CN102091343B - Anion generator and control method thereof - Google Patents

Abstract

The invention relates to an anion generator, which comprises a front panel, a rotary wind screen, a back panel and an intelligent control module, wherein anion generating units are distributed on the front panel; the anion generating units are divided into four groups, each group has two anion generating units, and the four groups are distributed uniformly around the center of a circle at angular intervals of 45 degrees; the center of circle of the rotary wind screen and the center of the circle of the front panel are coaxially arranged, 8 first through holes are distributed on the wind screen at angular intervals of 45 degrees, 4 second through holes are arranged at angular intervals of 15 degrees with the first through holes, and two third through holes are arranged at angular intervals of 15 degrees with the second through holes, and the wind screen is driven by a step motor; the back panel is provided with at least one fan; and the intelligent control module is connected with a sensor inspection module, a first sensor is arranged on the front panel, the intelligent control module is also connected with the anion generating units, the step motor and the fan, and the sensor monitors air quality in real time. In the invention, anion beams emitted are centralized to eliminate air pollution. After the air is fresh, the generation amount of anions is reduced to save energy.

Description

A kind of anion generator and control method

Technical field

The present invention relates to the anion generator technology, especially relate to intelligent anion generator and control method.

Background technology

In prior art, various anion generators have been arranged.

Existing generation anion or anion and the produced simultaneously air cleaner of ozone are that the plug be arranged on power line is inserted in supply socket, are placed in room or the interior product used of automobile.

Existing air cleaner power is fixed, not energy-conservation.

For example application number 00810869.2, the Chinese invention patent application of " air cleaner " by name, to be formed by the housing of electric light alveolitoid and the negative electronic generator be accommodated in above-mentioned housing, this housing is provided with the section that is mounted be arranged on installation portion at the one end, be provided with blow-off outlet on the other end, by the discharge generation anion of above-mentioned anion generator, from above-mentioned blow-off outlet, emit anion.

Specifically: purifier consists of bulb shell body, AC-DC converter, booster transformer, anion generator.

Can find out, this technical scheme does not have energy-conservation consideration, and power is also less, can only be arranged in the room and automobile in little space.

Summary of the invention

In order to solve the technical problem existed in prior art, the present invention proposes a kind of energy-conservation, anion generator and control method efficiently.

Air mass sensor Real-Time Monitoring air quality of the present invention, and judge air-polluting source direction, concentrate anion to send bundle, eliminate contaminated air.

The present invention air become pure and fresh after, reduce the generating capacity of anion, thereby saved the energy.

The present invention is achieved by the following technical solution.

Implement a kind of control method of anion generator, described method comprises the steps:

1., at first, one anion generation front plate is set, the anion generating unit distributed more than one on described anion generation front plate, described anion generating unit has is convenient to send the ventilating duct that front and back that wind blows out anion connect, one group in twos of described anion generating unit, first group of generator, second group of generator, the 3rd group of generator, the 4th group of generator all are uniformly distributed by miter angle around the center of circle;

2., a more rotatable deep bead is set, the center of circle of its deep bead center of circle and anion generation front plate is coaxially arranged; On rotatable deep bead, press and generator same radius and 8 the first open-works of miter angle distribution; By 15 degree angles, 4 the second open-works are set separately with the first open-work; By 15 degree angles, 2 the 3rd open-works are set separately with the second open-work; Rotatable deep bead is driven with stepper motor;

3., between anion generation front plate and backboard, cavity is set, described ventilating duct is communicated with cavity, and at least one fan is set on backboard, and fan is dried in cavity;

4., then an intelligent control module, first sensor, sensor polling module are set, described first sensor is arranged on anion generation front plate; Intelligent control module connects the anion generating unit, connects stepper motor, connects fan, the connecting sensor polling module;

5., during initialization, intelligent control module detecting sensor polling module, air quality in the judgement space, determine mode of operation; As up-to-standard, send a small amount of anion; If any slight pollution, send middle amount anion; If any serious pollution, send a large amount anion;

While sending a small amount of anion, the rotatable deep bead of intelligent control module control step motor driving rotates, and makes the 3rd open-work aim at first group of generator;

Intelligent control module is opened first group of generator;

Intelligent control module is controlled fan and is turned round at low or first gear;

While sending middle amount anion, intelligent control module control step motor) drive rotatable deep bead rotation, make the second open-work aim at first group of generator and the 3rd group of generator;

Intelligent control module is opened first group of generator and the 3rd group of generator;

Intelligent control module is controlled fan and is turned round at mid ranger;

While sending a large amount anion, the rotatable deep bead of intelligent control module control step motor driving rotates, and makes the first open-work aim at all generators;

Intelligent control module is opened all generators;

Intelligent control module is controlled fan and is turned round at top gear.

