CN114396686B - Air purification device for landscape - Google Patents

Abstract

The invention discloses an air purification device for landscape, which comprises a first fan and a second fan, and is characterized in that: the air blower is characterized in that a first air blower is located above a second air blower, fixing parts are fixedly mounted above a first back plate of the first air blower and below a second back plate of the second air blower, jacks are formed in the middle of the back plates of the second air blower, filter element columns are fixedly mounted in the middle of the first air blower and the second air blower, a first air hole is formed in the first air blower, a second air hole is formed in the second air blower, oxygen content detectors are mounted in the first air blower and the second air blower, the number of the filter element columns is four, grooves are formed in the side edges of the filter element columns on the outer side, electric control rods are slidably mounted in the grooves, protection plates are fixedly mounted on the electric control rods, the protection plates are hollow and surround the four filter element columns, and protection doors are arranged in the middle section areas of the filter element columns.

Description

Air purification device for landscape

Technical Field

The invention relates to the technical field of air purification, in particular to an air purification device for landscapes.

Background

Indoor exhibition gradually becomes popular, more and more culture, art and quadratic element exhibition are called by the fan and are increased the exhibition number of times, the quantity in host city also increases thereupon, in order to deal with weather variation, increase personnel's comfort level simultaneously, mostly adopt indoor exhibition, the drawback of indoor exhibition lies in, the exhibition stage is numerous, the performance personnel crowd is many, cause indoor air quality poor, the performance personnel of strenuous exercise or the excited spectator of mood have the possibility of oxygen deficiency, host need avoid the emergence of this situation, install a plurality of groups of fan combination on indoor wall limit, guarantee the oxygen suppliment, indoor air quality is high again, personnel's comfort level is an important index that the exhibition attracted visitor, if audience experience is poor, the brand influence of this exhibition just drops by a wide margin, therefore, the air purification device for the view that the design practicality is strong and guarantee indoor air quality is good is necessary.

Disclosure of Invention

The present invention is directed to an air purification device for landscapes, which solves the above problems.

In order to solve the technical problems, the invention provides the following technical scheme: the utility model provides an air purification device for view, includes fan one and fan two, its characterized in that: the first fan is located above the second fan, fixing parts are fixedly mounted above a back plate of the first fan and below a back plate of the second fan, a jack is arranged in the middle of the back plate of the second fan, a filter core column is fixedly mounted in the middle of the first fan and the second fan, a first air hole is formed in the first fan, a second air hole is formed in the second fan, and oxygen content detectors are mounted inside the first fan and the second fan.

According to the technical scheme, the filter element columns are four in number, the side edge of the filter element column is provided with the groove, the electric control rod is slidably mounted in the groove, the electric control rod is fixedly mounted with the protection plate, the protection plate is hollow and surrounds the four filter element columns, and the middle section area of the filter element column is provided with the protection door.

According to the technical scheme, the metal boxes are mounted on the inner walls of the two ends of the protection plate in a clamped mode, the metal boxes are mounted in four and symmetrical clamped modes in total, the inner wall of each metal box is provided with a bearing groove, the inner wall of each bearing groove is provided with a micro switch and an irregular knob, the side wall of each irregular knob is fixedly provided with a floating rod, and the end of each floating rod is fixedly provided with a floating ball.

According to above-mentioned technical scheme, including air purification system, its characterized in that: the air purification system comprises an air detection module, an air purification module and a comfort level monitoring module, wherein the air detection module comprises an indoor temperature monitoring unit, an indoor humidity monitoring unit and an air oxygen content monitoring unit, the air purification module comprises a fan mode conversion unit, a filter element column regulation and control unit and a timing unit, and the comfort level monitoring module comprises a floating ball monitoring unit, an oxygen content stabilizing unit and an air quality detection unit.

