CN207335062U - Passive House environment self-adaption cloud control fresh air system - Google Patents

Passive House environment self-adaption cloud control fresh air system Download PDF

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Publication number
CN207335062U
CN207335062U CN201721061040.2U CN201721061040U CN207335062U CN 207335062 U CN207335062 U CN 207335062U CN 201721061040 U CN201721061040 U CN 201721061040U CN 207335062 U CN207335062 U CN 207335062U
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fresh
air
return air
pipe
inlet
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薄彦超
宋新伟
仇宏宇
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Hebei Blue Ocean Wind Technology Co Ltd
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Hebei Blue Ocean Wind Technology Co Ltd
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02ATECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
    • Y02A30/00Adapting or protecting infrastructure or their operation
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02BCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
    • Y02B30/00Energy efficient heating, ventilation or air conditioning [HVAC]
    • Y02B30/90Passive houses; Double facade technology

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  • Air Conditioning Control Device (AREA)

Abstract

The utility model proposes a kind of Passive House environment self-adaption cloud control fresh air system, including air filtration module and Temperature Treatment module, the function of air-conditioning and fresh air system is combined, room air can be purified and the gas after filtering is freezed and heated;PTC electrothermal generators, surface cooler, thermal storage ceramic component and accessory fan are set inside the air-inlet cavity of Temperature Treatment module;Control panel, formaldehyde sensor, TVOC sensors, PM2.5 sensors and CO are set in return air chamber2Sensor;Second fresh inlet sets the first wind pressure sensor, and the second return air inlet or the outlet of the second return air set the second wind pressure sensor;Second fresh inlet sets the first Temperature Humidity Sensor, and the outlet of the second fresh air sets the second Temperature Humidity Sensor;Control panel is communicated to connect with smart mobile phone and background server.The utility model combines the function of air-conditioning and fresh air system, saves just current cost, increases energy utilization efficiency, reduces later stage energy consumption.

