidity is greater than the first preset value and less than the second preset value , controlling to turn off the humidification module, selectively turning on or off the plurality of heat exchange air supply devices, so as to adjust the temperature of the indoor environment; when the relative humidity is greater than a second preset value, controlling to turn off the The humidification module, the part corresponding to the humidification module among the plurality of heat exchange air supply devices works in cooling mode to dehumid
- the device embodiments described above are only illustrative, and the units described as separate components may or may not be physically separated, and the components shown as units may or may not be physical units, that is, they may be located in One place, or it can be distributed to multiple network elements. Part or all of the modules can be selected according to actual needs to achieve the purpose of the solution of this embodiment. It can be understood and implemented by those skilled in the art without any creative efforts.
- each implementation can be implemented by means of software plus a necessary general hardware platform, and of course also by hardware.
- the essence of the above technical solution or the part that contributes to the prior art can be embodied in the form of software products, and the computer software products can be stored in computer-readable storage media, such as ROM/RAM, magnetic discs, optical discs, etc., including several instructions to make a computer device (which may be a personal computer, server, or network device, etc.) execute the methods described in various embodiments or some parts of the embodiments.
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Abstract
本申请提供一种空调柜机及其湿度调控方法,所述空调柜机包括机壳;机壳内设有蒸发器,机壳的壳壁上设有第一风口与第二风口;包括:多个换热风送装置与加湿模块,多个换热风送装置的第一端口分别朝向第一风口,多个换热风送装置的第二端口分别与第二风口连通;加湿模块的雾化出口与多个换热风送装置当中的至少一者连通。本申请可根据室内环境的相对湿度,控制空调柜机工作于不同的运行模式,在实现对室内环境湿度快速调节的同时,确保室内环境温度的稳定性,提升了用户体验。
