CN115198879A

CN115198879A - Energy-saving building structure capable of reducing building energy consumption

Info

Publication number: CN115198879A
Application number: CN202210872683.4A
Authority: CN
Inventors: 徐姗姗
Original assignee: Shandong Architectural Design and Research Institute Co Ltd
Current assignee: Shandong Architectural Design and Research Institute Co Ltd
Priority date: 2022-07-24
Filing date: 2022-07-24
Publication date: 2022-10-18

Abstract

The invention relates to the technical field of building energy conservation, in particular to an energy-saving building structure for reducing building energy consumption, which comprises an outer wall, a partition wall and a floor slab, wherein a multi-layer building is constructed; the outer side of the outer wall is provided with a heat insulation layer, the heat insulation layer comprises a water plate, the water plate is connected with the transverse reinforcing ribs, the water plate comprises a closed containing cavity arranged in a plate-shaped shell, water is filled in the containing cavity, and anti-freezing liquid is also added in the water plate; the heat insulation layer comprises a plurality of water plates which are arranged in an array manner, and each row of water plates corresponds to one layer of the multi-layer building; a steel wire mesh is arranged on the outer side of the heat insulation layer; the holding cavity is provided with a water receiving pipe which is communicated with a pipeline in the building with the corresponding number of layers. The invention has simple installation process, high installation efficiency, low cost, suitability for popularization and environmental protection.

Description

Energy-saving building structure capable of reducing building energy consumption

Technical Field

The invention relates to the technical field of building energy conservation, in particular to an energy-saving building structure for reducing building energy consumption.

Background

The existing energy-saving buildings generally comprise ultra-low energy buildings and photovoltaic buildings.

The building with ultra-low energy consumption can save energy, and the most important influencing factor is the air tightness and the heat preservation of the building. The ultra-low energy consumption building needs to adapt to the technical index which needs to be more refined in local climate; the quality requirements on the heat insulation materials of the enclosure wall, doors and windows, fresh air equipment and accessories at the construction position of detail nodes are very high; rigorous construction technology and high-standard construction requirements are required to ensure the construction quality of each subsection project; the construction cost of the ultra-low energy consumption building is increased due to the fact that the ultra-low energy consumption building is subjected to comprehensive requirements from building external protective structure, integral air tightness, non-heat bridge fine construction and efficient fresh air heat exchange equipment, currently, government subsidies are relied on to balance the construction cost, however, policies have mandatory requirements on the occupied area of the passive ultra-low energy consumption building, the initial construction cost pressure is still one of important reasons for hindering popularization of the passive ultra-low energy consumption building, and the follow-up process still depends on the vigorous support and guidance of national policies.

At present, photovoltaic components such as photovoltaic tiles are adopted in a photovoltaic building, solar energy is converted into electric energy, new energy is converted to offset building energy consumption, and therefore the effect of reducing the building energy consumption is achieved.

However, no matter the building with ultra-low energy consumption or the photovoltaic building, the cost is too high, and the actual popularization is not facilitated. In order to develop a low-carbon building structure system and reduce building energy consumption, a building energy-saving structure needs to be further optimized, and building energy-saving cost is reduced.

Disclosure of Invention

In order to solve the technical problems, the invention provides an energy-saving building structure for reducing building energy consumption.

In order to achieve the purpose, the invention adopts the following technical scheme:

an energy-saving building structure for reducing building energy consumption comprises a building frame, wherein the building frame comprises an outer wall, partition walls and a floor slab to construct a multi-layer building, vertical reinforcing ribs are arranged in the outer wall and the partition walls, the floor slab is provided with transverse reinforcing ribs, and the vertical reinforcing ribs and the transverse reinforcing ribs are connected with each other; the outer side of the outer wall is provided with a heat insulation layer, the heat insulation layer comprises a water plate, the water plate is connected with the transverse reinforcing ribs, the water plate comprises a plate-shaped shell, a closed accommodating cavity is formed in the plate-shaped shell, water is filled in the accommodating cavity, and anti-freezing solution is also added into the water in the water plate; the heat insulation layer comprises a plurality of water plates which are arranged in an array manner, and each row of water plates corresponds to one layer of the multi-layer building; a steel wire mesh is arranged on the outer side of the heat insulation layer; the holding cavity is provided with a water receiving pipe which is communicated with a pipeline in the building with the corresponding number of layers.

Further, the water plate is provided with a mounting hole, and the mounting hole is matched with the transverse reinforcing rib hole shaft.

Further, horizontal strengthening rib tip is provided with threaded connection portion, threaded connection portion connects its screw thread through screw-thread fit connection protective sheath.

Furthermore, the mounting hole is a counter bore, the counter bore is used for being matched with a fixing nut, and the fixing nut is in threaded connection with the transverse reinforcing rib.

Further, a gasket is fitted in the counter bore.

Further, the gasket comprises a gasket main body, a first-level gasket and a second-level gasket are arranged on the gasket main body, the first-level gasket is matched in the counter bore, and the second-level gasket is matched on the surface of the water plate outside the counter bore.

Further, the water plate top all is provided with the card post, and the bottom is provided with the draw-in groove that corresponds with the card post, adjacent two lines water plate plug-in connection.

Furthermore, the bottom of the accommodating cavity corresponding to the clamping groove is provided with a reinforcing block.

Furthermore, a water plate at the position of the water receiving pipe is provided with a matching groove for accommodating a connector of the water receiving pipe; the building outer wall is provided with a through hole matched with the water receiving pipe for connection.

Further, the steel wire mesh is fixed through fixing nuts, and a facing layer is arranged on the outer side of the steel wire mesh.

Has the advantages that: the heat insulation layer is arranged as the water plate, water is arranged in the water plate, and as the specific heat capacity of the water is far greater than that of other material materials, more heat energy can be contained so as to inhibit temperature change, so that the heat insulation layer can bring heat insulation effects of being warm in winter and cool in summer, and is beneficial to reducing building energy consumption;

the invention adopts layered water plates, each layer of water plate corresponds to each layer of building, the water receiving pipe is correspondingly connected with the corresponding layer of building, the water can be added by utilizing the pipeline of the building, and the water can be added after the installation is finished, thereby reducing the weight of the water plates during construction, reducing the construction difficulty and improving the construction efficiency;

each row of water plates are suspended through corresponding transverse reinforcing ribs, the end parts of the transverse reinforcing ribs are provided with threaded connecting parts and are fixed by matching with fixing nuts, and two adjacent rows of water plates are in splicing fit and are in covering connection with steel wire meshes in an auxiliary mode, so that the connection is stable;

the invention has simple installation process, high installation efficiency and low cost, and is suitable for popularization; can be disassembled, can be repeatedly used, can be recycled, and is green and environment-friendly.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of an assembly structure of the water plate;

FIG. 3 is a schematic view of a gasket;

in the figure, the outer wall 1, the floor 2, the partition wall 3, the water board 4, the water receiving pipe 41, the cooperation groove 411, the card post 42, the draw-in groove 421, the boss 422 holds the chamber 43, the mounting hole 44, the wire net 5, the finish coat 6, the vertical reinforcing rib 7, the horizontal reinforcing rib 8, the gasket 81, the first-level gasket 811, the second-level gasket 812, the fixation nut 82, the protective sheath 83.

Detailed Description

The invention is further described below with reference to specific embodiments and the accompanying drawings.

Fig. 1 to 3 show an energy-saving building structure for reducing building energy consumption, which includes a building frame, wherein the building frame includes an outer wall 1, a partition wall 3 and a floor slab 2 to construct a multi-story building, vertical reinforcing ribs 7 are arranged in the outer wall 1 and the partition wall 3, the floor slab 2 is provided with transverse reinforcing ribs 8, and the vertical reinforcing ribs 7 and the transverse reinforcing ribs 8 are connected with each other; the outer side of the outer wall 1 is provided with a heat insulation layer, the heat insulation layer comprises a water plate 4, the water plate 4 is connected with transverse reinforcing ribs 8, the water plate 4 comprises a plate-shaped shell, a closed containing cavity 43 is formed in the plate-shaped shell, water is filled in the containing cavity 43, and anti-freezing liquid is also added to the water in the water plate 4; the heat insulation layer comprises a plurality of water plates 4 which are arranged in an array, and each row of water plates 4 corresponds to one layer of the multi-layer building; a steel wire mesh 5 is arranged on the outer side of the heat insulation layer; the accommodating cavity 43 is provided with a water receiving pipe 41, and the water receiving pipe 41 is communicated with pipelines in the buildings with the corresponding number of floors.

The water plate 4 is provided with mounting hole 44, mounting hole 44 and the 8 hole axle cooperations of horizontal strengthening rib, the plate-shaped casing thickening of mounting hole 44 department, increase strength makes it can bear stronger power, improves connection stability.

The end parts of the transverse reinforcing ribs 8 are provided with threaded connecting parts, and the threaded connecting parts are connected with a protective sleeve 83 in a threaded matching manner to protect the threads of the threaded connecting parts; avoiding damaging the thread in the construction process.

The mounting holes 44 are counter bores which are used for being matched with the fixing nuts 82, the finishing layer 6 is favorably smeared, the appearance is favorably beautified, and the fixing nuts 82 are in threaded connection with the transverse reinforcing ribs 8.

