CN208735817U - A kind of air through tunnel thermoregulating system suitable for high-rise super low energy consumption house - Google Patents

Abstract

The utility model discloses a kind of air through tunnel thermoregulating system suitable for high-rise super low energy consumption house, which includes several indoor user units being arranged in high residential building, the temperature adjusting structure that the first blower of each floor in high residential building is arranged in and is arranged on the outside of house；Temperature adjusting structure includes air inlet, takes air piping, is arranged in outside high residential building the first collection chamber and the second collection chamber and the concrete air hose being arranged between the first collection chamber and the second collection chamber, natural wind takes air piping by air inlet sucking through the first fan action, and air piping air outlet is taken to be connected to the first collection chamber；Natural wind after cooling is sent into the second collection chamber by concrete air hose by the first collection chamber；Second collection chamber side is provided with header pipe.It opens the first blower and the second blower forms induced draft, make the wind stereo circulating for sufficiently carrying out heat exchange in genuine wind system, achieve the purpose that reduce building energy consumption.

Description

A kind of air through tunnel thermoregulating system suitable for high-rise super low energy consumption house

Technical field

The utility model relates to building temperature adjustment technical field, especially a kind of ground suitable for high-rise super low energy consumption house Road wind thermoregulating system.

Background technique

Super low energy consumption building refers to acclimatization feature and natural conditions, higher by thermal and insulating performance and air-tightness Building enclosure building heating cooling needs are farthest reduced, and making full use of can using efficient fresh air heat recovery technology The renewable sources of energy provide comfortable indoor environment with less energy consumption and are able to satisfy the building of green building basic demand.

Genuine wind system makes full use of underground to carry out heat exchange, is to reduce super low energy consumption building to carry out room temperature A kind of effective way of required energy consumption when adjusting, the similar air through tunnel for being applied to high-rise super low energy consumption Housing Project domestic at present System experience of design and construction procedure is more deficient.Unreasonable, utilization rate is low, sanitary conditions there is designing for existing tunnel wind system The problem of difference.

Utility model content

The purpose of the utility model is to provide a kind of air through tunnel thermoregulating systems suitable for high-rise super low energy consumption house, to solve The technical problems such as certainly skyscraper energy consumption is high at this stage, the design of air through tunnel thermoregulating system is unreasonable, thermoregulation effect is undesirable.

To achieve the above objectives, the present invention adopts the following technical solutions: a kind of be suitable for high-rise super low energy consumption house Air through tunnel thermoregulating system, the air through tunnel thermoregulating system be arranged in 1 lateral surface of adjacent two high residential buildings, the air through tunnel temperature adjustment system System includes several indoor user units being arranged in high residential building 1, the first wind that each floor in high residential building 1 is arranged in Machine and the temperature adjusting structure being arranged on the outside of house；

The temperature adjusting structure includes that air piping 3, setting is taken to take the air inlet 2 of 3 one end of air piping, be arranged in high residential building 1 Outer the first collection chamber 4 and the second collection chamber 6 and the concrete air being arranged between the first collection chamber 4 and the second collection chamber 6 Pipe 5, natural wind take air piping 3 by the sucking of air inlet 2 through the first fan action, take 3 air outlet of air piping and the first collection chamber 4 Connection；Natural wind after cooling is sent into the second collection chamber 6 by concrete air hose 5 by the first collection chamber 4；

Second collection chamber, 6 side is provided with header pipe 7, and blowpipe 8 is provided on header pipe 7, after cooling from Right wind enters the room subscriber unit through blowpipe 8.

Further, air piping caliber is taken to be greater than concrete air hose caliber.

Further, indoor user unit includes the second blower, air outlet and the return air inlet that each household is arranged in.

Further, concrete air hose 5(is embedded in underground) laterally in a row interval setting；Concrete air hose 5 it is longitudinal in column between Every setting.

Further, the either flush of every row's concrete air hose 5.

Further, concrete air hose 5 is arranged in pipeline foundation；Pipeline foundation includes concrete cushion 12, setting mixed The basal layer 14 on soil padding 12 is coagulated, prolongs the retaining wall 13 of 5 axis direction of concrete air hose setting and is filled in retaining wall 13 Grit 15 between concrete air hose 5,15 top surface of grit and 13 either flush of retaining wall.

Further, concrete cushion 12 is with a thickness of 8-15cm；Concrete cushion 12 uses C15 concrete.

Further, retaining wall 13 uses M7.5 masonry of cement mortar.

