CN110701694A - Multifunctional dehumidifying device and using method thereof - Google Patents

Abstract

The invention discloses a multifunctional dehumidifying device and a using method thereof. The multifunctional dehumidifying device comprises a dehumidifying module and an air supply module, wherein the dehumidifying module comprises a first shell, and a compressor, a condenser, a throttling device and an evaporator which are arranged in the first shell, the front end part and the rear end part of the first shell are correspondingly provided with a first air outlet and a first air inlet, and the evaporator and the condenser are sequentially arranged between the first air inlet and the first air outlet; the air supply module comprises a second shell and a centrifugal fan arranged in the second shell, a second air inlet is formed in the rear end part of the second shell, a second air outlet is formed in the side part of the second shell, and the centrifugal fan is arranged between the second air inlet and the second air outlet; the second shell is detachably arranged on the first shell; after the second shell is installed on the first shell, the first air outlet is connected with the second air inlet. The multifunctional dehumidifying device is diversified in function, the running energy consumption is reduced, and the user experience is improved.

Description

Multifunctional dehumidifying device and using method thereof

Technical Field

The invention relates to the technical field of household appliances, in particular to a multifunctional dehumidifying device and a using method thereof.

Background

At present, the dehumidifier is by extensive being applied to in people's daily life, and the dehumidifier among the prior art generally pastes including compressor, condenser and the evaporimeter that link together, and condenser and evaporimeter are leaned on and are leaned on together, and under the effect of fan, the outside air passes through evaporimeter and condenser in proper order, and moisture in the outside air passes through the evaporimeter refrigeration earlier and forms the comdenstion water, realizes the dehumidification through the dry air of condenser heating output. However, under the condition that the indoor environment humidity is not high, when a user needs to start the fan to blow air, the air resistance generated by the evaporator and the condenser affects the air resistance, so that the air outlet efficiency in the fan mode is low, the noise is high, and the energy consumption is increased. How to design a dehumidifier with diversified functions to reduce operation energy consumption and improve user experience is a technical problem to be solved by the invention.

Disclosure of Invention

The invention provides a multifunctional dehumidifying device and a using method thereof, which are used for realizing the function diversification of the multifunctional dehumidifying device, reducing the operation energy consumption and improving the user experience.

In order to achieve the technical purpose, the invention adopts the following technical scheme:

a multifunctional dehumidifying device is characterized by comprising a dehumidifying module and an air supply module, wherein the dehumidifying module comprises a first shell, and a compressor, a condenser, a throttling device and an evaporator which are arranged in the first shell and sequentially connected, a first air outlet and a first air inlet are correspondingly arranged at the front end part and the rear end part of the first shell, and the evaporator and the condenser are sequentially arranged between the first air inlet and the first air outlet; the air supply module comprises a second shell and a centrifugal fan arranged in the second shell, a second air inlet is formed in the rear end part of the second shell, a second air outlet is formed in the side part of the second shell, and the centrifugal fan is arranged between the second air inlet and the second air outlet; the second shell is detachably arranged on the first shell; and after the second shell is arranged on the first shell, the first air outlet is connected with the second air inlet.

Furthermore, the second air inlet is provided with an air inlet grille, and an adjustable air deflector is arranged in the second air outlet.

Furthermore, a sliding rail is arranged on the first shell, and a sliding groove matched with the sliding rail is arranged on the second shell.

Furthermore, a locking part used for locking the second shell is arranged on the first shell, and a locking matching part matched with the locking part is arranged on the second shell.

Furthermore, the locking part is a threaded hole formed in the first shell, and the locking matching part is a bolt rotatably arranged on the second shell; or, the locking part is arranged on a lock seat on the first shell, the locking matching part is arranged on a hasp on the second shell, and the lock seat is matched with the hasp to form a hasp lock.

