CN203200957U - Anti-seismic self-insulation wall - Google Patents

Anti-seismic self-insulation wall Download PDF

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Publication number
CN203200957U
CN203200957U CN 201320219672 CN201320219672U CN203200957U CN 203200957 U CN203200957 U CN 203200957U CN 201320219672 CN201320219672 CN 201320219672 CN 201320219672 U CN201320219672 U CN 201320219672U CN 203200957 U CN203200957 U CN 203200957U
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space
filling
fixture block
vertical
built
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CN 201320219672
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Chinese (zh)
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许迪茗
何辉
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Sichuan Ouk Building Materials Science & Technology Co Ltd
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Sichuan Ouk Building Materials Science & Technology Co Ltd
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Abstract

The utility model relates to an anti-seismic self-insulation wall which has an advantage of being good in anti-seismic effect. The wall is formed by a plurality of building blocks in a connecting mode. Each building block is provided with four clamping blocks in sequence, and a connecting rib is arranged between the second clamping block and the third clamping block. The connecting rib forms a longitudinal material-filling pouring space between the second clamping block and the third clamping block. A clamping-connecting structure formed on the upper surface of the first clamping block and the upper surface of the second clamping block is matched with the clamping-connecting structure formed on the lower surface of the first clamping block and the lower surface of the second clamping block. The clamping-connecting structure formed on the upper surface of the third clamping block and the upper surface of the fourth clamping block is matched with the clamping-connecting structure formed on the lower surface of the third clamping block and the lower surface of the fourth clamping block. The upper surface or/and the lower surface of the connecting rib between the second clamping block and the third clamping block are grooves concaved internally toward a brick body. A transverse material-filling pouring space is formed between the hollow space formed by the butted clamping-connecting structures of the upper building block and the lower building block. Transverse steel bars are transversely arranged in the transverse material-filling pouring space, and longitudinal steel bars are longitudinally arranged in the longitudinal material-filling pouring space. The steel bars reinforce the stress strength of the wall in the transverse direction and the longitudinal direction. The anti-seismic self-insulation wall is capable of being manufactured on site, convenient to transport and wide in application scope.

