CN116878071A - Multifunctional dehumidification integrated machine, dehumidification system and control method - Google Patents

Abstract

The application discloses a multifunctional dehumidification integrated machine, a dehumidification system and a control method, wherein a first air supply cavity is communicated with a second air exhaust cavity through an aluminum foil heat exchanger assembly, and a second air supply cavity is communicated with an air outlet chamber through the aluminum foil heat exchanger assembly; the main exhaust channel, the main dehumidification channel and the interaction between the main exhaust channel and the main dehumidification channel form a plurality of working modes, and particularly a cooling mode, a heating mode, a full-exhaust mode, a closed dehumidification mode and an open dehumidification mode are realized, so that the working flexibility is greatly improved; the working modes of the multifunctional dehumidifying integrated machine are switched through the first conducting valve, the second conducting valve, the third conducting valve, the fourth conducting valve and the working adjustment of the air conditioner working system.

Description

Multifunctional dehumidification integrated machine, dehumidification system and control method

Technical Field

The application relates to the field of dehumidification structures, in particular to a multifunctional dehumidification integrated machine, a dehumidification system and a control method.

Background

The dehumidification mode mainly comprises physical dehumidification by an air conditioner and adsorption dehumidification by a rotating wheel structure. Dehumidification by physical means of an air conditioner is a preferred option in the food field (dehydration). During dehydration of seafood products, it is desirable to maintain the temperature at a relatively high level (at least not the cold air of the air conditioner) and continue the dehumidification process.

Because the working principle of the air conditioner is limited, the dehumidifying effect cannot be provided when the temperature of the air is raised, and the dehumidifying effect is provided when the temperature of the air is lowered. For example, a cooling tower is arranged outside a room in Chinese patent CN209371642U, and a condenser of the dehumidifier is cooled by cooling water provided by the cooling tower; or a floor type air conditioner indoor unit is arranged in a room close to the other end of the transverse partition board, an air suction port of the air conditioner indoor unit faces to the air duct, an air exhaust port of the air conditioner indoor unit faces upwards, an air conditioner outdoor unit is arranged outside the room, and the air conditioner indoor unit is connected with the air conditioner outdoor unit through a pipeline and a wire; the air inlet of the fan is arranged on one side far away from the air channel, the air outlet of the fan is arranged on one side close to the air channel, the fan pushes air flow to the air channel, and the air channel guides the air flow into a room below the transverse partition. When the target space is dehydrated, the indoor unit and the outdoor unit of the air conditioner are arranged inside and outside the target space, the indoor unit is used for heating and controlling the temperature of the environment in the target space, and a corresponding valve structure for dehumidifying is also required to be arranged in the target space, namely, the air conditioner is used for feeding high-temperature air with certain humidity into the target space, and the high-humidity air in the target space is replaced, so that the purpose of dehydration cannot be realized efficiently, meanwhile, the working mode is simple, and the final dehydration effect is poor; and a more complex system is required in order to achieve more modes of operation.

Disclosure of Invention

The invention mainly aims to provide a multifunctional dehumidification integrated machine, a dehumidification system and a control method, and aims to solve the problems that the effect is poor and the required system structure is complex when dehydration temperature control treatment is carried out in a target space at present.

In order to achieve the above object, the present invention provides a multifunctional dehumidifying all-in-one machine, comprising:

the air outlet chamber is arranged at one end of the multifunctional dehumidification integrated machine in the length direction;

the main exhaust channel is arranged along the length direction of the multifunctional dehumidification integrated machine and communicated with the air outlet chamber, a first exhaust chamber and a second exhaust chamber which are mutually connected are arranged on the main exhaust channel, a first conduction valve is arranged between the first exhaust chamber and the second exhaust chamber, a second conduction valve is arranged between the second exhaust chamber and the air outlet chamber, and an air inlet window used for being connected to a target space is arranged on the first exhaust chamber;

the main dehumidification channel is parallel to the main exhaust channel and communicated with the air outlet chamber, a second heat exchanger part, a first air supply cavity, an aluminum foil heat exchanger assembly, a second air supply cavity and a first heat exchanger part are arranged on the main dehumidification channel, the second heat exchanger part is communicated with the air outlet chamber, the first air supply cavity is communicated with the second heat exchanger part, the first air supply cavity is communicated with the second exhaust cavity through the aluminum foil heat exchanger assembly, the second air supply cavity is communicated with the air outlet chamber through the aluminum foil heat exchanger assembly, the second air supply cavity is communicated with the first heat exchanger part, a third conduction valve is arranged between the second air supply cavity and the first exhaust cavity, and a fourth conduction valve used for conducting to the external environment is arranged on the first air supply cavity;

An air inlet of the first fan is communicated with the first heat exchanger part, and an air outlet of the first fan is used for being connected to a target space;

the second fan is arranged in the air outlet chamber, and the air outlet is led out of the air outlet chamber;

and the air conditioner working system is connected with the first heat exchanger part and the second heat exchanger part.

Further, a fifth conduction valve conducted to the external environment is arranged on the second air supply cavity.

Further, the first fan comprises a first air blower for acquiring the air quantity of the first fan, and the second fan comprises a second air blower for acquiring the air quantity of the second fan.

Further, the multifunctional dehumidifying integrated machine further comprises a controller, wherein the controller controls the first conduction valve, the second conduction valve, the third conduction valve, the fourth conduction valve, the fifth conduction valve, the first fan, the second fan and the air conditioner working system to work.

The invention also provides a dehumidification system which comprises the multifunctional dehumidification integrated machine, and the dehumidification system further comprises an internal temperature detection part and an internal humidity detection part; the internal temperature detection part and the internal humidity detection part are used for being arranged in a target space; the controller receives data of the internal temperature detecting portion and the internal humidity detecting portion.

Further, the dehumidification system further includes an external temperature detection portion and an external humidity detection portion: the external temperature detection part and the external humidity detection part are used for being arranged in an external environment; the controller receives data of the external temperature detecting section and the external humidity detecting section.

