CN104819514B - Intelligent air energy hygroscopic machine - Google Patents

Intelligent air energy hygroscopic machine Download PDF

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Publication number
CN104819514B
CN104819514B CN201510205941.3A CN201510205941A CN104819514B CN 104819514 B CN104819514 B CN 104819514B CN 201510205941 A CN201510205941 A CN 201510205941A CN 104819514 B CN104819514 B CN 104819514B
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CN
China
Prior art keywords
radiator
moisture absorption
air
exhaust outlet
electrically operated
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CN201510205941.3A
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Chinese (zh)
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CN104819514A (en
Inventor
黄进财
廖建飞
何锦权
王红梅
彭裕春
邓苹萍
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Guangzhou Jinglian Information Technology Co.,Ltd.
Zhuhai Ku Qi Technology Co ltd
Zhuhai Zhongchuang Xinhui Technology Co ltd
Guangdong Institute of Science and Technology
Original Assignee
Core Intelligent Technology (zhuhai) Co Ltd
Zhuhai Kutcher Technology Co Ltd
Guangdong Institute of Science and Technology
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Application filed by Core Intelligent Technology (zhuhai) Co Ltd, Zhuhai Kutcher Technology Co Ltd, Guangdong Institute of Science and Technology filed Critical Core Intelligent Technology (zhuhai) Co Ltd
Priority to CN201510205941.3A priority Critical patent/CN104819514B/en
Publication of CN104819514A publication Critical patent/CN104819514A/en
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Publication of CN104819514B publication Critical patent/CN104819514B/en
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Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F3/00Air-conditioning systems in which conditioned primary air is supplied from one or more central stations to distributing units in the rooms or spaces where it may receive secondary treatment; Apparatus specially designed for such systems
    • F24F3/12Air-conditioning systems in which conditioned primary air is supplied from one or more central stations to distributing units in the rooms or spaces where it may receive secondary treatment; Apparatus specially designed for such systems characterised by the treatment of the air otherwise than by heating and cooling
    • F24F3/14Air-conditioning systems in which conditioned primary air is supplied from one or more central stations to distributing units in the rooms or spaces where it may receive secondary treatment; Apparatus specially designed for such systems characterised by the treatment of the air otherwise than by heating and cooling by humidification; by dehumidification
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F11/00Control or safety arrangements
    • F24F11/30Control or safety arrangements for purposes related to the operation of the system, e.g. for safety or monitoring
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F13/00Details common to, or for air-conditioning, air-humidification, ventilation or use of air currents for screening
    • F24F13/30Arrangement or mounting of heat-exchangers
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F2110/00Control inputs relating to air properties
    • F24F2110/20Humidity
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F3/00Air-conditioning systems in which conditioned primary air is supplied from one or more central stations to distributing units in the rooms or spaces where it may receive secondary treatment; Apparatus specially designed for such systems
    • F24F3/12Air-conditioning systems in which conditioned primary air is supplied from one or more central stations to distributing units in the rooms or spaces where it may receive secondary treatment; Apparatus specially designed for such systems characterised by the treatment of the air otherwise than by heating and cooling
    • F24F3/14Air-conditioning systems in which conditioned primary air is supplied from one or more central stations to distributing units in the rooms or spaces where it may receive secondary treatment; Apparatus specially designed for such systems characterised by the treatment of the air otherwise than by heating and cooling by humidification; by dehumidification
    • F24F2003/144Air-conditioning systems in which conditioned primary air is supplied from one or more central stations to distributing units in the rooms or spaces where it may receive secondary treatment; Apparatus specially designed for such systems characterised by the treatment of the air otherwise than by heating and cooling by humidification; by dehumidification by dehumidification only

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  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Atmospheric Sciences (AREA)
  • Drying Of Gases (AREA)
  • Central Air Conditioning (AREA)

Abstract

Intelligent air energy hygroscopic machine, includes heat pump assembly, dehydration device, controller and shell, and heat pump assembly includes evaporator, left radiator, right radiator, blower fan and water receiving tank, and dehydration device includes motor, dewatering basket, absorbing membrane and dehydration groove;Shell is provided with exhaust outlet and air inlet, and evaporator, left radiator, right radiator, blower fan, water receiving tank and dehydration device are installed between exhaust outlet and air inlet, and left radiator is provided with left moisture absorption grid, and right radiator is provided with right moisture absorption grid;During work, first time dehumidifying is carried out using dehydration device, second dehumidifying is carried out using evaporator, third time dehumidifying is carried out using left moisture absorption grid or right moisture absorption grid, improve effect on moisture extraction;Meanwhile, the water of absorbing membrane is taken off using dehydration device, using the left moisture absorption grid of the air energy heat drying of left radiator or right radiator or the moisture wicking material of right moisture absorption grid, recover its moisture absorption function.