A gasket 81 is matched in the counter bore; the gasket 81 comprises a gasket main body, a first-level gasket 811 and a second-level gasket are arranged on the gasket main body, the first-level gasket 811 is matched in the counter bore, the second-level gasket 812 is matched on the surface of the water plate 4 outside the counter bore, and the two-level gasket 81 provides balance of two-level force for the water plate 4, so that connection stability is facilitated.

4 tops of water board all are provided with card post 42, and the bottom is provided with the draw-in groove 421 that corresponds with card post 42, adjacent two lines 4 plug-in connection of water board.

The bottom of the accommodating cavity 43 corresponding to the clamping groove 421 is provided with a reinforcing block 422, or the bottom is thickened, so that the strength of the accommodating cavity is improved.

The water plate 4 at the water receiving pipe 41 is provided with a matching groove 411 for accommodating the interface of the water receiving pipe 41, and when two water plates 4 are spliced, the water passing in the water receiving pipe 41 is not influenced; the building outer wall 1 is provided with a through hole matched with the water receiving pipe 41 for connection, and the water receiving pipe 41 penetrates through the through hole and is connected with an indoor water pipe so as to be convenient for adding water.

The steel wire mesh 5 is fixed through a fixing nut 82, and a finishing layer 6 is arranged on the outer side of the steel wire mesh 5.

The heat insulation layer is arranged as the water plate 4, water is arranged in the water plate 4, and as the specific heat capacity of the water is far greater than that of other material materials, more heat energy can be contained so as to inhibit temperature change, so that the heat insulation effect of warm in winter and cool in summer can be brought, and the building energy consumption can be reduced;

the invention adopts the layered water plates 4, each layer of water plate 4 corresponds to each layer of building, the water receiving pipe 41 is correspondingly connected into the corresponding layer of building, the pipeline of the building can be used for adding water, and water can be added after the installation is finished, so that the weight of the water plates 4 during construction is reduced, the construction difficulty is reduced, and the construction efficiency is improved;

each row of water plates 4 is suspended through the corresponding transverse reinforcing ribs 8, the end parts of the transverse reinforcing ribs 8 are provided with threaded connecting parts and are fixed by matching with fixing nuts 82, and the adjacent two rows of water plates 4 are in splicing fit and are covered and connected by the steel wire meshes 5, so that the connection is stable;

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims

1. An energy-saving building structure capable of reducing building energy consumption comprises a building frame, wherein the building frame comprises an outer wall, partition walls and a floor slab to construct a multi-layer building; the outer side of the outer wall is provided with a heat insulation layer, the heat insulation layer comprises a water plate, the water plate is connected with the transverse reinforcing ribs, the water plate comprises a plate-shaped shell, a closed containing cavity is formed in the plate-shaped shell, water is filled in the containing cavity, and anti-freezing liquid is also added into the water in the water plate; the heat insulation layer comprises a plurality of water plates which are arranged in an array manner, and each row of water plates corresponds to one layer of the multi-layer building; a steel wire mesh is arranged on the outer side of the heat insulation layer; the holding cavity is provided with a water receiving pipe which is communicated with a pipeline in the building with the corresponding number of layers.

2. An energy saving building structure according to claim 1, wherein said water board is provided with mounting holes, said mounting holes are axially engaged with the transverse reinforcing rib holes.

3. An energy saving building structure according to claim 1, wherein the ends of the transverse reinforcement bars are provided with threaded connection portions, and the threaded connection portions are connected with a protective sheath by threaded engagement to protect the threads.

4. An energy saving building structure according to claim 3, wherein said mounting holes are provided as counter bores for engaging with fixing nuts, said fixing nuts being threadedly connected with the transverse reinforcing ribs.

5. An energy saving building structure according to claim 4 wherein the counterbore has a spacer fitted therein.

6. An energy saving building structure for reducing building energy consumption as claimed in claim 5, wherein the gasket comprises a gasket body, the gasket body is provided with a primary gasket and a secondary gasket, the primary gasket is fitted in the counter bore, and the secondary gasket is fitted on the surface of the water plate outside the counter bore.

7. The energy-saving building structure for reducing building energy consumption according to claim 1, wherein the top ends of the water boards are provided with clamping columns, the bottom ends of the water boards are provided with clamping grooves corresponding to the clamping columns, and two adjacent rows of the water boards are connected in an inserting manner.

8. An energy-saving building structure for reducing energy consumption of buildings according to claim 7, wherein the bottom of the containing cavity corresponding to the clamping groove is provided with a reinforcing block.

9. The energy-saving building structure for reducing building energy consumption according to claim 1, wherein the water plate at the water receiving pipe is provided with a matching groove for accommodating the interface of the water receiving pipe; the building outer wall is provided with a through hole connected with the water receiving pipe in a matched mode.

10. An energy-saving building structure as claimed in claim 3, wherein the steel wire mesh is fixed by a fixing nut, and a finishing layer is provided outside the steel wire mesh.