CN203940536U - A kind of new blower fan - Google Patents
A kind of new blower fan Download PDFInfo
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- CN203940536U CN203940536U CN201420331750.2U CN201420331750U CN203940536U CN 203940536 U CN203940536 U CN 203940536U CN 201420331750 U CN201420331750 U CN 201420331750U CN 203940536 U CN203940536 U CN 203940536U
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Abstract
The utility model relates to a kind of new blower fan, by each paths in rack is rationally set, utilize the indoor temperature transmitter of being located at the outdoor temperature sensor of outdoor blast pipe and be located at indoor blast pipe to obtain indoor and outdoor temperature difference and utilize carbon dioxide sensor monitoring gas concentration lwevel value after carry out new fanman's operation mode and switch; Indoor air intake can be selected air intake approach and processing method according to situation, the first step motor control indoor-outdoor air opening-closing plate opens and closes, the use of the second step motor control heat exchanger, complete new blower fan different working modes, outdoor air intake can according to circumstances be selected air intake approach and processing method, guarantee to select the air outlet needing to carry out the air-out of new wind according to actual demand, discharge air cleaning.The utility model provides the operational mode of the new blower fan of three kinds of Based Intelligent Control, when extending the service life as the heat exchanger of critical component, has met the demand that the different air purification mode of client are selected, good purification, and new wind is effective.
Description
Technical field
The utility model belongs to air conditioning; Air humidification; Ventilate; Air stream is as the technical field of the application of screen, particularly a kind of can be by step motor control wind direction so that different purification pattern to be provided, make the new blower fan that extended the service life of heat exchanger.
Background technology
Along with growth in the living standard, people require more and more higher to IAQ.A can high effect cleaning air, high, the intelligent new blower fan easy to use of Energy Efficiency Ratio is that consumer is required.
New blower fan is a kind of effectively air cleaning facility, can make indoor air produce circulation, on the one hand outdoor the Bas Discharged of indoor dirt, on the other hand outdoor ozone after the measures such as sterilization, sterilization, filtration, be input to indoorly, allowing in room is all fresh clean air all the time again.New blower fan, by autonomous air-supply and air inducing, makes room air realize convection current, thereby farthest carries out room air displacement, and its built-in cleaning system ensures to enter indoor air cleaning health.
In new blower fan, also having a very important consumers, is heat exchanger, and it is for making heat be delivered to cold fluid to meet the device of technological requirement of regulation from hot fluid, is convection heat transfer' heat-transfer by convection and heat conducting a kind of commercial Application.By the alternately operating that is carrying out in the inner heat, therefore it is a kind of consumers, use more service life shorter.
In prior art, new blower fan open with close etc. function be confined to by remote controller control or new blower fan with it by key control, not intelligent, automaticity is lower, and can not use by Long-distance Control, can not learn in real time and improve IAQ; Simultaneously, the new blower fan of tradition only has new fan operation pattern, in the situation that season in spring and autumn, indoor/outdoor temperature-difference was little, still need to move new blower fan by heat exchanger, SR cannot carry out duct resistance conversion according to the actual demand of heat exchange, thereby shortened the service life of heat exchanger greatly; And can not purify indoor air separately, consume the energy, not environmental protection.
Utility model content
The technical problem that the utility model solves is, in prior art, new blower fan open with close etc. function be confined to by remote controller control or new blower fan with it by key control, not intelligent, automaticity is lower and only have new fan operation pattern, and the new blower fan causing can not use by Long-distance Control, can not learn in real time and improve IAQ, in the situation that season in spring and autumn, indoor/outdoor temperature-difference was little, still need to move new blower fan by heat exchanger simultaneously, SR cannot carry out duct resistance conversion according to the actual demand of heat exchange, thereby shortened the service life of heat exchanger greatly, and can not purify indoor air separately, consume the energy, the problem of not environmental protection, and then a kind of new blower fan of optimizing structure is provided.
The technical scheme that the utility model adopts is, a kind of new blower fan, comprise rack and be located at the indoor blast pipe in rack, new wind exhaust duct, outdoor blast pipe, indoor exhaust wind pipe, heat exchanger and circuit control panel, the end of described indoor blast pipe is provided with the first air inlet of indoor return air channel and heat exchanger, the end of described indoor return air channel is provided with indoor-outdoor air opening-closing plate, described indoor-outdoor air opening-closing plate is located at the air intake sidepiece of described outdoor blast pipe, and described indoor-outdoor air opening-closing plate is connected to circuit control panel by the first stepper motor; The outlet air end of described outdoor blast pipe is provided with the second air inlet of new wind bypass air channel and heat exchanger, and described new wind bypass air channel is connected to circuit control panel by the second stepper motor; The air intake place of described new wind exhaust duct is provided with the outlet air end in new wind bypass air channel and the first air outlet of heat exchanger side by side; The second air outlet place of described heat exchanger is provided with motor exhaust, and motor exhaust is located at the sidepiece of described indoor exhaust wind pipe, in described new wind exhaust duct, is provided with new wind turbine, and described motor exhaust is connected with described circuit control panel with new wind turbine; In described rack, be also provided with the sensing mechanism, dust-collection sterilization mechanism, air purifying mechanism and the negative ion generating device that are connected with circuit control panel, described sensing mechanism comprises the outdoor temperature sensor be located in outdoor blast pipe, is located at the indoor temperature transmitter in indoor blast pipe and is located at the carbon dioxide sensor in indoor blast pipe.