Description

Intelligent air energy hygroscopic machine
Technical field
The present invention relates to a kind of hygroscopic machine, more particularly to a kind of intelligent air energy hygroscopic machine.
Background technology
At present, common dehumidifier, is mainly dehumidified by the evaporator condensation malaria of heat pump, dehumidifying Method is single, and effect on moisture extraction is not good;A kind of intelligent air energy hygroscopic machine of multi-method dehumidifying, it has also become people improve dehumidifier and remove The need for wet efficiency.
The content of the invention
The purpose of the present invention is to overcome the deficiencies in the prior art, there is provided a kind of intelligent air energy hygroscopic machine, is inhaled for improving The dehumidification rate of wet machine.
It is of the invention to be adopted the technical scheme that:Intelligent air energy hygroscopic machine, include heat pump assembly, dehydration device, Controller and shell, heat pump assembly and dehydration device are installed on shell;Heat pump assembly include evaporator, left radiator, Right radiator, blower fan and water receiving tank, dehydration device include motor, dewatering basket, absorbing membrane and dehydration groove;The machine of motor 11 Seat and cage connection, dewatering basket are connected with the rotating shaft of motor, and absorbing membrane is on dewatering basket;Shell is provided with exhaust outlet and air inlet Mouthful, exhaust outlet includes left dehumidifying exhaust outlet, left dry exhaust mouthful, right dehumidifying exhaust outlet and right dry exhaust mouthful;Evaporator, Blower fan, water receiving tank and dehydration device are installed between exhaust outlet and air inlet, left radiator located at it is left dehumidifying exhaust outlet and Between left dry exhaust mouthful and air inlet, right radiator located at right dehumidifying exhaust outlet and right dry exhaust mouthful and air inlet it Between;Left radiator is provided with left moisture absorption grid, and right radiator is provided with right moisture absorption grid, and left moisture absorption grid and right moisture absorption grid are provided with moisture absorption material Material, left moisture absorption grid and right moisture absorption grid are provided with through hole and with ventilative function, and moisture wicking material includes activated carbon, activated carbon Fiber and water-absorbing resin;Controller is connected by control line with heat pump assembly and dehydration device;Left radiator and the right side dissipate Lower electrically operated gate is provided between hot device and evaporator, lower electrically operated gate is provided with air-guiding hole;Left dehumidifying exhaust outlet and left dry exhaust mouthful Left electrically operated gate is provided with, left electrically operated gate is provided with left bank stomata;Right dehumidifying exhaust outlet and right dry exhaust mouthful are provided with right electrically operated gate, right Electrically operated gate is provided with right steam vent.
The operation principle of intelligent air energy hygroscopic machine is:During work, intelligent air energy hygroscopic machine is placed in needs dehumidifying Interior, controls heat pump assembly and dehydration device to run using controller;Be pumped into for malaria by controller control blower fan The absorbing membrane of dehydration device, the moisture for being pumped into air is absorbed using absorbing membrane;It is pumped into after air absorbs moisture through absorbing membrane and enters Evaporator carries out dehumidification by condensation, and the air of dehumidification by condensation enters right radiator or left radiator, using the right suction of right radiator The moisture of the left moisture absorption grid absorption air of damp grid or left radiator, the sky after absorbing moisture through right moisture absorption grid or left moisture absorption grid Gas, interior is discharged to by left dehumidifying exhaust outlet or right dehumidifying exhaust outlet;So constantly circulation, using the continuous absorption chamber of various methods The moisture of interior air.
When intelligent air energy hygroscopic machine works, after absorbing membrane is absorbed into the time that the moisture of air reaches setting, control Device control dehydration device dehydration, motor drives dewatering basket to rotate, the water of absorbing membrane is dehydrated into groove;Sky after absorbing membrane dehumidifying Gas carries out dehumidification by condensation into evaporator, the condensation flow of evaporator to water receiving tank;The water of dehydration groove and water receiving tank is by shell Water receiving case collect;Air after dehumidification by condensation enters right radiator, using the moisture of right moisture absorption grid absorption air, through the right moisture absorption The air that the moisture wicking material of grid absorbs moisture is discharged to interior;Meanwhile, using left radiators heat and the left moisture absorption grid of drying Moisture wicking material, makes the moisture evaporation of left moisture absorption grid moisture wicking material be discharged to outdoor, left moisture absorption grid moisture wicking material is dried and is recovered Moisture absorption function;After left moisture absorption grid moisture wicking material is dried, or, the moisture wicking material of the left moisture absorption grid of drying reaches the time of setting, Controller controls left radiator to stop heating, and the air after evaporator condensation dehumidifying enters left radiator, using left radiator Left moisture absorption grid are absorbed into the moisture of air, and the air for absorbing moisture through left moisture absorption grid is expelled back into interior;Meanwhile, controller control Right radiators heat dries the moisture wicking material of right moisture absorption grid, and the moisture evaporation of right moisture absorption grid moisture wicking material is discharged into outdoor;Utilize Right moisture absorption grid replace the moisture absorption with left moisture absorption grid, and the moisture wicking material of left moisture absorption grid is dried using left radiator and right radiators heat And the moisture wicking material of right moisture absorption grid;So constantly circulation, by indoor air dehumidification, improves the effect of the moisture absorption.
The beneficial effects of the invention are as follows:Intelligent air energy hygroscopic machine is provided with dehydration device and heat pump assembly, using dehydration Device carries out first time dehumidifying, and second dehumidifying is carried out using evaporator, and the 3rd is carried out using left moisture absorption grid or right moisture absorption grid Secondary dehumidifying, improves the effect on moisture extraction of intelligent air energy hygroscopic machine;Meanwhile, the water of absorbing membrane is taken off using dehydration device, profit With the left moisture absorption grid of the air energy heat drying of left radiator or right radiator or the moisture wicking material of right moisture absorption grid, recover left The moisture absorption function of moisture absorption grid and right moisture absorption grid moisture wicking material.
Brief description of the drawings
Fig. 1 is the structural representation of intelligent air energy hygroscopic machine.
Specific embodiment
The present invention is further detailed with specific embodiment below in conjunction with the accompanying drawings:
The structural representation of the intelligent air energy hygroscopic machine shown in Fig. 1, intelligent air energy hygroscopic machine includes heat pump assembly 1st, dehydration device 2, controller 3 and shell 4, heat pump assembly 1 and dehydration device 2 are installed on shell 4;Heat pump assembly 1 includes There are evaporator 5, left radiator 7, right radiator 8, blower fan 9 and water receiving tank 10, dehydration device 2 includes motor 11, dewatering basket 12nd, absorbing membrane 13 and dehydration groove 14, the support of motor 11 are connected with shell 5, and dewatering basket 12 is connected with the rotating shaft of motor 11, inhales Moisture film 13 is on dewatering basket 12;Shell 4 is provided with exhaust outlet 15 and air inlet 16, and exhaust outlet 15 includes left dehumidifying exhaust outlet 17th, left dry exhaust mouthful 18, right dehumidifying exhaust outlet 19 and right dry exhaust mouthful 20;Evaporator 5, blower fan 9, water receiving tank 10 and Dehydration device 2 is installed between exhaust outlet 15 and air inlet 16, and left radiator 7 is located at left dehumidifying exhaust outlet 17 and left drying Between exhaust outlet 18 and air inlet 16, right radiator 8 is located at right dehumidifying exhaust outlet 19 and right dry exhaust mouthful 20 and air inlet Between 16;Left radiator 7 is provided with left moisture absorption grid 21, and right radiator 8 is provided with right moisture absorption grid 22;Left moisture absorption grid 21 and right moisture absorption grid 22 are provided with moisture wicking material, and left moisture absorption grid 21 and right moisture absorption grid 22 are provided with through hole and with ventilative function, moisture wicking material bag Include active charcoal, NACF and water-absorbing resin;Controller 3 is connected by control line with heat pump assembly 1 and dehydration device 2 Connect;Lower electrically operated gate 23 is provided between left radiator 7 and right radiator 8 and evaporator 5, lower electrically operated gate 23 is provided with air-guiding hole 24; Left dehumidifying exhaust outlet 17 and left dry exhaust mouthful 18 are provided with left electrically operated gate 25, and left electrically operated gate 25 is provided with left bank stomata 26;Remove on the right side Wet exhaust outlet 19 and right dry exhaust mouthful 20 are provided with right electrically operated gate 27, and right electrically operated gate 27 is provided with right steam vent 28.
The operation principle of intelligent air energy hygroscopic machine is:During work, intelligent air energy hygroscopic machine is placed in needs dehumidifying Interior, is run and dehydration device 2 using the control heat pump assembly 1 of controller 3;The control blower fan 9 of controller 3 takes out malaria Enter the absorbing membrane 13 to dehydration device 2, the moisture for being pumped into air is absorbed using absorbing membrane 13;Air is pumped into be absorbed through absorbing membrane 13 Dehumidification by condensation is carried out into evaporator 5 after moisture, the air of dehumidification by condensation enters right radiator 8 or left radiator 7, using the right side The moisture of the right moisture absorption grid 22 of radiator 8 or the left absorption air of moisture absorption grid 21 of left radiator 7, through right moisture absorption grid 22 or a left side Moisture absorption grid 21 absorb the air after moisture, and interior is discharged to by left dehumidifying exhaust outlet 17 or right dehumidifying exhaust outlet 19;So constantly Circulation.
When intelligent air energy hygroscopic machine works, after absorbing membrane 13 is absorbed into the time that the moisture of air reaches setting, control The control of device processed 3 dehydration device 2 is dehydrated, and motor 11 drives dewatering basket 12 to rotate, and the water of absorbing membrane 13 is dehydrated into groove 14;Water suction Air after film 13 dehumidifies carries out dehumidification by condensation into evaporator 5, the condensation flow of evaporator 5 to water receiving tank 10;Dehumidification by condensation Air afterwards enters right radiator 8, using the moisture of the right absorption air of moisture absorption grid 22, is absorbed through the moisture wicking material of right moisture absorption grid 22 The air of moisture is discharged to interior;Meanwhile, the moisture wicking material of left moisture absorption grid 21 is heated and dried using left radiator 7, make a left side The moisture evaporation of the moisture wicking material of moisture absorption grid 21 is discharged to outdoor, the left moisture wicking material of moisture absorption grid 21 is dried and recover moisture absorption function; After the left moisture wicking material of moisture absorption grid 21 is dried, or, the moisture wicking material of the left moisture absorption grid 21 of drying reaches the time of setting, controller The 3 left radiators 7 of control stop heating, and the air after the dehumidification by condensation of evaporator 5 enters left radiator 7, using a left side for left radiator 7 Moisture absorption grid 21 are absorbed into the moisture of air, and the air for absorbing moisture through left moisture absorption grid 21 is expelled back into interior;Meanwhile, controller 3 The moisture wicking material of the right moisture absorption grid 22 of the heat drying of right radiator 8 is controlled, the moisture evaporation of the right moisture wicking material of moisture absorption grid 22 is discharged to It is outdoor;Replace the moisture absorption with left moisture absorption grid 21 using right moisture absorption grid 22, it is left using left radiator 7 and the heat drying of right radiator 8 The moisture wicking material of the moisture wicking material of moisture absorption grid 21 and right moisture absorption grid 22;So constantly circulation, by indoor air dehumidification, improves and inhales The effect of tide.
When intelligent air energy hygroscopic machine works, controller 3 controls left radiator 7 and right radiator 8 to be circulated heating Work, when left radiator 7 is heated, right radiator 8 stops heating, and when left radiator 7 stops heating, right radiator 8 is heated, so Constantly circulation;When right radiator 8 is heated, the refrigerant of heat pump assembly 1 is cold when right radiator 8 stops heating by right radiator 8 Matchmaker can not be by right radiator 8;Left radiator 7 is heated, and by left radiator 7, left radiator 7 stops the refrigerant of heat pump assembly 1 During heating, refrigerant can not be by left radiator 7.
The original state of lower electrically operated gate 23 is:The air-guiding hole 24 of lower electrically operated gate 23 is located at the right air intake vent 29 of right radiator 8, Air-guiding hole 24 is connected with right air intake vent 29, and lower electrically operated gate 23 closes the left air intake vent 30 of left radiator 7;At the beginning of left electrically operated gate 25 Beginning state is:The left bank stomata 26 of left electrically operated gate 25 is located at left dry exhaust mouthful 18, left bank stomata 26 and left dry exhaust mouthful 18 Connection, left electrically operated gate 25 closes left dehumidifying exhaust outlet 17;The original state of right electrically operated gate 27 is:The right exhaust of right electrically operated gate 27 Hole 28 is located at right dehumidifying exhaust outlet 19, and right steam vent 28 is connected with right dehumidifying exhaust outlet 19, and right electrically operated gate 27 is by right dry exhaust Mouth 20 is closed.
After the left moisture wicking material of moisture absorption grid 21 is dried, or, the moisture wicking material that left radiator 7 dries left moisture absorption grid 21 reaches and sets After the fixed time, the lower electrically operated gate 23 of the control of controller 3 is rotated, and makes the air-guiding hole 24 of lower electrically operated gate 23 an against left side for left radiator 7 Air intake vent 30, meanwhile, lower electrically operated gate 23 closes the right air intake vent 29 of right radiator 8;And controller 3 controls left electrically operated gate 25 Rotate, make left electrically operated gate 25 left bank stomata 26 turn to it is left dehumidifying exhaust outlet 17 position, make left bank stomata 26 with left dehumidifying Exhaust outlet 17 is connected, meanwhile, left electrically operated gate 25 closes left dry exhaust mouthful 18;By the air out of evaporator 5 by air-guiding hole 24 and left air intake vent 30 enter left radiator 7, into left radiator 7 air through left moisture absorption grid 21 the moisture wicking material moisture absorption Afterwards, interior is discharged to by left bank stomata 26 and left dehumidifying exhaust outlet 17;Lower electrically operated gate 23 is by the envelope of right air intake vent 29 of right radiator 8 After closing, controller 3 controls right electrically operated gate 27 to rotate, and the right steam vent 28 of right electrically operated gate 27 is turned to right dry exhaust mouthful 20 Position, meanwhile, right electrically operated gate 27 closes right dehumidifying exhaust outlet 19;The moisture absorption material of the right moisture absorption grid 22 of the heat drying of right radiator 8 Material, the steam of heating evaporation is discharged to outdoor by right dry exhaust mouthful 20;So constantly circulation.
Heat pump assembly 1 includes compressor 31 and expansion valve 32, refrigerant out splice going splice 33 and the left radiating of compressor 31 Device 7 and right radiator 8 are connected, and left radiator 7 and right radiator 8 are connected with expansion valve 32, and expansion valve 32 connects with evaporator 5 Connect, evaporator 5 is connected with compressor 31;Shell 4 is provided with water receiving case 35, and water receiving tank 10 and dehydration groove 14 connect with water receiving case 35 Connect;Dehydration groove 14 is provided with low groove 36 and lower convex platform 37, and lower convex platform 37 is provided with lower air-vent 38;Water receiving tank 10 is provided with upper groove 39 and convex platform 40, convex platform 40 is provided with air-vent 41;Lower air-vent 38 and upper air-vent 41 and exhaust outlet 17 and Air inlet 16 is connected.
When intelligent air energy hygroscopic machine works, indoor moisture air enters absorbing membrane 13 through being dehydrated the lower air-vent 38 of groove 14 The moisture absorption, after the time that the moisture absorption of absorbing membrane 13 reaches setting, 3 controlled motor of controller 11 drives dewatering basket 12 to rotate, using centrifugation The water of absorbing membrane 13 is thrown away dehydration groove 14 by power, and the water for being dehydrated groove 14 flows to water receiving case 35;Motor 11 drives 12 turns of dewatering basket The dynamic time for reaching setting, the controlled motor 11 of controller 3 stops, so constantly circulation;After absorbing membrane 13 absorbs moisture Air, air enters evaporator 5 by the upper air-vent 41 of water receiving tank 14, and the air of entrance is lowered the temperature dehumidification by condensation by evaporator 5, is steamed The condensation flow of device 5 is sent out to water receiving tank 10, the water of water receiving tank 10 flows to water receiving case 35;Air after dehumidification by condensation enters left radiating Device 7 or right radiator 8, after absorbing moisture through the moisture wicking material of left moisture absorption grid 21 or the moisture wicking material of right moisture absorption grid 22, by Left dehumidifying exhaust outlet 17 or right dehumidifying exhaust outlet 19 are discharged to interior;So constantly circulation.
In order to implement that indoor humid air is dehumidified, when blower fan 9 runs, the flow direction of air is by entering in shell 4 Gas port 16 points to exhaust outlet 15;Humid air except wet channel is:Air inlet 16 → lower 41 → absorbing membrane of air-vent 13 → upper saturating 27 → evaporator of stomata 5 → left radiator 7 → left moisture absorption grid 21 → left dehumidifying exhaust outlet 17;Or, the dehumidifying of humid air is led to Road is:Air inlet 16 → lower 41 → absorbing membrane of air-vent 13 → 5 → right radiator 8 of upper 27 → evaporator of air-vent → right moisture absorption grid 22 → right dehumidifying exhaust outlet 19.
In order to using the moisture wicking material of the moisture wicking material of the left moisture absorption grid 21 of air energy heat drying and right moisture absorption grid 22;It is left Radiator 7 is provided with left magnetic valve 42 and left check valve 43, and right radiator 8 is provided with right magnetic valve 44 and right check valve 45;It is left The attachment structure of the refrigerant passage of radiator 7 and right radiator 8 is:The input adapter of left radiator 7 connects with left magnetic valve 42 Connect, the out splice going splice of left radiator 7 is connected with left check valve 43;The input adapter of right radiator 8 is connected with right magnetic valve 44, right The out splice going splice of radiator 8 is connected with right check valve 45;Left magnetic valve 42 is connected in parallel with right magnetic valve 44, and left check valve 43 is right Check valve 45 is connected in parallel;The conducting direction of left check valve 43 is to point to expansion valve 34, negative side by the out splice going splice of left radiator 7 To being not turned on;The conducting direction of right check valve 45 is to point to expansion valve 34 by the out splice going splice of right radiator 8, and opposite direction is not turned on.
In order to implement the Based Intelligent Control of intelligent air energy hygroscopic machine, controller 3 is provided with lower humidity sensor 46, upper left humidity Sensor 47, upper right humidity sensor 48 and control panel 49, control panel 49 are provided with automatic control switch 50, shutdown switch 51 and wetness display unit 52;Lower humidity sensor 46 is installed on air inlet 16, and upper left humidity sensor 47 is installed on left dehumidifying Exhaust outlet 17, upper right humidity sensor 48 is installed on right dehumidifying exhaust outlet 19;Lower humidity sensor 46, upper left humidity sensor 47 And upper right humidity sensor 48 is connected by sensing line with controller 3;When controller 3 works, lower humidity sensor 46 will enter The moisture signal of gas port 16 is transferred to controller 3, and the control wetness display unit 52 of controller 3 shows the humidity of air inlet 16;Upper left The moisture signal of exhaust outlet 15 is transferred to controller 3 by humidity sensor 47 and upper right humidity sensor 48, and controller 3 is controlled Wetness display unit 52 shows the humidity of exhaust outlet 15;User, can observe air inlet 16 and exhaust outlet in wetness display unit 52 The change of 15 humidity.
In order to by the moisture collection of room air, in water receiving case 35, blower fan 9 steams between air inlet 16 and dehydration groove 14 Hair device 5 is located between left radiator 7 and right radiator 8 and water receiving tank 10, and dewatering basket 12 is located at water receiving tank 10 and dehydration groove 14 Between, dehydration groove 14 is located between dewatering basket 12 and blower fan 9, and blower fan 9 is between dehydration groove 14 and air inlet 16;Dewatering basket 12 Within dehydration groove 14;Dehydration groove 14 is provided with lower drainage joint 54, and water receiving tank 10 is provided with drainage joint 55, lower drainage joint 54 and upper drainage joint 55 connected with water receiving case 35.During 12 rotary dehydration of dewatering basket, absorbing membrane 13 follows dewatering basket 12 to rotate, The water that absorbing membrane 13 absorbs is thrown to dehydration groove 12, water receiving case 35 is flowed to through lower drainage joint 54 by dehydration groove 12.Evaporator 5 When changes in temperature dehumidify, the condensed water of evaporator 5 drips to water receiving tank 10 by evaporator 5, is discharged to through upper drainage joint 55 by water receiving tank 10 Water receiving case 35;Water receiving tank 10 and dehydration groove 14 are made up of aluminium alloy plate.
When intelligent air energy hygroscopic machine works, automatic control switch 50 is pressed, the entrance of controller 3 automatically controls work shape State, when the air humidity of air inlet 16 reaches the top limit value of humidity of setting, lower humidity sensor 46 transmits its moisture signal To controller 3, the control heat pump assembly 1 of controller 3 and dehydration device 2 are run, and are removed using heat pump assembly 1 and dehydration device 2 It is wet;As indoor air humidity is constantly reduced, when the humidity lower limit of the humidity reduction setting of room air, lower humidity is passed Its moisture signal is transferred to controller 3 by sensor 46, and the control heat pump assembly 1 of controller 3 and dehydration device 2 stop.
In order to implement the water suction and dehydration of absorbing membrane 13, absorbing membrane 13 has water suction and ventilative function, absorbing membrane 13 Passage 56 is provided with, absorbing membrane 13 is made up of absorbent material, absorbent material includes natural absorbent material and synthesis water-absorption material Material;Absorbing membrane 13 includes sponge, fiber and cloth.
In order to reduce interference of the compressor 31 to air inlet 16, shell 4 is provided with control room 34, and control room 34 is located at air inlet 16 lower section, control room 34 is provided with dividing plate 53, and control room 34 is separated with air inlet 16, and compressor 31 is installed on control room 34 It is interior;Shell 4 is provided with hook 6, and water receiving case 35 is hung on hook 6;Shell 4 is provided with blast pipe 57, blast pipe 57 and left dry exhaust 20) mouth 18 and right dry exhaust mouth connect;The moisture for drying evaporation is discharged to outdoor using blast pipe 57.

Claims (9)

1. intelligent air energy hygroscopic machine, it is characterised in that:Described intelligent air energy hygroscopic machine, includes heat pump assembly(1), it is de- Water installations(2), controller(3)And shell(4), heat pump assembly(1)And dehydration device(2)It is installed on shell(4);Heat pump is filled Put(1)Include evaporator(5), left radiator(7), right radiator(8), blower fan(9)And water receiving tank(10), dehydration device (2)Include motor(11), dewatering basket(12), absorbing membrane(13)And dehydration groove(14), motor(11)Support and shell(4) Connection, dewatering basket(12)With motor(11)Rotating shaft connection, absorbing membrane(13)Located at dewatering basket(12)On;Shell(4)The row of being provided with Gas port(15)And air inlet(16), exhaust outlet(15)Include left dehumidifying exhaust outlet(17), left dry exhaust mouthful(18), the right side removes Wet exhaust outlet(19)And right dry exhaust mouthful(20);Evaporator(5), blower fan(9), water receiving tank(10)And dehydration device(2) It is installed on exhaust outlet(15)With air inlet(16)Between, left radiator(7)Located at left dehumidifying exhaust outlet(17)And left dry row Gas port(18)With air inlet(16)Between, right radiator(8)Located at right dehumidifying exhaust outlet(19)And right dry exhaust mouthful(20) With air inlet(16)Between;Left radiator(7)It is provided with left moisture absorption grid(21), right radiator(8)It is provided with right moisture absorption grid(22);Control Device(3)By control line and heat pump assembly(1)And dehydration device(2)Connection;Left radiator(7)And right radiator(8)With Evaporator(5)Between be provided with lower electrically operated gate(23), lower electrically operated gate(23)It is provided with air-guiding hole(24);Left dehumidifying exhaust outlet(17)And Left dry exhaust mouthful(18)It is provided with left electrically operated gate(25), left electrically operated gate(25)It is provided with left bank stomata(26);Right dehumidifying exhaust outlet (19)And right dry exhaust mouthful(20)It is provided with right electrically operated gate(27), right electrically operated gate(27)It is provided with right steam vent(28);Heat pump is filled Put(1)Include compressor(31)And expansion valve(32), compressor(31)Refrigerant out splice going splice(33)With left radiator(7) And right radiator(8)Connection, left radiator(7)And right radiator(8)With expansion valve(32)Connection, expansion valve(32)With steaming Hair device(5)Connection, evaporator(5)With compressor(31)Connection;Shell(4)It is provided with water receiving case(35), water receiving tank(10)And it is de- Tank(14)With water receiving case(35)Connection;Dehydration groove(14)It is provided with low groove(36)And lower convex platform(37), lower convex platform(37)If There is lower air-vent(38);Water receiving tank(10)It is provided with upper groove(39)And convex platform(40), convex platform(40)It is provided with air-vent (41);Lower air-vent(38)And upper air-vent(41)With exhaust outlet(17)And air inlet(16)Connection.
2. intelligent air energy hygroscopic machine according to claim 1, it is characterised in that:Described lower electrically operated gate(23)It is initial State is:Lower electrically operated gate(23)Air-guiding hole(24)Positioned at right radiator(8)Right air intake vent(29), air-guiding hole(24)Enter with the right side Air port(29)Connection, lower electrically operated gate(23)By left radiator(7)Left air intake vent(30)Closing;Left electrically operated gate(25)Initial shape State is:Left electrically operated gate(25)Left bank stomata(26)Positioned at left dry exhaust mouthful(18), left bank stomata(26)With left dry exhaust Mouthful(18)Connection, left electrically operated gate(25)By left dehumidifying exhaust outlet(17)Closing;Right electrically operated gate(27)Original state be:It is right electronic Door(27)Right steam vent(28)Positioned at right dehumidifying exhaust outlet(19), right steam vent(28)With right dehumidifying exhaust outlet(19)Connection, Right electrically operated gate(27)By right dry exhaust mouthful(20)Closing.
3. intelligent air energy hygroscopic machine according to claim 1, it is characterised in that:Described left radiator(7)It is provided with a left side Magnetic valve(42)And left check valve(43), right radiator(8)It is provided with right magnetic valve(44)And right check valve(45);Left radiating Device(7)And right radiator(8)The attachment structure of refrigerant passage be:Left radiator(7)Input adapter and left magnetic valve (42)Connection, left radiator(7)Out splice going splice and left check valve(43)Connection;Right radiator(8)Input adapter and right electricity Magnet valve(44)Connection, right radiator(8)Out splice going splice and right check valve(45)Connection;Left magnetic valve(42)With right magnetic valve (44)It is connected in parallel, left check valve(43)Right check valve(45)It is connected in parallel.
4. intelligent air energy hygroscopic machine according to claim 3, it is characterised in that:Described left check valve(43)Conducting Direction is by left radiator(7)Out splice going splice point to expansion valve(34), opposite direction is not turned on;Right check valve(45)Conducting direction It is by right radiator(8)Out splice going splice point to expansion valve(34), opposite direction is not turned on.
5. intelligent air energy hygroscopic machine according to claim 1, it is characterised in that:Described controller(3)It is provided with down wet Degree sensor(46), upper left humidity sensor(47), upper right humidity sensor(48)And control panel(49), control panel (49)It is provided with automatic control switch(50), shutdown switch(51)And wetness display unit(52);Lower humidity sensor(46)Install In air inlet(16), upper left humidity sensor(47)It is installed on left dehumidifying exhaust outlet(17), upper right humidity sensor(48)Install In right dehumidifying exhaust outlet(19);Lower humidity sensor(46), upper left humidity sensor(47)And upper right humidity sensor(48) By sensing line and controller(3)Connection.
6. intelligent air energy hygroscopic machine according to claim 1, it is characterised in that:Described blower fan(9)Located at air inlet (16)With dehydration groove(14)Between, evaporator(5)Located at left radiator(7)And right radiator(8)With water receiving tank(10)Between, Dewatering basket(12)Located at water receiving tank(10)With dehydration groove(14)Between, it is dehydrated groove(14)Located at dewatering basket(12)With blower fan(9)It Between, blower fan(9)Located at dehydration groove(14)With air inlet(16)Between;Dewatering basket(12)Positioned at dehydration groove(14)Within.
7. intelligent air energy hygroscopic machine according to claim 1, it is characterised in that:Described left moisture absorption grid(21)And it is right Moisture absorption grid(22)It is provided with moisture wicking material, left moisture absorption grid(21)And right moisture absorption grid(22)It is provided with through hole and with ventilative work( Can, moisture wicking material includes activated carbon, NACF and water-absorbing resin.
8. intelligent air energy hygroscopic machine according to claim 1, it is characterised in that:Described absorbing membrane(13)With water suction And ventilative function, absorbing membrane(13)It is provided with passage(56), absorbing membrane(13)It is made up of absorbent material, absorbent material includes There are natural absorbent material and synthesis absorbent material;Absorbing membrane(13)Include sponge, fiber and cloth.
9. intelligent air energy hygroscopic machine according to claim 1, it is characterised in that:Described shell(4)It is provided with blast pipe (57), blast pipe(57)With left dry exhaust mouthful(18)And right dry exhaust mouthful(20) connect;Using blast pipe(57)Will be dry The moisture of dry evaporation is discharged to outdoor.
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CN105713455A (en) * 2016-01-25 2016-06-29 中山昊天节能科技有限公司 Indoor air-energy moisture absorber
CN112255036B (en) * 2020-10-21 2024-05-14 国网新疆电力有限公司奎屯供电公司 High-pressure oil-filled sleeve sampling moistureproof air suction device

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CN204254771U (en) * 2014-12-02 2015-04-08 宁波市鄞州立兴微特电机厂 Dehumidifier
CN104833021A (en) * 2015-04-25 2015-08-12 林智勇 Intelligent air energy dehumidifier

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JP2001116290A (en) * 1999-10-14 2001-04-27 Toto Ltd Heating dryer

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CN204016195U (en) * 2014-08-25 2014-12-17 蒋钱 A kind of moisture absorption apparatus of centrifugal accumulation
CN204254771U (en) * 2014-12-02 2015-04-08 宁波市鄞州立兴微特电机厂 Dehumidifier
CN104833021A (en) * 2015-04-25 2015-08-12 林智勇 Intelligent air energy dehumidifier

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