CN103591659A - Spraying type air conditioning equipment and air conditioning method - Google Patents
Spraying type air conditioning equipment and air conditioning method Download PDFInfo
- Publication number
- CN103591659A CN103591659A CN201310517123.8A CN201310517123A CN103591659A CN 103591659 A CN103591659 A CN 103591659A CN 201310517123 A CN201310517123 A CN 201310517123A CN 103591659 A CN103591659 A CN 103591659A
- Authority
- CN
- China
- Prior art keywords
- air
- liquid
- fountain
- casing
- conditioning
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
Images
Classifications
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B30/00—Energy efficient heating, ventilation or air conditioning [HVAC]
- Y02B30/54—Free-cooling systems
Landscapes
- Disinfection, Sterilisation Or Deodorisation Of Air (AREA)
Abstract
The invention relates to spraying type air conditioning equipment and an air conditioning method. The spraying type air conditioning equipment used for conditioning to-be-treated air in a space comprises a first air conditioner body. The first air conditioner body comprises a first box system, a first air system and a first spraying type liquid system. The first box system comprises a first box provided with an outlet of treated air. The first air system is used for delivering the to-be-treated air into the first box. The first spraying type liquid system is used for delivering first liquid into the first box and spraying or discharging the first liquid in the first box to the air delivered into the first box. The to-be-treated air is in contact with the first liquid in the first box. The first liquid physically or chemically or biologically reacts with one or more kinds of pollutants in the to-be-treated air so as to purify the to-be-treated air. The spraying type air conditioning equipment is simple in structure, high in efficiency and convenient for conditioning.
Description
Technical field
The present invention relates to air cleaning facility and air purification method, specifically, relate to a kind of fountain air-conditioning equipment, and the method that adopts this fountain air-conditioning equipment to carry out air conditioning.
Background technology
In the space of our live and work, air pollution is ubiquitous, in order to build a life and work space with good air quality, various air purifiers have been come into huge numbers of families, air purifier kind on existing market is more, configurations, as electrostatic, electronic dust-collecting type, plasma formula, fountain etc. (the disclosed a kind of spray-type air purification air-conditioner of Chinese invention patent application that wherein, fountain is CN102767881A just like notification number); Above-mentioned existing air purifier is all generally that air is purified, such as removing airborne dust, bacterium, toxic gas etc., but can not change the temperature and humidity of room air, at hot weather, indoor temperature is higher, also needing to open air-conditioning lowers the temperature, in cold winter, indoor temperature is lower and dry, also needs to open heating equipment and humidifier, this way has not only increased electric cost, has also increased the spending of buying electrical equipment.In addition, reason due to each side, in air, contain physics or chemistry or biological pollutant (as formaldehyde, benzene, ammonia, bacterium, virus, mould, dust, particle, PM2.5 etc.), the efficiency that existing air purifier can not be removed pollutant or removal pollutant is low, and health is had a negative impact.
Summary of the invention
Technical problem to be solved by this invention is that providing a kind of can purify air, and can regulate temperature, can regulate the fountain air-conditioning equipment of humidity for the deficiency of existing air purifier or air-conditioner or humidifier existence.
To achieve these goals, fountain air-conditioning equipment of the present invention, regulates for the pending air to a space, comprises the first air-conditioning body, and described the first air-conditioning body comprises the first box system, the first air system and the first fountain liquid system.The first box system comprises the first casing that is provided with the rear air outlet of processing on it.The first air system is for being delivered to described the first casing by pending air.The first fountain liquid system sprays or discharges first liquid in first casing to the air being delivered in the first casing for delivery of first liquid to described the first casing, described pending air contacts in the first casing with described first liquid, described first liquid and pending airborne one or more pollutant generation physics or chemistry or biological respinse or effect so that pending air be cleaned.
Above-mentioned fountain air-conditioning equipment, wherein, the temperature by controlling described first liquid to be to regulate the temperature of air after described purification, and the content by controlling water in described first liquid and/or drier is to regulate the humidity of air after described purification.
Above-mentioned fountain air-conditioning equipment, wherein, described the first box system also comprises the first filter member being arranged in described the first casing, for airborne one or more pollutant generation physics with after first liquid is processed or chemistry or biological respinse or effect, processed air is further cleaned, the air after further purification by described processing after air outlet discharge.
Above-mentioned fountain air-conditioning equipment, wherein, described first liquid is that water or main component are water.
Above-mentioned fountain air-conditioning equipment, wherein, the main component of described first liquid is water, and wherein adds the additive that is improved its physics or chemistry or biological nature.
Above-mentioned fountain air-conditioning equipment, wherein, the main component of described first liquid is water, and is wherein added with the surfactant that improves its physics or chemistry or biological nature.
Above-mentioned fountain air-conditioning equipment, wherein, described the first filter member is one or more the combination that comprises wire netting, sandstone, sponge, fiber, zeolite, coral, pottery, active carbon, micro-filtration membrane, milipore filter, pellicle, NF membrane.
Above-mentioned fountain air-conditioning equipment, wherein, described the first air system comprises air delivery pipe road, and described air delivery pipe is provided with air suction inlet, air feeder and air outlet in turn along air throughput direction on road, and described air outlet is arranged in described the first casing.
Above-mentioned fountain air-conditioning equipment, wherein, described the first fountain liquid system comprises liquid transmission pipeline, on described liquid transmission pipeline, along first liquid throughput direction, is provided with in turn liquid-inlet, liquid mouth spray and liquid outlet.
Above-mentioned fountain air-conditioning equipment, wherein, described the first fountain liquid system also includes liquid pressing spraying mechanism, described liquid pressing spraying mechanism comprises fluid intake and liquid booster, described liquid booster is in described the first casing or liquid-inlet sucks first liquid and to first liquid increase pressure, described liquid mouth spray sprays the first liquid increasing after pressure to the air being delivered in described the first casing.
Above-mentioned fountain air-conditioning equipment, wherein, described the first air-conditioning body also includes a control module, for described the first air system and described the first fountain liquid system are controlled automatically.
Above-mentioned fountain air-conditioning equipment, wherein, described control module comprises the first air mass sensor and the first controller.The first air mass sensor contacts with pending air.The first controller is connected with described air feeder.Described the first air mass sensor is for responding to the quality of processed air and feeding back an air mass signal to described the first controller, and described the first controller is adjusted the motor speed of described air feeder according to described air mass signal.
Above-mentioned fountain air-conditioning equipment, wherein, described control module comprises liquid level sensor and second controller.Liquid level sensor is arranged in described the first casing.Second controller is connected with described liquid-inlet and/or described liquid outlet.Whether described liquid level sensor reaches a setting liquid level for detection of the first liquid in described the first casing, and feeding back a liquid level signal to described second controller, described liquid-inlet/described liquid outlet is opened or closed to described second controller according to described liquid level signal.
Above-mentioned fountain air-conditioning equipment, wherein, described control module comprises liquid quality sensor and the 3rd controller.Liquid quality sensor contacts with the liquid in described the first casing.The 3rd controller, is connected with described liquid outlet.Described liquid quality sensor is for responding to the quality of first liquid and feeding back a liquid quality signal to described the 3rd controller, and described the 3rd controller is according to described liquid quality unblanking or close described liquid outlet.
