CN101906832A - Building wall body and roofing structure for heat preservation and regulation and ventilation - Google Patents

Abstract

The invention discloses a building wall body and a roofing structure for heat preservation and regulation and ventilation. The building wall body and the roofing structure are characterized in that a wall body air brick layer and a roofing air brick layer are respectively built in a vertical surface layer and a roofing layer of a building external protecting wall body and the roofing structure, wherein the wall body air brick layer and the roofing air brick layer are hollow and are formed by more than one air brick passing through air channel openings of brick bodies; adjacent air channel openings between the air bricks in the air brick layer are connected to form the air channels; and the air channels form the external protecting wall body and the roofing structure of the building. The invention breaks through the restraint of the traditional design idea of the external protecting wall body and the roofing, uses the air layers and is matched with a temperature source, not only can play a role of preserving the heat of the external wall body and the roof of the building, but also can play a role of adjusting the temperature and ventilating in the emergency state, that is to say, can discharge dust, bacterial and the like out of the building by opening a closed port for emergently exhausting the smoke in the floor of the building under the action of negative pressure sucking force of an exhaust port at the upper part of the air layer of the building when fire happens or the bacteria are spread.

Description

The construction wall of a kind of insulation, temperature adjustment, ventilation and roof structure

Technical field

The present invention relates to a kind of body of wall and roof structure of building construction, particularly relate to the construction wall and the roof structure of a kind of insulation, temperature adjustment, ventilation, is to the improvement of the outer insulation construction of existing building, belongs to the energy-saving design in construction technology.

Background technology

At present, greatly developing energy-saving building has become and has implemented the essential of energy-saving and emission-reduction state basic policy, and the outer wall heat insulating design that building external protects then is the energy-saving building technology of giving priority to.

The external INSULATION DESIGN of exterior wall of building is that heat preserving and insulating material is placed the external side of exterior wall, to give the building energy conservation measure of the good thermal and insulating performance of building.Except incubation and thermal insulation function; because thermal insulation system is placed the external side of exterior wall; descend significantly thereby make agent structure and go along with sb. to guard him suffered action of thermal difference; temperature deformation reduces; to agent structure and go along with sb. to guard him and to play a protective role and can effectively block cold (heat) bridge, help energy-conservation and prolongation building life.

The external heat preservation technology of existing exterior wall mainly contains:

1. external hanging type is incubated outward, and plug-in heat insulating material has rock (ore deposit) cotton, blanket of glass wool, polystyrene foam plate, steel wire net rack sandwich wall board etc.Plug-in technology is that employing bonding mortar or special-purpose fixture paste heat insulating material, hang on the exterior wall, smears anticracking grout then, is pressed into fiberglass gridding cloth and forms topping, adds at last and does decorative cover.The various warming plates that also useful dedicated fixed part will be difficult for absorbing water are fixed on the exterior wall, with hanging over outside aluminium sheet, lithotome, the stained glass etc. on the keel of making in advance, directly form decorative cover then.

2. polyphenyl plate and body of wall one-time cast-forming promptly in the system are built in polyphenyl plate the wall outer side that is about to cast in the construction formwork at concrete frame-cut, fluid concrete then, and concrete and polyphenyl plate are once

Moulding by casting is a combined wall.

3. polyphenylene granule heat-insulating slip external wall outer insulation is processed ground grains with polystyrene plastics and is prepared thermal insulation mortar as light aggregate.

In addition, the group of the wall body brick that also changes is built form or outer body of wall is made interlayer perlite, wood chip, mineral wool, glass wool, polystyrene foam plastics, polyurethane foam plastics (but also foam-in-place) etc. are inserted in the interlayer, forms insulation layer.

For example publication number is the Chinese invention patent application " brick body of wall power-saving technology " of CN1415812, promptly with thermal insulation mortar as binding material with the L shaped brick ,-shaped brick and the some shaped brick build the formation heat-preserving wall by laying bricks or stones in the gap mode, wherein the L shaped brick is made up of horizontal segment and vertical section, and the vertical section height equals the thickness that horizontal segment thickness adds masonry mortar.Horizontal gap is built by laying bricks or stones, and level forms the gap, fills thermal insulation mortar in the gap.Thermal insulation mortar is made of the material with insulation character.

Publication number is the Chinese invention patent application " novel phase change-heat preservation composite wall structure " of CN101413299, comprise that mainly insulation layer, fixed phase change layer and wall base body constitute integrated composite construction: estimate its heat transfer resistance according to wall base body material and thickness, calculate the insulation layer material thickness thus, guarantee that insulation layer equates with wall base body heat transferring thermal resistance, thereby improve the peak clipping delay effect of phase change layer to greatest extent to variations in temperature, give full play to the double action of insulation layer thermal insulation and phase change layer heat-accumulation temperature-adjustment, improve the body of wall thermal inertia greatly.

Publication number is 200820007738 Chinese utility model patent " heat-insulating and heat-preserving wall structure ", comprises the body of wall of the standard brick formation of flat block and laid on end, it is characterized in that: be provided with air blanketing in described body of wall; In the air blanketing of described body of wall, be provided with insulating, form the composite, insulating wall; Described insulating comprises the employing foam plastic heat-insulating board.

Yet, still do not retrieve insulation that the air layer of forming with air brick body carries out the skin body, temperature adjustment, ventilation in the prior art, particularly do not have the outer body of wall of building and roofing layer all to form insulation, the temperature adjustment of whole building, the relevant information of ventilating layer with the method.

Summary of the invention

The objective of the invention is to overcome the above-mentioned deficiency of prior art, by improving architectural exterior insulation structure and design philosophy, provide and a kind ofly build into construction wall and the roof structure of air layer by laying bricks or stones as the insulation of architecture enclosing revetment body and roofing, temperature adjustment, ventilation with air brick body.The air layer that the present invention provides building is by utilizing building communicatively down or be communicated with solar energy equipment or be communicated with smoke evacuation, exhaust duct heat-exchanger rig equitemperature source, the temperature that underground ground temperature cool in summer and warm in winter and water temperature or solar energy equipment or smoke vent heat-exchanger rig are provided charges into to the building air layer, makes it give the building temperature adjustment; When meeting breaking out of fire or pathogen transmission, open airtight mouthful of the urgent smoke evacuation of floor of building, by the negative-pressure sucking effect of the air layer upper air vent built flue dust, germ etc. is discharged outside the building.

The technical solution that the present invention provides is: this insulation, temperature adjustment, the construction wall and the roof structure that ventilate, include building external revetment body and roof structure, be characterized in building by laying bricks or stones respectively in the facade layer of described building external revetment body and roof structure and the roofing layer by body of wall air brick layer and roofing air brick layer hollow and that have the air brick that connects the air channel opening of brick body more than one to constitute, adjacent air channel opening links to each other and forms air duct between the air brick in described air brick layer, and many air ducts have constituted the peripheral protective body of wall air layer and the roofing air layer of building.

For better finishing purpose of the present invention, the outer facade one side opening road of the vertical face of the air brick in the peripheral protective body of wall air layer of described building and the vertical air flue in outer facade one side opening road of air brick plane of structure communicate and are arranged in outside the building floor structure outer, and and laterally with the other end that is overlapped on the vertical face of air brick within the building floor structure outer, vertically (horizontally-arranged or vertically-arranged) brick intersects in length and breadth and builds by laying bricks or stones, finish construction wall build by laying bricks or stones simultaneously form with outside body of wall be the building external revetment body air layer of one, include many building externals in the peripheral protective body of wall air layer of described building and protect air duct.

For better finishing purpose of the present invention, the top of the structure roofing floor of described roofing layer is provided with equidirectional air brick, air channel between the equidirectional air brick communicates and forms the air layer roofing of building, includes many roofing air ducts in the air layer roofing of described building.

For better finishing purpose of the present invention, described building external revetment body air duct is provided with the opening that communicates with temperature source, and described temperature source is ground temperature or water temperature or solar energy equipment or smoke evacuation, exhaust duct heat-exchanger rig.

For better finishing purpose of the present invention, the intersection of described building external revetment body air duct top and roofing air brick layer, be provided with horizontal gas off-take, this horizontal gas off-take communicates with exhaust port, and described building external revetment body air duct bottom also is provided with air inlet port.

For better finishing purpose of the present invention, the air channel of the horizontal air brick of beneath window body of wall of described building communicates with the air channel of vertical air brick and drops on lower floor's horizontal eaves in window top.

For better finishing purpose of the present invention, described exhaust port is provided with the negative pressure exhaust device, this negative pressure exhaust device is made of support column, negative pressure exhaust cap, the negative pressure exhaust seat of negative pressure exhaust device, wherein support column top is provided with the negative pressure exhaust cap, the support column bottom is provided with the negative pressure exhaust seat, the negative pressure exhaust cap is driven by support column and moves up and down, the negative pressure exhaust cap is moved down the just in time interlock of following arc fluting at protruding bottom surface with the negative pressure exhaust seat center of projection of negative pressure exhaust cap bottom can be made its closely knit closing.

For better finishing purpose of the present invention, described air inlet port is provided with the non-return valve of control air inlet, and the non-return valve outside is provided with thermal insulation door, uses when closing fully.

For better finishing purpose of the present invention, described building external revetment body air duct is provided with airtight urgent smoke vent opening at floor, when breaking out of fire or virus flue dust such as propagations or the dump of dirty gas need, open airtight urgent smoke vent opening, by the suction function of the high-order exhaust opening of building, flue dust or dirty gas are discharged fast by the air channel in the air brick layer.

For better finishing purpose of the present invention, the described building external revetment body air layer and the roofing air layer outside are provided with adiabator layer.

The present invention's mentioned air brick in technique scheme means hollow and the brick that connects the air channel opening of brick body more than is arranged; The present invention's mentioned air inlet port in technique scheme refers in the building bottom or the air intake of underground connection air duct; The present invention's mentioned exhaust port in technique scheme refers to the air exit at the building high level; The present invention's mentioned vertical face of air brick in technique scheme refers to the leptoprosopy of air brick; The present invention's mentioned air brick plane of structure in technique scheme refers to wide of air brick; The present invention in technique scheme mentioned vertically communicate to arrange refer to up and down the arrangement that communicates of the air flue between the air brick; The present invention in technique scheme mentioned laterally, vertically (horizontal or vertical) brick refer to the peripheral protective body of wall inboard of building laterally, vertical brick.

If be subjected to the inspiration of the object of the invention and technique scheme, when building body of wall air layer that the present invention provides and roofing air layer by laying bricks or stones, be to get the technical scheme that specially adopts other substitute material to finish air duct for the air brick also should belong to the protection domain that the present invention requires.

Device or system that the present invention does not describe in detail in technique scheme are same as the prior art.

Compared with prior art, beneficial effect of the present invention is: since ancient times, people utilize construction wall and roofing to stop the cold wind heat, but the while people have ignored construction wall and roofing also is the container that stores hot and cold temperature.In the winter of cold, low temperature is gradually to body of wall and roofing infiltration, make body of wall and roofing become a low-temperature (low temperature) vessel also gradually with in the low temperature osmotic inlet chamber, influence indoor environment temperature, even inferior daily temperature raises, indoor also being difficult to improved, because of the cold containers effect of body of wall and roofing, low temperature does not also thoroughly discharge and finishes, and makes it stop interior temperature to rise; The summer of heat, high temperature is gradually to body of wall and roofing infiltration, make body of wall and roofing become an elevated temperature vessel also gradually with in the seeping at high temperature inlet chamber, influence indoor environment temperature, even night, temperature descended, indoor also being difficult to improved, because of the thermal capacitance device effect of body of wall and roofing, high temperature does not also thoroughly discharge and finishes, and makes it stop interior temperature to descend.And the present invention is exactly the constraint of having broken the design philosophy of the hot and cold temperature container effect of traditional peripheral protective body of wall and roofing, utilize air layer and cooperate peripheral protective body of wall and roofing not only to play insulation effect building by temperature source, can also play thermoregulatory effect, under the state of emergency, can also play draught effect, promptly when meeting breaking out of fire or pathogen transmission, open airtight mouthful of the urgent smoke evacuation of floor of building, flue dust, germ etc. is discharged outside the building by the negative-pressure sucking effect of the air layer upper air vent built.

Description of drawings

Fig. 1 provides the structural representation of embodiment for the present invention;

The wall body structure schematic diagram that Fig. 2 provides for the present invention;

Fig. 3 is the C-C body of wall of Fig. 4 and the vertical view cutaway drawing of roofing junction;

Fig. 4 is A-A (upwards the being extended down to the parapet top) schematic diagram of Fig. 3;

Fig. 5 is B-B (upwards the being extended down to the parapet top) schematic diagram of Fig. 3;

Fig. 6 provides the structural representation that building external protects air duct for the present invention;

The structural representation of the horizontal gas off-take that Fig. 7 provides for the present invention;

The schematic perspective view at the horizontal gas off-take place that Fig. 8 provides for the present invention;

The beneath window that Fig. 9 provides for the present invention and the air duct structural representation A of top body of wall;

Figure 10 provides the air duct structural representation B of building beneath window body of wall for the present invention;

Figure 11 and Figure 12 provide the position and the structural representation thereof of negative pressure exhaust device for the present invention;

Figure 13 and Figure 14 provide the position and the structural representation thereof of non-return valve for the present invention;

Figure 15 provides the structural representation of urgent smoke vent opening for the present invention;

Figure 16 provides the structural representation of embodiment (adiabator layer) for the present invention.

The specific embodiment

Below in conjunction with embodiment concrete technical scheme of the present invention is described further:

Shown in Figure 1, build by laying bricks or stones respectively in the peripheral protective body of wall of the building of this insulation, temperature adjustment, ventilation and the roof structure by peripheral protective body of wall air brick layer 1 and roofing air brick layer 2 hollow and that air brick 3 that the air channel opening of perforation brick body more than is arranged constitutes, adjacent air channel opening links to each other and forms air duct 4 between the air brick 3 in described peripheral protective body of wall air brick layer 1 and roofing air brick layer 2, has constituted the peripheral protective body of wall air layer and the roofing air layer of building.Mark among the figure: 5 is the building body.

Shown in Figure 2, vertical air flue in the air channel duct of the air channel duct of outer facade one side of the vertical face air brick 6 in the peripheral protective body of wall air layer of building and outer facade one side of plane of structure air brick 7 communicates and is arranged in outside the building floor structure outer 8, and with the other end that is overlapped on the vertical face air brick 6 within the building floor structure outer 8 and horizontal horizontally-arranged brick 9-1 or laterally vertically-arranged brick 9-2 or vertically vertically-arranged brick 10 intersects in length and breadth and builds by laying bricks or stones, to have formed when construction wall is built by laying bricks or stones with body of wall be the air layer of peripheral protective body of wall air duct composition of the building of one finishing.Include many building externals in the peripheral protective body of wall air layer of described building and protect air duct.When building by laying bricks or stones, the air channel of body of wall facade outside air brick is connected, the inboard brick of peripheral protective body of wall intersects to build by laying bricks or stones with peripheral protective wall outer side air brick and becomes one simultaneously, becomes the overall peripheral revetment body of building.Mark among the figure: 11 is foundation wall, and 12 is floor.

Fig. 3～Figure 5 shows that the structure of body of wall and roofing junction, the top of the structure floor 13 of roofing is provided with equidirectional air brick 14, and the air channel 15 between the equidirectional air brick 14 communicates and forms the roofing air layer of building.Mark among the figure: 16 is parapet, and 17 is the roofing air layer and laterally be connected air channel between the gas off-take 18, and 19 is adiabator layer.

Figure 6 shows that the structure of air duct in the building external revetment body air brick layer, this air duct is provided with the opening 20 that communicates with temperature source, described temperature source is a ground temperature, and the bottom of air duct also is provided with air inlet port 21 and air intake duct 22 in the peripheral protective body of wall air brick layer.

Fig. 7～Figure 8 shows that structure of the gas off-take in the roofing air brick layer 2, peripheral protective body of wall air brick layer 1 top of building and the intersection of roofing air brick layer 2 are provided with horizontal gas off-take 18, and this horizontal gas off-take 18 communicates with the exhaust port 23 of peripheral protective body of wall air brick layer 1 upper end.Mark among the figure: 24 is the negative pressure exhaust device.

Fig. 9～Figure 10 shows that air duct structure of window 25 below bodies of wall, the horizontal air brick of the window 25 below bodies of wall 26-1 of building upward and with the air channel 29 of vertical air brick 27 communicates with being located in the horizontal eaves 26-2 in window top of lower floor, and wherein Fig. 9 is that the horizontal air brick of beneath window body of wall 26-1 is located in down on the horizontal eaves 26-2 in window top; Figure 10 is that beneath window body of wall top is that horizontal air brick 26-1 communicates with the air channel 29 of the vertical air brick 27 that is located in down beneath window body of wall bottom.Mark 28 is the air channel of horizontal air brick among the figure.

Figure 11 and the structure that Figure 12 shows that the negative pressure exhaust device 24 at exhaust port 23 places, exhaust port 23 is provided with negative pressure exhaust device 24, this negative pressure exhaust device 24 is by four support columns 30 of negative pressure exhaust device, negative pressure exhaust cap 31, negative pressure exhaust seat 32 constitutes, wherein support column 30 tops are provided with negative pressure exhaust cap 31, support column 30 bottoms are provided with negative pressure exhaust seat 32, negative pressure exhaust cap 31 can drive up and down by support column 30, negative pressure exhaust cap 31 is moved down the just in time interlock of following arc fluting 33 at protruding bottom surface with negative pressure exhaust seat 32 centers of projection of negative pressure exhaust cap 31 bottoms can be made its closely knit closing.When winter temperature descends, close exhaust port 23 (the air inlet port thermal insulation door is closed simultaneously), air-flow is subjected to the temperature source effect in inactive state, and current of warm air is subjected to the temperature source effect to carry out interchange of heat, constantly rising charges into the air layer higher temperature, and building external revetment temperature is raise; When summer temperature rises, open exhaust port (the air inlet port thermal insulation door is opened simultaneously), be subjected to air-flow action of thermal difference in the suction function of exhaust port negative pressure exhaust device and the building air channel, air-flow sucks the lower temperature air-flow from air inlet port, the temperature source of low temperature is carried out the interchange of heat of temperature balance simultaneously, make the further interchange of heat of air-flow, high temperature gas flow constantly rises, and to discharge building external, reaches cooling effect.Mark 34 is for transferring handle among the figure, and 35 is last axle, and 36 is axis, and 37 is lower shaft.

Figure 13 and the structure that Figure 14 shows that the non-return valve 38 at air inlet port 21 places, air inlet port 21 is provided with the non-return valve 38 of control air inlet, and non-return valve 38 outsides are provided with thermal insulation door 39, use when closing fully.When winter temperature descends, close thermal insulation door 39 (exhaust port 23 is closed simultaneously), air-flow is subjected to the temperature source effect in inactive state, and current of warm air constantly rises and charges into air layer, and building external revetment body temperature degree is raise; When summer temperature rises, open thermal insulation door 39, be subjected to air-flow action of thermal difference in the suction function of exhaust port negative pressure exhaust device and the building air duct, air-flow sucks from air inlet port, the temperature source of low temperature is carried out the interchange of heat of temperature balance simultaneously, high temperature gas flow constantly rises, and to discharge building external, reaches cooling effect.

Figure 15 shows that the structure of urgent smoke vent opening 40, the peripheral protective body of wall air brick layer 1 of building is provided with airtight urgent smoke vent opening 40 at floor, when dirty gases such as breaking out of fire or virus propagation need dump, open airtight urgent smoke vent opening 40, by the suction function of the high-order exhaust opening of building, flue dust or dirty gas are discharged fast by the air duct in the peripheral protective body of wall air brick layer 1.Mark 41 is airtight mouthful an of floor among the figure.

Figure 16 shows that the peripheral protective body of wall air layer of building and the structure that the roofing air layer is established adiabator layer 19 outward in addition, the peripheral protective body of wall air layer of building and the outside of roofing air layer are provided with adiabator layer 19.

During work, the facade air layer of building structure utilizes building following communicatively or connection solar energy equipment or connection smoke vent heat-exchanger rig equitemperature source, the temperature that underground ground temperature cool in summer and warm in winter and water temperature or solar energy equipment or smoke vent heat-exchanger rig are provided charges into to the building air layer, makes it give building body temperature adjustment.When winter temperature was low, the inlet and outlet mouth was closed, and the heat of temperature source upwards conducts temperature makes whole building air layer intensification reach thermoregulatory effect; When summer temperature is higher, open upper air vent and bottom air inlet port, building bottom air inlet port enters the lower air-flow of temperature, and with the ground temperature or water temperature temperature adjustment of bottom lower temperature after, be subjected to the negative-pressure sucking and the interior action of thermal difference of air layer of upper air vent, thermal current rises, and the thermal current in the building air layer is constantly upwards discharged reach thermoregulatory effect.

When meeting breaking out of fire or pathogen transmission, open the airtight mouth of the urgent smoke evacuation of floor, lean on the negative-pressure sucking effect of upper air vent that flue dust, germ etc. is discharged outside the building.

Claims (10)

1. the construction wall and the roof structure of an insulation, temperature adjustment, ventilation, include building external revetment body and roof structure, it is characterized in that building by laying bricks or stones respectively in the facade layer of described building external revetment body and roof structure and the roofing layer by body of wall air brick layer and roofing air brick layer hollow and that have the air brick that connects the air channel opening of brick body more than one to constitute, adjacent air channel opening links to each other and forms air duct between the air brick in described air brick layer, and many air ducts have constituted the peripheral protective body of wall air layer and the roofing air layer of building.

2. insulation according to claim 1, temperature adjustment, the construction wall and the roof structure that ventilate, the vertical air flue in outer facade one side opening road that it is characterized in that the outer facade one side opening road of the vertical face of air brick in the peripheral protective body of wall air layer of described building and air brick plane of structure communicates and is arranged in outside the building floor structure outer, and and laterally with the other end that is overlapped on the vertical face of air brick within the building floor structure outer, vertically (horizontally-arranged or vertically-arranged) brick intersects in length and breadth and builds by laying bricks or stones, finish construction wall build by laying bricks or stones simultaneously form with outside body of wall be the building external revetment body air layer of one, include many building external revetment body air ducts in the peripheral protective body of wall air layer of described building.

3. the construction wall and the roof structure of insulation according to claim 1, temperature adjustment, ventilation, the top that it is characterized in that the structure roofing floor of described roofing layer is provided with equidirectional air brick, air channel between the equidirectional air brick communicates and forms the air layer roofing of building, includes many roofing air ducts in the air layer roofing of described building.

4. the construction wall and the roof structure of insulation according to claim 1, temperature adjustment, ventilation, it is characterized in that described building external revetment body air duct is provided with the opening that communicates with temperature source, described temperature source is ground temperature or water temperature or solar energy equipment or smoke evacuation, exhaust duct heat-exchanger rig.

5. the construction wall and the roof structure of insulation according to claim 1, temperature adjustment, ventilation, the intersection that it is characterized in that described building external revetment body air duct top and roofing air brick layer, be provided with horizontal gas off-take, this horizontal gas off-take communicates with exhaust port, and described building external revetment body air duct bottom also is provided with air inlet port.

6. the construction wall and the roof structure of insulation according to claim 1, temperature adjustment, ventilation is characterized in that the air channel of the horizontal air brick of beneath window body of wall of described building communicates and drops on lower floor's horizontal eaves in window top with the vertical air channel of air brick.

7. the construction wall and the roof structure of insulation according to claim 5, temperature adjustment, ventilation, it is characterized in that described exhaust port is provided with the negative pressure exhaust device, this negative pressure exhaust device is made of support column, negative pressure exhaust cap, the negative pressure exhaust seat of negative pressure exhaust device, wherein support column top is provided with the negative pressure exhaust cap, the support column bottom is provided with the negative pressure exhaust seat, and the negative pressure exhaust cap is driven by support column and moves up and down.

8. the construction wall and the roof structure of insulation according to claim 5, temperature adjustment, ventilation is characterized in that described air inlet port is provided with the non-return valve of control air inlet, and the non-return valve outside is provided with thermal insulation door.

9. the construction wall and the roof structure of insulation according to claim 1, temperature adjustment, ventilation is characterized in that described building external revetment body air duct is provided with airtight urgent smoke vent opening at floor.

10. the construction wall and the roof structure of insulation according to claim 1, temperature adjustment, ventilation is characterized in that the peripheral protective body of wall air layer of described building and the roofing air layer outside are provided with adiabator layer.

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