Preferably, described sensing mechanism also comprises the temperature of outgoing air sensor of being located in indoor exhaust wind pipe and is located at the new air temperature sensor in new wind exhaust duct.
Preferably, described dust-collection sterilization mechanism comprises the first electrostatic precipitation sterilizing unit of being located in outdoor blast pipe, is located at the second electrostatic precipitation sterilizing unit of new wind bypass air channel end and is located at the 3rd electrostatic precipitation sterilizing unit of the air outlet of new wind exhaust duct; Described dust-collection sterilization mechanism also comprises filtrate steel silk screen, and described filtrate steel silk screen is located between the air intake of the first electrostatic precipitation sterilizing unit and outdoor blast pipe.
Preferably, described air purifying mechanism comprises that active carbon net and the cooperation of being located at new wind bypass air channel end be located at photocatalyst net and the uviol lamp in new wind exhaust duct.
Preferably, described new wind bypass air channel end is angled is provided with 2 active carbon nets, and described 2 active carbon net bottoms are set up in respectively the terminal part in new wind bypass air channel, and the top of described 2 active carbon nets closes up.
Preferably, described negative ion generating device comprise the air intake sidepiece of being located at outdoor blast pipe the first anion generator, be located at the second anion generator of new wind bypass air channel end and be located at the 3rd anion generator in new wind exhaust duct.
Preferably, described circuit control panel is provided with wireless network transceiver module.
Preferably, the outlet air end of the air intake of described indoor blast pipe and new wind exhaust duct is located at described rack top, and the air outlet of the air intake of described outdoor blast pipe and indoor exhaust wind pipe is located at described rack sidepiece.
Preferably, described rack is provided with display unit, and described display unit is connected to described circuit control panel.
The utility model provides a kind of new blower fan of optimizing structure, by the each paths in rack is rationally set, setting is located at the outdoor temperature sensor in outdoor blast pipe and is located at the indoor temperature transmitter in indoor blast pipe, carries out the switching of the mode of operation of corresponding new blower fan by the temperature gap of calculating outdoor temperature sensor and indoor temperature transmitter feedback and the gas concentration lwevel value that carbon dioxide sensor monitors; The first air inlet of indoor return air channel and heat exchanger is set at the end of indoor blast pipe, make indoor air intake can according to circumstances select air intake approach and processing method, be connected to the indoor-outdoor air opening-closing plate of circuit control panel by the first stepper motor in the air intake sidepiece setting of the end of indoor return air channel, outdoor blast pipe, make indoor-outdoor air opening-closing plate to open or to close according to actual indoor environment situation, assisted the different mode of operation of new blower fan; The second air inlet of new wind bypass air channel and heat exchanger is set at the outlet air end of outdoor blast pipe, and new wind bypass air channel is connected to circuit control panel by the second stepper motor, makes outdoor air intake can according to circumstances select air intake approach and processing method; By being arranged side by side the outlet air end in new wind bypass air channel and the first air outlet of heat exchanger at the air intake place of new wind exhaust duct, the second air outlet place at heat exchanger arranges motor exhaust, in new wind exhaust duct, new wind turbine is set, guarantees to select the air outlet needing to carry out the air-out of new wind according to actual demand; By the sensing mechanism, dust-collection sterilization mechanism, air purifying mechanism and the negative ion generating device that are connected with circuit control panel are set in rack, ensure the air cleaning of discharging.The utility model provides the operational mode of the new blower fan of three kinds of Based Intelligent Control, when having extended the service life as the heat exchanger of critical component, has met the demand that the different air purification mode of client are selected, good purification, and new wind is effective.
Brief description of the drawings
Fig. 1 is interior of equipment cabinet structural representation of the present utility model;
Fig. 2 is side view structural representation of the present utility model;
Fig. 3 is the circulated air schematic diagram of the utility model interior of equipment cabinet while moving new fan operation pattern;
The circulated air schematic diagram of interior of equipment cabinet when Fig. 4 is the utility model run transition Seasonal Model;
Fig. 5 is the wind direction schematic diagram at the utility model outdoor blast pipe and indoor exhaust wind pipe place while moving new fan operation pattern and transition season pattern;
The circulated air schematic diagram of interior of equipment cabinet when Fig. 6 is the utility model indoor air purification operational mode;
In Fig. 3~Fig. 6, dotted arrow represents indoor air flows direction, and solid arrow represents new wind flow direction.
Detailed description of the invention
Below in conjunction with embodiment, the utility model is described in further detail, but protection domain of the present utility model is not limited to this.
As shown in the figure, the utility model relates to a kind of new blower fan, comprise rack 1 and be located at the indoor blast pipe 2 in rack 1, new wind exhaust duct 3, outdoor blast pipe 4, indoor exhaust wind pipe 5, heat exchanger 6 and circuit control panel 7, the end of described indoor blast pipe 2 is provided with the first air inlet 6-1 of indoor return air channel 8 and heat exchanger 6, the end of described indoor return air channel 8 is provided with indoor-outdoor air opening-closing plate 9, described indoor-outdoor air opening-closing plate 9 is located at the air intake sidepiece of described outdoor blast pipe 4, described indoor-outdoor air opening-closing plate 9 is connected to circuit control panel 7 by the first stepper motor 10, the outlet air end of described outdoor blast pipe 4 is provided with the second air inlet 6-2 of new wind bypass air channel 11 and heat exchanger 6, and described new wind bypass air channel 11 is connected to circuit control panel 7 by the second stepper motor 12, the air intake place of described new wind exhaust duct 3 is provided with the outlet air end in new wind bypass air channel 11 and the first air outlet 6-3 of heat exchanger 6 side by side, the second air outlet 6-4 place of described heat exchanger 6 is provided with motor exhaust 13, motor exhaust 13 is located at the sidepiece of described indoor exhaust wind pipe 5, in described new wind exhaust duct 3, be provided with new wind turbine 14, described motor exhaust 13 is connected with described circuit control panel 7 with new wind turbine 14, in described rack 1, be also provided with the sensing mechanism, dust-collection sterilization mechanism, air purifying mechanism and the negative ion generating device that are connected with circuit control panel, described sensing mechanism comprises the outdoor temperature sensor 15-1 that is located in outdoor blast pipe 4, is located at the indoor temperature transmitter 15-2 in indoor blast pipe 2 and is located at the carbon dioxide sensor 15-3 in indoor blast pipe 2.