Description

The antidetonation self heat insulation wall
Technical field
The utility model relates to the antidetonation body of wall, especially a kind of antidetonation self heat insulation wall.
Background technology
Along with the frequent occurrence of earthquake, people increase the shockproof requirements of body of wall, and existing antidetonation body of wall is generally when the concreting body of wall at the laid inside gauze wire cloth.Be subjected to horizontal shearing force when avoiding the body of wall earthquake.In order to reduce energy consumption, increase wall insulation performance, body of wall will increase insulating usually, and insulation layer is arranged on outside the steel screen layer.After but the body of wall of this structure needed monobloc cast to finish, integral body was transported to the job location again, and the body of wall volume is larger, difficult, and heat insulation effect is relatively poor, owing in the body of wall gauze wire cloth being set, the power that gauze wire cloth can bear is less, and anti seismic efficiency is poor.
The utility model content
Technical problem to be solved in the utility model is: provide a kind of anti seismic efficiency good antidetonation self heat insulation wall.
The technical scheme that its technical problem that solves the utility model adopts is: the antidetonation self heat insulation wall, described body of wall is connected to form by a plurality of building blocks, described building block has been disposed in order the first fixture block from the inside to the outside, the second fixture block, the 3rd fixture block and the 4th fixture block, between the second fixture block and the 3rd fixture block, be provided with dowel, the hollow space of described dowel between the second fixture block and the 3rd fixture block forms vertical material filling and builds the space, the first fixture block, interface arrangment and the first fixture block that the second fixture block upper surface forms, the interface arrangment that the second fixture block soffit forms is suitable, the 3rd fixture block, interface arrangment and the 3rd fixture block that the 4th fixture block upper surface forms, the interface arrangment that the 4th fixture block soffit forms is suitable; The upper surface of the dowel between the second fixture block and the 3rd fixture block is or/and soffit is the groove to brick body indent, the hollow space of the interface arrangment of building block docking forms horizontal material filling and builds the space up and down, horizontal material filling is built and is horizontally arranged with cross reinforcement in the space, and vertical material filling is built and is vertically arranged with longitudinal bar in the space.
The interface arrangment that the interface arrangment that the first fixture block of described building block, the second fixture block left-hand face form and the first fixture block, the second fixture block right lateral surface form is suitable, and the interface arrangment that the interface arrangment that the 3rd fixture block, the 4th fixture block left-hand face form and the 3rd fixture block, the 4th fixture block right lateral surface form is suitable; The hollow space of the interface arrangment docking of left and right sides building block forms vertical material filling and builds the docking space, and vertical material filling is built in the docking space and is vertically arranged with longitudinal bar.
The vertical material filling of described building block is built the space and is had four at least, comprises that the first vertical material filling builds space, the second vertical material filling and build that the space is built in space, the 3rd vertical material filling, the space is built in the 4th vertical material filling; The described first vertical material filling is built the space and is built the space with the second vertical material filling and all be positioned at the second fixture block medial surface, and the first vertical material filling is built space and second and indulged material filling and build the space positioned opposite; The 3rd vertical material filling is built the space and is built the space with the 4th vertical material filling and all be positioned at the 3rd fixture block medial surface, and the 3rd vertical material filling is built space and the 4th and indulged material filling and build the space positioned opposite.
The described first vertical material filling is built space, the second vertical material filling and is built space, the 3rd vertical material filling and build space, the 4th vertical material filling to build space size identical, and the first vertical material filling is built space, the second vertical material filling and built space and the 3rd vertical material filling and build space, the 4th and indulge material filling and build the space lateral alternate.
Described building block also is provided with the 5th vertical material filling and builds the space, it is adjacent that the described the 5th vertical material filling builds that the space is positioned at the building block middle part and the space is built with the first vertical material filling in a side, the space is built in the second vertical material filling, and relative another side and the 3rd is indulged material filling and built space, the 4th and indulge material filling to build the space adjacent.
The upper surface of described the second fixture block protrudes from the upper surface of the first fixture block, and the upper surface of the 3rd fixture block protrudes from the upper surface of the 4th fixture block; And the upper surface of the upper surface of the second fixture block, the 3rd fixture block and the upper surface of dowel form a concordant plane, and the soffit of the dowel between the second fixture block and the 3rd fixture block is the arc groove to brick body indent.
