CN212006129U - Air treatment system - Google Patents

Air treatment system Download PDF

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Publication number
CN212006129U
CN212006129U CN202020725226.9U CN202020725226U CN212006129U CN 212006129 U CN212006129 U CN 212006129U CN 202020725226 U CN202020725226 U CN 202020725226U CN 212006129 U CN212006129 U CN 212006129U
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air
section
indoor
carbon dioxide
circulating
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CN202020725226.9U
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曹瑞
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Ningbo Meishan Bonded Port Chengbo Construction Engineering Co ltd
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Ningbo Meishan Bonded Port Chengbo Construction Engineering Co ltd
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Abstract

The utility model provides an air treatment system, including air inlet runner and air-out runner, wherein: be provided with the new trend entering section and the indoor air supply section that communicate in proper order in the air inlet channel: one end of the fresh air inlet section is provided with a fresh air inlet communicated with the outside, and one end of the indoor air supply section is provided with an air pipe and an indoor air supply outlet communicated with the inside of the room; the air outlet flow channel comprises a carbon dioxide removing section and an indoor circulating section: the carbon dioxide removing section is provided with a carbon dioxide inlet positioned indoors and a carbon dioxide outlet positioned outdoors, the indoor circulating section is provided with a circulating air inlet and a circulating air outlet which are both positioned indoors, and the carbon dioxide removing section is connected with the indoor circulating section through an energy exchanger. The air outlet flow channel of the system is provided with an indoor circulating section which can exchange heat with the carbon dioxide removing section, so that indoor cold and heat are effectively prevented from being removed to the outdoor when the carbon dioxide is removed, and the energy loss is reduced.

