CN213448981U - Anti-seismic wall structure of green energy-saving building - Google Patents

Anti-seismic wall structure of green energy-saving building Download PDF

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Publication number
CN213448981U
CN213448981U CN202022144605.1U CN202022144605U CN213448981U CN 213448981 U CN213448981 U CN 213448981U CN 202022144605 U CN202022144605 U CN 202022144605U CN 213448981 U CN213448981 U CN 213448981U
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China
Prior art keywords
embedded
prefabricated
green energy
adjacent
wall structure
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Expired - Fee Related
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CN202022144605.1U
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Chinese (zh)
Inventor
黄世前
黄佳明
黄伟鹏
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Fujian Lihong Construction Engineering Co ltd
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Fujian Lihong Construction Engineering Co ltd
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Priority to CN202022144605.1U priority Critical patent/CN213448981U/en
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Abstract

The application relates to an anti-seismic wall structure of a green energy-saving building, which comprises a plurality of prefabricated wallboards; a plurality of embedded blocks are arranged on two sides of the prefabricated wall board, and a gap for embedding the embedded blocks is reserved between every two adjacent embedded blocks; one side of the embedded block facing the bottom of the prefabricated wall body is provided with an accommodating groove; a limiting block is embedded in the accommodating groove; the embedded block is provided with a movable cover which is opened and closed at the notch of the accommodating groove; one side of the embedded block, which is back to the accommodating groove, is provided with a limiting groove for the limiting block to be partially embedded in; when the inserted blocks are inserted into the gaps between two adjacent inserted blocks, the movable cover is opened. This application has the effect that improves assembled wall body shock resistance.