Step 5. described intelligent control module is controlled fan, the work of anion generating unit after time cycle, turn-off and control fan, anion generating unit, intelligent control module detecting sensor polling module, judge air quality in space again, according to testing result, determine mode of operation;

A described time cycle is selected between 30 minutes～2 hours.

In another embodiment, described fan comprises two of left and right;

Now, described sensor polling module also connects the second sensor, the 3rd sensor, four-sensor, the 5th sensor;

First sensor, the second sensor, the 3rd sensor, four-sensor are arranged on the surrounding of anion generation front plate;

The 5th installation of sensors is on backboard;

The sensor polling module transfers to intelligent control module by the air quality data of each sensor, the directions calculation module of intelligent control module calculates the difference of left and right directions pollution level, and intelligent control module is controlled the left and right fan by the running of different basic, normal, high speed shelves.

Manufacture and design a kind of anion generator according to said method, described anion generator comprises;

One anion generation front plate, the anion generating unit distributed more than on described anion generation front plate.

Described anion generating unit has is convenient to send the ventilating duct that front and back that wind blows out anion connect.

One group in twos of described anion generating unit, first group of generator, second group of generator, the 3rd group of generator, the 4th group of generator all are uniformly distributed by miter angle around the center of circle.

One rotatable deep bead, coaxially arrange the center of circle of its deep bead center of circle and anion generation front plate.

On rotatable deep bead, press and generator same radius and 8 the first open-works of miter angle distribution; By 15 degree angles, 4 the second open-works are set separately with the first open-work; By 15 degree angles, 2 the 3rd open-works are set separately with the second open-work; Rotatable deep bead is driven by stepper motor;

One backboard is arranged on anion generation front plate back, and cavity is set between the two.

The ventilating duct of described anion generating unit is communicated with cavity.

At least one fan is set on backboard, and fan is dried in cavity;

One intelligent control module, first sensor, sensor polling module, described first sensor is arranged on anion generation front plate; Intelligent control module connects the anion generating unit, connects stepper motor, connects fan, the connecting sensor polling module.

In one embodiment, described fan comprises two of left and right;

Now described sensor polling module also connects the second sensor, the 3rd sensor, four-sensor, the 5th sensor;

First sensor, the second sensor, the 3rd sensor, four-sensor are arranged on the surrounding of anion generation front plate;

The 5th installation of sensors is on backboard;

The sensor polling module transfers to intelligent control module by the air quality data of each sensor, the directions calculation module of intelligent control module calculates the difference of left and right directions pollution level, and intelligent control module is controlled left and right fan by the running of the basic, normal, high speed shelves of difference.

Compared with prior art, this patent power is large, can in the large space house, use.

This patent is energy-conservation, when air quality takes a turn for the better, automatically reduces power.

The accompanying drawing explanation

Fig. 1 is the system block diagrams of a kind of anion generator of the present invention and control method;

Fig. 2 is that on the front plate in a kind of anion generator of the present invention and control method, the anion generating unit is arranged schematic diagram;

Fig. 3 be in a kind of anion generator of the present invention and control method on rotatable deep bead open-work arrange schematic diagram;

Fig. 4 is the outline drawing in a kind of anion generator of the present invention front;

Fig. 5 is the outline drawing at a kind of anion generator of the present invention back side.

The specific embodiment

In order to further illustrate method of the present invention, now in conjunction with a preferred embodiment of the present invention, be elaborated, yet described embodiment can not be used for limiting scope of patent protection of the present invention only for furnishing an explanation and the use of explaining.

