CN118729414A - Dehumidification and humidification dual-function integrated system - Google Patents

Abstract

The invention is suitable for the technical field of energy-saving and environment-friendly equipment, and provides a dehumidifying and humidifying integrated system, which comprises a dehumidifying and humidifying assembly, a compressor and a circulating pump, wherein the dehumidifying and humidifying assembly, the compressor and the circulating pump are arranged in a shell; according to the invention, negative pressure is generated in the dehumidification humidification bin through the fan, air is sucked into the dehumidification humidification bin through the air inlet, low-pressure refrigerant liquid is evaporated in the guide pipe in the evaporation shell in the dehumidification process, wet air is condensed into small water drops through the guide pipe and the cooling fins and falls into the liquid storage tank, purified water in the liquid storage tank is pumped to the drip irrigation pipe through the circulating pump in the humidification process, the drip irrigation pipe is injected into the U-shaped cavity formed by the cooling fins through the drip irrigation holes, the purified water overflows through the top edges of the cooling fins, forms a waterfall shape along the outer surfaces of the cooling fins, contacts with air pumped by the fan, improves evaporation of the purified water, and humidifies the air through the evaporated purified water, so that the dehumidification and humidification are integrated, and the use is more convenient.

Description

Dehumidification and humidification dual-function integrated system

Technical Field

The invention belongs to the technical field of energy conservation and environmental protection, and particularly relates to a dehumidifying and humidifying integrated system.

Background

Different seasons and different regions, the indoor environment humidity changes greatly, for example, the north is drier, the south is moist, a humidifier and a dehumidifier are required to be used for humidification and dehumidification indoors, and a proper humidity environment is provided for users.

In the prior art, most of the humidifier and the dehumidifier need to be purchased and used independently, the humidifier can only provide a humidifying effect for the indoor environment, the dehumidifier can only provide a dehumidifying effect for the indoor environment, when humidification and dehumidification are needed to be switched and used in different seasons or in different weather, the humidifier and the dehumidifier need to be equipped simultaneously, the use is inconvenient, the cost is high, the existing dehumidifier and the humidifier cannot guide air and water drops, and the influence on the dehumidifying effect and the humidifying effect is large. Therefore, in order to solve the above-mentioned problems, a dehumidification and humidification integrated system is proposed.

Disclosure of Invention

The invention provides a dehumidifying and humidifying integrated system, which aims to solve the problem that a humidifier and a dehumidifier are required to be equipped at the same time when humidification and dehumidification are switched to be used for indoor environments, and the use is inconvenient.

The invention is realized in such a way that the dehumidifying and humidifying integrated system comprises a dehumidifying and humidifying assembly, a compressor and a circulating pump;

The dehumidification humidification assembly comprises a dehumidification humidification bin, an exhaust end of the dehumidification humidification bin is detachably connected with a fan, an evaporation shell and a condensation shell are sequentially arranged in an inner cavity of the dehumidification humidification bin from bottom to top, flow guide pipes are arranged in the evaporation shell and the condensation shell, radiating fins which are connected with the flow guide pipes at equal intervals are arranged in the evaporation shell and the condensation shell, the radiating fins are bent to form U-shaped cavities with upward openings, end covers are arranged at two ends of the U-shaped cavities of the radiating fins, drip irrigation pipes are arranged at the tops of the evaporation shell and the condensation shell, and drip irrigation holes corresponding to the U-shaped cavities of the radiating fins are formed in the bottom edges of the drip irrigation pipes;

The outlet end of the compressor is communicated with one end of a flow guide pipe in the evaporation shell through an evaporation pipe, the inlet end of the compressor is communicated with one end of a flow guide pipe in the condensation shell through a condensation pipe, and the other ends of the two flow guide pipes are communicated through communicating pipes;

the inlet end of the circulating pump is used for introducing purified water through the water inlet pipe, and the outlet end of the circulating pump is communicated with the evaporation shell and the drip irrigation pipe in the condensation shell through the water outlet pipe.

Preferably, a draining hole is formed in the bottom of the U-shaped cavity formed by the radiating fins, and the inner diameter of the draining hole does not exceed the inner diameter of the drip irrigation hole.

Preferably, the air guide device further comprises a flow guide assembly arranged at the air inlet end of the dehumidification and humidification assembly, the flow guide assembly comprises a flow guide cover detachably connected to the bottom port of the dehumidification and humidification bin, the bottom surface of the flow guide cover is provided with a split-flow port in annular distribution, the bottom surface and the top surface of the flow guide cover are detachably connected with a flow guide cylinder and an air guide cylinder respectively, the flow guide cylinder and the air guide cylinder are correspondingly communicated with the split-flow port respectively, the flow guide cylinder is used for guiding water downwards, and the air guide cylinder is used for guiding air in the dehumidification and humidification bin.