Description

Air treatment system
Technical Field
The utility model relates to an indoor air treatment technical field especially relates to an air treatment system.
Background
At present, the existing air purification method is to place an air purifier indoors to adsorb particulate matters and harmful gases. The air purifier is composed of a fan, a filter material and an electrostatic dust collector. The fan starts, and circulation room air can be adsorbed when PM2.5 or other harmful particulate matters pass through the inside filter of device to reduce indoor harmful gas's concentration and PM 2.5's particulate matter, thereby reach air-purifying's purpose.
However, in a closed environment, indoor carbon dioxide cannot be discharged, and secondary pollution caused by harmful gas emitted by the building and a purifier, such as ozone generated by a part of purifiers using the electrostatic dust removal principle, can also harm the health if the ozone cannot be discharged outdoors in time; if the window is opened for ventilation, the carbon dioxide effect is achieved, but the function of the purifier basically does not play a role. On the other hand, the traditional fresh air system is only provided with a filter material added at a fresh air port, the door is opened by opening a window or is discharged through a building gap, according to the principle of the specific gravity of carbon dioxide and air, the carbon dioxide sinks to the moving height of personnel, the opening degree can not be reasonably controlled by opening the window and opening the door, outdoor dirty air enters the room after being opened greatly, the carbon dioxide cannot be discharged after being opened slightly, the air intake and the air outlet quantity are in a direct proportion relation, the air intake quantity is discharged when the air intake quantity enters, if the closed environment is not exhausted, the air intake quantity is reduced along with the air intake quantity, the carbon dioxide is raised, a reasonable carbon dioxide discharge system is not provided, the intelligent management system can not realize full-automatic air quantity adjustment according to the indoor fresh air demand, an energy recovery system is; fresh air systems and purifiers on the market cannot simulate the operation parameters and filters inside equipment systems and air treatment real-time simulation display in real time; therefore, the current indoor air purification system and the traditional fresh air system have single functions and cannot meet the use requirements of different environments, different seasons, different field conditions and different customers.
SUMMERY OF THE UTILITY MODEL
The embodiment of the utility model provides an air treatment system for reduce the energy loss in the indoor air-purifying, air treatment system includes air inlet channel and air-out runner, wherein:
be provided with the new trend entering section and the indoor air supply section that communicate in proper order in the air inlet channel: one end of the fresh air inlet section is provided with a fresh air inlet communicated with the outside, and one end of the indoor air supply section is provided with an air pipe and an indoor air supply outlet communicated with the inside of the room;
the air outlet flow channel comprises a carbon dioxide removing section and an indoor circulating section: the carbon dioxide removing section is provided with a carbon dioxide inlet positioned indoors and a carbon dioxide outlet positioned outdoors, the indoor circulating section is provided with a circulating air inlet and a circulating air outlet which are both positioned indoors, and the carbon dioxide removing section is connected with the indoor circulating section through an energy exchanger to exchange heat.
In specific implementation, the carbon dioxide removing section and the indoor circulating section are both provided with fans.
In specific implementation, the fresh air inlet section is provided with an air filtering device.
In specific implementation, the fresh air inlet section is provided with 3-6 sets of air filtering devices.
In specific implementation, an ultra-silent fan is arranged between the fresh air inlet section and the indoor air supply section.
In specific implementation, the indoor air supply section is also provided with an air constant temperature device.
In specific implementation, the indoor circulating section further comprises an activated carbon adsorption device, and the activated carbon adsorption device is arranged at one end of a circulating air inlet of the indoor circulating section.
In specific implementation, the indoor circulating section further comprises a sterilization and disinfection device, and the sterilization and disinfection device is arranged at one end of a circulating air outlet of the indoor circulating section.
In specific implementation, the outside of the air inlet runner is covered with a shell, and the shell is made of an insulating material.
The utility model discloses in the air treatment system that provides include air inlet runner and air-out runner: be provided with the new trend entering section and the indoor air supply section that communicate in proper order in the air inlet channel: one end of the fresh air inlet section is provided with a fresh air inlet communicated with the outside, and one end of the indoor air supply section is provided with an air pipe and an indoor air supply outlet communicated with the inside; the air outlet flow channel comprises a carbon dioxide removing section and an indoor circulating section: the carbon dioxide removing section is provided with a carbon dioxide inlet positioned indoors and a carbon dioxide outlet positioned outdoors, the indoor circulating section is provided with a circulating air inlet and a circulating air outlet which are both positioned indoors, and the carbon dioxide removing section is connected with the indoor circulating section through an energy exchanger to exchange heat. The air outlet flow channel of the air treatment system is provided with the indoor circulating section which can exchange heat with the carbon dioxide removing section, so that indoor cold and heat can be effectively prevented from being removed to the outside when the carbon dioxide is removed, frequent starting of an air conditioning device is avoided, and energy loss is reduced.
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. In the drawings:
FIG. 1 is a schematic structural view of an air treatment system according to an embodiment of the present invention;
fig. 2 is a schematic diagram of the operation of the controller according to the embodiment of the present invention.
Detailed Description
In order to make the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the embodiments of the present invention are described in further detail below with reference to the accompanying drawings. The exemplary embodiments and descriptions of the present invention are provided to explain the present invention, but not to limit the present invention.
As shown in fig. 1, the embodiment of the present invention provides an air treatment system for reducing energy loss while purifying indoor air, the air treatment system includes an air inlet channel 100 and an air outlet channel 200, wherein:
the air inlet channel 100 is internally provided with a fresh air inlet section 110 and an indoor air supply section 120 which are sequentially communicated: one end of the fresh air inlet section 110 is provided with a fresh air inlet 111 communicated with the outdoor, and one end of the indoor air supply section 120 is provided with an air pipe 121 and an indoor air supply outlet 122 communicated with the indoor;
the air outlet flow channel 200 includes a carbon dioxide removing section 210 and an indoor circulating section 220: the carbon dioxide removing section 210 is provided with a carbon dioxide inlet 211 positioned indoors and a carbon dioxide outlet 212 positioned outdoors, the indoor circulating section 220 is provided with a circulating air inlet 221 and a circulating air outlet 222 both positioned indoors, and the carbon dioxide removing section 210 and the indoor circulating section 220 are connected through an energy exchanger 230 to exchange heat.
The working principle of the air treatment system is as follows: the outdoor air is sent to the indoor through the air inlet flow channel 100, the indoor circulation section 220 exchanges clean air through energy, cold and heat on carbon dioxide gas to be discharged are recovered and then sent to the indoor for sterilization and disinfection, indoor circulation is enhanced, the carbon dioxide removing section 210 releases energy to the indoor circulation section 220 through the energy exchanger 230, and then discharges the polluted air and the carbon dioxide gas to the outdoor, and therefore the loss of indoor air conditioner energy can be effectively reduced.
In an implementation, as shown in fig. 1, in order to effectively control the removal rate of the indoor carbon dioxide and the circulation rate of the indoor air, the carbon dioxide removal section 210 and the indoor circulation section 220 may be provided with a fan 240.
The principle of carbon dioxide concentration treatment is as follows: the indoor air dioxide concentration is discharged by utilizing the positive pressure of an indoor system and the fan 240 of the carbon dioxide removing section 210, the carbon dioxide is discharged from the lower position of a room through the carbon dioxide inlet 211 according to the specific gravity characteristics of the carbon dioxide and the air, so that an up-down flow direction principle is formed in the room, the air in the room circulates in real time, the air flow forms clean fresh air to enter the room, the carbon dioxide and the turbid air are effectively discharged formaldehyde and indoor peculiar smell from the flow direction principle of the indoor discharge, and the clean fresh air in the room is kept in real time.
Further, the carbon dioxide removal section 210 can be arranged according to the indoor clean air blind area principle: with outdoor air through purification treatment, pass through the constant temperature processing again and send to indoorly, indoor circulation section 220 transmits clean air to the blind area end, forms the circulation of air indoors, according to carbon dioxide and air proportion principle, carbon dioxide entry 211 sets up the position at room low side and environment easily produce carbon dioxide, carries out the pertinence and discharges, strengthens the circulation of air when carbon dioxide discharges, and fresh air degree is ensured to the more effectual condition of ensureing indoor air cleanliness factor.
In one embodiment, as shown in fig. 1, the fresh air intake section 110 may be provided with an air filtering device 112 to ensure clean and sanitary air entering the room. Further, the fresh air inlet section 110 may be provided with 3 to 6 sets of the air filtering devices 112.
Principle of air purification by the air filter device 112: the air purification and filtration treatment can be physical filtration; haze air gets into section 110 from the new trend in the air inlet channel 100 and gets into, through rain-proof isolation, birds and large granule thing are kept apart, the air admission is first imitated the filtration and is handled, first imitate the filtration and keep apart the particulate matter more than 10 microns, the air is imitated the filtration in getting into through first effect wind channel, well imitate filter and send into the high efficiency filter section again after the particulate matter filtration processing more than 5 microns, high efficiency filter carries out purification treatment with the particulate matter more than 0.3 micron, clean air after the high efficiency purification just can enter into to indoor air supply section 120.
In particular embodiments, various embodiments are possible for controlling the flow rate of air entering the room in order to effectively control the rate of air flow into the room. For example, as shown in fig. 1, an ultra-silent blower 130 may be disposed between the fresh air intake section 110 and the indoor air supply section 120. The ultra-silent fan 130 has low noise and can effectively control the air flow rate entering the room under the control of the controller.
In a specific implementation, in order to ensure that the temperature of the air entering the room is appropriate, as shown in fig. 1, the indoor air supply section 120 may further be provided with an air thermostat 123. The working principle of the air thermostat 123: the purified clean air is sent to the air constant temperature device 123, the air constant temperature device 123 adjusts the temperature according to the indoor required temperature, and finally the sent clean air is processed and exchanged at constant temperature and is sent to the indoor through the air pipe and the indoor air supply opening 122.
In a specific implementation, in order to further improve the cleanliness of the indoor air, as shown in fig. 1, the indoor circulation section 220 may further include an activated carbon adsorption device 223, and the activated carbon adsorption device 223 may be disposed at one end of the circulation air inlet 221 of the indoor circulation section 220. The filter including the activated carbon adsorption device 223 is arranged on the inner circulation system, particulate matters generated indoors can be effectively treated again, and indoor air cleanliness is improved.
In a specific implementation, in order to effectively kill bacteria and viruses in the air, as shown in fig. 1, the indoor circulating section 220 may further include a sterilization and disinfection device 224, and the sterilization and disinfection device 224 may be disposed at one end of the circulating air outlet 222 of the indoor circulating section 220.
In specific implementation, the outside of the air inlet channel 100 can be covered with a shell, and the shell can be made of flame-retardant insulating environment-friendly materials. The casing can adopt the atmospheric pressure shock attenuation with ground contact, and fan 240 then can the suspension type installation, and the design of big cross-section formula is utilized to static pressure buffering formula rack to reduce windage and filter resistance, thereby reach noise reduction effect, the casing adopts the thermal-insulated casing that gives sound insulation, and fan 240 adopts super-silent fan 130, and casing and pipeline can adopt the on-the-spot customization of the fire-retardant material of environmental protection.