In the utility model, air exhaust passage, the air intake passage of outdoor air and the air exhaust passage of room air of the new wind of discharging after the air intake passage of indoor blast pipe 2, new wind exhaust duct 3, outdoor blast pipe 4 and the corresponding room air of indoor exhaust wind pipe 5 difference, processing.
In the utility model, indoor return air channel 8 is room air wind path passages while entering after new blower fan, without heat exchanger 6 by indoor blast pipe 2, and the wind in passage is without any processing; New wind bypass air channel 11 is in the time needing the processing of the obstructed over-heat-exchanger 6 of new wind of discharge, by the wind path passage of new wind exhaust duct 3 front processes.
In the utility model, indoor-outdoor air opening-closing plate 9 is controlled folding by the first stepper motor 10, coordinate the various pattern operation foldings of new blower fan, in the time that indoor-outdoor air opening-closing plate 9 is opened, outdoor air is entered in new blower fan and is operated by outdoor blast pipe 4, and in the time that indoor-outdoor air opening-closing plate 9 is closed, outdoor air is blocked in outside outdoor blast pipe 4, air in new blower fan in circular chamber, processes indoor air.
In the utility model, motor exhaust 13 is arranged on the sidepiece of indoor exhaust wind pipe 5, helps to need the air of discharging to discharge by indoor exhaust wind pipe 5; New wind turbine 14 is arranged in new wind exhaust duct 3, and while discharge due to new wind, trend is for from lower to upper, and new wind turbine 14 gives new wind one determined power, discharges from new wind exhaust duct 3.
In the utility model, outdoor temperature sensor 15-1 and indoor temperature transmitter 15-2 are respectively used to outside nernst cell and indoor temperature, simultaneously, the circuit of outdoor temperature sensor 15-1 and indoor temperature transmitter 15-2 can also be distinguished the circuit of Integrated Humidity Sensor, be assembled into outdoor temperature humidity sensor and indoor temperature and humidity sensor, the utility model can also show humidity information except showing real-time temperature information thus.Above-mentioned integrated operation is technology well known to those skilled in the art, can complete according to actual conditions the integrated operation of two kinds of even two or more sensors.
In the utility model, carbon dioxide sensor 15-3 is for the gas concentration lwevel value in nernst cell, simultaneously, the circuit of all right integrated dust sensor of circuit of carbon dioxide sensor 15-3, be assembled into dust carbon dioxide sensor, the utility model can also show Dust distribution information except showing real-time gas concentration lwevel value information thus.Above-mentioned integrated operation is technology well known to those skilled in the art, can complete according to actual conditions the integrated operation of two kinds of even two or more sensors.
In the utility model, due to the wind entering in indoor blast pipe 2 be can the indoor reality of visualize air regime, therefore by detecting in real time for the amount of carbon dioxide in indoor blast pipe 2, carbon dioxide sensor 15-3 monitoring indoor carbon dioxide concentration, except real-time demonstration, be also used to regulate the operational mode of new blower fan.
The utility model is divided into several paths by the interior different structure of rack 1, comprising: 1, wind enters new blower fan from indoor blast pipe 2, exchanges and pass through the work of motor exhaust 13 in wind automatic heat-exchanger 6, discharges by indoor exhaust wind pipe 5; 2, wind enters new blower fan from indoor blast pipe 2, enters new wind bypass air channel 11 after indoor return air channel 8 again, and new wind turbine 14 is worked, and wind is discharged from new wind exhaust duct 3; 3, wind enters from outdoor blast pipe 4, and through new wind bypass air channel 11, new wind turbine 14 is worked, and wind is discharged from new wind exhaust duct 3; 4, wind enters from outdoor blast pipe 4, exchanges and pass through the work of new wind turbine 14 in wind automatic heat-exchanger 6, and wind is discharged from new wind exhaust duct 3.Above 4 paths can complete transition season pattern of the present utility model, new fan operation pattern and indoor air purification operational mode, and the triggering that completes these several operational modes is to be controlled by the gas concentration lwevel value of the room air feeding back after the difference of the temperature value of the indoor and outdoors feeding back after outdoor temperature sensor 15-1 and indoor temperature transmitter 15-2 sensing and carbon dioxide sensor 15-3 sensing.