The invention also provides a control method which is applied to the dehumidification system and comprises the following steps:

s1, a preset heating mode control flow, a cooling mode control flow, a full-row mode control flow and a closed dehumidification mode control flow, wherein,

in the control flow of the heating mode, a first conduction valve is kept closed, a second conduction valve is kept closed, a fourth conduction valve is kept closed, a fifth conduction valve is kept closed, an aluminum foil heat exchanger component is kept closed, a third conduction valve is kept open, a fourth conduction valve is kept open, an air conditioner working system works, a first heat exchanger part has the effect of a condenser, and a first fan works;

in the cooling mode control flow, a first conduction valve is kept closed, a second conduction valve is kept closed, a fourth conduction valve is kept closed, a fifth conduction valve is kept closed, an aluminum foil heat exchanger component is kept closed, a third conduction valve is kept open, a fourth conduction valve is kept open, an air conditioner working system works, a first heat exchanger part is an evaporator effect, and a first fan works;

In the full-row mode control flow, the third conduction valve is kept closed, the fourth conduction valve is kept closed, the aluminum foil heat exchanger component is kept closed, the first conduction valve is kept open, the second conduction valve is kept open, the fifth conduction valve is kept open, and the first fan works;

in the closed dehumidification mode control flow, a second conduction valve is kept closed, a third conduction valve is kept closed, a fourth conduction valve is kept closed, a fifth conduction valve is kept closed, a first conduction valve is kept open, an aluminum foil heat exchanger component is kept open, an air conditioner working system works, a first heat exchanger part is a condenser effect, a second heat exchanger part is an evaporator effect, and a first fan works;

s2, when the data of the internal humidity detection part is in the ultra-high humidity range, starting a full-row mode control flow;

s3, when the data of the internal humidity detection part is in the humidity too high range, starting a full-row mode control flow and a closed dehumidification mode control flow;

s4, when the data of the internal humidity detection part is in a higher humidity range, starting a closed dehumidification mode control flow;

s5, when the data of the internal humidity detection part is within the humidity standard-reaching range, but the data of the internal temperature detection part is outside the temperature standard-reaching range, starting a heating mode control flow or a cooling mode control flow;

Wherein, humidity ultra-high range, humidity higher range, humidity up to standard range is the humidity range of ladder decline.

Further, the step of S3 includes:

when the data of the internal humidity detection part is in the humidity too high range, a full-row mode control flow and a closed dehumidification mode control flow are started, and the working strength of the first fan and the working strength of the second fan are adjusted according to the position of the data of the internal humidity detection part in the humidity too high range.

Further, the first fan includes a first air blower for acquiring an air volume thereof, the second fan includes a second air blower for acquiring an air volume thereof, and the step S3 includes:

when the data of the internal humidity detection part is in the humidity too high range, a full-row mode control flow and a closed dehumidification mode control flow are started, and the working strengths of the first fan and the second fan are adjusted according to the data of the internal humidity detection part, wherein the working strengths of the first fan and the second fan are respectively judged according to the first air volume device and the second air volume device.

Further, the step of S2 includes:

s1.1, presetting a direct air supply control flow, a cooling dehumidification air supply control flow and a heating air supply control flow in a full-row mode control flow, wherein,

In the direct air supply control flow, a third conduction valve is kept closed, a fourth conduction valve is kept closed, an aluminum foil heat exchanger component is kept closed, a first conduction valve is kept open, a second conduction valve is kept open, a fifth conduction valve is kept open, a first fan works, and an air conditioner working system does not work;

in the heating and air supply control flow, a third conduction valve is kept closed, a fourth conduction valve is kept closed, an aluminum foil heat exchanger component is kept closed, a first conduction valve is kept open, a second conduction valve is kept open, a fifth conduction valve is kept open, a first fan works, an air conditioner working system works, and a first heat exchanger part has the effect of a condenser;

the cooling, dehumidifying and air supplying control flow comprises the steps that a third conduction valve is kept closed, a fourth conduction valve is kept closed, an aluminum foil heat exchanger component is kept closed, a first conduction valve is kept open, a second conduction valve is kept open, a fifth conduction valve is kept open, a first fan works, an air conditioner working system works, and a first heat exchanger part is an evaporator effect;

s1.2, when the data of the external temperature detection part is in a standard temperature range, starting a direct air supply control flow;

s1.3, when the data of the external temperature detection part is lower than the standard temperature range, starting a heating and air supply control flow;

S1.4, when the data of the external temperature detection part is higher than the standard temperature range, starting a cooling, dehumidifying and air supply control flow.

According to the multifunctional dehumidification integrated machine, the dehumidification system and the control method, the air inlet window of the functional dehumidification integrated machine and the air outlet of the first fan can be connected to the target space through the air guide pipe respectively, so that the difficulty in erection is greatly reduced, and the difficulty in carrying to corresponding positions is avoided; the main exhaust channel, the main dehumidification channel and the interaction between the main exhaust channel and the main dehumidification channel form a plurality of working modes, and particularly a cooling mode, a heating mode, a full-exhaust mode, a closed dehumidification mode and an open dehumidification mode are realized, so that the working flexibility is greatly improved; the working modes of the multifunctional dehumidifying integrated machine are switched through the first conducting valve, the second conducting valve, the third conducting valve, the fourth conducting valve and the working adjustment of the air conditioner working system.

Drawings

FIG. 1 is a schematic perspective view (first view) of a multifunctional dehumidifying machine according to an embodiment of the present invention;

FIG. 2 is a schematic perspective view (second view) of a multifunctional dehumidifying machine according to an embodiment of the present invention;

FIG. 3 is a cross-sectional view of a multi-functional dehumidification all-in-one machine in accordance with one embodiment of the present invention;

FIG. 4 is a cross-sectional view (full row mode) of a multifunctional dehumidification integrated machine in accordance with one embodiment of the present invention;

FIG. 5 is a cross-sectional view (cooling mode or heating mode) of a multifunctional dehumidifying integrated machine according to an embodiment of the present invention;

FIG. 6 is a cross-sectional view of a multi-functional dehumidification all-in-one machine (closed dehumidification mode) in accordance with one embodiment of the present invention;

fig. 7 is a schematic view of a dehumidification system in accordance with a second embodiment of the present invention.