Description

Passive House environment self-adaption cloud control fresh air system
Technical field
Fresh air system technical field is the utility model is related to, it is new to particularly relate to a kind of Passive House environment self-adaption cloud control Wind system.
Background technology
A set of independent air processing system that fresh air system is made of supply air system and exhaust system, duct type fresh air system System is made of new wind turbine and pipe fitting, is entered interior by new wind turbine clean room outer space conductance, is arranged room air by pipeline Go out.But current fresh air system is a set of independent air treatment system, and air can only be purified, and can not realize system Cold and heat-production functions.
On the other hand, the air-conditioning heating used at present is slow, and be easy to cause room air and do not circulate.
Under normal conditions, family expenses and private residences for commercial use building need fresh air system and air-conditioning to use at the same time, if interior is at the same time Fresh air system and air-conditioning are installed, not only increase just current cost, later stage energy consumption is very big, causes the wasting of resources.Passive House originates from In German well-known financial key city Frankfort of the 1990s, the heat-insulating material and complexity of this kind of residential usage super thick Door and window, efficient thermal and insulating performance is mainly reached by the construction way of house in itself, reduces or is supplied without using active The energy, even need to provide other energy, also as far as possible use clean regenerative resource.The superpower sealing of Passive House Property and heat-proof quality provide convenience condition for the design and use of adaptive cloud control fresh air system.
Utility model content
The utility model proposes a kind of Passive House environment self-adaption cloud control fresh air system, solve same in the prior art When just current cost, later stage energy consumption greatly and the problem of cause the wasting of resources are installed caused by fresh air system and air-conditioning.
What the technical solution of the utility model was realized in:
A kind of Passive House environment self-adaption cloud control fresh air system, including air filtration module and Temperature Treatment module; The air filtration module has the first fresh inlet, the outlet of the first fresh air, the first return air inlet and the outlet of the first return air;It is described Temperature Treatment module has the second fresh inlet, the outlet of the second fresh air, the second return air inlet and the outlet of the second return air;
First fresh inlet is connected with the first fresh air and enters pipe, and the other end that first fresh air enters pipe is fresh wind port; The second fresh air is connected between the first fresh air outlet and second fresh inlet and enters pipe, the second fresh air outlet connection There is the 3rd fresh air to enter pipe, the other end that the 3rd fresh air enters pipe is air outlet;
The first return air outlet is connected with the first return air outlet pipe, and the other end of the first return air outlet pipe is exhaust outlet; The second return air outlet pipe, the second return air inlet connection are connected between first return air inlet and second return air outlet There is the 3rd return air outlet pipe, the other end of the 3rd return air outlet pipe is return air inlet:
First fresh air, which enters, is provided with the first Electric air valve on pipe, it is electronic to be provided with second in the first return air outlet pipe Air-valve;First fresh air, which enters, is connected with circulation pipe between pipe and the first return air outlet pipe, the circulation pipe and described first Fresh air enters the junction of pipe between first Electric air valve and first fresh inlet, the circulation pipe and described the The junction of one return air outlet pipe is located between second Electric air valve and first return air outlet;Set on the circulation pipe There is the 3rd Electric air valve;
The Temperature Treatment module is connected with Temperature Treatment outdoor unit and LCD touch control flow;
The Temperature Treatment module includes a housing, and the enclosure interior is divided into air-inlet cavity and return air chamber by partition plate;Institute The second fresh inlet and the outlet of the second fresh air are stated positioned at the both ends of the air-inlet cavity, second return air inlet and the second return air go out Mouth is located at the both ends of the return air chamber;
PTC electric heating is disposed with the air-inlet cavity to second fresh air outlet from second fresh inlet to occur Device, surface cooler, thermal storage ceramic component and accessory fan, the PTC electrothermal generators intermittent work;Set in the return air chamber There are control panel, formaldehyde sensor, TVOC sensors, PM2.5 sensors and CO2Sensor;
Second fresh inlet is provided with the first wind pressure sensor, and the second return air inlet or the second return air outlet is set It is equipped with the second wind pressure sensor;
Second fresh inlet is provided with the first Temperature Humidity Sensor, and it is warm and humid that the second fresh air outlet is provided with second Spend sensor;
The control panel and first Electric air valve, the second Electric air valve, the 3rd Electric air valve, outside Temperature Treatment room Machine, LCD touch control flow, PTC electrothermal generators, surface cooler, accessory fan, formaldehyde sensor, TVOC sensors, PM2.5 are passed Sensor, CO2Sensor, the first wind pressure sensor, the second wind pressure sensor, the first Temperature Humidity Sensor and the second temperature and humidity sensing Device communicates to connect;
The control panel is communicated to connect with smart mobile phone and background server.
Further, the second return air outlet is provided with the 3rd Temperature Humidity Sensor, the 3rd Temperature Humidity Sensor Communicated to connect with the control panel.
Further, the formaldehyde sensor, TVOC sensors, PM2.5 sensors and CO2Sensor integration is in a biography On sensor plate.
Further, the control panel includes master control borad and driving plate, and the master control borad takes with the smart mobile phone, backstage Business device and driving plate communication connection, institute's driving plate and first Electric air valve, the second Electric air valve, the 3rd Electric air valve, temperature Degree processing outdoor unit, LCD touch control flow, PTC electrothermal generators, surface cooler, accessory fan, formaldehyde sensor, TVOC sensings Device, PM2.5 sensors, CO2Sensor, the first wind pressure sensor, the second wind pressure sensor, the first Temperature Humidity Sensor and second Temperature Humidity Sensor communicates to connect.
Further, first fresh air enters pipe, the 3rd fresh air enters pipe, the first return air outlet pipe and the 3rd return air outlet pipe are Pvc pipe.
Further, first fresh air enters between pipe and first fresh inlet, the 3rd fresh air enters pipe and institute State the second fresh air outlet between, the first return air outlet pipe and first return air outlet between, the 3rd return air outlet pipe with Connected between second return air inlet by hose.
Further, second fresh air enters pipe and the second return air outlet pipe is hose.
The beneficial effects of the utility model are:
1st, the utility model combines the function of air-conditioning and fresh air system, room air can be purified and detected, The air after filtering can be freezed and be heated again, by adjusting the parameter of LCD touch control flow, make the air after filtering Temperature can be adjusted, and obtain the fresh air of suitable human body;
2nd, the Temperature Treatment module of the utility model can match any existing air filtration module, save initial stage into This;Thermal storage ceramic component is added, so as to add energy utilization efficiency, also reduces later stage energy consumption;
3rd, it can carry out circulating in interior, reduce system energy consumption, realize the separately adjustable mistake of scientific and reasonable room air Journey.
Brief description of the drawings
, below will be to required use in embodiment in order to illustrate more clearly of the technical solution of the utility model embodiment Attached drawing be briefly described, it should be apparent that, drawings in the following description are only some embodiments of the utility model, right For those of ordinary skill in the art, without having to pay creative labor, it can also be obtained according to the attached drawing His attached drawing.
Fig. 1 is the structure diagram of one embodiment of the utility model;
Fig. 2 is the structure diagram of the Temperature Treatment module of the embodiment 1 of the utility model;
Fig. 3 is the structure diagram of the Temperature Treatment module of the embodiment 2 of the utility model;
Fig. 4 is the structure diagram of the thermal storage ceramic component of one embodiment of the utility model.
Wherein:1st, air filtration module;2nd, Temperature Treatment module;3rd, the first fresh inlet;4th, the first return air exports;5th, Two fresh inlets;6th, the second fresh air exports;7th, the second return air inlet;8th, the second return air exports;9th, the first fresh air enters pipe;10th, it is new Air port;11st, the second fresh air enters pipe;12nd, the 3rd fresh air enters pipe;13rd, air outlet;14th, the first return air outlet pipe;15th, exhaust outlet;16、 Second return air outlet pipe;17th, the 3rd return air outlet pipe;18th, return air inlet;19th, the first Electric air valve;20th, the second Electric air valve;21st, follow Endless tube;22nd, the 3rd Electric air valve;23rd, Temperature Treatment outdoor unit;24th, LCD touch control flow;25th, housing;26th, partition plate;27、 Air-inlet cavity;28th, return air chamber;29th, PTC electrothermal generators;30th, surface cooler;31st, thermal storage ceramic component;32nd, accessory fan;33rd, control Making sheet;34th, formaldehyde sensor;35th, TVOC sensors;36th, PM2.5 sensors;37、CO2Sensor;38th, the first wind pressure senses Device;39th, the second wind pressure sensor;40th, the first Temperature Humidity Sensor;41st, the second Temperature Humidity Sensor;42nd, the 3rd humiture passes Sensor;43rd, smart mobile phone;44th, sensor board.
Embodiment
The following is a combination of the drawings in the embodiments of the present utility model, and the technical scheme in the embodiment of the utility model is carried out Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are without creative efforts All other embodiments obtained, shall fall within the protection scope of the present invention.
Embodiment 1
As shown in Figure 1, Figure 2, Figure 3 shows, Passive House environment self-adaption cloud control fresh air system in the present embodiment, including air Filter module 1 and Temperature Treatment module 2;The air filtration module 1 has the first fresh inlet 3, the outlet of the first fresh air, first Return air inlet and the first return air outlet 4;The Temperature Treatment module 2 has the second fresh inlet 5, the second fresh air outlet 6, second 7 and second return air of return air inlet outlet 8;First fresh inlet 3 is connected with the first fresh air and enters pipe 9, and first fresh air enters The other end of pipe 9 is fresh wind port 10;The second fresh air is connected between the first fresh air outlet and second fresh inlet 5 to enter Pipe 11, the second fresh air outlet 6 are connected with the 3rd fresh air and enter pipe 12, and the other end that the 3rd fresh air enters pipe 12 is air outlet 13;The first return air outlet 4 is connected with the first return air outlet pipe 14, and the other end of the first return air outlet pipe 14 is exhaust outlet 15;Be connected with the second return air outlet pipe 16 between first return air inlet and second return air outlet 8, second return air into Mouth 7 is connected with the 3rd return air outlet pipe 17, and the other end of the 3rd return air outlet pipe 17 is return air inlet 18.
First fresh air, which enters, is provided with the first Electric air valve 19 on pipe 9, is provided with the first return air outlet pipe 14 Two Electric air valves 20;First fresh air enters is connected with circulation pipe 21, the circulation between pipe 9 and the first return air outlet pipe 14 Pipe 21 and first fresh air enter the junction of pipe 9 between first Electric air valve 19 and first fresh inlet 3, The circulation pipe 21 and the junction of the first return air outlet pipe 14 are located at second Electric air valve 20 and first return air Between outlet 4;The 3rd Electric air valve 22 is provided with the circulation pipe 21.
The Temperature Treatment module 2 is connected with Temperature Treatment outdoor unit 23 and LCD touch control flow 24.
The Temperature Treatment module 2 includes a housing 25, is divided into 27 He of air-inlet cavity by partition plate 26 inside the housing 25 Return air chamber 28;Second fresh inlet, the 5 and second fresh air outlet 6 is located at the both ends of the air-inlet cavity 27, second return air 7 and second return air of import outlet 8 is located at the both ends of the return air chamber 28;By second fresh inlet 5 in the air-inlet cavity 27 PTC electrothermal generators 29, surface cooler 30, thermal storage ceramic component 31 and auxiliary wind are disposed with to second fresh air outlet 6 Machine 32,29 intermittent work of PTC electrothermal generators;Be provided with the return air chamber 28 control panel 33, formaldehyde sensor 34, TVOC sensors 35, PM2.5 sensors 36 and CO2Sensor 37;Second fresh inlet 5 is provided with the first wind pressure sensor 38, the second return air outlet 8 is provided with the second wind pressure sensor 39;Second fresh inlet 5 is provided with the first humiture Sensor 40, second fresh air outlet 6 are provided with the second Temperature Humidity Sensor 41, and the second return air outlet 8 is provided with the Three Temperature Humidity Sensors 42.
The control panel 33 and first Electric air valve 19, the second Electric air valve 20, the 3rd Electric air valve 22, at temperature Manage outdoor unit 23, LCD touch control flow 24, PTC electrothermal generators 29, surface cooler 30, accessory fan 32, formaldehyde sensor 34, TVOC sensors 35, PM2.5 sensors 36, CO2Sensor 37, the first wind pressure sensor 38, the second wind pressure sensor 39, first Temperature Humidity Sensor 40, the second Temperature Humidity Sensor 41 and the 3rd Temperature Humidity Sensor 42 communicate to connect;The control panel 33 with Smart mobile phone 43 and the communication connection of background server (not shown).
In the present embodiment, the control panel 33 includes master control borad and driving plate, the master control borad and the smart mobile phone 43, Background server and driving plate communication connection, institute's driving plate and first Electric air valve 19, the electricity of the second Electric air valve the 20, the 3rd Dynamic air-valve 22, Temperature Treatment outdoor unit 23, LCD touch control flow 24, PTC electrothermal generators 29, surface cooler 30, accessory fan 32nd, formaldehyde sensor 34, TVOC sensors 35, PM2.5 sensors 36, CO2Sensor 37, the first wind pressure sensor 38, second Wind pressure sensor 39, the first Temperature Humidity Sensor 40, the second Temperature Humidity Sensor 41 and 42 communication link of the 3rd Temperature Humidity Sensor Connect.Here, master control borad is communicated with smart mobile phone 43 using background service message mechanism;Master control borad is used with background server HTTP communicates with background service Data Collection communication mechanism;Master control borad is led to driving plate using socket communication mechanisms Letter, driving plate use I2C, the communication of UART communication mechanisms with peripheral sensor.
In the present embodiment, first fresh air enters pipe 9, the 3rd fresh air enters pipe 12, the first return air outlet pipe 14 and the 3rd return air Outlet pipe 17 is pvc pipe.First fresh air enters between pipe 9 and first fresh inlet 3, the 3rd fresh air enters pipe 12 and institute State between the second fresh air outlet 6, between the first return air outlet pipe 14 and first return air outlet 4, the 3rd return air goes out Connected between pipe 17 and second return air inlet 7 by hose.It is soft that second fresh air, which enters 11 and second return air outlet pipe 16 of pipe, Pipe.
When the present embodiment works, when selecting outer circulation pattern, that is, the first Electric air valve 19 and the second Electric air valve are opened 20, close the 3rd Electric air valve 22.Heating process is:Outdoor air enters pipe 9 by fresh wind port 10 into the first fresh air, and is sent into Filtered to air filtration module 1, then air enters 11 and second fresh inlet 5 of pipe by the second fresh air and is fed through air-inlet cavity In 27, start PTC electrothermal generators 29, surface cooler 30 and accessory fan 32, reach heating effect, the air after heating flows through storage Thermal Ceramics component 31, hot-air release heat, the waste heat that thermal storage ceramic component 31 discharges air absorb storage;Work as equipment When stopping heating, the heat that thermal storage ceramic component 31 stores can be discharged into room through the second fresh air outlet 6 with air from air outlet 13 It is interior, indoor heating is continued as, improves the utilization rate of heat, and PTC electrothermal generators 29 be able to can be expired with intermittent work Sufficient indoor temperature demand, greatlys save electric energy.Ceramic material is due to the specificity such as its high intensity, high temperature resistant, corrosion-resistant, wear-resisting Various field of environment protection can be can be widely applied to, equipment is improved efficiency, reduce energy consumption, are solve the problems, such as energy and environment important And effective means;Mainly there are square and two kinds of pore structures of regular hexagon in thermal storage ceramic section, and duct is parallel to each other Through to structure, this structure greatly reduces the resistance that stomata flows through, and the one pore volume heat exchange of heat storage is greatly improved Efficiency;Thermal storage ceramic can recycle the physical thermal of high-temperature gas to greatest extent, significantly save the energy, improve the thermal effect of equipment Rate, so thermal storage ceramic is known as the key and core component of heat-accumulating type high-temperature technology;In heating process, by thermal storage ceramic When, substantial amounts of far infrared can be occurred by making cordierite in the raw material of thermal storage ceramic, be allowed to the thermal efficiency and greatly improved.Process of refrigerastion For:Air after filtering enters 11 and second fresh inlet 5 of pipe by the second fresh air and is fed through in air-inlet cavity 27, starts surface cooler 30 With accessory fan 32, reach refrigeration effect, the air after refrigeration is discharged into interior through the second fresh air outlet 6 from air outlet 13.
When circulation pattern in selection, that is, the first Electric air valve 19 and the second Electric air valve 20 are closed, it is electronic to open the 3rd Air-valve 22, the first fresh inlet 3 that room air is sent back to air filtration module 1 re-start filtering, carry out refrigeration again or Heating circulation.
In the process of running, can by LCD touch control flow 24 come the operational mode and parameter setting of control system, PM2.5 sensors 36, each Temperature Humidity Sensor, formaldehyde sensor 34, CO2Sensor 37, TVOC sensors 35 can be examined in real time Survey PM2.5, humiture, formaldehyde, CO2, TVOC content, and testing result is shown by LCD touch control flow 24.
Embodiment 2
As shown in Fig. 1, Fig. 3, Fig. 4, Passive House environment self-adaption cloud control fresh air system in the present embodiment, its structure with Embodiment 1 is essentially identical, difference lies in:
The 3rd Temperature Humidity Sensor 42 is not provided with the second return air outlet 8 in the present embodiment;
The second wind pressure sensor 39 in the present embodiment is arranged at second return air inlet 7;
In the present embodiment, the formaldehyde sensor 34, TVOC sensors 35, PM2.5 sensors 36 and CO2Sensor 37 collects On Cheng Yi sensor board 44.
The course of work of the present embodiment is the same as embodiment 1.
The above is only the preferred embodiment of the utility model only, is not intended to limit the utility model, all at this Within the spirit and principle of utility model, any modification, equivalent replacement, improvement and so on, should be included in the utility model Protection domain within.

Claims (7)

1. a kind of Passive House environment self-adaption cloud control fresh air system, it is characterised in that including air filtration module and temperature Handle module;The air filtration module has the first fresh inlet, the outlet of the first fresh air, the first return air inlet and the first return air Outlet;There is the Temperature Treatment module the second fresh inlet, the outlet of the second fresh air, the second return air inlet and the second return air to go out Mouthful;
First fresh inlet is connected with the first fresh air and enters pipe, and the other end that first fresh air enters pipe is fresh wind port;It is described First fresh air, which is exported, to be connected with the second fresh air between second fresh inlet and enters pipe, and the second fresh air outlet is connected with the Three fresh airs enter pipe, and the other end that the 3rd fresh air enters pipe is air outlet;
The first return air outlet is connected with the first return air outlet pipe, and the other end of the first return air outlet pipe is exhaust outlet;It is described The second return air outlet pipe is connected between first return air inlet and second return air outlet, and second return air inlet is connected with the Three return air outlet pipes, the other end of the 3rd return air outlet pipe is return air inlet;
First fresh air, which enters, is provided with the first Electric air valve on pipe, the second electronic wind is provided with the first return air outlet pipe Valve;First fresh air, which enters, is connected with circulation pipe between pipe and the first return air outlet pipe, the circulation pipe and described first new Wind enters the junction of pipe between first Electric air valve and first fresh inlet, the circulation pipe and described first The junction of return air outlet pipe is located between second Electric air valve and first return air outlet;It is provided with the circulation pipe 3rd Electric air valve;
The Temperature Treatment module is connected with Temperature Treatment outdoor unit and LCD touch control flow;
The Temperature Treatment module includes a housing, and the enclosure interior is divided into air-inlet cavity and return air chamber by partition plate;Described Two fresh inlets and the outlet of the second fresh air export position positioned at the both ends of the air-inlet cavity, second return air inlet and the second return air In the both ends of the return air chamber;
In the air-inlet cavity from second fresh inlet to second fresh air outlet be disposed with PTC electrothermal generators, Surface cooler, thermal storage ceramic component and accessory fan, the PTC electrothermal generators intermittent work;It is provided with the return air chamber Control panel, formaldehyde sensor, TVOC sensors, PM2.5 sensors and CO2Sensor;
Second fresh inlet is provided with the first wind pressure sensor, and the second return air inlet or the second return air outlet is provided with Second wind pressure sensor;
Second fresh inlet is provided with the first Temperature Humidity Sensor, and the second fresh air outlet is provided with the second humiture biography Sensor;
The control panel and first Electric air valve, the second Electric air valve, the 3rd Electric air valve, Temperature Treatment outdoor unit, liquid Brilliant touch control screen, PTC electrothermal generators, surface cooler, accessory fan, formaldehyde sensor, TVOC sensors, PM2.5 sensors, CO2Sensor, the first wind pressure sensor, the second wind pressure sensor, the first Temperature Humidity Sensor and the second Temperature Humidity Sensor lead to Letter connection;
The control panel is communicated to connect with smart mobile phone and background server.
2. a kind of Passive House environment self-adaption cloud control fresh air system according to claim 1, it is characterised in that described The outlet of second return air is provided with the 3rd Temperature Humidity Sensor, and the 3rd Temperature Humidity Sensor is communicated to connect with the control panel.
3. a kind of Passive House environment self-adaption cloud control fresh air system according to claim 2, it is characterised in that described Formaldehyde sensor, TVOC sensors, PM2.5 sensors and CO2Sensor integration is on a sensor board.
4. a kind of Passive House environment self-adaption cloud control fresh air system according to claim 3, it is characterised in that described Control panel includes master control borad and driving plate, and the master control borad is communicated to connect with the smart mobile phone, background server and driving plate, Institute's driving plate and first Electric air valve, the second Electric air valve, the 3rd Electric air valve, Temperature Treatment outdoor unit, LCD touch Control flow, PTC electrothermal generators, surface cooler, accessory fan, formaldehyde sensor, TVOC sensors, PM2.5 sensors, CO2Pass Sensor, the first wind pressure sensor, the second wind pressure sensor, the first Temperature Humidity Sensor and the second Temperature Humidity Sensor communication link Connect.
5. a kind of Passive House environment self-adaption cloud control fresh air system according to claim 4, it is characterised in that described First fresh air enters pipe, the 3rd fresh air enters pipe, the first return air outlet pipe and the 3rd return air outlet pipe are pvc pipe.
6. a kind of Passive House environment self-adaption cloud control fresh air system according to claim 5, it is characterised in that described First fresh air enters between pipe and first fresh inlet, the 3rd fresh air enters pipe between second fresh air outlet, institute State between the first return air outlet pipe and first return air outlet, between the 3rd return air outlet pipe and second return air inlet by Hose connects.
7. a kind of Passive House environment self-adaption cloud control fresh air system according to claim 6, it is characterised in that described Second fresh air enters pipe and the second return air outlet pipe is hose.
CN201721061040.2U 2017-08-23 2017-08-23 Passive House environment self-adaption cloud control fresh air system Active CN207335062U (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN109751700A (en) * 2017-08-23 2019-05-14 河北蓝海风科技有限公司 Passive House environment self-adaption cloud control fresh air system

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN109751700A (en) * 2017-08-23 2019-05-14 河北蓝海风科技有限公司 Passive House environment self-adaption cloud control fresh air system

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