Description
相关申请的交叉引用
本申请要求于2021年07月06日提交的申请号为202110762824.2,名称为“一种空调柜机及其湿度调控方法”的中国专利申请的优先权,其通过引用方式全部并入本文。
本申请涉及空调器技术领域,尤其涉及一种空调柜机及其湿度调控方法。
空调器是一种广泛应用的家用电器,一般具有制热和制冷功能。在环境温度过低或过高时,空调器可对室内空气的温度进行调节,为用户提供一个适宜的室内环境,有效地提高用户的生活品质。
为了实现对室内湿度的调节,在空调器内通常设有加湿模块。然而,现有空调器的湿度调节方式单一,调湿效果达不到用户需求。在实际运行中,对室内湿度的调节依赖于空调器的运行模式,在空调的机能力不变的前提下,在进行室内的加湿控制时,空调需要较长的运行时间才能到达用户设定的相对湿度,而在进行室内的除湿控制时,空调器只能进入制冷模式,除湿时间长,导致室内温度大幅度下降,影响到用户体验。
发明内容
本申请提供一种空调柜机及其湿度调控方法,用以解决现有空调器的湿度调节方式单一,调湿效果达不到用户需求的问题。
本申请提供一种空调柜机,包括:机壳;所述机壳的壳壁上设有第一风口与第二风口;还包括:多个换热风送装置与加湿模块,所述多个换热风送装置的第一端口分别朝向所述第一风口,所述多个换热风送装置的第二端口分别与所述第二风口连通;所述加湿模块的雾化出口与所述多个换热风送装置当中的至少一者连通。
根据本申请提供的一种空调柜机,所述换热风送装置包括第一换热风送装置与第二换热风送装置;所述第一换热风送装置包括第一蒸发器、第一风机及第一风道;所述第一蒸发器的第一侧面朝向所述第一风口,所述第一蒸发器的第二侧面朝向所述第一风道的第一端口,所述第一风道的第二端口与所述第二风口连通;所述第一风机设于所述第一风道内;所述第二换热风送装置包括第二蒸发器、第二风机及第二风道;所述第二蒸发器的第一侧面朝向所述第一风口,所述第二蒸发器的第二侧面朝向所述第二风道的第一端口,所述第二风道的第二端口与所述第二风口连通;所述第二风机设于所述第二风道内;所述加湿模块的雾化出口设于所述第二风道的第一端口与所述第二蒸发器之间。
根据本申请提供的一种空调柜机,所述第一风口设有两个;所述第一蒸发器与所述第二蒸发器彼此隔离,所述第一蒸发器、所述第二蒸发器分别与两个所述第一风口一一对应;或者,所述第一蒸发器与所述第二蒸发器为一体式蒸发器,所述一体式蒸发器共同与两个所述第一风口对应。
根据本申请提供的一种空调柜机,所述第一风机与所述第二风机当中至少一者为离心风扇;在所述第一风机为离心风扇的情况下,所述第一风道呈蜗壳状;在所述第二风机为离心风扇的情况下,所述第二风道呈蜗壳状。
根据本申请提供的一种空调柜机,所述加湿模块包括:水箱、水泵及雾化加湿器;所述水箱设于所述第一蒸发器与所述第二蒸发器的下侧,以承接所述第一蒸发器与所述第二蒸发器的表面产生的冷凝水;所述水泵的进水口与所述水箱连通,所述水泵的出水口与所述雾化加湿器连通;所述雾化加湿器的雾化出口设于所述第二风道的第一端口与所述第二蒸发器之间。
根据本申请提供的一种空调柜机,所述水箱上设有加水口与溢流水口;所述溢流水口设于所述水箱上的预设高度;所述水箱内设有第一液位传感器与第二液位传感器;所述第一液位传感器、所述第二液位传感器分别与信息提示模块通讯连接;所述第一液位传感器用于在所述水箱内达到第一液位时,向所述信息提示模块反馈第一开关量信息,以使得所述信息提示模块发出停止加水提示信息;所述第二液位传感器用于在所述水箱内达到 第二液位时,向所述信息提示模块反馈第二开关量信息,以使得所述信息提示模块发出补水提示信息;所述第一液位高于所述第二液位。
根据本申请提供的一种空调柜机,还包括:出风调控装置;所述出风调控装置设于所述第二风口,所述出风调控装置具有关闭所述第二风口的第一状态与打开所述第二风口的第二状态;所述换热风送装置具有第一风送状态与第二风送状态;在所述第一风送状态,所述换热风送装置用于将所述第一风口的空气驱动至所述第二风口;在所述第二风送状态,所述换热风送装置用于将所述第二风口的空气驱动至所述第一风口。