The achievement of the objects, functional features and advantages of the present invention will be further described with reference to the accompanying drawings, in conjunction with the embodiments.

Detailed Description

It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

As used herein, the singular forms "a", "an", "the" and "the" are intended to include the plural forms as well, unless expressly stated otherwise, as understood by those skilled in the art. It will be further understood that the terms "comprises" and/or "comprising," when used in this specification, specify the presence of stated features, integers, steps, operations, elements, units, modules, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, units, modules, components, and/or groups thereof. It will be understood that when an element is referred to as being "connected" or "coupled" to another element, it can be directly connected or coupled to the other element or intervening elements may also be present. Further, "connected" or "coupled" as used herein may include wirelessly connected or wirelessly coupled. The term "and/or" as used herein includes all or any element and all combination of one or more of the associated listed items.

It will be understood by those skilled in the art that all terms (including technical and scientific terms) used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs unless defined otherwise. It will be further understood that terms, such as those defined in commonly used dictionaries, should be interpreted as having a meaning that is consistent with their meaning in the context of the prior art and will not be interpreted in an idealized or overly formal sense unless expressly so defined herein.

Referring to fig. 1 to 6, in an embodiment of the present invention, a multifunctional dehumidifying all-in-one machine includes:

the air outlet chamber 100 is arranged at one end of the multifunctional dehumidification integrated machine in the 001 length direction;

a main exhaust channel 200, which is arranged along the length direction of the multifunctional dehumidification integrated machine 001 and is communicated with the air outlet chamber 100, wherein a first exhaust chamber 210 and a second exhaust chamber 220 which are mutually connected are arranged on the main exhaust channel 200, a first conducting valve 230 is arranged between the first exhaust chamber 210 and the second exhaust chamber 220, a second conducting valve 240 is arranged between the second exhaust chamber 220 and the air outlet chamber 100, and an air inlet window 211 used for being connected to a target space is arranged on the first exhaust chamber 210;

A main dehumidifying channel 300, parallel to the main air exhaust channel 200 and communicated to the air outlet chamber 100, a second heat exchanger portion 310, a first air supply chamber 320, an aluminum foil heat exchanger assembly 330, a second air supply chamber 340 and a first heat exchanger portion 350 are arranged on the main dehumidifying channel 300, the second heat exchanger portion 310 is communicated to the air outlet chamber 100, the first air supply chamber 320 is communicated to the second heat exchanger portion 310, the first air supply chamber 320 is communicated to the second air exhaust chamber 220 through the aluminum foil heat exchanger assembly 330, the second air supply chamber 340 is communicated to the air outlet chamber 100 through the aluminum foil heat exchanger assembly 330, a third conducting valve 360 is arranged between the second air supply chamber 340 and the first air exhaust chamber 210, and a fourth conducting valve 321 for conducting to the external environment is arranged on the first air supply chamber 320;

the air inlet of the first fan 400 is communicated with the first heat exchanger part 350, and the air outlet of the first fan 400 is used for being connected to a target space;

the second fan 500 is arranged in the air outlet chamber 100, and the air outlet is communicated with the outside of the air outlet chamber 100;

the air conditioning system 600 connects the first heat exchanger unit 350 and the second heat exchanger unit 310.

In the prior art, because the working principle of the air conditioner is limited, the dehumidifying effect cannot be provided when the temperature of the air is raised, and the dehumidifying effect is provided when the temperature of the air is lowered.

In the present invention, various operation modes are mainly formed by the main exhaust duct 200 and the main dehumidifying duct 300 and the interactions therebetween. The air inlet 211 of the multifunctional dehumidifying integrated machine 001 and the air outlet of the first fan 400 can be connected to a target space through air guide pipes respectively, and air suction and air supply to the target space are realized; the structure of the target space is not required to be modified, the erection difficulty is greatly reduced, and the difficulty of carrying to the corresponding position (such as a high floor or a small space) is avoided. The mode of use of the multifunctional dehumidification integrated machine 001 includes: cooling mode, heating mode, full row mode, closed dehumidification mode, open dehumidification mode.

The air outlet chamber 100 is disposed at one end of the multifunctional dehumidifying-integrated machine 001 in the length direction, which is not only similar to the installation of the second fan 500, but also plays a role in communication between the main air exhaust channel 200 and the main dehumidifying channel 300, and its name is not limited.

The main exhaust channel 200 mainly comprises a first exhaust cavity 210 and a second exhaust cavity 220 in space, a first conducting valve 230 is arranged between the first exhaust cavity 210 and the second exhaust cavity 220, a second conducting valve 240 is arranged between the second exhaust cavity 220 and the air outlet chamber 100, an air inlet window 211 used for being connected to a target space is arranged on the first exhaust cavity 210, and the specific use state of the main exhaust channel 200 can be adjusted by adjusting the conducting condition of the first conducting valve 230 and the second conducting valve 240.

The main dehumidifying channel 300 is parallel to the main air exhaust channel 200 and is communicated to the air outlet chamber 100, the main dehumidifying channel 300 is provided with a first heat exchanger portion 350 and a second heat exchanger portion 310, the corresponding air-conditioning working system 600 is communicated with the first heat exchanger portion 350 and the second heat exchanger portion 310, the air-conditioning working system 600 comprises a four-way valve, a compressor and the like, and the specific air-conditioning working system 600 can switch the states of the first heat exchanger portion 350 and the second heat exchanger portion 310 between the evaporator and the condenser by adjusting.

The main dehumidifying channel 300 mainly comprises a first air supply cavity 320, an aluminum foil heat exchanger assembly 330 and a second air supply cavity 340 in space, wherein the first air supply cavity 320 is communicated with the second air exhaust cavity 220 through the aluminum foil heat exchanger assembly 330, and the second air supply cavity 340 is communicated with the air outlet chamber 100 through the aluminum foil heat exchanger assembly 330. The aluminum foil heat exchanger assembly 330 has two passages therein isolated from each other but capable of performing sufficient heat exchange. The first path of the aluminum foil heat exchanger assembly 330 connects the first air supply chamber 320 with the second air exhaust chamber 220, and the second path of the aluminum foil heat exchanger assembly 330 connects the second air supply chamber 340 with the air outlet chamber 100. The first air supply chamber 320 is communicated with the second heat exchanger part 310, a third conduction valve 360 is arranged between the second air supply chamber 340 and the first air exhaust chamber 210, the second air supply chamber 340 is communicated with the first heat exchanger part 350, and a fourth conduction valve 321 used for conducting to the external environment is arranged on the first air supply chamber 320.