Preferably, the air exhaust assembly is arranged at the air exhaust end of the dehumidification and humidification assembly, the air exhaust assembly comprises a top cover, one side of the top cover is provided with a guide cylinder communicated with the fan, the top of the inner cavity of the guide cylinder is provided with an air guide disc, and the end faces of the air guide disc form an annular shape and are distributed with air outlets.

Preferably, the wind-guiding dish deviates from the fan one side terminal surface and can dismantle and be connected with conical exhaust hood, the interior bottom surface of exhaust hood is equipped with the UV lamp that stretches into in the guide cylinder.

Preferably, the top of exhaust hood can be dismantled and be connected with control panel, control panel electric connection fan, UV lamp, compressor and circulating pump.

Preferably, the wind guiding disc is in sliding connection with the guide cylinder, the guide cylinder is detachably connected with a telescopic piece electrically connected with the control panel, and the telescopic piece is connected with and drives the wind guiding disc and the exhaust hood to vertically lift along the guide cylinder.

Preferably, the dehumidification humidification assembly and the diversion assembly are arranged in an inner cavity of the shell, the top end of the shell is detachably connected with the top cover, air inlets are formed in two sides of the bottom of the shell, and a filter screen is sunk in the air inlets.

Preferably, a drawer opening is formed in the bottom of the shell, a liquid storage tank is matched with the drawer opening in a drawer mode, and the inlet end of the circulating pump is communicated with the liquid storage tank through a water inlet pipe.

Preferably, the water conservancy diversion subassembly is still including setting up the water drainage tube in the kuppe below, the bottom of water drainage tube can be dismantled to the connection water drainage tube in the port, the bottom of water drainage tube and the port sliding contact at liquid reserve tank top.

Compared with the prior art, the invention has the beneficial effects that:

1. According to the invention, negative pressure is generated in the dehumidification and humidification bin through the fan, air is sucked into the dehumidification and humidification bin through the air inlet, in the dehumidification process, low-pressure refrigerant liquid is evaporated in the guide pipe in the evaporation shell, so that the surface temperature of the guide pipe in the evaporation shell is reduced, wet air entering the dehumidification and humidification bin is contacted through the cooling fins, the wet air is condensed into small water drops through the guide pipe and the cooling fins, in the humidification process, purified water is pumped into the drip irrigation pipe through the circulating pump, is injected into the U-shaped cavity formed by the cooling fins through the drip irrigation holes, overflows through the top edges of the cooling fins, forms a waterfall shape along the outer surface of the cooling fins, contacts with air pumped by the fan, evaporation of the purified water is improved, and the air is humidified through the evaporated purified water, so that the dehumidification and humidification are integrated, and the use are more convenient;

2. According to the invention, the diversion assembly is arranged, the port at the bottom of the dehumidification and humidification bin is sealed through the diversion cover, the diversion cover is used for fixing the diversion cylinder and the air duct, air is guided into the dehumidification and humidification bin through the diversion opening and the air duct, and in the humidification process and the dehumidification process, water drops falling into the diversion cover are downwards discharged into the diversion cylinder through the diversion opening and are guided to be discharged through the diversion cylinder, so that water and air are separately guided, the dehumidification and humidification bin can be uniformly filled with air, the introduced air flow is prevented from influencing the water discharge and causing secondary evaporation of the water discharge, and the dehumidification efficiency is improved.

Drawings

FIG. 1 is a schematic perspective view of a first embodiment of the present invention;

FIG. 2 is a schematic perspective view of another view of the first embodiment of the present invention;

FIG. 3 is an exploded view of the first embodiment of the present invention from another perspective;

FIG. 4 is a perspective view showing an evaporation shell or a condensation shell and its internal structure according to the present invention;

FIG. 5 is a schematic diagram showing the whole structure of the evaporation shell or condensation shell and its internal structure according to the present invention;

FIG. 6 is a schematic view of an explosion structure of an evaporation shell or a condensation shell and its internal structure according to the present invention;

FIG. 7 is a schematic perspective view of a second embodiment of the present invention;

FIG. 8 is a schematic view of an exploded view of a baffle assembly according to the present invention;

FIG. 9 is a schematic perspective view of a third embodiment of the present invention;

FIG. 10 is an exploded view of the exhaust assembly of the present invention;

FIG. 11 is a schematic perspective view of a fourth embodiment of the present invention;

FIG. 12 is an exploded view of a fourth embodiment of the present invention;

FIG. 13 is a schematic view in semi-section of a fourth embodiment of the present invention;

fig. 14 is a partially enlarged schematic structural view of fig. 13 a.