本申请还提供一种如上所述的空调柜机的湿度调控方法,包括:检测室内环境的相对湿度;在所述相对湿度小于等于第一预设值的情况下,控制开启所述加湿模块及所述多个换热风送装置中与所述加湿模块对应的部分,选择性地开启或关闭所述多个换热风送装置中的其它部分,以对室内环境进行加湿与温度调节;在所述相对湿度大于第一预设值,且小于第二预设值的情况下,控制关闭所述加湿模块,选择性地开启或关闭所述多个换热风送装置,以对室内环境进行温度调节;在所述相对湿度大于第二预设值的情况下,控制关闭所述加湿模块,所述多个换热风送装置中与所述加湿模块对应的部分工作于制冷模式,以对室内环境进行除湿,并选择性地开启或关闭所述多个换热风送装置中的其它部分,以对室内环境温度进行辅助调节。
根据本申请提供的一种湿度调控方法,所述控制开启所述加湿模块及所述多个换热风送装置中与所述加湿模块对应的部分,进一步包括:根据所述相对湿度,确定所述加湿模块的加湿量及所述换热风送装置的风送速度;根据所述加湿量,控制所述加湿模块,并根据所述风送速度,控制所述换热风送装置。
根据本申请提供的一种湿度调控方法,检测所述空调柜机的运行状态;在所述运行状态满足预设条件的情况下,控制出风调控装置处于第一状态,控制多个换热风送装置当中的至少一者工作于第一风送状态,多个换热风送装置当中的其它部分关机或工作于第二风送状态;其中,所述预设条件包括所述空调柜机接收到开机指令信号、所述空调柜机接收到关机指令信号及所述空调柜机的运行时间大于第一预设时长当中的任一种。
本申请还提供一种电子设备,包括存储器、处理器及存储在存储器上并可在处理器上运行的计算机程序,所述处理器执行所述计算机程序时实现如上述任一种所述的湿度调控方法的步骤。
本申请还提供一种非暂态计算机可读存储介质,其上存储有计算机程序,该计算机程序被处理器执行时实现如上述任一种所述的湿度调控方法的步骤。
本申请提供的一种空调柜机及其湿度调控方法,通过在空调柜机内设置加湿模块与多个换热风送装置,在对室内环境进行湿度调控时,根据室内环境的相对湿度,既可以控制开启加湿模块及多个换热风送装置中与加湿模块对应的部分,选择性地开启或关闭多个换热风送装置中的其它部分,以对室内环境进行加湿与温度调节,又可以控制关闭加湿模块,选择性地开启或关闭多个换热风送装置,只对室内环境进行温度调节,还可以控制关闭加湿模块,多个换热风送装置中与加湿模块对应的部分工作于制冷模式,以对室内环境进行除湿,并选择性地开启或关闭多个换热风送装置中的其它部分,以对室内环境温度进行辅助调节。
由此可见,本申请可根据室内环境的相对湿度,控制空调柜机工作于不同的运行模式,在实现对室内环境湿度快速调节的同时,确保室内环境温度的稳定性,提升了用户体验。
为了更清楚地说明本申请或现有技术中的技术方案,下面将对实施例或现有技术描述中所需要使用的附图作一简单地介绍,显而易见地,下面描述中的附图是本申请的一些实施例,对于本领域普通技术人员来讲,在不付出创造性劳动的前提下,还可以根据这些附图获得其他的附图。
图1是本申请提供的空调柜机的结构示意图之一;
图2是本申请提供的空调柜机的结构示意图之二;
图3是本申请提供的空调柜机的结构示意图之三;
图4是本申请提供的空调柜机的结构示意图之四;
图5是本申请提供的空调柜机的湿度调控方法的流程示意图;
图6是本申请提供的湿度调控装置的结构示意图;
图7是本申请提供的电子设备的结构示意图;
附图标记:
1:机壳; 2:第一换热风送装置; 3:第二换热风送装置;
4:加湿模块; 5:挡风板; 11:第一风口;
12:第二风口; 21:第一蒸发器; 22:第一风机;
23:第一风道; 31:第二蒸发器; 32:第二风机;
33:第二风道; 41:水箱; 42:水泵;
43:雾化加湿器; 410:第一液位传感器; 411:第二液位传感器;
412:加水口; 413:溢流水口; 6:进风格栅;
13:开关门。
为使本申请的目的、技术方案和优点更加清楚,下面将结合本申请中的附图,对本申请中的技术方案进行清楚、完整地描述,显然,所描述的实施例是本申请一部分实施例,而不是全部的实施例。基于本申请中的实施例,本领域普通技术人员在没有作出创造性劳动前提下所获得的所有其他实施例,都属于本申请保护的范围。
下面结合图1-图7描述本申请的一种空调柜机及其湿度调控方法。
如图1至图4所示,本实施例提供一种空调柜机,包括:机壳1;机壳1的壳壁上设有第一风口11与第二风口12。
进一步地,本实施例所示的空调柜机还包括:多个换热风送装置与加湿模块4,多个换热风送装置的第一端口分别朝向第一风口11,多个换热风送装置的第二端口分别与第二风口12连通;加湿模块4的雾化出口与多个换热风送装置当中的至少一者连通。
