CN204100445U - A kind of ion energy ozone free electrostatic filtration system - Google Patents

A kind of ion energy ozone free electrostatic filtration system Download PDF

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Publication number
CN204100445U
CN204100445U CN201420494897.3U CN201420494897U CN204100445U CN 204100445 U CN204100445 U CN 204100445U CN 201420494897 U CN201420494897 U CN 201420494897U CN 204100445 U CN204100445 U CN 204100445U
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China
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cabinet
air
new wind
indoor
exhaust
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CN201420494897.3U
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Chinese (zh)
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李岳山
吴家鹏
熊嘉康
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颜为
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Priority to CN201420494897.3U priority Critical patent/CN204100445U/en
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Publication of CN204100445U publication Critical patent/CN204100445U/en

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Abstract

The utility model relates to a kind of ion energy ozone free electrostatic filtration system, each paths in rack is rationally set by the first cabinet and the second cabinet, and the outdoor blast pipe place in the second cabinet arranges anion generating mechanism, filter course and high-pressure electrostatic filter in turn, intensify the dust granules thing in air, make it electrically charged to increase electric field adsorption capacity; The switching of corresponding new fanman's operation mode is completed by the induction numerical value of sensing mechanism; The HEPA screen pack that new wind exhaust duct place is arranged make not discharge ozone and dust-filtering to more than 90%; The utility model can not adopt heat exchanger to run when indoor/outdoor temperature-difference is little, extend heat exchanger service life, can purify room air separately, save the energy, environmental protection, ozone burst size is little, and structure rack being set to the first cabinet and the second cabinet ensures maintenance, changes the convenience of cleaning equipment or filter plant, improve machine operation efficiency, purify, newly wind is effective.

Description

A kind of ion energy ozone free electrostatic filtration system

Technical field

The utility model belongs to air conditioning; Air humidification; Ventilate; Air stream, as the technical field of the application of screen, has particularly a kind ofly coordinated air filtration operation by high voltage electrostatic equipment and HEPA screen pack, has reduced consumptive material and promote the ion energy ozone free electrostatic filtration system of filter effect.

Background technology

Along with growth in the living standard, people require more and more higher to IAQ.A can high, the intelligent new blower fan easy to use of high effect cleaning air, Energy Efficiency Ratio be needed for consumer.

New blower fan is a kind of effective air cleaning facility, indoor air can be made to produce circulation, on the one hand outside the air discharge chamber of foul indoor, on the other hand outdoor ozone after the measures such as sterilization, sterilization, filtration, be input to indoor again, allowing in room is all the air of fresh clean all the time.New blower fan, by autonomous air-supply and air inducing, makes room air realize convection current, thus farthest carries out room air displacement, and it is healthy that its built-in cleaning system ensures to enter indoor air cleaning.

In prior art, the new blower fan of tradition only has new fan operation pattern, still need when season in spring and autumn, indoor/outdoor temperature-difference was little to run new blower fan by heat exchanger, SR cannot carry out duct resistance conversion according to the actual demand of heat exchange, thus the service life of heat exchanger is shortened greatly; And can not purify the air of indoor separately, consume the energy, not environmental protection; General filtration consumptive material adopts electrostatic filtration consumptive material to adopt the materials such as tungsten filament as polarizing electrode simultaneously, a large amount of ozone can be generated, if the type air purifier does not have ozone-removing device, the ozone of release can specify in standard GB/T/18202-2000 that " indoor air ozone one hour concentration should be 0.16mg/m 3requirement below "; Meanwhile, by all air cleaning facility integrated setting in prior art, result in the accumulation of interior of equipment cabinet dust, change cleaning equipment or filter plant very inconvenient, reduce the operating efficiency of machine, add actual use cost.

Utility model content

The technical problem that the utility model solves is, in prior art, the new blower fan of tradition only has new fan operation pattern, still need when season in spring and autumn, indoor/outdoor temperature-difference was little to run new blower fan by heat exchanger, SR cannot carry out duct resistance conversion according to the actual demand of heat exchange, and the service life of the heat exchanger caused shortens greatly; And can not purify the air of indoor separately, consume the energy, not environmental protection, the general consumptive material that filters adopts electrostatic filtration consumptive material to adopt the materials such as tungsten filament as polarizing electrode simultaneously simultaneously, a large amount of ozone can be generated, if the type air purifier does not have ozone-removing device, the ozone of release can specify in standard GB/T/18202-2000 that " indoor air ozone one hour concentration should be 0.16mg/m 3requirement below "; and by all air cleaning facility integrated setting; interior of equipment cabinet dust accretions can be made again; change cleaning equipment or filter plant very inconvenient; reduce the operating efficiency of machine; add the problem of actual use cost, and then provide a kind of ion energy ozone free electrostatic filtration system of optimizing structure.