In the figure: 1. a housing; 2. a drawer opening; 3. an air inlet; 4. a moving wheel;

5. A dehumidifying and humidifying assembly; 51. dehumidification and humidification bin; 52. a blower; 53. an evaporation shell; 54. condensing the shell; 55. a flow guiding pipe; 56. a heat sink; 57. an end cap; 58. a draining hole; 59. a drip irrigation pipe; 510. drip irrigation holes;

6. a flow guiding assembly; 61. a guide cover; 62. a shunt port; 63. a guide cylinder; 64. an air duct; 65. a drainage cylinder; 66. a diversion table;

7. An exhaust assembly; 71. a top cover; 72. a guide cylinder; 73. an exhaust hood; 74. a control panel; 75. a UV lamp; 76. an air guiding disc; 77. an air outlet; 78. a telescoping member; 79. a thrust block; 710. a guide opening; 711. a cover plate;

8. A liquid storage tank; 9. a screen plate; 10. a filter screen; 11. a compressor; 12. an evaporation tube; 13. a condensing tube; 14. a communicating pipe; 15. a circulation pump; 16. a water inlet pipe; 17. a water outlet pipe; 18. a liquid level gauge; 19. a temperature sensor; 20. a humidity sensor.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. 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.

Example 1

Referring to fig. 1-6, the present invention provides a technical solution: a dehumidifying and humidifying integrated system, which comprises a dehumidifying and humidifying assembly 5, a compressor 11 and a circulating pump 15, wherein the dehumidifying and humidifying assembly 5, the compressor 11 and the circulating pump 15 are arranged in a shell 1;

The dehumidifying and humidifying assembly 5 comprises a dehumidifying and humidifying bin 51, wherein an air exhaust end of the dehumidifying and humidifying bin 51 is detachably connected with a fan 52, specifically, the top surface of the dehumidifying and humidifying bin 51 is provided with a through hole as an air exhaust port, the fan 52 is communicated with the air exhaust port and is connected with the top surface of the dehumidifying and humidifying bin 51 through a bolt, an evaporation shell 53 and a condensation shell 54 are sequentially arranged in the inner cavity of the dehumidifying and humidifying bin 51 from bottom to top, specifically, the outer walls of the evaporation shell 53 and the condensation shell 54 are abutted against the inner wall of the dehumidifying and humidifying bin 51 and are connected with the dehumidifying and humidifying bin 51 through bolts, a flow guide pipe 55 is arranged in each of the evaporation shell 53 and the condensation shell 54, the evaporation shell 53 and the condensation shell 54 are internally provided with cooling fins 56 which are connected with the flow guide pipe 55 at equal intervals, the flow guide pipe 55 passes through the cooling fins 56 at equal intervals in an S shape, the cooling fins 56 are bent to form U-shaped cavities with upward openings, the two ends of the U-shaped cavities of the cooling fins 56 are respectively provided with end covers 57, the two ends of the U-shaped bent cooling fins 56 are respectively plugged by the end covers 57 to form cavities with upward openings, the top parts of the evaporation shell 53 and the condensation shell 54 are respectively provided with a drip irrigation pipe 59, drip irrigation holes 510 corresponding to the U-shaped cavities of the cooling fins 56 are arranged at the bottom edges of the drip irrigation pipes 59, and the inner diameters of the drip irrigation holes 510 are smaller than the opening widths of the U-shaped cavities of the cooling fins 56;

Wherein, the evaporation shell 53 is matched with the flow guide pipe 55 and the cooling fins 56 to form an evaporator, the condensation shell 54 is matched with the flow guide pipe 55 and the cooling fins 56 to form a condenser, and the inner diameter of the flow guide pipe 55 in the condensation shell 54 is smaller than the inner diameter of the flow guide pipe 55 in the evaporation shell 53;

The outlet end of the compressor 11 is communicated with one end of a flow guide pipe 55 in the evaporation shell 53 through the evaporation pipe 12, the inlet end of the compressor 11 is communicated with one end of a flow guide pipe 55 in the condensation shell 54 through the condensation pipe 13, the other ends of the two flow guide pipes 55 are communicated through a communicating pipe 14, specifically, the inner diameter of the communicating pipe 14 is smaller than the inner diameter of any one flow guide pipe 55 and is used as a capillary, and one end of the communicating pipe 14 close to the condensation shell 54 is communicated with the flow guide pipe 55 in the condensation shell 54 through a throttle valve;

The inlet end of the circulating pump 15 is introduced into the purified water through the water inlet pipe 16, and the outlet end of the circulating pump 15 is communicated with the drip irrigation pipe 59 in the evaporation shell 53 and the condensation shell 54 through the water outlet pipe 17.