The air inlet of the first fan 400 communicates to the first heat exchanger portion 350 and the first fan 400 provides the power for the supply air into the target space.

The operation of each mode is described as follows:

referring to fig. 5, in the cool down mode and the warm up mode, the main exhaust duct 200 is not in communication with the external environment (the first and second pass valves 230 and 240 remain closed), the air inlet window 211 remains open, the third pass valve 360 remains open, the first fan 400 remains in operation, the air conditioning operation system 600 remains in operation, and the first heat exchanger portion 350 functions as an evaporator or a condenser; then the air in the target space passes through the suction negative pressure generated by the first fan 400, passes through the paths (the first exhaust chamber 210, the second air supply chamber 340 and the first fan 400) formed in the above process, and after passing through the temperature effect of the first heat exchanger part 350, the effect of temperature reduction and temperature increase is achieved. During operation of the air conditioning operation system 600, the fourth conduction valve 321 is kept open, and operation of the second fan 500 draws air from the external environment through the second heat exchanger portion 310, thereby completing the function.

Referring to fig. 4, in the full-row mode, the main dehumidifying channel 300 is closed (which may be achieved by closing the third conduction valve 360 and the aluminum foil heat exchanger assembly 330), the air inlet window 211 is maintained open, the first conduction valve 230 is maintained open, the second conduction valve 240 is maintained open, the second fan 500 is maintained in operation, the air-conditioning operating system 600 is not operated, and then the air in the target space is discharged to the external environment through the passages (the first air discharge chamber 210, the second air discharge chamber 220, the air discharge chamber 100 and the second fan 500) formed in the above process by the suction negative pressure generated by the second fan 500. In the process of performing the full-row mode, the target space needs to obtain new air from the external environment. The above manner of obtaining the new air from the external environment may be to open a window in the target space, or a fifth conducting valve 341 may be disposed on the second air supply chamber 340, and the air in the external environment enters the target space after passing through the fifth conducting valve 341, the second air supply chamber 340, the first heat exchanger portion 350, and the first fan 400 (may be to turn on the fan function or turn off the fan function).

Referring to fig. 6, in the closed dehumidifying mode, the air inlet window 211 is maintained open, the first conductive valve 230 is maintained open, the second conductive valve 240 is maintained closed, the third conductive valve 360 is maintained open, the aluminum foil heat exchanger assembly 330 is maintained in operation, the air conditioning working system 600 is maintained in operation (the first heat exchanger part 350 is used as an evaporator, the second heat exchanger part 310 is used as a condenser), and then the air in the target space is sucked under negative pressure by the first fan 400 through the paths (the first air discharge chamber 210, the second air discharge chamber 220, the aluminum foil heat exchanger assembly 330, the first air supply chamber 320, the second heat exchanger part 310, the air outlet chamber 100, the aluminum foil heat exchanger assembly 330, the second air supply chamber 340 and the first fan 400) formed in the above process, and is returned to the target space again, in which the purposes of dehumidification and temperature maintenance are achieved. Specifically, the hot and humid air in the target space passes through the aluminum foil heat exchanger assembly 330, and the heat is absorbed by the aluminum foil heat exchanger assembly 330; cooling and dehumidifying are achieved through the process of the second heat exchanger part 310; again through the aluminum foil heat exchanger assembly 330, a first warm-up is achieved; the second temperature increase is achieved by the first heat exchanger portion 350. In this process, the hot and humid air in the target space in the aluminum foil heat exchanger assembly 330 heats the dry and cool air exiting the second heat exchanger part 310, reducing the power consumption of the first and second heat exchanger parts 350 and 310.

In the open dehumidification mode, the third conduction valve 360 remains closed, and the main exhaust duct 200 performs the exhaust operation in the full-exhaust mode, while the multifunctional dehumidification integrated machine 001 performs the operation in the closed dehumidification mode.

In the operation of the above modes, the state switching of the first conduction valve 230, the second conduction valve 240, the third conduction valve 360, the fourth conduction valve 321 and the air conditioner operation system 600 may be performed manually, or the multifunctional dehumidifying integrated machine 001 is provided with a controller 700 for controlling the operation of all the devices. In particular, by controlling the states of the respective devices, the mode of the multifunctional dehumidifying integrated machine 001 may be parallel in some cases, and in practice, the open dehumidifying mode is that the closed dehumidifying mode and the full-row mode are simultaneously turned on, in other cases, the full-row mode and the cooling mode or the heating mode may be simultaneously performed, and the heating mode and the closed dehumidifying mode may be simultaneously performed.

In summary, the air inlet window 211 of the functional dehumidification integrated machine and the air outlet of the first fan 400 can be connected to the target space through air guide pipes respectively, so that the difficulty of erection is greatly reduced, and the difficulty of carrying to corresponding positions is avoided; the main exhaust channel 200, the main dehumidification channel 300 and the interaction between the two form a plurality of working modes, and particularly realize a cooling mode, a heating mode, a full-exhaust mode, a closed dehumidification mode and an open dehumidification mode, so that the working flexibility is greatly improved; the operation mode of the multifunctional dehumidifying integrated machine 001 is switched by the operation adjustment of the first conduction valve 230, the second conduction valve 240, the third conduction valve 360, the fourth conduction valve 321 and the air conditioner operation system 600.

In one embodiment, a fifth conducting valve 341 that is conducted to the external environment is disposed on the second air supplying chamber 340.

In the course of the full row mode, the target space needs to acquire new air from the external environment. The above way to obtain the new air from the external environment may be to window the target space, or to obtain the new air by the multifunctional dehumidifying integrated machine 001. The manner of supplying new air into the target space by using the multifunctional dehumidifying integrated machine 001 is also various (for example, an air suction opening is provided at the position of the second air supply chamber 340 or the first air supply chamber 320, or even the air outlet chamber 100). In this embodiment, a fifth conducting valve 341 is disposed on the second air supply chamber 340, and when new air needs to be supplied to the target space, air in the external environment enters the target space after passing through the fifth conducting valve 341, the second air supply chamber 340, the first heat exchanger portion 350, and the first fan 400 (which may be a fan function on or a fan function off). The above arrangement of the fifth conductive valve 341 has the advantage of convenient use, and can be used in combination with a cooling mode or a heating mode, and can also play a dehumidifying effect on new air in the cooling mode.

In one embodiment, the first fan 400 includes a first air blower for taking an air volume thereof, and the second fan 500 includes a second air blower for taking an air volume thereof.

In the embodiment, the first air volume device and the second air volume device work to realize the accurate control of the air exhaust and the air supply of the multifunctional dehumidification integrated machine 001, and particularly when the air exhaust and the air supply are jointly acted in multiple modes, the information of the air volumes is significant.

In one embodiment, the multifunctional dehumidifying integrated machine further comprises a controller 700, and the controller 700 controls the operations of the first conductive valve 230, the second conductive valve 240, the third conductive valve 360, the fourth conductive valve 321, the fifth conductive valve 341, the first fan 400, the second fan 500, and the air-conditioning operation system 600.

In this embodiment, the controller 700 controls each device so that the multifunctional dehumidifying integrated machine 001 can switch between a cooling mode, a heating mode, a full-row mode, a closed dehumidifying mode and an open dehumidifying mode. Particularly, if the multifunctional dehumidification integrated machine 001 is matched, a plurality of sensors are arranged in the target space, and intelligent control of the multifunctional dehumidification integrated machine 001 can be improved.

Referring to fig. 7, the present invention also provides a dehumidifying system comprising the above-described multifunctional dehumidifying integrated machine, the dehumidifying system further comprising an internal temperature detecting portion 810 and an internal humidity detecting portion 820; the internal temperature detecting part 810 and the internal humidity detecting part 820 are configured to be disposed in a target space; the controller 700 receives data of the internal temperature sensing part 810 and the internal humidity sensing part 820.

In the present embodiment, the operation of the multifunctional dehumidifying integrated machine 001 can be self-adapted to the humidity and temperature environment in the target space by the arrangement of the internal temperature detecting part 810 and the internal humidity detecting part 820. Specifically, according to the temperature and humidity environment in the target space reaching the standard, corresponding one of a cooling mode, a heating mode, a full-row mode, a closed dehumidification mode and an open dehumidification mode is started according to the demand control, or when the temperature and humidity environment in the target space reach the standard, the function of the multifunctional dehumidification all-in-one machine 001 is paused. The number of the internal temperature detecting units 810 and the internal humidity detecting units 820 is not limited to one, and the consideration of the installation positions is based on the accurate acquisition of the temperature and humidity information in the target space, and accordingly, the method for processing the data of the internal temperature detecting units 810 and the internal humidity detecting units 820 may be integrated.

In one embodiment, the dehumidification system further comprises an external temperature detection portion 910 and an external humidity detection portion 920: the external temperature detecting part 910 and the external humidity detecting part 920 are used for being disposed in the external environment; the controller 700 receives data of the external temperature detecting part 910 and the external humidity detecting part 920.

In the foregoing embodiment, the multifunctional dehumidifying all-in-one machine 001 is mainly used to completely treat (temperature and humidity) the air environment in the target space by the multifunctional dehumidifying all-in-one machine 001. In this embodiment, the dehumidification system also monitors temperature and humidity information of air in the external environment, and if parameters of air in the external environment meet the required conditions, air in the external environment can be utilized in the whole row process. Correspondingly, according to different control methods, the air in the external environment can be fed into the target space in a mode of direct air supply, cooling, dehumidifying and heating.

The invention also provides a control method which is applied to the dehumidification system and comprises the following steps:

s1, a preset heating mode control flow, a cooling mode control flow, a full-row mode control flow and a closed dehumidification mode control flow, wherein,

In the temperature raising mode control flow, the first conduction valve 230 is kept closed, the second conduction valve 240 is kept closed, the fourth conduction valve 321 is kept closed, the fifth conduction valve 341 is kept closed, the aluminum foil heat exchanger assembly 330 is kept closed, the third conduction valve 360 is kept open, the fourth conduction valve 321 is kept open, the air conditioner working system 600 works, the first heat exchanger part 350 is a condenser function, and the first fan 400 works;

in the cooling mode control flow, the first conduction valve 230 is kept closed, the second conduction valve 240 is kept closed, the fourth conduction valve 321 is kept closed, the fifth conduction valve 341 is kept closed, the aluminum foil heat exchanger assembly 330 is kept closed, the third conduction valve 360 is kept open, the fourth conduction valve 321 is kept open, the air conditioner working system 600 works, the first heat exchanger part 350 is an evaporator function, and the first fan 400 works;

in the full-row mode control flow, the third conduction valve 360 is kept closed, the fourth conduction valve 321 is kept closed, the aluminum foil heat exchanger assembly 330 is kept closed, the first conduction valve 230 is kept open, the second conduction valve 240 is kept open, the fifth conduction valve 341 is kept open, and the first fan 400 works;

in the closed dehumidification mode control process, the second conduction valve 240 remains closed, the third conduction valve 360 remains closed, the fourth conduction valve 321 remains closed, the fifth conduction valve 341 remains closed, the first conduction valve 230 remains open, the aluminum foil heat exchanger assembly 330 remains open, the air conditioning operating system 600 operates, the first heat exchanger portion 350 is a condenser effect, the second heat exchanger portion 310 is an evaporator effect, and the first blower 400 operates;

S2, when the data of the internal humidity detection part 820 is in the ultra-high humidity range, starting a full-row mode control flow;

s3, when the data of the internal humidity detection part 820 is in the humidity too high range, starting a full-row mode control flow and a closed dehumidification mode control flow;

s4, when the data of the internal humidity detection part 820 is in a higher humidity range, starting a closed dehumidification mode control process;

s5, when the data of the internal humidity detection part 820 is within the humidity standard-reaching range, but the data of the internal temperature detection part 810 is outside the temperature standard-reaching range, starting a temperature rise mode control flow or a temperature reduction mode control flow;

wherein, humidity ultra-high range, humidity higher range, humidity up to standard range is the humidity range of ladder decline.