Description

Anti-seismic wall structure of green energy-saving building
Technical Field
The application relates to the field of building structures, in particular to an anti-seismic wall structure of a green energy-saving building.
Background
The green building saves resources to the maximum extent in the whole life cycle of the building, and comprises the functions of saving energy, land, water, materials and the like, protecting the environment, reducing pollution and providing healthy, comfortable and efficient use space for people.
The assembly type building is one of green buildings, has the advantages of short construction period, high factory degree and the like, is popular among people all the time, but the assembly connection between the assembly type walls often causes the problems of deformation, cracks and the like at the connection position due to the fact that the connection is not firm enough, and the earthquake resistance of the assembled walls is poor.
SUMMERY OF THE UTILITY MODEL
In order to improve the shock resistance of the assembled wall, the application provides a shock-resistant wall structure of a green energy-saving building.
The application provides a green energy-saving building's antidetonation wall structure adopts following technical scheme:
an earthquake-resistant wall structure of a green energy-saving building comprises a plurality of prefabricated wallboards; a plurality of embedded blocks are arranged on two sides of the prefabricated wall board, and a gap for embedding the embedded blocks is reserved between every two adjacent embedded blocks; one side of the embedded block facing the bottom of the prefabricated wall body is provided with an accommodating groove; a limiting block is embedded in the accommodating groove; the embedded block is provided with a movable cover which is opened and closed at the notch of the accommodating groove; one side of the embedded block, which is back to the accommodating groove, is provided with a limiting groove for the limiting block to be partially embedded in; when the inserted blocks are inserted into the gaps between two adjacent inserted blocks, the movable cover is opened.
Through adopting above-mentioned technical scheme, when installing prefabricated wallboard, earlier be fixed in ground or floor with a prefabricated wallboard, take a new prefabricated wallboard again, aim at the abaculus on the new prefabricated wallboard and fix in the clearance between two adjacent abaculus of the prefabricated wallboard of ground or floor and imbed wherein, the in-process that two prefabricated wallboards combined together, the movable cover is opened, after the abaculus imbeds the clearance between two adjacent abaculus completely, the stopper part drops to the spacing inslot from the holding groove, accomplish the combination of two prefabricated wallboards, through the cooperation of stopper and spacing groove, compare in traditional bolted connection mode on the one hand, it is faster and firm, anti-seismic performance is good, on the other hand reduces workman's intensity of labour, simultaneously resources are saved reduces construction cost.
Optionally, the insert block is provided with a slide rail for sliding connection of the movable cover; the movable cover portion protrudes from the surface of the insert.
Through adopting above-mentioned technical scheme, when the clearance of two adjacent abaculus of abaculus embedding, abaculus and movable cover butt, after the clearance between two adjacent abaculus of abaculus embedding completely, the movable cover is opened completely, accomplishes the stopper part and drops to the spacing inslot from holding the groove, through the movable cover of being connected with the slide rail slides, make things convenient for the installation of construction site when being convenient for make.
Optionally, the placing grooves for accommodating the movable covers are formed in both sides of the prefabricated wall boards.
Through adopting above-mentioned technical scheme, the introduction of standing groove for laminating degree is higher between the prefabricated wallboard, reduces the gap, saves construction cycle.
Optionally, a decorative panel is installed on the surface of the prefabricated wall panel; and a heat insulation layer is arranged between the prefabricated wall panel and the decoration panel.
Through adopting above-mentioned technical scheme, on the one hand, the decorative panel improves the decorative property of prefabricated wallboard, and it is long when practicing thrift the later stage to the decoration of prefabricated wallboard, and on the other hand, the introduction of thermal insulation layer for whole wall body compromises the effect of thermal insulation performance, thereby provides healthy, suitable usage space for people, realizes the high quality building of harmonious intergrowth of people and nature furthest.
Optionally, one side of the prefabricated wall panel facing the heat insulation layer is movably connected with a plurality of decorative strips; the decorative strip is provided with a plurality of threaded holes I; a bolt is connected with the inner thread of the threaded hole I; the decoration panel is provided with a plurality of threaded holes II which correspond to the threaded holes I one to one.