In the utility model, the control method of new blower fan is to adopt circuit control panel 7 to control in real time the temperature value of outdoor temperature sensor 15-1 and indoor temperature transmitter 15-2 detection indoor and outdoors, and in real time the temperature value of indoor and outdoors is fed back to circuit control panel 7, obtain indoor and outdoor temperature difference; Adopt circuit control panel 7 to control in real time the gas concentration lwevel value in carbon dioxide sensor 15-3 sensing chamber, and Real-time Feedback is to circuit control panel 7.This step will obtain difference after the temperature value value of indoor and outdoors, after generally rounding up, obtain temperature gap and gas concentration lwevel value, find suitable operational mode by the combination of numerical value by circuit control panel 7 and trigger, and start corresponding device and complete corresponding wind control operation.In the running of new blower fan, sensing chamber's internal and external temperature difference and indoor carbon dioxide concentration value in real time, so that the suitable new fan operation pattern of immediate updating, the prolongation in the service life of components and parts in the saving of the guarantee energy and new blower fan.
In the utility model, detect the indoor and outdoor temperature difference of current time and indoor gas concentration lwevel value; In the time that the indoor and outdoor temperature difference detecting is more than or equal to X DEG C, the new new fan operation pattern of fan starting, when the indoor and outdoor temperature difference detecting is less than X DEG C and while detecting that indoor gas concentration lwevel value is more than or equal to Yppm, new fan starting transition season pattern, when maintaining, indoor and outdoor temperature difference is less than X DEG C and detect that indoor gas concentration lwevel value is reduced to while being less than Zppm, new fan starting indoor air purification operational mode.In the time carrying out new fan operation pattern, also want real-time sensing chamber internal and external temperature difference, in the time that indoor and outdoor temperature difference is less than X DEG C, need again to judge according to indoor gas concentration lwevel value which kind of mode of operation next step switches to; In the time carrying out transition season pattern and indoor air purification operational mode, also want the carbon dioxide values in real-time sensing chamber, in the time that being more than or equal to Yppm, indoor carbon dioxide initial concentration value carries out transition season pattern and has only being reduced to while being less than Zppm when indoor gas concentration lwevel value, switching chamber inner air-cleaning operational mode, in the time that indoor carbon dioxide initial concentration value is less than Zppm, carry out indoor air purification operational mode and have only being increased to while being more than or equal to Yppm when indoor gas concentration lwevel value, switch transition season pattern.
In the utility model, in the time that the indoor and outdoor temperature difference detecting is greater than X DEG C, the new new fan operation pattern of fan starting.So-called new fan operation pattern, refers to the season larger at indoor/outdoor temperature-difference, makes rational use of resources, and reduces as far as possible energy resource consumption, reduces environmental pollution, effectively ensures air-conditioning effect the remarkable air quality that promotes air conditioning area of air conditioning area.Generally, X value is taken as 6, and when indoor and outdoor temperature difference is 6 DEG C or when above, this temperature difference is for human body, existing larger temperature difference impression, should apply new fan operation pattern.In new fan operation pattern, circuit control panel 7 is controlled the first stepper motor 10, new wind turbine 14, the second stepper motor 12, heat exchanger 6 and motor exhaust 13 and is started, simultaneously, opened by the first stepper motor 10 control room inner air and outer air opening-closing plates 9, making outdoor new wind enter new blower fan purifies, control new wind bypass air channel 11 by the second stepper motor 12 and close, stop new wind to flow through from new wind bypass air channel 11.In this pattern, outdoor new wind enters from outdoor blast pipe 4, enter heat exchanger 6 from the second air inlet 6-2 of heat exchanger 6, work by new wind turbine 14, the first air outlet 6-3 of outdoor new wind automatic heat-exchanger 6 is by new wind exhaust duct 3 and clean air is led to indoor after dust-collection sterilization mechanism, air purifying mechanism and negative ion generating device; Room air enters from indoor blast pipe 2, enters heat exchanger 6 by the first air inlet 6-1 of heat exchanger 6, and the second air outlet 6-4 of automatic heat-exchanger 6 is acted on and is discharged to outdoor by indoor exhaust wind pipe 5 by motor exhaust 13.
In the utility model, in the time detecting that indoor and outdoor temperature difference is less than X DEG C and indoor carbon dioxide concentration value and is more than or equal to Yppm, new fan starting transition season pattern.So-called transition season pattern, refers to the transition season less at indoor/outdoor temperature-difference, makes full use of the natural resources, and reduces energy resource consumption, reduces environmental pollution, effectively ensures air-conditioning effect the remarkable air quality that promotes air conditioning area of air conditioning area.Generally, X value still value is 6, is less than the temperature difference of 6 DEG C for human body, there is no strong especially impression, Y value value is 800, in the time that gas concentration lwevel value exceedes 800ppm, human feeling is poor, and indoor air circulation waste gas is more, can apply transition season pattern.In transition season pattern, circuit control panel 7 is controlled the first stepper motor 10, new wind turbine 14, the second stepper motor 12, heat exchanger 6 and motor exhaust 13 and is started, simultaneously, opened by the first stepper motor 10 control room inner air and outer air opening-closing plates 9, making outdoor new wind enter new blower fan purifies, control new wind bypass air channel 11 by the second stepper motor 12 and open, new wind is flow through from new wind bypass air channel 11; In this pattern, outdoor new wind enters from outdoor blast pipe 4, flow through from new wind bypass air channel 11, new wind turbine 14 is worked, by new wind, by new wind exhaust duct 3 and clean air is led to indoorly after dust-collection sterilization mechanism, air purifying mechanism and negative ion generating device, because open in new wind bypass air channel 11, the windage in new wind bypass air channel 11 is far smaller than the windage of heat exchanger 6, new wind, without heat exchanger 6, has reduced the loss of heat exchanger 6; Room air enters from indoor blast pipe 2, enters heat exchanger 6 by the first air inlet 6-1 of heat exchanger 6, and the second air outlet 6-4 of automatic heat-exchanger 6 is acted on and is discharged to outdoor by indoor exhaust wind pipe 5 by motor exhaust 13.