The technical scheme that the utility model adopts is, a kind of ion energy ozone free electrostatic filtration system, comprise rack and the circuit control panel being located at interior of equipment cabinet, described rack is provided with indoor air intake passage and room air air exhaust passage, described rack comprises the first cabinet and the second cabinet that arrange from top to bottom, described first cabinet is provided with new wind exhaust duct, and described second cabinet dorsal part is provided with outdoor blast pipe, and described new wind exhaust duct is communicated with the new wind air outlet on the second cabinet top; The second cabinet inside on described outdoor blast pipe top is provided with anion generating mechanism, described anion generating mechanism top is provided with filter course and high-pressure electrostatic filter from bottom to top in turn, the top of described high-pressure electrostatic filter is provided with the heat exchanger and new wind bypass air channel that are equipped with, described heat exchanger and indoor air intake passage and room air air exhaust passage are equipped with, described new wind bypass air channel is connected to new wind air outlet, and described new wind air outlet place is provided with new wind turbine; Described new wind exhaust duct place is provided with HEPA screen pack; Also sensing mechanism is provided with in described second cabinet; Described anion generating mechanism, high-pressure electrostatic filter, new wind turbine are connected with described circuit control panel with sensing mechanism.

Preferably, described indoor air intake passage is located on the first cabinet, described indoor air intake passage is communicated with the indoor air inlet on the second cabinet top, described indoor air inlet and described heat exchanger are equipped with, the sidepiece of described heat exchanger is also provided with motor exhaust, described room air air exhaust passage is located on the second cabinet of motor exhaust sidepiece, and described motor exhaust is connected with described circuit control panel.

Preferably, described indoor air intake passage is located at the second bottom of cabinet bulk, and described room air air exhaust passage is the room air air exhausting net being located at the second cabinet sidepiece, and described indoor air intake passage and described room air air exhausting net and described heat exchanger are equipped with.

Preferably, described indoor air intake passage comprises the first indoor blast pipe be located on the first cabinet and the second indoor blast pipe being located at the second bottom of cabinet bulk, described first indoor blast pipe is communicated with the indoor air inlet on the second cabinet top, and described indoor air inlet place is provided with opening-closing plate; Described room air air exhaust passage comprises the exhaust outlet being located at the second cabinet dorsal part and the room air air exhausting net being located at the second cabinet sidepiece, described exhaust outlet cooperation is provided with the motor exhaust being located at heat exchanger sidepiece, and described opening-closing plate is connected with described circuit control panel with motor exhaust.

Preferably, described sensing mechanism comprises is located at temperature sensor and carbon dioxide sensor, and described carbon dioxide sensor is located at indoor air intake passage place, and described temperature sensor is located at indoor air intake passage, outdoor blast pipe and new wind bypass air channel place.

Preferably, also activated charcoal strainer is provided with outside the HEPA screen pack of described new wind exhaust duct.

Preferably, described anion generating mechanism comprises anion brush head fixed mount, described anion brush head fixed mount is evenly distributed with some anion brushes, described anion brush is arranged towards outdoor blast pipe, and the end of described anion brush head fixed mount is connected with anion generator by anion generator splicing ear.

Preferably, be provided with microswitch inside described second cabinet, described microswitch is attached at the reveal of the second cabinet, and described microswitch is connected with described circuit control panel.

Preferably, described circuit control panel is provided with wireless network transceiver module.

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 ion energy ozone free electrostatic filtration system of optimizing structure, by rack being set to the structure of the first cabinet and the second cabinet arranged from top to bottom, each paths in rack is rationally set, and anion generating mechanism, filter course and high-pressure electrostatic filter are set in turn at the outdoor blast pipe place of the second cabinet inside, ensure the dust granules thing intensified in the middle of air, make it electrically charged with the adsorption capacity increasing electric field; The switching of the mode of operation of corresponding new blower fan can be completed by the induction numerical value of sensing mechanism; The HEPA screen pack that new wind exhaust duct place is arranged makes the utility model not discharge ozone and adopt efficient HEPA screen pack by dust-filtering to more than 90%; The utility model can not adopt heat exchanger to run when indoor/outdoor temperature-difference is little, extend the service life of heat exchanger, can purify the air of indoor separately, save the energy, environmental protection, ozone burst size is little, structure rack being set to the first cabinet and the second cabinet arranged from top to bottom ensure that maintenance, changes the convenience of cleaning equipment or filter plant, improve the operating efficiency of machine, good purification, new wind is effective.

