WO2017143875A1

WO2017143875A1 - Pm2.5 processing fresh air fan and method for using same

Info

Publication number: WO2017143875A1
Application number: PCT/CN2017/070388
Authority: WO
Inventors: 俞越; 金渔兵; 石磊; 葛美才; 谢能作
Original assignee: 南通华信中央空调有限公司
Priority date: 2016-02-26
Filing date: 2017-01-06
Publication date: 2017-08-31
Also published as: CN105605703A

Abstract

A PM2.5 processing fresh air fan comprises a case (1). An upper portion of the case (1) is provided with an air inlet (2). A lower portion of the case (1) is provided with a left air outlet (3), a right air outlet (4) and a front air outlet (5). Inside the case (1), a first preliminary filter (6) and a second preliminary filter (7) are disposed below the air inlet (2). A first evaporating coil (8) is disposed below the first preliminary filter (6). A second evaporating coil (9) is disposed below the second preliminary filter (7). The first evaporating coil (8) and the second evaporating coil (9) are symmetrically disposed on a first spacer (10). A DC variable frequency fan (11) is disposed below the first spacer (10). The DC variable frequency fan (11) is mounted on a second spacer (12). A first high-efficiency filter (13) and a second high-efficiency filter (14) are disposed below the second spacer (12). A PM2.5 sensor (15) is further disposed in a lower position inside the case (1). A method for using the PM2.5 processing fresh air fan is further disclosed.

Description

Super PM2.5 processing new fan and using method

Technical field:

The invention relates to the technical field of air treatment, in particular to a super PM2.5 processing new fan and a using method thereof.

Background technique:

In recent years, with the development of the economy and the continuous advancement of urbanization, the air quality in some parts of the country has declined to varying degrees. In some cases, the smog in some places has reached a level of serious pollution. In order to improve indoor air quality, air conditioning new fan units can be used.

However, the prior art air conditioning new fan unit is simply arranged with some nylon filters to filter large impurities, fibers and other debris, and the air quality improvement effect is very limited in the case of severe air quality deterioration, and may even be Dust particles are sent to the indoor working area through the unit, which worsens the deterioration of air quality and pollutes the indoor environment. Therefore, the existing new wind turbines operating under poor air quality are very detrimental to the health of indoor personnel.

Summary of the invention:

In order to solve the above problems, the present invention provides a technical solution that is simple in structure, energy-saving and environmentally friendly, can realize air supply switching between the living room and the bedroom, and can better improve indoor air quality at the same time:

A super PM2.5 handles a new fan, including a chassis, and an air inlet is provided at the top of the chassis, and a left air supply port, a right air supply port, and a front air supply port are respectively arranged at the bottom of the chassis, and the air inlet is respectively provided inside the chassis a primary effect filter and a second primary effect filter, a first evaporation coil is disposed under the first primary effect filter, a second evaporation coil is disposed under the second primary effect filter, and the first evaporation coil and the second The evaporating coil is symmetrically disposed on the first baffle, and a DC variable frequency fan is disposed under the first baffle, the DC variable frequency fan is mounted on the second baffle, and the first high efficiency filter and the second baffle are respectively disposed under the second baffle Two high-efficiency filters, PM2.5 sensors are also placed under the chassis.

Preferably, the PM2.5 sensor comprises an air sampling module and a dust particle detecting module, a single chip microcomputer, and the air sampling module comprises an A/D conversion module, a temperature and humidity sensor, an atmospheric pressure sensor, an A/D conversion module, a temperature and humidity sensor, and an atmospheric pressure sensor. The dust particle detection module is respectively connected to the single chip microcomputer.

Preferably, a first ultraviolet lamp tube is disposed between the first primary effect filter and the first evaporation coil, and a second ultraviolet lamp tube is disposed between the second primary effect filter and the second evaporation coil.

Preferably, the DC variable frequency fan comprises a fan volute, the center line of the fan volute is perpendicular to the second partition, the right side of the fan volute is open, and the opening direction is downward, and the open end is respectively associated with the first high efficiency filter and the second High efficiency filters are connected.

Preferably, the angle between the first evaporation coil and the second evaporation coil and the first separator is 45°-60°.

Preferably, a bypass assembly is installed between the first high efficiency filter and the second high efficiency filter, the bypass assembly including a detector, a controller and a valve, the controller being coupled to the detector and the valve, respectively.