In the utility model, in the utility model, in the time detecting that indoor and outdoor temperature difference is less than X DEG C and indoor carbon dioxide concentration value and is less than Zppm, new fan starting indoor air purification operational mode.So-called indoor air purification is that indoor air circulation is sucked and discharged, and utilizes harmful substance and the gas in purifier absorbed air in the process sucking and discharge, and discharges the process of the gas of useful health.Generally, X value still value is 6, is less than the temperature difference of 6 DEG C for human body, there is no strong especially impression, Z value value is 450, in the time that gas concentration lwevel value is less than 450ppm, human feeling is better, and indoor air circulation waste gas is less, can apply indoor air purification operational mode.In indoor air purification operational mode, circuit control panel 7 is controlled the first stepper motor 10, newly wind turbine 14, the second stepper motor 12 start, simultaneously, closed by the first stepper motor 10 control room inner air and outer air opening-closing plates 9, stop outdoor new wind to enter new blower fan, control new wind bypass air channel 11 by the second stepper motor 12 and open, new wind is flow through from new wind bypass air channel 11.In this pattern, room air enters by indoor blast pipe 2, after indoor return air channel 8 enters, through new wind bypass air channel 11, work by new wind turbine 14, by new wind exhaust duct 3 and clean air is led to indoorly after dust-collection sterilization mechanism, air purifying mechanism and negative ion generating device, motor exhaust 13 quits work, and has reduced power consumption.
In the utility model, the value of X, Y and Z can be modified according to demands of individuals, revises numerical value by circuit control panel 7 records, and upper in service being employed once, generally, Y > 0, Z > 0.The value of above-mentioned X, Y and Z is only conventional numerical value.
Described sensing mechanism also comprises the temperature of outgoing air sensor 15-4 being located in indoor exhaust wind pipe 2 and is located at the new air temperature sensor 15-5 in new wind exhaust duct 3.
In the utility model, temperature of outgoing air sensor 15-4 and new air temperature sensor 15-5 are respectively used to the temperature of outgoing air at exhaust duct 5 places in nernst cell and the temperature of outgoing air at induction new wind exhaust duct 3 places, simultaneously, the circuit of temperature of outgoing air sensor 15-4 and new air temperature sensor 15-5 can also be distinguished the circuit of Integrated Humidity Sensor, be assembled into air draft Temperature Humidity Sensor and new wind-warm syndrome humidity sensor, the utility model can also show humidity information except showing real-time temperature information thus.Above-mentioned integrated operation is technology well known to those skilled in the art, can complete according to actual conditions the integrated operation of two kinds of even two or more sensors.
In the utility model, by being arranged on the temperature of outgoing air sensor 15-4 in indoor exhaust wind pipe 5 and being arranged on the new air temperature sensor 15-5 in new wind exhaust duct 3, by for indoor exhaust wind and the new real time temperature of wind air draft and the monitoring of humidity, the temperature that ensures indoor exhaust wind and new wind air draft can be not too high, humidity is suitable simultaneously, builds good comfortable air ambient.
Described dust-collection sterilization mechanism comprises the first electrostatic precipitation sterilizing unit 16-1 of being located in outdoor blast pipe 4, be located at the second electrostatic precipitation sterilizing unit 16-2 of new wind bypass air channel 11 ends and be located at the 3rd electrostatic precipitation sterilizing unit 16-3 of the air outlet of new wind exhaust duct 3; Described dust-collection sterilization mechanism also comprises filtrate steel silk screen 16-4, and described filtrate steel silk screen 16-4 is located between the air intake of the first electrostatic precipitation sterilizing unit 16-1 and outdoor blast pipe 4.
In the utility model, owing to relating to three kinds of mode of operations, therefore in outdoor blast pipe 4, the air outlet of new wind bypass air channel 11 ends and new wind exhaust duct 3 is provided with respectively the first electrostatic precipitation sterilizing unit 16-1, the second electrostatic precipitation sterilizing unit 16-2 and the 3rd electrostatic precipitation sterilizing unit 16-3, make the outdoor air entering can carry out first sterilization, from new wind bypass air channel 11 through after carry out sterilization for the second time, finally carry out sterilization for the third time will be discharged to when indoor, ensure to remain in bacterium in new wind few as much as possible.Generally, electrostatic precipitation sterilizing unit is set more for convenience at import or the end of pipeline, the utility model also can be set up more electrostatic precipitation sterilizing unit in the situation that allowing.
In the utility model, between the air intake of the first electrostatic precipitation sterilizing unit 16-1 and outdoor blast pipe 4, be also provided with filtrate steel silk screen 16-4, be to utilize filtrate steel silk screen 16-4 to complete the primary filter of air, ensure that particle that some are larger or dust can not enter into the passage of rack 1, the least possible remains on passage and electrostatic precipitation sterilizing unit, increases service life of the present utility model.
The utility model adopts three grades of 3500V electrostatic precipitation bactericidal units, in reaching traditional equal clean-up effect, removing PM0.3, PM2.5 leads and reaches 99.9%, degerming rate reaches 99.8%, optimize 6000 ~ 8000V high pressure of traditional needs, reduce the fault rate of machine, no material consumption, only needs rotation to clean electrostatic precipitation sterilizing unit.
