CN207540039U - A kind of full-automatic bypass type complete-hot fresh air system - Google Patents
A kind of full-automatic bypass type complete-hot fresh air system Download PDFInfo
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- CN207540039U CN207540039U CN201721520325.8U CN201721520325U CN207540039U CN 207540039 U CN207540039 U CN 207540039U CN 201721520325 U CN201721520325 U CN 201721520325U CN 207540039 U CN207540039 U CN 207540039U
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Abstract
The utility model discloses a kind of full-automatic bypass type complete-hot fresh air systems, including housing and control system, the side of housing is equipped with outdoor air outlet and outdoor air inlet, the opposite side of housing is equipped with indoor air inlet and indoor air outlet, the first wind turbine is equipped in housing, Total heat exchange core, second wind turbine, filtration members, filter assemblies, second bypass air duct, second full hot-flow flue, first full hot-flow flue and the first bypass air duct, the first air-valve component is equipped between first full hot-flow flue and the first bypass air duct, the first air-valve control system is equipped in first air-valve component, the second air-valve component is equipped between second bypass air duct and the second full hot-flow flue, the second air-valve control system is equipped in second air-valve component, the first Temperature Humidity Sensor is equipped at outdoor air inlet, the second Temperature Humidity Sensor is equipped at indoor air inlet.The utility model senses humiture, so as to adjust fresh air and return air by full hot-flow flue or by bypassing air duct, effectively saves the energy consumption that heat exchange generates.
Description
Technical field
The utility model is related to a kind of full-automatic bypass type complete-hot fresh air systems.
Background technology
In recent years, due to economic fast development, the air pollution generated therewith is also increasingly severe.It is outdoor serious
Haze weather can cause people's health very big influence.And haze is mainly based on PM2.5, PM10, and mix
The multiple harmful substances such as a large amount of carbon monoxide, nitrogen oxides, it endangers the body of people there is great.
New wind turbine is a kind of effective air cleaning facility, and room air can be made to generate cycle, on the one hand can be room
Interior dirty air discharge is outdoor, on the other hand outdoor ozone by sterilizing, after the measures such as disinfection, filtering, then
Be input to interior, allow in room be all the time fresh clean air.Usually new blower interior can be equipped with heat exchanging core,
Indoor exhaust wind and outdoor fresh air are when orthogonal thereto fork mode flows through heat exchanging core respectively, since two sidewind of core demarcation strip exists
It the temperature difference and break is poor, Total heat exchange phenomenon will be presented when two strands of air-flows pass through demarcation strip.
Existing new wind turbine, fresh air must be carried out by heat exchanging core and indoor exhaust wind after heat exchange could be into entering the room
It is interior.However this set is not economic and practical in some cases, causes the waste of the energy instead, makes an unnecessary move.Such as spring and summer
In the evening in season, outdoor temperature is lower than indoor temperature, and people need nice and cool fresh air to get in, if such case also carries out heat
It exchanges, increases the temperature of fresh air instead, not only run counter to desire, but also waste the energy.
Utility model content
The purpose of this utility model is to solve deficiency of the prior art, a kind of sensing humiture is provided, so as to adjust
Fresh air and return air are saved by full hot-flow flue or by bypassing air duct, effectively saves the energy consumption that heat exchange generates, saves cost of use
Full-automatic bypass type complete-hot fresh air system.
Technical solution:A kind of full-automatic bypass type complete-hot fresh air system described in the utility model, including housing and control
System, the side of housing are equipped with outdoor air outlet and outdoor air inlet, and the opposite side of housing is equipped with indoor air inlet and interior goes out
Air port, outdoor air outlet and indoor air inlet are corresponding, and outdoor air inlet and indoor air outlet are corresponding, and first is equipped in housing
Wind turbine, Total heat exchange core and the second wind turbine, the first wind turbine are connected with indoor air outlet, the second wind turbine and outdoor air outlet phase
Connection, the inside of indoor air inlet are equipped with filtration members, and the inside of outdoor air inlet is equipped with filter assemblies, and the interior chamber of housing goes out
The second bypass air duct and the second full hot-flow flue, the inside outdoor air inlet of housing and interior are equipped between air port and indoor air inlet
The first full hot-flow flue and the first bypass air duct are equipped between air outlet, the first full hot-flow flue and the second full hot-flow flue are handed over full heat
It changes core to be connected, is equipped with the first air-valve component between the first full hot-flow flue and the first bypass air duct, is set in the first air-valve component
There is the first air-valve control system, the second air-valve component, the second air-valve group are equipped between the second bypass air duct and the second full hot-flow flue
The second air-valve control system is equipped in part, the first Temperature Humidity Sensor is equipped at outdoor air inlet, the is equipped at indoor air inlet
Two Temperature Humidity Sensors, control system and the first air-valve control system, the second air-valve control system, the first Temperature Humidity Sensor,
Second Temperature Humidity Sensor is connected.
Further, the first wind turbine, Total heat exchange core, filter assemblies, the second wind turbine and filtration members are in housing
In the mutually independent cavity in portion.
Further, the first air-valve component and the second air-valve component include valve support and the rail on valve support
Road, gear, motor, travel switch and baffle, gear are connected with motor, the first air-valve control system and the second air-valve control system
It is connected respectively with the motor in the first air-valve component and the second air-valve component.
The utility model has the following advantages compared with prior art:Pass through the first Temperature Humidity Sensor and the second humiture
Sensor senses humiture, and when indoor/outdoor temperature-difference is larger, control system can sense, so as to control the first air-valve component and second
Air-valve component opens full heat pattern, plays the function of Total heat exchange, and when the first Temperature Humidity Sensor and the second temperature and humidity sensing
When device senses that indoor/outdoor temperature-difference is smaller, for example the evening of summer and autumn, bypass function are opened, and are required no heat exchanging core, are saved
The energy consumption that heat exchange generates is saved, saves cost of use;High degree of automation is mounted with the first Temperature Humidity Sensor and second warm and humid
Degree sensor realizes automatically controlling for the first air-valve component and the second air-valve component, and bypass function and full hot function can be cut automatically
It changes.
Description of the drawings
Fig. 1 is the structure diagram of the utility model;
Fig. 2 is the Section A-A figure of Fig. 1;
Fig. 3 is the section B-B figure of Fig. 1;
The connection diagram of Fig. 4 systems in order to control.
Figure label:Air outlet, 3- indoor air outlets, 4- indoor air inlets, the first wind of 5- outside 1- outdoor air inlets, 2- rooms
Machine, 6- filter assemblies, 7- filtration members, 8- Total heat exchanges core, the first Temperature Humidity Sensors of 9-, the second Temperature Humidity Sensors of 10-,
11- second bypasses air duct, the first air-valves of 12- component, the second wind turbines of 13-, 14- control systems, the second air-valves of 15- component, 16- shells
Body, the first full hot-flow flues of 17-, 18- first bypass air duct, the second full hot-flow flues of 19-, the first air-valves of 20- control system, 21- the
Two air-valve control systems.
Specific embodiment
In order to deepen the understanding of the utility model, below we will the utility model is described in further detail with reference to attached drawing,
The embodiment is only used for explaining the utility model, does not form the restriction to scope of protection of the utility model.
If Fig. 1-4 shows a kind of a kind of embodiment of full-automatic bypass type complete-hot fresh air system of the utility model, packet
Housing 16 and control system 14 are included, the side of housing 16 is equipped with outdoor air outlet 2 and outdoor air inlet 1, the opposite side of housing 16
Equipped with indoor air inlet 4 and indoor air outlet 3, outdoor air outlet 2 and indoor air inlet 4 are corresponding, outdoor air inlet 1 and interior
Air outlet 3 is corresponding, and the first wind turbine 5,8 and second wind turbine 13 of Total heat exchange core, the first wind turbine 5 and interior are equipped in housing 16
Air outlet 3 is connected, and the second wind turbine 13 is connected with outdoor air outlet 2, and the inside of indoor air inlet 4 is equipped with filtration members 7, outdoor
The inside of air inlet 1 is equipped with filter assemblies 6, is equipped with the described in the inside of housing 16 between outdoor air outlet 2 and indoor air inlet 4
Two bypass 11 and second full hot-flow flues 19 of air duct, are equipped with first between the inside outdoor air inlet 1 of housing 16 and indoor air outlet 3
Full hot-flow flue 17 and first bypasses air duct 18, the first complete 17 and second full hot-flow flue 19 of hot-flow flue with 8 phase of Total heat exchange core
Connection, the first full hot-flow flue 17 and first are equipped with the first air-valve component 12 between bypassing air duct 18, are set in the first air-valve component 12
There is the first air-valve control system 20, the second air-valve component 15 is equipped between the second bypass 11 and second full hot-flow flue 19 of air duct, the
The second air-valve control system 21 is equipped in two air-valve components 15, the first Temperature Humidity Sensor 9 is equipped at outdoor air inlet 1, it is indoor
The second Temperature Humidity Sensor 10,14 and first air-valve control system 20 of control system, the second air-valve control system are equipped at air inlet 4
The 21, first Temperature Humidity Sensor 9 of system, the second Temperature Humidity Sensor 10 are connected, the first wind turbine 5, Total heat exchange core 8, filtering group
Part 6, the second wind turbine 13 and filtration members 7 are in the 16 mutually independent cavity in inside of housing, the first air-valve component 12 and second
Air-valve component 15 includes valve support and track, gear, motor, travel switch and baffle on valve support, gear
Be connected with motor, the first air-valve control system 20 and the second air-valve control system 21 respectively with the first air-valve component 12 and the second wind
Motor in valve module 15 is connected.
The operation principle of the utility model:When starting operation, passed by the first Temperature Humidity Sensor 9 and the second humiture
Sensor 10 carrys out the temperature difference inside and outside sensing chamber, and then the first Temperature Humidity Sensor 9 and the second Temperature Humidity Sensor 10 are sensed
Signal feed back to control system 14, suitable human body index is calculated by setting program, to determine whether open fresh air and
The bypass function of return air.
When detecting the temperature difference higher than human body index, control system 14 controls the first air-valve component 12 and the second air-valve component 15
Running, specially control system 14 send an instruction to the first air-valve control system 20 and the second air-valve control system 21, and first
20 and second air-valve control system 21 of air-valve control system controls corresponding motor to operate, so as to drive corresponding gear corresponding
Baffle move to the first bypass air duct 18 and the second bypass air duct 11, full hot function is opened, and fresh air is passed through by outdoor air inlet 1
Filter assemblies 6, the first full hot-flow flue 17, Total heat exchange core 8, the first wind turbine 5 are crossed, it finally will be fresh by indoor air outlet 3
Clean air is discharged to outdoor;And indoor air is handed over by indoor air inlet 4, filtration members 7, the second full hot-flow flue 19, full heat
Core 8, the second wind turbine 13 are changed, dirty air is finally discharged to outdoor by outdoor air outlet 2.
When detecting the temperature difference less than human body index, control system 14 controls the first air-valve component 12 and the second air-valve component 15
Running, specially control system 14 send an instruction to the first air-valve control system 20 and the second air-valve control system 21, and first
20 and second air-valve control system 21 of air-valve control system controls corresponding motor to operate, so as to drive corresponding gear corresponding
Baffle move to the first complete 17 and second full hot-flow flue 19 of hot-flow flue, bypass function is opened, and fresh air is passed through by outdoor air inlet 1
It crosses filter assemblies 6, first and bypasses air duct 18, the first wind turbine 5, be finally discharged to the air of fresh clean by indoor air outlet 3
It is outdoor;And indoor air bypasses air duct 11, the second wind turbine 13 by indoor air inlet 4, filtration members 7, second, finally by room
Dirty air is discharged to outdoor by outgoing tuyere 2.
The utility model has the following advantages compared with prior art:The utility model passes through the first Temperature Humidity Sensor 9
Sense humiture with the second Temperature Humidity Sensor 10, when indoor/outdoor temperature-difference is larger, control system 14 can sense, so as to control
One air-valve component 12 and the second air-valve component 15, open full heat pattern, play the function of Total heat exchange, and when the first humiture passes
When 9 and second Temperature Humidity Sensor 10 of sensor senses that indoor/outdoor temperature-difference is smaller, for example the evening of summer and autumn, bypass function are opened
It opens, requires no heat exchanging core, save the energy consumption that heat exchange generates, save cost of use;High degree of automation is mounted with
One Temperature Humidity Sensor 9 and the second Temperature Humidity Sensor 10 realize the automatic of the first air-valve component 12 and the second air-valve component 15
Control, bypass function and full hot function can automatically switch.
Above-mentioned specific embodiment only illustrates the technical concept and structure feature of the utility model, it is therefore intended that allow ripe
The stakeholder for knowing technique can implement according to this, but Yi Shang content is not intended to limit the scope of protection of the utility model, every
Any equivalent change or modification that Spirit Essence according to the utility model is made, should all fall into the scope of protection of the utility model
Within.
Claims (3)
1. a kind of full-automatic bypass type complete-hot fresh air system, it is characterised in that:It is described including housing (16) and control system (14)
The side of housing (16) is equipped with outdoor air outlet (2) and outdoor air inlet (1), the opposite side of the housing (16) be equipped with interior into
Air port (4) and indoor air outlet (3), it is described outdoor air outlet (2) and the indoor air inlet (4) it is corresponding, it is described outdoor into
Air port (1) and the indoor air outlet (3) are corresponding, and the first wind turbine (5), Total heat exchange core are equipped in the housing (16)
(8) be connected with the second wind turbine (13), first wind turbine (5) with the indoor air outlet (3), second wind turbine (13) and
The outdoor air outlet (2) is connected, and the inside of the indoor air inlet (4) is equipped with filtration members (7), the outdoor air inlet
(1) inside is equipped with filter assemblies (6), outdoor air outlet (2) and the indoor air inlet described in the inside of the housing (16)
(4) the second bypass air duct (11) and the second full hot-flow flue (19), outdoor air inlet described in the inside of the housing (16) are equipped between
The first full hot-flow flue (17) and the first bypass air duct (18) are equipped between mouth (1) and the indoor air outlet (3), described first is complete
Hot-flow flue (17) and the second full hot-flow flue (19) are connected with the Total heat exchange core (8), the first full hot wind
The first air-valve component (12) is equipped between road (17) and first bypass air duct (18), is set in the first air-valve component (12)
There is the first air-valve control system (20), second is equipped between second bypass air duct (11) and the second full hot-flow flue (19)
Air-valve component (15), the second air-valve component (15) is interior to be equipped with the second air-valve control system (21), the outdoor air inlet (1)
Place is equipped with the first Temperature Humidity Sensor (9), and the second Temperature Humidity Sensor (10), the control are equipped at the indoor air inlet (4)
System (14) processed and the first air-valve control system (20), the second air-valve control system (21), first humiture
Sensor (9), second Temperature Humidity Sensor (10) are connected.
2. a kind of full-automatic bypass type complete-hot fresh air system according to claim 1, it is characterised in that:First wind turbine
(5), the Total heat exchange core (8), the filter assemblies (6), second wind turbine (13) and the filtration members (7) are in
In the internal mutually independent cavity of the housing (16).
3. a kind of full-automatic bypass type complete-hot fresh air system according to claim 1, it is characterised in that:First air-valve
Component (12) and the second air-valve component (15) include valve support and track on valve support, gear, motor,
Travel switch and baffle, the gear are connected with the motor, the first air-valve control system (20) and second air-valve
Control system (21) is connected respectively with the motor in the first air-valve component (12) and the second air-valve component (15).
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CN201721520325.8U CN207540039U (en) | 2017-11-14 | 2017-11-14 | A kind of full-automatic bypass type complete-hot fresh air system |
Applications Claiming Priority (1)
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CN201721520325.8U CN207540039U (en) | 2017-11-14 | 2017-11-14 | A kind of full-automatic bypass type complete-hot fresh air system |
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Publication Number | Publication Date |
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CN207540039U true CN207540039U (en) | 2018-06-26 |
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ID=62613634
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CN201721520325.8U Active CN207540039U (en) | 2017-11-14 | 2017-11-14 | A kind of full-automatic bypass type complete-hot fresh air system |
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Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
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CN109612004A (en) * | 2018-12-21 | 2019-04-12 | 河北省建筑科学研究院 | A kind of fresh air all-in-one machine and its control method |
CN109631214A (en) * | 2018-11-23 | 2019-04-16 | 大榕(上海)智能科技有限公司 | A kind of aeration device |
CN111578424A (en) * | 2020-05-21 | 2020-08-25 | 珠海格力电器股份有限公司 | New fan |
CN113483395A (en) * | 2021-05-26 | 2021-10-08 | 广州丹特怡家科技有限公司 | Low-energy-consumption residential environment control all-in-one machine and control method thereof |
CN113483394A (en) * | 2021-05-26 | 2021-10-08 | 广州丹特怡家科技有限公司 | Ultra-low energy consumption building special environment all-in-one machine and control method thereof |
CN114234333A (en) * | 2021-12-15 | 2022-03-25 | 珠海格力电器股份有限公司 | Fresh air machine and control method thereof |
WO2023202110A1 (en) * | 2022-04-20 | 2023-10-26 | 江苏中科睿赛污染控制工程有限公司 | Ventilator and operation method therefor |
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2017
- 2017-11-14 CN CN201721520325.8U patent/CN207540039U/en active Active
Cited By (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109631214A (en) * | 2018-11-23 | 2019-04-16 | 大榕(上海)智能科技有限公司 | A kind of aeration device |
CN109612004A (en) * | 2018-12-21 | 2019-04-12 | 河北省建筑科学研究院 | A kind of fresh air all-in-one machine and its control method |
CN111578424A (en) * | 2020-05-21 | 2020-08-25 | 珠海格力电器股份有限公司 | New fan |
CN113483395A (en) * | 2021-05-26 | 2021-10-08 | 广州丹特怡家科技有限公司 | Low-energy-consumption residential environment control all-in-one machine and control method thereof |
CN113483394A (en) * | 2021-05-26 | 2021-10-08 | 广州丹特怡家科技有限公司 | Ultra-low energy consumption building special environment all-in-one machine and control method thereof |
CN114234333A (en) * | 2021-12-15 | 2022-03-25 | 珠海格力电器股份有限公司 | Fresh air machine and control method thereof |
CN114234333B (en) * | 2021-12-15 | 2022-12-13 | 珠海格力电器股份有限公司 | Fresh air machine and control method thereof |
WO2023202110A1 (en) * | 2022-04-20 | 2023-10-26 | 江苏中科睿赛污染控制工程有限公司 | Ventilator and operation method therefor |
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Legal Events
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
PE01 | Entry into force of the registration of the contract for pledge of patent right | ||
PE01 | Entry into force of the registration of the contract for pledge of patent right |
Denomination of utility model: Complete hot new trend system of full -automatic bypass type Effective date of registration: 20181120 Granted publication date: 20180626 Pledgee: Nantong Productivity Promotion Center Pledgor: Oxy Environment Technology Co., Ltd. Registration number: 2018980000216 |