Above-mentioned fountain air-conditioning equipment, wherein, described control module comprises the second air mass sensor and the 4th controller.The second air mass sensor contacts with pending air.The 4th controller is connected with described liquid booster or described liquid mouth spray.Described the second air mass sensor is for responding to the quality of processed air and feeding back an air mass signal to described the 4th controller, described the 4th controller is adjusted the motor speed of described liquid booster according to described air mass signal, or described the 4th controller opens or cut out described liquid mouth spray according to described air mass signal.
Above-mentioned fountain air-conditioning equipment, wherein, the bottom of described the first casing has height structure, and described liquid outlet is positioned at the lowest part of the bottom of described the first casing.
Above-mentioned fountain air-conditioning equipment, wherein, the bottom of described the first casing is provided with sediment outlet.
Above-mentioned fountain air-conditioning equipment, wherein, the bottom of described the first casing has height structure, and described sediment outlet is positioned at the lowest part of the bottom of described the first casing.
Above-mentioned fountain air-conditioning equipment, wherein, also comprise feed flow main and discharge opeing main, described the first air-conditioning body is a plurality of, described in each, the described liquid-inlet of the first air-conditioning body is all connected on described feed flow main, and described in each, the described liquid outlet of the first air-conditioning body is all connected on described discharge opeing main.
Above-mentioned fountain air-conditioning equipment, wherein, also comprises the second air-conditioning body, and described the second air-conditioning body comprises the second box system, connecting line and the second fountain liquid system.The second box system comprises the second casing that is provided with the rear air outlet of processing on it.After the processing of connecting line one end and described the first casing, air outlet is connected, and the other end is connected with described the second casing, so that the air after being purified by the first air-conditioning body is delivered to described the second casing.The second fountain liquid system sprays or discharges second liquid in second casing to the air being delivered in the second casing for delivery of second liquid to described the second casing, described air after being purified by the first air-conditioning body contacts in the second casing with described second liquid, described second liquid and airborne one or more pollutant generation physics by after the first air-conditioning body purification or chemistry or biological respinse or effect so that its again purified.
Above-mentioned fountain air-conditioning equipment, wherein, described the second box system also comprises the second filter member being arranged in described the second casing, for with set out biological reason or chemistry or biological respinse or effect of airborne one or more pollutants after second liquid is processed, processed air being further cleaned, the air after further purification by the processing of described the second casing after air outlet discharge.
Above-mentioned fountain air-conditioning equipment, wherein, the composition of described second liquid and described first liquid is identical or different.
Above-mentioned fountain air-conditioning equipment, wherein, described the second fountain liquid system has identical structure with described the first fountain liquid system.
Above-mentioned fountain air-conditioning equipment, wherein, described the second air-conditioning body includes another control module, for described the second fountain liquid system is controlled automatically.
The present invention further provides a kind of air conditioning method, adopt above-mentioned fountain air-conditioning equipment to regulate the air in a space, comprise the steps:
S200: the first air system is delivered to the first box house by pending air;
S400: the first fountain liquid system is carried first liquid and the air in the first casing is sprayed in the first casing;
S600: first liquid with enter the air generation physics of the first box house or chemistry or biological respinse or effect so that pending air is cleaned;
S800: the air outlet from described processing of the air after being cleaned is discharged.
Above-mentioned air conditioning method, wherein, after described step S600, before step S800, also comprises step:
S700: processed air is further cleaned by one first filter member and airborne one or more pollutant generation physics after first liquid is processed or chemistry or biological respinse or effect.
Above-mentioned air conditioning method, wherein, has step S410 in described step S400: spray after by a liquid pressing spraying mechanism, first liquid being pressurizeed.
Above-mentioned air conditioning method, wherein, in described step S200, there is step S220: the first air system is controlled automatically, described the first air system comprises air delivery pipe road, described air delivery pipe is provided with air suction inlet, air feeder and air outlet in turn along air throughput direction on road, and described air outlet is arranged in described the first casing.
Above-mentioned air conditioning method, wherein, described step S220 comprises:
Step S221: respond to the quality of processed air and feed back an air mass signal to one first controller by one first air mass sensor; And
Step S222: the first controller is adjusted the motor speed of described air feeder according to described air mass signal.
Above-mentioned air conditioning method, wherein, in described step S400, there is step S420: the first fountain liquid system is controlled automatically, described the first fountain liquid system comprises liquid transmission pipeline, on described liquid transmission pipeline, along first liquid throughput direction, be provided with in turn liquid-inlet, liquid mouth spray and liquid outlet, described the first fountain liquid system also includes liquid pressing spraying mechanism, described liquid pressing spraying mechanism comprises fluid intake and liquid booster, described liquid booster in described the first casing or liquid-inlet suck first liquid and increase pressure to first liquid, described liquid mouth spray sprays the first liquid increasing after pressure to the air being delivered in described the first casing.
Above-mentioned air conditioning method, wherein, described step S420 comprises:
Step S421: whether the first liquid detecting in the first casing by a liquid level sensor reaches a setting liquid level, and feeds back a liquid level signal to a second controller; And
Step S422: described liquid-inlet/liquid outlet is opened or closed to second controller according to described liquid level signal.
Above-mentioned air conditioning method, wherein, described step S420 comprises:
Step S423: by the quality of a liquid quality sensor sensing first liquid and feed back a liquid quality signal to one the 3rd controller; And
Step S424: the 3rd controller is according to described liquid quality unblanking or close described liquid outlet.
Above-mentioned air conditioning method, wherein, described step S420 comprises:
Step S425: respond to the quality of processed air and feed back an air mass signal to one the 4th controller by one second air mass sensor; And
Step S426: the 4th controller is adjusted the motor speed of described liquid booster according to described air mass signal, or the 4th controller opens or cuts out described liquid mouth spray according to described air mass signal.
Above-mentioned air conditioning method wherein, regulates the air in a space by a plurality of the first air-conditioning bodies simultaneously.
Above-mentioned air conditioning method, wherein, after described step S800, also comprises step S900: the air of air outlet from described processing being discharged by one second box system and one second fountain liquid system regulates again.
Beneficial functional of the present invention is, by the setting of the first fountain liquid system, can to the composition of the air pollutants in space, allocate liquid, one or more pollutants in purifying air targetedly.Air-conditioning equipment adopts casing in conjunction with liquid system structure, simple in structure efficient, and convenient adjusting.
Further, the temperature of first liquid, higher or lower than the temperature of the pending air in a space, can raise or reduce the temperature of air; First liquid contains water or whole composition is water, can increase the humidity of air; First liquid contains drier or whole composition is drier, can reduce the humidity of air.
The present invention is applicable to the air conditioning in house, hotel, market, office, industry and other space, can high-efficient purification air, can regulate temperature and/or the humidity of air.Particularly can be for the composition allotment liquid of air pollutants, one or more pollutants in purifying air, good for health.Can also, when purifying air, raise or reduce the temperature of air or the humidity of change air.The multiple needs of producing or living can be met, the energy or cost can be saved, reliable for effect, easy to use.
Below in conjunction with the drawings and specific embodiments, describe the present invention, but not as a limitation of the invention.