The beneficial effects of the utility model are: by being arranged on cross reinforcement and the longitudinal bar in the body of wall, wall body structure is simple, and reinforcing steel bar bear intensity is larger, cross reinforcement and longitudinal bar increased body of wall the transverse and longitudinal direction be subjected to force intensity, shock resistance is strong.And this body of wall carries out field fabrication according to the size requirements of body of wall after can building block and reinforcing bar etc. being transported to the construction plant first, has increased the practicality of body of wall.
Description of drawings
Fig. 1 is the top view of the first embodiment;
Fig. 2 is the left view of the first embodiment;
Fig. 3 is the top view of the second embodiment;
Fig. 4 is the left view of the second embodiment;
Fig. 5 is the top view of the building block of the first embodiment;
Fig. 6 is the left view of the building block of the first embodiment;
Fig. 7 is the top view of the building block of the second embodiment;
Fig. 8 is the left view of the building block of the second embodiment;
Mark among the figure: 1-building block, 11-the first fixture block, 12-the second fixture block, 13-the 3rd fixture block, 14-the 4th fixture block, 2-dowel, the space is built in the horizontal material filling of 31-, and docking space, 41-cross reinforcement are built in the vertical material filling of 32-, the 42-longitudinal bar, the space is built in 51-the first vertical material filling, and the space is built in 52-the second vertical material filling, and the space is built in 53-the 3rd vertical material filling, the space is built in 54-the 4th vertical material filling, and the space is built in 55-the 5th vertical material filling.
The specific embodiment
Below in conjunction with accompanying drawing the utility model is described further.
Such as Fig. 1,2,3, shown in 4, the antidetonation self heat insulation wall, described body of wall is connected to form by a plurality of building blocks 1, described building block 1 has been disposed in order the first fixture block 11 from the inside to the outside, the second fixture block 12, the 3rd fixture block 13 and the 4th fixture block 14, between the second fixture block 12 and the 3rd fixture block 13, be provided with dowel 2, the hollow space of described dowel 2 between the second fixture block 12 and the 3rd fixture block 13 forms vertical material filling and builds the space, the first fixture block 11, interface arrangment and the first fixture block 11 that the second fixture block 12 upper surfaces form, the interface arrangment that the second fixture block 12 soffits form is suitable, the 3rd fixture block 13, interface arrangment and the 3rd fixture block 13 that the 4th fixture block 14 upper surfaces form, the interface arrangment that the 4th fixture block 14 soffits form is suitable; The upper surface of the dowel 2 between the second fixture block 12 and the 3rd fixture block 13 is or/and soffit is the groove to brick body indent, the hollow space of the interface arrangment of building block 1 docking forms horizontal material filling and builds space 31 up and down, horizontal material filling is built and is horizontally arranged with cross reinforcement 41 in the space 31, and vertical material filling is built and is vertically arranged with longitudinal bar 42 in the space.
In the building block 1 from the inside to the outside of mentioning in the above-mentioned embodiment, wherein " interior " is inboard for the body of wall of wall connecting after being built into, and " outward " is the wall outer side of body of wall after being built into." upper surface " is the upper surface of building block 1 building block 1 when connecting into body of wall, and " soffit " is the soffit of building block 1 building block 1 when connecting into body of wall, and in the practical application, upper surface is two relative faces with soffit, and is interchangeable.By being arranged on cross reinforcement 41 and the longitudinal bar 42 in the body of wall, reinforcing steel bar bear intensity is larger, cross reinforcement 41 and longitudinal bar 42 increased body of wall the transverse and longitudinal direction be subjected to force intensity.The horizontal material filling of this body of wall is built space 31 and is built the space with vertical material filling and can require and requirement of strength according to insulation, and fill insulant material, concreting are perhaps filled heat-insulating granules and concrete mixture.This body of wall can be transported to building block 1 and reinforcing bar etc. first field fabrication behind the construction plant, pile up first lower row's building block 1, left and right sides interface arrangment between the building block 1 is linked to each other, select the number of building block 1 according to the area of body of wall needs, cross reinforcement 41 can be set at the upper surface of lower row's building block 1 also can after building block 1 is piled into whole body of wall, again space 31 be built in the horizontal material filling of cross reinforcement 41 insertions, pile up row's building block 1 in lower row's building block 1 again, building block 1 is built vertical longitudinal bar 42 that inserts in the space in vertical material filling after being piled into whole body of wall, build the space and space 31 interior filling heat-insulating granules and concrete mixtures are built in horizontal material filling in vertical material filling again, make itself and longitudinal bar 42 combinations, form the integral