CN102162282A

CN102162282A - Automatic heat preservation, energy saving and air-entrapping concrete brick wall and manufacturing method thereof

Info

Publication number: CN102162282A
Application number: CN2011100638095A
Authority: CN
Inventors: 徐振飞; 徐硕
Original assignee: Individual
Current assignee: Individual
Priority date: 2011-03-17
Filing date: 2011-03-17
Publication date: 2011-08-24
Anticipated expiration: 2031-03-17
Also published as: CN102162282B

Abstract

The invention relates to an automatic heat preservation, energy saving and air-entrapping concrete brick wall and a manufacturing method thereof. The invention is characterized that: a heat preservation wall plate is protruded, relative to the outer surfaces of a beam and a stand column or a concrete plate, 20 to 50 millimeters or flatly bricked; beam and column part heat preservation layers are bonded on the outer surfaces of the beam and the stand column or the concrete plate; and alkali-proof grids or steel mesh sheets are paved on the surfaces of the heat preservation layers. During bricking of the wall, the comprehensive performance of the heat preservation wall can be enhanced under the condition of no addition of the heat preservation layers on the whole wall by using energy saving and air-entrapping concrete bricks and heat preservation bricking mortar as well as heat preservation processing measures taken on hot bridge parts such as the beam, the column and the like, so the requirement of a periphery protective structure of a building wall can be met, and heat energy loss due to the hot bridges formed in mortar joints of the wall can be avoided effectively; therefore, the design standard requirement of China on heat preservation and energy saving of a building is met, and the manufacturing cost of the wall and the comprehensive cost of the building are reduced greatly.

Description

A kind of self-heat-preservation energy-saving air-entrained concrete building block body of wall and preparation method thereof

Technical field:

The invention belongs to building masonry wall heat preservation technology field, is a kind of self-heat-preservation energy-saving air-entrained concrete building block body of wall and preparation method thereof.

Background technology:

In technique known, highrise building is divided into framework or frame structure, and body of wall generally is made of concrete beam, concrete column or concrete slab and the brick wallboard of building.Domestic construction external wall body thermal insulation energy-saving material mainly contains two classes at present: a class belongs to organic goods, as cystosepiment, polyphenyl extruded sheet, adhesive powder-polystyrene granule thermal insulation mortar.Though these organic material heat-insulating properties are better, but that ubiquity is easily aging cracked, inflammable, do not meet the fire-fighting requirement, application life is short, can give out toxic and harmful when particularly environment temperature is higher than 50 ℃, particularly this class material of large-area use on whole building outer wall is healthy totally unfavorable to dwelling environment safety and resident.Another kind of expansion or the closed perlite heat preservation slurry that belongs to inorganic matter, though this material can not discharge pernicious gas, water imbibition is strong, and easily efflorescence is ftractureed, and secondary maintenance and repair expense is big.Though the air-entrained concrete building block of China has the insulating power that is better than common brick, but still do not reach the energy-saving design standard-required of country 65%.Present commercially available air-entrained concrete building block is difficult to reach national common body of wall required standard, B06 level-B07 level the goods that promptly are up to state standards and require, its coefficient of thermal conductivity is at 0.16-0.18w/(mk) more than, can not satisfy energy-conservation requirement, if B04 level-B05 level gas product is produced in research and development, coefficient of thermal conductivity is 0.12-0.14 w/(mk), though energy-conservationly can reach requirement, but, can not use as the body of wall peripheral structure because of its compressive strength is low.Can only use as heat insulating material according to standard-required.In disclosed CN200910015031.4 self heat insulation wall and preparation method thereof, though the insulation blocks inner core adopts thermal insulation material to fill, the position can't fundamentally solve " heat bridge " problem around the building block self.And if apply it to " heat bridge " position of framework or frame structure filled wall central sill, post or concrete slab, lack the insulation treatment measures at beam column position again.

Summary of the invention

The objective of the invention is to overcome deficiency of the prior art, provide that a kind of coefficient of thermal conductivity is little, good heat insulating, high-strength light, and can eliminate self-heat-preservation energy-saving air-entrained concrete building block body of wall of body of wall beam, plate, post heat bridge phenomenon and preparation method thereof.