具体地,本实施例通过在空调柜机内设置加湿模块4与多个换热风送装置,在对室内环境进行湿度调控时,根据室内环境的相对湿度,既可以控制开启加湿模块4及多个换热风送装置中与加湿模块4对应的部分,选择性地开启或关闭多个换热风送装置中的其它部分,以对室内环境进行加湿与温度调节,又可以控制关闭加湿模块4,选择性地开启或关闭多个换热风送装置,只对室内环境进行温度调节,还可以控制关闭加湿模块4,控制多个换热风送装置中与加湿模块4对应的部分工作于制冷模式,以对室内环境进行除湿,并选择性地开启或关闭多个换热风送装置中的其它部 分,以对室内环境温度进行辅助调节。
由此可见,本申请可根据室内环境的相对湿度,控制空调柜机工作于不同的运行模式,在实现对室内环境湿度快速调节的同时,确保室内环境温度的稳定性,提升了用户体验。
在此应指出的是,本实施例所示的换热风送装置与加湿模块4均设于机壳1内;本实施例在开启换热风送装置时,换热风送装置可用于驱动室内环境的空气从第一风口11流向第二风口12,并在此过程中,实现对室内环境的空气的制冷或制热处理。
由于加湿模块4的雾化出口与多个换热风送装置连通,在换热风送装置驱动空气流动的过程中,加湿模块4输出的雾化水滴可在气流的带动下从第二风口12输送至室内环境,从而实现对室内环境的加湿处理。
与此同时,在进行除湿操作时,本实施例可关闭加湿模块4,并控制换热风送装置工作于制冷模式,从而在室内空气经过换热风送装置时,会因遇冷而被凝结,随着除湿操作的进行,空气中的水汽不断被凝结为冷凝水,从而达到除湿的效果。
如图1所示,本实施例所示的换热风送装置包括第一换热风送装置2与第二换热风送装置3。
其中,第一换热风送装置2包括第一蒸发器21、第一风机22及第一风道23;第一蒸发器21的第一侧面朝向第一风口11,第一蒸发器21的第二侧面朝向第一风道23的第一端口,第一风道23的第二端口与第二风口12连通;第一风机22设于第一风道23内。
相应地,本实施例所示的第二换热风送装置3包括第二蒸发器31、第二风机32及第二风道33;第二蒸发器31的第一侧面朝向第一风口11,第二蒸发器31的第二侧面朝向第二风道33的第一端口,第二风道33的第二端口与第二风口12连通;第二风机32设于第二风道33内;加湿模块4的雾化出口设于第二风道33的第一端口与第二蒸发器31之间。
在一个具体实施中,为了实现对湿度与温度的多样化控制,本实施例所示的第一风口11设有两个;第一蒸发器21与第二蒸发器31彼此隔离,第一蒸发器21、第二蒸发器31分别与两个第一风口11一一对应。
在另一具体实施例中,为了简化空调柜机的内部布置结构,本实施例 所示的第一蒸发器21与第二蒸发器31设为一体式蒸发器,一体式蒸发器共同与两个第一风口11对应。
进一步地,本实施例所示的第一风机22与第二风机32当中至少一者为离心风扇;在第一风机22为离心风扇的情况下,第一风道23呈蜗壳状;在第二风机32为离心风扇的情况下,第二风道33呈蜗壳状。
如图3所示,为了提升风送效率,减小对空调内部空间的占用,本实施例所示的第一风机22与第二风机32优选为离心风扇。在第一风机22与第二风机32设计为离心风扇的情况下,本实施例所示的第一风道23与第二风道33均相应地设计呈蜗壳状。
与此同时,本实施例所示的第一风机22与第二风机32在输入一定的电流的情况下,即可启动运行。由于本实施例所示的第一蒸发器21与第二蒸发器31分别通过制冷剂管路与空调外机的冷凝器连通,从可通过控制第一蒸发器21与第二蒸发器31相应连接管路上的控制阀开启,以实现启动第一蒸发器21与第二蒸发器31的制冷或制热运行。
如图2所示,为了对第一换热风送装置2的第一蒸发器21及第二换热风送装置3的第二蒸发器31形成物理性防护,并对进入机壳1内的空气进行初步净化处理,本实施例在室内第一风口11设有进风格栅6。
如图1所示,本实施例所示的加湿模块4包括:水箱41、水泵42及雾化加湿器43;水箱41设于第一蒸发器21与第二蒸发器31的下侧,以承接第一蒸发器21与第二蒸发器31的表面产生的冷凝水;水泵42的进水口与水箱41连通,水泵42的出水口与雾化加湿器43连通;雾化加湿器43的雾化出口设于第二风道33的第一端口与第二蒸发器31之间。
具体地,本实施例在第一蒸发器21与第二蒸发器31的下侧均配置接水盘,并将接水盘与水箱41连通。如此,第一蒸发器21与第二蒸发器31的表面产生的冷凝水在自身重力的作用下先流入接水盘中,再通过接水盘与水箱41之间的连接管路,流入至水箱41中。