Preferably, the method of using the method comprises the following steps:

A. The indoor air enters from the air inlet end of the chassis, and reaches the first evaporation coil and the second evaporation coil through the first primary effect filter and the second primary effect filter respectively;

B. The first evaporating coil and the second evaporating coil evaporate water vapor in the air to deliver dry air;

C. The dry air enters the DC variable frequency fan, and enters the first high efficiency filter and the second high efficiency filter from the outlet outlet of the direct current variable frequency fan;

D, PM2.5 sensor detects the filtered air, so that the filtered air reaches the indoor standard;

E. The filtered air controls the bypass components according to the demand, and the wind direction between the living room and the bedroom is switched.

The beneficial effects of the invention are:

(1) The invention has the advantages of simple structure, energy saving and environmental protection, and the DC variable frequency fan is installed between the evaporation coil and the high efficiency filter to ensure that all the filtered air supply sections are positive pressure, so as to prevent secondary pollution caused by indoor air entering the equipment.

(2) The invention adopts a high-efficiency filter and a PM2.5 sensor, can ensure the cleanliness of indoor fresh air, improve the indoor environment, and reduce the concentration of carbon dioxide, and is a window opening substitute for smog days.

(3) The present invention installs a bypass assembly between the first high efficiency filter and the second high efficiency filter, and can change the air supply direction through the valve member according to requirements, and can switch between the living room and the bedroom.

BRIEF DESCRIPTION OF THE DRAWINGS:

Figure 1 is a perspective view of the present invention;

Figure 2 is a front elevational view of the present invention;

Figure 3 is a schematic diagram of the control of the PM2.5 sensor of the present invention.

detailed description:

The embodiments of the present invention will be further described in detail below with reference to the accompanying drawings.

As shown in FIG. 1 to FIG. 3, the present invention designs a super PM2.5 processing new fan, including a chassis 1. The top of the chassis 1 is provided with an air inlet 2, and the bottom of the chassis 1 is respectively provided with a left air supply port 3 a right air supply port 4 and a front air supply port 5, and inside the air box 2, a first primary effect filter 6 and a second primary effect filter 7 are respectively disposed under the air inlet 2, the first primary effect filter 6 A first evaporation coil 8 is disposed below, a second evaporation coil 9 is disposed below the second primary filter 7, and a first ultraviolet tube 22 is disposed between the first primary filter 6 and the first evaporation coil 8 A second ultraviolet lamp tube 23 is disposed between the second primary effect filter 7 and the second evaporation coil 9. The ultraviolet lamp tube is capable of sterilizing the initially filtered air, and the first evaporation coil 8 and the second evaporation coil 9 are symmetrically disposed on the first partition 10, the first evaporation coil 8 and the first The angle between the two evaporation coils 9 and the first partition plate 10 is 45°-60°, and a DC inverter fan 11 is disposed under the first partition plate 10, and the DC inverter fan 11 is mounted on the second partition plate 12. Above, a second high efficiency filter 13 and a second high efficiency filter 14 are respectively disposed under the second partition plate 12, A PM2.5 sensor 15 is also disposed below the interior of the chassis 1. The utility model has the advantages of simple structure, energy saving and environmental protection, and the DC variable frequency fan is installed between the evaporation coil and the high efficiency filter to ensure that all the filtered air supply sections are positive pressure, so as to prevent secondary pollution caused by indoor air entering the equipment.

In this embodiment, the PM2.5 sensor 15 includes an air sampling module 16 and a dust particle detecting module 17, and a single chip microcomputer 18. The air sampling module 16 includes an A/D conversion module 19, a temperature and humidity sensor 20, and an atmospheric pressure sensor 21. The A/D conversion module 19, the temperature and humidity sensor 20, the atmospheric pressure sensor 21, and the dust particle detecting module 17 are respectively connected to the single chip microcomputer 18. The dust particle detecting module 17, the temperature and humidity sensor 20, and the atmospheric pressure sensor 21 respectively collect dust particles, air temperature, humidity and pressure in the air, and send the collected signals to the single chip microcomputer 18 for analysis and processing, and compare them with the set parameters. The output signal is used to control the DC inverter fan 11. The invention adopts a high-efficiency filter and a PM2.5 sensor, can ensure the cleanliness of the indoor fresh air, improve the indoor environment, and reduce the carbon dioxide concentration, and is a window opening substitute for the haze. The use of high-efficiency filter with PM2.5 sensor can ensure the cleanliness of indoor fresh air, improve the indoor environment and reduce the concentration of carbon dioxide. It is a window opening alternative to smog.

In addition, in this embodiment, the DC inverter fan 11 includes a fan volute 24, the center line of the fan volute 24 is perpendicular to the second partition 12, the right portion of the fan volute 24 is open, and the opening direction is downward, and the opening The ends are in communication with the first high efficiency filter 13 and the second high efficiency filter 14, respectively. A bypass assembly 25 is mounted between the first high efficiency filter 13 and the second high efficiency filter 14 and includes a detector, a controller and a valve, the controller and the detector and the valve, respectively Connected. Install the bypass assembly. When in use, the air supply direction can be changed through the valve member according to the requirements to meet the switching between the living room and the bedroom. A bypass assembly is installed between the first high efficiency filter and the second high efficiency filter, and the air supply direction can be changed through the valve member according to requirements to meet the switching between the living room and the bedroom.

The method of use of the present invention comprises the following steps:

A, indoor air enters from the top air inlet end of the chassis 1, respectively, through the first primary effect filter 6 and the second primary effect filter 7 to the first evaporation coil 8 and the second evaporation coil 9;

B. The first evaporating coil 8 and the second evaporating coil 9 evaporate water vapor in the air to deliver dry air;

C, the dry air enters the DC inverter fan 11, and from the outlet of the DC inverter fan 11 to the first high efficiency filter 13 and the second high efficiency filter 14;

D, PM2.5 sensor 15 detects the filtered air, so that the filtered air reaches the indoor standard;

E. The filtered air controls the bypass assembly 25 according to the demand to realize the wind direction switching between the living room and the bedroom.

The above embodiments are only preferred embodiments of the present invention, and are not intended to limit the technical solutions of the present invention. Any technical solutions that can be implemented on the basis of the above embodiments without creative work should be considered as falling into the present invention. The scope of protection of rights.

Claims

A super PM2.5 processing new fan, comprising a chassis, wherein: the top of the chassis is provided with an air inlet, and the bottom of the chassis is respectively provided with a left air supply opening, a right air supply opening and a front air supply opening, Inside the chassis, a first primary effect filter and a second primary effect filter are respectively disposed under the air inlet, a first evaporation coil is disposed below the first primary effect filter, and a second initial filter is disposed below the second primary effect filter a second evaporation coil, wherein the first evaporation coil and the second evaporation coil are symmetrically disposed on the first partition, and a DC inverter fan is disposed under the first partition, and the DC inverter fan is installed in the first On the two partitions, a first high efficiency filter and a second high efficiency filter are respectively disposed under the second partition, and a PM2.5 sensor is disposed below the inside of the cabinet.
The super PM2.5 processing new fan according to claim 1, wherein the PM2.5 sensor comprises an air sampling module, a dust particle detecting module, and a single chip, and the air sampling module comprises an A/D conversion module. The temperature and humidity sensor and the atmospheric pressure sensor, the A/D conversion module, the temperature and humidity sensor, the atmospheric pressure sensor, and the dust particle detecting module are respectively connected to the single chip microcomputer.
A super-PM2.5 processing new fan according to claim 1, wherein a first ultraviolet lamp is disposed between the first primary effect filter and the first evaporation coil, and the second initial effect is A second ultraviolet tube is disposed between the filter and the second evaporation coil.
A super-PM2.5 processing new fan according to claim 1, wherein the DC inverter fan comprises a fan volute, the center line of the fan volute is perpendicular to the second partition, and the fan volute The right portion is open and the opening direction is downward, and the open end is in communication with the first high efficiency filter and the second high efficiency filter, respectively.
A super-PM2.5 processing new fan according to claim 1, wherein an angle between the first evaporating coil and the second evaporating coil and the first partition is 45°-60° .
A super PM2.5 processing new fan according to claim 1, wherein a bypass assembly is installed between the first high efficiency filter and the second high efficiency filter, the bypass assembly including a detector and a control And a valve, the controller being coupled to the detector and the valve, respectively.
A method for using a super PM2.5 processing new fan according to claim 1, wherein the method of using the method comprises the following steps:

A. The indoor air enters from the air inlet end of the chassis, and reaches the first evaporation coil and the second evaporation coil through the first primary effect filter and the second primary effect filter respectively;

B. The first evaporating coil and the second evaporating coil evaporate water vapor in the air to deliver dry air;

C. The dry air enters the DC variable frequency fan, and enters the first high efficiency filter and the second high efficiency filter from the outlet outlet of the direct current variable frequency fan;

D, PM2.5 sensor detects the filtered air, so that the filtered air reaches the indoor standard;

E. The filtered air controls the bypass components according to the demand, and the wind direction between the living room and the bedroom is switched.