Realize that the technical scheme that purpose of the present invention is taked is: this body of wall is by crossbeam, column or concrete slab and the heat-insulation wall plate of building by laying bricks or stones between crossbeam and column or concrete slab constitute, the external surface of body of wall has been done finish coat, heat-insulation wall plate is to be built by laying bricks or stones by self-heat-preservation energy-saving air-entrained concrete building block and building heat insulation mortar to form, wherein, heat-insulation wall plate protrudes 20～50mm or flat the block with respect to the external surface of crossbeam and column or concrete slab, the external surface of crossbeam and column or concrete slab is deposited with beam column position insulation layer, and the surface of beam column position insulation layer is equipped with alkaline-resisting grid cloth or steel mesh sheet;

Described energy-saving aerated concrete building block is formulated by following raw materials in weight portion:

Contain the flyash of SiO2＞40% by mass percentage or contain the river sand of SiO2 〉=70% by mass percentage or 25～70 parts of CHARACTERISTICS OF TAILINGS SAND, contain A(CaO by mass percentage ₂+ mgO) 〉=65% 15～35 parts in lime and 5～25 parts of cement, 5～50 parts of wollastonites in powder, 1～5 part in gypsum, 0～20 part of thermal insulation material, 0.3～0.6 part of aluminium powder cream, 0.05～0.6 part of foam stabilizer; Described thermal insulation material adopts is in glass bead, expanded perlite, closed perlite, mineral wool, pottery fibre, glass fiber, rock wool, sepiolite, expanded vermiculite, kieselguhr and the pottery sand any one, wherein, the perlite particle diameter is not more than 2.0mm, pottery sand or haydites of book structure particle diameter are not more than 2.5mm, and the glass bead particle diameter is not more than 2mm;

Described building heat insulation mortar is formulated by following raw materials in weight portion: 200～500 parts of cement, 50～200 parts in flyash, 10～100 parts in lime, pottery sand or 50～300 parts on shale pottery, 50～100 parts of glass beads, 10～100 parts in fiber thermal insulation material, 50～100 parts of sepiolites, 5～50 parts of water-loss reducers, 100～300 parts of quartz sands; Wherein, pottery sand or haydites of book structure particle diameter are not more than 3mm, and the glass bead particle diameter is not more than 2mm, and quartz sand particle size is not more than 3mm, and what the fiber thermal insulation material adopted is glass fiber or mineral wool or rock wool or the fibre of making pottery.

Described beam column position insulation layer adopts polyphenyl foam plate or polyurethane foam board or extruded sheet or pearlite slab or glue powder polyphenyl particle or thermal insulation mortar.

Described steel fabric sheet adopts diameter to be not less than the knitting of 2mm steel wire.

Self-heat-preservation energy-saving air-entrained concrete building block body of wall of the present invention is made as follows:

A prepares the energy-saving aerated concrete building block:

(1) with flyash, river sand or CHARACTERISTICS OF TAILINGS SAND and lime levigate to 50 orders with carefully, it is standby to make powder;

(2) with the powder of preparation by described proportioning and gypsum and the stirring of thermal insulation material mixing and water adding, it is standby to make slurry, wherein amount of water is 1.2～1.5 times of compound gross weight;

(3) slurry of making is injected material-compound tank, be heated to 30～40 ℃, add cement, lime by described proportioning, and when being heated to 40～50 ℃, add aluminium powder cream, foam stabilizer by described proportioning again, be poured into building block mould after stirring 20～50s, leave standstill after the cast and carry out lime and clear up, 70～100 ℃ of digestion conditions, digestion time are 8～20min, carry out exhaust then, 70～80 ℃ of delivery temperatures, evacuation time is 10～20min, makes the initial set base substrate;

(4) the size excision forming of setting, wherein calcining temperature 90-95 ℃ will be pressed after the demoulding of initial set idiosome;

(5) idiosome of excision forming is inserted reactor and carry out steam-curedly, steam-cured temperature is 150～250 ℃, and the steam-cured time is 3～8h, cooling naturally then, and temperature fall time is 0.5～2h, is energy-saving aerated concrete building block finished product after going out still;

B prepares building heat insulation mortar:

(1) get flyash, that lime is levigate is standby to 100～300 orders;