body of a firm anti-seismic heat-preservation.The cross reinforcement 41 of this body of wall stretches out afterwards with longitudinal bar 42 and is connected with beam column, makes body of wall and beam column form an integral body, increases the whole shock resistance in house.And the horizontal material filling of this body of wall is built space 31 and is built heat-insulating property and the intensity that body of wall all can be improved by filling heat-insulating granules and concrete mixture in the space with vertical material filling, avoided building space 31 in horizontal material filling and built the spatial interpolation warming plate with vertical material filling, save manpower, body of wall is firm.In order to increase the intensity of building block 1 dowel 2, avoid the stress of dowel 2 corners to concentrate, the dowel 2 formed turnings of building block 1 are fillet.
In the above-mentioned embodiment, in order further to increase the force intensity that is subjected to of body of wall, as preferred embodiment, shown in Fig. 1,3, the interface arrangment that the interface arrangment that the first fixture block 11 of described building block 1, the second fixture block 12 left-hand face form and the first fixture block 11, the second fixture block 12 right lateral surface form is suitable, and the interface arrangment that the interface arrangment that the 3rd fixture block 13, the 4th fixture block 14 left-hand face form and the 3rd fixture block 13, the 4th fixture block 14 right lateral surface form is suitable; The hollow space of the interface arrangment docking of left and right sides building block 1 forms vertical material filling and builds docking space 32, and vertical material filling is built in the docking space 32 and is vertically arranged with longitudinal bar 42.When in body of wall, filling heat-insulating granules and concrete mixture, fill simultaneously vertical material filling and build docking space 32.
A plurality of vertical material fillings are built the space and are formed multi-layer heat preserving at the thickness direction of building block 1, and the space reasonable Arrangement is built in a plurality of vertical material fillings, namely do not affect the heat insulation effect that building block 1 load bearing stength can increase again building block 1.So as preferred embodiment, as shown in Figure 5, described building block 1 vertical material filling is built the space and had four at least, comprise that the first vertical material filling builds space 51, the second vertical material filling and build that space 53 is built in space 52, the 3rd vertical material filling, space 54 is built in the 4th vertical material filling; The described first vertical material filling is built space 51 and is built space 52 with the second vertical material filling and all be positioned at the second fixture block 12 medial surfaces, and the first vertical material filling is built space 51 and second and indulged material filling and build space 52 positioned opposite; The 3rd vertical material filling is built space 53 and is built space 54 with the 4th vertical material filling and all be positioned at the 3rd fixture block 13 medial surfaces, and the 3rd vertical material filling is built space 53 and the 4th and indulged material filling and build space 54 positioned opposite.
The set-up mode of building the space according to the vertical material filling of above-mentioned embodiment can have various ways, build space 51 such as the first vertical material filling, space 52 is built in the second vertical material filling, space 53 is built in the 3rd vertical material filling, it is symmetrical that space 54 is built in the 4th vertical material filling, but this mode easily forms cold bridge on the thickness direction of building block 1, formation for fear of cold bridge, increase the heat-insulating property of body of wall, as preferred embodiment, such as Fig. 5, shown in 6, space 51 is built in the described first vertical material filling, space 52 is built in the second vertical material filling, space 53 is built in the 3rd vertical material filling, it is big or small identical that space 54 is built in the 4th vertical material filling, and space 51 is built in the first vertical material filling, space 52 is built in the second vertical material filling and space 53 is built in the 3rd vertical material filling, space 54 lateral alternates are built in the 4th vertical material filling.
As another above-mentioned embodiment, further increase the heat-insulating property of body of wall, shown in Fig. 7,8, described building block 1 also is provided with the 5th vertical material filling and builds space 55, it is adjacent that the described the 5th vertical material filling builds that space 55 is positioned at building block 1 middle part and space 51 is built with the first vertical material filling in a side, space 52 is built in the second vertical material filling, and relative another side and the 3rd is indulged material filling and built space 53, the 4th and indulge material filling to build space 54 adjacent.
In order to save packing material and to guarantee the body of wall load bearing stength, as preferred embodiment, shown in Fig. 6,8, the upper surface of described the second fixture block 12 protrudes from the upper surface of the first fixture block 11, and the upper surface of the 3rd fixture block 13 protrudes from the upper surface of the 4th fixture block 14; And the upper surface of the upper surface of the upper surface of the second fixture block 12, the 3rd fixture block 13 and dowel 2 forms a concordant plane, and the soffit of the dowel 2 between the second fixture block 12 and the 3rd fixture block 13 is the arc groove to brick body indent.

