CN213654013U - Energy-saving roof structure - Google Patents
Energy-saving roof structure Download PDFInfo
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- CN213654013U CN213654013U CN202021712574.9U CN202021712574U CN213654013U CN 213654013 U CN213654013 U CN 213654013U CN 202021712574 U CN202021712574 U CN 202021712574U CN 213654013 U CN213654013 U CN 213654013U
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Abstract
An energy-saving roof structure relates to a roof structure, which comprises a roof structure plate, wherein a leveling layer A, a slope-finding layer, a leveling layer B, a heat-insulating layer, a leveling layer C, a waterproof layer, an isolation layer and a protective layer are sequentially paved on an indoor structure plate from bottom to top, a plurality of rows of capillary water pipelines are paved in an indoor painting layer below the indoor structure plate, the protective layer is a C20 fine stone concrete layer with the thickness of 40mm, the leveling layer C is a C20 concrete layer with the thickness of 30mm, separation seams with the width of 10mm are respectively arranged on the protective layer and the leveling layer C every 6m in the longitudinal direction and the transverse direction of the protective layer and the leveling layer C, and sealing materials are respectively arranged in the separation seams; the slope finding layer is set to be 30mm thick, and LC5.0 lightweight aggregate concrete is arranged at the thinnest part of the slope finding layer; the utility model discloses the structure effectively falls to inhale and releases the roofing and lays hot summer to heat production life hot water in summer, improve human body and feel the comfort level, reduce the air conditioner power consumption, the comfort level is felt to the body of reinforcing top layer resident family, reduces the air conditioner and opens number of times and time, realizes energy-conserving purpose.
Description
Technical Field
The utility model relates to a roofing structure especially relates to an energy-conserving roofing structure.
Background
It is known that the direct solar radiation intensity is the maximum when the direct solar radiation point is on the return line of north every year in our country, and the solar radiation intensity received by the roof is the maximum in our country, particularly in the northern area every penauy month, but at the moment, the air humidity is still very small, and the air enthalpy value is not high; when the sun falls, the human body feeling of outdoor air temperature is comfortable and even cool, but the roof of a top layer household receives solar radiation in one day in the daytime and has strong heat storage, so that the roof radiates heat indoors by the evening, even if the outdoor people have been subjected to cold wind, the indoor heat is still hard to endure, and the problem of human body feeling discomfort caused by window opening ventilation cannot be solved quickly. The householder at the topmost part of the building needs to consume more electric energy of the air conditioner to reduce the indoor temperature in summer due to the limited heat insulation capability of the roof of the top house, and the energy consumption is larger. Therefore, the roof structure which can effectively absorb and release heat generated by laying the roof in summer and enhance the body feeling comfort of the top layer householder is provided, and becomes the basic appeal of the technical personnel in the field.
Disclosure of Invention
In order to overcome the deficiency in the background art, the utility model discloses an energy-conserving roofing structure.
In order to realize the purpose, the utility model adopts the following technical scheme:
an energy-saving roof structure comprises a roof structure plate, wherein a leveling layer A, a slope finding layer, a leveling layer B, a heat preservation layer, a leveling layer C, a waterproof layer, an isolation layer and a protection layer are sequentially paved on an indoor structure plate from bottom to top, a plurality of rows of capillary water pipelines are paved in an indoor painting layer below the indoor structure plate, the protection layer is a C20 fine stone concrete layer with the thickness of 40mm, the leveling layer C is a C20 concrete layer with the thickness of 30mm, separation seams with the width of 10mm are arranged in the longitudinal direction and the transverse direction of the protection layer and the leveling layer C every 6m, and sealing materials are arranged in the separation seams; the slope finding layer is set to be 30mm thick, and LC5.0 lightweight aggregate concrete is arranged at the thinnest position of the slope finding layer.
The energy-saving roof structure is characterized in that the waterproof layer is arranged into an upper layer and a lower layer, and the waterproof layers are SBS modified asphalt waterproof rolls with the thickness of 3 mm.
In the energy-saving roof structure, the isolation layer is lime mortar with the thickness of 10 mm.
In the energy-saving roof structure, the leveling layer A and the leveling layer B are both cement mortar with the thickness of 20 mm.
Since the technical scheme is used, the utility model discloses following beneficial effect has:
the energy-saving roof structure has good heat insulation performance, and can effectively reduce and absorb heat produced by laying capillary water pipelines in a painting layer in a roof room, produce hot water for life in summer, improve the body feeling comfort level of a human body, reduce the energy consumption of an air conditioner, enhance the body feeling comfort level of a top-layer resident, reduce the opening times and time of the air conditioner and realize the purpose of energy conservation; the isolation layer can eliminate adverse effects such as adhesive force, mechanical biting force, chemical reaction and the like between two adjacent materials; the utility model discloses simple structure, heat-proof quality are good, energy-conservation.
Drawings
Fig. 1 is a schematic structural diagram of the present invention;
in the figure: 1. a protective layer; 2. an isolation layer; 3. a waterproof layer; 4. leveling layer C; 5. a heat-insulating layer; 6. leveling layer B; 7. finding a slope layer; 8. leveling layer A; 9. a roof structure panel; 10. capillary water pipeline.