The control method of enforcement a kind of anion generator as shown in Fig. 1～Fig. 5, described method comprises the steps:

1., at first, one anion generation front plate 20 is set, the anion generating unit distributed more than one on described anion generation front plate 20, described anion generating unit has is convenient to send the ventilating duct that front and back that wind blows out anion connect, one group in twos of described anion generating unit, first group of generator 21,211; Second group of generator 22,221; The 3rd group of generator 23,231; The 4th group of generator 24,241; All around the center of circle, 19 by miter angle, be uniformly distributed;

2., a more rotatable deep bead 60-0 is set, its deep bead center of circle 112 and the center of circle 19 of anion generation front plate 20 are coaxially arranged; On rotatable deep bead 60-0, press and generator same radius and 8 first open-work 60-1～60-8 of miter angle distribution; By 15 degree angles, 4 second open-work 61-1～61-4 are set separately with first open-work 60-1～60-8; By 15 degree angles, 2 the 3rd open-work 62-1～62-2 are set separately with second open-work 61-1～61-4; Rotatable deep bead 60-0 is driven with stepper motor 11;

3., in anion generation front plate 20 and 16 of backboards, cavity is set, described ventilating duct is communicated with cavity, and at least one fan 15 is set on backboard 16, and fan 15 is dried in cavity;

4., then an intelligent control module 10, first sensor 31, sensor polling module 12 are set, described first sensor 31 is arranged on anion generation front plate 20; Intelligent control module 10 connects the anion generating unit, connects stepper motor 11, connects fan 15, connecting sensor polling module 12;

5., during initialization, intelligent control module 10 detecting sensor polling modules 12, air quality in the judgement space, determine mode of operation;

As up-to-standard, send a small amount of anion;

If any slight pollution, send middle amount anion;

If any serious pollution, send a large amount anion;

While sending a small amount of anion, intelligent control module 10 control step motors 11 drive rotatable deep bead 60-0 and rotate, and make the 3rd open-work 62-1～62-2 aim at first group of generator 21,211;

Intelligent control module 10 is opened first group of generator 21,211;

Intelligent control module 10 is controlled fan 15 and is turned round at low or first gear;

While sending middle amount anion, intelligent control module 10 control step motors 11 drive rotatable deep bead 60-0 and rotate, and make second open-work 61-1～61-4 aim at first group of generator 21,211 and the 3rd group of generator 23,231;

Intelligent control module 10 is opened first group of generator 21,211 and the 3rd group of generator 23,231;

Intelligent control module 10 is controlled fan 15 and is turned round at mid ranger;

While sending a large amount anion, intelligent control module 10 control step motors 11 drive rotatable deep bead 60-0 and rotate, and make first open-work 60-1～60-8 aim at all generators;

Intelligent control module 10 is opened all generators;

Intelligent control module 10 is controlled fan 15 and is turned round at top gear.

Step 5. described intelligent control module 10 is controlled fans 15, the work of anion generating unit after time cycle, turn-off and control fan 15, anion generating unit, intelligent control module 10 detecting sensor polling modules 12, again judge air quality in space, according to testing result, determine mode of operation; A described time cycle is selected between 30 minutes～2 hours.

In one embodiment, described fan 15 comprises two of left and right;

Now described sensor polling module 12 also connects the second sensor 32, the 3rd sensor 33, four-sensor 34, the 5th sensor 35;

First sensor 31, the second sensor 32, the 3rd sensor 33, four-sensor 34 are arranged on the surrounding of anion generation front plate 20;

The 5th sensor 35 is arranged on backboard 16;

Sensor polling module 12 transfers to intelligent control module 10 by the air quality data of each sensor, the directions calculation module 13 of intelligent control module 10 calculates the difference of left and right directions pollution level, and intelligent control module 10 is controlled left and right fan 15 by the running of different basic, normal, high speed shelves.

Manufacture and design as stated above a kind of anion generator, described anion generator comprises;

One anion generation front plate 20, the anion generating unit distributed more than on described anion generation front plate 20.

Described anion generating unit has is convenient to send the ventilating duct that front and back that wind blows out anion connect.

One group in twos of described anion generating unit, first group of generator 21,211; Second group of generator 22,221; The 3rd group of generator 23,231; The 4th group of generator 24,241 all 19 is uniformly distributed by miter angle around the center of circle;

One rotatable deep bead 60-0, coaxially arrange its deep bead center of circle 112 and the center of circle 19 of anion generation front plate 20.

On rotatable deep bead 60-0, press and generator same radius and 8 first open-work 60-1～60-8 of miter angle distribution.

By 15 degree angles and with the generator same radius, 4 second open-work 61-1～61-4 are set separately with first open-work 60-1～60-8; By 15 degree angles, 2 the 3rd open-work 62-1～62-2 are set separately with second open-work 61-1～61-4; Rotatable deep bead 60-0 is driven by stepper motor 11.

One backboard 16 is arranged on anion generation front plate 20 back, and cavity is set between the two, and described ventilating duct is communicated with cavity, and at least one fan 15 is set on backboard 16, and fan 15 is dried in cavity;

One intelligent control module 10 is communicated with first sensor 31, sensor polling module 12, and described first sensor 31 is arranged on anion generation front plate 20;

Intelligent control module 10 also connects the anion generating unit, connects stepper motor 11, connects fan 15, connecting sensor polling module 12.

When described fan 15 comprises that left and right is two the time;

Now described sensor polling module 12 also connects the second sensor 32, the 3rd sensor 33, four-sensor 34, the 5th sensor 35;

First sensor 31, the second sensor 32, the 3rd sensor 33, four-sensor 34 are arranged on the surrounding of anion generation front plate 20.

The 5th sensor 35 is arranged on backboard 16.

Sensor polling module 12 transfers to intelligent control module 10 by the air quality data of each sensor, the directions calculation module 13 of intelligent control module 10 calculates the difference of left and right directions pollution level, and intelligent control module 10 is controlled left and right fan 15 by the running of different basic, normal, high speed shelves.

In Fig. 4, Fig. 5, support 51 connects base 52 and anion generation front plate 20.

Air mass sensor of the present invention, can adopt " the air pollution gas sensor " of Zhengzhou Wei Sheng Electronic Technology Co., Ltd, also can adopt " the QS series semiconductor air mass sensor " of Shenzhen rich peace categorles Science and Technology Ltd..

Above content is in conjunction with concrete preferred implementation further description made for the present invention, can not assert that specific embodiment of the invention is confined to these explanations.For the general technical staff of the technical field of the invention, without departing from the inventive concept of the premise, can also make some simple deduction or replace, all should be considered as belonging to protection scope of the present invention.

Claims (5)

1. the control method of an anion generator, is characterized in that, described method comprises the steps:

1., at first, one anion generation front plate (20) is set, the upper anion generating unit distributed more than of described anion generation front plate (20), described anion generating unit has is convenient to send the ventilating duct that front and back that wind blows out anion connect, one group in twos of described anion generating unit, first group of generator (21,211), second group of generator (22,221), the 3rd group of generator (23,231), all around the center of circle, (19) are uniformly distributed by miter angle the 4th group of generator (24,241);

2., a more rotatable deep bead (60-0) is set, the coaxial setting in the center of circle (19) by its deep bead center of circle (112) with anion generation front plate (20); At rotatable deep bead (60-0), above press and generator same radius and miter angle distribution 8 the first open-works (60-1～60-8); By 15 degree angles, 4 the second open-works (61-1～61-4) are set separately with the first open-work (60-1～60-8); By 15 degree angles, 2 the 3rd open-works (62-1～62-2) are set separately with the second open-work (61-1～61-4); Rotatable deep bead (60-0) is driven with stepper motor (11);

3., between anion generation front plate (20) and backboard (16), cavity is set, described ventilating duct is communicated with cavity, and at least one fan (15) is set on backboard (16), and fan (15) is dried in cavity;

4., then an intelligent control module (10), first sensor (31), sensor polling module (12) are set, described first sensor (31) is arranged on anion generation front plate (20); Intelligent control module (10) connects the anion generating unit, connects stepper motor (11), connects fan (15), connecting sensor polling module (12);

5., during initialization, intelligent control module (10) detecting sensor polling module (12), air quality in the judgement space, determine mode of operation; As up-to-standard, send a small amount of anion; If any slight pollution, send middle amount anion; If any serious pollution, send a large amount anion;

While sending a small amount of anion, intelligent control module (10) control step motor (11) drives rotatable deep bead (60-0) and rotates, and makes the 3rd open-work (62-1～62-2) aim at first group of generator (21,211);

Intelligent control module (10) is opened first group of generator (21,211);

Intelligent control module (10) is controlled fan (15) and is turned round at low or first gear;

While sending middle amount anion, intelligent control module (10) control step motor (11) drives rotatable deep bead (60-0) and rotates, and makes the second open-work (61-1～61-4) aim at first group of generator (21,211) and the 3rd group of generator (23,231);

Intelligent control module (10) is opened first group of generator (21,211) and the 3rd group of generator (23,231);

Intelligent control module (10) is controlled fan (15) and is turned round at mid ranger;

While sending a large amount anion, intelligent control module (10) control step motor (11) drives rotatable deep bead (60-0) and rotates, and makes the first open-work (60-1～60-8) aim at all generators;

Intelligent control module (10) is opened all generators;

Intelligent control module (10) is controlled fan (15) and is turned round at top gear.

2. the control method of anion generator according to claim 1 is characterized in that:

Step 5. described intelligent control module (10) is controlled fan (15), the work of anion generating unit after time cycle, turn-off and control fan (15), anion generating unit, intelligent control module (10) detecting sensor polling module (12), again judge air quality in space, according to testing result, determine mode of operation; A described time cycle is selected between 30 minutes～2 hours.

3. the control method of anion generator according to claim 1 is characterized in that:

Described fan (15) comprises two of left and right;

Described sensor polling module (12) also connects the second sensor (32), the 3rd sensor (33), four-sensor (34), the 5th sensor (35);

First sensor (31), the second sensor (32), the 3rd sensor (33), four-sensor (34) are arranged on the surrounding of anion generation front plate (20);

The 5th sensor (35) is arranged on backboard (16);

Sensor polling module (12) transfers to intelligent control module (10) by the air quality data of each sensor, the directions calculation module (13) of intelligent control module (10) calculates the difference of left and right directions pollution level, and intelligent control module (10) is controlled left and right fan (15) by the running of different basic, normal, high speed shelves.

4. an anion generator, is characterized in that, described anion generator comprises;

One anion generation front plate (20), the upper anion generating unit distributed more than of described anion generation front plate (20), described anion generating unit has is convenient to send the ventilating duct that front and back that wind blows out anion connect, one group in twos of described anion generating unit, first group of generator (21,211), second group of generator (22,221), the 3rd group of generator (23,231), all around the center of circle, (19) are uniformly distributed by miter angle the 4th group of generator (24,241);

One rotatable deep bead (60-0), the coaxial setting in the center of circle (19) by its deep bead center of circle (112) with anion generation front plate (20); At rotatable deep bead (60-0), above press and generator same radius and miter angle distribution 8 the first open-works (60-1～60-8); By 15 degree angles, 4 the second open-works (61-1～61-4) are set separately with the first open-work (60-1～60-8); By 15 degree angles, 2 the 3rd open-works (62-1～62-2) are set separately with the second open-work (61-1～61-4); Rotatable deep bead (60-0) is driven by stepper motor (11);

One backboard (16) is arranged on anion generation front plate (20) back, and cavity is set between the two, and described ventilating duct is communicated with cavity, and at least one fan (15) is set on backboard (16), and fan (15) is dried in cavity;

One intelligent control module (10), first sensor (31), sensor polling module (12), described first sensor (31) is arranged on anion generation front plate (20); Intelligent control module (10) connects the anion generating unit, connects stepper motor (11), connects fan (15), connecting sensor polling module (12).

5. anion generator as claimed in claim 4 is characterized in that:

Described fan (15) comprises two of left and right;

Described sensor polling module (12) also connects the second sensor (32), the 3rd sensor (33), four-sensor (34), the 5th sensor (35);

First sensor (31), the second sensor (32), the 3rd sensor (33), four-sensor (34) are arranged on the surrounding of anion generation front plate (20); The 5th sensor (35) is arranged on backboard (16);

Sensor polling module (12) transfers to intelligent control module (10) by the air quality data of each sensor, the directions calculation module (13) of intelligent control module (10) calculates the difference of left and right directions pollution level, and intelligent control module (10) is controlled left and right fan (15) by the running of different basic, normal, high speed shelves.

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