Accompanying drawing explanation

Fig. 1 is the interior of equipment cabinet structural representation of embodiment 1 of the present utility model;

Fig. 2 is the interior of equipment cabinet structural representation of embodiment 2 of the present utility model;

Fig. 3 is the interior of equipment cabinet structural representation of embodiment 3 of the present utility model;

Fig. 4 is the structural representation of anion generating mechanism of the present utility model.

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 ion energy ozone free electrostatic filtration system, comprise rack and the circuit control panel being located at interior of equipment cabinet, described rack is provided with indoor air intake passage and room air air exhaust passage, described rack comprises the first cabinet 1 and the second cabinet 2 arranged from top to bottom, described first cabinet 1 is provided with new wind exhaust duct 3, and described second cabinet 2 dorsal part is provided with outdoor blast pipe 4, and described new wind exhaust duct 3 is communicated with the new wind air outlet on the second cabinet 2 top; Second cabinet 2 inside on described outdoor blast pipe 4 top is provided with anion generating mechanism 5, described anion generating mechanism 5 top is provided with filter course 6 and high-pressure electrostatic filter 7 from bottom to top in turn, the top of described high-pressure electrostatic filter 7 is provided with the heat exchanger 8 and new wind bypass air channel 9 that are equipped with, described heat exchanger 8 is equipped with indoor air intake passage and room air air exhaust passage, described new wind bypass air channel 9 is connected to new wind air outlet, and described new wind air outlet place is provided with new wind turbine 10; Described new wind exhaust duct 3 place is provided with HEPA screen pack 11; Also sensing mechanism is provided with in described second cabinet 2; Described anion generating mechanism 5, high-pressure electrostatic filter 7, new wind turbine 10 are connected with described circuit control panel with sensing mechanism.

In the utility model, the air exhaust passage of the new wind that indoor air intake passage, new wind exhaust duct 3, outdoor blast pipe 4, room air air exhaust passage and new wind bypass air channel 9 are discharged after the air intake passage of corresponding room air, process respectively, the air intake passage of outdoor air, the wind exhausting outlet of room air and the wind path passage of process when the new wind needing to discharge is before arrival new wind exhaust duct 3.

In the utility model, rack is set to the structure of top-down first cabinet 1 and the second cabinet 2, ensure that maintenance, change the convenience of cleaning equipment or filter plant, improve the operating efficiency of machine, good purification, new wind is effective; Simultaneously because rack has been separated into the first cabinet 1 and the second cabinet 2, it is inner that the first cabinet 1 is located at again by new wind exhaust duct 3, therefore by new wind air outlet, the new wind exhaust duct 3 of the correspondence of the first cabinet 1 and the second cabinet 2 and new wind bypass air channel 9 are coupled together, new wind air outlet is the outlet of the new wind that the process in the second cabinet 2 is discharged afterwards.

In the utility model, new wind turbine 10 is arranged on new wind air outlet place, and because when new wind is discharged, trend is from lower to upper, new wind turbine 10 gives new wind one determined power, discharges from the new wind exhaust duct 3 be communicated with.

The utility model is divided into several path by structures different in rack, comprising: 1, wind indoor air intake passage enter rack, exchange in wind automatic heat-exchanger 8 and also discharge from room air air exhaust passage; 2, wind indoor air intake passage enter rack, the exchange of the obstructed over-heat-exchanger 8 of wind directly indoor air air exhaust passage discharge; 3, wind enters from outdoor blast pipe 4, and through new wind bypass air channel 9, new wind turbine 10 works, and makes wind through the new wind air outlet of the second cabinet 2, discharges from the new wind exhaust duct 3 of the first cabinet 1; 4, wind enters from outdoor blast pipe 4, exchanges and through the work of new wind turbine 10, make wind through the new wind air outlet of the second cabinet 2, discharge from the new wind exhaust duct 3 of the first cabinet 1 in wind automatic heat-exchanger 8.Above 4 paths can complete various operational mode of the present utility model, and the triggering completing this several operational mode is completing of being controlled by sensing mechanism and circuit control panel.