Further, basal layer 14 is with a thickness of 18-22cm；Steel mesh is provided in basal layer 14.It is poured using C25 concrete It builds.

Further, the first collection chamber 4 includes ventilation shaft 11 and the catch pit for collecting condensed water in the first collection chamber 4 10, ventilation shaft 11 at least there are three and be arranged at intervals in the first collection chamber 4, ventilation shaft 11 is connected to concrete air hose 5；It catchments 4 corner of the first collection chamber, the side far from concrete air hose 5 is arranged in hole 10.

Further, the second collection chamber 6 includes ventilation shaft 11, the catch pit 10 for collecting condensed water in the second collection chamber 6 With maintenance room 9, ventilation shaft 11 at least there are three and be arranged at intervals in the second collection chamber 6, ventilation shaft 11 and concrete air hose 5 connect It is logical；6 corner of the second collection chamber, the side far from concrete air hose 5 is arranged in catch pit 10.

The beneficial effects of the utility model are embodied in:

1, a kind of air through tunnel thermoregulating system suitable for high-rise super low energy consumption house of the utility model is reasonable in design, The fresh air system formation induced draft with heat recovery function for opening every layer, each household, makes sufficiently to be overheated in genuine wind system The wind stereo circulating of exchange gets up, and is sent to every layer of public domain and per indoor, achievees the purpose that reduce building energy consumption.

2, a kind of air through tunnel thermoregulating system suitable for high-rise super low energy consumption house of the utility model, outdoor natural wind is by position Enter in the air inlet on shed deckhead, by taking air piping to enter side collection chamber, collection chamber connects concrete air hose, natural wind Heat exchange is carried out with soil by the concrete air hose being buried underground, reaches winter heating, the effect of cooling in summer.

3, the natural wind after sufficient heat exchange enters other side collection chamber, by concrete air supply duct be sent to two it is super The air outlet of low energy building, air outlet are located at building north side, connect outdoor architecture air duct, and outdoor architecture air duct passes through every layer of sun Platform enters in building, and public domain and each household all install the blower with heat recovery function, and each household matches air inlet and return air inlet.Starting Blower promotes the circulation air-supply of the wind in concrete air hose by negative pressure, guarantees indoor throughout the year in comfortable temperature.

4, concrete air hose has individually done basis, and connection is reliable, effectively prevent concrete air hose in the long-term use The problem of sinking, and then leading to junction deformation leakage.

5, it is provided with catch pit, solves the problems, such as the condensed water water due to caused by concrete duct internal-external temperature difference, simultaneously Facilitate the later period to clear up, guarantees hygiene.

Other features and advantages of the utility model will illustrate in the following description, and partly from specification It becomes apparent, or is understood and implementing the utility model.The main purpose and further advantage of the utility model can lead to Specifically noted scheme in specification, claims is crossed to be achieved and obtained.

Detailed description of the invention

The utility model is described in more detail with reference to the accompanying drawing.

Fig. 1 is a kind of air through tunnel thermoregulating system floor plan suitable for high-rise super low energy consumption house of the utility model.

Fig. 2 is the basic schematic of concrete air hose in genuine wind system.

Appended drawing reference: 1- high residential building, 2- air inlet, 3- take air piping, the first collection chamber of 4-, 5- concrete air hose, 6- Second collection chamber, 7- header pipe, 8- blowpipe, 9- maintenance room, 10- catch pit, 11- ventilation shaft, 12- concrete cushion, 13- retaining wall, 14- basal layer, 15- grit.

Specific embodiment

The technical solution of the utility model is described in detail by the following examples, embodiment below is only exemplary , it is only capable of for explanation and illustration the technical solution of the utility model, and cannot be construed to technical solutions of the utility model Limitation.

As shown in Figure 1, the utility model provides a kind of ground for being suitable for high-rise super low energy consumption house reasonable in design Road wind thermoregulating system, the air through tunnel thermoregulating system include several indoor user units being arranged in high residential building 1, setting exist First blower of each floor and the temperature adjusting structure being arranged on the outside of house in high residential building 1；The temperature adjusting structure includes setting Air inlet 2 on the ground, the first collection chamber 4 for taking air piping 3, being arranged in outside high residential building 1 and the second collection chamber 6 and setting Concrete air hose 5 between the first collection chamber 4 and the second collection chamber 6, natural wind are inhaled through the first fan action by air inlet 2 Enter to take air piping 3,3 air outlet of air piping is taken to be connected to the first collection chamber 4；First collection chamber 4 will be cooled down by concrete air hose 5 Natural wind afterwards is sent into the second collection chamber 6；Natural wind passes through the concrete air hose 5 being buried underground and carries out heat exchange with soil, Reach and adjusts temperature in high residential building 1, the effect of cooling in summer.

Second collection chamber, 6 side is provided with header pipe 7, and blowpipe 8 is provided on header pipe 7, after cooling from Right wind enters the room in subscriber unit through blowpipe 8.Indoor user unit includes the second blower, the air outlet that each household is arranged in With return air inlet.When opening the second blower of the first blower of each floor in high residential building 1, each household setting, in temperature adjusting structure Interior formation induced draft makes the wind stereo circulating for sufficiently carrying out heat exchange in genuine wind system, is sent to every layer of public area Domain and per indoor, achievees the purpose that reduce building energy consumption.

First collection chamber 4 includes ventilation shaft 11 and the catch pit 10 for collecting condensed water in the first collection chamber 4, ventilation shaft 11 at least there are three and be arranged at intervals in the first collection chamber 4, ventilation shaft 11 is connected to concrete air hose 5；Catch pit 10 is arranged In 4 corner of the first collection chamber, far from the side of concrete air hose 5.Second collection chamber 6 includes ventilation shaft 11, for collecting second In collection chamber 6 catch pit 10 of condensed water and maintenance room 9, ventilation shaft 11 at least there are three and be arranged at intervals on the second collection chamber 6 Interior, ventilation shaft 11 is connected to concrete air hose 5；The corner of the second collection chamber 6 is arranged in, close to concrete air hose 5 in catch pit 10 Side.It is provided with catch pit 10 in first collection chamber 4 and the second collection chamber 6, is solved due to warm inside and outside concrete duct Condensed water water problem caused by difference, takes ponding away using water pump, the later period is facilitated to clear up, and guarantees hygiene.

Wherein, 3 caliber of air piping is taken to be greater than 5 caliber of concrete air hose.Concrete air hose 5 is connected using bell and spigot, socket joint There are rubber water-proof items at mouthful.It is sealed after 5 assembly of adjacent concrete air hose with waterproof polymer mortar, outer patch macromolecule waterproof roll Material.

Concrete air hose 5 as shown in Figure 2 laterally in a row interval setting；The longitudinal interval setting in column of concrete air hose 5.Every row The either flush of concrete air hose 5.

Concrete air hose 5 is arranged in pipeline foundation, and it is mixed that pipeline foundation, which includes with a thickness of the C15 concrete of 8-15cm, Solidifying soil padding 12, be arranged on concrete cushion 12 with a thickness of 18-22cm basal layer 14, prolong 5 caliber side of concrete air hose Retaining wall 13 to setting and the grit 15 that is filled between retaining wall 13 and concrete air hose 5.5 side of concrete air hose can It is assured with 180 ° using medium coarse sand basis.Sand base is with a thickness of 20cm-30cm.It is provided with steel mesh in basal layer 14, can be used C25 concreting.

Every layer of pipeline foundation is respectively provided with expansion joint, of length no more than 30m, and slit width 5cm inside fills out extruded polystyrene board.Retaining wall 13 can use M7.5 masonry of cement mortar.Concrete air hose 5 has individually done pipeline foundation, and concrete air hose 5 is effectively prevent to exist The problem of sinking in long-term use process, and then leading to junction deformation leakage.

It is to be noted that being precipitated when back-up sand with water stratification, guarantee backfill compactness, it is ensured that pipeline lower section and barricade Interior sand is full uniformly, and medium coarse sand backfill height is backfilled to one layer of pad to fill out top element earthen backfill and compacting together with retaining wall 13 Layer bottom.

The specifically used process of the above-mentioned air through tunnel thermoregulating system for being suitable for high-rise super low energy consumption house:

First, open the second wind being arranged in the first blower and indoor user unit of each floor in high residential building 1 Machine, outdoor natural wind will suck through air inlet 2 and take air piping 3, and air piping 3 is taken to be sent into the first collection chamber 4；

Second, natural wind carries out heat exchange with soil by being embedded in the concrete air hose 5 of underground, reach winter heating, The effect of cooling in summer；

Third, the natural wind after sufficient heat exchange enter the second collection chamber 6, by header pipe 7 be sent to two it is ultralow The blowpipe 8 of energy consumption high residential building 1, temperature adjusting structure and blowpipe 8 can be located at high residential building 1 north side, finally into Enter in indoor subscriber unit.

The public domain of each floor is respectively mounted the first blower in high residential building 1, each indoor user unit installation the Two blowers, each household match air outlet and return air inlet.Start the first blower and the second blower, is promoted in concrete air hose 5 by negative pressure Wind recycle air-supply, guarantee indoor to be in comfortable temperature throughout the year.

The foregoing is merely the preferable specific embodiment of the utility model, but the protection scope of the utility model not office Be limited to this, variation that anyone skilled in the art is expected within the technical scope disclosed by the utility model or Replacement, should be covered within the scope of the utility model.

Claims (10)

1. a kind of air through tunnel thermoregulating system suitable for high-rise super low energy consumption house, it is characterised in that: the air through tunnel thermoregulating system It is arranged in adjacent two high residential buildings (1) lateral surface, which includes several settings in high residential building (1) Indoor user unit, the first blower of each floor and the temperature adjustment knot being arranged on the outside of house are set in high residential building (1) Structure；

The temperature adjusting structure includes that air piping (3), setting is taken to take the air inlet (2) of air piping (3) one end, be arranged in high residential building (1) outside the first collection chamber (4) and the second collection chamber (6) and it is arranged between the first collection chamber (4) and the second collection chamber (6) Concrete air hose (5), natural wind through the first fan action by air inlet (2) sucking take air piping (3), take air piping (3) Air outlet is connected to the first collection chamber (4)；Natural wind after cooling is sent by the first collection chamber (4) by concrete air hose (5) Second collection chamber (6)；

Second collection chamber (6) side is provided with header pipe (7), blowpipe (8) is provided on header pipe (7), after cooling Natural wind enter the room subscriber unit through blowpipe (8).

2. a kind of air through tunnel thermoregulating system suitable for high-rise super low energy consumption house as described in claim 1, which is characterized in that Indoor user unit includes the second blower, air outlet and the return air inlet that each household is arranged in.

3. a kind of air through tunnel thermoregulating system suitable for high-rise super low energy consumption house as described in claim 1, which is characterized in that Concrete air hose (5) laterally in a row interval setting；The longitudinal interval setting in column of concrete air hose (5).

4. a kind of air through tunnel thermoregulating system suitable for high-rise super low energy consumption house as claimed in claim 3, which is characterized in that The either flush of every row's concrete air hose (5).

5. a kind of air through tunnel thermoregulating system suitable for high-rise super low energy consumption house as described in claim 1, which is characterized in that Concrete air hose (5) is arranged in pipeline foundation；Pipeline foundation includes concrete cushion (12), is arranged in concrete cushion (12) On basal layer (14), prolong concrete air hose (5) axis direction setting retaining wall (13) and be filled in retaining wall (13) with Grit (15) between concrete air hose (5), grit (15) top surface and retaining wall (13) either flush.

6. a kind of air through tunnel thermoregulating system suitable for high-rise super low energy consumption house as claimed in claim 5, which is characterized in that Concrete cushion (12) is with a thickness of 8-15cm；Concrete cushion (12) uses C15 concrete.

7. a kind of air through tunnel thermoregulating system suitable for high-rise super low energy consumption house as claimed in claim 5, which is characterized in that Retaining wall (13) uses M7.5 masonry of cement mortar.

8. a kind of air through tunnel thermoregulating system suitable for high-rise super low energy consumption house as claimed in claim 5, which is characterized in that Basal layer (14) is with a thickness of 18-22cm；Steel mesh is provided in basal layer (14).

9. a kind of air through tunnel thermoregulating system suitable for high-rise super low energy consumption house as described in claim 1, which is characterized in that First collection chamber (4) includes ventilation shaft (11) and the catch pit (10) for collecting the first collection chamber (4) interior condensed water, ventilation shaft (11) at least there are three and be arranged at intervals in the first collection chamber (4), ventilation shaft (11) is connected to concrete air hose (5)；It catchments (10) setting is cheated in the first collection chamber (4) corner, the side of separate concrete air hose (5).

10. a kind of air through tunnel thermoregulating system suitable for high-rise super low energy consumption house as described in claim 1, feature exist In the second collection chamber (6) includes ventilation shaft (11), the catch pit (10) for collecting the second collection chamber (6) interior condensed water and inspection Repair room (9), ventilation shaft (11) at least there are three and be arranged at intervals in the second collection chamber (6), ventilation shaft (11) and concrete air Manage (5) connection；Catch pit (10) setting is in the second collection chamber (6) corner, the side of close concrete air hose (5).