Further, the draining hole 58 is formed in the bottom of the U-shaped cavity formed by the cooling fin 56, the inner diameter of the draining hole 58 is not larger than the inner diameter of the drip irrigation hole 510, so that the drip irrigation hole 510 drips irrigation to the inner cavity of the cooling fin 56, the cooling fin 56 not only discharges water storage downwards through overflowing action, but also drips water storage in the U-shaped cavity of the cooling fin 56 downwards through the draining hole 58, the overflowing effect of the top edge of the cooling fin 56 can be improved, purified water can evenly overflow through the top edge of the cooling fin 56, meanwhile, the water storage in the cooling fin 56 is emptied, and germ breeding caused by water storage retention and corrosion of the diversion pipe 55 and the cooling fin 56 are avoided.

In the present embodiment, negative pressure is generated in the dehumidification and humidification chamber 51 by the blower 52, air enters the dehumidification and humidification chamber 51, and is discharged by the blower 52 after being subjected to dehumidification treatment or humidification treatment by the dehumidification and humidification module 5;

In the dehumidification process, the inlet end of the compressor 11 sucks refrigerant steam with lower pressure guided by the guide pipe 55 in the evaporation shell 53 through the evaporation pipe 12, after the pressure of the refrigerant steam is increased, the refrigerant steam is sent into the guide pipe 55 in the condensation shell 54 through the condensation pipe 13, the refrigerant steam is condensed into liquid with higher pressure, after the liquid is throttled through the communicating pipe 14 by matching with the throttle valve, the liquid with lower pressure is output to the guide pipe 55 in the evaporation shell 53 through the communicating pipe 14, the heat of air is absorbed through the guide pipe 55 in the evaporation shell 53 and the cooling fins 56, the vapor is evaporated into steam with lower pressure, the vapor is sent into the inlet of the compressor 11 again, the low-pressure refrigerant liquid is evaporated in the guide pipe 55 in the evaporation shell 53, the surface temperature of the guide pipe 55 in the evaporation shell 53 is reduced, the wet air entering the dehumidification humidification bin 51 is contacted through the cooling fins 56, and the wet air is condensed into small water drops through the guide pipe 55 and the cooling fins 56, and naturally drops;

In the humidifying process, pure water is pumped to the drip irrigation pipe 59 through the circulating pump 15 and is injected into the U-shaped cavity formed by the radiating fins 56 through the drip irrigation holes 510, the pure water overflows from the top edges of the radiating fins 56, waterfall shapes are formed along the outer surfaces of the radiating fins 56 and are contacted with air pumped by the fan 52, evaporation of the pure water is improved, the air is humidified through the evaporated pure water, meanwhile, water stored in the U-shaped cavity of the radiating fins 56 is drained downwards through the draining holes 58, and the overflow effect of the top edges of the radiating fins 56 is improved;

Thereby with dehumidification and humidification integration, according to the switching of using dehumidification or humidification, it is more convenient to use to humidification work or dehumidification work end back, the water storage in the waterlogging caused by excessive rainfall hole 58 can evacuation fin 56, avoids the water storage to appear detaining, leads to germ to breed and the oxidation corrosion of honeycomb duct 55 and fin 56.

Example 2

Referring to fig. 3 and 7-8, the difference is that, based on embodiment 1:

Further, still including setting up the water conservancy diversion subassembly 6 at the dehumidification humidification subassembly 5 air inlet end, the water conservancy diversion subassembly 6 is including dismantling the kuppe 61 of connection at dehumidification humidification storehouse 51 bottom port, specifically, the top edge of water conservancy diversion 61 passes through bolted connection with the outer edge of dehumidification humidification storehouse 51 bottom port, annular distribution's shunt opening 62 has been seted up to the bottom surface of water conservancy diversion 61, the bottom surface and the top surface of water conservancy diversion 61 are dismantled respectively and are connected with water conservancy diversion section of thick bamboo 63 and air guide duct 64, specifically, the top of water conservancy diversion section of thick bamboo 63 passes through bolted connection with the bottom surface of water conservancy diversion 61, the bottom of air guide duct 64 passes through bolted connection with the top surface of water conservancy diversion section of water conservancy diversion 61, water conservancy diversion section of thick bamboo 63 and air guide duct 64 correspond the intercommunication with shunt opening 62 respectively, water conservancy diversion section of thick bamboo 63 is used for leading to drain downwards, air guide 64 is used for leading air in to dehumidification humidification storehouse 51, specifically, the external dimension of water guide 63 top end port and air guide 64 bottom port all is greater than the size of shunt opening 62, be formed with the runner that inclines downwards in the water guide duct 63, the lateral wall at the top of water guide 64 is equipped with the through hole for encircling the air guide duct 64 and exhausting around center, can pass through the top of water guide duct 64 to the humidification storehouse bottom port 62, the top end of water guide 64 carries out the water guide 64 and drop into the moisture diversion section of water guide 64, and leading into the moisture drain through the air guide 64, and drop-out into the inside the water guide 64.