In the utility model, the air being entered the second cabinet 2 by outdoor blast pipe 4 can first experience anion generating mechanism 5, it can be used for the dust granules intensified in the middle of air, make it bring electric charge, increase the adsorption capacity of high-pressure electrostatic filter 7 and filter course 6, and due to leading portion adsorption filtration more thorough, the operating pressure that HEPA screen pack 11 is born comparatively speaking reduces greatly, reduce the damage to HEPA screen pack 11, reduce the replacement cycle of HEPA screen pack 11, reduce later maintenance cost.

In the present invention, filter course 6 adopts some nonwoven layer, using as slightly imitating filter course, it coordinates with the one-level 3500V electrostatic filter device as high-pressure electrostatic filter 7, PM0.3, PM2.5 can be removed close to 90%, and overall no material consumption, only needs rotation to clean nonwoven layer and the one-level 3500V electrostatic filter device as high-pressure electrostatic filter 7.

In the utility model, high-pressure electrostatic filter 7 adopts 3500V high-pressure electrostatic, can killing pathogenic bacteria, and do not discharge ozone, can by the adsorbing powder dust of PM2.5 to more than 90%, and it coordinates with HEPA screen pack 11, greatly reduce HEPA screen pack 11 by the probability blocked, better complete the operation of purification of air and particle absorption.

In the utility model, new wind turbine 10 adopts direct current brushless motor.

In the utility model, HEPA full name is High efficiency particulate air Filter, its Chinese implication is high efficiency particle air filter, the screen pack reaching HEPA standard reaches 99.7% for the effective filterability of particle of 0.1 micron and 0.3 micron, the feature of HEPA screen pack 11 is that air can pass through, but tiny particulate cannot pass through, it can reach more than 99.97% to the particle removal efficiency that diameter is more than 0.3 micron (1/200 of hair diameter), is the most effective filtering mediums of pollutant such as smog, dust and bacterium.

In the utility model, by the cooperation of anion generating mechanism 5, filter course 6, high-pressure electrostatic filter 7 and HEPA screen pack 11, instead of in prior art the set-up mode adopting multi-layer high-voltage electrostatic filter device 7 to coordinate polarizing electrode, save the energy first, second greatly reduce ozone content, extend the service life of every purification mechanism.

Described indoor air intake passage 12 is located on the first cabinet 1, described indoor air intake passage 12 is communicated with the indoor air inlet 13 on the second cabinet 2 top, described indoor air inlet 13 is equipped with described heat exchanger 8, the sidepiece of described heat exchanger 8 is also provided with motor exhaust 14, described room air air exhaust passage is located on the second cabinet 2 of motor exhaust 14 sidepiece, and described motor exhaust 14 is connected with described circuit control panel.

Described indoor air intake passage 12 is located at bottom the second cabinet 2, and described room air air exhaust passage 15 is for being located at the room air air exhausting net of the second cabinet 2 sidepiece, and described indoor air intake passage 12 and described room air air exhausting net and described heat exchanger 8 are equipped with.

Described indoor air intake passage comprises the first indoor blast pipe 12-1 be located on the first cabinet 1 and the second indoor blast pipe 12-2 be located at bottom the second cabinet 2, described first indoor blast pipe 12-1 is communicated with the indoor air inlet 13 on the second cabinet 2 top, and described indoor air inlet 13 place is provided with opening-closing plate; Described room air air exhaust passage comprises the exhaust outlet being located at the second cabinet 2 dorsal part and the room air air exhausting net 15 being located at the second cabinet 2 sidepiece, described exhaust outlet cooperation is provided with the motor exhaust 14 being located at heat exchanger 8 sidepiece, and described opening-closing plate is connected with described circuit control panel with motor exhaust 14.

In the utility model, the problem of stringing wiring can be encountered in the work progress of reality, 3 kinds of embodiments are below provided.

Embodiment 1: indoor air intake passage 12 is located at the first cabinet 1 top, namely be arranged side by side with new wind exhaust duct 3, indoor air intake passage 12 is communicated with the indoor air inlet 13 on the second cabinet 2 top, indoor air inlet 13 and heat exchanger 8 are equipped with simultaneously, on heat exchanger 8 side, motor exhaust 14 is set, second cabinet 2 of motor exhaust 14 sidepiece arranges room air air exhaust passage, namely room air enters the first cabinet 1 of rack by indoor air intake passage 12, can select after entering the second cabinet 2 by the indoor air inlet 13 of the second cabinet 2 by heat exchanger 8 or obstructed over-heat-exchanger 8, then helped to need the air of discharging to be discharged by room air air exhaust passage by motor exhaust 14.