According to the technical scheme, the air detection module is including air temperature detector and moisture detector, air temperature detector real-time detection room temperature sends temperature data to indoor temperature monitoring unit according to the frequency once per two seconds, moisture detector real-time detection room humidity sends humidity data to indoor humidity monitoring unit according to the frequency once per thirty minutes, oxygen content among the air oxygen content monitoring unit real-time supervision air to get up oxygen content data storage, fan mode conversion unit is used for converting the operational mode of fan one and fan two, the operational mode divide into airs exhaust and convulsions, filter core post regulation and control unit is used for monitoring two filter core posts and can use remaining time to allocate the operating time of two filter core posts, the timing unit is used for taking notes the operating time of each structure and overall planning, the monitoring unit is used for monitoring the running state of floater, the oxygen content stabilizing unit is used for calculating the data of indoor oxygen content, the air quality inspection unit is used for detecting the temperature, humidity and the oxygen content of air, guarantees personnel's comfort level.

According to the technical scheme, the starting and mode conversion operation processes of the first fan 1 and the second fan 2 are as follows:

setting the initial mode of a first fan 1 as an air draft mode, and setting the initial mode of a second fan 2 as an air exhaust mode;

the indoor temperature is set to be in a T1-T2 interval by personnel, T1 represents the lowest numerical value of the conventional temperature, T2 represents the highest numerical value of the conventional temperature, an indoor temperature monitoring unit monitors the indoor temperature in real time, if the indoor temperature is higher than T2 and lower than T1, a first fan 1 and a second fan 2 are started to operate until the indoor temperature is stabilized in the T1-T2 interval, the indoor temperature is guaranteed to be comfortable, the comfortable environment of tourists and workers can be exhibited, meanwhile, the environment temperature of the exhibition is guaranteed to be stable, and the condition that damage is caused by overlarge temperature jump amplitude is avoided;

if the temperature exceeds the value of T2, the temperature needs to be reduced, at the moment, the fan mode conversion unit regulates and controls the fan I1 to be in an air exhaust mode, the fan II 2 is in an air exhaust mode, at the moment, the fan I1 releases cold air to cool the environment, the fan II 2 extracts indoor air, the air is purified through the filter element column 6 and then is exhausted through the air hole I7 in the fan I1, the effect of purifying the air is achieved, as the flowing direction of the cold air is from top to bottom, the cold air is released through the fan I1, the indoor temperature can be reduced at the fastest speed, the energy consumption is reduced, if the temperature is lower than the value of T1, the temperature needs to be increased, at the moment, the fan I1 is in the air exhaust mode, the fan II 2 releases the cold air to heat the environment, the fan I1 extracts the indoor air, the air is purified through the filter element column 6 and then is exhausted through the air hole II 8 in the fan II 2, the effect of purifying the air is achieved, and the flowing direction of the hot air is from bottom to top, the hot air is released through the fan II 2, the indoor temperature can be increased at the fastest speed, the indoor energy consumption is reduced.

According to the technical scheme, the regulation and control process of the filter element column 6 comprises the following steps:

the filter element columns 6 are divided into two parts which can independently run, and after each filter element column is newly assembled, the countdown time is set to be H;

in the previous minute before the first fan 1 and the second fan 2 are initially operated, the filter core column regulating and controlling unit drives the two filter core columns 6 to simultaneously operate, the oxygen content detector detects the oxygen content in the first minute, the oxygen content proportion is set to be Y, the three levels are divided into Y1-Y3, Y1 represents that the indoor oxygen content is low, Y2 represents that the indoor oxygen content is normal, and Y3 represents that the indoor oxygen content exceeds the standard;

if the oxygen content detector detects that the indoor oxygen content is Y1 level, after the first fan 1 and the second fan 2 operate for one minute, the condition that the two filter core columns 6 operate simultaneously is continuously maintained, more oxygen is produced by the two filter core columns 6 operating simultaneously, so that indoor personnel view more comfortably, if the oxygen content detector detects that the indoor oxygen content is Y2 level, the filter core column regulating and controlling unit closes one filter core column 6, one filter core column 6 operates to maintain indoor normal oxygen supply, if the oxygen content detector detects that the indoor oxygen content is Y3 level, the filter core column regulating and controlling unit closes the two filter core columns 6, at the moment, the indoor oxygen supply is not needed, the first fan 1 and the second fan 2 initially operate for one minute to ensure that the oxygen content detector has enough time to detect indoor air, on one hand, the operation of the filter core columns 6 is regulated and controlled by the filter core column regulating and controlling unit, the indoor air quality is maintained to be normal, on the other hand, the replacement frequency of the filter core columns is reduced, and the operation and maintenance cost is reduced.

According to the technical scheme, the operation process of the indoor humidity monitoring unit comprises the following steps:

the indoor humidity condition is controlled by an indoor humidity monitoring unit, meanwhile, the metal box 9 detects the indoor humidity level of the day according to the water storage performance of the metal box, the indoor humidity level of the day is set to be F, the indoor humidity level is divided into seven levels including F1-F7, F1 represents the minimum indoor humidity level, F7 represents the maximum indoor humidity level, when the water amount in the metal box 9 reaches the floating ball 10 floating at the bottommost layer, the floating ball 10 moves upwards to drive the floating rod 11 to move, the floating rod 11 moves to drive the irregular knob 12 to move, the irregular knob 12 moves to touch the microswitch 13, the microswitch 13 is turned on, then the dehumidifiers in the fan I1 and the fan II 2 are turned on, the dehumidifying force of the dehumidifier is divided into seven levels including J1-J7, and J1-J7 correspond to Y1-Y7 one by one;

the metal box 9 is cleaned once a day by a cleaning person.

According to the above technical solution, the operation flow of the protection plate 5 is as follows:

protection shield 5 divide into two kinds of modes of artificial operation and automatic operation, if the personnel need change filter element post 6 by force, then the personnel open artificial operation mode through air quality inspection unit, later personnel can direct manual drive protection shield 5 go up and down, open protection door 15 and change, under the conventional conditions, set for the countdown time and be the H back, two automatic aggregations of protection shield 5 merge in the middle zone of filter element post 6 and form integratively, end up to the countdown time along with the beginning timing of H, two protection shields 5 separate to 6 both ends positions of filter element post immediately, show shutter 15 out, send and remind the statement, calling personnel can change filter element post 6 post.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

In the drawings:

FIG. 1 is a schematic overall backside cross-sectional view of the present invention;

FIG. 2 is a schematic front view of the overall structure of the present invention;

FIG. 3 is a schematic view of the protective plate structure of the present invention;

FIG. 4 is a schematic view of a metal case of the present invention;

FIG. 5 is a schematic top view of the protective plate of the present invention;

FIG. 6 is a schematic view of a filter cartridge and protective door of the present invention;

FIG. 7 is a schematic diagram of the system of the present invention;

in the figure: 1. a first fan; 2. a second fan; 3. a fixing member; 4. a jack; 5. a protection plate; 6. a filter core column; 7. a first air hole; 8. a second air hole; 9. a metal case; 10. a floating ball; 11. a float rod; 12. an irregular knob; 13. a microswitch; 14. an electric control lever; 15. and (6) protecting the door.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

Referring to fig. 1-7, the present invention provides the following technical solutions: the utility model provides an air purification device for view, includes fan 1 and fan two 2, its characterized in that: the first fan 1 is located above the second fan 2, the fixing piece 3 is fixedly mounted above the first fan 1 and below the second fan 2, the jack 4 is arranged in the middle of the back plate of the second fan 2, the filter core column 6 is fixedly mounted in the middle of the first fan 1 and the second fan 2, the first fan 1 is provided with the first air hole 7, the second fan 2 is provided with the second air hole 8, and the first fan 1 and the second fan 2 are internally provided with the oxygen content detector.

Filter core post 6 has four altogether, and the side of outside filter core post 6 is seted up flutedly, and the inside slidable mounting of recess has electric control rod 14, and fixed mounting has protection shield 5 on the electric control rod 14, and protection shield 5 is the cavity form and surrounds four filter core posts 6, and protection door 15 has been seted up to the middle section region of filter core post 6.