In this embodiment, the air is introduced into the dehumidifying and humidifying bin 51 through the shunt opening 62 and the air duct 64, and the water dropped into the air guide cover 61 is guided downwards and discharged through the shunt opening 62 and the air duct 63, so that the water and the air are separately guided, the introduced air flow is prevented from influencing the water discharge and causing the secondary evaporation of the water discharge, the dehumidifying efficiency is improved, and the use is safer.

Example 3

Referring to fig. 3 and 9-10, the difference is that, based on embodiment 2:

Further, the air exhaust assembly 7 at the air exhaust end of the dehumidification and humidification assembly 5 is further arranged, the air exhaust assembly 7 comprises a top cover 71, one side of the top cover 71 is provided with a guide cylinder 72 communicated with the fan 52, specifically, the top surface of the top cover 71 is provided with a through hole communicated with the guide cylinder 72, one end of the guide cylinder 72 deviating from the top cover 71 is abutted against the top surface of the dehumidification and humidification bin 51, the top of the inner cavity of the guide cylinder 72 is provided with an air guide disc 76, the end surface of the air guide disc 76 is annularly provided with an air outlet 77, and the air guide disc 76 can be positioned by the guide cylinder 72 through the cooperation of the guide cylinder 72 and the air after dehumidification or humidification of the dehumidification and humidification assembly 5 is uniformly discharged through the air outlet 77.

Further, the wind-guiding disc 76 deviates from the fan 52 a side end face can be dismantled and be connected with conical exhaust hood 73, specifically, the outer wall of exhaust hood 73 is the cambered surface for guiding air outlet 77 to exhaust, the through-hole has been seted up at the middle part of wind-guiding disc 76, the bottom of exhaust hood 73 is formed with echelonment pillow block to carry out hole axle cooperation with the through-hole at wind-guiding disc 76 middle part, and through screw connection, the interior bottom surface of exhaust hood 73 is equipped with the UV lamp 75 that stretches into in the guide cylinder 72, can guide the exhaust of air outlet 77 through the arc outer wall of exhaust hood 73, and disinfect, disinfect by the UV lamp 75 to the exhaust that gets into in the guide cylinder 72.

Further, the top end of the exhaust hood 73 is detachably connected with a control panel 74, the control panel 74 is electrically connected with the fan 52, the UV lamp 75, the compressor 11 and the circulating pump 15, namely, the top end port of the exhaust hood 73 can be sealed through the control panel 74, and the control panel 74 controls the operation and data processing of the fan 52, the UV lamp 75, the compressor 11 and the circulating pump 15, so that the exhaust hood is more convenient to use.

Further, wind guiding plate 76 and guide cylinder 72 sliding connection, guide cylinder 72 can dismantle be connected with control panel 74 electric connection's extensible member 78, specifically, extensible member 78 is electric putter, extensible member 78 connects and drives wind guiding plate 76 and exhaust hood 73 along guide cylinder 72 vertical lift, can drive wind guiding plate 76 in guide cylinder 72 vertical lift through extensible member 78, and then drive exhaust hood 73 vertical lift by guide cylinder 72, and then adjust the vertical height of exhaust hood 73, open, close guide cylinder 72, adjust the interval between exhaust hood 73 and the guide cylinder 72 port simultaneously, adjust the size of air outlet.

Wherein, the bottom surface of wind-guiding dish 76 can be dismantled and be connected with annular distributed thrust piece 79, guide opening 710 with thrust piece 79 complex is seted up to the outer wall of guide cylinder 72, thrust piece 79 stretches out the one end of guide cylinder 72 and is connected with the overhanging end of extensible member 78, and the outside of thrust piece 79 is formed with the apron 711 that covers guide opening 710, can lead thrust piece 79 through guide opening 710, and then drive wind-guiding dish 76 along the vertical lift of guide opening 710 by extensible member 78 drive thrust piece 79, and cover the closure to guide opening 710 through apron 711, further improve the stability of thrust piece 79, improve the restraint of guide cylinder 72 to airing exhaust simultaneously.