In specific implementation, the utility model can adopt full intelligent global air management, the air inlet channel 100 automatically conveys fresh air according to indoor requirements, and the thermostat controls the temperature according to the indoor requirements and effectively adjusts the temperature of the input air, so that the fresh clean air blown out from the indoor air supply opening 122 is more comfortable; the carbon dioxide removal section 210 automatically adjusts and controls the discharge amount according to the indoor carbon dioxide concentration.
Specifically, as shown in fig. 2, the air treatment system further comprises an intelligent controller, the controller can be arranged in the shell, the controller is connected with the fan 240, the air thermostatic device 123, the energy exchanger 230, the sterilization and disinfection device 224, the carbon dioxide and turbid condition discharge fan 240 and the discharge regulating valve, the controller can control the fan 240 to start and stop, the rotating speed, the cold and hot temperature of the thermostatic device and the start and stop, the indoor circulating fan 240 to start and stop, the rotating speed, the carbon dioxide and turbid air discharge fan 240 to start and stop, the rotating speed, the opening degree of the exhaust valve and the switch.
The controller can detect the current voltage and the operation condition of the fan 240, detect the filth blockage condition of each filter, the air supply volume of clean air, the temperature of the air constant temperature device 123, the operation current voltage and the operation condition of the air constant temperature device 123, the air treatment effect of the air filtering device 112, the operation condition of the energy exchanger 230, the state and the emission of the carbon dioxide removing section 210, the indoor temperature and humidity, PM2.5, the concentration of carbon dioxide, the outdoor temperature and humidity, PM2.5, the fault detection of the whole system, the sending of a short message prompt of a mobile phone and the display of a field screen, and the remote display of the mobile.
The controller can monitor and record the running information and the energy consumption information of the equipment in real time, a record report is output from a remote computer, the running states of all components in the system are displayed in a three-dimensional simulation and transparence mode through the computer, and the running states, the air treatment effect and the energy recovery effect are monitored and displayed in real time.
In the specific implementation, the structure of the air treatment system adopts the design of large section and special section with small resistance, therefore, the power of the fan 240 can be effectively reduced to achieve an energy-saving effect, the intelligent automatic control system can perform real-time stepless air volume regulation according to the use requirements and actual data of indoor monitoring, the temperature is automatically controlled, the carbon dioxide concentration can automatically adjust the carbon dioxide emission according to the intelligent automatic control system, the intelligent energy exchange system can automatically judge the indoor air treatment and the carbon dioxide concentration to automatically control the carbon dioxide and the turbid gas emission amount after recovering the cold and heat energy of the discharged carbon dioxide through the cold and heat recovery principle and then discharge the carbon dioxide outdoors, the energy exchange system can automatically judge the indoor fresh air demand to perform real-time full-automatic fresh air volume adjustment, the indoor energy consumption loss is greatly reduced, and the energy-saving effect is achieved.
The utility model provides an air treatment system integrating air treatment of the whole space, which comprises air purification, air constant temperature, indoor internal circulation, energy control and recovery, carbon dioxide discharge, sterilization and disinfection, intelligent control and operation monitoring; the system can automatically judge the air quality and temperature to carry out full-automatic operation, and is clear through three-dimensional simulation display; no matter how the outdoor environment air is, the technology of the utility model can ensure that the indoor fresh air and the peculiar smell turbid gas which are clean in real time are discharged at any time, and the indoor fresh air and the peculiar smell turbid gas are sterilized and disinfected at regular time according to the requirement; the daily average PM2.5 concentration in the system is less than or equal to 9 mu g/m3(world health organization (WHO) recommended standard value of PM 2.5: PM2.5 annual average concentration of 10 μ g/m3(ii) a The average PM 2.524 hour concentration was 25. mu.g/m3). Therefore, the utility model discloses the Indoor daily average carbon dioxide concentration of Air treatment system during the system operation is not higher than outdoor 540PPM (US standard ASHRAE-62.1-2013Ventilation for Acceptable Indoor Air Quality mentions in the annex that most people Acceptable Indoor CO2 concentration is 700PPM with outdoor CO2 concentration's difference, and outdoor CO2 concentration variation range is 300-500PPM, therefore the Acceptable range of Indoor CO2 concentration is 1000-1200PPM), because of the fresh Air constantly send into Indoor, Indoor inner loop constantly circulates, turbid gas constantly automatic discharge is outdoor, help taking away the harmful substance of Indoor TVOC, formaldehyde, room peculiar smell, benzene in the process of discharging, inner loop is provided with the active carbon filter and helps with adsorbing formaldehyde and peculiar smell, provide high-Quality healthy living environment.
To sum up, the utility model discloses in the air treatment system that provides include air inlet runner 100 and air-out runner 200: the air inlet channel 100 is provided with a fresh air inlet section 110 and an indoor air supply section 120 which are sequentially communicated: one end of the fresh air inlet section 110 is provided with a fresh air inlet 111 communicated with the outdoor, and one end of the indoor air supply section 120 is provided with an air pipe 121 and an indoor air supply outlet 122 communicated with the indoor; the air outlet flow channel 200 includes a carbon dioxide removing section 210 and an indoor circulating section 220: the carbon dioxide removing section 210 is provided with a carbon dioxide inlet 211 positioned indoors and a carbon dioxide outlet 212 positioned outdoors, the indoor circulating section 220 is provided with a circulating air inlet 221 and a circulating air outlet 222 both positioned indoors, and the carbon dioxide removing section 210 and the indoor circulating section 220 are connected through an energy exchanger 230 to exchange heat. The air outlet flow channel 200 of the air treatment system is provided with the indoor circulating section 220 which can exchange heat with the carbon dioxide removing section 210, so that indoor cold and heat can be effectively prevented from being removed to the outside when carbon dioxide is removed, frequent starting of an air conditioning device is avoided, and energy loss is reduced.
The above-mentioned embodiments, further detailed description of the objects, technical solutions and advantages of the present invention, it should be understood that the above-mentioned embodiments are only specific embodiments of the present invention, and are not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (9)

1. An air handling system, characterized in that, the air handling system includes air inlet runner (100) and air outlet runner (200), wherein:
the air inlet channel (100) is internally provided with a fresh air inlet section (110) and an indoor air supply section (120) which are sequentially communicated: one end of the fresh air inlet section (110) is provided with a fresh air inlet (111) communicated with the outside, and one end of the indoor air supply section (120) is provided with an air pipe (121) and an indoor air supply outlet (122) communicated with the inside;
the air outlet flow channel (200) comprises a carbon dioxide removing section (210) and an indoor circulating section (220): the carbon dioxide removing section (210) is provided with a carbon dioxide inlet (211) located indoors and a carbon dioxide outlet (212) located outdoors, the indoor circulating section (220) is provided with a circulating air inlet (221) and a circulating air outlet (222) both located indoors, and the carbon dioxide removing section (210) is connected with the indoor circulating section (220) through an energy exchanger (230) to exchange heat.
2. The air treatment system of claim 1, wherein the carbon dioxide removal section (210) and the indoor circulation section (220) are each provided with a fan (240).
3. An air handling system according to claim 1, wherein the fresh air intake section (110) is provided with an air filtering device (112).
4. An air handling system according to claim 3, wherein the fresh air intake section (110) is provided with 3-6 sets of said air filter devices (112).
5. The air handling system of claim 1, wherein a super-silent blower (130) is disposed between the fresh air intake section (110) and the indoor air supply section (120).
6. The air handling system of claim 1, wherein the indoor air supply section (120) is further provided with an air thermostat (123).
7. The air treatment system of claim 1, wherein the indoor circulation section (220) further comprises an activated carbon adsorption device (223), and the activated carbon adsorption device (223) is disposed at one end of a circulation inlet (221) of the indoor circulation section (220).
8. The air treatment system of claim 1, wherein the indoor circulation section (220) further comprises a sterilization and disinfection device (224), the sterilization and disinfection device (224) being disposed at an end of the circulation outlet (222) of the indoor circulation section (220).
9. The air treatment system of claim 1, wherein the air inlet channel (100) is externally covered by a housing, and the housing is made of an insulating material.
CN202020725226.9U 2020-05-05 2020-05-05 Air treatment system Active CN212006129U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202020725226.9U CN212006129U (en) 2020-05-05 2020-05-05 Air treatment system

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Application Number Priority Date Filing Date Title
CN202020725226.9U CN212006129U (en) 2020-05-05 2020-05-05 Air treatment system

Publications (1)

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CN212006129U true CN212006129U (en) 2020-11-24

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CN202020725226.9U Active CN212006129U (en) 2020-05-05 2020-05-05 Air treatment system

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CN (1) CN212006129U (en)

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