Embodiment 2: indoor air intake passage 12 is located at bottom the second cabinet 2, room air air exhaust passage 15 is arranged on the second cabinet 2 sidepiece with the form of waffle slab, namely room air can be discharged by grid, indoor air intake passage 12 and room air air exhaust passage 15 are equipped with heat exchanger 8 simultaneously, namely after room air enters the second cabinet 2 of rack by indoor air intake passage 12, can select by heat exchanger 8 or obstructed over-heat-exchanger 8, then the air of discharging is needed directly to be discharged by the waffle slab as room air air exhaust passage 15 of the second cabinet 2 sidepiece.

Embodiment 3: two indoor air intake passages are set, one is the first indoor blast pipe 12-1 be arranged on the first cabinet 1, another is the second indoor blast pipe 12-2 be arranged on bottom the second cabinet 2, first indoor blast pipe 12-1 is communicated with the indoor air inlet 13 on the second cabinet 2 top, indoor air inlet 13 and heat exchanger 8 are equipped with simultaneously, on heat exchanger 8 side, motor exhaust 14 is set, second cabinet 2 of motor exhaust 14 sidepiece arranges exhaust outlet, in addition room air air exhausting net 15 is set at the second cabinet 2 sidepiece, namely room air can enter the first cabinet 1 of rack by the first indoor blast pipe 12-1, can select after entering the second cabinet 2 by the indoor air inlet 13 of the second cabinet 2 by heat exchanger 8 or obstructed over-heat-exchanger 8, then helped to need the air of discharging to be discharged by exhaust outlet by motor exhaust 14 or after room air enters the second cabinet 2 of rack by the second indoor blast pipe 12-2, can select by heat exchanger 8 or obstructed over-heat-exchanger 8, then the air of discharging is needed directly to be discharged by the room air air exhausting net 15 of the second cabinet 2 sidepiece, in two kinds of optional situations of room air processing mode, at indoor air inlet 13, place arranges opening-closing plate, namely can select according to the situation of reality the operation specifically completing air flowing with which kind of indoor air intake passage and room air air exhaust passage.

In above-described embodiment, embodiment 1 is more suitable for the installation pattern of console mode, embodiment 2 is more suitable for underslung installation pattern, embodiment 3 is integration of embodiment 1 and embodiment 2, cost is higher, the scope of application is wider, but directly console mode installation can also suspension type installation.

Described sensing mechanism comprises is located at temperature sensor 16-1 and carbon dioxide sensor 16-2, described carbon dioxide sensor 16-2 is located at indoor air intake passage place, and described temperature sensor 16-1 is located at indoor air intake passage, outdoor blast pipe 4 and new wind bypass air channel 9 place.

In the utility model, temperature sensor 16-1 is mainly used in the temperature value responding to indoor and outdoors, therefore by its air intake passage disposed in the interior, outdoor blast pipe 4 and new wind bypass air channel 9 place.Meanwhile, the circuit of temperature sensor 16-1 can also distinguish the circuit of Integrated Humidity Sensor, is assembled into Temperature Humidity Sensor, and 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 the integrated operation of two kinds of even two or more sensors according to actual conditions.

In the utility model, carbon dioxide sensor 16-2 is used for the carbon dioxide concentration value in nernst cell, simultaneously, the circuit of all right integrated dust sensor of circuit of carbon dioxide sensor 16-2, be assembled into dust carbon dioxide sensor, the utility model can also show Dust distribution information except showing real-time carbon dioxide concentration value information thus.Above-mentioned integrated operation is technology well known to those skilled in the art, can complete the integrated operation of two kinds of even two or more sensors according to actual conditions.

In the utility model, because the wind entered in indoor air intake passage is can most visualize indoor actual air regime, therefore by detecting in real time for the amount of carbon dioxide in indoor air intake passage, carbon dioxide sensor 16-2 monitors indoor carbon dioxide concentration, except showing in real time, be also used to the operational mode regulating new blower fan.

Activated charcoal strainer 17 is also provided with outside the HEPA screen pack 11 of described new wind exhaust duct 3.

In the utility model, in HEPA screen pack 11 arranged outside activated charcoal strainer 17, it contains a large amount of micropore, there is huge specific area, can effectively remove colourity, stink, most organic pollutants and some inorganic matter can be removed, comprise the heavy metal that some is poisonous.

Described anion generating mechanism 5 comprises anion brush head fixed mount 5-1, described anion brush head fixed mount 5-1 is evenly distributed with some anion brush 5-2, described anion brush 5-2 is arranged towards outdoor blast pipe 4, and the end of described anion brush head fixed mount 5-1 is connected with anion generator by anion generator splicing ear.

