DISC-TYPE AIR ECOSYSTEM BOX AND CLIMATIC ECOLOGIZED AIR-CONDITIONING METHOD THEREFOR

Abstract

The present invention relates to a disc-type air ecosystem box. The disc-type air ecosystem box includes a housing, and the housing is provided to accommodate a power module, a health processing module, a summer load module, a winter comfort module, a safety module, and an air supply module. The health processing module, the summer load module, the winter comfort module, and the safety module are located on the periphery of the power module, and the air supply module is located behind the power module. The present invention further discloses an air-conditioning method for said disc-type air ecosystem box.

Claims

1. A disc-type air ecosystem box, comprising a housing, wherein the housing is provided to accommodate a power module, a health processing module, a summer load module, a winter comfort module, a safety module, and an air supply module; the health processing module, the summer load module, the winter comfort module, and the safety module are located on the periphery of the power module, the air supply module is located behind the power module; the power module comprises a flange of air inlet, paced on the housing; the power module comprises a casing paced behind the flange of air inlet; and the casing is provided to accommodate an unhoused fan driven by a frequency conversion motor; a plate-type pre-filter is placed in front of the unhoused fan; the casing defines a first air dissipation, a second air dissipation, a third air dissipation, and a fourth air dissipation; the health processing module defines a first connecting air vent and a fourth connecting air vent, on opposite sides of the first air dissipation respectively; a first through vent is disposed between the first connecting air vent and the fourth connecting air vent; the health processing module further comprises an ultraviolet sterilizing device and a middle-effect electrostatic filter; the summer load module defines a first connecting air vent and a second connecting air vent, on opposite sides of the second air dissipation respectively; a second through vent is disposed between the first connecting air vent and the second connecting air vent; the summer load module further comprises a surface cooling coil and a thermotube reheat coil; the safety module defines a second connecting air vent and a third connecting air vent, on opposite sides of the third air dissipation respectively; a third through vent is disposed between the second connecting air vent and the third connecting air vent; the safety module defines further comprises PM2.5 filtering and detecting device. the winter comfort module defines a fourth connecting air vent and a third connecting air vent, on opposite sides of the fourth air dissipation respectively; a fourth through vent is disposed between the fourth connecting air vent and the third connecting air vent; the winter comfort module further comprises a heating coil and a humidifier.

2. An air-conditioning method for a disc-type air ecosystem box, wherein in transition seasons, during good air quality, the air flows into rooms, passing from the power module and the air supply module, the air current passes through an air inlet, the first air dissipation, the first through vent, and the air supply vent one by one, and all the other air vents are closed; during bad air quality, the air flows into rooms, passing from the power module, the health processing module, and the air supply module; the air current passes through the air inlet, the first air dissipation, the first connecting air vent, the second through vent, and the air supply vent one by one, and all the other air vents are closed; during worst air quality, the air flows into rooms, passing from the power module, the safety module, and the air supply module; the air current passes through the air inlet, the third air dissipation, the third connecting air vent, the fourth through vent, and the air supply vent one by one, and all the other air vents are closed; in summer, during good air quality, the air flows into rooms, passing from the power module and the summer load module, and the air supply module; the air current passes through the air inlet, the second air dissipation, the second connecting air vent, the third through vent, and the air supply vent one by one, and all the other air vents are closed; during bad air quality, the air flows into rooms, passing from the power module, the health processing module, the summer load module, and the air supply module; the air current passes through the air inlet, the first air dissipation, the first connecting air vent, the second connecting air vent, the third through vent, and the air supply vent one by one, and all the other air vents are closed; during a smog, the air flows into rooms, passing from the power module, the health processing module, the summer load module, the safety module, and the air supply module; the air current passes through the air inlet, the first air dissipation, the first connecting air vent, the second connecting air vent, the third connecting air vent, the fourth through vent, and the air supply vent one by one, and all the other air vents are closed; in winter, during good air quality, the air flows into rooms, passing from the power module, the winter comfort module, and the air supply module; the air current passes through the air inlet, the fourth air dissipation, the fourth connecting air vent, the first through vent, and the air supply vent one by one, and all the other air vents are closed; during bad air quality, the air flows into rooms, passing from the power module, the winter comfort module, the health processing module, and the air supply module; the air current passes through the air inlet, the fourth air dissipation, the fourth connecting air vent, the first connecting air vent, the second through vent, and the air supply vent one by one, and all the other air vents are closed; during worst air quality, the air flows into rooms, passing from the power module, the safety module, the winter comfort module, and the air supply module; the air current passes through the air inlet, the third air dissipation, the third connecting air vent, the fourth connecting air vent, the first through vent, and the air supply vent one by one, and all the other air vents are closed.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0020] FIG. 1 is a structure view of a disc-type air ecosystem box and climatic ecologized air-conditioning method therefor in Example 1. The disc-type air ecosystem box includes a power module;