如图1与图4所示,为了便于向水箱41中加水,本实施例在水箱41上设有加水口412。其中,本实施例在机壳1的壳壁上设有与加水口412对应的开关门13。
如图1与图2所示,为了防止水箱41内的水溢流至机壳1内,本实 施例在水箱41上设有溢流水口413;溢流水口413设于水箱41上的预设高度。
如图1所示,为了便于对用户的加水操作进行信息提示,本实施例在水箱41内设有第一液位传感器410与第二液位传感器411;第一液位传感器410、第二液位传感器411分别与信息提示模块通讯连接。
其中,本实施例所示的第一液位传感器410用于在水箱41内达到第一液位时,向信息提示模块反馈第一开关量信息,以使得信息提示模块发出停止加水提示信息;第二液位传感器411用于在水箱41内达到第二液位时,向信息提示模块反馈第二开关量信息,以使得信息提示模块发出补水提示信息;第一液位高于第二液位。
在此,本实施例所示的信息提示模块包括控制单元与报警单元,本实施例所示的第一液位传感器410与第二液位传感器411分别与控制单元通讯连接,控制单元与报警单元通讯连接。
如图4所示,本实施例所示的空调柜机还包括:出风调控装置;出风调控装置设于第二风口12,出风调控装置具有关闭第二风口12的第一状态与打开第二风口12的第二状态;换热风送装置具有第一风送状态与第二风送状态;在第一风送状态,换热风送装置用于将第一风口11的空气驱动至第二风口12;在第二风送状态,换热风送装置用于将第二风口12的空气驱动至第一风口11。
在此,本实施例可通过出风调控装置闭合第二风口12,并控制多个换热风送装置当中的至少一者工作于第一风送状态,多个换热风送装置当中的其它部分工作于第二风送状态,可便捷地对换热风送装置内部的蒸发器件上附着的灰尘进行反向吹扫。
如图1与图4所示,为了实现对第二风口12的开闭控制,本实施例所示的出风调控装置包括挡风板5与直线驱动机构;直线驱动机构的驱动端与挡风板5连接,以驱动挡风板5沿空调柜机的高度方向移动,其中,本实施例所示的直线驱动机构在图1与图4中未具体示意出。在出风调控装置处于第一状态时,挡风板5遮挡于第二风口12;在出风调控装置处于第二状态时,挡风板5与第二风口12分离。
具体地,本实施例可在机壳1上设置滑轨,滑轨沿着机壳1的高度方 向排布。本实施例所示的挡风板5可滑动的安装于滑轨上,并可在滑轨的引导下沿机壳1的高度方向稳定地上下移动。
与此同时,为了便于实现对挡风板5的移动控制,本实施例所示的直线驱动机构优选为电动推杆或丝杠驱动机构。其中,本实施例可具体设置直线驱动机构的驱动端与挡风板5的下端连接。直线驱动机构的驱动端可沿机壳1的高度方向上下移动,且直线驱动机构的驱动端连接于挡风板5的背面。
如图5所示,本实施例一种如上所述的空调柜机的湿度调控方法,包括:步骤510,检测室内环境的相对湿度。
步骤520,在相对湿度小于等于第一预设值的情况下,控制开启加湿模块及多个换热风送装置中与加湿模块对应的部分,选择性地开启或关闭多个换热风送装置中的其它部分,以对室内环境进行加湿与温度调节。
步骤521,在相对湿度大于第一预设值,且小于第二预设值的情况下,控制关闭加湿模块,选择性地开启或关闭多个换热风送装置,以对室内环境进行温度调节。
步骤522,在相对湿度大于第二预设值的情况下,控制关闭加湿模块,多个换热风送装置中与加湿模块对应的部分工作于制冷模式,以对室内环境进行除湿,并选择性地开启或关闭多个换热风送装置中的其它部分,以对室内环境温度进行辅助调节。
具体地,本实施例通过在空调柜机内设置加湿模块与多个换热风送装置,在对室内环境进行湿度调控时,可基于加湿模块与多个换热风送装置的配合,控制空调柜机工作于不同的运行模式,在实现对室内环境湿度快速调节的同时,确保室内环境温度的稳定性,提升了用户体验。
在此应指出的是,本实施例可通过设于空调柜机的第一风口的湿度传感器检测室内环境的相对湿度。在夏季,由于适宜居住的室内湿度为40%-80%,从而本实施例可设置夏季时的第一预设值为40%,第二预设值为80%。在冬季,由于适宜居住的室内湿度为30%-60%,从而本实施例可设置冬季时的第一预设值为30%,第二预设值为60%
优选地,本实施例所示的控制开启所述加湿模块及多个换热风送装置中与加湿模块对应的部分,进一步包括:
根据相对湿度,确定加湿模块的加湿量及换热风送装置的风送速度;根据加湿量,控制加湿模块,并根据风送速度,控制换热风送装置。
具体地,本实施例可通过调节雾化加湿器工作的功率,以实现对加湿量的调控。在实际工作中,为了提升加湿效果,本实施例可在相对湿度较大时,控制加湿模块输出较大的加湿量,且控制换热风送装置输出较大的风送速度;相应地,为了提升除湿效果,本实施例可在相对湿度较小时,控制关闭加湿模块,且控制换热风送装置输出较大的风送速度,以使得单位时间内有较大的风量经过蒸发器件,使得风送的空气中的水汽被蒸发器件冷凝为凝结水。
优选地,为了便于实现对换热风送装置内蒸发器件内附着的灰尘的清扫,本实施例所示的湿度调控方法,还包括:检测所述空调柜机的运行状态;在运行状态满足预设条件的情况下,控制出风调控装置处于第一状态,控制多个换热风送装置当中的至少一者工作于第一风送状态,多个换热风送装置当中的其它部分关机或工作于第二风送状态。
其中,预设条件包括空调柜机接收到开机指令信号、空调柜机接收到关机指令信号及空调柜机的运行时间大于第一预设时长当中的任一种。
具体地,由于在第二风口关闭时,第一换热风送装置的第二端口与第二换热风送装置的第二端口连通,则通过控制第一换热风送装置与第二换热风送装置以相反的方向送风,可便捷地对第一换热风送装置的第一蒸发器及第二换热风送装置的第二蒸发器上附着的灰尘进行反向吹扫。
本实施例在控制第一换热风送装置处于第一风送状态时,可控制第一换热风送装置的第一风机以第一旋向运转,在控制第一换热风送装置处于第二风送状态时,可控制第一换热风送装置的第一风机以第二旋向运转,且第一旋向与第二旋向的旋转方向相反。
相应地,本实施例在控制第二换热风送装置处于第一风送状态时,可控制第二换热风送装置的第二风机以第一旋向运转,在控制第二换热风送装置处于第二风送状态时,可控制第二换热风送装置的第二风机以第二旋向运转。
基于本实施例所示的方法的控制逻辑,本实施例既可在空调柜机开机时,对第一蒸发器与第二蒸发器分别进行一次反向吹扫,也可在空调柜机 关机时,对第一蒸发器与第二蒸发器分别进行一次反向吹扫,还可在空调柜机的运行时间大于第一预设时长时,对第一蒸发器与第二蒸发器分别进行一次反向吹扫,以达到较好的清扫效果。
其中,本实施例所示的第一预设时长可以为6-12小时,例如:第一预设时长具体为6小时、8小时、10小时、12小时,对此不作具体限定。
下面对本申请提供的湿度调控装置进行描述,下文描述的湿度调控装置与上文描述的湿度调控方法可相互对应参照。
如图6所示,本实施例还提供一种湿度调控装置,包括:
检测模块610,用于检测室内环境的相对湿度。
第一控制模块620,用于在所述相对湿度小于等于第一预设值的情况下,控制开启所述加湿模块及所述多个换热风送装置中与所述加湿模块对应的部分,选择性地开启或关闭所述多个换热风送装置中的其它部分,以对室内环境进行加湿与温度调节。
第二控制模块621,在所述相对湿度大于第一预设值,且小于第二预设值的情况下,控制关闭所述加湿模块,选择性地开启或关闭所述多个换热风送装置,以对室内环境进行温度调节。
第三控制模块622,在所述相对湿度大于第二预设值的情况下,控制关闭所述加湿模块,所述多个换热风送装置中与所述加湿模块对应的部分工作于制冷模式,以对室内环境进行除湿,并选择性地开启或关闭所述多个换热风送装置中的其它部分,以对室内环境温度进行辅助调节。
具体地,本实施例所示的湿度调控装置包含了上述实施例所示的湿度调控方法的全部技术方案,则因此至少具有上述实施例的技术方案所带来的所有有益效果,在此不再一一赘述。
图7示例了一种电子设备的实体结构示意图,如图7所示,该电子设备可以包括:处理器(processor)710、通信接口(Communications Interface)720、存储器(memory)730和通信总线740,其中,处理器710,通信接口720,存储器730通过通信总线740完成相互间的通信。处理器710可以调用存储器730中的逻辑指令,以执行湿度调控方法,该方法包括:检测室内环境的相对湿度;在所述相对湿度小于等于第一预设值的情况下,控制开启所述加湿模块及所述多个换热风送装置中与所述加湿模块 对应的部分,选择性地开启或关闭所述多个换热风送装置中的其它部分,以对室内环境进行加湿与温度调节;在所述相对湿度大于第一预设值,且小于第二预设值的情况下,控制关闭所述加湿模块,选择性地开启或关闭所述多个换热风送装置,以对室内环境进行温度调节;在所述相对湿度大于第二预设值的情况下,控制关闭所述加湿模块,所述多个换热风送装置中与所述加湿模块对应的部分工作于制冷模式,以对室内环境进行除湿,并选择性地开启或关闭所述多个换热风送装置中的其它部分,以对室内环境温度进行辅助调节。
