CN205875553U - Mounting structure of roofing gland steam exhauster - Google Patents
Mounting structure of roofing gland steam exhauster Download PDFInfo
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- CN205875553U CN205875553U CN201620766520.8U CN201620766520U CN205875553U CN 205875553 U CN205875553 U CN 205875553U CN 201620766520 U CN201620766520 U CN 201620766520U CN 205875553 U CN205875553 U CN 205875553U
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- steam
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- roof
- exhauster
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Abstract
The utility model discloses a mounting structure of roofing gland steam exhauster relates to the architectural structure design field, include: the parapet, the vapour chimney, the vapour chimney setting is in the slope layer is looked for to the roofing, the gland steam exhauster, the gland steam exhauster buries according to predetermined interval in the parapet, the one end of gland steam exhauster with the vapour chimney intercommunication, the other end of gland steam exhauster passes the parapet communicates with outside atmosphere, the waterproof layer, the waterproof layer is located the upper surface on slope layer is looked for to the roofing, the vapour barrier layer, the vapour barrier level in the lower surface on slope layer is looked for to the roofing. The utility model discloses owing to reduced the quantity that steam exhausting pipeline passed through the waterproof layer, improve the work efficiency of roof waterproof construction, and reduced the weak spot of waterproof layer seepage, and then improved roof waterproof thermal insulation performance's reliability and durability, reduced the roof leakage probability.
Description
Technical field
This utility model relates to Architectural Structure Design field, the mounting structure of a kind of roof steam discharge pipe.
Background technology
Along with building standard improves year by year, require also improving year by year to the waterproof thermal-insulated performance of roof structure.And passing
In the roof structure of system, for getting rid of the steam in roof slope making layer, crisscross steam exhausting way is often set in roof slope making layer,
Vertical gland steam exhauster (mouth) is set in steam exhausting way intersection, through waterproof layer etc., is directly connected to fix by steel plate and roofing, and uses
Waterproof roll wraps up.
Present this structure, owing to large number of gland steam exhauster passes through waterproof layer, its caliber is less, adds waterproof executing
The difficulty of work;And gland steam exhauster is lofty central in roofing, usually can collide with other object during construction and use, steam discharge
Manage and will cause poorly sealed because of the reason of construction flaw or collision with roof waterproof layer intersection, thus produce asking of infiltration
Topic.
Utility model content
The purpose of this utility model is to provide the mounting structure of a kind of roof steam discharge pipe, thus it is difficult to reduce construction of waterproof layer
Degree, improves the reliability of waterproof layer, reduces roof leakage probability.
The technical scheme that this utility model provides is as follows:
A kind of mounting structure of roof steam discharge pipe, including: parapet;Steam exhausting way, described steam exhausting way is arranged on roof slope making
In Ceng;Gland steam exhauster, described gland steam exhauster is embedded in described parapet according to default spacing, one end of described gland steam exhauster and described row
Steam passage connects, and the other end of described gland steam exhauster passes described parapet, connects with outside atmosphere;Waterproof layer, described waterproof layer position
Upper surface in described roof slope making layer;Vapor barrier layer, described vapor barrier layer is positioned at the lower surface of described roof slope making layer.
It is further preferred that also include between described roof slope making layer and described vapor barrier layer: heat-insulation layer.
Connect it is further preferred that described heat-insulation layer is inserted in one end of described gland steam exhauster with described steam exhausting way, described steam discharge
Pipe extends along the short transverse being perpendicular to described parapet, and the other end of described gland steam exhauster is through the lateral surface of described parapet
Connect with outside atmosphere.
Connect it is further preferred that described roof slope making layer is inserted in one end of described gland steam exhauster with described steam exhausting way, described
Gland steam exhauster along described parapet short transverse extend, and the other end of described gland steam exhauster through described parapet medial surface with
Outside atmosphere connects.
It is further preferred that described steam exhausting way includes: laterally steam exhausting way and longitudinal steam exhausting way;Described horizontal steam exhausting way and institute
State longitudinal through connection of steam exhausting way.
It is further preferred that the degree of depth of described steam exhausting way is identical with the thickness of described roof slope making layer.
It is further preferred that described steam exhausting way is provided with upper cover near the one side of waterproof layer.
It is further preferred that described upper cover is cement pressure plate upper cover.
It is further preferred that the upper surface of described waterproof layer is additionally provided with protective layer.
It is further preferred that described parapet includes: heat-insulation layer inside heat-insulation layer and parapet outside parapet;Described female
Youngster's side heat-insulation layer within the walls is connected by fluid sealant near one end of described protective layer.
Compared with prior art, the technology of the present invention has the beneficial effects that:
1 gland steam exhauster being connected with steam exhausting way is arranged in parapet and connects with outside atmosphere through parapet, this company
Connect mode one need not through the waterproof layer of roofing, thus without produce due to gland steam exhauster and roofing waterproof layer intersection due to
The reasons such as construction cause seepage problem that is poorly sealed and that produce;Two carry out gland steam exhauster is built in parapet, will not take roofing
Outside space, when follow-up roofing uses process or constructs it, will not be hindered by gland steam exhauster, be had greatly
Convenience.
2, the room under the heat-insulation layer on roofing ensure that roofing will not occur the biggest because of the change of external environment condition
The temperature difference, this design improves the comfort level of building, also reduces user to regulate room indoor temperature and high-power electricity consumption
Chance, greatly reduce energy loss.
3, gland steam exhauster extends along the short transverse being perpendicular to parapet, outside making one end of gland steam exhauster directly through parapet
Side connection outside atmosphere, on the one hand only used less gland steam exhauster material just completes the arrangement of gland steam exhauster in this design,
On the other hand owing to facing building without patch around parapet, therefore a part for the prominent parapet of gland steam exhauster connection outside atmosphere is also
Do not interfere with the building of surrounding.
4, one end of gland steam exhauster and atmosphere passes the medial surface of parapet, and this design is suitable for around parapet having patch
The when of facing building, the outlet of gland steam exhauster is scheduled on the medial surface of parapet, while ensureing waterproof thermal-insulated performance, makes discharge
Gas do not interfere with the building of surrounding.
5, the most through steam exhausting way ensure that the waterproof layer packing material with vapor barrier layer is at the sun as much as possible
The steam scorching lower formation can have local discharge, thus has ensured reliability and the durability of waterproofing and thermal insulation of roofing performance.
6, the degree of depth of steam exhausting way is identical with the thickness of roof slope making layer, gives the flowing space that the steam of transpiration is enough.
7, upper cover ensure that steam exhausting way has corresponding pressure under certain circumstances, enables steam in the effect of pressure
Under flow along steam exhausting way, it is ensured that it thus can ensure that effect of waterproof layer by steam discharge bank of tubes in air.
8, cement pressure plate has excellent protection against the tide, fire protecting performance, and its unique environment-friendly function and also meets the most vast
User's pursuit to environmental protection;Cement pressure plate upper cover further ensures the insulation of roofing, heat insulation, water-proof function.
9, the problem causing roofing to seep water to protect waterproof layer to be easily damaged further, needs at waterproof layer
On add layer protective layer;General protective layer is that cement adds interfacial agents and adds rigidity water-proofing material and stir coating, this
Plant the intensity after mixture condenses and exceed general concrete material, also can yet be regarded as together simultaneously as add rigidity water-proofing material
Waterproof barrier, plays the effect killed two birds with one stone.
10, in parapet, the heat-insulation layer in outside prevents the heat of external environment condition to be transmitted to exterior wall and floor by parapet,
Ensure that the heat of external environment condition will not conduct to indoor, improve the heat insulation effect of indoor.
The mounting structure of roof steam discharge pipe of the present utility model, passes through the quantity of waterproof layer owing to decreasing blow-off line,
Improve the work efficiency of roof waterproof construction, and decrease the weak spot of waterproof layer seepage, and then improve roof waterproof and protect
The reliability of warm nature energy and durability, reduce roof leakage probability.
Accompanying drawing explanation
With detailed description of the invention, this utility model is described in further detail below in conjunction with the accompanying drawings:
Fig. 1 is the sectional view of one embodiment of mounting structure of roof steam discharge pipe of the present utility model;
Fig. 2 is the sectional view of another embodiment of mounting structure of roof steam discharge pipe of the present utility model;
Fig. 3 is the partial enlarged drawing of a-quadrant in Fig. 2.
Drawing reference numeral illustrates:
10. parapet, the lateral surface of 11. parapets, the medial surface of 12. parapets, insulated wall outside 13. parapets, 14.
Heat-insulation layer inside parapet, 20. steam exhausting waies, 21. upper covers, 30. gland steam exhausters, 41. waterproof layers, 42. roof slope making layers, 43. every vapour
Layer, 44. heat-insulation layers, 45. protective layers, 46. fluid sealants.
Detailed description of the invention
In order to be illustrated more clearly that this utility model embodiment or technical scheme of the prior art, below will be to embodiment
Or the required accompanying drawing used is briefly described in description of the prior art, it should be apparent that, the accompanying drawing in describing below is only
It is embodiments more of the present utility model, for those of ordinary skill in the art, in the premise not paying creative work
Under, it is also possible to other accompanying drawing is obtained according to these accompanying drawings.
In an embodiment of the present utility model, as it is shown in figure 1, the mounting structure of a kind of roof steam discharge pipe, including: female
Youngster's wall 10;Steam exhausting way 20, described steam exhausting way 20 is arranged in roof slope making layer 42;Gland steam exhauster 30, described gland steam exhauster 30 is according in advance
If spacing be embedded in described parapet 10, one end of described gland steam exhauster 30 connects with described steam exhausting way 20, described gland steam exhauster 30
The other end through described parapet 10, connect with outside atmosphere;Waterproof layer 41, described waterproof layer is positioned at described roof slope making layer
The upper surface of 42;Vapor barrier layer 43, described vapor barrier layer 43 is positioned at the lower surface of described roof slope making layer 42.
Concrete, parapet is building roof parapet all around, and Main Function, also can be the end of in addition to safeguarding safety
Place applies anti-hydraulic pressure brick and receives head, to avoid waterproof layer infiltration or roof rain water cross flow.Roof slope making layer refers to, according to set
The drainage direction of meter builds certain gentle slope, so that rain water on roof in an organized way to be dredged the rainwater discharge in building and city
In system.When temperature is suitable, between waterproof layer and vapor barrier layer, the moisture content contained by packing material can be formed under the scorching of the sun
Steam, penetrates slowly in exhaust duct, can flow along steam exhausting way under the effect of the pressure, by steam discharge bank of tubes in air.
Gland steam exhauster in this utility model is no longer pass through waterproof layer and connects with outside atmosphere, and Du has determined between the two due to poorly sealed
Produce the source of seepage problem;And the major part of gland steam exhauster is embedded among parapet, give roofing great idle space, separately
Outward, do not have and the problem such as gland steam exhauster collision at roofing construction or during using, be greatly improved construction and use just
Profit.
Preferably, also include between described roof slope making layer 42 and described vapor barrier layer 43: heat-insulation layer 44.
Concrete, in order to make the temperature of house interior disclosure satisfy that, use requires and the needs of building energy conservation, in roofing
Heat-insulation layer is a requisite part;Why heat-insulation layer is arranged on above vapor barrier layer, is to prevent in room air
Water vapour rise with thermal vapor stream, enter heat-insulation layer through wall, thus reduce heat insulation effect, it is therefore desirable to below heat-insulation layer
Vapor barrier layer is set.
Preferably, one end of described gland steam exhauster 30 is inserted described heat-insulation layer 44 and is connected with described steam exhausting way 20, described steam discharge
Pipe 30 extends along the short transverse being perpendicular to described parapet 10, and the other end of described gland steam exhauster 30 is through described parapet
Lateral surface 11 connects with outside atmosphere.
Concrete, the Main Function of gland steam exhauster is to be discharged in outside atmosphere by the steam flowing into steam exhausting way, it is contemplated that building
And the pitch problems between Jian Zhu, the arrangement method of gland steam exhauster is the most different.When around facing building without patch, gland steam exhauster is big with outside
One end of gas connection can be directly through the lateral surface of parapet, and owing to there being bigger spacing between surrounding buildings, it is discharged
The building of surrounding will not be impacted by steam;If the gland steam exhauster through the lateral surface of parapet protrudes from parapet lateral surface one
Part, also will not counteract the construction etc. of surrounding buildings;It addition, one end heat-insulation layer to be passed being connected with steam exhausting way, it is
Contribute to steam in view of the connector of gland steam exhauster and steam exhausting way in the lower section of steam exhausting way and flow into gland steam exhauster.
Preferably, one end of described gland steam exhauster 30 is inserted described roof slope making layer 42 and is connected with described steam exhausting way 20, described
Gland steam exhauster 30 extends along the short transverse of described parapet, and the other end of described gland steam exhauster is through the medial surface of described parapet
12 connect with outside atmosphere.
Concrete, when having patch to face building around parapet, if or gland steam exhauster being passed the lateral surface of parapet with outer
Portion's atmosphere, will necessarily face building to patch and cause certain inconvenience, therefore, it can pass gland steam exhauster the medial surface of parapet
Connect with outside atmosphere it can be understood as, the steam in gland steam exhauster is discharged in the air above roofing.Gland steam exhauster and outside atmosphere
The gland steam exhauster that the position of connection is extended embedment by the short transverse along parapet determines, when needs gland steam exhauster is connected with outside atmosphere
One end when the position that parapet medial surface is higher, the part that gland steam exhauster extends along parapet direction is the most more;Why want
Gland steam exhauster major part being embedded in parapet, one to be to ensure that gland steam exhauster does not have major part lofty in roofing, reduces roofing
Space availability ratio, two also ensure that the steam discharge effect of gland steam exhauster.
Preferably, described steam exhausting way 20 includes: laterally steam exhausting way and longitudinal steam exhausting way;Described horizontal steam exhausting way and described vertical
To the through connection of steam exhausting way.
Concrete, the area of plane of roofing is relatively big, if the most horizontal steam exhausting way or longitudinal steam exhausting way can only ensure roofing one
Steam in the waterproof layer of portion and vapor barrier layer can be discharged, and therefore, the most through steam exhausting way can averagely come
In roof slope making layer, really meet the steam discharge demand of waterproof layer and vapor barrier layer.In Specific construction, can be in roof slope making layer
The exhaust duct of 50 mm wides is set by the grid of 4 meters * 4 meters.
Preferably, the degree of depth of described steam exhausting way 20 is identical with the thickness of described roof slope making layer 42.
Concrete, the purpose of steam exhausting way is to discharge the steam in waterproof layer and vapor barrier layer, and waterproof layer and vapor barrier layer
Between roof slope making layer both are separated, therefore, can ensure that to the greatest extent with the steam exhausting way of the thickness same depth of roof slope making layer
Possibly close to waterproof layer and vapor barrier layer, further ensure steam discharge effect.
Preferably, described steam exhausting way 20 is provided with upper cover 21 near the one side of waterproof layer.Preferably, described upper cover 21 is cement
Pressure plare upper cover.
Concrete, on the one hand steam exhausting way roofing in other words has been done further waterproof and heat-insulating by upper cover, on the other hand also protects
Demonstrate,prove steam exhausting way and had corresponding pressure under certain circumstances, enable steam under the effect of the pressure along steam exhausting way stream
Dynamic, it is ensured that it can be by steam discharge bank of tubes outside portion air.
Cement pressure plate, also known as fiber cement board pressure or cement fibre pressure plate, is to be with natural fiber and cement
Raw material, through slurrying, molding, cut, pressurize, a kind of building panel of maintenance.It has lightweight, high-strength, waterproof, anti-
The advantages such as corruption, fire prevention, breadth is big, processability good, raising efficiency of construction, cement pressure plate upper cover further ensures the guarantor of roofing
Warm, heat insulation, water-proof function;Preferably, the thickness of upper cover can be 5 millimeters.
Preferably, the upper surface of described waterproof layer 41 is additionally provided with protective layer 45.
Concrete, the effect of protective layer maximum is the service life extending waterproof layer, prevents waterproof layer to be chronically exposed to greatly
Gas produces the phenomenons such as be full of cracks bulge;It addition, waterproof layer great majority are light, can be with sunlight reflection, it is possible to effectively drop
Low roof indoor temperature;On the other hand, protective layer can also prevent to greatest extent owing to physics strength causes waterproof layer damaged
Situation.
Preferably, described parapet 10 includes: heat-insulation layer 14 inside heat-insulation layer 13 and parapet outside parapet;Described female
Youngster's side heat-insulation layer 14 within the walls is connected by fluid sealant 46 near one end of described protective layer 45.
Concrete, outside in parapet, the heat-insulation layer in outside is to prevent the heat of external environment condition to be transmitted to by parapet
Wall and floor, thus ensure that the heat of external environment condition will not conduct the moistening effect to indoor impact indoor;It addition, outside parapet
The heat-insulation layer of side is also for concordant with wall face, it is simple to fits up and controls out-wall crack.
In another embodiment of the present invention, as shown in Figure 1, Figure 2, Figure 3 shows, the mounting structure of a kind of roof steam discharge pipe,
Including: parapet 10;Described parapet 10 includes: heat-insulation layer 14 inside heat-insulation layer 13 and parapet outside parapet;Described female
Youngster's side heat-insulation layer 14 within the walls is connected by fluid sealant 46 near one end of described protective layer 45;Steam exhausting way 20, described steam exhausting way 20
It is arranged in roof slope making layer 42;Described steam exhausting way 20 includes: laterally steam exhausting way and longitudinal steam exhausting way;Described horizontal steam exhausting way and
The described through connection of longitudinal steam exhausting way;The degree of depth of described steam exhausting way 20 is identical with the thickness of described roof slope making layer 42;Described row
Steam passage 20 is provided with upper cover 21 near the one side of waterproof layer 41;Described upper cover 21 is cement pressure plate upper cover;Gland steam exhauster 30, described row
Steam pipe 30 is embedded in described parapet 10 according to default spacing, and one end of described gland steam exhauster 30 connects with described steam exhausting way 20,
The other end of described gland steam exhauster 30 connects through described parapet 10 with outside atmosphere;One end of described gland steam exhauster 30 is inserted described
Heat-insulation layer 44 connects with described steam exhausting way 20, and described gland steam exhauster 30 extends along the short transverse being perpendicular to described parapet 10, and
The other end of described gland steam exhauster connects through the lateral surface 11 of described parapet with outside atmosphere;One end of described gland steam exhauster 30 is inserted
Entering described roof slope making layer 42 to connect with described steam exhausting way 20, described gland steam exhauster 30 prolongs along the short transverse of described parapet 10
Stretch, and the other end of described gland steam exhauster 30 connects with outside atmosphere through the medial surface 12 of described parapet;Waterproof layer 41, described
Waterproof layer 41 is positioned at the upper surface of described roof slope making layer 42;The upper surface of described waterproof layer 41 is additionally provided with protective layer 45;Every vapour
Layer 43, described vapor barrier layer 43 is positioned at the lower surface of described roof slope making layer 42;Described roof slope making layer 42 and described vapor barrier layer 43
Between also include: heat-insulation layer 44.
Concrete, gland steam exhauster of the present utility model can't pass waterproof layer, therefore, decreases Pipeline Crossing Program waterproof layer
Quantity, on the one hand will not be lofty on roofing due to gland steam exhauster, improves the work efficiency of roof waterproof construction, on the other hand subtracts
Lack the weak spot of waterproof layer seepage;The arrangement of this gland steam exhauster improves the reliability of waterproofing and thermal insulation of roofing performance and durable
Property, reduce the probability of roof leakage.
The above is only preferred implementation of the present utility model, it is noted that for the common skill of the art
For art personnel, on the premise of without departing from this utility model principle, it is also possible to make some improvements and modifications, these improve and
Retouching also should be regarded as protection domain of the present utility model.
Claims (10)
1. the mounting structure of a roof steam discharge pipe, it is characterised in that including:
Parapet;
Steam exhausting way, described steam exhausting way is arranged in roof slope making layer;
Gland steam exhauster, described gland steam exhauster is embedded in described parapet according to default spacing, one end of described gland steam exhauster and described row
Steam passage connects, and the other end of described gland steam exhauster passes described parapet, connects with outside atmosphere;
Waterproof layer, described waterproof layer is positioned at the upper surface of described roof slope making layer;
Vapor barrier layer, described vapor barrier layer is positioned at the lower surface of described roof slope making layer.
2. the mounting structure of roof steam discharge pipe as claimed in claim 1, it is characterised in that described roof slope making layer with described every
Also include between vapour layer:
Heat-insulation layer.
3. the mounting structure of roof steam discharge pipe as claimed in claim 2, it is characterised in that:
One end of described gland steam exhauster is inserted described heat-insulation layer and is connected with described steam exhausting way, and described gland steam exhauster is along being perpendicular to described daughter
The short transverse of wall extends, and the other end of described gland steam exhauster connects through the lateral surface of described parapet with outside atmosphere.
4. the mounting structure of roof steam discharge pipe as claimed in claim 1, it is characterised in that:
One end of described gland steam exhauster is inserted described roof slope making layer and is connected with described steam exhausting way, and described gland steam exhauster is along described parapet
Short transverse extend, and the other end of described gland steam exhauster connects through the medial surface of described parapet with outside atmosphere.
5. the mounting structure of roof steam discharge pipe as claimed in claim 1, it is characterised in that described steam exhausting way includes:
Laterally steam exhausting way and longitudinal steam exhausting way;
Described horizontal steam exhausting way and the described through connection of longitudinal steam exhausting way.
6. the mounting structure of roof steam discharge pipe as claimed in claim 1, it is characterised in that:
The degree of depth of described steam exhausting way is identical with the thickness of described roof slope making layer.
7. the mounting structure of the roof steam discharge pipe as described in claim 1-6 is arbitrary, it is characterised in that:
Described steam exhausting way is provided with upper cover near the one side of waterproof layer.
8. the mounting structure of roof steam discharge pipe as claimed in claim 7, it is characterised in that:
Described upper cover is cement pressure plate upper cover.
9. the mounting structure of roof steam discharge pipe as claimed in claim 1, it is characterised in that:
The upper surface of described waterproof layer is additionally provided with protective layer.
10. the mounting structure of roof steam discharge pipe as claimed in claim 9, it is characterised in that described parapet includes:
Heat-insulation layer inside heat-insulation layer and parapet outside parapet;
Inside described parapet, heat-insulation layer is connected by fluid sealant near one end of described protective layer.
Priority Applications (1)
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CN201620766520.8U CN205875553U (en) | 2016-07-20 | 2016-07-20 | Mounting structure of roofing gland steam exhauster |
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CN201620766520.8U CN205875553U (en) | 2016-07-20 | 2016-07-20 | Mounting structure of roofing gland steam exhauster |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114961140A (en) * | 2022-05-25 | 2022-08-30 | 黄淮学院 | Inverted planting roof waterproof slope layer steam exhaust channel and construction process thereof |
-
2016
- 2016-07-20 CN CN201620766520.8U patent/CN205875553U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114961140A (en) * | 2022-05-25 | 2022-08-30 | 黄淮学院 | Inverted planting roof waterproof slope layer steam exhaust channel and construction process thereof |
CN114961140B (en) * | 2022-05-25 | 2024-02-09 | 黄淮学院 | Inverted planting roof waterproof slope finding layer steam exhaust channel and construction process thereof |
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