[0021] FIG. 2 is a structure view of the power module in the disc-type air ecosystem box;

[0022] The components and the labels thereof showed in the drawings are listed out as follows:

TABLE-US-00001 1—a housing; 2—a flange of an air outlet; 3—a plate-type pre-filter; 4—an unhoused fan; 5—a second air dissipation; 6—a frequency conversion motor; 7—an air supply plenum chamber; 8—an ultraviolet sterilizing 9—a middle-effect electrostatic filter; device; 11—a second through vent; 10—a first connecting air vent; 13—a thermotube reheat coil; 12—a surface cooling coil; 15—a third air dissipation; 14—a second connecting air vent; 17—PM2.5 filtering and detecting 16—a third through vent; device; 18—a third connecting air vent; 19—a fourth through vent; 20—a heating coil; 21—a humidifier; 22—a first air dissipation; 23—a fourth connecting air vent; 24—a first through vent; 25—a flange of air outlet; 26—an ecological monitor; 27—a chassis; 28—a casing; 29—a fourth air dissipation;

DETAILED DESCRIPTION

[0023] The disclosure is illustrated by way of example and not by way of limitation in the figures of the accompanying drawings in which like references indicate similar elements.

[0024] The present disclosure further discloses a disc-type air ecosystem box. The disc-type air ecosystem box includes a housing. The housing is provided to accommodate a power module, a health processing module, a summer load module, a winter comfort module, a safety module, and an air supply module. The health processing module, the summer load module, the winter comfort module, and the safety module are located on the periphery of the power module. The air supply module is located behind the power module.

[0025] The power module includes a flange of an air inlet, paced on the housing. The power module includes a casing paced behind the flange of air inlet. The casing is provided to accommodate an unhoused fan driven by a frequency conversion motor. A plate-type pre-filter is placed in front of the unhoused fan. The casing defines a first air dissipation, a second air dissipation, a third air dissipation, and a fourth air dissipation.

[0026] The health processing module defines a first connecting air vent and a fourth connecting air vent, on opposite sides of the first air dissipation respectively. A first through vent is disposed between the first connecting air vent and the fourth connecting air vent. The health processing module further includes an ultraviolet sterilizing device and a middle-effect electrostatic filter.

[0027] The summer load module defines a first connecting air vent and a second connecting air vent, on opposite sides of the second air dissipation respectively. A second through vent is disposed between the first connecting air vent and the second connecting air vent. The summer load module further includes a surface cooling coil and a thermotube reheat coil.

[0028] The safety module defines a second connecting air vent and a third connecting air vent, on opposite sides of the third air dissipation respectively. A third through vent is disposed between the second connecting air vent and the third connecting air vent. The safety module defines further includes PM2.5 filtering and detecting device.

[0029] The winter comfort module defines a fourth connecting air vent and a third connecting air vent, on opposite sides of the fourth air dissipation respectively. A fourth through vent is disposed between the fourth connecting air vent and the third connecting air vent. The winter comfort module further includes a heating coil and a humidifier.

[0030] The air supply module defines an air supply vent behind the housing, communicating with the first through vent, the second through vent, the third through vent, and the fourth through vent. The air supply module further includes an ecological monitor in front of the air supply vent.

[0031] The present disclosure further discloses an air-conditioning method for said disc-type air ecosystem box. The air-conditioning method is climatic ecologized and includes steps as bellow: In transition seasons, when air quality is good, the air flows into rooms, passing from the power module and the air supply module, and specifically, the air current passes through an air inlet, the first air dissipation, the first through vent, and the air supply vent one by one, with all the other air vents closed. When air quality is bad, the air flows into rooms, passing from the power module, the health processing module, and the air supply module, and specifically, the air current passes through the air inlet, the first air dissipation, the first connecting air vent, the second through vent, and the air supply vent one by one, with all the other air vents closed. When air quality is worst, the air flows into rooms, passing from the power module, the safety module, and the air supply module, and specifically, the air current passes through the air inlet, the third air dissipation, the third connecting air vent, the fourth through vent, and the air supply vent one by one, with all the other air vents closed.

[0032] In summer, when air quality is good, the air flows into rooms, passing from the power module and the summer load module, and the air supply module, and specifically, the air current passes through the air inlet, the second air dissipation, the second connecting air vent, the third through vent, and the air supply vent one by one, with all the other air vents closed. When air quality is bad, the air flows into rooms, passing from the power module, the health processing module, the summer load module, and the air supply module, and specifically, the air current passes through the air inlet, the first air dissipation, the first connecting air vent, the second connecting air vent, the third through vent, and the air supply vent one by one, with all the other air vents closed. During a smog, the air flows into rooms, passing from the power module, the health processing module, the summer load module, the safety module, and the air supply module, and specifically, the air current passes through the air inlet, the first air dissipation, the first connecting air vent, the second connecting air vent, the third connecting air vent, the fourth through vent, and the air supply vent one by one, with all the other air vents closed.

[0033] In winter, during good air quality, the air flows into rooms, passing from the power module, the winter comfort module, and the air supply module, and specifically, the air current passes through the air inlet, the fourth air dissipation, the fourth connecting air vent, the first through vent, and the air supply vent one by one, with all the other air vents closed. When air quality is bad, the air flows into rooms, passing from the power module, the winter comfort module, the health processing module, and the air supply module, and specifically, the air current passes through the air inlet, the fourth air dissipation, the fourth connecting air vent, the first connecting air vent, the second through vent, and the air supply vent one by one, with all the other air vents closed. When air quality is worst, the air flows into rooms, passing from the power module, the safety module, the winter comfort module, and the air supply module, and specifically, the air current passes through the air inlet, the third air dissipation, the third connecting air vent, the fourth connecting air vent, the first through vent, and the air supply vent one by one, with all the other air vents closed.

[0034] It should be noted that the relational terms herein, such as “first” and “second”, are used only for differentiating one entity or operation, from another entity or operation, which, however do not necessarily require or imply that there should be any real relationship or sequence. Moreover, the terms “comprise”, “include” or any other variations thereof are meant to cover non-exclusive including, so that the process, method, article or device comprising a series of elements do not only comprise those elements, but also comprise other elements that are not explicitly listed or also comprise the inherent elements of the process, method, article or device. In the case that there are no more restrictions, an element qualified by the statement “comprises a . . . ” does not exclude the presence of additional identical elements in the process, method, article or device that comprises the said element.

[0035] The above embodiments are only illustrated to help understanding the method and the essential idea of the present invention. One of ordinary skill in the art can make other variations in the spirit of the present invention, these variations based upon the spirit of the present invention are all included in the claimed protect scope of the present invention. The above descriptions are only preferred embodiments, thus cannot limit the claim scope of the application. All the equivalent modifications and variations made by one of ordinary skill in the art based on the spirit of the present invention are belonged to the claim scope of the application.