Described air purifying mechanism comprises that active carbon net 17-1 and the cooperation of being located at new wind bypass air channel 11 ends be located at photocatalyst net 17-2 and the uviol lamp 17-3 in new wind exhaust duct 3.
In the utility model, in new wind bypass air channel, 11 ends arrange active carbon net 17-1, at new interior photocatalyst net 17-2 and the uviol lamp 17-3 of arranging of wind exhaust duct 3.Wherein, active carbon net 17-1 is made up of active carbon, active carbon is to make raw material by the material that is master containing charcoal, the hydrophobic adsorbent making through high temperature carbonization and activation, it contains a large amount of micropores, has huge specific area, can effectively remove stink, can remove organic pollution and some inorganic matter in gas, comprise some poisonous heavy metal.Nano level powder and multiple nano level photosensitive semiconductor medium are done impurity by photocatalyst net 17-2, guarantee to breathe freely and contact fully, form with carrier mixed refining process again, can effectively remove pernicious gas and the peculiar smell such as airborne carbon monoxide, nitrogen oxide, hydrocarbons, aldehydes, benzene class, and they can be resolved into harmless CO
2and H
2o, but also there is sterilizing function.Uviol lamp 17-3 can be used for ultraviolet sterilization, virus killing etc.
In the utility model, arranging of air purifying mechanism is progressive, and energy efficient kill bacteria, virus are also removed peculiar smell.
Described new wind bypass air channel 11 ends are angled is provided with 2 active carbon net 17-1, and described 2 active carbon net 17-1 bottoms are set up in respectively the terminal part in new wind bypass air channel 11, and the top of described 2 active carbon net 17-1 closes up.
In the utility model, active carbon net 17-1 is set to 2, and 2 active carbon net 17-1 are angle setting, lower cage is located at the terminal part in new wind bypass air channel 11, top closes up, the terminal part that is active carbon net 17-1 and new wind bypass air channel 11 has formed triangular structure, this structure has ensured that the novel wind energy blowing out from new wind bypass air channel 11 farthest contacts with active carbon net 17-1 first, guarantee putting in place of purification, second this structure has adopted triangular structure more stable, has ensured the intensity that the interior overall structure of rack 1 arranges.
Described negative ion generating device comprise the air intake sidepiece of being located at outdoor blast pipe 4 the first anion generator 18-1, be located at the second anion generator 18-2 of new wind bypass air channel 11 ends and be located at the 3rd anion generator 18-3 in new wind exhaust duct 3.
In the utility model, at the air intake sidepiece of outdoor blast pipe 4, new wind bypass air channel 11 ends and new interior the first anion generator 18-1, the second anion generator 18-2 and the 3rd anion generator 18-3 of arranging respectively of wind exhaust duct 3.Anion generator is a kind of device that generates negative aeroion, this device by the direct current of input or alternating current after EMI treatment circuit and lightning protection circuit are processed, by pulsed circuit, overvoltage current limliting; The circuits such as high-low pressure isolation are upgraded to ac high-voltage, then by obtaining pure negative direct current high voltage after specific class electronic material rectifying and wave-filtering, negative direct current high voltage is connected to the release tip of metal or carbon making, utilize most advanced and sophisticated high direct voltage to produce high corona, emit at high speed a large amount of electronics (e-), and electronics cannot be present in (electron lifetime of existence only has nS level) in air for a long time, at once can be by airborne oxygen molecule (O
2) catch, thereby generate negative aeroion.The utility model adopts three grades of negative ion generating devices, ensure to mix the negative aeroion of suitable, enough ratios in new wind, the aerial content of negative aeroion is a key factor that determines air quality quality, in air, contain the dedusting efficiently of appropriate anion, sterilizing, purify air, simultaneously can also activate airborne oxygen molecule and form and take negative oxygen ion, enliven air molecule, improve human lung's function, enhance metabolism, strengthen resistance against diseases, regulate central nervous system, make people in high spirits, dynamic.
Described circuit control panel 7 is provided with wireless network transceiver module.
In the utility model, wireless network transceiver module is set on circuit control panel 7, can adopt radio network technique and corresponding procotol to complete by the process of the operation of the new blower fan of mobile phone A PP software wireless remote control, and can receive and dispatch in time the information about room air situation, contribute to user to understand in real time IAQ.
The outlet air end of the air intake of described indoor blast pipe 2 and new wind exhaust duct 3 is located at described rack 1 top, and the air outlet of the air intake of described outdoor blast pipe 4 and indoor exhaust wind pipe 5 is located at described rack 1 sidepiece.
In the utility model, the outlet air end of the air intake of indoor blast pipe 2 and new wind exhaust duct 3 is located to described rack 1 top, the air outlet of the air intake of outdoor blast pipe 4 and indoor exhaust wind pipe 5 is located to described rack 1 sidepiece, this structure can better be settled rack 1 of the present utility model, the position that can also better arrange rack 1 interior all parts, ensures that new wind has the purification channel of long enough distance simultaneously.Structure of the present utility model also can be carried out suitable finishing according to actual layout.
Described rack 1 is provided with display unit 19, and described display unit 19 is connected to described circuit control panel 7.
In the utility model, display unit 19 is set on rack 1, display unit 19 can be obtained the Useful Information for user from circuit control panel 7, and information is presented to user, is convenient to user's working condition of the new blower fan of understanding in real time.