In the utility model, the setting position of anion generating mechanism 5 should maintain a certain distance with outdoor blast pipe 4, to ensure that anion generator has effective Free up Memory.

In the utility model, anion brush 5-2 forms by inserting spring terminal head portion crimping carbon fiber, discharges anion for making anion generating mechanism 5 by carbon fiber.

In the utility model, electric charge on the dust granules band adopting anion generating mechanism 5 to make to enter the second cabinet 2, is convenient to the absorption of high-pressure electrostatic filter 7 for these dust granules, substantially increases detergent power, reduce the replacement frequency of consumptive material.

In the utility model, anion brush head fixed mount 5-1 is evenly distributed with some anion brush 5-2 and anion brush 5-2 is arranged towards outdoor blast pipe 4, ensure that the particle entered in the second cabinet 2 air for each direction can carry out sterilizing, pass through anion generator splicing ear connected with anion generator in the end of anion brush head fixed mount 5-1 simultaneously, the anion that this structure makes anion generator produce not easily is disturbed by the miscellaneous part in the second rack 2, have effective Free up Memory, the ion concentration of release room environment can reach 90% of nominal value, the ion of a part is used for the electrostatic supplementing HEPA screen pack 11 decay in addition, further increase HEPA screen pack 11 adsorption particle thing degerming ability, extend again the service life of HEPA screen pack 11.

Be provided with microswitch 18 inside described second cabinet 2, described microswitch 18 is attached at the reveal of the second cabinet 2, and described microswitch 18 is connected with described circuit control panel.

In the utility model, inside the second cabinet 2, microswitch 18 is set, the operation principle of microswitch 18 be outer mechanical force by actuated element (push-piece, button, lever, roller etc.) by masterpiece for action reed, snap action is produced when action reed is displaced to critical point, make the movable contact of action reed end and fixed contact quick-make or disconnection, complete switching function.Microswitch 18 is attached at the reveal of the second cabinet 2, and when the door of the second cabinet 2 closes, microswitch 18 is in closure state, and machine can run; And due to the cleaning equipment in the second cabinet 2 especially many, therefore when the door of the second cabinet 2 is opened, namely microswitch 18 is in open mode, is stopped running, avoid the danger that may exist when user's misoperation opens the door of the second cabinet 2 by circuit control panel control machine.

Described circuit control panel is provided with wireless network transceiver module.

In the utility model, circuit control panel is arranged wireless network transceiver module, radio network technique and corresponding procotol can be adopted to complete the process of the operation by the new blower fan of mobile phone A PP software wireless remote control, and the information can received and dispatched in time about room air situation, contribute to user and understand IAQ in real time.

Described rack is provided with display unit, and described display unit is connected to described circuit control panel.

In the utility model, rack arranges display unit, display unit can obtain for the useful information of user from circuit control panel, and information is presented to user, is convenient to the working condition that user understands new blower fan in real time.

The mode of operation of the utility model under new fan operation pattern is: outside air enters from the outdoor blast pipe 4 of the second cabinet 2 dorsal part, through anion generating mechanism 5 zone of action electric charge, after through filter course 6, slightly effect is filtered, again through high-pressure electrostatic filter 7 kill bacteria virus, through over-heat-exchanger 8, utilize new wind turbine 10, machinery brute force is relied on upwards to be blown by side, again through HEPA screen pack 11 and activated charcoal strainer 17, fine particles in adsorption-decomposition function air, remove the pernicious gas in air, new wind through multiple filtration sequentially passes through new wind air outlet and new wind exhaust duct 3 to indoor conveying fresh air, meanwhile, room air, by indoor air intake passage, through over-heat-exchanger 8, drains into outdoor by room air air exhaust passage.

The operation principle of the utility model under transition season operational mode is: outside air enters from the outdoor blast pipe 4 of the second cabinet 2 dorsal part, through anion generating mechanism 5 zone of action electric charge, after through filter course 6, slightly effect is filtered, again through high-pressure electrostatic filter 7 kill bacteria virus, without heat exchanger 8, utilize new wind turbine 10, machinery brute force is relied on upwards to be blown by side, again through HEPA screen pack 11 and activated charcoal strainer 17, fine particles in adsorption-decomposition function air, remove the pernicious gas in air, new wind through multiple filtration sequentially passes through new wind air outlet and new wind exhaust duct 3 to indoor conveying fresh air, meanwhile, room air, by indoor air intake passage, without heat exchanger 8, drains into outdoor by room air air exhaust passage.