(2) get cement, pottery sand or haydites of book structure by described proportioning, glass bead, the fiber thermal insulation material, sepiolite, water-loss reducer, quartz sand and levigate flyash, lime mixing and stirring are placing heat-insulating mortar dry material;

C makes the self-heat-preservation energy-saving body of wall:

(1) gets the energy-saving aerated concrete building block of mortar drier and preparation and Shui, building heat insulation wallboard according to a conventional method, and make heat-insulation wall plate with respect to column or concrete slab and crossbeam external surface protrusion 20～50mm or flat the block, wherein, when heat-insulation wall plate thickness≤200mm, adopt the placing heat-insulating mortar dry material of step B preparation, when heat-insulation wall plate thickness＞200mm, adopt the ordinary mortar siccative;

(2) get polyphenyl foam plate or extruded sheet or polyurathamc plate or pearlite slab and tailor moulding; external surface with conventional adhesive mortar bonding vertical columns or concrete slab and crossbeam; or be coated with glue powder polyphenyl particle or thermal insulation mortar and hang over beam; post or concrete slab surface; constitute beam column position insulation layer; lay alkaline-resisting lattice cloth or steel fabric sheet in beam column position insulation layer surface then; and making its both sides with respect to column or concrete slab and crossbeam width extension 200～500mm, plastering wall is done finish coat and is promptly made self-heat-preservation energy-saving air-entrained concrete building block body of wall according to a conventional method at last.

According to the self-heat-preservation energy-saving air-entrained concrete building block body of wall that such scheme is made, its beneficial effect:

1) mainly have drawn from flyash or river sand of energy-saving aerated concrete building block of the present invention, and the best of breed of some industrial wastes and thermal insulation material has been realized the raising of comprehensive utilization of resources and properties of product.Body of wall with this concrete block masonry, can improve the combination property of heat-preserving wall, can make the coefficient of thermal conductivity of body of wall be controlled at 0.10～0.13 w/(mk), satisfy energy-conservation 65% design standard even higher, compressive strength can reach 3.5～5.0Mpa, satisfies the requirement of construction wall peripheral structure.

2) of the present invention building by laying bricks or stones with thermal insulation mortar has workability, water retention and the good characteristics of powder knot property, can reduce heat-preserving wall significantly influences the loss of thermal energy because of mortar joint, this mortar is an important step in the wall self-insulation system, and its mortar drier density is 730～900kg/m ³, coefficient of thermal conductivity is 0.13～0.16 w/(mk), compressive strength is 4.0～5.3Mpa, uses this to build by laying bricks or stones and uses thermal insulation mortar, can reduce effectively because the thermal energy loss that " heat bridge " that the body of wall mortar joint forms caused.

3) because the insulation treatment measures have been taked at the present invention column or " heat bridge " positions such as concrete slab, crossbeam, wallboard in framework, frame structure building, make whole body of wall under the situation of additional thermal insulation not, can reach country about the energy-conservation design standard requirement of building heat preserving, thereby guarantee that effectively heat insulating coefficient life-span and building are synchronous, can reduce the integrated cost of body of wall manufacturing cost and building greatly.

Description of drawings

Fig. 1 is the masonry construction schematic diagram of heat-insulation wall plate of the present invention and beam or post;

Fig. 2 is the masonry construction schematic diagram of heat-insulation wall plate of the present invention and corner post;

Fig. 3 is the masonry construction schematic diagram of heat-insulation wall plate of the present invention and window lintel and window sill.

The specific embodiment:

Referring to Fig. 1, Fig. 2, Fig. 3, this body of wall is to reach the heat-insulation wall plate 1 of building by laying bricks or stones by crossbeam, column or concrete slab 2 between crossbeam and column or concrete slab 2 to constitute, the external surface of body of wall has been done finish coat 5, and heat-insulation wall plate 1 is to adopt energy-saving aerated concrete building block and building heat insulation mortar to build by laying bricks or stones to form.Wherein, heat-insulation wall plate 1 comprises crossbeam and column around the window with respect to crossbeam and column or concrete slab 2() external surface protrude 20～50mm or flat the block; crossbeam and column or concrete slab 2(comprise crossbeam and the column around the window) external surface be deposited with the beam column position insulation layer 3 that adopts polyphenyl foam plate or polyurethane foam board or extruded sheet or pearlite slab or glue benzene granular polystyrene or thermal insulation mortar to form, be used to eliminate " heat bridge " that crossbeam, column or concrete slab 2 and seam crossing form.Alkaline-resisting grid cloth or steel mesh sheet 4 are laid in the surface of beam column position insulation layer, and this steel fabric sheet adopts diameter to be not less than the knitting of 2mm steel wire.Number in the figure 2b is a corner post, and 2c is that window lintel, 2d are window sill, and label 6 is interior rendering layer.