Through adopting above-mentioned technical scheme, compare in the mutual adhesive mode of decoration panel, insulating layer and prefabricated wallboard three, through ornamental strip and bolt, the three is more firm fixedly, when prefabricated wallboard receives vibrations, effectively reduces the risk that heat preservation and decoration panel break away from prefabricated wallboard.
Optionally, the decorative strip is provided with a plurality of connecting pieces; the connecting piece connects and fixes the decorative strips on two adjacent prefabricated wall boards.
Through adopting above-mentioned technical scheme, the introduction of connecting piece further improves the joint strength of two adjacent prefabricated wallboards, and then improves the anti-seismic performance of prefabricated wallboard assembly back wall body.
Optionally, the connecting piece is provided with two clamping grooves; and the two clamping grooves are respectively embedded in the bolts of the decorative strips on the two adjacent prefabricated wallboards.
Through adopting above-mentioned technical scheme, after the prefabricated wallboard of two adjacent blocks combined together, the bolt of ornamental strip is loosened soon, with two draw-in grooves scarf joint corresponding bolt on two adjacent prefabricated wallboards respectively, the bolt of screwing again, the connecting piece is fixed with the ornamental strip completion, and then is connected two adjacent prefabricated wallboards, in the time of the operation of being convenient for, the anti-seismic performance of wall body after the prefabricated wallboard assembly is further improved through the connected mode of connecting piece and bolt.
Optionally, the decorative strip and the prefabricated wall panel are hinged to each other.
Through adopting above-mentioned technical scheme, compare in the mode of scarf joint or the connection that slides, when being convenient for install heat preservation and decoration panel, at the in-process of the bolt of screwing, the ornamental strip can swing in certain extent, reduces the ornamental strip and screws the risk of bolt back stress concentration in ornamental strip and prefabricated wallboard junction.
In summary, the present application includes at least one of the following beneficial technical effects:
1. through the limiting blocks and the limiting grooves, on one hand, compared with a traditional bolt connection or bonding mode, the connection of two adjacent prefabricated wall boards is faster and firmer, the anti-seismic performance is good, on the other hand, the labor intensity of workers is reduced, resources are saved, and the construction cost is reduced;
2. through the decoration panel and the heat insulation layer, on one hand, the decoration panel improves the decoration performance of the prefabricated wall panel and saves the decoration time of the prefabricated wall panel in the later period, and on the other hand, the introduction of the heat insulation layer enables the whole wall body to take account of the effect of the heat insulation performance, thereby providing a healthy and applicable use space for people and maximally realizing the harmonious symbiotic high-quality building of people and nature;
3. through connecting piece and bolt, further improve the joint strength of two adjacent prefabricated wallboards, and then improve the anti-seismic performance of prefabricated wallboard assembly back wall body.
Drawings
Fig. 1 is a schematic overall structure diagram of an embodiment of the present application.
Fig. 2 is a schematic structural view of a decorative strip in an embodiment of the application.
Fig. 3 is a schematic structural diagram of a connector according to an embodiment of the present application.
Description of reference numerals: 1. prefabricating a wallboard; 11. a placement groove; 2. an insert block; 21. accommodating grooves; 22. a slide rail; 23. a limiting groove; 3. a limiting block; 4. a movable cover; 5. a decorative panel; 51. a threaded hole II; 6. a heat insulation layer; 7. decorating strips; 71. a threaded hole I; 72. a bolt; 8. a connecting member; 81. a clamping groove.
Detailed Description
The present application is described in further detail below with reference to figures 1-3.
The embodiment of the application discloses earthquake-resistant wall structure of green energy-saving building. Referring to fig. 1, an anti-seismic wall structure of green energy-saving building includes a plurality of prefabricated wallboard 1, and the both sides of prefabricated wallboard 1 are fixed with a plurality of abaculus 2, and adjacent two leave the clearance that supplies abaculus 2 to imbed between abaculus 2. One side of the insert 2 facing the bottom of the prefabricated wall body is provided with a containing groove 21 and a slide rail 22. Spacing block 3 has been embedded to have in holding tank 21. The slide rail 22 is connected with a movable cover 4 which is opened and closed at the notch of the accommodating groove 21 in a sliding way, and part of the movable cover 4 protrudes out of the surface of the insert block 2. The standing groove 11 that holds movable cover 4 is all seted up to the both sides of prefabricated wallboard 1, and slide rail 22 communicates in standing groove 11. One side of the embedded block 2, which is back to the accommodating groove 21, is provided with a limiting groove 23 for partially embedding the limiting block 3. The connecting angle of two adjacent prefabricated wall panels 1 can be 180 degrees or 90 degrees. When needing to be connected two prefabricated wallboard 1, the clearance of two adjacent abaculus 2 of abaculus 2 embedding, abaculus 2 and the 4 butt of movable cover, after the clearance between two adjacent abaculus 2 of abaculus 2 embedding completely, movable cover 4 is opened completely and is accomodate to standing groove 11 in, stopper 3 part is from accomodating groove 21 and drop to spacing groove 23 in, accomplishes two prefabricated wallboard 1's combination.