The utility model has solved in prior art, new blower fan open with close etc. function be confined to by remote controller control or new blower fan with it by key control, not intelligent, automaticity is lower and only have new fan operation pattern, and the new blower fan causing can not use by Long-distance Control, can not learn in real time and improve IAQ, in the situation that season in spring and autumn, indoor/outdoor temperature-difference was little, still need to move new blower fan by heat exchanger 6 simultaneously, SR cannot carry out duct resistance conversion according to the actual demand of heat exchange, thereby shortened the service life of heat exchanger 6 greatly, and can not purify indoor air separately, consume the energy, the problem of not environmental protection, by the each paths in rack 1 is rationally set, setting is located at the outdoor temperature sensor 15-1 in outdoor blast pipe 4 and is located at the indoor temperature transmitter 15-2 in indoor blast pipe 2, carries out the switching of the mode of operation of corresponding new blower fan by the temperature gap that calculates outdoor temperature sensor 15-1 and indoor temperature transmitter 15-2 feedback, the first air inlet 6-1 of indoor return air channel 8 and heat exchanger 6 is set at the end of indoor blast pipe 2, make indoor air intake can according to circumstances select air intake approach and processing method, be connected to the indoor-outdoor air opening-closing plate 9 of circuit control panel 7 by the first stepper motor 10 in the end of indoor return air channel 8, the air intake sidepiece setting of outdoor blast pipe 4, make indoor-outdoor air opening-closing plate 9 to open or to close according to actual indoor environment situation, assisted the different mode of operation of new blower fan, the second air inlet 6-2 of new wind bypass air channel 11 and heat exchanger 6 is set at the outlet air end of outdoor blast pipe 4, new wind bypass air channel logical 11 is crossed the second stepper motor 12 and is connected to circuit control panel 7, makes outdoor air intake can according to circumstances select air intake approach and processing method, by being arranged side by side the outlet air end in new wind bypass air channel 11 and the first air outlet 6-3 of heat exchanger 6 at the air intake place of new wind exhaust duct 3, the second air outlet 6-4 place at heat exchanger 6 arranges motor exhaust 13, new wind turbine 14 is set new wind exhaust duct 3 is interior, guarantees to select the air outlet needing to carry out the air-out of new wind according to actual demand, by the sensing mechanism, dust-collection sterilization mechanism, air purifying mechanism and the negative ion generating device that are connected with circuit control panel 7 in the interior setting of rack 1, ensure the air cleaning of discharging.The utility model provides the operational mode of the new blower fan of three kinds of Based Intelligent Control, has extended the while in service life as the heat exchanger 6 of critical component, has met the needs that the different air purification mode of client are selected, good purification, and new wind is effective.
Claims (9)
1. a new blower fan, comprise rack and be located at the indoor blast pipe in rack, new wind exhaust duct, outdoor blast pipe, indoor exhaust wind pipe, heat exchanger and circuit control panel, it is characterized in that: the end of described indoor blast pipe is provided with the first air inlet of indoor return air channel and heat exchanger, the end of described indoor return air channel is provided with indoor-outdoor air opening-closing plate, described indoor-outdoor air opening-closing plate is located at the air intake sidepiece of described outdoor blast pipe, and described indoor-outdoor air opening-closing plate is connected to circuit control panel by the first stepper motor; The outlet air end of described outdoor blast pipe is provided with the second air inlet of new wind bypass air channel and heat exchanger, and described new wind bypass air channel is connected to circuit control panel by the second stepper motor; The air intake place of described new wind exhaust duct is provided with the outlet air end in new wind bypass air channel and the first air outlet of heat exchanger side by side; The second air outlet place of described heat exchanger is provided with motor exhaust, and motor exhaust is located at the sidepiece of described indoor exhaust wind pipe, in described new wind exhaust duct, is provided with new wind turbine, and described motor exhaust is connected with described circuit control panel with new wind turbine; In described rack, be also provided with the sensing mechanism, dust-collection sterilization mechanism, air purifying mechanism and the negative ion generating device that are connected with circuit control panel, described sensing mechanism comprises the outdoor temperature sensor be located in outdoor blast pipe, is located at the indoor temperature transmitter in indoor blast pipe and is located at the carbon dioxide sensor in indoor blast pipe.
2. the new blower fan of one according to claim 1, is characterized in that: described sensing mechanism also comprises the temperature of outgoing air sensor of being located in indoor exhaust wind pipe and is located at the new air temperature sensor in new wind exhaust duct.
3. the new blower fan of one according to claim 1, is characterized in that: described dust-collection sterilization mechanism comprises the first electrostatic precipitation sterilizing unit of being located in outdoor blast pipe, be located at the second electrostatic precipitation sterilizing unit of new wind bypass air channel end and be located at the 3rd electrostatic precipitation sterilizing unit of the air outlet of new wind exhaust duct; Described dust-collection sterilization mechanism also comprises filtrate steel silk screen, and described filtrate steel silk screen is located between the air intake of the first electrostatic precipitation sterilizing unit and outdoor blast pipe.
4. the new blower fan of one according to claim 1, is characterized in that: described air purifying mechanism comprises that active carbon net and the cooperation of being located at new wind bypass air channel end be located at photocatalyst net and the uviol lamp in new wind exhaust duct.
5. the new blower fan of one according to claim 4, it is characterized in that: described new wind bypass air channel end is angled is provided with 2 active carbon nets, described 2 active carbon net bottoms are set up in respectively the terminal part in new wind bypass air channel, and the top of described 2 active carbon nets closes up.