Accompanying drawing explanation
Fig. 1 is the structure chart of the fountain air-conditioning equipment of the first embodiment of the present invention;
Fig. 2 is the structure chart of the fountain air-conditioning equipment of the second embodiment of the present invention;
Fig. 3 is the structure chart of the fountain air-conditioning equipment of the third embodiment of the present invention;
Fig. 4 is the structure chart of the fountain air-conditioning equipment of the fourth embodiment of the present invention;
Fig. 5 is the structure chart of the fountain air-conditioning equipment of the fifth embodiment of the present invention;
Fig. 6 is the structure chart of the fountain air-conditioning equipment of the sixth embodiment of the present invention;
Fig. 7 is the structure chart of the fountain air-conditioning equipment of the seventh embodiment of the present invention;
Fig. 8 is the structure chart of the fountain air-conditioning equipment of the eighth embodiment of the present invention;
Fig. 9 is the structure chart of the fountain air-conditioning equipment of the ninth embodiment of the present invention;
Figure 10 is the structure chart of the fountain air-conditioning equipment of the tenth embodiment of the present invention;
Figure 11 A to Figure 11 F is the control flow chart that the carrying out of fountain air-conditioning equipment of the present invention controlled automatically.
Wherein, Reference numeral
The 100-the first air system
101-air suction inlet
102-air feeder
103-air outlet
The 200-the first fountain liquid system
201-liquid-inlet
2011-feed flow main
202-liquid outlet
2021-discharge opeing main
2101-fluid intake
2102-liquid booster
2103-liquid mouth spray
The 300-the first box system
The 301-the first casing
3011-par
3012-rake
302-air outlet after processing
303-sediment outlet
The 40-the first filter member
The 500-the second fountain liquid system
501-liquid-inlet
502-liquid outlet
5103-liquid mouth spray
The 600-the second box system
The 601-the second casing
602-air outlet after processing
700-connecting line
702-another air feeder
The 80-the second filter member
K1-the first controller
K2, K3-second controller
K4-three controller
K5-four controller
G1-the first air mass sensor
G12-the second air mass sensor
G2-liquid level sensor
G3-liquid quality sensor
The specific embodiment
Below in conjunction with the drawings and specific embodiments, technical solution of the present invention being described in detail, further to understand object of the present invention, scheme and effect, but is not the restriction as claims protection domain of the present invention.
Fountain air-conditioning equipment of the present invention, adopts air to contact with liquid, to purify air or to regulate temperature or the humidity of air, is applicable to the air conditioning in house, hotel, market, office, industry and other space.Below in conjunction with a plurality of embodiment, the present invention is described in detail.
The first embodiment
Consult Fig. 1, Fig. 1 is the schematic diagram of the first embodiment of fountain air-conditioning equipment of the present invention.Fountain air-conditioning equipment of the present invention comprises the first air-conditioning body, and the first air-conditioning body comprises the first air system 100, the first fountain liquid system 200 and the first box system 300.The first box system 300 comprise on the first casing 301, the first casings 301, be provided with process after air outlet 302, particularly, after processing, air outlet 302 is arranged at the first casing 301 tops, for the Bas Discharged of processing.The first air system 200 is for being delivered to pending air the first casing 301.The first fountain liquid system 200 is for delivery of spraying and discharge the first liquid in the first casing to the air being delivered in the first casing in first liquid to the first casing 301, when pending air contacts in the first casing 301 with first liquid, first liquid and pending airborne one or more pollutant generation physics or chemistry or biological respinse or effect so that pending air be cleaned.
Specifically, the first air system 100 comprises air delivery pipe road, on air delivery pipe road, along air throughput direction, be provided with in turn air suction inlet 101, air feeder 102 and air outlet 103, air feeder 102 connects air suction inlet 101 and air outlet 103, air suction inlet 101 is arranged at the first casing 301 outsides, for extraneous air, suck, air outlet 103 is arranged in the first casing 301.The first fountain liquid system 200 comprises liquid transmission pipeline, on liquid transmission pipeline, along first liquid throughput direction, is provided with in turn liquid-inlet 201, liquid mouth spray 2103 and liquid outlet 202.Liquid-inlet 201 enters for first liquid; Liquid outlet 202 is discharged for first liquid.Preferably, liquid outlet 202 is arranged at the first casing 301 bottoms, for first liquid, discharges, and the first casing 301 bottoms are also provided with sediment outlet 303, are used for discharging sediment.
During work, air is sucked by air suction inlet 101, through the first air feeder 102, air is transferred to air outlet 103, by air outlet 103 to the interior exhaust of the first casing 301, the liquid mouth spray 2103 of first liquid system 200 is to the interior spray first liquid of the first casing 301, casing 301 is interior contacts first for air and first liquid, first liquid and airborne one or more pollutants have the chemical or biological effect of physics, thereby airborne one or more pollutants of first liquid contact are reduced or remove, and air is purified.The air being cleaned can directly be discharged in environment by processing rear air outlet 302.
As embodiment preferably, the first box system 300 also comprises the first filter member 40 being arranged in the first casing 301, this first filter member is for airborne one or more pollutant generation physics or chemistry or biological respinse or effect with after first liquid is processed, processed air is further cleaned, air after further purification is by 302 discharges of air outlet after processing, and the first filter member 40 can be positioned at the below of processing rear air outlet 302.Wherein, described the first filter member 40 can comprise one or more combination of wire netting, sandstone, sponge, fiber, zeolite, coral, pottery, active carbon, micro-filtration membrane, milipore filter, pellicle, NF membrane.When air passes through the first filter member 40, the first filter member 40 mainly consists of filtering material, air contacts with filtering material wherein, filtering material has the chemical or biological effect of physics to airborne one or more pollutants, airborne one or more pollutants that contact with filtering material are reduced or remove, and air is purified.Wherein, the first filter member 40 can be arranged on a certain position in the first casing 301 or a plurality of positions in the first casing 301 all arrange this first filter member 40, or be arranged on process after the position of air outlet 302, above one or more combination arrange all can, this is not limited.When the filtering material of the first filter member 40 is all or part of while being drier, after air passes through, can reduce the humidity of air.
Air, from air suction inlet 101 sucks, is discharged and is entered the first casing 301 inside by air outlet 102, purify, then after again purifying by the first filter member 40, from processing, air outlet 302 is discharged through first liquid.
In the present embodiment, the main component of first liquid is water.When air is contacted with first liquid, first liquid, to the physics of airborne pollutant or chemistry or biological agent better effects if, can add the additive that is improved its physics or chemistry or biological nature in first liquid.For example, adding thimerosal can kill bacteria or virus, adds flavouring agent and can produce pleasant smell, and adding catalyst can fast reaction speed, etc.Also can in first liquid, add the surfactant that improves its physics or chemistry or biological nature, surfactant can be there is solubilising, dispersion, washing, anticorrosion and/or anlistatig surfactant, when air is contacted with first liquid, first liquid is to the physics of airborne pollutant or chemistry or biological agent better effects if.Also can in first liquid, add enzyme.Enzyme is biocatalyst, can fast reaction speed, and when air is contacted with first liquid, first liquid is to the physics of airborne pollutant or chemistry or biological agent better effects if.Because the main component of first liquid is water, fountain air-conditioning equipment of the present invention can regulate the humidity of air by first liquid, for example, first liquid contain water or all composition be water, can increase the humidity of air; First liquid contains drier or whole composition is drier, can reduce the humidity of air.
