WO2022120550A1

WO2022120550A1 - High-efficiency total heat exchange type fresh air ventilation system and operating method therefor

Info

Publication number: WO2022120550A1
Application number: PCT/CN2020/134409
Authority: WO
Inventors: 仲华; 陈磊
Original assignee: 苏州惠林节能材料有限公司
Priority date: 2020-12-08
Filing date: 2020-12-08
Publication date: 2022-06-16

Abstract

Disclosed are a high-efficiency total heat exchange type fresh air ventilation system and an operating method therefor, the system and method belonging to the field of fresh air ventilation apparatuses. The ventilation system comprises a machine body (100), an outdoor air supply pipe (200), a primary filter (210) for the outdoor air supply pipe, a secondary filter (220) for the outdoor air supply pipe, a tertiary filter (230) for the outdoor air supply pipe, a heat exchange pipe (240) for the outdoor air supply pipe, an indoor air supply pipe (300), an air supply electric motor (310), an indoor exhaust pipe (400), a primary filter (410) for the indoor exhaust pipe, a heat exchange pipe (420) for the indoor exhaust pipe, an outdoor exhaust pipe (500), an exhaust electric motor (510), and a total heat exchanger (600). The fresh air ventilation system has high heat exchanging efficiency, and a good energy-saving effect and air filtering effect.

Description

[Title of invention formulated by ISA according to Rule 37.2] High-efficiency total heat exchange type fresh air ventilation system and its working method

technical field

The invention belongs to the field of fresh air ventilation equipment, and specifically discloses a novel high-efficiency full heat exchange type fresh air ventilation system and its working mode.

Background technique

The fresh air ventilator is designed and developed according to the principle of supplying air on one side of the airtight room and drawing the air on the other side, and a "fresh air flow field" will be formed in the room. It relies on mechanical air supply and induced air to force the formation of a fresh air flow field in the system. It is a new type of environmental protection appliance that keeps the indoor air clean and fresh at all times. This independent indoor air replacement and purification circulation system can input natural fresh air while removing indoor polluted air. In recent years, with the development of technology, a full heat exchange type fresh air ventilator has appeared, that is, a heat exchange device is added before the fresh air ventilator enters and leaves the room, so that the fresh air and exhaust air can conduct full heat exchange when passing through the heat exchange device. , which not only ensures the fresh circulation of indoor air, but also preprocesses the fresh air with the help of the energy of the exhaust air, so that the fresh air can be cooled and dehumidified or heated and humidified in summer and winter, so that the energy can be effectively recovered. With the increasingly serious air pollution and people's increasingly strict demands on indoor air quality, a new type of high-efficiency full heat exchange fresh air ventilation system is urgently needed, which can further remove pollution on the basis of meeting energy conservation and emission reduction. to improve indoor air quality.

SUMMARY OF THE INVENTION

In view of the above deficiencies, the present invention discloses a novel high-efficiency full heat exchange type fresh air ventilation system and its working mode.

The technical scheme of the present invention is as follows:

A new type of high-efficiency full heat exchange type fresh air ventilation system, including the body, outdoor air supply pipe, outdoor air supply pipe primary filter, outdoor air supply pipe secondary filter, outdoor air supply pipe tertiary filter, outdoor air supply pipe Air Duct Heat Exchange Pipe, Indoor Air Supply Duct, Air Supply Motor, Indoor Exhaust Duct, Indoor Exhaust Duct Primary Filter, Indoor Exhaust Duct Heat Exchange Pipe, Outdoor Exhaust Duct, Exhaust Fan Motor, Total Heat Exchanger The body is a hollow multi-compartment rectangular frame body; the total heat exchanger is located in the center of the body; the outdoor air supply pipe, outdoor The two sides of the exchanger are respectively arranged in the outdoor and indoor of the house; the pipeline between the outdoor air supply pipe and the total heat exchanger is also sequentially provided with the outdoor air supply pipe primary filter, the outdoor air supply pipe The secondary filter of the air duct and the tertiary filter of the outdoor air supply duct; the primary filter of the outdoor air supply duct is located outside the body while the secondary filter of the outdoor air supply duct and the tertiary filter of the outdoor air supply duct The heat exchanger is located inside the body; after the outdoor air supply pipe is connected to the total heat exchanger, it enters the interior of the total heat exchanger through a number of outdoor air supply pipe heat exchange pipes, and the outdoor air supply pipe heat exchange pipes pass through the total heat exchanger. After passing through the total heat exchanger, the indoor air supply pipe is connected; an air supply motor is arranged between the indoor air supply pipe and the heat exchange pipe of the outdoor air supply pipe; The indoor exhaust pipe primary filter is arranged between the heat exchangers; after the indoor exhaust pipe is connected to the total heat exchanger, it enters the total heat exchanger through a number of indoor exhaust pipe heat exchange pipes Inside, the indoor exhaust pipe heat exchange pipe is connected to the outdoor exhaust pipe after passing through the total heat exchanger; an air supply is provided between the outdoor exhaust pipe and the indoor exhaust pipe heat exchange pipe motor.