Metal box 9 is installed to the block on the both ends inner wall of protection shield 5, and metal box 9 has four and symmetrical block installation in total, and the bearing groove has been seted up to metal box 9's inner wall, installs micro-gap switch 13 and irregular knob 12 on the inner wall in bearing groove, and fixed mounting has float rod 11 on the lateral wall of irregular knob 12, and fixed mounting has floater 10 on the end of float rod 11.

Including air purification system, its characterized in that: air purification system is including empty gas detection surveys module, air purification module and comfort level monitoring module, and empty gas detection surveys the module including indoor temperature monitoring unit, indoor humidity monitoring unit and air oxygen content monitoring unit, and empty gas purification module is including fan mode conversion unit, filter core post regulation and control unit and timing unit, and comfort level monitoring module is including floater monitoring unit, oxygen content stabilizing unit and air quality testing unit.

The air detection module comprises an air temperature detector and a humidity detector, the air temperature detector detects indoor temperature in real time, temperature data is sent to an indoor temperature monitoring unit according to the frequency of once every two seconds, the humidity detector detects indoor humidity in real time, the humidity data is sent to the indoor humidity monitoring unit according to the frequency of once every thirty minutes, the air oxygen content monitoring unit monitors the oxygen content in the air in real time, and the oxygen content data is stored, a fan mode conversion unit is used for converting the operation modes of a fan I1 and a fan II 2, the operation modes are divided into air exhaust and air draft, a filter core column regulation and control unit is used for monitoring the remaining time of two filter core columns 6, the operation time of the two filter core columns 6 is allocated, a timing unit is used for recording the operation time of each structure and recording the operation time in an integrated mode, a floating ball monitoring unit is used for monitoring the operation state of a floating ball 10, a stabilizing unit is used for calculating the data of the indoor oxygen content, an air quality detection unit is used for detecting the temperature, the humidity and the oxygen content of the air, and the comfort level of staff is guaranteed.

Starting and mode conversion operation processes of a first fan 1 and a second fan 2:

setting the initial mode of a first fan 1 as an air draft mode, and setting the initial mode of a second fan 2 as an air exhaust mode;

the method comprises the following steps that personnel set indoor conventional temperature to be a T1-T2 interval, T1 represents the lowest numerical value of the conventional temperature, T2 represents the highest numerical value of the conventional temperature, an indoor temperature monitoring unit monitors the indoor temperature in real time, if the indoor temperature is higher than T2 and lower than T1, a first fan 1 and a second fan 2 are started to operate until the indoor temperature is stabilized in the T1-T2 interval, the indoor temperature is ensured to be comfortable, a comfortable environment for visitors and workers can be exhibited, meanwhile, the environment temperature where an exhibit is located is ensured to be stable, and the situation that damage is caused by overlarge temperature jumping amplitude is avoided;

if the temperature exceeds the value of T2, the temperature needs to be reduced, at the moment, the fan mode conversion unit regulates and controls the fan I1 to be in an air exhaust mode, the fan II 2 is in an air exhaust mode, at the moment, the fan I1 releases cold air to cool the environment, the fan II 2 extracts indoor air, the air is purified through the filter element column 6 and then is exhausted through the air hole I7 in the fan I1, the effect of purifying the air is achieved, as the flowing direction of the cold air is from top to bottom, the cold air is released through the fan I1, the indoor temperature can be reduced at the fastest speed, the energy consumption is reduced, if the temperature is lower than the value of T1, the temperature needs to be increased, at the moment, the fan I1 is in the air exhaust mode, the fan II 2 releases the cold air to heat the environment, the fan I1 extracts the indoor air, the air is purified through the filter element column 6 and then is exhausted through the air hole II 8 in the fan II 2, the effect of purifying the air is achieved, and the flowing direction of the hot air is from bottom to top, the hot air is released through the fan II 2, the indoor temperature can be increased at the fastest speed, the indoor energy consumption is reduced.