The temperature of the present invention by controlling first liquid with regulate purify after the temperature of air, the temperature of liquid is higher than the temperature of air, the temperature of the air that can raise, the temperature of liquid, lower than the temperature of air, can reduce the temperature of air.The present invention purifies the humidity of rear air by the content of the water in control first liquid and/or drier with adjusting.For example, liquid contains water or whole composition is water, can increase the humidity of air.For example, liquid contains drier or whole composition is drier, can reduce the humidity of air.
In the present embodiment, the first air-conditioning body can be realized the automatic control to the first air system 100, the first fountain liquid system 200 by a control module is set.
In conjunction with consulting Figure 11 A, in order to realize the first air system 100, automatically control, control module can comprise the first air mass sensor G1 and the first controller K1, the first air mass sensor G1 and the first controller K1 electrical connection, this first air mass sensor G1 contacts with pending air, as, this first air mass sensor G1 can be arranged in the first casing 301, also can be arranged in space or air suction inlet, for responding to the quality of processed air and feeding back an air mass signal to the first controller K1, the first controller K1 is connected with air feeder 102, the first controller K1 adjusts the motor speed of air feeder 102 according to air mass signal, for instance, when the first air mass sensor G1 senses air quality that air in space or air suction inlet suck when good, the first controller K1 controls air feeder 102 and does not move, when air quality is bad, the first controller K1 controls air feeder 102 operations, or air quality is poorer, and the motor speed of air feeder 102 is higher.
In conjunction with consulting Figure 11 C, in order to realize the first fountain liquid system, can automatically control, control module can comprise liquid level sensor G2 and second controller K2, the K3 of mutual electrical connection, this liquid level sensor G2 can be arranged in the first casing 301, for detection of the first liquid in the first casing 301, whether reach a setting liquid level, and feed back a liquid level signal to second controller K2, K3.Controller K2 in second controller is connected with liquid-inlet 201, and the controller K3 in second controller is connected with liquid outlet 202.Like this, when the interior liquid of the first casing 301 does not reach setting liquid level value, liquid level sensor G2 sends signal to controller K2, opens or does not close liquid-inlet 201, and liquid-inlet 201 is to casing 301 feed flows; When the interior liquid of the first casing 301 reaches setting liquid level value, liquid level sensor G2 sends signal at stop liquid-inlet 201 to controller K2, and liquid-inlet 201 stops to the first casing 301 feed flows; Liquid in the first casing 301 surpasses while setting liquid level value, liquid level sensor G2 sends signal to controller K3, open liquid outlet 202 discharge opeings, until the interior liquid of the first casing 301 reaches while setting liquid level value, liquid level sensor G2 sends signal to controller K3, closing liquid outlet 202, stops discharge opeing.
Certainly, the first fountain liquid system also can Artificial Control.For example, switching fluid import 201 can be controlled first liquid and enter the first casing 301; Switching fluid outlet 202 can be controlled the discharge of the first liquid in the first casing 301.When first liquid in the first casing 301 is not enough, opening liquid-inlet 201 can liquid feeding; When first liquid in the first casing 301 is too much, opens liquid outlet 202 and can discharge; When the liquid in casing is crossed dirty or inefficacy, switching fluid outlet 202 can be discharged liquid dirty or that lost efficacy, and switching fluid import 201 can fluid infusion.
In conjunction with consulting Figure 11 D, for ensureing the effect of the interior liquid of case the first casing 301 to the physics of air or chemistry or biological treatment, control module also can comprise the second air mass sensor G12 and the 4th controller K5, the second air mass sensor G12 and the 4th controller K5 electrical connection, this second air mass sensor G12 can arrange separately, also can be by the first air mass sensor G1 dual-purpose, for responding to the quality of processed air and feeding back an air mass signal to the 4th controller K5, the 4th controller K5 is connected with liquid mouth spray.During work, the second air mass sensor G12 detects the quality of the air of the air in space or air suction inlet 101 suctions in real time, when the second air mass sensor G12 judges that air quality is good, the second air mass sensor G12 does not send signal or sends to the 4th controller K5 the signal not moving to the 4th controller K5, and liquid mouth spray 2103 is not moved.When the second air mass sensor G12 judges that air quality is bad, the second air mass sensor G12 sends signal to the 4th controller K5, control liquid mouth spray 2103 and run on purification pattern, liquid mouth spray 2103 is with a certain amount of larger to the amount that sprays liquid in casing to spraying liquid or the poorer liquid mouth spray 2103 of air quality in the first casing.
In conjunction with consulting Figure 11 E and Figure 11 F, it is to realize another embodiment control flow chart that the first fountain liquid system is controlled automatically.Control module can comprise liquid quality sensor G3 and the 3rd controller K4 of mutual electrical connection.Liquid quality sensor G3 can be arranged in the first casing 301.The 3rd controller K4 is connected with liquid outlet 202.Liquid quality sensor G3 is for responding to the quality of first liquid and feeding back a liquid quality signal to the 3rd controller K4, and the 3rd controller K4 is according to liquid quality unblanking or closing liquid outlet 202.The 3rd controller K4(is magnetic valve for example), it can arrange separately, controller K3 dual-purpose that also can be in second controller.During control, liquid quality sensor G3 differentiates in real time to the content of the active ingredient of the first casing 301 interior liquid, when the content of the active ingredient of liquid meets or exceeds setting value, liquid quality sensor G3 does not send signal or sends the signal of being failure to actuate to the 3rd controller K4 to the 3rd controller K4, the 3rd controller K4 is failure to actuate, liquid outlet 202 not discharge opeings; When the content of the active ingredient of liquid does not reach setting value, liquid quality sensor G3 sends signal to the 3rd controller K4, opens the liquid outlet 202 some liquid of discharge or evacuation of liquid.Or, during control, liquid quality sensor G3 differentiates in real time to the content of certain or Cucumber (product after the physics of liquid and airborne pollutant or chemistry or biological agent) of liquid in casing, when the content of certain of liquid or Cucumber meets or exceeds setting value, liquid quality sensor G3 sends signal to the 3rd controller K4, opens the liquid outlet 202 some liquid of discharge or evacuation of liquid; When the content of certain of liquid or Cucumber does not reach setting value, liquid quality sensor G3 does not send signal or to controller K4, sends the signal of being failure to actuate to the 3rd controller K4, and the 3rd controller K4 is failure to actuate, liquid outlet 202 not discharge opeings.After the liquid outlet 202 some liquid of discharge or evacuation of liquid, first case 301 interior liquid do not reach sets liquid level value, liquid level sensor G2 sends signal to the controller K2 in second controller, open liquid-inlet 201 to the first casing 301 feed flows, thereby ensure the effect of the interior liquid of the first casing 301 to the physics of air or chemistry or biological treatment.
When the fountain air-conditioning equipment of employing the present embodiment regulates the air in a space, comprise the steps:
S200: the first air system is delivered to the first box house by pending air;
S400: the first fountain liquid system is carried first liquid and the air in the first casing is sprayed in the first casing;
S600: first liquid is to entering the air of the first box house and dissolve or separated or remove or kill and process so that pending air is cleaned;
S700: by the first filter member, airborne one or more pollutants after first liquid is processed are decomposed or filter or adsorb or kill processing, processed air is further cleaned.
S800: the air outlet from processing of the air after being cleaned is discharged.
Above-mentioned space can be house, hotel, market, office, industry and other space.
In above-mentioned steps S200, can have the first air system is controlled to step S220 automatically.This controls step S220 automatically to the first air system can comprise step S221: by the first air mass sensor G1, responded to the quality of processed air and fed back an air mass signal to the first controller K1; And step S222: the first controller K1 adjusts the motor speed of air feeder 102 according to described air mass signal.
In above-mentioned steps S400, can have the first fountain liquid system is controlled to step S420 automatically.The first fountain liquid system is controlled to step S420 automatically and can comprise step S421: whether the first liquid detecting in the first casing by liquid level sensor G2 reaches a setting liquid level, and feeds back a liquid level signal to second controller K2, K3; And step S422: second controller K2, K3 open or closing liquid import/liquid outlet according to described liquid level signal.
The first fountain liquid system is controlled to step S420 automatically and also can comprise step S423: by liquid quality sensor G3, respond to the quality of first liquid and feed back a liquid quality signal to the 3rd controller K4; And step S424: the 3rd controller K4 is according to described liquid quality unblanking or closing liquid outlet 202.
The first fountain liquid system is controlled to step S420 automatically and also can comprise step S425: by the second air mass sensor G12, respond to the quality of processed air and feed back an air mass signal to the 4th controller K5; And step S426: the 4th controller K5 opens or closing liquid mouth spray 2103 according to described air mass signal.
The second embodiment
Consult Fig. 2, Fig. 2 is the schematic diagram of the second embodiment of fountain air-conditioning equipment of the present invention.The fountain air-conditioning equipment of the present embodiment and the fountain air-conditioning equipment of the first embodiment have roughly the same structure, difference is: the bottom of the first casing 301 has height structure, as: corresponding sediment outlet 303 positions, bottom of the first casing 301 have depressed part, that is to say, corresponding sediment outlet 303 regions, bottom of the first casing 301 are lower, sediment in liquid can be gathered in lower, favourable discharge sediment.The structure that the present embodiment is identical with the first embodiment just no longer repeats at this.
The 3rd embodiment
Consult Fig. 3, Fig. 3 is the schematic diagram of the 3rd embodiment of fountain air-conditioning equipment of the present invention.The fountain air-conditioning equipment of the present embodiment and the fountain air-conditioning equipment of the first embodiment have roughly the same structure, difference is: the bottom of the first casing 301 does not arrange sediment outlet 303, but there is depressed part in corresponding liquid outlet 202 positions, the bottom of the first casing 301, that is to say, corresponding liquid outlet 202 regions, bottom of the first casing 301 are lower, sediment in liquid can be gathered in lower, when discharge liquid, sediment can be discharged from simultaneously, favourable discharge sediment.The structure that the present embodiment is identical with the first embodiment just no longer repeats at this.
The 4th embodiment
Consult Fig. 4, Fig. 4 is the schematic diagram of the 4th embodiment of fountain air-conditioning equipment of the present invention.The fountain air-conditioning equipment of the present embodiment and the fountain air-conditioning equipment of the first embodiment have roughly the same structure, difference is: the bottom of the first casing 301 does not arrange sediment outlet 303, the height structure of the bottom of the first casing 301 is: have a par 3011 and two rakes 3012, par 3011 is connected between two rakes 3012 and is positioned at the lowest part of two rakes 3012, liquid outlet 202 is arranged at par 3011, corresponding liquid outlet 202 regions, bottom that is to say the first casing 301 are lower, sediment in liquid can be gathered in lower, when discharge liquid, sediment can be discharged from simultaneously, favourable discharge sediment.The structure that the present embodiment is identical with the first embodiment just no longer repeats at this.
The 5th embodiment
Consult Fig. 5, Fig. 5 is the schematic diagram of the 5th embodiment of fountain air-conditioning equipment of the present invention.The fountain air-conditioning equipment of the present embodiment and the fountain air-conditioning equipment of the first embodiment have roughly the same structure, difference is: the bottom of the first casing 301 does not arrange sediment outlet 303, the bottom of the first casing 301 tilts, liquid outlet 202 is arranged at the lowest part of the bottom of the first casing 301, corresponding liquid outlet 202 regions, bottom that is to say the first casing 301 are lower, sediment in liquid can be gathered in lower, when discharge liquid, sediment can be discharged from simultaneously, favourable discharge sediment.The structure that the present embodiment is identical with the first embodiment just no longer repeats at this.
The 6th embodiment
Consult Fig. 6, Fig. 6 is the schematic diagram of the 6th embodiment of fountain air-conditioning equipment of the present invention.The fountain air-conditioning equipment of the present embodiment and the fountain air-conditioning equipment of the first embodiment have roughly the same structure, difference is: the bottom of the first casing 301 does not arrange sediment outlet 303, the first fountain liquid system 200 also includes liquid pressing spraying mechanism, liquid pressing spraying mechanism comprises fluid intake 2101 and liquid booster 2102, liquid booster 2102 sucks first liquid and increases pressure to first liquid from the first casing 301 or liquid-inlet 201, liquid mouth spray 2103 sprays the first liquid increasing after pressure to the air being delivered in the first casing.
Setting due to liquid pressing spraying mechanism, its control module is also slightly different from the first embodiment: in the present embodiment, the 4th controller K5 is connected with liquid booster 2102, makes the second air mass sensor G12 and the 4th controller K5 also can be used for controlling liquid booster 2102.In conjunction with consulting Figure 11 B, during work, the second air mass sensor G12 detects the quality of the air of the air in space or air suction inlet 101 suctions in real time, when the second air mass sensor G12 judges that air quality is good, the second air mass sensor G12 does not send signal or sends to the 4th controller K5 the signal not moving to the 4th controller K5, and liquid booster 2102 is not moved.When the second air mass sensor G12 judges that air quality is bad, the second air mass sensor G12 sends signal to the 4th controller K5, control liquid booster 2102 and run on purification pattern, liquid booster 2102 is to give the certain pressure operation of liquid or the poorer liquid booster 2102 of air quality higher to the pressure of liquid.
When the fountain air-conditioning equipment of employing the present embodiment regulates the air in a space, have the step roughly the same with the first embodiment, difference is: in described step S400, have step S410: spray after by liquid pressing spraying mechanism, first liquid being pressurizeed.
And being controlled to step S420 automatically, the first fountain liquid system also can comprise step S425: by the second air mass sensor G12, respond to the quality of processed air and feed back an air mass signal to the 4th controller K5; And step S426: the 4th controller is adjusted the motor speed of liquid booster 2102 according to air mass signal.
The description that the structure that the present embodiment is identical with the first embodiment and control mode can be consulted the first embodiment, does not just repeat at this.
The 7th embodiment
Consult Fig. 7, Fig. 7 is the schematic diagram of the 7th embodiment of fountain air-conditioning equipment of the present invention.The fountain air-conditioning equipment of the present embodiment and the fountain air-conditioning equipment of the first embodiment have roughly the same structure, difference is: the bottom of the first casing 301 does not arrange sediment outlet 303, liquid outlet 202 has two, a bottom that is arranged on the first casing 301, one is arranged on the tank wall of the first casing 301 and higher than the first filter member 40.In order well to realize discharge opeing, the liquid level of the first casing 301 is preferably higher than the first filter member 40 but lower than air outlet 302 after processing.
The 8th embodiment
Consult Fig. 8, Fig. 8 is the schematic diagram of the 8th embodiment of fountain air-conditioning equipment of the present invention.The fountain air-conditioning equipment of the present embodiment and the fountain air-conditioning equipment of the first embodiment have roughly the same structure, difference is: also comprise feed flow main 2011 and discharge opeing main 2021, the first air-conditioning body is a plurality of, the liquid-inlet 201 of each the first air-conditioning body is all connected on feed flow main 2011, and the liquid outlet 202 of each the first air-conditioning body is all connected on discharge opeing main 2021.
It should be noted that, a plurality of the first air-conditioning bodies are not limited to the structure in the first embodiment, can be also the structure in the second embodiment, the 3rd embodiment, the 4th embodiment, the 5th embodiment, the 6th embodiment and the 7th embodiment.
The present embodiment regulates the air in space by a plurality of the first air-conditioning bodies simultaneously, and the plurality of the first air-conditioning body can be arranged according to actual needs space different parts (as, same floor or the different floor in house, hotel, market etc.), but common work regulates air, has advantages of efficient energy-saving.
The 9th embodiment
Consult Fig. 9, Fig. 9 is the schematic diagram of the 9th embodiment of fountain air-conditioning equipment of the present invention.The fountain air-conditioning equipment of the present embodiment and the fountain air-conditioning equipment of the first embodiment have roughly the same structure, difference is: also comprise the second air-conditioning body, the second air-conditioning body comprises the second box system 600, connecting line 700 and the second fountain liquid system 500.The second box system 600 comprises the second casing 601 that is provided with the rear air outlet 602 of processing on it.After the processing of connecting line 700 one end and the first casing 301, air outlet 302 is connected, and the other end is connected with the second casing 601, so that the air after being purified by the first fountain liquid system is delivered to described the second casing.The second fountain liquid system 500 is for delivery of spraying and discharge the second liquid in the second casing to the air being delivered in the second casing in second liquid to the second casing 601, air after being purified by the first fountain liquid system contacts in the second casing with second liquid, and second liquid dissolves airborne one or more pollutants after being purified by the first fountain liquid system or be separated or remove or kill processing so that it is purified again.
Preferably, the second box system 600 also comprises the second filter member 80 being arranged in the second casing 601, for airborne one or more pollutants to after second liquid is processed, decompose or filter or adsorb or kill processing, processed air is further cleaned, and the air after further purification is by 602 discharges of air outlet after the processing of the second casing.
In the present embodiment, second liquid can be identical with the composition of first liquid, also can be different.
The second fountain liquid system 500 has identical structure with the first fountain liquid system 300, that is, the second fountain liquid system 500 can be the structure in above-mentioned the first embodiment, also can be the structure in above-mentioned the 6th embodiment.
Similarly, the polycrystalline substance of the second casing 601 also can adopt as the structure in the second embodiment, the 3rd embodiment, the 4th embodiment or the 5th embodiment.
For convenient, control, the second air-conditioning body can comprise another control module, for the second fountain liquid system 500 is controlled automatically, the control principle of this another control module can be similar with the control principle of control module in the first air-conditioning body, at this, just gives an example no longer one by one.
When the fountain air-conditioning equipment of employing the present embodiment regulates air, there is the regulating step roughly the same with the first embodiment, different: after step S800, also to comprise step S900: by the second box system 600 and 500 pairs of air that air outlet 302 is discharged from processing of the second fountain liquid system, again to regulate.
The tenth embodiment
Consult Figure 10, Figure 10 is the schematic diagram of the tenth embodiment of fountain air-conditioning equipment of the present invention.The fountain air-conditioning equipment of the fountain air-conditioning equipment of the present embodiment and the 9th embodiment has roughly the same structure, different: on connecting line 700, be provided with another air feeder 702.
Certainly; the present invention also can have other various embodiments; in the situation that not deviating from spirit of the present invention and essence thereof; those of ordinary skill in the art are when making according to the present invention various corresponding changes and distortion, but these corresponding changes and distortion all should belong to the protection domain of the appended claim of the present invention.
Claims (35)
1. a fountain air-conditioning equipment, regulates for the pending air to a space, it is characterized in that, comprises the first air-conditioning body, and described the first air-conditioning body comprises:
The first box system, comprises the first casing that is provided with the rear air outlet of processing on it;
The first air system, for being delivered to pending air described the first casing; And
The first fountain liquid system, for delivery of first liquid, to described the first casing, to the air being delivered in the first casing, spray and discharge the first liquid in the first casing, described pending air contacts in the first casing with described first liquid, described first liquid and pending airborne one or more pollutant generation physics or chemistry or biological respinse or effect so that pending air be cleaned.
2. fountain air-conditioning equipment according to claim 1, it is characterized in that, temperature by controlling described first liquid to be to regulate the temperature of air after described purification, or the content by controlling water in described first liquid and/or drier is to regulate the humidity of air after described purification.
3. fountain air-conditioning equipment according to claim 1, it is characterized in that, described the first box system also comprises the first filter member being arranged in described the first casing, be used for and described pending airborne one or more pollutant generation physics or chemistry or biological respinse or effect, described pending air is further cleaned, the air after further purification by described processing after air outlet discharge.
4. fountain air-conditioning equipment according to claim 1, is characterized in that, described first liquid is that water or main component are water.
5. fountain air-conditioning equipment according to claim 1, is characterized in that, adds the additive that is improved its physics or chemistry or biological nature in described first liquid.
6. fountain air-conditioning equipment according to claim 1, is characterized in that, is added with the surfactant that improves its physics or chemistry or biological nature in described first liquid.
7. fountain air-conditioning equipment according to claim 3, it is characterized in that, described the first filter member is one or more the combination that comprises wire netting, sandstone, sponge, fiber, zeolite, coral, pottery, active carbon, micro-filtration membrane, milipore filter, pellicle, NF membrane.
8. fountain air-conditioning equipment according to claim 1, it is characterized in that, described the first air system comprises air delivery pipe road, described air delivery pipe is provided with air suction inlet, air feeder and air outlet in turn along air throughput direction on road, and described air outlet is arranged in described the first casing.
9. fountain air-conditioning equipment according to claim 8, it is characterized in that, described the first fountain liquid system comprises liquid transmission pipeline, on described liquid transmission pipeline, along first liquid throughput direction, is provided with in turn liquid-inlet, liquid mouth spray and liquid outlet.
10. fountain air-conditioning equipment according to claim 9, it is characterized in that, described the first fountain liquid system also includes liquid pressing spraying mechanism, described liquid pressing spraying mechanism comprises fluid intake and liquid booster, described liquid booster is in described the first casing or liquid-inlet sucks first liquid and to first liquid increase pressure, described liquid mouth spray sprays the first liquid increasing after pressure to the air being delivered in described the first casing.
11. fountain air-conditioning equipments according to claim 10, is characterized in that, described the first air-conditioning body also includes a control module, for described the first air system and described the first fountain liquid system are controlled automatically.
12. fountain air-conditioning equipments according to claim 11, is characterized in that, described control module comprises:
The first air mass sensor, contacts with pending air; And
The first controller, is connected with described air feeder;
Wherein, described the first air mass sensor is for responding to the quality of processed air and feeding back an air mass signal to described the first controller, and described the first controller is adjusted the motor speed of described air feeder according to described air mass signal.
13. fountain air-conditioning equipments according to claim 11, is characterized in that, described control module comprises:
Liquid level sensor, is arranged in described the first casing; And
Second controller, is connected with described liquid-inlet and/or described liquid outlet;
Wherein, whether described liquid level sensor reaches a setting liquid level for detection of the first liquid in described the first casing, and feeding back a liquid level signal to described second controller, described liquid-inlet/described liquid outlet is opened or closed to described second controller according to described liquid level signal.
14. fountain air-conditioning equipments according to claim 11, is characterized in that, described control module comprises:
Liquid quality sensor, contacts with the liquid in described the first casing; And
The 3rd controller, is connected with described liquid outlet;
Wherein, described liquid quality sensor is for responding to the quality of first liquid and feeding back a liquid quality signal to described the 3rd controller, and described the 3rd controller is according to described liquid quality unblanking or close described liquid outlet.
15. fountain air-conditioning equipments according to claim 11, is characterized in that, described control module comprises:
The second air mass sensor, contacts with pending air; And
The 4th controller, is connected with described liquid booster or described liquid mouth spray;
Wherein, described the second air mass sensor is for responding to the quality of processed air and feeding back an air mass signal to described the 4th controller, described the 4th controller is adjusted the motor speed of described liquid booster according to described air mass signal, or described the 4th controller opens or cut out described liquid mouth spray according to described air mass signal.
16. according to the fountain air-conditioning equipment described in any one in claim 7-15, it is characterized in that, the bottom of described the first casing has height structure, and described liquid outlet is positioned at the lowest part of the bottom of described the first casing.
17. according to the fountain air-conditioning equipment described in any one in claim 1-15, it is characterized in that, the bottom of described the first casing is also provided with sediment outlet.
18. fountain air-conditioning equipments according to claim 17, is characterized in that, the bottom of described the first casing has height structure, and described sediment outlet is positioned at the lowest part of the bottom of described the first casing.
19. according to the fountain air-conditioning equipment described in any one in claim 9-15, it is characterized in that, also comprise feed flow main and discharge opeing main, described the first air-conditioning body is a plurality of, described in each, the described liquid-inlet of the first air-conditioning body is all connected on described feed flow main, and described in each, the described liquid outlet of the first air-conditioning body is all connected on described discharge opeing main.
20. according to the fountain air-conditioning equipment described in any one in claim 9-15, it is characterized in that, also comprises the second air-conditioning body, and described the second air-conditioning body comprises:
The second box system, comprises the second casing that is provided with the rear air outlet of processing on it;
Connecting line, after the processing of one end and described the first casing, air outlet is connected, and the other end is connected with described the second casing, so that the air after being purified by the first air-conditioning body is delivered to described the second casing; And
The second fountain liquid system, for delivery of second liquid, to described the second casing, to the air being delivered in the second casing, spray and discharge the second liquid in the second casing, described air after being purified by the first fountain liquid system contacts in the second casing with described second liquid, described second liquid and airborne one or more pollutant generation physics by after the first fountain liquid system purification or chemistry or biological respinse or effect so that its again purified.
21. fountain air-conditioning equipments according to claim 20, it is characterized in that, described the second box system also comprises the second filter member being arranged in described the second casing, for airborne one or more pollutant generation physics with after second liquid is processed or chemistry or biological respinse or effect, processed air is further cleaned, the air after further purification by the processing of described the second casing after air outlet discharge.
22. fountain air-conditioning equipments according to claim 20, is characterized in that, the composition of described second liquid and described first liquid is identical or different.
23. fountain air-conditioning equipments according to claim 20, is characterized in that, described the second fountain liquid system has identical structure with described the first fountain liquid system.
24. fountain air-conditioning equipments according to claim 20, is characterized in that, described the second air-conditioning body also includes another control module, for described the second fountain liquid system is controlled automatically.
25. 1 kinds of air conditioning methods, is characterized in that, adopt fountain air-conditioning equipment claimed in claim 1 to regulate the air in a space, comprise the steps:
S200: the first air system is delivered to the first box house by pending air;
S400: the first fountain liquid system is carried first liquid and the air in the first casing is sprayed in the first casing;
S600: first liquid with enter the air generation physics of the first box house or chemistry or biological respinse or effect so that pending air is cleaned;
S800: the air outlet from described processing of the air after being cleaned is discharged.
26. air conditioning methods according to claim 25, is characterized in that, after described step S600, before step S800, also comprise step:
S700: by one first filter member and airborne one or more pollutant generation physics or chemistry or biological respinse or effect after first liquid is processed, processed air is further cleaned.
27. air conditioning methods according to claim 25, is characterized in that, have step S410 in described step S400: spray after by a liquid pressing spraying mechanism, first liquid being pressurizeed.
28. air conditioning methods according to claim 25, it is characterized in that, in described step S200, there is step S220: the first air system is controlled automatically, described the first air system comprises air delivery pipe road, described air delivery pipe is provided with air suction inlet, air feeder and air outlet in turn along air throughput direction on road, and described air outlet is arranged in described the first casing.
29. air conditioning methods according to claim 28, is characterized in that, described step S220 comprises:
Step S221: respond to the quality of processed air and feed back an air mass signal to one first controller by one first air mass sensor; And
Step S222: the first controller is adjusted the motor speed of described air feeder according to described air mass signal.
30. air conditioning methods according to claim 25, it is characterized in that, in described step S400, there is step S420: the first fountain liquid system is controlled automatically, described the first fountain liquid system comprises liquid transmission pipeline, on described liquid transmission pipeline, along first liquid throughput direction, be provided with in turn liquid-inlet, liquid mouth spray and liquid outlet, described the first fountain liquid system also includes liquid pressing spraying mechanism, described liquid pressing spraying mechanism comprises fluid intake and liquid booster, described liquid booster in described the first casing or liquid-inlet suck first liquid and increase pressure to first liquid, described liquid mouth spray sprays the first liquid increasing after pressure to the air being delivered in described the first casing.
31. air conditioning methods according to claim 30, is characterized in that, described step S420 comprises:
Step S421: whether the first liquid detecting in the first casing by a liquid level sensor reaches a setting liquid level, and feeds back a liquid level signal to a second controller; And
Step S422: described liquid-inlet/liquid outlet is opened or closed to second controller according to described liquid level signal.
32. air conditioning methods according to claim 30, is characterized in that, described step S420 comprises:
Step S423: by the quality of a liquid quality sensor sensing first liquid and feed back a liquid quality signal to one the 3rd controller; And
Step S424: the 3rd controller is according to described liquid quality unblanking or close described liquid outlet.
33. air conditioning methods according to claim 30, is characterized in that, described step S420 comprises:
Step S425: respond to the quality of processed air and feed back an air mass signal to one the 4th controller by one second air mass sensor; And
Step S426: the 4th controller is adjusted the motor speed of described liquid booster according to described air mass signal, or the 4th controller opens or cuts out described liquid mouth spray according to described air mass signal.
34. according to the air conditioning method described in any one in claim 25-33, it is characterized in that, by a plurality of the first air-conditioning bodies, the air in described space is regulated simultaneously.
35. according to the air conditioning method described in any one in claim 25-33, it is characterized in that, after described step S800, also comprise step S900: the air of air outlet from described processing being discharged by one second box system and one second fountain liquid system regulates again.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201310517123.8A CN103591659B (en) | 2013-10-28 | 2013-10-28 | Spraying type air conditioning equipment and air conditioning method |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201310517123.8A CN103591659B (en) | 2013-10-28 | 2013-10-28 | Spraying type air conditioning equipment and air conditioning method |
Publications (2)
Publication Number | Publication Date |
---|---|
CN103591659A true CN103591659A (en) | 2014-02-19 |
CN103591659B CN103591659B (en) | 2017-02-01 |
Family
ID=50081900
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201310517123.8A Active CN103591659B (en) | 2013-10-28 | 2013-10-28 | Spraying type air conditioning equipment and air conditioning method |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN103591659B (en) |
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104154614A (en) * | 2014-08-07 | 2014-11-19 | 南宁天亮精细化工有限责任公司 | Spraying cleaning system and method of air purification regulator without indoor unit |
CN104776506A (en) * | 2015-04-30 | 2015-07-15 | 青岛鑫中天创新生物医药科技研究所有限公司 | Air washing purifying device |
CN105629743A (en) * | 2014-10-31 | 2016-06-01 | 青岛海尔空调器有限总公司 | Household electrical appliance control and device based on environment comfort level |
CN106137644A (en) * | 2016-08-16 | 2016-11-23 | 江苏翊博雷明医疗科技有限公司 | A kind of medical air oxygenation cabin |
CN110141949A (en) * | 2018-12-17 | 2019-08-20 | 四川能节环保科技有限公司 | A kind of sky energy conservation is automatic to catch haze equipment |
Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
KR20100048357A (en) * | 2008-10-31 | 2010-05-11 | 큐바이오텍 (주) | Air cleaning system |
CN201973826U (en) * | 2011-04-11 | 2011-09-14 | 潍坊紫鸢牧业发展有限公司 | Air temperature-reduction and purification device |
CN102772973A (en) * | 2012-07-19 | 2012-11-14 | 太仓东能环保设备有限公司 | Air purification device |
CN102889655A (en) * | 2012-10-25 | 2013-01-23 | 刘宝林 | Waterfall-type spraying air purification conditioner |
CN202803004U (en) * | 2012-08-28 | 2013-03-20 | 宁波市蕾蒙电器有限公司 | Air filter with automatic speed regulation function |
-
2013
- 2013-10-28 CN CN201310517123.8A patent/CN103591659B/en active Active
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
KR20100048357A (en) * | 2008-10-31 | 2010-05-11 | 큐바이오텍 (주) | Air cleaning system |
CN201973826U (en) * | 2011-04-11 | 2011-09-14 | 潍坊紫鸢牧业发展有限公司 | Air temperature-reduction and purification device |
CN102772973A (en) * | 2012-07-19 | 2012-11-14 | 太仓东能环保设备有限公司 | Air purification device |
CN202803004U (en) * | 2012-08-28 | 2013-03-20 | 宁波市蕾蒙电器有限公司 | Air filter with automatic speed regulation function |
CN102889655A (en) * | 2012-10-25 | 2013-01-23 | 刘宝林 | Waterfall-type spraying air purification conditioner |
Cited By (9)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104154614A (en) * | 2014-08-07 | 2014-11-19 | 南宁天亮精细化工有限责任公司 | Spraying cleaning system and method of air purification regulator without indoor unit |
CN104154614B (en) * | 2014-08-07 | 2017-02-08 | 南宁天亮精细化工有限责任公司 | Spraying cleaning system and method of air purification regulator without indoor unit |
CN105629743A (en) * | 2014-10-31 | 2016-06-01 | 青岛海尔空调器有限总公司 | Household electrical appliance control and device based on environment comfort level |
CN105629743B (en) * | 2014-10-31 | 2019-05-31 | 青岛海尔空调器有限总公司 | Household electric appliance control method and domestic electric appliances controller based on environmental degree of comfort |
CN104776506A (en) * | 2015-04-30 | 2015-07-15 | 青岛鑫中天创新生物医药科技研究所有限公司 | Air washing purifying device |
CN104776506B (en) * | 2015-04-30 | 2017-11-03 | 青岛鑫中天创新生物医药科技研究所有限公司 | A kind of air water washing cleaning device |
CN106137644A (en) * | 2016-08-16 | 2016-11-23 | 江苏翊博雷明医疗科技有限公司 | A kind of medical air oxygenation cabin |
CN110141949A (en) * | 2018-12-17 | 2019-08-20 | 四川能节环保科技有限公司 | A kind of sky energy conservation is automatic to catch haze equipment |
CN110141949B (en) * | 2018-12-17 | 2024-05-31 | 四川能节环保科技有限公司 | Automatic sky energy-saving haze capturing device |
Also Published As
Publication number | Publication date |
---|---|
CN103591659B (en) | 2017-02-01 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN201363833Y (en) | Centralized air processor | |
CN103591659A (en) | Spraying type air conditioning equipment and air conditioning method | |
CN1042399C (en) | Suction/filtration apparatus of gas | |
CN111550884A (en) | Movable air virus sterilizing purifier | |
CN111715056A (en) | Special multi-effect fresh air purification device for cultivation and control method thereof | |
CN206504414U (en) | A kind of air purifier | |
CN205461587U (en) | PM2. 5 air purification device | |
CN205208764U (en) | Discontinuous modularization air time purifier | |
CN2844748Y (en) | The purification air-conditioning device | |
CN113877919A (en) | Circulating self-cleaning structure fume hood | |
CN103591642B (en) | A kind of combined type air conditioning equipment and air conditioning method thereof | |
CN212691982U (en) | Intelligence air purification device for house | |
CN213453997U (en) | Air corpuscle purifier of toilet | |
CN205245370U (en) | Simple air cleaning device | |
CN217092637U (en) | Indoor air purification device capable of being cleaned on line | |
CN103629764B (en) | A kind of air purification and regulation Apparatus and method for | |
CN212962076U (en) | Air purification device for operating room | |
CN204739693U (en) | Special IFD purifier of four sides air -out VRV air conditioner | |
CN106765644A (en) | A kind of air purifier | |
CN113739320A (en) | High-efficient virus bacteria room air purifier that disappears | |
CN207763159U (en) | Mixed flow cleaning apparatus and purifying screen with mixed-flow structure | |
CN212215016U (en) | Industrial environment-friendly equipment capable of decomposing indoor biological pollutants | |
CN106123184B (en) | A kind of negative oxygen ion generating device | |
KR20070053182A (en) | Air purification system in the aquarium using the water which does not rot | |
CN103486673A (en) | Air cleaner for air conditioner |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C06 | Publication | ||
PB01 | Publication | ||
SE01 | Entry into force of request for substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
C53 | Correction of patent of invention or patent application | ||
CB02 | Change of applicant information |
Address after: 100089 Beijing West Third Ring Road, Haidian District, No. 5 Applicant after: China Zhong Yuan international project company limited Address before: 100089 Beijing West Third Ring Road, Haidian District, No. 5 Applicant before: China Ippr International Engineering Co., Ltd. |
|
COR | Change of bibliographic data |
Free format text: CORRECT: APPLICANT; FROM: CHINA IPPR INTERNATIONAL ENGINEERING CORPORATION TO: CHINA IPPR INTERNATIONAL ENGINEERING CORPORATION |
|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant |