CN208884830U - Without heat bridge lattice self-heat conserving assembled building blocks - Google Patents
Without heat bridge lattice self-heat conserving assembled building blocks Download PDFInfo
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- CN208884830U CN208884830U CN201820843474.6U CN201820843474U CN208884830U CN 208884830 U CN208884830 U CN 208884830U CN 201820843474 U CN201820843474 U CN 201820843474U CN 208884830 U CN208884830 U CN 208884830U
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- building block
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- heat
- stem
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Abstract
The utility model relates to a kind of no heat bridge lattice self-heat conserving assembled building blocks, belong to technical field of buildings.It is characterized in that being divided into main building block and auxiliary building block without heat bridge lattice self-heat conserving assembled building blocks, building block is multi-layer cavity, insulating layer and the public presence of cavity, overlap joint between building block and building block forms lattice system, contain stem cavity and heat preservation filling gelating material in building block, stem cavity improves the stress transmission force property of building block, enhance the globality of wall, it ensure that the anti-seismic performance of wall, block uses multi-layer heat preserving form, heat preservation filling gelating material plays insulation, sound insulation, is tightly combined, and improves exterior-wall heat insulation, energy-efficient effect significantly.
Description
Technical field
The utility model belongs to technical field of buildings, more particularly to a kind of no heat bridge lattice self-heat conserving assembled building blocks.
Background technique
The production and application of building block have close relationship with resource, the energy, ecological environment and residential areas.China's Novel wall
Development, product restructuring, the promotion of equipment technology level, the raising of properties of product and quality, construction application skill of body material
Art it is perfect, all will further push China's building materials and building energy conservation cause development.Building block building is as a kind of suitable China
The construction style of national conditions, superiority are mainly manifested in: anti-seismic performance is more prominent;Construction technology is convenient, speed is fast;For subtracting
Light building is self-possessed, raising builds efficiency, save material, reduce freight volume and reduction project cost all plays an important role, this nothing
It is suspected to have wide prospect.But in masonry structure, the thermal property of building block is always problem maximum in building energy conservation, single
Blockwork at positions such as the non-heat preservation position of building block, the mortar joint of masonry and stems, there are heat bridges, pay no attention to heat insulation effect
Think, energy-saving effect does not also protrude.Therefore, the heat bridge for separating single heat insulation block material improves the exterior-wall heat insulation performance of building block, right
The heat preservation energy-saving and green ecological environment of building are of great significance.
Utility model content
In order to solve above-mentioned technical problem, the utility model provides a kind of no heat bridge lattice self-heat conserving combination block
Block.Building block is multi-layer cavity, insulating layer and the public presence of cavity, and the overlap joint between building block and building block forms lattice system, is built
Block is divided into main building block and auxiliary building block, and stem cavity and heat preservation filling gelating material are contained in building block, and stem cavity improves building block
Stress transmission force property enhances the globality of wall, ensure that the anti-seismic performance of wall, and heat preservation filling gelating material plays thermal insulation separation
Heat, is tightly combined sound insulation, improves exterior-wall heat insulation, energy-efficient effect significantly.
The technical solution adopted in the utility model is as follows:
A kind of no heat bridge lattice self-heat conserving assembled building blocks, are divided into main building block and auxiliary building block, and main building block includes that single deck tape-recorder tongue is built
Two kinds of block and double card tongue building block, auxiliary building block are U shape building block, and building block is made of block skeleton and multi-layer cavity, insulating layer with
Stem cavity exists jointly;It is stem cavity among the single deck tape-recorder tongue building block, is filled inside and outside stem cavity for rectangle heat preservation
Expect hollow cavity, polyphenyl foam thermal insulation material is filled in cavity, the length of polyphenyl foam thermal insulation material is greater than stem cavity
One end of length, stem cavity is aligned with polyphenyl foam thermal insulation material;It is that rectangle is kept the temperature at left and right sides of block center pinch cavity
Filler material hollow cavity, cavity is interior to be filled with silicate heat-protective coatings, the silicate heat-protective coatings casting lug thereon of stem cavity side
Body forms prominent interface, and the silicate heat-protective coatings of the stem cavity other side are formed between two polyphenyl foam thermal insulation materials
It is recessed interface, the block skeleton poured around each cavity of single deck tape-recorder tongue building block for concrete or hydraulic cementing materials;
It is stem cavity among the double card tongue building block, is the hollow sky of rectangle heat insulating stuffing inside and outside stem cavity
Chamber, cavity is interior to be filled with polyphenyl foam thermal insulation material, and the length of polyphenyl foam thermal insulation material is greater than the length of stem cavity, block
It is rectangle heat insulating stuffing hollow cavity at left and right sides of center pinch's cavity, is filled with silicate heat-protective coatings, two sides in cavity
Silicate heat-protective coatings protrude block, form prominent interface, are concrete or the hydraulicity around each cavity of double card tongue building block
The block skeleton that cementitious material pours;Stem cavity size among the building block of single deck tape-recorder tongue, double card tongue building block is consistent;
It is stem cavity among the U shape building block, is the hollow sky of rectangle heat insulating stuffing inside and outside stem cavity
Chamber, cavity is interior to be filled with polyphenyl foam thermal insulation material, and the length of polyphenyl foam thermal insulation material is greater than the length of stem cavity, stem
One end of cavity is aligned with polyphenyl foam thermal insulation material, the other end of stem cavity between two polyphenyl foam thermal insulation materials,
Form recessed interface, the block skeleton poured around each cavity of U shape building block for concrete or hydraulic cementing materials;
No heat bridge lattice self-heat conserving assembled building blocks middle rib is mutually staggered, and the overlap joint between building block and building block forms lattice
System, building block overlap joint are followed successively by auxiliary piece of U shape, the building block of single deck tape-recorder tongue, the building block of double card tongue, auxiliary piece of U shape from left to right,
Can in any combination between middle single deck tape-recorder tongue building block and double card tongue building block, single deck tape-recorder tongue building block quantity is one piece more than double card tongue building block.
Production method without heat bridge lattice self-heat conserving assembled building blocks, comprising the following steps:
1. making building block skeleton template according to blocks shape and size, there are stem cavity and heat insulating stuffing are hollow for template
Cavity forms block skeleton after conserving demoulding according to engine request casting concrete or hydraulic cementing materials;
2. injecting silicate heat-protective coatings in block middle layer heat insulating stuffing hollow cavity;
3. heat insulating stuffing hollow cavity injects polyphenyl foam thermal insulation material inside and outside block stem cavity.
The utility model has the beneficial effects that
The design of the utility model structure is simple, is a kind of no heat bridge lattice self-heat conserving combination block for capableing of modularized production
Block, building block are multi-layer cavity, insulating layer and the public presence of cavity, and the overlap joint between building block and building block forms lattice system, are built
Containing stem cavity and heat preservation filling gelating material in block, stem cavity improves the stress transmission force property of building block, enhances wall
Globality, ensure that the anti-seismic performance of wall, block uses multi-layer heat preserving form, and heat preservation filling gelating material plays thermal insulation separation
Heat, is tightly combined sound insulation, improves exterior-wall heat insulation, energy-efficient effect significantly.
Detailed description of the invention
Fig. 1 is the structural schematic diagram of the utility model.
Fig. 2 is single deck tape-recorder tongue block structure schematic diagram.
Fig. 3 is double card tongue block structure schematic diagram.
Fig. 4 is the auxiliary block structure schematic diagram of U shape.
In figure, A is the building block of single deck tape-recorder tongue;B is the building block of double card tongue;C is auxiliary piece of U shape;1 is polyphenyl foam thermal insulation material;
2 be silicate heat-protective coatings;3 be stem cavity;4 be block skeleton.
Specific embodiment
The utility model is described in detail with reference to the accompanying drawings and examples:
Embodiment: as shown in Figure 1 to 4, no heat bridge lattice self-heat conserving assembled building blocks are divided into main building block and auxiliary building block;
Main building block includes single deck tape-recorder tongue building block A and two kinds of B of double card tongue building block, and auxiliary building block is U shape building block C, and building block is by block skeleton 4
It is formed with multi-layer cavity, insulating layer and stem cavity 3 exist jointly;It is stem cavity 3, stem among the single deck tape-recorder tongue building block A
It is rectangle heat insulating stuffing hollow cavity inside and outside cavity 3, is filled with polyphenyl foam thermal insulation material 1, polyphenyl foam in cavity
The length of thermal insulation material 1 is greater than the length of stem cavity 3, and one end of stem cavity 3 is aligned with polyphenyl foam thermal insulation material 1;Block
It is rectangle heat insulating stuffing hollow cavity at left and right sides of body center pinch cavity 3, is filled with silicate heat-protective coatings 2 in cavity,
The silicate heat-protective coatings 2 of 3 side of stem cavity protrude block, form prominent interface, and the silicate of 3 other side of stem cavity is protected
Adiabator 2 forms recessed interface between two polyphenyl foam thermal insulation materials 1, is coagulation around each cavity of single deck tape-recorder tongue building block A
The block skeleton 4 that soil or hydraulic cementing materials pour;
It is stem cavity 3 among the double card tongue building block B, is that rectangle heat insulating stuffing is hollow inside and outside stem cavity 3
Cavity, cavity is interior to be filled with polyphenyl foam thermal insulation material 1, and the length of polyphenyl foam thermal insulation material 1 is greater than the length of stem cavity 3
It spends, is rectangle heat insulating stuffing hollow cavity at left and right sides of block center pinch cavity 3, is filled with silicate thermal insulating material in cavity
Material 2, two sides silicate heat-protective coatings 2 protrude block, form prominent interface, are coagulation around each cavity of double card tongue building block B
The block skeleton 4 that soil or hydraulic cementing materials pour;3 size of stem cavity among single deck tape-recorder tongue building block A, double card tongue building block B
Unanimously;
It is stem cavity 3 among the U shape building block C, is that rectangle heat insulating stuffing is empty inside and outside stem cavity 3
Heart cavity, cavity is interior to be filled with polyphenyl foam thermal insulation material 1, and the length of polyphenyl foam thermal insulation material 1 is greater than the length of stem cavity 3
One end polyphenyl foam thermal insulation material 1 of degree, stem cavity 3 is aligned, and the other end of stem cavity 3 is in two polyphenyl foam thermal insulating materials
Between material 1, recessed interface is formed, is that concrete or hydraulic cementing materials pour around each cavity of U shape building block C
Block skeleton 4;
No heat bridge lattice self-heat conserving assembled building blocks middle rib is mutually staggered, and the overlap joint between building block and building block forms lattice
System, building block overlap joint are followed successively by auxiliary piece of C of U shape, single deck tape-recorder tongue building block A, double card tongue building block B, auxiliary piece of U shape from left to right
C, wherein can in any combination between single deck tape-recorder tongue building block A and double card tongue building block B, and single deck tape-recorder tongue building block A quantity is more than double card tongue building block B
One piece.
The above is only the preferred embodiment of the utility model, it is noted that for the common skill of the art
For art personnel, without departing from the principle of this utility model, several improvements and modifications can also be made, these improve and
Retouching also should be regarded as the protection scope of the utility model.
Claims (1)
1. being divided into main building block and auxiliary building block, it is characterised in that: main building block includes single deck tape-recorder without heat bridge lattice self-heat conserving assembled building blocks
Two kinds of tongue building block (A) and double card tongue building block (B), auxiliary building block are concave character type building block (C), and building block is empty by block skeleton (4) and multilayer
Chamber composition, insulating layer and stem cavity (3) exist jointly;It is stem cavity (3) that stem is empty among the single deck tape-recorder tongue building block (A)
It is rectangle heat insulating stuffing hollow cavity inside and outside chamber (3), is filled with polyphenyl foam thermal insulation material (1) in cavity, polyphenyl bubble
The length of foam thermal insulation material (1) is greater than the length of stem cavity (3), one end of stem cavity (3) and polyphenyl foam thermal insulation material
(1) it is aligned;It is rectangle heat insulating stuffing hollow cavity at left and right sides of block center pinch cavity (3), is filled with silicic acid in cavity
The silicate heat-protective coatings (2) of salt thermal insulation material (2), stem cavity (3) side protrude block, form prominent interface, and stem is empty
The silicate heat-protective coatings (2) of chamber (3) other side form recessed interface, single deck tape-recorder between two polyphenyl foam thermal insulation materials (1)
The block skeleton (4) poured around each cavity of tongue building block (A) for concrete or hydraulic cementing materials;
It is among the double card tongue building block (B) stem cavity (3), it is empty for rectangle heat insulating stuffing inside and outside stem cavity (3)
Heart cavity, cavity is interior to be filled with polyphenyl foam thermal insulation material (1), and the length of polyphenyl foam thermal insulation material (1) is greater than stem cavity
(3) length, block center pinch cavity (3) left and right sides are rectangle heat insulating stuffing hollow cavity, are filled with silicon in cavity
Hydrochlorate thermal insulation material (2), two sides silicate heat-protective coatings (2) protrude block, form prominent interface, double card tongue building block (B)
The block skeleton (4) poured around each cavity for concrete or hydraulic cementing materials;Single deck tape-recorder tongue building block (A), double card tongue building block
(B) intermediate stem cavity (3) size is consistent;
It is among the concave character type building block (C) stem cavity (3), it is empty for rectangle heat insulating stuffing inside and outside stem cavity (3)
Heart cavity, cavity is interior to be filled with polyphenyl foam thermal insulation material (1), and the length of polyphenyl foam thermal insulation material (1) is greater than stem cavity
(3) one end of length, stem cavity (3) is aligned with polyphenyl foam thermal insulation material (1), and the other end of stem cavity (3) is two
Between a polyphenyl foam thermal insulation material (1), recessed interface is formed, is concrete or water around each cavity of concave character type building block (C)
The block skeleton (4) that hydraulic cement pours;
No heat bridge lattice self-heat conserving assembled building blocks middle rib is mutually staggered, and the overlap joint between building block and building block forms lattice body
System, building block overlap joint are followed successively by auxiliary piece of concave character type (C), single deck tape-recorder tongue building block (A), double card tongue building block (B), auxiliary piece of concave character type from left to right
(C), wherein can in any combination between single deck tape-recorder tongue building block (A) and double card tongue building block (B), the building block of single deck tape-recorder tongue (A) quantity compares double card
Mostly one piece of tongue building block (B).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201820843474.6U CN208884830U (en) | 2018-06-01 | 2018-06-01 | Without heat bridge lattice self-heat conserving assembled building blocks |
Applications Claiming Priority (1)
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CN201820843474.6U CN208884830U (en) | 2018-06-01 | 2018-06-01 | Without heat bridge lattice self-heat conserving assembled building blocks |
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Publication Number | Publication Date |
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CN208884830U true CN208884830U (en) | 2019-05-21 |
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CN201820843474.6U Expired - Fee Related CN208884830U (en) | 2018-06-01 | 2018-06-01 | Without heat bridge lattice self-heat conserving assembled building blocks |
Country Status (1)
Country | Link |
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CN (1) | CN208884830U (en) |
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2018
- 2018-06-01 CN CN201820843474.6U patent/CN208884830U/en not_active Expired - Fee Related
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GR01 | Patent grant | ||
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CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20190521 |
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CF01 | Termination of patent right due to non-payment of annual fee |