And (3) regulating and controlling the filter element column 6:

the filter element columns 6 are divided into two parts which can independently run, and after each filter element column is newly assembled, the countdown time is set to be H;

in the previous minute before the first fan 1 and the second fan 2 are initially operated, the filter core column regulating and controlling unit drives the two filter core columns 6 to simultaneously operate, the oxygen content detector detects the oxygen content in the previous minute, the oxygen content ratio is set to be Y, the three levels are divided into Y1-Y3, Y1 represents that the indoor oxygen content is low, Y2 represents that the indoor oxygen content is normal, and Y3 represents that the indoor oxygen content exceeds the standard;

if the oxygen content detector detects that the indoor oxygen content is Y1 level, after the first fan 1 and the second fan 2 operate for one minute, the condition that the two filter core columns 6 operate simultaneously is continuously maintained, more oxygen is produced by the two filter core columns 6 operating simultaneously, so that indoor personnel view more comfortably, if the oxygen content detector detects that the indoor oxygen content is Y2 level, the filter core column regulating and controlling unit closes one filter core column 6, one filter core column 6 operates to maintain indoor normal oxygen supply, if the oxygen content detector detects that the indoor oxygen content is Y3 level, the filter core column regulating and controlling unit closes the two filter core columns 6, at the moment, the indoor oxygen supply is not needed, the first fan 1 and the second fan 2 initially operate for one minute to ensure that the oxygen content detector has enough time to detect indoor air, on one hand, the operation of the filter core columns 6 is regulated and controlled by the filter core column regulating and controlling unit, the indoor air quality is maintained to be normal, on the other hand, the replacement frequency of the filter core columns is reduced, and the operation and maintenance cost is reduced.

The operation process of the indoor humidity monitoring unit comprises the following steps:

the indoor humidity condition is controlled by an indoor humidity monitoring unit, meanwhile, floating balls (10) are arranged in the direction of the height of the inner wall of a metal box (9), the metal box 9 detects the humidity level in the current day according to the water storage performance of the metal box, the humidity level in the current day is set to be F, the current day is divided into seven levels from F1 to F7, F1 represents the minimum indoor humidity level, F7 represents the maximum indoor humidity level, when the water quantity in the metal box 9 reaches the floating ball 10 floating at the bottommost layer, the floating ball 10 moves upwards to drive a floating rod 11 to move, the floating rod 11 moves to drive an irregular knob 12 to move, the irregular knob 12 moves to touch a micro switch 13, the micro switch 13 is turned on to turn on a dehumidifier in a first fan 1 and a second fan 2, the dehumidifying force of the dehumidifier is divided into seven levels from J1 to J7, and J1 to J7 correspond to Y1 to Y7 one by one;

the metal box 9 is cleaned once a day by a cleaning person.

Operation flow of the protection plate 5:

protection shield 5 divide into two kinds of modes of artificial operation and automatic operation, if personnel need change filter element post 6 by force, then personnel open artificial operational mode through the air quality testing unit, later personnel can direct manual drive protection shield 5 go up and down, open protection door 15 and change, under the conventional conditions, set for the countdown time and be the H back, two automatic aggregations of protection shield 5 merge in the middle zone of filter element post 6 and form integratively, along with the beginning timing of H end up to the countdown time, two protection shields 5 separate to 6 both ends positions of filter element post immediately, show protection door 15, send out and remind the statement, calling personnel can change filter element post 6.

It should be noted that, in this document, relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. The utility model provides an air purification device for view, includes fan one (1) and fan two (2), its characterized in that: the fan I (1) is located above the fan II (2), fixing pieces (3) are fixedly mounted above a back plate of the fan I (1) and below the back plate of the fan II (2), a jack (4) is arranged in the middle of the back plate of the fan II (2), a filter core column (6) is fixedly mounted in the middle of the fan I (1) and the fan II (2), a first air hole (7) is formed in the fan I (1), a second air hole (8) is formed in the fan II (2), and oxygen content detectors are mounted in the fan I (1) and the fan II (2);