此外,上述的存储器730中的逻辑指令可以通过软件功能单元的形式实现并作为独立的产品销售或使用时,可以存储在一个计算机可读取存储介质中。基于这样的理解,本申请的技术方案本质上或者说对现有技术做出贡献的部分或者该技术方案的部分可以以软件产品的形式体现出来,该计算机软件产品存储在一个存储介质中,包括若干指令用以使得一台计算机设备(可以是个人计算机,服务器,或者网络设备等)执行本申请各个实施例所述方法的全部或部分步骤。而前述的存储介质包括:U盘、移动硬盘、只读存储器(ROM,Read-Only Memory)、随机存取存储器(RAM,Random Access Memory)、磁碟或者光盘等各种可以存储程序代码的介质。
另一方面,本申请还提供一种计算机程序产品,所述计算机程序产品包括存储在非暂态计算机可读存储介质上的计算机程序,所述计算机程序包括程序指令,当所述程序指令被计算机执行时,计算机能够执行上述各方法所提供的湿度调控方法,该方法包括:检测室内环境的相对湿度;在所述相对湿度小于等于第一预设值的情况下,控制开启所述加湿模块及所述多个换热风送装置中与所述加湿模块对应的部分,选择性地开启或关闭所述多个换热风送装置中的其它部分,以对室内环境进行加湿与温度调节;在所述相对湿度大于第一预设值,且小于第二预设值的情况下,控制关闭所述加湿模块,选择性地开启或关闭所述多个换热风送装置,以对室内环境进行温度调节;在所述相对湿度大于第二预设值的情况下,控制关闭所述加湿模块,所述多个换热风送装置中与所述加湿模块对应的部分工作于制冷模式,以对室内环境进行除湿,并选择性地开启或关闭所述多个换热风送装置中的其它部分,以对室内环境温度进行辅助调节。
又一方面,本申请还提供一种非暂态计算机可读存储介质,其上存储有计算机程序,该计算机程序被处理器执行时实现以执行上述各提供的湿度调控方法,该方法包括:检测室内环境的相对湿度;在所述相对湿度小于等于第一预设值的情况下,控制开启所述加湿模块及所述多个换热风送装置中与所述加湿模块对应的部分,选择性地开启或关闭所述多个换热风送装置中的其它部分,以对室内环境进行加湿与温度调节;在所述相对湿度大于第一预设值,且小于第二预设值的情况下,控制关闭所述加湿模块,选择性地开启或关闭所述多个换热风送装置,以对室内环境进行温度调节;在所述相对湿度大于第二预设值的情况下,控制关闭所述加湿模块,所述多个换热风送装置中与所述加湿模块对应的部分工作于制冷模式,以对室内环境进行除湿,并选择性地开启或关闭所述多个换热风送装置中的其它部分,以对室内环境温度进行辅助调节。
以上所描述的装置实施例仅仅是示意性的,其中所述作为分离部件说明的单元可以是或者也可以不是物理上分开的,作为单元显示的部件可以是或者也可以不是物理单元,即可以位于一个地方,或者也可以分布到多个网络单元上。可以根据实际的需要选择其中的部分或者全部模块来实现本实施例方案的目的。本领域普通技术人员在不付出创造性的劳动的情况下,即可以理解并实施。
通过以上的实施方式的描述,本领域的技术人员可以清楚地了解到各实施方式可借助软件加必需的通用硬件平台的方式来实现,当然也可以通过硬件。基于这样的理解,上述技术方案本质上或者说对现有技术做出贡献的部分可以以软件产品的形式体现出来,该计算机软件产品可以存储在计算机可读存储介质中,如ROM/RAM、磁碟、光盘等,包括若干指令用以使得一台计算机设备(可以是个人计算机,服务器,或者网络设备等)执行各个实施例或者实施例的某些部分所述的方法。
最后应说明的是:以上实施例仅用以说明本申请的技术方案,而非对其限制;尽管参照前述实施例对本申请进行了详细的说明,本领域的普通技术人员应当理解:其依然可以对前述各实施例所记载的技术方案进行修改,或者对其中部分技术特征进行等同替换;而这些修改或者替换,并不使相应技术方案的本质脱离本申请各实施例技术方案的精神和范围。
Claims (10)
- 一种空调柜机,包括机壳;所述机壳的壳壁上设有第一风口与第二风口;其特征在于,还包括:多个换热风送装置,所述多个换热风送装置的第一端口分别朝向所述第一风口,所述多个换热风送装置的第二端口分别与所述第二风口连通;加湿模块,所述加湿模块的雾化出口与所述多个换热风送装置当中的至少一者连通。
- 根据权利要求1所述的空调柜机,其特征在于,所述换热风送装置包括第一换热风送装置与第二换热风送装置;所述第一换热风送装置包括第一蒸发器、第一风机及第一风道;所述第一蒸发器的第一侧面朝向所述第一风口,所述第一蒸发器的第二侧面朝向所述第一风道的第一端口,所述第一风道的第二端口与所述第二风口连通;所述第一风机设于所述第一风道内;所述第二换热风送装置包括第二蒸发器、第二风机及第二风道;所述第二蒸发器的第一侧面朝向所述第一风口,所述第二蒸发器的第二侧面朝向所述第二风道的第一端口,所述第二风道的第二端口与所述第二风口连通;所述第二风机设于所述第二风道内;所述加湿模块的雾化出口设于所述第二风道的第一端口与所述第二蒸发器之间。
- 根据权利要求2所述的空调柜机,其特征在于,所述第一风口设有两个;所述第一蒸发器与所述第二蒸发器彼此隔离,所述第一蒸发器、所述第二蒸发器分别与两个所述第一风口一一对应;或者,所述第一蒸发器与所述第二蒸发器为一体式蒸发器,所述一体式蒸发器共同与两个所述第一风口对应。
- 根据权利要求2所述的空调柜机,其特征在于,所述第一风机与所述第二风机当中至少一者为离心风扇;在所述第一风机为离心风扇的情况下,所述第一风道呈蜗壳状;在所述第二风机为离心风扇的情况下,所述第二风道呈蜗壳状。
- 根据权利要求2所述的空调柜机,其特征在于,所述加湿模块包括:水箱、水泵及雾化加湿器;所述水箱设于所述第一蒸发器与所述第二蒸发器的下侧,以承接所述第一蒸发器与所述第二蒸发器的表面产生的冷凝水;所述水泵的进水口与所述水箱连通,所述水泵的出水口与所述雾化加湿器连通;所述雾化加湿器的雾化出口设于所述第二风道的第一端口与所述第二蒸发器之间。
- 根据权利要求5所述的空调柜机,其特征在于,所述水箱上设有加水口与溢流水口;所述溢流水口设于所述水箱上的预设高度;所述水箱内设有第一液位传感器与第二液位传感器;所述第一液位传感器、所述第二液位传感器分别与信息提示模块通讯连接;所述第一液位传感器用于在所述水箱内达到第一液位时,向所述信息提示模块反馈第一开关量信息,以使得所述信息提示模块发出停止加水提示信息;所述第二液位传感器用于在所述水箱内达到第二液位时,向所述信息提示模块反馈第二开关量信息,以使得所述信息提示模块发出补水提示信息;所述第一液位高于所述第二液位。
- 根据权利要求1至6任一所述的空调柜机,其特征在于,还包括:出风调控装置;所述出风调控装置设于所述第二风口,所述出风调控装置具有关闭所述第二风口的第一状态与打开所述第二风口的第二状态;所述换热风送装置具有第一风送状态与第二风送状态;在所述第一风送状态,所述换热风送装置用于将所述第一风口的空气驱动至所述第二风口;在所述第二风送状态,所述换热风送装置用于将所述第二风口的空气驱动至所述第一风口。
- 一种如权利要求1至7任一所述的空调柜机的湿度调控方法,其特征在于,包括:检测室内环境的相对湿度;在所述相对湿度小于等于第一预设值的情况下,控制开启所述加湿模块及所述多个换热风送装置中与所述加湿模块对应的部分,选择性地开启或关闭所述多个换热风送装置中的其它部分,以对室内环境进行加湿与温 度调节;在所述相对湿度大于第一预设值,且小于第二预设值的情况下,控制关闭所述加湿模块,选择性地开启或关闭所述多个换热风送装置,以对室内环境进行温度调节;在所述相对湿度大于第二预设值的情况下,控制关闭所述加湿模块,所述多个换热风送装置中与所述加湿模块对应的部分工作于制冷模式,以对室内环境进行除湿,并选择性地开启或关闭所述多个换热风送装置中的其它部分,以对室内环境温度进行辅助调节。
- 根据权利要求8所述的湿度调控方法,其特征在于,所述控制开启所述加湿模块及所述多个换热风送装置中与所述加湿模块对应的部分,进一步包括:根据所述相对湿度,确定所述加湿模块的加湿量及所述换热风送装置的风送速度;根据所述加湿量,控制所述加湿模块,并根据所述风送速度,控制所述换热风送装置。
- 根据权利要求8所述的湿度调控方法,其特征在于,还包括:检测所述空调柜机的运行状态;在所述运行状态满足预设条件的情况下,控制出风调控装置处于第一状态,控制多个换热风送装置当中的至少一者工作于第一风送状态,多个换热风送装置当中的其它部分关机或工作于第二风送状态;其中,所述预设条件包括所述空调柜机接收到开机指令信号、所述空调柜机接收到关机指令信号及所述空调柜机的运行时间大于第一预设时长当中的任一种。
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