Furthermore, be provided with the power cord that is used for connecting external power source on the second shell, still be provided with the power supply terminal that is used for outwards supplying power on the second shell, be provided with on the first shell be used for with power supply terminal complex connects electrical terminal.

Furthermore, the periphery of the first air outlet is provided with an annular slot, and the periphery of the second air inlet is provided with an annular wind shield; the annular wind deflector is inserted into the annular slot after the second housing is mounted on the first housing.

Further, a temperature sensor is arranged at the first air outlet, and an electric heating part is arranged between the condenser and the first air outlet; the bottom of evaporimeter is provided with the water collector, still be provided with holding water box in the first shell, the water collector lead to pipe with holding water box connects, still be provided with the semiconductor refrigeration piece in the holding water box, a surface of semiconductor refrigeration piece is provided with first heat pipe, first heat pipe stretch out to holding water box's outside extends to first air outlet department, a surface of semiconductor refrigeration piece is provided with the second heat pipe, the second heat pipe extends to holding water box's bottom.

Further, a one-way water valve is arranged between the water receiving tray and the heat preservation water tank; the top of holding water box still is provided with the blast pipe, the blast pipe extends to evaporimeter department, and, the exhaust hole orientation of blast pipe the air inlet face of evaporimeter.

The invention also provides a using method of the multifunctional dehumidifying device, which comprises the following steps: a dehumidification mode and a single blow mode;

in a dehumidification mode, the second shell is arranged on the first shell, and outside air enters the first shell from the first air inlet, sequentially passes through the evaporator and the condenser, enters the second shell and is finally output from the second air outlet;

in the single blowing mode, the second housing is detached from the first housing, and the outside air enters the second housing from the second air inlet and is finally output from the second air outlet.

Compared with the prior art, the invention has the advantages and positive effects that: through adopting removable assecmbly's dehumidification module and air supply module, as required, under the dehumidification mode, the dehumidification module is assembled with the air supply module and is used together, realize carrying out the dehumidification operation to the room air, and when needs air feed alone, the air supply module can be followed and is dismantled down the exclusive use from the dehumidification module, thus, the air of shell can directly enter into in the air feed module and can not be influenced by the produced windage of dehumidification module condenser and evaporimeter, realize multi-functional dehydrating unit function diversification, and reduce the operation energy consumption and improve user experience nature.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of a multifunctional dehumidifying apparatus according to an embodiment of the present invention.

Fig. 2 is an exploded view of an embodiment of the multifunctional dehumidifying apparatus of the present invention.

Fig. 3 is a sectional view of an embodiment of the multi-functional dehumidifying apparatus of the present invention.

Fig. 4 is a partially enlarged view of the area a in fig. 3.

FIG. 5 is a schematic structural diagram of an air blowing module in an embodiment of the multifunctional dehumidifying apparatus of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1-5, the multifunctional dehumidifying device of the present embodiment includes a dehumidifying module 100 and an air supply module 200, where the dehumidifying module 100 includes a first housing 1, and a compressor 2, a condenser 3, a throttling device, and an evaporator 4 which are disposed in the first housing 1 and sequentially connected to each other, the first housing 1 is provided with a first air inlet 11 and a first air outlet 12, and the evaporator 4 and the condenser 3 are sequentially disposed between the first air inlet 11 and the first air outlet 12; the air supply module 200 comprises a second housing 5 and a centrifugal fan 6 arranged in the second housing 5, a second air inlet 51 is arranged at the rear end of the second housing, a second air outlet 52 is arranged at the side of the second housing, and the centrifugal fan 6 is arranged between the second air inlet 51 and the second air outlet 52; the second shell 5 is detachably arranged on the first shell 1; after the second housing 5 is mounted on the first housing 1, the first air outlet 12 is connected to the second air inlet 51.