Referring to fig. 2, in order to provide a healthy, applicable use space. The biggest one side of prefabricated wallboard 1 surface area is provided with decoration panel 5 and thermal insulation layer 6, and thermal insulation layer 6 is located between prefabricated wallboard 1 and decoration panel 5. One side of the prefabricated wall panel 1 facing the heat insulation layer 6 is hinged with four decorative strips 7 for fixing the decorative panel 5. Four decorative strips 7 are respectively positioned around the decorative panel 5. The decoration strip 7 is provided with a plurality of threaded holes I71, and the threaded holes I71 are internally connected with bolts 72 in a threaded mode. The decorative panel 5 is provided with a plurality of threaded holes II 51 which correspond to the threaded holes I71 one by one. When installing thermal insulation layer 6 and decoration panel 5, earlier with four ornamental strip 7 upsets, lay thermal insulation layer 6 and decoration panel 5 in proper order on prefabricated wallboard 1's surface again, upset ornamental strip 7 afterwards, screw bolt 72 and make bolt 72 screw in screw hole II 51 in, accomplish decoration panel 5, thermal insulation layer 6 and prefabricated wallboard 1 three's fixed.
Referring to fig. 3, in order to further improve the joint strength of two adjacent prefabricated wall panels 1. The decorating strip 7 is provided with two connecting pieces 8 used for connecting bolts 72 on two adjacent prefabricated wall boards 1, wherein one connecting piece 8 is used when the connecting angle of the two prefabricated wall boards 1 is 180 degrees, and the other connecting piece 8 is used when the connecting angle of the two prefabricated wall boards 1 is 90 degrees. The connecting piece 8 is a strip-shaped iron sheet. Two clamping grooves 81 are formed in the connecting piece 8, and the two connecting pieces 8 are different in bending angle between the two clamping grooves 81. Two draw-in grooves 81 are rabbeted respectively in the bolt 72 of ornamental strip 7 on two adjacent prefabricated wallboard 1, and the bolt 72 screw in screw hole II 51 (refer to fig. 2) of unscrewing again accomplishes being connected of connecting piece 8 and two prefabricated wallboard 1, further improves the joint strength of two adjacent prefabricated wallboard 1 to improve the anti-seismic performance of prefabricated wallboard 1 assembly back wall body.
The implementation principle of the earthquake-resistant wall structure of the green energy-saving building is as follows: the decoration panel 5, the heat insulation layer 6 and the prefabricated wall panel 1 are integrally assembled in a factory. When the prefabricated wallboard 1 is installed, a prefabricated wallboard 1 is fixed on the ground or the floor, a new prefabricated wallboard 1 is taken, the embedded blocks 2 on the new prefabricated wallboard 1 are aligned to the gaps between two adjacent embedded blocks 2 of the prefabricated wallboard 1 fixed on the ground or the floor and are embedded into the gaps, and the connection angle of the two prefabricated wallboards 1 can be 180 degrees and can also be 90 degrees.
When the installation angle of two prefabricated wall panels 1 is 180 degrees, the two prefabricated wall panels 1 are moved to enable the embedded blocks 2 to be combined with the gaps between the two adjacent embedded blocks 2, after the embedded blocks 2 are completely embedded into the gaps between the two adjacent embedded blocks 2, the limiting blocks 3 partially fall into the limiting grooves 23 from the accommodating grooves 21, the bolts 72 on the decorating strips 7 which are closest to each other on the two adjacent prefabricated wall panels 1 are loosened, the corresponding connecting pieces 8 are selected, the two clamping grooves 81 of the connecting pieces 8 are respectively embedded into the bolts 72 on the adjacent decorating strips 7 and the bolts 72 are screwed, and the combination of the two prefabricated wall panels 1 with the installation angle of 180 degrees is completed.