The control panel 74 includes a panel detachably connected to a top port of the exhaust hood 73 and a circuit board connected to a bottom surface of the panel, and the circuit board is electrically connected to the UV lamp 75, the compressor 11, the circulation pump 15, the fan 52 and the expansion member 78, and is mounted with keys and a display screen.

Wherein, the bottom surface of the air guide sleeve 61 and the inner bottom surface of the exhaust hood 73 are both provided with a temperature sensor 19 and a humidity sensor 20 electrically connected with the control panel 74, specifically, the temperature sensor 19 and the humidity sensor 20 on the bottom surface of the air guide sleeve 61 are distributed on two sides of the air guide sleeve and are respectively used for detecting the temperature and the humidity of the air led in by the air inlet 3, and the temperature sensor 19 and the humidity sensor 20 on the inner bottom surface of the exhaust hood 73 are respectively used for detecting the temperature and the humidity of the air discharged by the air outlet 77.

In the present embodiment, the control panel 74 is powered on, and a user operates the control panel 74 to select a dehumidification mode, a humidification mode, a constant humidity mode, and perform autonomous humidity setting, and then the control panel 74 activates the UV lamp 75, the compressor 11, the circulation pump 15, the blower 52, the expansion/contraction member 78, the temperature sensor 19, and the humidity sensor 20;

When the dehumidification mode is selected, humidity is autonomously set or set by default, the exhaust hood 73 is driven to rise through the telescopic piece 78, the port at the top end of the guide cylinder 72 is opened, the air guide disc 76 is used as an air outlet of the guide cylinder 72, the fan 52, the UV lamp 75, the compressor 11, the temperature sensor 19 and the humidity sensor 20 are started, the temperature and the humidity of air at the air inlet end and the air outlet end are monitored in real time through the temperature sensor 19 and the humidity sensor 20, the compressor 11 and the fan 52 dehumidify the humid air according to the dehumidification process in the embodiment 1, the UV lamp 75 sterilizes the dehumidified air, the sterilized air is guided and discharged through the air outlet 77 and the outer cambered surface of the exhaust hood 73, and water drops generated by condensation of the humid air are discharged through the guide cylinder 63.

When a humidifying mode is selected, humidity autonomous setting or default setting is performed, the exhaust hood 73 is driven to rise through the telescopic piece 78, a port at the top end of the guide cylinder 72 is opened, the air guide disc 76 is used as an air outlet of the guide cylinder 72, the fan 52, the UV lamp 75, the circulating pump 15, the temperature sensor 19 and the humidity sensor 20 are started, the fan 52 humidifies air according to the humidifying process in the embodiment 1, the UV lamp 75 sterilizes the humidified air, the sterilized air is guided and discharged through the exhaust outlet 77 and the extrados surface of the exhaust hood 73, and overflowed water is discharged through the guide cylinder 63;

When the constant humidity mode is selected, the humidity is set independently or set by default, the air exhaust is started through the telescopic piece 78, the fan 52 is started to circulate air, the temperature and the humidity of the air at the air inlet end are detected through the temperature sensor 19 and the humidity sensor 20, and the control panel 74 automatically performs the dehumidification or the selection and the switching of the humidification mode according to the set humidity and the current detection result, so that the indoor air humidity is kept constant.

Example 4

Referring to fig. 11-14, on the basis of embodiment 3, the difference is that:

Further, still include casing 1, the four corners of casing 1 bottom surface all can be dismantled and be connected with and remove wheel 4, dehumidification humidification subassembly 5, water conservancy diversion subassembly 6 all set up in casing 1 inner chamber, specifically, casing 1 inner wall is equipped with the boss of distributing in the outer edge of air intake 3, the outer edge of dehumidification humidification storehouse 51 bottom is contradicted casing 1 inner wall and is passed through screw connection, and the bottom surface of the outer edge of dehumidification humidification storehouse 51 bottom and the boss top surface contact of air intake 3 department, casing 1's top and top cap 71 can be dismantled and be connected, specifically, exhaust subassembly 7 sets up the port department on casing 1 top, air intake 3 has all been seted up to casing 1 bottom's both sides, the subsidence is provided with filter screen 10 in the air intake 3, thereby casing 1 moves through removing wheel 4, carry out the position follow-up regulation, fan 52 forms the negative pressure in dehumidification humidification storehouse 51, the outside air of casing 1 is inhaled in casing 1 through air intake 3, and be directed through shunt opening 62 and air duct 64, get into dehumidification humidification storehouse 51.

Wherein, the air intake 3 is interior to sink and is provided with otter board 9, and otter board 9 covers filter screen 10 for protect filter screen 10, specific, otter board 9 equipartition has the through-hole, and reserves the interval between otter board 9 inner wall and the filter screen 10, can protect filter screen 10 through otter board 9, and reserves the interval between otter board 9 and the filter screen 10, can effectually avoid otter board 9 hole to block to the dismouting maintenance of filter screen 10 of being convenient for more.

Further, the bottom of the shell 1 is provided with the drawer opening 2, the drawer opening 2 is matched with the liquid storage tank 8, specifically, the top edge of the air inlet 3 is higher than the top edge of the liquid storage tank 8, the inlet end of the circulating pump 15 is communicated with the liquid storage tank 8 through the water inlet pipe 16, specifically, a reverse osmosis filter element is arranged in the liquid storage tank 8, and the water outlet port of the reverse osmosis filter element is communicated with the inlet end of the circulating pump 15 through the water inlet pipe 16, so that the liquid storage tank 8 can be installed in a drawer mode through the drawer opening 2, and the liquid storage tank 8 is more convenient to take and put and the addition of purified water;

Further, the diversion assembly 6 further comprises a drainage cylinder 65 arranged below the diversion cover 61, the bottom end of the drainage cylinder 63 is detachably connected in a port of the drainage cylinder 65, specifically, the bottom of the drainage cylinder 65 is conical, the top end of the drainage cylinder is of a cylindrical structure, the bottom end of the drainage cylinder 63 extends into the cylindrical structure at the top end of the drainage cylinder 65 and is connected with the inner wall at the top end of the drainage cylinder 65 through bolts, the bottom end of the drainage cylinder 63 extends downwards and is suspended in a cavity of the conical cylinder structure of the drainage cylinder 65, and the bottom end of the drainage cylinder 65 is in sliding contact with the port at the top of the liquid storage tank 8;

If the drainage tube 65 is a semi-closed container with an open top, the bottom end of the drainage tube can extend to drain the sewage out of the shell 1, and the semi-closed drainage tube 65 collects the sewage and discharges the sewage through an external drainage tube;

If the drainage tube 65 has a structure with two through ends, the bottom end of the drainage tube is communicated with a port at the top of the liquid storage tank 8, sewage is discharged into the liquid storage tank 8, and then the through drainage tube 65 is used for communicating the guide tube 63 with the liquid storage tank 8, and the sewage guided by the guide tube 63 is discharged into the liquid storage tank 8;

And, unsettled fixed is carried out water drainage tube 65 through draft tube 63, and water drainage tube 65 bottom carries out sliding fit with the port on liquid reserve tank 8 top, no matter water drainage tube 65 is semi-closed container or link up the structure, can cover the protection to the port on liquid reserve tank 8 top, reduces the evaporation of water storage.

Further, the port at the top end of the drainage cylinder 65 is provided with an outwards inclined guide table 66, the guide table 66 surrounds the outer side of the drainage cylinder 63 in a conical shape, the specific guide table 66 is conical, the inner wall of the specific guide table is not in contact with the outer wall of the drainage cylinder 63, the guide cylinder 63 can be guided through the guide table 66, and water guided by the guide cylinder 63 is prevented from dripping on the outer side of the drainage cylinder 65.

Further, the liquid level meter 18 is further included and electrically connected with the control panel 74, the liquid level meter 18 is arranged in the liquid storage tank 8, the liquid level meter 18 is used for monitoring the water level in the liquid storage tank 8, and the liquid level in the liquid storage tank 8 can be monitored in real time through the liquid level meter 18 to remind high water level and low water level.

In this embodiment, will dehumidify humidification subassembly 5, water conservancy diversion subassembly 6 and exhaust subassembly 7 fix a position the installation through casing 1, remove through removing wheel 4 to carry out the water storage through cooperation liquid reserve tank 8, the operation is more convenient.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the invention.

Claims (10)

1. A dehumidification, humidification dual-function integrated system, characterized in that: comprises a dehumidifying and humidifying component (5), a compressor (11) and a circulating pump (15);

The dehumidification humidification assembly (5) comprises a dehumidification humidification bin (51), an exhaust end of the dehumidification humidification bin (51) is detachably connected with a fan (52), an evaporation shell (53) and a condensation shell (54) are sequentially arranged in an inner cavity of the dehumidification humidification bin (51) from bottom to top, flow guide pipes (55) are arranged in the evaporation shell (53) and the condensation shell (54), radiating fins (56) which are connected with the flow guide pipes (55) at equal intervals are arranged in the evaporation shell (53) and the condensation shell (54), the radiating fins (56) are bent to form U-shaped cavities with upward openings, end covers (57) are arranged at two ends of the U-shaped cavities of the radiating fins (56), drip irrigation pipes (59) are arranged at the tops of the evaporation shell (53) and the condensation shell (54), and drip irrigation holes (510) corresponding to the U-shaped cavities of the radiating fins (56) are formed in the bottom edges of the drip irrigation pipes (59).

The outlet end of the compressor (11) is communicated with one end of a flow guide pipe (55) in the evaporation shell (53) through an evaporation pipe (12), the inlet end of the compressor (11) is communicated with one end of the flow guide pipe (55) in the condensation shell (54) through a condensation pipe (13), and the other ends of the two flow guide pipes (55) are communicated through a communicating pipe (14);

the inlet end of the circulating pump (15) is used for introducing purified water through the water inlet pipe (16), and the outlet end of the circulating pump (15) is communicated with the evaporation shell (53) and the drip irrigation pipe (59) in the condensation shell (54) through the water outlet pipe (17).

2. A dehumidification and humidification dual-function integrated system as claimed in claim 1, wherein: and a draining hole (58) is formed in the bottom of the U-shaped cavity formed by the radiating fins (56), and the inner diameter of the draining hole (58) does not exceed the inner diameter of the drip irrigation hole (510).

3. A dehumidification and humidification dual-function integrated system as claimed in claim 2, wherein: still including setting up guide assembly (6) at dehumidification humidification subassembly (5) air inlet end, guide assembly (6) are including dismantling kuppe (61) at dehumidification humidification storehouse (51) bottom port, circular distribution's shunt opening (62) have been seted up to the bottom surface of kuppe (61), guide cylinder (63) and air duct (64) can be dismantled respectively to the bottom surface and the top surface of kuppe (61), guide cylinder (63) and air duct (64) correspond the intercommunication with shunt opening (62) respectively, and guide cylinder (63) are used for down guiding the drainage, and air duct (64) are used for guiding the air in to dehumidification humidification storehouse (51).

4. A dehumidification and humidification dual-function integrated system as claimed in claim 1, wherein: the dehumidification humidification device is characterized by further comprising an exhaust assembly (7) arranged at the exhaust end of the dehumidification humidification assembly (5), wherein the exhaust assembly (7) comprises a top cover (71), one side of the top cover (71) is provided with a guide cylinder (72) communicated with a fan (52), the top of the inner cavity of the guide cylinder (72) is provided with an air guide disc (76), and the end faces of the air guide disc (76) are annularly provided with air outlets (77).

5. A dehumidification and humidification dual-function integrated system as defined in claim 4, wherein: one side end face of the air guide disc (76) deviating from the fan (52) is detachably connected with a conical exhaust hood (73), and the inner bottom surface of the exhaust hood (73) is provided with a UV lamp (75) extending into the guide cylinder (72).

6. A dehumidification and humidification dual-function integrated system as defined in claim 5, wherein: the top end of the exhaust hood (73) is detachably connected with a control panel (74), and the control panel (74) is electrically connected with the fan (52), the UV lamp (75), the compressor (11) and the circulating pump (15).

7. A dehumidification and humidification dual-function integrated system as defined in claim 6, wherein: the air guide disc (76) is in sliding connection with the guide cylinder (72), the guide cylinder (72) is detachably connected with a telescopic piece (78) which is electrically connected with the control panel (74), and the telescopic piece (78) is connected with and drives the air guide disc (76) and the exhaust hood (73) to vertically lift along the guide cylinder (72).

8. A dual-function dehumidification and humidification integrated system as claimed in any one of claims 1 to 7, wherein: still include casing (1), dehumidification humidification subassembly (5), water conservancy diversion subassembly (6) all set up in casing (1) inner chamber, the top and the top cap (71) of casing (1) can dismantle and be connected, air intake (3) have all been seted up to the both sides of casing (1) bottom, the subsidence is provided with filter screen (10) in air intake (3).

9. A dehumidification and humidification dual-function integrated system as defined in claim 8, wherein: the bottom of casing (1) has seted up drawer mouth (2), drawer mouth (2) drawer type cooperation has liquid reserve tank (8), the entrance point of circulating pump (15) communicates liquid reserve tank (8) through inlet tube (16).

10. A dehumidification and humidification dual-function integrated system as claimed in claim 9, wherein: the guide assembly (6) further comprises a drainage cylinder (65) arranged below the guide cover (61), the bottom end of the guide cylinder (63) is detachably connected in a port of the drainage cylinder (65), and the bottom end of the drainage cylinder (65) is in sliding contact with a port at the top of the liquid storage tank (8).