In the step S1, the heating mode control flow, the cooling mode control flow, the full-row mode control flow and the closed dehumidification mode control flow are all corresponding to fixed operation actions, and specifically in the corresponding control flow, the opening and closing states of each device are controlled according to the setting.

In the steps S2 to S5, several logic judgment conditions are provided, and the specific judgment mode is based on the test result of the internal humidity detection part 820, and four stepped-down humidity ranges of an ultra-high humidity range, a higher humidity range and a humidity standard reaching range are set at the same time, so that the ranges of four different dehumidification urgency are specifically expressed.

In the step S2, when the data of the internal humidity detection part 820 is within the ultra-high humidity range, the full-row mode control flow is started, that is, the air in the target space is completely replaced with the fastest speed in the initial drying stage or the abnormal stage. In the full-row mode, the main dehumidifying channel 300 is closed (which may be achieved by closing the third conduction valve 360 and the aluminum foil heat exchanger assembly 330), the air inlet window 211 is maintained open, the first conduction valve 230 is maintained open, the second conduction valve 240 is maintained open, the second fan 500 is maintained working, the air-conditioning working system 600 is not working, and then the air in the target space is discharged to the external environment through the passages (the first air discharge chamber 210, the second air discharge chamber 220, the air discharge chamber 100 and the second fan 500) formed in the above process by the suction negative pressure generated by the second fan 500. It should be noted that, in the process of performing the full-row mode, the target space needs to obtain new air from the external environment, and the air in the external environment enters the target space after passing through the fifth conducting valve 341, the second air supply chamber 340, the first heat exchanger portion 350, and the first fan 400 (may be to turn on the fan function or turn off the fan function).

Before the step S3, the step S4 is described, and in the step S4, the data of the internal humidity detection unit 820 indicates that the humidity condition in the target space is in the higher humidity range and is closer to the humidity standard reaching range, and then the closed dehumidification mode control procedure is started. In the closed dehumidifying mode, the air inlet window 211 is kept open, the first conduction valve 230 is kept open, the second conduction valve 240 is kept closed, the third conduction valve 360 is kept open, the aluminum foil heat exchanger assembly 330 is kept working, the air conditioning working system 600 is kept working (the first heat exchanger part 350 is used as an evaporator, the second heat exchanger part 310 is used as a condenser), then the air in the target space is sucked negative pressure by the first fan 400, and the air returns to the target space again through the passages (the first air exhaust cavity 210, the second air exhaust cavity 220, the aluminum foil heat exchanger assembly 330, the first air supply cavity 320, the second heat exchanger part 310, the air outlet chamber 100, the aluminum foil heat exchanger assembly 330, the second air supply cavity 340 and the first fan 400) formed in the above process, and the purposes of dehumidifying and maintaining temperature are achieved in the process. Specifically, the hot and humid air in the target space passes through the aluminum foil heat exchanger assembly 330, and the heat is absorbed by the aluminum foil heat exchanger assembly 330; cooling and dehumidifying are achieved through the process of the second heat exchanger part 310; again through the aluminum foil heat exchanger assembly 330, a first warm-up is achieved; the second temperature increase is achieved by the first heat exchanger portion 350. In this process, the hot and humid air in the target space in the aluminum foil heat exchanger assembly 330 heats the dry and cool air exiting the second heat exchanger part 310, reducing the power consumption of the first and second heat exchanger parts 350 and 310.

In step S3, when the data of the internal humidity detecting unit 820 is within the humidity too high range, the full-row mode control flow and the closed dehumidification mode control flow, that is, the open dehumidification mode, are started, that is, the air in the target space is discharged to the external environment, and the dehumidification process is performed on the air in the target space. In the open dehumidification mode, the third conduction valve 360 remains closed, and the main exhaust duct 200 performs the exhaust operation in the full-exhaust mode, while the multifunctional dehumidification integrated machine 001 performs the operation in the closed dehumidification mode, which is equivalent to performing the operations in steps S2 and S4 simultaneously.

In the step S5, if the humidity has reached the standard, only the temperature treatment is needed, and in the cooling mode and the heating mode, the main exhaust duct 200 is not in communication with the external environment (the first conduction valve 230 and the second conduction valve 240 are kept closed), the air inlet window 211 is kept open, the third conduction valve 360 is kept open, the first fan 400 is kept working, the air conditioning working system 600 is kept working, and the first heat exchanger portion 350 is used as an evaporator or a condenser; then the air in the target space passes through the suction negative pressure generated by the first fan 400, passes through the paths (the first exhaust chamber 210, the second air supply chamber 340 and the first fan 400) formed in the above process, and after passing through the temperature effect of the first heat exchanger part 350, the effect of temperature reduction and temperature increase is achieved. During operation of the air conditioning operation system 600, the fourth conduction valve 321 is kept open, and operation of the second fan 500 draws air from the external environment through the second heat exchanger portion 310, thereby completing the function.

In one embodiment, the step of S3 includes:

when the data of the internal humidity detection unit 820 is within the humidity too high range, the full-row mode control flow and the closed dehumidification mode control flow are started, and the working intensity of the first fan 400 and the second fan 500 is adjusted according to the position of the data of the internal humidity detection unit 820 within the humidity too high range.

In the embodiment, the open dehumidification mode in step S3 is specifically limited, firstly, the open dehumidification mode is that the full-row mode control flow and the closed dehumidification mode control flow are performed simultaneously, however, the duty ratio of the two modes is also important for the whole control method, in the embodiment, the dehumidification system can play a more effective role at this time by the position of the data of the internal humidity detection part 820 in the humidity too high range, for example, the data of the internal humidity detection part 820 shows an upper limit value (too high humidity) which is closer to the humidity too high range, so that the working strength of the second fan 500 is improved relative to the first fan 400, and the efficiency of the full-row mode control flow is stronger at this time; the data of the internal humidity detecting portion 820, which is opposite, shows that the lower limit value of the humidity too high range (the humidity is relatively smaller), reduces the working strength of the second fan 500 relative to the first fan 400, and the closed dehumidification mode control process has a stronger effect, so that the dehumidification system can function more effectively.