Described energy-saving aerated concrete building block is formulated by following raw materials in weight portion: contain the flyash of SiO2＞40% by mass percentage or contain the river sand of SiO2 〉=70% by mass percentage or 25～70 parts of CHARACTERISTICS OF TAILINGS SAND, contain A(CaO by mass percentage ₂+ mgO) 〉=65% 15～35 parts in lime and 5～25 parts of cement, 5～50 parts of wollastonites in powder, 1～5 part in gypsum, 0～20 part of thermal insulation material, 0.3～0.6 part of aluminium powder cream, 0.05～0.6 part of foam stabilizer; Described thermal insulation material adopts is in glass bead, expanded perlite, closed perlite, mineral wool, pottery fibre, glass fiber, rock wool, sepiolite, expanded vermiculite, kieselguhr and the pottery sand any one, wherein, the perlite particle diameter is not more than 2.0mm, pottery sand or haydites of book structure particle diameter are not more than 2.5mm, and the glass bead particle diameter is not more than 2mm;

Described building heat insulation mortar is formulated by following raw materials in weight portion: 200～500 parts of cement, 50～200 parts in flyash, 10～100 parts in lime, pottery sand or 50～300 parts on shale pottery, 50～100 parts of glass beads, 10～100 parts in fiber thermal insulation material, 50～100 parts of sepiolites, 5～50 parts of water-loss reducers, 100～300 parts of quartz sands; Wherein, pottery sand or haydites of book structure particle diameter are not more than 3mm, and the glass bead particle diameter is not more than 2mm, and quartz sand particle size is not more than 3mm, and what the fiber thermal insulation material adopted is glass fiber or mineral wool or rock wool or the fibre of making pottery.Joint embodiment is described further the preparation method of this body of wall below.

Embodiment one

Self-heat-preservation energy-saving air-entrained concrete building block body of wall of the present invention prepares by following step:

At first prepare the energy-saving aerated concrete building block, its method is:

Get flyash, river sand or CHARACTERISTICS OF TAILINGS SAND or lime levigate to 50 orders with carefully, it is standby to make powder; The powder of preparation is mixed with gypsum and thermal insulation material by described proportioning, and by mixed material weight 1.2 extraordinarily water stir, make slurry; The slurry of making is injected material-compound tank, be heated to 30 ℃, add cement, lime by described proportioning, and when being heated to 40 ℃, add aluminium powder cream by described proportioning again, foam stabilizer stirs 20s and is poured into building block mould, cast back lime digestion time 8min, clear up 70 ℃ of reaction temperatures, carry out exhaust then, 70 ℃ of delivery temperatures, evacuation time is 10min, makes the initial set base substrate; To press the size excision forming of setting after the demoulding of initial set idiosome, wherein calcining temperature is 90 ℃; The idiosome of excision forming is inserted still carry out steam-curedly, steam-cured temperature is 150 ℃, and the steam-cured time is 3h, cooling then, and temperature fall time is 0.5h, is energy-saving aerated concrete building block finished product after going out still;

Wherein the energy-saving aerated concrete building block is formulated by following raw materials in weight portion: contain SiO2＞40%(by mass percentage) flyash or contain SiO2 〉=70%(by mass percentage) river sand or 70 parts of CHARACTERISTICS OF TAILINGS SAND, contain A(CaO ₂+ mgO) 〉=65%(by mass percentage) 35 parts in lime and 25 parts of cement, 50 parts of wollastonites in powder, 5 parts in gypsum, 20 parts of thermal insulation materials, 0.6 part of aluminium powder cream, 0.6 part of foam stabilizer.Wherein, thermal insulation material adopts is in glass bead, expanded perlite, closed perlite, mineral wool, pottery fibre, glass fiber, rock wool, sepiolite, expanded vermiculite, kieselguhr and the pottery sand any one; wherein; the perlite particle diameter is not more than 2.0mm; pottery sand or haydites of book structure particle diameter are not more than 2.5mm, and the glass bead particle diameter is not more than 2mm.Use the body of wall of this concrete block masonry, can improve the combination property of heat-preserving wall, make the coefficient of thermal conductivity of body of wall be controlled at 0.10～0.13 w/(mk), satisfy energy-conservation 65% design standard even higher, compressive strength is 3.5～5.0Mpa, can satisfy the requirement of construction wall peripheral structure simultaneously.