Specifically, the multifunctional dehumidifying apparatus of the present embodiment includes a dehumidifying module 100 and an air blowing module 200 which can be disassembled and assembled, so that a user can use the multifunctional dehumidifying apparatus according to actual use requirements, the dehumidifying module 100 and the air supply module 200 can be installed together for dehumidification, or the air supply module 200 can be detached from the dehumidifying module 100 and used independently for independent air supply, when the air supply module 200 is used alone, after the centrifugal fan 6 in the air supply module 200 is powered on, the outside air can directly enter the second housing 5 from the second air inlet 51 and is output from the second air outlet 52 by the centrifugal fan 6, thus, the defect of large wind resistance and high energy consumption of the independent air supply of the dehumidifier in the prior art can be overcome, and, when the air supply module 200 is used alone, the volume of the air supply module 200 is smaller, so that a user can conveniently use the air supply module as a fan, and the user experience is improved. In order to conveniently disassemble and assemble the dehumidification module 100 and the air supply module 200, the first housing 1 is provided with the slide rail 13, the second housing 5 is provided with the slide groove 53 matched with the slide rail, the second housing 5 is assembled on the first housing 1 by matching the slide rail 13 with the slide groove 53, and the second housing 5 can be disassembled from the first housing 1 smoothly in a sliding manner. In order to limit the second housing 5 mounted on the first housing 1 well, the cross section of the slide rail 13 is L-shaped, i-shaped, or T-shaped. In addition, after the second housing 51 is mounted on the first housing 1, a locking portion for locking the second housing 5 is provided on the first housing 1, and a locking engagement portion for engaging with the locking portion is provided on the second housing 5, specifically, after the second housing 5 is mounted on the first housing 1 by the slide rail 13, the second housing 5 is connected with the locking engagement portion by the locking portion, so that the second housing 5 is firmly fixed on the first housing 1, and the locking portion and the locking engagement portion are embodied in various forms, the locking portion is a threaded hole (not marked) opened on the first housing 1, and the locking engagement portion is a bolt (not marked) rotatably provided on the second housing 5; or, the locking part is a lock seat (not marked) arranged on the first housing 1, the locking matching part is a hasp (not marked) arranged on the second housing 5, and the lock seat and the hasp are matched to form a hasp lock.

Since the centrifugal fan 6 is adopted, the second air outlet of the second housing 5 can be disposed at the top of the second housing 5, and in order to facilitate controlling the air supply direction, the second air inlet 51 is provided with an air inlet grille 511, and the second air outlet 52 is provided with an adjustable air deflector 521. Specifically, the air inlet grille 511 is shielded at the second air inlet 51, so that the user can be prevented from operating by mistake to insert a hand into the second air inlet 51, and the use safety is improved, and the air deflector 521 arranged at the second air outlet 52 can guide the air output from the second air outlet 52, so that the air supply is ensured to face the area set by the user. The air deflector 521 may be electrically adjusted or manually adjusted, and the specific structure may refer to an air guiding structure configured at an air supply outlet of an air conditioner, which is not described again.

Further, for the convenience of realizing the power supply requirements in the dehumidification mode and the single air supply mode, a power line (not shown) for connecting an external power supply is arranged on the second housing 5, a power supply terminal 54 for supplying power to the outside is further arranged on the second housing 5, and the first housing 1 is provided with an electric connection terminal 14 for being matched with the power supply terminal 54. Specifically, in the dehumidification mode, a power line can be connected to a power supply socket for household use of a user to connect with commercial power, the power line will be led in to supply power to relevant electric components in the first housing 5, and the power line will be led in to supply power to relevant electric components in the first housing 1 through the power supply terminal 54 and the electric connection terminal 14; in the single blowing mode, the second housing 5 is detached from the first housing 1, and the plug of the power cord is directly connected to the household power strip of the user to connect with the commercial power, so as to satisfy the power consumption requirement of the air supply module 200 used alone.

Furthermore, since the second housing 5 can be detached from the first housing 1, in order to ensure that air leakage at the connection portion between the first housing 1 and the second housing 5 is avoided in the dehumidification mode, the circumferential ring of the first air outlet is provided with the annular slot 10, and the circumferential ring of the second air inlet 51 is provided with the annular wind deflector 50; after the second housing 5 is mounted on the first housing 1, the annular wind deflector 50 is inserted into the annular insertion groove 10. Specifically, in the dehumidification mode, after the second housing 5 is mounted on the first housing 1, the annular wind deflector 50 is inserted into the annular slot 10, so that the annular wind deflector 50 is matched with the annular slot 10, and a connection area formed between the first air outlet 12 and the second air inlet 51 can be sealed, so that the occurrence of air leakage can be effectively reduced. Preferably, a sealing ring (not shown) may be further disposed in the annular insertion groove 10, and the annular wind deflector 50 is inserted into the annular insertion groove 10 to squeeze the sealing ring for achieving a better sealing effect.

Optionally, since the condenser 3 and the evaporator 4 are closely adjacent to each other, the room temperature cannot be adjusted according to the needs of the user, in order to meet the requirement of the user for adjusting the room temperature, a temperature sensor (not shown) is disposed at the first air outlet 11, and an electric heating component (not shown) is disposed between the condenser 3 and the first air outlet 11; the bottom of evaporimeter 4 is provided with water collector (not mark), still be provided with holding water box 101 in the first shell 1, the water collector lead to pipe with holding water box 101 is connected, still be provided with semiconductor refrigeration piece 102 in the holding water box 101, a surface of semiconductor refrigeration piece 102 is provided with first heat pipe (not shown in the figure), first heat pipe stretch out to holding water box 101's outside extends to first air outlet 12 department, a surface of semiconductor refrigeration piece 102 is provided with the second heat pipe, the second heat pipe extends to holding water box 101's bottom. Specifically, according to the user's needs, when the indoor temperature needs to be raised, the electric heating component is powered on, so that the air treated by the condenser 3 can be further heated, and thus dry hot air is obtained, and the room temperature is raised, wherein the electric heating component can be an electric heating wire or an electric heating net; when the temperature in the high room needs to be reduced, the semiconductor chilling plate 102 is powered on, the cold energy generated by the cold end face of the semiconductor chilling plate 102 is released to the first air outlet 12 through the first heat pipe, so that the air output from the first air outlet 12 is chilled, dry cold air is obtained, and the heat generated by the hot end face of the semiconductor chilling plate 102 can heat the water in the heat-preservation water tank 101 through the second heat pipe, so that the reliable operation of the semiconductor chilling plate 102 is ensured. A one-way water valve is also arranged between the water receiving tray and the heat preservation water tank 101; the top of the heat preservation water tank 101 is further provided with an exhaust pipe (not shown), the exhaust pipe extends to the evaporator 4, and an exhaust hole of the exhaust pipe faces an air inlet surface of the evaporator 4. Specifically, the second heat pipe can produce a certain amount of steam to the water heating in-process in holding water box 101, and evaporimeter 4 will be carried from the blast pipe to steam, because steam water content is higher, can dehumidify through evaporimeter 4 from blast pipe exhaust hot gas to avoid indoor humidity to increase.

The invention also provides a using method of the multifunctional dehumidifying device, which comprises the following steps: a dehumidification mode and a single blow mode;

in a dehumidification mode, the second shell is arranged on the first shell, and outside air enters the first shell from the first air inlet, sequentially passes through the evaporator and the condenser, enters the second shell and is finally output from the second air outlet;

in the single blowing mode, the second housing is detached from the first housing, and the outside air enters the second housing from the second air inlet and is finally output from the second air outlet.

Through adopting removable assecmbly's dehumidification module and air supply module, as required, under the dehumidification mode, the dehumidification module is assembled with the air supply module and is used together, realize carrying out the dehumidification operation to the room air, and when needs air feed alone, the air supply module can be followed and is dismantled down the exclusive use from the dehumidification module, thus, the air of shell can directly enter into in the air feed module and can not be influenced by the produced windage of dehumidification module condenser and evaporimeter, realize multi-functional dehydrating unit function diversification, and reduce the operation energy consumption and improve user experience nature.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions.