Above-mentioned two kinds of operational modes are the common mode of operation of the utility model, the utility model can also select different mode of operations by the use of the selection of each air intake, air-out passage and heat exchanger 8, reach different work requirements, complete different room air adjustment operations.

The utility model solves in prior art, the new blower fan of tradition only has new fan operation pattern, still need when season in spring and autumn, indoor/outdoor temperature-difference was little to run new blower fan by heat exchanger 8, SR cannot carry out duct resistance conversion according to the actual demand of heat exchange, and the service life of the heat exchanger 8 caused shortens greatly, and can not purify the air of indoor separately, consume the energy, not environmental protection, the general consumptive material that filters adopts electrostatic filtration consumptive material to adopt the materials such as tungsten filament as polarizing electrode simultaneously simultaneously, a large amount of ozone can be generated, if the type air purifier does not have ozone-removing device, the ozone of release can specify in standard GB/T/18202-2000 that " indoor air ozone one hour concentration should be 0.16mg/m 3requirement below ", and by all air cleaning facility integrated setting, interior of equipment cabinet dust accretions can be made again, change cleaning equipment or filter plant very inconvenient, reduce the operating efficiency of machine, add the problem of actual use cost, by rack being set to the structure of the first cabinet 1 and the second cabinet 2 arranged from top to bottom, each paths in rack is rationally set, and anion generating mechanism 5 is set in turn at outdoor blast pipe 4 place of the second cabinet 2 inside, filter course 6 and high-pressure electrostatic filter 7, intensify the dust granules thing in the middle of air, make it electrically charged with the adsorption capacity increasing electric field, the switching of the mode of operation of corresponding new blower fan can be completed by the induction numerical value of sensing mechanism, the HEPA screen pack 11 that new wind exhaust duct 3 place is arranged makes the utility model not discharge ozone and adopt efficient HEPA screen pack 11 by dust-filtering to more than 90%, the utility model can not adopt heat exchanger 8 to run when indoor/outdoor temperature-difference is little, extend the service life of heat exchanger 8, can purify the air of indoor separately, save the energy, environmental protection, ozone burst size is little, structure rack being set to the first cabinet 1 and the second cabinet 2 arranged from top to bottom ensure that maintenance, changes the convenience of cleaning equipment or filter plant, improve the operating efficiency of machine, good purification, new wind is effective.

Claims (10)

1. an ion energy ozone free electrostatic filtration system, comprise rack and the circuit control panel being located at interior of equipment cabinet, described rack is provided with indoor air intake passage and room air air exhaust passage, it is characterized in that: described rack comprises the first cabinet and the second cabinet that arrange from top to bottom, described first cabinet is provided with new wind exhaust duct, described second cabinet dorsal part is provided with outdoor blast pipe, and described new wind exhaust duct is communicated with the new wind air outlet on the second cabinet top; The second cabinet inside on described outdoor blast pipe top is provided with anion generating mechanism, described anion generating mechanism top is provided with filter course and high-pressure electrostatic filter from bottom to top in turn, the top of described high-pressure electrostatic filter is provided with the heat exchanger and new wind bypass air channel that are equipped with, described heat exchanger and indoor air intake passage and room air air exhaust passage are equipped with, described new wind bypass air channel is connected to new wind air outlet, and described new wind air outlet place is provided with new wind turbine; Described new wind exhaust duct place is provided with HEPA screen pack; Also sensing mechanism is provided with in described second cabinet; Described anion generating mechanism, high-pressure electrostatic filter, new wind turbine are connected with described circuit control panel with sensing mechanism.
2. a kind of ion energy ozone free electrostatic filtration system according to claim 1, it is characterized in that: described indoor air intake passage is located on the first cabinet, described indoor air intake passage is communicated with the indoor air inlet on the second cabinet top, described indoor air inlet and described heat exchanger are equipped with, the sidepiece of described heat exchanger is also provided with motor exhaust, described room air air exhaust passage is located on the second cabinet of motor exhaust sidepiece, and described motor exhaust is connected with described circuit control panel.
3. a kind of ion energy ozone free electrostatic filtration system according to claim 1, it is characterized in that: described indoor air intake passage is located at the second bottom of cabinet bulk, described room air air exhaust passage is the room air air exhausting net being located at the second cabinet sidepiece, and described indoor air intake passage and described room air air exhausting net and described heat exchanger are equipped with.
4. a kind of ion energy ozone free electrostatic filtration system according to claim 1, it is characterized in that: described indoor air intake passage comprises the first indoor blast pipe be located on the first cabinet and the second indoor blast pipe being located at the second bottom of cabinet bulk, described first indoor blast pipe is communicated with the indoor air inlet on the second cabinet top, and described indoor air inlet place is provided with opening-closing plate; Described room air air exhaust passage comprises the exhaust outlet being located at the second cabinet dorsal part and the room air air exhausting net being located at the second cabinet sidepiece, described exhaust outlet cooperation is provided with the motor exhaust being located at heat exchanger sidepiece, and described opening-closing plate is connected with described circuit control panel with motor exhaust.
5. a kind of ion energy ozone free electrostatic filtration system according to claim 1, it is characterized in that: described sensing mechanism comprises is located at temperature sensor and carbon dioxide sensor, described carbon dioxide sensor is located at indoor air intake passage place, and described temperature sensor is located at indoor air intake passage, outdoor blast pipe and new wind bypass air channel place.
6. a kind of ion energy ozone free electrostatic filtration system according to claim 1, is characterized in that: be also provided with activated charcoal strainer outside the HEPA screen pack of described new wind exhaust duct.
7. a kind of ion energy ozone free electrostatic filtration system according to claim 1, it is characterized in that: described anion generating mechanism comprises anion brush head fixed mount, described anion brush head fixed mount is evenly distributed with some anion brushes, described anion brush is arranged towards outdoor blast pipe, and the end of described anion brush head fixed mount is connected with anion generator by anion generator splicing ear.
8. a kind of ion energy ozone free electrostatic filtration system according to claim 1, is characterized in that: be provided with microswitch inside described second cabinet, described microswitch is attached at the reveal of the second cabinet, and described microswitch is connected with described circuit control panel.
9. a kind of ion energy ozone free electrostatic filtration system according to claim 1, is characterized in that: described circuit control panel is provided with wireless network transceiver module.
10. a kind of ion energy ozone free electrostatic filtration system according to claim 1, it is characterized in that: described rack is provided with display unit, described display unit is connected to described circuit control panel.
CN201420494897.3U 2014-08-31 2014-08-31 A kind of ion energy ozone free electrostatic filtration system CN204100445U (en)