Prepare building heat insulation mortar then, its method is:

Get flyash, lime is levigate gets pottery sand by described proportioning to 100～300 orders, glass bead, the fiber thermal insulation material, sepiolite, water-loss reducer, quartz sand and levigate flyash, lime mixing and stirring are placing heat-insulating mortar dry material; Wherein building heat insulation mortar is formulated by following raw materials in weight portion: 200 parts of cement, 50 parts in flyash, 10 parts in lime, pottery sand or 50 parts of haydites of book structure, 50 parts of glass beads, 10 parts in fiber thermal insulation material, 50 parts of sepiolites, 5 parts of water-loss reducers, 100 parts of quartz sands; Wherein, pottery sand or haydites of book structure particle diameter are not more than 3mm, and the glass bead particle diameter is not more than 2mm, and quartz sand particle size is not more than 3mm, and what the fiber thermal insulation material adopted is glass fiber or mineral wool or rock wool or the fibre of making pottery.This thermal insulation mortar has workability, water retention and the good characteristics of powder knot property, and can reduce heat-preserving wall significantly influences the loss of thermal energy, its mortar drier density 730～900kg/m because of mortar joint ³, coefficient of thermal conductivity is 0.13～0.16 w/(mk), compressive strength 4.0～5.3Mpa.

Make the self-heat-preservation energy-saving body of wall at last, its method is:

Get the energy-saving aerated concrete building block of mortar drier and preparation and Shui, building heat insulation wallboard 1 according to a conventional method, and make heat-insulation wall plate with respect to column or concrete slab and crossbeam 2 external surfaces protrusion 20～50mm or flat the block, wherein, when heat-insulation wall plate 1 thickness≤200mm, adopt the placing heat-insulating mortar dry material of step B preparation, when heat-insulation wall plate 1 thickness＞200mm, can adopt the ordinary mortar siccative.And then get polyphenyl foam plate or extruded sheet or polyurathamc plate or pearlite slab and tailor moulding; be coated with the external surface of the adhesive mortar of routine bonding vertical columns or concrete slab and crossbeam 2 or with glue benzene granular polystyrene or thermal insulation mortar and hang the formation beam column position insulation layer 3 that forms, be used to eliminate " heat bridge " of column or concrete slab, crossbeam and seam crossing formation.Alkaline-resisting grid cloth or steel mesh sheet are laid in the crossbeam on the surface of beam column position insulation layer and column position, and make its both sides with respect to column or concrete slab and crossbeam 2 width extension 200～500mm, be coated with ornament surface layer 5 at last according to a conventional method and promptly make self-heat-preservation energy-saving air-entrained concrete building block body of wall.This body of wall can reach country about the energy-conservation design standard requirement of building heat preserving under the situation of additional thermal insulation not, thereby guarantees that effectively its heat insulating coefficient life-span and building are synchronous, can reduce the integrated cost of body of wall manufacturing cost and building greatly.