Further, in the above-mentioned novel high-efficiency full heat exchange type fresh air ventilation system, a handle is provided outside the primary filter of the outdoor air supply pipe.

Further, in the above-mentioned novel high-efficiency full heat exchange type fresh air ventilation system, a negative ion generator is arranged in the indoor air supply pipe.

Further, in the above-mentioned novel high-efficiency full heat exchange type fresh air ventilation system, the filter screen apertures of the primary filter of the outdoor air supply pipe, the secondary filter of the outdoor air supply pipe and the tertiary filter of the outdoor air supply pipe are in order. decrease.

Further, in the above-mentioned novel high-efficiency full-heat-exchange fresh air ventilation system, the body is also provided with a wireless signal receiving and transmitting device.

Further, in the above-mentioned novel high-efficiency full heat exchange type fresh air ventilation system, an air detector is provided at the entrance of the indoor exhaust pipe.

Further, in the above-mentioned novel high-efficiency total heat exchange type fresh air ventilation system, the total heat exchanger is filled with a liquid heat exchange medium, and the heat exchange medium is salt water.

Further, the above-mentioned working method of a novel high-efficiency full heat exchange type fresh air ventilation system includes the following steps:

S1. Air supply process: The air supply motor works, and the outdoor air is inhaled from the outdoor air supply pipe, and passes through the primary filter of the outdoor air supply pipe, the secondary filter of the outdoor air supply pipe, and the tertiary filter of the outdoor air supply pipe. , enter the total heat exchanger through the outdoor air supply pipe heat exchange pipe for heat exchange, and then enter the room through the indoor air supply pipe;

S2 exhaust process: the exhaust motor works to inhale the indoor air from the indoor exhaust pipe, filter it through the primary filter of the indoor exhaust pipe, and enter the total heat exchanger through the heat exchange pipe of the indoor exhaust pipe for heat exchange, and then Exhaust through the outdoor exhaust duct.

According to the above technical solutions, the present invention has at least the following beneficial effects:

(1) A new type of high-efficiency full heat exchange type fresh air ventilation system according to the present invention, multi-channel filter devices are arranged in the fresh air inlet section in layers to realize fresh air air purification and excellent PM2.5 removal effect.

(2) In the novel high-efficiency full heat exchange type fresh air ventilation system described in the present invention, the filter device can be easily extracted, the replacement is convenient, and the maintenance cost is low.

(3) A novel high-efficiency full heat exchange type fresh air ventilation system according to the present invention is also provided with a negative ion generator, which can further provide high-quality fresh air for indoors.

(4) The novel high-efficiency total heat exchange type fresh air ventilation system described in the present invention has high heat exchanger efficiency, is not easy to freeze in winter, and can work below freezing point.

(5) A novel high-efficiency full-heat-exchange fresh air ventilation system described in the present invention has complete functions, has the functions of air quality detection and data transmission, and can be seamlessly connected to a modern smart home system.

Description of drawings

1 is a schematic diagram of a novel high-efficiency full heat exchange type fresh air ventilation system described in Example 1;

Accompanying drawing 2 is the schematic diagram of a novel high-efficiency total heat exchange type fresh air ventilation system described in embodiment 2;

Among them: body 100, wireless signal receiving and transmitting device 110, outdoor air supply pipe 200, outdoor air supply pipe primary filter 210, handle 211, outdoor air supply pipe secondary filter 220, outdoor air supply pipe tertiary filter 230 , outdoor air supply pipe heat exchange pipe 240, indoor air supply pipe 300, air supply motor 310, negative ion generator 320, indoor exhaust pipe 400, indoor exhaust pipe primary filter 410, indoor exhaust pipe heat exchange pipe 420 , an air detector 430 , an outdoor exhaust duct 500 , an exhaust motor 510 , and a total heat exchanger 600 .

Detailed ways

The following describes in detail the embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein the same or similar reference numerals refer to the same or similar elements or elements having the same or similar functions throughout. The embodiments described below with reference to the accompanying drawings are exemplary, and are intended to explain the present invention and should not be construed as limiting the present invention.

In the description of the present invention, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", " The orientation or positional relationship indicated by "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inside", "clockwise", "counterclockwise", etc. The orientation or positional relationship shown in the figures is only for the convenience of describing the present invention and simplifying the description, rather than indicating or implying that the indicated device or element must have a specific orientation, be constructed and operated in a specific orientation, and therefore should not be construed as a reference to the present invention. Invention limitations.

In addition, the terms "first" and "second" are only used for descriptive purposes, and should not be construed as indicating or implying relative importance or implying the number of indicated technical features. Thus, a feature defined as "first" or "second" may expressly or implicitly include one or more of that feature. In the description of the present invention, unless otherwise specified, "plurality" means two or more, unless otherwise expressly defined.

In the present invention, unless otherwise expressly specified and limited, terms such as "installation", "connection", "connection", "fixation" and other terms should be understood in a broad sense, for example, it may be a fixed connection or a detachable connection , or integrally connected; it can be a mechanical connection or an electrical connection; it can be a direct connection, or an indirect connection through an intermediate medium, or the internal communication between the two components. For those of ordinary skill in the art, the specific meanings of the above terms in the present invention can be understood according to specific situations.

In the present invention, unless otherwise expressly specified and limited, a first feature "on" or "under" a second feature may include direct contact between the first and second features, or may include the first and second features Not directly but through additional features between them. Also, the first feature being "above", "over" and "above" the second feature includes the first feature being directly above and obliquely above the second feature, or simply means that the first feature is level higher than the second feature. The first feature is "below", "below" and "below" the second feature includes the first feature being directly below and diagonally below the second feature, or simply means that the first feature has a lower level than the second feature.

Example 1

As shown in FIG. 1, a novel high-efficiency full heat exchange type fresh air ventilation system includes a body 100, an outdoor air supply pipe 200, a primary filter 210 for an outdoor air supply pipe, a secondary filter 220 for an outdoor air supply pipe, and an outdoor air supply pipe. Air supply pipe tertiary filter 230, outdoor air supply pipe heat exchange pipe 240, indoor air supply pipe 300, air supply motor 310, indoor exhaust pipe 400, indoor exhaust pipe primary filter 410, indoor exhaust pipe heat The exchange pipe 420, the outdoor exhaust pipe 500, the exhaust motor 510, and the total heat exchanger 600; the body 100 is a hollow multi-compartment rectangular frame; the total heat exchanger 600 is located in the center of the body 100; The air duct 200 , the outdoor air exhaust duct 500 , the indoor air supply duct 300 and the indoor air exhaust duct 400 are respectively located on both sides of the total heat exchanger 600 , and are respectively installed outdoors and indoors of the house; the outdoor air supply duct 200 The pipeline between the total heat exchanger 600 is also provided with the outdoor air supply pipe primary filter 210, the outdoor air supply pipe secondary filter 220, and the outdoor air supply pipe tertiary filter 230 in sequence; The primary filter 210 of the outdoor air supply pipe is located outside the body 100 while the secondary filter 220 of the outdoor air supply pipe and the tertiary filter 230 of the outdoor air supply pipe are located inside the body; the outdoor air supply pipe After the 200 is connected to the total heat exchanger 600, it enters the interior of the total heat exchanger 600 through a plurality of outdoor air supply pipe heat exchange pipes 240, and the outdoor air supply pipe heat exchange pipes 240 pass through the total heat exchanger 600 The indoor air supply pipe 300 is then connected; the air supply motor 310 is arranged between the indoor air supply pipe 300 and the outdoor air supply pipe heat exchange pipe 240; the indoor air exhaust pipe 400 exchanges heat with the total heat exchange The indoor exhaust pipe primary filter 410 is arranged between the heat exchangers 600; after the indoor exhaust pipe 400 is connected to the total heat exchanger 600, the indoor exhaust pipe heat exchange pipe 420 enters the total heat exchanger 600 through a plurality of indoor exhaust pipe heat exchange pipes 420. Inside the heat exchanger 600, the indoor exhaust pipe heat exchange pipe 420 is connected to the outdoor exhaust pipe 500 after passing through the total heat exchanger 600; the outdoor exhaust pipe 500 is hot with the indoor exhaust pipe The blower motor 310 is provided between the exchange pipes 420 .

The working method of the above-mentioned new high-efficiency full heat exchange fresh air ventilation system:

Include the following steps:

S1. Air supply process: The air supply motor 310 works, and the outdoor air is sucked from the outdoor air supply pipe 200, and passes through the primary filter 210 of the outdoor air supply pipe, the secondary filter 220 of the outdoor air supply pipe, and the outdoor air supply pipe. The tertiary filter 230 enters the total heat exchanger 600 through the outdoor air supply pipe heat exchange pipe 240 for heat exchange, and then enters the room through the indoor air supply pipe 300;

S2 exhaust process: the exhaust motor 510 works to inhale the indoor air from the indoor exhaust pipe 400, filter it through the primary filter 410 of the indoor exhaust pipe, and enter the total heat exchanger 600 through the heat exchange pipe 420 of the indoor exhaust pipe Heat exchange is performed and then discharged through the outdoor exhaust duct 500 .

After measurement, the removal of PM2.5 reached 99.8%.

Example 2

As shown in FIG. 2, a new type of high-efficiency full heat exchange type fresh air ventilation system includes a body 100, an outdoor air supply pipe 200, a primary filter 210 for an outdoor air supply pipe, a secondary filter 220 for an outdoor air supply pipe, and an outdoor air supply pipe. Air supply pipe tertiary filter 230, outdoor air supply pipe heat exchange pipe 240, indoor air supply pipe 300, air supply motor 310, indoor exhaust pipe 400, indoor exhaust pipe primary filter 410, indoor exhaust pipe heat The exchange pipe 420, the outdoor exhaust pipe 500, the exhaust motor 510, and the total heat exchanger 600; the body 100 is a hollow multi-compartment rectangular frame; the total heat exchanger 600 is located in the center of the body 100; The air duct 200 , the outdoor air exhaust duct 500 , the indoor air supply duct 300 and the indoor air exhaust duct 400 are respectively located on both sides of the total heat exchanger 600 , and are respectively installed outdoors and indoors of the house; the outdoor air supply duct 200 The pipeline between the total heat exchanger 600 is also provided with the outdoor air supply pipe primary filter 210, the outdoor air supply pipe secondary filter 220, and the outdoor air supply pipe tertiary filter 230 in sequence; The primary filter 210 of the outdoor air supply pipe is located outside the body 100 while the secondary filter 220 of the outdoor air supply pipe and the tertiary filter 230 of the outdoor air supply pipe are located inside the body; the outdoor air supply pipe After the 200 is connected to the total heat exchanger 600, it enters the interior of the total heat exchanger 600 through a plurality of outdoor air supply pipe heat exchange pipes 240, and the outdoor air supply pipe heat exchange pipes 240 pass through the total heat exchanger 600 The indoor air supply pipe 300 is then connected; the air supply motor 310 is arranged between the indoor air supply pipe 300 and the outdoor air supply pipe heat exchange pipe 240; the indoor air exhaust pipe 400 exchanges heat with the total heat exchange The indoor exhaust pipe primary filter 410 is arranged between the heat exchangers 600; after the indoor exhaust pipe 400 is connected to the total heat exchanger 600, the indoor exhaust pipe heat exchange pipe 420 enters the total heat exchanger 600 through a plurality of indoor exhaust pipe heat exchange pipes 420. Inside the heat exchanger 600, the indoor exhaust pipe heat exchange pipe 420 is connected to the outdoor exhaust pipe 500 after passing through the total heat exchanger 600; the outdoor exhaust pipe 500 is hot with the indoor exhaust pipe The blower motor 310 is provided between the exchange pipes 420 .

Include the following steps:

S1. Air supply process: The air supply motor 310 works, and the outdoor air is sucked from the outdoor air supply pipe 200, and passes through the primary filter 210 of the outdoor air supply pipe, the secondary filter 220 of the outdoor air supply pipe, and the outdoor air supply pipe. The tertiary filter 230 enters the total heat exchanger 600 through the outdoor air supply pipe heat exchange pipe 240 for heat exchange, then enters the indoor air supply pipe 300, and enters the room through the negative ion generator 320;

After measurement, the removal of PM2.5 reached 99.8%.

The above are only preferred embodiments of the present invention, and cannot limit the protection scope of the present invention, that is, any simple equivalent changes and modifications made according to the claims of the present invention and the contents of the utility model still belong to the present invention The scope of protection of the patent application.

Claims

A novel high-efficiency full heat exchange type fresh air ventilation system, characterized in that it comprises a body (100), an outdoor air supply pipe (200), a primary filter (210) for the outdoor air supply pipe, and a secondary filter for the outdoor air supply pipe (220), tertiary filter for outdoor air supply pipe (230), heat exchange pipe for outdoor air supply pipe (240), indoor air supply pipe (300), air supply motor (310), indoor air exhaust pipe (400) , indoor exhaust pipe primary filter (410), indoor exhaust pipe heat exchange pipe (420), outdoor exhaust pipe (500), exhaust motor (510), total heat exchanger (600); the body (100) is a hollow multi-compartment rectangular frame body; a total heat exchanger (600) is located in the center of the body (100); the outdoor air supply pipe (200), the outdoor air exhaust pipe (500) and the indoor air supply pipe (300) and indoor air exhaust pipes (400) are located on both sides of the total heat exchanger (600), respectively, and are respectively arranged outside and indoors of the house; the outdoor air supply pipe (200) exchanges heat with the total heat exchanger (600). The pipelines between the filters (600) are also sequentially provided with the outdoor air supply pipe primary filter (210), the outdoor air supply pipe secondary filter (220), and the outdoor air supply pipe tertiary filter (230). ; the primary filter (210) of the outdoor air supply pipe is located on the outside of the body (100) while the secondary filter (220) of the outdoor air supply pipe and the tertiary filter (230) of the outdoor air supply pipe are located at the outer side of the body (100). After the outdoor air supply pipe (200) is connected to the total heat exchanger (600), it enters the interior of the total heat exchanger (600) through a plurality of outdoor air supply pipe heat exchange pipes (240). The outdoor air supply pipe heat exchange pipe (240) is connected to the indoor air supply pipe (300) after passing through the total heat exchanger (600); the indoor air supply pipe (300) is connected to the outdoor air supply pipe A blower motor (310) is arranged between the heat exchange pipes (240); a primary filter of the indoor exhaust pipe is arranged between the indoor exhaust pipe (400) and the total heat exchanger (600). (410); after the indoor exhaust pipe (400) is connected to the total heat exchanger (600), it enters the interior of the total heat exchanger (600) through a plurality of indoor exhaust pipe heat exchange pipes (420), The indoor exhaust pipe heat exchange pipe (420) is connected to the outdoor exhaust pipe (500) after passing through the total heat exchanger (600); the outdoor exhaust pipe (500) is connected to the indoor exhaust air A blower motor (310) is arranged between the tube heat exchange tubes (420).
The novel high-efficiency full heat exchange type fresh air ventilation system according to claim 1, wherein a handle (211) is provided outside the primary filter (210) of the outdoor air supply pipe.
The novel high-efficiency full heat exchange type fresh air ventilation system according to claim 1, characterized in that a negative ion generator (320) is arranged in the indoor air supply pipe (300).
The novel high-efficiency full heat exchange type fresh air ventilation system according to claim 1, wherein the outdoor air supply pipe primary filter (210), the outdoor air supply pipe secondary filter (220) and The pore size of the filter screen of the three-stage filter (230) of the outdoor air supply pipe decreases sequentially.
The novel high-efficiency full heat exchange type fresh air ventilation system according to claim 1, characterized in that, a wireless signal receiving and transmitting device (110) is further provided on the body (100).
A novel high-efficiency full heat exchange type fresh air ventilation system according to claim 1, characterized in that, an air detector (430) is provided at the entrance of the indoor exhaust pipe (400).
The novel high-efficiency total heat exchange type fresh air ventilation system according to claim 1, characterized in that, the total heat exchanger (600) is filled with a liquid heat exchange medium, and the heat exchange medium is salt water.
The working method of the novel high-efficiency total heat exchange type fresh air ventilation system as claimed in claim 1, comprising the steps of:

S1. Air supply process: the air supply motor (310) works, and the outdoor air is sucked from the outdoor air supply pipe (200), passed through the outdoor air supply pipe primary filter (210) and the outdoor air supply pipe secondary filter (220), the outdoor air supply pipe tertiary filter (230) enters the total heat exchanger (600) through the outdoor air supply pipe heat exchange pipe (240) for heat exchange, and then enters the room through the indoor air supply pipe (300) ;

S2 Exhaust process: The exhaust motor (510) works, and the indoor air is sucked from the indoor exhaust pipe (400), filtered through the indoor exhaust pipe primary filter (410), and passed through the indoor exhaust pipe heat exchange pipe (400). 420) into the total heat exchanger (600) for heat exchange, and then discharged through the outdoor exhaust pipe (500).