In one embodiment, the first fan 400 includes a first air blower for acquiring an air volume thereof, the second fan 500 includes a second air blower for acquiring an air volume thereof, and the step of S3 includes:

when the data of the internal humidity detection portion 820 is within the humidity too high range, the full-row mode control flow and the closed dehumidification mode control flow are started, and the working intensities of the first fan 400 and the second fan 500 are adjusted according to the data of the internal humidity detection portion 820, wherein the working intensities of the first fan 400 and the second fan 500 are respectively determined according to the first air volume device and the second air volume device.

Compared to the foregoing embodiments, in this embodiment, the working strengths of the first fan 400 and the second fan 500 are reflected by the first air blower and the second air blower, which has more precise characteristics.

In one embodiment, the step of S2 includes:

s1.1, presetting a direct air supply control flow, a cooling dehumidification air supply control flow and a heating air supply control flow in a full-row mode control flow, wherein,

in the direct air supply control flow, the third conduction valve 360 is kept closed, the fourth conduction valve 321 is kept closed, the aluminum foil heat exchanger component 330 is kept closed, the first conduction valve 230 is kept open, the second conduction valve 240 is kept open, the fifth conduction valve 341 is kept open, the first fan 400 works, and the air conditioner working system 600 does not work;

In the heating and air supply control flow, the third conduction valve 360 is kept closed, the fourth conduction valve 321 is kept closed, the aluminum foil heat exchanger component 330 is kept closed, the first conduction valve 230 is kept open, the second conduction valve 240 is kept open, the fifth conduction valve 341 is kept open, the first fan 400 works, the air conditioner working system 600 works, and the first heat exchanger part 350 is a condenser effect;

in the cooling, dehumidifying and air supplying control flow, the third conducting valve 360 is kept closed, the fourth conducting valve 321 is kept closed, the aluminum foil heat exchanger assembly 330 is kept closed, the first conducting valve 230 is kept open, the second conducting valve 240 is kept open, the fifth conducting valve 341 is kept open, the first fan 400 works, the air conditioner working system 600 works, and the first heat exchanger part 350 is an evaporator effect;

s1.2, when the data of the external temperature detection part 910 is in the standard temperature range, starting a direct air supply control flow;

s1.3, when the data of the external temperature detection part 910 is lower than the standard temperature range, starting a temperature rise and air supply control flow;

s1.4, when the data of the external temperature detection part 910 is higher than the standard temperature range, the cooling, dehumidifying and air supply control flow is started.

In this embodiment, the full-row mode control flow is further divided, specifically including a direct air supply control flow, a cooling dehumidification air supply control flow, and a heating air supply control flow, where the reasons for the three control flows are that the temperature of the outside ambient air fluctuates, and the difference between the air temperature of the outside ambient and the standard temperature range is offset by using the function of the first heat exchanger portion 350, so as to implement a better full-row mode control flow. Of course, the data of the external humidity detecting unit 920 can also be referenced to a certain extent, and when the humidity of the external ambient air is high, the corresponding full-line mode control flow needs to be started carefully, especially when the temperature is low while the humidity of the external ambient air is high. The efficiency optimization of the full-row mode control flow is realized through the distinction among the direct air supply control flow, the cooling dehumidification air supply control flow and the heating air supply control flow.

In summary, according to the multifunctional dehumidification integrated machine, the dehumidification system and the control method provided by the invention, the air inlet 211 of the functional dehumidification integrated machine and the air outlet of the first fan 400 can be connected to the target space through the air guide pipe respectively, so that the difficulty in erection is greatly reduced, and the difficulty in carrying to the corresponding position is avoided; the main exhaust channel 200, the main dehumidification channel 300 and the interaction between the two form a plurality of working modes, and particularly realize a cooling mode, a heating mode, a full-exhaust mode, a closed dehumidification mode and an open dehumidification mode, so that the working flexibility is greatly improved; the operation mode of the multifunctional dehumidifying integrated machine 001 is switched by the operation adjustment of the first conduction valve 230, the second conduction valve 240, the third conduction valve 360, the fourth conduction valve 321 and the air conditioner operation system 600.

The foregoing description is only of the preferred embodiments of the present invention and is not intended to limit the scope of the invention, and all equivalent structures or equivalent processes using the descriptions and drawings of the present invention or directly or indirectly applied to other related technical fields are included in the scope of the invention.

Claims (10)

1. The utility model provides a multi-functional dehumidification all-in-one which characterized in that includes:

the air outlet chamber is arranged at one end of the multifunctional dehumidification integrated machine in the length direction;

the main exhaust channel is arranged along the length direction of the multifunctional dehumidification integrated machine and communicated with the air outlet chamber, a first exhaust chamber and a second exhaust chamber which are mutually connected are arranged on the main exhaust channel, a first conduction valve is arranged between the first exhaust chamber and the second exhaust chamber, a second conduction valve is arranged between the second exhaust chamber and the air outlet chamber, and an air inlet window used for being connected to a target space is arranged on the first exhaust chamber;

the main dehumidification channel is parallel to the main exhaust channel and communicated with the air outlet chamber, a second heat exchanger part, a first air supply cavity, an aluminum foil heat exchanger assembly, a second air supply cavity and a first heat exchanger part are arranged on the main dehumidification channel, the second heat exchanger part is communicated with the air outlet chamber, the first air supply cavity is communicated with the second heat exchanger part, the first air supply cavity is communicated with the second exhaust cavity through the aluminum foil heat exchanger assembly, the second air supply cavity is communicated with the air outlet chamber through the aluminum foil heat exchanger assembly, the second air supply cavity is communicated with the first heat exchanger part, a third conduction valve is arranged between the second air supply cavity and the first exhaust cavity, and a fourth conduction valve used for conducting to the external environment is arranged on the first air supply cavity;

An air inlet of the first fan is communicated with the first heat exchanger part, and an air outlet of the first fan is used for being connected to a target space;

the second fan is arranged in the air outlet chamber, and the air outlet is led out of the air outlet chamber;

and the air conditioner working system is connected with the first heat exchanger part and the second heat exchanger part.