Claims (10)

1. A multifunctional dehumidifying device is characterized by comprising a dehumidifying module and an air supply module, wherein the dehumidifying module comprises a first shell, and a compressor, a condenser, a throttling device and an evaporator which are arranged in the first shell and sequentially connected, a first air outlet and a first air inlet are correspondingly arranged at the front end part and the rear end part of the first shell, and the evaporator and the condenser are sequentially arranged between the first air inlet and the first air outlet; the air supply module comprises a second shell and a centrifugal fan arranged in the second shell, a second air inlet is formed in the rear end part of the second shell, a second air outlet is formed in the side part of the second shell, and the centrifugal fan is arranged between the second air inlet and the second air outlet; the second shell is detachably arranged on the first shell; and after the second shell is arranged on the first shell, the first air outlet is connected with the second air inlet.

2. The multi-functional dehumidifier of claim 1, wherein said second inlet vent is provided with an inlet vent grill, and said second outlet vent is provided with an adjustable air deflector therein.

3. The multifunctional dehumidifying device of claim 1 wherein the first housing is provided with a slide rail, and the second housing is provided with a slide groove engaged with the slide rail.

4. A multifunctional dehumidifying device as claimed in claim 3 wherein the first housing is provided with a locking portion for locking the second housing, and the second housing is provided with a locking engaging portion for engaging with the locking portion.

5. The multi-function dehumidifier of claim 4 wherein said locking portion is a threaded hole formed in said first housing and said locking engagement portion is a bolt rotatably disposed on said second housing; or, the locking part is arranged on a lock seat on the first shell, the locking matching part is arranged on a hasp on the second shell, and the lock seat is matched with the hasp to form a hasp lock.

6. The multifunctional dehumidifying device of claim 1 wherein the second housing is provided with a power line for connecting an external power source, the second housing is further provided with a power supply terminal for supplying power to the outside, and the first housing is provided with an electrical terminal for mating with the power supply terminal.

7. The multifunctional dehumidifying device of claim 1 wherein the periphery of the first air outlet is provided with an annular slot, and the periphery of the second air inlet is provided with an annular wind deflector; the annular wind deflector is inserted into the annular slot after the second housing is mounted on the first housing.

8. The multifunctional dehumidifying device of claim 1 wherein a temperature sensor is disposed at the first air outlet, and an electric heating member is disposed between the condenser and the first air outlet; the bottom of evaporimeter is provided with the water collector, still be provided with holding water box in the first shell, the water collector lead to pipe with holding water box connects, still be provided with the semiconductor refrigeration piece in the holding water box, a surface of semiconductor refrigeration piece is provided with first heat pipe, first heat pipe stretch out to holding water box's outside extends to first air outlet department, a surface of semiconductor refrigeration piece is provided with the second heat pipe, the second heat pipe extends to holding water box's bottom.

9. The multifunctional dehumidifying device of claim 8 wherein a one-way water valve is further disposed between the water receiving tray and the heat-preservation water tank; the top of holding water box still is provided with the blast pipe, the blast pipe extends to evaporimeter department, and, the exhaust hole orientation of blast pipe the air inlet face of evaporimeter.

10. A method of using the multi-functional dehumidification apparatus of any one of claims 1 to 9, comprising: a dehumidification mode and a single blow mode;

in a dehumidification mode, the second shell is arranged on the first shell, and outside air enters the first shell from the first air inlet, sequentially passes through the evaporator and the condenser, enters the second shell and is finally output from the second air outlet;

in the single blowing mode, the second housing is detached from the first housing, and the outside air enters the second housing from the second air inlet and is finally output from the second air outlet.

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