Embodiment two

The preparation method and the embodiment one of this self-heat-preservation energy-saving air-entrained concrete building block body of wall are basic identical, and its difference is: in the process of making the energy-saving aerated concrete building block, the amount of water during the preparation slurry is 1.4 times of compound weight; The heating-up temperature of slurry in material-compound tank is 35 ℃, heating-up temperature behind adding cement, the lime is 45 ℃, be poured into building block mould after adding aluminium powder cream, foam stabilizer stirring 35s, carrying out the lime digestion time after the cast is 14min, clears up 85 ℃ of reaction temperatures, delivery temperature is 75 ℃, evacuation time is 15min, 93 ℃ of initial set base substrate calcining temperatures, and steam-cured temperature is 200 ℃, the steam-cured time is 5h, and temperature fall time is 1.2h; The weight portion proportioning of various raw materials is during preparation energy-saving aerated concrete building block: contain SiO2＞40%(by mass percentage) flyash or contain SiO2 〉=70%(by mass percentage) river sand or 50 parts of CHARACTERISTICS OF TAILINGS SAND, contain A(CaO ₂+ mgO) 〉=65%(by mass percentage) 25 parts in lime and 15 parts of cement, 30 parts of wollastonites in powder, 3 parts in gypsum, 10 parts of thermal insulation materials, 0.4 part of aluminium powder cream, 0.3 part of foam stabilizer.The weight portion proportioning of various raw materials is during the preparation building heat insulation mortar: 350 parts of cement, 225 parts in flyash, 55 parts in lime, pottery sand or 175 parts on shale pottery, 75 parts of glass beads, 55 parts in fiber thermal insulation material, 75 parts of sepiolites, 25 parts of water-loss reducers, 200 parts of quartz sands.

Embodiment three

The preparation method and the embodiment one of this self-heat-preservation energy-saving air-entrained concrete building block body of wall are basic identical, and its difference is: in the process of making the energy-saving aerated concrete building block, the amount of water during the preparation slurry is 1.5 times of compound weight; The heating-up temperature of slurry in material-compound tank is 40 ℃, heating-up temperature behind adding cement, the lime is 50 ℃, be poured into building block mould after adding aluminium powder cream, foam stabilizer stirring 50s, carrying out the lime digestion time after the cast is 20min, clears up 100 ℃ of reaction temperatures, delivery temperature is 80 ℃, evacuation time is 20min, 95 ℃ of initial set base substrate calcining temperatures, and steam-cured temperature is 250 ℃, the steam-cured time is 8h, and temperature fall time is 2h; The weight portion proportioning of various raw materials is during preparation energy-saving aerated concrete building block: contain SiO2＞40%(by mass percentage) flyash or contain SiO2 〉=70%(by mass percentage) river sand or 25 parts of CHARACTERISTICS OF TAILINGS SAND, contain A(CaO ₂+ mgO) 〉=65%(by mass percentage) 15 parts in lime and 5 parts of cement, 5 parts of wollastonites in powder, 1 part in gypsum, 0.3 part of aluminium powder cream, 0.05 part of foam stabilizer.The weight portion proportioning of various raw materials is during the preparation thermal insulation mortar: 500 parts of cement, 200 parts in flyash, 100 parts in lime, pottery sand or 300 parts on shale pottery, 100 parts of glass beads, 100 parts in fiber thermal insulation material, 100 parts of sepiolites, 50 parts of water-loss reducers, 300 parts of quartz sands.

Claims

1. self-heat-preservation energy-saving air-entrained concrete building block body of wall, be by crossbeam, column or concrete slab and the heat-insulation wall plate of building by laying bricks or stones between crossbeam and column or concrete slab constitute, the external surface of body of wall has been done finish coat, heat-insulation wall plate is to be built by laying bricks or stones by self-heat-preservation energy-saving air-entrained concrete building block and building heat insulation mortar to form, it is characterized in that: heat-insulation wall plate protrudes 20～50mm or flat the block with respect to the external surface of crossbeam and column or concrete slab, the external surface of crossbeam and column or concrete slab is deposited with beam column position insulation layer, and the surface of beam column position insulation layer is equipped with alkaline-resisting grid cloth or steel mesh sheet;

2. self-heat-preservation energy-saving air-entrained concrete building block body of wall according to claim 1 is characterized in that: described beam column position insulation layer adopts polyphenyl foam plate or polyurethane foam board or extruded sheet or pearlite slab or glue powder polyphenyl particle or thermal insulation mortar.

3. self-heat-preservation energy-saving air-entrained concrete building block body of wall according to claim 1 is characterized in that: described steel fabric sheet adopts diameter to be not less than the knitting of 2mm steel wire.

4. preparation method that is used for the described self-heat-preservation energy-saving air-entrained concrete building block of claim 1 body of wall, it is characterized in that: it is to make by the following method:

A prepares the energy-saving aerated concrete building block:

B prepares building heat insulation mortar:

(1) get flyash, that lime is levigate is standby to 100～300 orders;

C makes the self-heat-preservation energy-saving body of wall: