CN205481550U - Arrange room with indoor new trend system - Google Patents

Abstract

The utility model discloses an arrange room with indoor new trend system, including intermediate layer new trend system, intermediate level new trend system, top layer new trend system and basement new trend system, intermediate layer new trend system includes the new trend host computer, be equipped with core, new trend filter screen and dirt air filter screen in the new trend host computer, be connected with indoor air inlet tube, outdoor tuber pipe, indoor return air system and indoor air supply system on the new trend host computer, the utility model discloses foul air discharged in the room can effectually will be arranged by the new trend system to to letting in clean air in row room, the fresh and oxygen content of air in the room has been kept arranging, new trend ystem installation is inside at wall etc. The row of occupying room inner space not, kept arranging in room building neatly to the difficult emergence is damaged, has prolonged life.

Description

A kind of row room central ventilation system

Technical field

This utility model relates to a kind of row room central ventilation system, belongs to VMC (Ventilation Mechanical Control System) technical applications.

Background technology

Haze, is the portmanteau word of mist and haze.Haze is common in city.Mist is incorporated to haze and carries out early-warning and predicting together as diastrous weather phenomenon by the many areas of China, is referred to as " haze weather ".

Haze is the result that specific weather condition interacts with mankind's activity.The economy of high density population and social activity will necessarily discharge a large amount of fine particle (PM 2.5), once discharge exceedes atmospheric air circulation ability and carrying degree,, by continued accumulation, if now affected by quiet steady weather etc., easily there is large-scale haze in fine particle concentration.

2013, " haze " became year key word.In the January of this year, 4 times haze process shrouds 30 provinces (district, city), in Beijing, within 5 days, is not only haze sky.Having report display, in 500 cities of Largest In China, the city only less than 1% reaches the air quality standard of world health organisation recommendations, and meanwhile, polluting city, the most serious 10 in the world has 7 in China.

On January 4th, 2014, mitigation is done, the haze weather of health risk is included in natural the condition of a disaster in 2013 and circulated a notice of by Ministry of Civil Affairs first in country.

In haze weather, " PM2.5 fine particle " is " arch-criminal ", in order to remove the PM2.5 fine particle in room air, purify the air of a room, people's many uses air purifier is removed, and the principle of air purifier is to drive room air to flow through from fixing filter membrane, when flowing through filter membrane to flowing through the purpose that air cleaning reaches to purify the air of a room by blower fan, it does not exchanges, for interior circularly purifying with outdoor air.Therefore, use air purifier that indoor oxygen content can be caused to reduce, health is had a negative impact, and opens the window to increase oxygen content, the haze air of outside can be allowed again to enter indoor, pollute room air.

Use VMC (Ventilation Mechanical Control System) when also having now house building, but the big and pipeline complexity that typically takes up room, especially in row room, the multiple new wind main frame of the many needs of VMC (Ventilation Mechanical Control System), management use is more inconvenient.

Utility model content

The technical problems to be solved in the utility model is for above not enough, one row's room central ventilation system is provided, has and keep the pure and fresh and oxygen content arranging air within doors, prevent take up space, keep that building is neat, be not susceptible to damage and the advantage increased the service life.

For solve above technical problem, this utility model by the following technical solutions:

A kind of row room central ventilation system, including interlayer VMC (Ventilation Mechanical Control System), intermediate layer VMC (Ventilation Mechanical Control System), top layer VMC (Ventilation Mechanical Control System) and basement VMC (Ventilation Mechanical Control System), interlayer VMC (Ventilation Mechanical Control System) includes new wind main frame, it is provided with movement, new wind filter screen and dirty wind filter screen in described new wind main frame, new wind main frame connects external air inlet pipe of having family, outdoor discharge pipe, indoor return air system and indoor supply air system.

The following is and the further of such scheme is optimized:

Described indoor return air system includes indoor return air pipe, the first backwind tube, the second backwind tube and the 3rd backwind tube it is connected on indoor return air pipe, the other end of the first backwind tube connects the first return air standpipe, second backwind tube is provided with the first volume damper, the other end of the second backwind tube connects the second return air standpipe, and the 3rd return air duct is provided with indoor return air mouth.

Described indoor supply air system includes indoor ajutage, connect on indoor ajutage and have the first ajutage and the second ajutage, the other end of the first ajutage connects the first air-supply standpipe, second ajutage is provided with the first volume damper, connect on second ajutage and have the 3rd ajutage, 3rd ajutage is provided with the second volume damper, and the 3rd ajutage is provided with indoor air outlet.

Described top layer VMC (Ventilation Mechanical Control System) includes top layer air return system, top layer air return system includes the second backwind tube, second backwind tube is provided with the first volume damper, one end of second backwind tube connects the second return air standpipe, connecting on the pipeline of the second backwind tube has the 3rd return air duct, the 3rd return air duct to be provided with indoor return air mouth.

Described top layer VMC (Ventilation Mechanical Control System) also includes top layer supply air system, top layer supply air system includes the second ajutage, one end of first ajutage connects the second air-supply standpipe, second ajutage is provided with the first volume damper, connect on second ajutage and have the 3rd ajutage, 3rd ajutage is provided with the second volume damper, and the 3rd ajutage is provided with indoor air outlet.

Described intermediate layer VMC (Ventilation Mechanical Control System) includes intermediate layer air return system and intermediate layer supply air system, intermediate layer air return system includes the first backwind tube, the two ends of the first backwind tube are connected to the second backwind tube and the first return air standpipe, second backwind tube is provided with the first volume damper, connecting on the pipeline of the second backwind tube has the 3rd return air duct, the 3rd return air duct to be provided with indoor return air mouth.

Described intermediate layer VMC (Ventilation Mechanical Control System) also includes intermediate layer supply air system, intermediate layer supply air system includes the first ajutage, the two ends of the first ajutage are connected to the second ajutage and the first air-supply standpipe, second ajutage is provided with the first volume damper, connect on second ajutage and have the 3rd ajutage, 3rd ajutage is provided with the second volume damper, and the 3rd ajutage is provided with indoor air outlet.

The structure of described basement VMC (Ventilation Mechanical Control System) is identical with the structure of top layer VMC (Ventilation Mechanical Control System).

The second return air standpipe in described interlayer VMC (Ventilation Mechanical Control System) is connected with the second return air standpipe in basement VMC (Ventilation Mechanical Control System)；The first return air standpipe in interlayer VMC (Ventilation Mechanical Control System) is connected with the first return air standpipe in the intermediate layer VMC (Ventilation Mechanical Control System) of bottom, adjacent the first return air standpipe in two intermediate layer VMC (Ventilation Mechanical Control System) is connected, and the first return air standpipe in the intermediate layer VMC (Ventilation Mechanical Control System) of the top and the second return air standpipe in top layer VMC (Ventilation Mechanical Control System) connect；

The first air-supply standpipe in described interlayer VMC (Ventilation Mechanical Control System) is connected with the second air-supply standpipe in basement VMC (Ventilation Mechanical Control System)；The first air-supply standpipe in interlayer VMC (Ventilation Mechanical Control System) is connected with the first air-supply standpipe in the intermediate layer VMC (Ventilation Mechanical Control System) of bottom, the first air-supply standpipe in two adjacent intermediate layer VMC (Ventilation Mechanical Control System) is connected, and the first return air standpipe in the intermediate layer VMC (Ventilation Mechanical Control System) of the top and the second air-supply standpipe in top layer VMC (Ventilation Mechanical Control System) connect.

In described native system, each device is arranged on house wall and/or ground intralaminar part.

After this utility model uses above technical scheme, compared with prior art, have the advantage that this utility model VMC (Ventilation Mechanical Control System) can effectively be discharged arranging air pollution within doors, and be passed through clean air within doors to row, the pure and fresh and oxygen content of the row's of maintaining air within doors；VMC (Ventilation Mechanical Control System) is arranged on the inside such as wall, the row of preventing take up space within doors, and it is neat that the row of maintaining builds within doors, and is not susceptible to damage, and extends service life.

With embodiment, this utility model is described in detail below in conjunction with the accompanying drawings.

Accompanying drawing explanation

Accompanying drawing 1 is the structural representation of this utility model device；

Accompanying drawing 2 is the structural representation of interlayer VMC (Ventilation Mechanical Control System)；

Accompanying drawing 3 is the partial enlarged drawing of A in accompanying drawing 2；

Accompanying drawing 4 is the structural representation of air return system in top layer VMC (Ventilation Mechanical Control System)；

Accompanying drawing 5 is the structural representation of supply air system in top layer VMC (Ventilation Mechanical Control System)；

Accompanying drawing 6 is the structural representation of air return system in the VMC (Ventilation Mechanical Control System) of intermediate layer；

Accompanying drawing 7 is the structural representation of supply air system in the VMC (Ventilation Mechanical Control System) of intermediate layer；

In figure,

1-new wind main frame, 11-movement, 12-new wind filter screen, 13-dirt wind filter screen, 14-outdoor blast pipe, 15-outdoor discharge pipe, 16-indoor return air pipe, 17-indoor ajutage, 2-the first backwind tube, 21-the first return air standpipe, 3-the second backwind tube, 31-the second return air standpipe, 4-the 3rd backwind tube, 41-indoor return air mouth, 5-the first ajutage, 51-first blows standpipe, 6-the second ajutage, and 61-second blows standpipe, 7-the 3rd ajutage, 71-indoor air outlet, 8-the first volume damper, 9-the second volume damper.

Detailed description of the invention

Embodiment 1, as shown in figs. 1-7, a kind of row room central ventilation system, including interlayer VMC (Ventilation Mechanical Control System), intermediate layer VMC (Ventilation Mechanical Control System), top layer VMC (Ventilation Mechanical Control System) and basement VMC (Ventilation Mechanical Control System), the quantity of intermediate layer VMC (Ventilation Mechanical Control System) is at least one.

Interlayer VMC (Ventilation Mechanical Control System) includes new wind main frame 1, is provided with movement 11, new wind filter screen 12 and dirty wind filter screen 13 in new wind main frame 1, new wind main frame 1 connects external air inlet pipe 14 of having family, outdoor discharge pipe 15, indoor return air system and indoor supply air system；

Indoor return air system includes indoor return air pipe 16, the first backwind tube the 2, second backwind tube 3 and the 3rd backwind tube 4 it is connected on indoor return air pipe 16, the other end of the first backwind tube 2 connects the first return air standpipe 21, second backwind tube 3 is provided with the first volume damper 8, and the other end of the second backwind tube 3 connects the second return air standpipe 31；

The quantity of the 3rd return air duct 4 is at least one, and the 3rd return air duct 4 is provided with at least one indoor return air mouth 41.

Indoor supply air system includes indoor ajutage 17, connect on indoor ajutage 17 and have the first ajutage 5 and the second ajutage 6, the other end of the first ajutage 5 connects the first air-supply standpipe 51, second ajutage 6 is provided with the first volume damper 8, connect on second ajutage 6 and have at least the 3rd ajutage 7,3rd ajutage 7 is provided with the second volume damper 9, and the 3rd ajutage 7 is provided with at least one indoor air outlet 71.

Top layer VMC (Ventilation Mechanical Control System) includes top layer air return system and top layer supply air system, top layer air return system includes the second backwind tube 3, second backwind tube 3 is provided with the first volume damper 8, one end of second backwind tube 3 connects the second return air standpipe 31, connecting on the pipeline of the second backwind tube 3 and have at least the 3rd return air duct 4, the 3rd return air duct 4 is provided with at least one indoor return air mouth 41；

Top layer supply air system includes the second ajutage 6, one end of first ajutage 6 connects the second air-supply standpipe 61, second ajutage 6 is provided with the first volume damper 8, connect on second ajutage 6 and have at least the 3rd ajutage 7,3rd ajutage 7 is provided with the second volume damper 9, and the 3rd ajutage 7 is provided with at least one indoor air outlet 71.

Intermediate layer VMC (Ventilation Mechanical Control System) includes intermediate layer air return system and intermediate layer supply air system, intermediate layer air return system includes the first backwind tube 2, the two ends of the first backwind tube 2 are connected to the second backwind tube 3 and the first return air standpipe 21, second backwind tube 3 is provided with the first volume damper 8, connecting on the pipeline of the second backwind tube 3 and have at least the 3rd return air duct 4, the 3rd return air duct 4 is provided with at least one indoor return air mouth 41；

Intermediate layer supply air system includes the first ajutage 5, the two ends of the first ajutage 5 are connected to the second ajutage 6 and the first air-supply standpipe 51, second ajutage 6 is provided with the first volume damper 8, connect on second ajutage 6 and have at least the 3rd ajutage 7,3rd ajutage 7 is provided with the second volume damper 9, and the 3rd ajutage 7 is provided with at least one indoor air outlet 71.

The structure of basement VMC (Ventilation Mechanical Control System) is identical with the structure of top layer VMC (Ventilation Mechanical Control System), and the quantity of the 3rd return air duct 4, indoor return air mouth the 41, the 3rd ajutage 7, indoor air outlet the 71, first volume damper 8 and the second volume damper 9 in interlayer VMC (Ventilation Mechanical Control System), intermediate layer VMC (Ventilation Mechanical Control System), top layer VMC (Ventilation Mechanical Control System) and basement VMC (Ventilation Mechanical Control System) selects as required.

The second return air standpipe 31 in interlayer VMC (Ventilation Mechanical Control System) is connected with the second return air standpipe 31 in basement VMC (Ventilation Mechanical Control System)；The first return air standpipe 21 in interlayer VMC (Ventilation Mechanical Control System) is connected with the first return air standpipe 21 in the intermediate layer VMC (Ventilation Mechanical Control System) of bottom, adjacent the first return air standpipe 21 in two intermediate layer VMC (Ventilation Mechanical Control System) is connected, and the first return air standpipe 21 in the intermediate layer VMC (Ventilation Mechanical Control System) of the top and the second return air standpipe 31 in top layer VMC (Ventilation Mechanical Control System) connect.

The first air-supply standpipe 51 in interlayer VMC (Ventilation Mechanical Control System) is connected with the second air-supply standpipe 61 in basement VMC (Ventilation Mechanical Control System)；The first air-supply standpipe 51 in interlayer VMC (Ventilation Mechanical Control System) is connected with the first air-supply standpipe 51 in the intermediate layer VMC (Ventilation Mechanical Control System) of bottom, the first air-supply standpipe 51 in two adjacent intermediate layer VMC (Ventilation Mechanical Control System) is connected, and the first return air standpipe 21 in the intermediate layer VMC (Ventilation Mechanical Control System) of the top and the second air-supply standpipe 61 in top layer VMC (Ventilation Mechanical Control System) connect.

Indoor return air mouth 41 is generally located on the places such as kitchen, toilet, passage, cloak room and storeroom, indoor air outlet 71 is generally located on the places such as workman room, audio-visual room, gymnasium, dining room, bedroom and study, indoor return air mouth 41 and indoor air outlet 71 and is configured according to the concrete structure in row room.

Outdoor blast pipe 14 described in the present embodiment, outdoor discharge pipe 15, indoor return air pipe 16 and indoor ajutage 17 are made up of Φ 250 pipe；First backwind tube the 2, first return air standpipe the 21, first ajutage 5 and the first air-supply standpipe 51 are made up of Φ 200 pipe；Second backwind tube the 3, second return air standpipe the 31, second ajutage 6 and the second air-supply standpipe 61 are made up of Φ 160 pipe；3rd backwind tube 4 and the 3rd ajutage 7 are made up of Φ 110 pipe；Indoor return air mouth 41 and indoor air outlet 71 are Φ 110 opening；First volume damper 8 is Φ 160 volume damper, and the second volume damper 9 is Φ 110 volume damper.

Preferred first volume damper 8 and the second volume damper 9 are the volume damper using Based Intelligent Control.

In native system, each device is arranged on house wall and/or ground intralaminar part, is not take up space outerpace.

During use, being drawn in new wind main frame 1 by room air by indoor return air mouth 41, by the indoor air outlet 71 fresh air after indoor are passed through filtration so that whole row is the most with fresh air, flow nature；Meanwhile, in native system, to be arranged on wall etc. internal for device, is not take up space outerpace, saves space, and the row of maintaining room is attractive in appearance.

The above is the citing of this utility model preferred forms, and the part addressed the most in detail is the common knowledge of those of ordinary skill in the art.Protection domain of the present utility model is as the criterion with the content of claim, and any equivalent transformation carried out based on technology of the present utility model enlightenment, also within protection domain of the present utility model.

Claims (10)

1. a row room central ventilation system, including interlayer VMC (Ventilation Mechanical Control System), intermediate layer VMC (Ventilation Mechanical Control System), top layer VMC (Ventilation Mechanical Control System) and basement VMC (Ventilation Mechanical Control System), interlayer VMC (Ventilation Mechanical Control System) includes new wind main frame (1), it is characterized in that: be provided with movement (11), new wind filter screen (12) and dirty wind filter screen (13) in described new wind main frame (1), the upper connection of new wind main frame (1) is had family external air inlet pipe (14), outdoor discharge pipe (15), indoor return air system and indoor supply air system.

2. a kind of row room as claimed in claim 1 central ventilation system, it is characterized in that: described indoor return air system includes indoor return air pipe (16), the first backwind tube (2) it is connected on indoor return air pipe (16), second backwind tube (3) and the 3rd backwind tube (4), the other end of the first backwind tube (2) connects the first return air standpipe (21), second backwind tube (3) is provided with the first volume damper (8), the other end of the second backwind tube (3) connects the second return air standpipe (31), 3rd return air duct (4) is provided with indoor return air mouth (41).

3. a kind of row room as claimed in claim 1 central ventilation system, it is characterized in that: described indoor supply air system includes indoor ajutage (17), the upper connection of indoor ajutage (17) has the first ajutage (5) and the second ajutage (6), the other end of the first ajutage (5) connects the first air-supply standpipe (51), second ajutage (6) is provided with the first volume damper (8), the upper connection of second ajutage (6) has the 3rd ajutage (7), 3rd ajutage (7) is provided with the second volume damper (9), 3rd ajutage (7) is provided with indoor air outlet (71).

4. a kind of row room as claimed in claim 1 central ventilation system, it is characterized in that: described top layer VMC (Ventilation Mechanical Control System) includes top layer air return system, top layer air return system includes the second backwind tube (3), second backwind tube (3) is provided with the first volume damper (8), one end of second backwind tube (3) connects the second return air standpipe (31), connecting on the pipeline of the second backwind tube (3) has the 3rd return air duct (4), the 3rd return air duct (4) to be provided with indoor return air mouth (41).

5. a kind of row room as claimed in claim 1 central ventilation system, it is characterized in that: described top layer VMC (Ventilation Mechanical Control System) also includes top layer supply air system, top layer supply air system includes the second ajutage (6), one end of first ajutage (6) connects the second air-supply standpipe (61), second ajutage (6) is provided with the first volume damper (8), the upper connection of second ajutage (6) has the 3rd ajutage (7), 3rd ajutage (7) is provided with the second volume damper (9), and the 3rd ajutage (7) is provided with indoor air outlet (71).

6. a kind of row room as claimed in claim 1 central ventilation system, it is characterized in that: described intermediate layer VMC (Ventilation Mechanical Control System) includes intermediate layer air return system and intermediate layer supply air system, intermediate layer air return system includes the first backwind tube (2), the two ends of the first backwind tube (2) are connected to the second backwind tube (3) and the first return air standpipe (21), second backwind tube (3) is provided with the first volume damper (8), connecting on the pipeline of the second backwind tube (3) has the 3rd return air duct (4), the 3rd return air duct (4) to be provided with indoor return air mouth (41).

7. a kind of row room as claimed in claim 1 central ventilation system, it is characterized in that: described intermediate layer VMC (Ventilation Mechanical Control System) also includes intermediate layer supply air system, intermediate layer supply air system includes the first ajutage (5), the two ends of the first ajutage (5) are connected to the second ajutage (6) and the first air-supply standpipe (51), second ajutage (6) is provided with the first volume damper (8), the upper connection of second ajutage (6) has the 3rd ajutage (7), 3rd ajutage (7) is provided with the second volume damper (9), 3rd ajutage (7) is provided with indoor air outlet (71).

8. a kind of row room as claimed in claim 1 central ventilation system, it is characterised in that: the structure of described basement VMC (Ventilation Mechanical Control System) is identical with the structure of top layer VMC (Ventilation Mechanical Control System).

9. a kind of row room as claimed in claim 1 central ventilation system, it is characterised in that: the second return air standpipe (31) in described interlayer VMC (Ventilation Mechanical Control System) is connected with the second return air standpipe (31) in basement VMC (Ventilation Mechanical Control System)；The first return air standpipe (21) in interlayer VMC (Ventilation Mechanical Control System) is connected with the first return air standpipe (21) in the intermediate layer VMC (Ventilation Mechanical Control System) of bottom, the first return air standpipe (21) in two adjacent intermediate layer VMC (Ventilation Mechanical Control System) is connected, and the first return air standpipe (21) in the intermediate layer VMC (Ventilation Mechanical Control System) of the top and the second return air standpipe (31) in top layer VMC (Ventilation Mechanical Control System) connect；

The first air-supply standpipe (51) in described interlayer VMC (Ventilation Mechanical Control System) is connected with the second air-supply standpipe (61) in basement VMC (Ventilation Mechanical Control System)；The first air-supply standpipe (51) in interlayer VMC (Ventilation Mechanical Control System) is connected with the first air-supply standpipe (51) in the intermediate layer VMC (Ventilation Mechanical Control System) of bottom, the first air-supply standpipe (51) in two adjacent intermediate layer VMC (Ventilation Mechanical Control System) is connected, and the first return air standpipe (21) in the intermediate layer VMC (Ventilation Mechanical Control System) of the top and the second air-supply standpipe (61) in top layer VMC (Ventilation Mechanical Control System) connect.

10. a kind of row room as claimed in claim 1 central ventilation system, it is characterised in that: in described native system, each device is arranged on house wall and/or ground intralaminar part.