CN214891512U - Full intelligent control air purification and regulation system - Google Patents

Abstract

The utility model discloses a full intelligent control air purification governing system. It includes outdoor host computer, indoor auxiliary engine, control module, first fan, first electronic blast gate and air quality sensor, air quality sensor installs on indoor auxiliary engine, outdoor host computer includes the inner loop pipeline, outer loop pipeline, inside and outside circulation pipeline, first fan and first filter equipment, the one end of inside and outside circulation pipeline and inside loop pipeline is linked together with the one end of outer loop pipeline respectively, indoor auxiliary engine includes the intake stack, air-out pipeline and second filter equipment, the intake stack is linked together with the other end of inside and outside circulation pipeline, the air-out pipeline is linked together with the other end of inner loop pipeline, first fan is installed in inside and outside circulation pipeline, first electronic blast gate is installed in outer loop pipeline, control module respectively with first fan, first electronic blast gate and air quality sensor electricity are connected. The utility model has the advantages of better purifying effect, small running noise, simple operation and high intelligent degree.

Description

Full intelligent control air purification and regulation system

Technical Field

The utility model relates to an air purification technical field, concretely relates to air purification governing system is controlled to full intelligence.

Background

It is known that the global environment deteriorates, and the external atmospheric environment on which people rely is increasingly deteriorated with the rapid development of industrial revolution and urban construction and the inside air in which people live is contaminated due to, among others, interior decoration (benzene, formaldehyde, TVOC, etc.), furniture decoration (preservative, adhesive, formaldehyde, etc.), second-hand smoke, kitchen fumes, and also some mold, mites, bacteria, dust, etc., which are invisible to the naked eye (generally, decoration pollution such as PM2.5, dust, pollen, odor, formaldehyde, bacteria, allergens, etc.). Comprehensive investigation studies show that the main pollutants are classified into 3 types: (1) inhalable particles: PM2.5, dust, smog, pollen, etc.; (2) microorganisms: bacteria, fungi, viruses, etc.; (3) harmful volatile gas: ammonia, carbon monoxide, formaldehyde, benzene, etc.

In order to improve the above-mentioned disadvantages, people usually purchase clean air products or select a central air conditioning system. These methods have a number of disadvantages, one being a substantial increase in the investment in equipment costs and energy costs; secondly, the valuable indoor area is occupied; thirdly, the wall body needs to be perforated again when fresh outdoor air is introduced, and the wall body structure is seriously damaged; fourthly, the indoor appearance is not beautiful enough, the noise is increased, and the normal rest is influenced.

The prior art air purification systems basically have the following problems:

1. most of indoor air conditioners used by users are basically in an internal circulation level, and have extremely limited efficacy even with an external circulation function, and people are prone to red eye, chest distress and other adverse phenomena after being in the closed environment for a long time, which is caused by carbon dioxide deposition and fresh oxygen reduction caused by internal circulation, so that air turbidity and impurities are increased, and secondary pollution is caused by the fact that toxic and harmful gases cannot be filtered, purified and discharged.

2. The noise interference of the first fan of the indoor unit is serious, and the noise interference is particularly great to the sleep of people at night.

3. Indoor toxic and harmful gases (such as second-hand smoke, formaldehyde, oil smoke, toilet odor and the like) cannot be thoroughly filtered and purified.

4. In addition, even if relevant air purification products are purchased, the operation is inconvenient due to manual operation, and especially for the old and housewives, professional use of the equipment becomes a very headache problem and the operation is inconvenient.

5. In the prior art or equipment, air is filtered and purified without specific and clear classification, and the air purifier basically runs when being started, so that energy is consumed and the aim is not fulfilled.

Therefore, a new technical solution is needed.

SUMMERY OF THE UTILITY MODEL

The utility model provides an air purification governing system is controlled to full intelligence solves the relatively poor, the running noise of purifying effect that prior art exists big, complex operation's problem.