6. the new blower fan of one according to claim 1, is characterized in that: described negative ion generating device comprise the air intake sidepiece of being located at outdoor blast pipe the first anion generator, be located at the second anion generator of new wind bypass air channel end and be located at the 3rd anion generator in new wind exhaust duct.
7. the new blower fan of one according to claim 1, is characterized in that: described circuit control panel is provided with wireless network transceiver module.
8. the new blower fan of one according to claim 1, it is characterized in that: the outlet air end of the air intake of described indoor blast pipe and new wind exhaust duct is located at described rack top, and the air outlet of the air intake of described outdoor blast pipe and indoor exhaust wind pipe is located at described rack sidepiece.
9. the new blower fan of one according to claim 1, is characterized in that: described rack is provided with display unit, described display unit is connected to described circuit control panel.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201420331750.2U CN203940536U (en) | 2014-06-20 | 2014-06-20 | A kind of new blower fan |
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201420331750.2U CN203940536U (en) | 2014-06-20 | 2014-06-20 | A kind of new blower fan |
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| Publication Number | Publication Date |
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| CN203940536U true CN203940536U (en) | 2014-11-12 |
Family
ID=51859846
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|---|---|---|---|
| CN201420331750.2U Expired - Fee Related CN203940536U (en) | 2014-06-20 | 2014-06-20 | A kind of new blower fan |
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| CN (1) | CN203940536U (en) |
Cited By (10)
| Publication number | Priority date | Publication date | Assignee | Title |
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| CN104048363A (en) * | 2014-06-20 | 2014-09-17 | 颜为 | Fresh air machine and control method thereof |
| CN105042715A (en) * | 2015-08-27 | 2015-11-11 | 成都成实塑胶建材有限公司 | Air filtering system based on intermetallic compound micro-filtration membrane |
| CN106839113A (en) * | 2017-02-24 | 2017-06-13 | 成都秉德科技有限公司 | Lift-on/lift-off type air purifier |
| CN106871320A (en) * | 2016-09-26 | 2017-06-20 | 沃姆环境设备启东有限公司 | The new blower fan of aeration-type condensation heat air draft |
| CN107166624A (en) * | 2017-07-14 | 2017-09-15 | 安徽江航爱唯科环境科技股份有限公司 | A kind of fresh air purifying all-in-one |
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| CN109059100A (en) * | 2018-06-11 | 2018-12-21 | 成都赋阳技术开发有限公司 | A kind of air disinfection and purification system |
| CN109084424A (en) * | 2018-08-13 | 2018-12-25 | 珠海格力电器股份有限公司 | Fresh air handling unit and energy-saving operation control method |
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| Publication number | Priority date | Publication date | Assignee | Title |
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| CN104048363B (en) * | 2014-06-20 | 2017-06-06 | 颜为 | A kind of new blower fan and its control method |
| CN104048363A (en) * | 2014-06-20 | 2014-09-17 | 颜为 | Fresh air machine and control method thereof |
| CN105042715A (en) * | 2015-08-27 | 2015-11-11 | 成都成实塑胶建材有限公司 | Air filtering system based on intermetallic compound micro-filtration membrane |
| CN105042715B (en) * | 2015-08-27 | 2017-08-01 | 成都成实塑胶建材有限公司 | A kind of air filtering system based on intermetallic compound microfiltration membranes |
| CN106871320B (en) * | 2016-09-26 | 2019-06-28 | 沃姆环境设备启东有限公司 | The new blower of aeration-type condensation heat air draft |
| CN106871320A (en) * | 2016-09-26 | 2017-06-20 | 沃姆环境设备启东有限公司 | The new blower fan of aeration-type condensation heat air draft |
| CN106839113A (en) * | 2017-02-24 | 2017-06-13 | 成都秉德科技有限公司 | Lift-on/lift-off type air purifier |
| CN107166624A (en) * | 2017-07-14 | 2017-09-15 | 安徽江航爱唯科环境科技股份有限公司 | A kind of fresh air purifying all-in-one |
| CN111788435A (en) * | 2018-02-28 | 2020-10-16 | 三星电子株式会社 | Composite control device and method in air conditioning system |
| CN108317616A (en) * | 2018-05-11 | 2018-07-24 | 张忠 | A kind of fresh air conditioner all-in-one machine |
| CN109059100A (en) * | 2018-06-11 | 2018-12-21 | 成都赋阳技术开发有限公司 | A kind of air disinfection and purification system |
| CN109059100B (en) * | 2018-06-11 | 2020-11-17 | 深圳雅尔典环境技术科技有限公司 | Air disinfection and purification system |
| CN109084424A (en) * | 2018-08-13 | 2018-12-25 | 珠海格力电器股份有限公司 | Fresh air handling unit and energy-saving operation control method |
| CN114151860A (en) * | 2021-12-03 | 2022-03-08 | 珠海格力电器股份有限公司 | Fresh air conditioner and control method thereof |
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Legal Events
| Date | Code | Title | Description |
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| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| TR01 | Transfer of patent right |
Effective date of registration: 20180627 Address after: 321302 Jinhua, Yongkang, Zhejiang Province Huang Tang Industrial Zone Xing Yue Group hi tech Park South Gate 3 floor Patentee after: ZHEJIANG XINGYUE ELECTRICAL APPLIANCE CO.,LTD. Address before: 321403 No. 133, Bi Xing Road, new Bi street, Jinyun County, Lishui, Zhejiang. Patentee before: Yan Wei |
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| TR01 | Transfer of patent right | ||
| CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20141112 |
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| CF01 | Termination of patent right due to non-payment of annual fee |