the filter element comprises four filter element columns (6), a groove is formed in the side edge of the filter element column (6) on the outer side, an electric control rod (14) is slidably mounted in the groove, a protection plate (5) is fixedly mounted on the electric control rod (14), the protection plate (5) is hollow and surrounds the four filter element columns (6), and a protection door (15) is formed in the middle section area of the filter element column (6);

the dehumidifier is characterized in that metal boxes (9) are clamped and mounted on the inner walls of two ends of the protection plate (5), the metal boxes (9) are symmetrically clamped and mounted in four total, a bearing groove is formed in the inner wall of each metal box (9), a micro switch (13) and an irregular knob (12) are mounted on the inner wall of each bearing groove, a floating rod (11) is fixedly mounted on the side wall of each irregular knob (12), a floating ball (10) is fixedly mounted on the end of each floating rod (11), each irregular knob (12) is used for triggering each micro switch (13), and each micro switch (13) is used for turning on the dehumidifier in the fan I (1) and the fan II (2);

meanwhile, the metal box (9) detects the humidity level in the day room according to the water storage performance of the metal box, the humidity level in the day room is set to be F, the humidity level is divided into seven levels F1-F7, the seven levels F1 indicate that the indoor humidity level is minimum, the F7 indicates that the indoor humidity level is maximum, the floating balls (10) are arranged in the direction of the height of the inner wall of the metal box (9), when the water amount in the metal box (9) reaches the floating ball (10) floating at the bottommost layer, the floating ball (10) moves upwards to drive the floating rod (11) to move, the floating rod (11) moves to drive the irregular knob (12) to move, the irregular knob (12) moves to touch the micro switch (13), the micro switch (13) is turned on to turn on the dehumidifier in the first fan (1) and the second fan (2), the dehumidification degree of the dehumidifier is divided into seven levels J1-J7, and the J1-J7 correspond to the Y1-Y7 one by one.

2. An environmental design landscape air purification system, including an air purification system, the air purification system cites the air purification device in claim 1, its characterized in that: the air purification system comprises an air detection module, an air purification module and a comfort level monitoring module, wherein the air detection module comprises an indoor temperature monitoring unit, an indoor humidity monitoring unit and an air oxygen content monitoring unit, the air purification module comprises a fan mode conversion unit, a filter element column regulation and control unit and a timing unit, and the comfort level monitoring module comprises a floating ball monitoring unit, an oxygen content stabilizing unit and an air quality inspection unit;

the air detection module is including air temperature detector and moisture detector, air temperature detector real-time detection indoor temperature sends temperature data to indoor temperature monitoring unit according to the frequency of once per two seconds, moisture detector real-time detection indoor humidity sends humidity data to indoor humidity monitoring unit according to the frequency of once per thirty minutes, oxygen content in the air of air oxygen content monitoring unit real-time monitoring to get up oxygen content data storage, fan mode conversion unit is used for converting the operational mode of fan one (1) and fan two (2), the operational mode divide into airs exhaust and convulsions, filter core post regulation and control unit is used for monitoring two and strains the usable remaining time of stem (6), and allots the operating time of two filter core posts (6), the timing unit is used for taking notes the operating time of each structure and overall planning and recording, the monitoring unit is used for monitoring the running state of floater (10), oxygen content stabilizing unit is used for calculating the data of indoor oxygen content, air quality testing unit is used for detecting temperature, humidity and the comfort level of air, guarantees personnel's oxygen content.

3. The air purification system for landscape according to claim 2, wherein: the starting and mode conversion operation processes of the first fan (1) and the second fan (2) are as follows:

setting the initial mode of the fan I (1) as an air draft mode, and setting the initial mode of the fan II (2) as an air exhaust mode;

the method comprises the following steps that personnel set indoor conventional temperature to be a T1-T2 interval, T1 represents the lowest numerical value of the conventional temperature, T2 represents the highest numerical value of the conventional temperature, an indoor temperature monitoring unit monitors the indoor temperature in real time, if the indoor temperature is higher than T2 and lower than T1, a first fan (1) and a second fan (2) are started to operate until the indoor temperature is stabilized in the T1-T2 interval, the indoor temperature is guaranteed to be comfortable, the comfortable environment of visitors and workers can be exhibited, meanwhile, the environment temperature of an exhibit is guaranteed to be stable, and the situation that damage is caused by overlarge temperature jump amplitude is avoided;