2. The multifunctional dehumidifying all-in-one machine of claim 1, wherein a fifth conduction valve which is conducted to the external environment is arranged on the second air supply cavity.

3. The multifunctional dehumidifying all-in-one machine of claim 2, wherein the first fan comprises a first air blower for acquiring the air quantity thereof, and the second fan comprises a second air blower for acquiring the air quantity thereof.

4. A multifunctional dehumidifying all-in-one machine as claimed in claim 2 or 3, further comprising a controller controlling the operation of the first, second, third, fourth, fifth, first, second and air conditioning operation systems.

5. A dehumidification system, characterized in that it comprises the multifunctional dehumidification integrated machine of claim 4, further comprising an internal temperature detection portion and an internal humidity detection portion; the internal temperature detection part and the internal humidity detection part are used for being arranged in a target space; the controller receives data of the internal temperature detecting portion and the internal humidity detecting portion.

6. The dehumidification system of claim 5, further comprising an external temperature detection portion and an external humidity detection portion: the external temperature detection part and the external humidity detection part are used for being arranged in an external environment; the controller receives data of the external temperature detecting section and the external humidity detecting section.

7. A control method applied to the dehumidification system according to claim 5, comprising:

s1, a preset heating mode control flow, a cooling mode control flow, a full-row mode control flow and a closed dehumidification mode control flow, wherein,

in the control flow of the heating mode, a first conduction valve is kept closed, a second conduction valve is kept closed, a fourth conduction valve is kept closed, a fifth conduction valve is kept closed, an aluminum foil heat exchanger component is kept closed, a third conduction valve is kept open, a fourth conduction valve is kept open, an air conditioner working system works, a first heat exchanger part has the effect of a condenser, and a first fan works;

in the cooling mode control flow, a first conduction valve is kept closed, a second conduction valve is kept closed, a fourth conduction valve is kept closed, a fifth conduction valve is kept closed, an aluminum foil heat exchanger component is kept closed, a third conduction valve is kept open, a fourth conduction valve is kept open, an air conditioner working system works, a first heat exchanger part is an evaporator effect, and a first fan works;

In the full-row mode control flow, the third conduction valve is kept closed, the fourth conduction valve is kept closed, the aluminum foil heat exchanger component is kept closed, the first conduction valve is kept open, the second conduction valve is kept open, the fifth conduction valve is kept open, and the first fan works;

in the closed dehumidification mode control flow, a second conduction valve is kept closed, a third conduction valve is kept closed, a fourth conduction valve is kept closed, a fifth conduction valve is kept closed, a first conduction valve is kept open, an aluminum foil heat exchanger component is kept open, an air conditioner working system works, a first heat exchanger part is a condenser effect, a second heat exchanger part is an evaporator effect, and a first fan works;

s2, when the data of the internal humidity detection part is in the ultra-high humidity range, starting a full-row mode control flow;

s3, when the data of the internal humidity detection part is in the humidity too high range, starting a full-row mode control flow and a closed dehumidification mode control flow;

s4, when the data of the internal humidity detection part is in a higher humidity range, starting a closed dehumidification mode control flow;

s5, when the data of the internal humidity detection part is within the humidity standard-reaching range, but the data of the internal temperature detection part is outside the temperature standard-reaching range, starting a heating mode control flow or a cooling mode control flow;

Wherein, humidity ultra-high range, humidity higher range, humidity up to standard range is the humidity range of ladder decline.

8. The control method according to claim 7, characterized in that the step of S3 includes:

when the data of the internal humidity detection part is in the humidity too high range, a full-row mode control flow and a closed dehumidification mode control flow are started, and the working strength of the first fan and the working strength of the second fan are adjusted according to the position of the data of the internal humidity detection part in the humidity too high range.

9. The control method according to claim 7, wherein the first fan includes a first air blower for acquiring an air volume thereof, the second fan includes a second air blower for acquiring an air volume thereof, and the step S3 includes:

when the data of the internal humidity detection part is in the humidity too high range, a full-row mode control flow and a closed dehumidification mode control flow are started, and the working strengths of the first fan and the second fan are adjusted according to the data of the internal humidity detection part, wherein the working strengths of the first fan and the second fan are respectively judged according to the first air volume device and the second air volume device.

10. The control method according to claim 7, characterized in that the step of S2 includes:

s1.1, presetting a direct air supply control flow, a cooling dehumidification air supply control flow and a heating air supply control flow in a full-row mode control flow, wherein,

in the direct air supply control flow, a third conduction valve is kept closed, a fourth conduction valve is kept closed, an aluminum foil heat exchanger component is kept closed, a first conduction valve is kept open, a second conduction valve is kept open, a fifth conduction valve is kept open, a first fan works, and an air conditioner working system does not work;

in the heating and air supply control flow, a third conduction valve is kept closed, a fourth conduction valve is kept closed, an aluminum foil heat exchanger component is kept closed, a first conduction valve is kept open, a second conduction valve is kept open, a fifth conduction valve is kept open, a first fan works, an air conditioner working system works, and a first heat exchanger part has the effect of a condenser;

the cooling, dehumidifying and air supplying control flow comprises the steps that a third conduction valve is kept closed, a fourth conduction valve is kept closed, an aluminum foil heat exchanger component is kept closed, a first conduction valve is kept open, a second conduction valve is kept open, a fifth conduction valve is kept open, a first fan works, an air conditioner working system works, and a first heat exchanger part is an evaporator effect;

S1.2, when the data of the external temperature detection part is in a standard temperature range, starting a direct air supply control flow;

s1.3, when the data of the external temperature detection part is lower than the standard temperature range, starting a heating and air supply control flow;

s1.4, when the data of the external temperature detection part is higher than the standard temperature range, starting a cooling, dehumidifying and air supply control flow.