Claims (6)

1. antidetonation self heat insulation wall, it is characterized in that: described body of wall is connected to form by a plurality of building blocks (1), described building block (1) has been disposed in order the first fixture block (11) from the inside to the outside, the second fixture block (12), the 3rd fixture block (13) and the 4th fixture block (14), between the second fixture block (12) and the 3rd fixture block (13), be provided with dowel (2), the hollow space of described dowel (2) between the second fixture block (12) and the 3rd fixture block (13) forms vertical material filling and builds the space, the first fixture block (11), interface arrangment and the first fixture block (11) that the second fixture block (12) upper surface forms, the interface arrangment that the second fixture block (12) soffit forms is suitable, the 3rd fixture block (13), interface arrangment and the 3rd fixture block (13) that the 4th fixture block (14) upper surface forms, the interface arrangment that the 4th fixture block (14) soffit forms is suitable; The upper surface of the dowel (2) between the second fixture block (12) and the 3rd fixture block (13) is or/and soffit is the groove to brick body indent, the hollow space of the interface arrangment docking of up and down building block (1) forms horizontal material filling and builds space (31), horizontal material filling is built and is horizontally arranged with cross reinforcement (41) in the space (31), and vertical material filling is built and is vertically arranged with longitudinal bar (42) in the space.
2. antidetonation self heat insulation wall as claimed in claim 1, it is characterized in that: the interface arrangment that the interface arrangment that first fixture block (11) of described building block (1), the second fixture block (12) left-hand face form and the first fixture block (11), the second fixture block (12) right lateral surface form is suitable, and the interface arrangment that the interface arrangment that the 3rd fixture block (13), the 4th fixture block (14) left-hand face form and the 3rd fixture block (13), the 4th fixture block (14) right lateral surface form is suitable; The hollow space of the interface arrangment docking of left and right sides building block (1) forms vertical material filling and builds docking space (32), and vertical material filling is built in the docking space (32) and is vertically arranged with longitudinal bar (42).
3. antidetonation self heat insulation wall as claimed in claim 1, it is characterized in that: the vertical material filling of described building block (1) is built the space and is had four at least, comprises that the first vertical material filling builds space (51), the second vertical material filling and build that space (53) is built in space (52), the 3rd vertical material filling, space (54) is built in the 4th vertical material filling; The described first vertical material filling is built space (51) and is built space (52) with the second vertical material filling and all be positioned at the second fixture block (12) medial surface, and the first vertical material filling is built space (51) and built space (52) positioned opposite with the second vertical material filling; The 3rd vertical material filling is built space (53) and is built space (54) with the 4th vertical material filling and all be positioned at the 3rd fixture block (13) medial surface, and the 3rd vertical material filling is built space (53) and built space (54) positioned opposite with the 4th vertical material filling.
4. antidetonation self heat insulation wall as claimed in claim 3, it is characterized in that: the described first vertical material filling is built space (51), the second vertical material filling and is built space (52), the 3rd vertical material filling and build space (53), the 4th vertical material filling to build space (54) size identical, and the first vertical material filling is built space (51), the second vertical material filling and built that space (53) is built with the 3rd vertical material filling in space (52), space (54) lateral alternate is built in the 4th vertical material filling.
5. antidetonation self heat insulation wall as claimed in claim 3, it is characterized in that: described building block (1) also is provided with the 5th vertical material filling and builds space (55), it is adjacent that the described the 5th vertical material filling builds that space (55) is positioned at building block (1) middle part and space (51) is built with the first vertical material filling in a side, space (52) is built in the second vertical material filling, and relative another side and the 3rd is indulged material filling and built space (53), the 4th and indulge material filling to build space (54) adjacent.
6. the described antidetonation self heat insulation wall of arbitrary claim in 5 according to claim 1, it is characterized in that: the upper surface of described the second fixture block (12) protrudes from the upper surface of the first fixture block (11), and the upper surface of the 3rd fixture block (13) protrudes from the upper surface of the 4th fixture block (14); And the upper surface of the upper surface of the upper surface of the second fixture block (12), the 3rd fixture block (13) and dowel (2) forms a concordant plane, and the soffit of the dowel (2) between the second fixture block (12) and the 3rd fixture block (13) is the arc groove to brick body indent.
CN 201320219672 2013-04-26 2013-04-26 Anti-seismic self-insulation wall Active CN203200957U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN 201320219672 CN203200957U (en) 2013-04-26 2013-04-26 Anti-seismic self-insulation wall

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN 201320219672 CN203200957U (en) 2013-04-26 2013-04-26 Anti-seismic self-insulation wall

Publications (1)

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CN203200957U true CN203200957U (en) 2013-09-18

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104110074A (en) * 2014-07-14 2014-10-22 北京绿烽盛烨节能技术开发有限公司 Heat retaining panel and heat retaining panel assembly

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104110074A (en) * 2014-07-14 2014-10-22 北京绿烽盛烨节能技术开发有限公司 Heat retaining panel and heat retaining panel assembly
CN104110074B (en) * 2014-07-14 2017-04-12 北京绿烽盛烨节能技术开发有限公司 Heat retaining panel and heat retaining panel assembly

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