In order to achieve the above object, the technical solution of the present invention is that: full intelligent control air purification governing system, including outdoor host computer, indoor auxiliary engine, control module, first fan, first electronic blast gate and air matter level sensor, air matter level sensor install in on the indoor auxiliary engine, outdoor host computer includes inner loop pipeline, outer loop pipeline, inside and outside circulation pipeline, first fan and first filter equipment, inside and outside circulation pipeline and inner loop pipeline's one end respectively with the one end of outer loop pipeline is linked together, install in the outer loop pipeline first filter equipment, indoor auxiliary engine includes air-supply line, air-out pipeline and second filter equipment, the one end of air-supply line with the other end of inside and outside circulation pipeline is linked together, the one end of air-out pipeline with the other end of inner loop pipeline is linked together, second filter equipment installs the other end of air-supply line and air-out pipeline, the first fan is installed in the inner and outer circulation pipeline, the first electric air valve is installed in the outer circulation pipeline, and the control module is respectively electrically connected with the first fan, the first electric air valve and the air quality sensor.

Preferably, the indoor auxiliary machine further comprises an indoor shell, the air inlet pipeline and the air outlet pipeline are both arranged in the indoor shell, at least one side air inlet is further formed in the side wall of the indoor shell, and the side air inlet is communicated with the air inlet pipeline.

Preferably, at least one side air outlet is further formed in the side wall of the indoor shell, and the side air outlet is communicated with the air outlet pipeline.

Preferably, the second filtering device is composed of activated carbon and a HAPE filtering net.

Preferably, the first filtering device comprises a coarse filter, and the coarse filter is installed at one end, far away from the inner and outer circulation pipelines, of the outer circulation pipeline.

Preferably, the axes of the inner and outer circulation pipelines and the outer circulation pipeline are located on the same straight line. The inner and outer circulation pipelines and the axis of the outer circulation pipeline are positioned on the same straight line, and the inner circulation pipeline is obliquely connected with the inner and outer circulation pipelines.

Preferably, the inner and outer circulation pipes are located on the same straight line with the axis of the outer circulation pipe, the inner circulation pipe is T-shaped and is respectively connected with the inner and outer circulation pipes and the outer circulation pipe, the three form an H-shaped structure, and the air conditioner further comprises a second fan, a second electric air valve and a third electric air valve, wherein the second fan, the second electric air valve and the third electric air valve are respectively connected with the control module, the second electric air valve is located at a corner of the H-shaped structure, the third electric air valve is located at one end of the inner circulation pipe close to the first filtering device, and the second fan is located at a position of the inner circulation pipe close to the third electric air valve.

Preferably, the control module adopts a controller with the model number of ATmega328 MCU.

Compared with the prior art, the utility model has the advantages of as follows: the utility model provides a full intelligent control air purification and conditioning system, when working, the air quality sensor detects the indoor air quality, and sends a signal to the control module when the pollution index is lower than the preset value, and the control module controls the first fan and the first electric air valve to make corresponding action in the indoor semi-closed environment; the first fan and the first electric air valve are opened, outdoor air is introduced by the first fan, filtered by the first filtering device in the outer circulation pipeline, enters the inner and outer circulation pipelines, is filtered again by the air inlet pipeline and the second filtering device and then continuously enters the room, and the turbid indoor air is extruded out of the room through gaps such as doors and windows by positive pressure achieved after the continuously entering fresh air is saturated, so that the passive outer circulation function of the air is realized; the control module respectively controls the first fan, the second fan, the first electric air valve, the second electric air valve and the third electric air valve to make corresponding actions in an indoor fully-closed environment; the first fan and the second fan as well as the first electric air valve and the third electric air valve are opened and the second electric air valve is closed, the outdoor air is introduced by the first fan, is firstly filtered by the first filtering device in the outer circulating pipeline and then enters the inner circulating pipeline and the outer circulating pipeline, then passes through the air inlet pipeline and is filtered again by the second filtering device and then continuously enters the room, and meanwhile, the second fan starts the third air valve to be opened to pump out the turbid indoor air and discharge the turbid indoor air to the outside through the pipeline, so that the active outer circulating function of the indoor air is realized; when the first fan is opened, the first electric air valve is closed, or the first fan and the second air valve are opened, and when the second fan, the first electric air valve and the third electric air valve are closed, the turbid air in the room is sucked into the inner circulation pipeline through the air outlet pipeline, then passes through the inner circulation pipeline and the outer circulation pipeline, and is filtered by the air inlet pipeline and the second filtering device in the air inlet pipeline and then returns to the room, the inner circulation function is realized. The inside and outside dual cycle purification just can be realized through the state of relevant fan of module control and blast gate, and purifying effect is good, and just first, two fans all are located outdoor host computer, and the running noise is little, and intelligent control is realized to whole working process, and is easy and simple to handle. Therefore, compare prior art, the utility model has the advantages of purifying effect is better, the running noise is little, easy and simple to handle intelligent degree is high.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of an embodiment of the present invention;

fig. 2 is a schematic structural view of the indoor unit 2 of fig. 1;

fig. 3 is a schematic structural diagram of another embodiment of the present invention.

In the figure: 1-outdoor main machine, 2-indoor auxiliary machine, 3-control module, 4-outer wall, 5-first electric air valve, 6-air quality sensor, 11-inner circulation pipeline, 12-outer circulation pipeline, 13-inner and outer circulation pipeline, 14-first fan, 15-rough filtration, 16-second filtering device, 21-air inlet pipeline, 22-air outlet pipeline, 23-indoor shell, 24-side air inlet and 25-side air outlet.

Detailed Description

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

As shown in fig. 1-3, fig. 1 is a schematic structural diagram of an embodiment of the present invention; fig. 2 is a schematic structural view of the indoor unit 2 of fig. 1. Fig. 3 is a schematic structural diagram of another embodiment of the present invention.

The utility model provides an air purification governing system is controlled to full intelligence, including outdoor host computer 1, indoor auxiliary engine 2, control module 3, first electronic blast gate 5 and air quality sensor 6, air quality sensor 6 installs on indoor auxiliary engine 2. The air quality sensor 6 is used for detecting the indoor air quality, and parameters included in the detected air quality include temperature and humidity, formaldehyde, PM2.5, PM10, carbon dioxide, oxygen, an air voc value and the like. The air quality sensor is very popular in the market and can be purchased in the market directly. The outdoor main unit 1 and the indoor auxiliary unit 2 are mounted in close contact with the outer wall 4, and holes need to be punched in the outer wall 4 to butt joint internal components of the outdoor main unit 1 and the indoor auxiliary unit 2.

As shown in fig. 1, the outdoor unit 1 includes an inner circulation pipeline 11, an outer circulation pipeline 12, an inner and outer circulation pipeline 13, a first fan 14 and a first filter device, wherein one end of the inner and outer circulation pipelines 13 and 11 is respectively communicated with one end of the outer circulation pipeline 12, and the other end of the outer circulation pipeline is communicated with the outside of the room for introducing fresh air from the outside into the room. A first filtering device is arranged in the outer circulation pipeline 12, the first filtering device comprises a coarse filter 15, and the coarse filter 15 is arranged at one end of the outer circulation pipeline, which is far away from the inner circulation pipeline and the outer circulation pipeline. Coarse filtration is used to remove large particulate contaminants from outdoor air.

The axes of the inner and outer circulation pipes 11 and 12 are located on the same straight line. Thus, when the external circulation introduces outdoor fresh air, the fresh air is almost processed by the subsequent second filtering device and does not enter the room from the internal circulation pipeline.

As shown in fig. 1, as an embodiment of the present invention, the axes of the internal and external circulation pipes and the external circulation pipe are located on the same straight line. The axes of the internal and external circulation pipelines are on the same straight line, and the internal circulation pipeline is connected with the internal and external circulation pipelines in an inclined way. The embodiment mainly aims at the non-totally-enclosed environment, and utilizes the positive pressure achieved after the fresh air input outdoors is saturated to discharge the indoor turbid air through the gaps of doors, windows and the like to realize the passive external circulation function of the air.

As shown in fig. 3, as another embodiment of the present invention, the axes of the internal and external circulation pipes and the external circulation pipe are located on the same straight line. The axis of inside and outside circulating line and outer circulating line is located same straight line, and the inner circulating line is T shape to link to each other with inside and outside circulating line and outer circulating line respectively, the three constitutes H shape structure, still includes the second fan of being connected respectively with control module, the electronic blast gate of second and the electronic blast gate of third, and the electronic blast gate of second is located the corner of H shape structure, and the electronic blast gate of third is located the one end that the inner circulating line is close to first filter equipment. The second fan is positioned at the position of the inner circulation pipeline close to the third electric air valve. The embodiment is different from the previous embodiment in the shape of the inner circulation pipeline and the arrangement parts in the inner circulation pipeline, the inner circulation pipeline is not provided with the inner parts, the second fan, the second electric air valve and the third electric air valve are arranged in the embodiment, and the active inner and outer circulation function of air can be realized by the double fans by using the H-shaped structure pipeline scheme aiming at the totally-enclosed environment during working.

As shown in fig. 1 and 2, the indoor auxiliary machine 2 includes an air inlet duct 21, an air outlet duct 22 and a second filter device 16, one end of the air inlet duct 21 is communicated with the other end of the internal and external circulation duct 13, one end of the air outlet duct 22 is communicated with the other end of the internal circulation duct 11, the second filter device 16 is installed at the other end of the air inlet duct and the air outlet duct, and the second filter device is equivalent to fine filtration for further removing small particle pollutants and ensuring that the air pollutants introduced into the room are little or no. The first fan 14 is installed in the internal and external circulation pipeline 13, the indoor auxiliary machine 2 further comprises an indoor shell 23, the air inlet pipeline 21 and the air outlet pipeline 22 are both arranged in the indoor shell 23, at least one side air inlet 24 is further formed in the side wall of the indoor shell 23, the side air inlet 24 comprises the bottom and the side of the indoor shell 23, and the side air inlet 24 is communicated with the air inlet pipeline. At least one side air outlet 25 is further formed in the side wall of the indoor shell 23, the side air outlet 25 comprises the bottom and the side of the indoor shell 23, and the side air outlet 25 is communicated with an air outlet pipeline. The addition of the side air inlet 24 and the side air outlet 25 avoids discomfort to indoor personnel caused by direct air draft and air supply to the indoor personnel, and improves comfort level.

The indoor case 23 can be designed as a beautiful decorative picture, and data such as time, date, air temperature and humidity, cleanliness factor and the like can be displayed on a proper position of the indoor case by using liquid crystal, so that the indoor case is beautiful and practical.

The outdoor main unit 1 is designed outdoors, so that the indoor noise is greatly reduced, in addition, the outdoor space is large, the problem of volume caused by increasing the functions and power of the machine is not needed to be considered, and measures such as heat preservation, heat insulation, heat dissipation, sealing and the like can be better achieved.

Because the outdoor main unit 1 is arranged outdoors and indoors is only provided with the ventilation opening, the indoor shell 23 and the like, the installation is also more convenient, and the defect that the traditional system is complicated in installation and has more problems is avoided.

As shown in fig. 1 and 2, the first electric damper 5 is installed in the outer circulation duct 12, and the control module 3 is electrically connected to the first fan 4, the first electric damper 5, and the air quality sensor 6, respectively. The control module 3 may adopt an arduino platform 32 or a 64-bit control module, and in this embodiment, the control module 3 adopts a controller with a model of ATmega328 MCU. The air quality sensor 6 simultaneously detects the air quality of parameters such as indoor temperature and humidity, formaldehyde, PM2.5, PM10, carbon dioxide, oxygen, air voc value and the like, and sends corresponding signals when detecting that the corresponding parameters do not reach the standard, such as PM2.5 and PM10 do not reach the standard, the air quality sensor 6 sends a signal for starting internal circulation to the control module, the control module controls the first electric air valve and the first fan to make corresponding actions so as to realize the internal circulation, such as the air voc value does not reach the standard, the air quality sensor 6 sends a signal for starting external circulation to the control module, the control module controls the first electric air valve and the first fan to make corresponding actions so as to realize the external circulation, such as the formaldehyde concentration content does not reach the standard, the air quality sensor 6 sends a signal for starting the internal circulation to the control module, the control module controls the first electric air valve and the first fan to make corresponding actions, in order to realize the internal circulation, if carbon dioxide, oxygen concentration content do not reach standard, air quality sensor 6 sends the signal that starts the extrinsic cycle and gives control module, and control module control first electronic blast gate and first fan make corresponding action, in order to realize the extrinsic cycle.

In this embodiment, the second filtering device is composed of activated carbon and HAPE filter net. The indoor housing 23 may be designed to be openable so that the second filter device can be easily replaced.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. Full intelligent control air purification governing system, its characterized in that: the air quality sensor is mounted on the indoor auxiliary machine, the outdoor main machine comprises an inner circulation pipeline, an outer circulation pipeline, a first fan and a first filtering device, one end of the inner circulation pipeline and one end of the inner circulation pipeline are respectively communicated with one end of the outer circulation pipeline, the first filtering device is mounted in the outer circulation pipeline, the indoor auxiliary machine comprises an air inlet pipeline, an air outlet pipeline and a second filtering device, one end of the air inlet pipeline is communicated with the other end of the inner circulation pipeline and the other end of the outer circulation pipeline, one end of the air outlet pipeline is communicated with the other end of the inner circulation pipeline, the second filtering device is mounted at the other end of the air inlet pipeline and the other end of the air outlet pipeline, and the first fan is mounted in the inner circulation pipeline and the outer circulation pipeline, the first electric air valve is installed in the outer circulation pipeline, and the control module is electrically connected with the first fan, the first electric air valve and the air quality sensor respectively.

2. The fully intelligent controlled air purification and conditioning system according to claim 1, wherein: the indoor auxiliary machine further comprises an indoor shell, the air inlet pipeline and the air outlet pipeline are both arranged in the indoor shell, at least one side air inlet is further formed in the side wall of the indoor shell, and the side air inlet is communicated with the air inlet pipeline.

3. The fully intelligent air purification and conditioning system according to claim 2, wherein: at least one side air outlet is further formed in the side wall of the indoor shell, and the side air outlet is communicated with the air outlet pipeline.

4. The fully intelligent controlled air purification and conditioning system according to claim 1, wherein: the second filtering device is composed of active carbon and a HAPE filtering net.

5. The fully intelligent controlled air purification and conditioning system according to claim 1, wherein: the first filtering device comprises a coarse filter, and the coarse filter is installed at one end, far away from the inner circulation pipeline and the outer circulation pipeline, of the outer circulation pipeline.

6. The fully intelligent controlled air purification and conditioning system according to claim 1, wherein: the inner and outer circulation pipelines and the axis of the outer circulation pipeline are positioned on the same straight line, and the inner circulation pipeline is obliquely connected with the inner and outer circulation pipelines.

7. The fully intelligent controlled air purification and conditioning system according to claim 1, wherein: the inner and outer circulation pipelines are located on the same straight line with the axis of the outer circulation pipeline, the inner circulation pipeline is T-shaped and respectively connected with the inner and outer circulation pipelines and the outer circulation pipeline, the three structures form an H-shaped structure, and the inner and outer circulation pipelines further comprise a second fan, a second electric air valve and a third electric air valve, the second electric air valve is located at the corner of the H-shaped structure, the third electric air valve is located one end of the inner circulation pipeline close to the first filtering device, and the second fan is located the inner circulation pipeline close to the third electric air valve.

8. The fully intelligent controlled air purification and conditioning system according to claim 1, wherein: the control module adopts a controller with the model of ATmega328 MCU.

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