When two prefabricated wall panels 1 with an angle of 90 degrees are installed, a part of the movable cover 4 on a new prefabricated wall panel 1 to be combined with the prefabricated wall panel 1 fixed on the ground or floor is opened, so that the embedded blocks 2 are partially embedded into the gaps between two adjacent embedded blocks 2, the new prefabricated wall board 1 is moved to enable the embedded blocks 2 on the new prefabricated wall board 1 to be attached to the prefabricated wall board 1 fixed on the ground or the floor, the new prefabricated wall board 1 is moved to enable the embedded blocks 2 of the prefabricated wall board 1 fixed on the ground or the floor to be attached to the new prefabricated wall board 1, the limiting blocks 3 are partially dropped into the limiting grooves 23 from the accommodating grooves 21, the bolts 72 on the decorative strips 7 closest to the two adjacent prefabricated wall boards 1 are unscrewed, the corresponding connecting pieces 8 are selected, the two clamping grooves 81 of the connecting pieces 8 are respectively embedded into the bolts 72 on the adjacent decorative strips 7 and the bolts 72 are screwed, and the combination of the two prefabricated wall boards 1 with the installation angle of 90 degrees is completed.
The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides an antidetonation wall structure of green energy-conserving building which characterized in that: comprises a plurality of prefabricated wall boards (1); a plurality of embedded blocks (2) are arranged on two sides of the prefabricated wall board (1), and a gap for embedding the embedded blocks (2) is reserved between every two adjacent embedded blocks (2); one side of the embedded block (2) facing the bottom of the prefabricated wall body is provided with an accommodating groove (21); a limiting block (3) is embedded in the accommodating groove (21); the embedded block (2) is provided with a movable cover (4) which is opened and closed at the notch of the accommodating groove (21); a limiting groove (23) for partially embedding the limiting block (3) is formed in one side, back to the accommodating groove (21), of the embedded block (2); when the two adjacent embedded blocks (2) are embedded into the gap between the two adjacent embedded blocks (2), the movable cover (4) is opened.
2. An earthquake-resistant wall structure of green energy-saving buildings according to claim 1, characterized in that: the embedded block (2) is provided with a slide rail (22) for the sliding connection of the movable cover (4); the movable cover (4) partially protrudes out of the surface of the embedded block (2).
3. An earthquake-resistant wall structure of green energy-saving buildings according to claim 2, characterized in that: the both sides of prefabricated wallboard (1) all set up standing groove (11) that hold movable cover (4).
4. An earthquake-resistant wall structure of green energy-saving buildings according to claim 1, characterized in that: a decorative panel (5) is arranged on the surface of the prefabricated wall panel (1); and a heat insulation layer (6) is arranged between the prefabricated wall board (1) and the decorative panel (5).
5. An earthquake-resistant wall structure of green energy-saving buildings according to claim 4, characterized in that: one side of the prefabricated wall board (1) facing the heat insulation layer (6) is movably connected with a plurality of decorative strips (7); the decorative strip (7) is provided with a plurality of threaded holes I (71); a bolt (72) is connected with the inner thread of the threaded hole I (71); and the decorative panel (5) is provided with a plurality of threaded holes II (51) which correspond to the threaded holes I (71) one by one.
6. An earthquake-resistant wall structure of green energy-saving buildings according to claim 5, characterized in that: the decorative strip (7) is provided with a plurality of connecting pieces (8); the connecting piece (8) is used for connecting and fixing the decorative strips (7) on the two adjacent prefabricated wall boards (1).
7. An earthquake-resistant wall structure of green energy-saving buildings according to claim 6, characterized in that: the connecting piece (8) is provided with two clamping grooves (81); and the two clamping grooves (81) are respectively embedded in the bolts (72) of the decorative strips (7) on the two adjacent prefabricated wall boards (1).
8. An earthquake-resistant wall structure of green energy-saving buildings according to claim 5, characterized in that: the decorative strips (7) are hinged with the prefabricated wall board (1).
CN202022144605.1U 2020-09-25 2020-09-25 Anti-seismic wall structure of green energy-saving building Expired - Fee Related CN213448981U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202022144605.1U CN213448981U (en) 2020-09-25 2020-09-25 Anti-seismic wall structure of green energy-saving building

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Application Number Priority Date Filing Date Title
CN202022144605.1U CN213448981U (en) 2020-09-25 2020-09-25 Anti-seismic wall structure of green energy-saving building

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Publication Number Publication Date
CN213448981U true CN213448981U (en) 2021-06-15

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN115012605A (en) * 2022-06-30 2022-09-06 天邑昊建筑装饰工程有限公司 Heat-insulating energy-saving decoration system and construction method thereof

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN115012605A (en) * 2022-06-30 2022-09-06 天邑昊建筑装饰工程有限公司 Heat-insulating energy-saving decoration system and construction method thereof
CN115012605B (en) * 2022-06-30 2024-04-16 天邑昊建筑装饰工程有限公司 Heat-insulating energy-saving decoration system and construction method thereof

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Granted publication date: 20210615