if the temperature exceeds the T2 value, the temperature needs to be reduced, at the moment, the fan mode conversion unit regulates and controls the fan I (1) to be in an air exhaust mode, the fan II (2) is in an air exhaust mode, at the moment, the fan I (1) releases cold air to cool the environment, the fan II (2) extracts indoor air, the air is purified through the filter element column (6) and then is exhausted through the air hole I (7) in the fan I (1) to achieve the effect of purifying the air, the flowing trend of the cold air is from top to bottom, the cold air is released through the fan I (1), the indoor temperature can be reduced at the fastest speed, the energy consumption is reduced, if the temperature is lower than the T1 value, the temperature needs to be increased, at the moment, the fan mode conversion unit regulates and controls the fan I (1) to be in the air exhaust mode, the fan II (2) is in the air exhaust mode, at the moment, the fan II (2) releases the hot air to heat the environment to be increased, the indoor air is purified through the filter element column (6), and then the air is exhausted through the air release hole II (8) to achieve the effect of purifying, the hot air, the effect of increasing the indoor temperature can be reduced from the indoor temperature.

4. The air purification system for landscape according to claim 3, wherein: the regulation and control process of the filter core column (6) comprises the following steps:

the filter element columns (6) are divided into two parts which can independently operate, and the countdown time is set to be H after each filter element column is newly installed;

in the previous minute before the first fan (1) and the second fan (2) are initially operated, the filter core column regulating and controlling unit drives the two filter core columns (6) to simultaneously operate, the oxygen content detector detects the amount of oxygen content within the one minute, the oxygen content ratio is set to be Y, the three levels are divided into Y1-Y3, Y1 represents that the indoor oxygen content is low, Y2 represents that the indoor oxygen content is normal, and Y3 represents that the indoor oxygen content exceeds the standard;

if the oxygen content detector detects that the indoor oxygen content is Y1 level, after the first fan (1) and the second fan (2) operate for one minute, the condition that the two filter core columns (6) operate simultaneously is continuously maintained, more oxygen is produced by the two filter core columns (6) operating simultaneously, indoor personnel view is more comfortable, if the oxygen content detector detects that the indoor oxygen content is Y2 level, the filter core column regulating and controlling unit closes one filter core column (6), one filter core column (6) operates to maintain indoor normal oxygen supply, if the oxygen content detector detects that the indoor oxygen content is Y3 level, the filter core column regulating and controlling unit closes the two filter core columns (6), at the moment, the indoor oxygen supply is not needed, the first fan (1) and the second fan (2) initially operate for one minute to ensure that the oxygen content detector has enough time to detect indoor air, on one hand, the operation of the filter core column (6) is regulated and controlled by the filter core column regulating and controlling unit, the indoor air quality is maintained normal, on the other hand, the replacement frequency of the filter core columns is reduced, and the operation and maintenance cost is reduced.

5. The air purification system for landscape according to claim 4, wherein: the operation process of the indoor humidity monitoring unit comprises the following steps:

the indoor humidity condition is controlled by an indoor humidity monitoring unit;

the metal box (9) is cleaned once a day by cleaning personnel.

6. The air purification system for landscape according to claim 5, wherein: the operation flow of the protection plate (5) is as follows:

protection shield (5) divide into two kinds of modes of artificial operation and automatic operation, if personnel need change filter element post (6) by force, then personnel open artificial operation mode through air quality testing unit, later personnel can direct manual drive protection shield (5) go up and down, open shutter (15) and change, under the conventional conditions, set for the countdown time and be the H back, two automatic aggregations of protection shield (5) merge the middle zone in filter element post (6) and form integratively, end up to the countdown time along with the beginning timing of H, two protection shields (5) separate to filter element post (6) both ends position immediately, show shutter (15) and come out, send and remind the statement, calling personnel can change filter element post (6).

Images