Detailed Description
The invention will be explained in more detail by the following examples, which disclose the invention and are intended to protect all technical improvements within the scope of the invention.
The energy-saving roof structure shown in the attached drawing 1 comprises a roof structure plate 9, wherein a leveling layer A8, a slope-finding layer 7, a leveling layer B6, a heat preservation layer 5, a leveling layer C4, a waterproof layer 3, an isolation layer 2 and a protection layer 1 are sequentially paved on the roof structure plate 9 from bottom to top, a plurality of rows of capillary water pipelines 10 are laid in an indoor painting layer below the roof structure plate 9, the protection layer 1 is a C20 fine stone concrete layer with the thickness of 40mm, the leveling layer C4 is a C20 concrete layer with the thickness of 30mm, separation seams with the width of 10mm are respectively arranged in the longitudinal direction and the transverse direction of the protection layer 1 and the leveling layer C4 at intervals of 6m, and sealing materials are respectively arranged in the separation seams; the slope layer 7 is set to be 30mm thick, and LC5.0 lightweight aggregate concrete is arranged at the thinnest part of the slope layer.
The energy-saving roof structure is characterized in that the waterproof layer 3 is arranged into an upper layer and a lower layer, and is a SBS modified asphalt waterproof coiled material with the thickness of 3 mm.
In the energy-saving roof structure, the isolation layer is lime mortar with the thickness of 10 mm.
In the energy-saving roof structure, the leveling layer A8 and the leveling layer B6 are cement mortar with the thickness of 20 mm.
Implement energy-conserving roofing structure, when laying, the supreme screed-coat A8, look for the slope layer 7, screed-coat B6, heat preservation 5, screed-coat C4, waterproof layer 3, isolation layer 2 and protective layer 1 of having laid in proper order down on the indoor structural slab 9, protective layer 1 is the tectonic layer that plays the guard action to waterproof layer 3, isolation layer 2 is the tectonic layer that eliminates adverse effects such as cohesive force, mechanical interlock, chemical reaction between two kinds of adjacent materials, the waterproof layer can separate water and not make water permeate to the building inside, look for the slope layer and fill out certain gentle slope according to the drainage direction that designs to go in the rainwater drainage system of building roofing with organized mediation of roofing rainwater; the indoor painting layer below the indoor structural plate 9 is internally provided with the multiple rows of capillary water pipelines 10, the waterproof layer 3 is made of SBS modified asphalt waterproof coiled materials which are arranged into an upper layer and a lower layer, the waterproof effect is good, the multiple rows of capillary water pipelines 10 can effectively reduce heat generated by laying of the absorption and release roof in summer and generate hot summer life hot water, the comfort level of human body feeling is improved, and the energy consumption of an air conditioner is reduced.
The part of the utility model not detailed is prior art.
The embodiments selected for the purpose of disclosing the invention, are presently considered to be suitable, it being understood, however, that the invention is intended to cover all variations and modifications of the embodiments, which fall within the scope of the concept and the utility model.
Claims (4)
1. The utility model provides an energy-conserving roofing structure, includes roofing structural slab, characterized by: the construction method comprises the following steps that a leveling layer A, a slope finding layer, a leveling layer B, a heat preservation layer, a leveling layer C, a waterproof layer, an isolation layer and a protective layer are sequentially paved on an indoor structural slab from bottom to top, a plurality of rows of capillary water pipelines are laid in an indoor painting layer below the indoor structural slab, the protective layer is a C20 fine stone concrete layer with the thickness of 40mm, the leveling layer C is a C20 concrete layer with the thickness of 30mm, the protective layer and the leveling layer C are provided with 10mm wide separation seams at intervals of 6m in the longitudinal direction and the transverse direction of the protective layer and the leveling layer C, and sealing materials are arranged in the separation seams; the slope finding layer is set to be 30mm thick, and LC5.0 lightweight aggregate concrete is arranged at the thinnest position of the slope finding layer.
2. The energy saving roofing structure of claim 1 wherein: the waterproof layer is arranged into an upper layer and a lower layer which are both SBS modified asphalt waterproof coiled materials with the thickness of 3 mm.
3. The energy saving roofing structure of claim 1 wherein: the isolation layer is lime mortar with the thickness of 10 mm.
4. The energy saving roofing structure of claim 1 wherein: the leveling layer A and the leveling layer B are both cement mortar with the thickness of 20 mm.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202021712574.9U CN213654013U (en) | 2020-08-17 | 2020-08-17 | Energy-saving roof structure |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202021712574.9U CN213654013U (en) | 2020-08-17 | 2020-08-17 | Energy-saving roof structure |
Publications (1)
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CN213654013U true CN213654013U (en) | 2021-07-09 |
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CN202021712574.9U Active CN213654013U (en) | 2020-08-17 | 2020-08-17 | Energy-saving roof structure |
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2020
- 2020-08-17 CN CN202021712574.9U patent/CN213654013U/en active Active
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