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Cited By (10)

* Cited by examiner, † Cited by third party
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CN105352060A (en) * 2015-12-10 2016-02-24 远大空品科技有限公司 Vertical fresh air fan for heat recovery
CN105352059A (en) * 2015-12-10 2016-02-24 远大空品科技有限公司 Simple fresh air fan for heat recovery
CN105352070A (en) * 2015-12-10 2016-02-24 远大空品科技有限公司 Fresh air fan for heat recovery
CN105846313A (en) * 2016-04-14 2016-08-10 颜为 Air ionization dust collecting and purifying device
CN106964488A (en) * 2017-05-16 2017-07-21 颜为 A kind of dust electric field and its assembly method and the VMC using the electric field
WO2017177744A1 (en) * 2016-04-14 2017-10-19 颜为 Air-ionization dust collecting and purifying device
WO2018058716A1 (en) * 2016-10-01 2018-04-05 戴文 All-in-one fresh air purifier
CN108716717A (en) * 2018-05-28 2018-10-30 佛山市日日圣科技有限公司 A kind of air cleaning system
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
CN109654623A (en) * 2018-12-23 2019-04-19 佳木斯大学 A kind of mobile chlorination equipment that can be carried out disinfection automatically to department

Cited By (11)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105352060A (en) * 2015-12-10 2016-02-24 远大空品科技有限公司 Vertical fresh air fan for heat recovery
CN105352059A (en) * 2015-12-10 2016-02-24 远大空品科技有限公司 Simple fresh air fan for heat recovery
CN105352070A (en) * 2015-12-10 2016-02-24 远大空品科技有限公司 Fresh air fan for heat recovery
CN105846313A (en) * 2016-04-14 2016-08-10 颜为 Air ionization dust collecting and purifying device
WO2017177744A1 (en) * 2016-04-14 2017-10-19 颜为 Air-ionization dust collecting and purifying device
WO2018058716A1 (en) * 2016-10-01 2018-04-05 戴文 All-in-one fresh air purifier
CN106964488A (en) * 2017-05-16 2017-07-21 颜为 A kind of dust electric field and its assembly method and the VMC using the electric field
CN108716717A (en) * 2018-05-28 2018-10-30 佛山市日日圣科技有限公司 A kind of air cleaning system
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
CN109654623A (en) * 2018-12-23 2019-04-19 佳木斯大学 A kind of mobile chlorination equipment that can be carried out disinfection automatically to department

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