CN103806592B - Heat insulation building block - Google Patents

Abstract

The present invention is a kind of heat insulation building block, including: for reducing conduction of heat and serving as the concrete skeleton of building block bracing frame；It is respectively fixedly connected with two wallboards in described concrete skeleton both sides.The concrete skeleton of the present invention includes: multiple longitudinal ribs, and all adjacent longitudinal rib portions of being connected through respectively are fixed together so that the multiple mutually isolated conduction of heat formed between adjacent longitudinal rib blocks space.The present invention reduces the heat bridge phenomenon of building block by building block distinctive conduction of heat blocking-up structure, thus improves the heat insulation effect of building block, thus so that utilize the body of wall that building block of the present invention is constructed relative to the body of wall of prior art, has more preferable heat insulation effect.

Description

Heat insulation building block

Technical field

The present invention relates to a kind of wall constructed material, particularly to the heat insulation building block of a kind of walling body, by building block Structure realizes self-heat conserving.

Background technology

Heat bridge is in the past also known as cold bridge, and heat bridge refers to be in the armored concrete in the building enclosure such as exterior wall and roofing or metal The positions such as beam, post, rib.Because these position heat-transfer capabilities are strong, hot-fluid comparatively dense, internal surface temperature is relatively low, therefore is referred to as heat Bridge.

In order to strengthen the intensity of body of wall, current body of wall all uses concrete segment to build up.Owing to concrete material has preferably Heat conductivity, its heat conductivity is 2 to 4 times of common fragment of brick heat conductivity, simultaneously because room ventilation is smooth, Qiu Mo Indoor/outdoor temperature-difference at the beginning of winter is relatively big, and air frequently contacts, and wall insulating layer heat conduction is uneven, produces heat bridge effect, makes Become house inner wall condensation, mouldy even drip.

By along flooring and metope junction, interior wall exterior wall junction metope is outwards widened, and reaches to improve wall thermal insulating, guarantor Wet purpose, reduces heat transfer, thus effectively solves heat bridge effect, but the drawback of this method to be cost the highest.

The another kind of technical scheme solving heat bridge effect is to use exterior-wall heat insulation (generally polyphenylene granule heat-insulating sand at exterior wall Slurry or warming plate), double glazing and heat-insulating bridge-cut-off (or plastic-steel) door and window cover whole heating space, i.e. use insulation material Whole room or whole building are carried out parcel process, and the shortcoming of this technical scheme is also that cost is high, the most easy working.

Summary of the invention

It is an object of the invention to provide a kind of wall constructed heat insulation building block, by the conduction of heat blocking-up structure of building block itself Realize the self-heat conserving of building block and body of wall, thus solve and above-mentioned prior art exists cost technology high, the most easy working Problem.

The above-mentioned purpose of the present invention is achieved in that a kind of heat insulation building block, including:

For reducing conduction of heat and serving as the concrete skeleton of building block bracing frame；

It is respectively fixedly connected with two wallboards in described concrete skeleton both sides.

Preferably, described concrete skeleton includes: multiple longitudinal ribs, and its all adjacent longitudinal ribs are respectively by it even The portion of connecing is fixed together；The multiple mutually isolated conduction of heat formed between adjacent longitudinal rib blocks space.

Preferably, described multiple longitudinal ribs at least include one be positioned at inner side longitudinal rib, one be positioned at outside outside Longitudinal rib and the more than one middle longitudinal rib being positioned at middle part.

Preferably, rib has multiple connecting portion being located off center position longitudinally in each, and the institute of rib longitudinally in each There is connecting portion all protruding from its both sides and connect the corresponding connecting portion of adjacent longitudinal ribs respectively.

Preferably, the both ends, outside of described interior longitudinal rib and described outer longitudinal rib extend outward protuberance respectively, And the outer end of each described protuberance has outward extending projection.

Preferably, described concrete skeleton also includes: be opened on described connecting portion upper end and/or lower end for disposing The lacing wire groove of lacing wire；And the card muscle groove for disposing clamping muscle being opened in respectively on described projection upper end and/or lower end.

Preferably, described wallboard includes: corresponding to the bonding zone of described projection outer surface；For in bonding described projection End face and the adhesive strip of longitudinal rib outer surface.

Preferably, wallboard, by outside the bonding described interior longitudinal rib of bonding zone and adhesive strip, forms the internal layer towards wallboard Conduction of heat blocks space；And wallboard is by outside the bonding described outer longitudinal rib of bonding zone and adhesive strip, is formed towards wall The outer layer conduction of heat of plate blocks space.

Preferably, at least one wallboard is integrally formed with described concrete skeleton.

Preferably, at least one wallboard is made up of non-concrete material, and by bonding, is installed to concrete skeleton Side.

Relative to prior art, the method have the benefit that, by building block distinctive conduction of heat blocking-up structure, greatly Reduce greatly the heat bridge phenomenon of building block, improve the heat insulation effect of building block, thus so that utilize building block of the present invention to construct Body of wall there is more preferable heat insulation effect, and owing to need not to use other measures to wall thermal insulating, thus can reduce Cost also improves walling speed.

Accompanying drawing explanation

Fig. 1 is the perspective view of the heat insulation building block first embodiment of the present invention；

Fig. 2 is the perspective view of the wallboard shown in Fig. 1；

Fig. 3 is the perspective view of the concrete skeleton shown in Fig. 1；

Fig. 4 is the decomposition diagram of heat insulation building block second embodiment of the present invention；

Fig. 5 is the perspective view of heat insulation building block the 3rd embodiment of the present invention；

Fig. 6 is the perspective view of heat insulation building block the 4th embodiment of the present invention；

Fig. 7 is the schematic diagram of the concrete block masonry body of wall utilizing the present invention.

Detailed description of the invention

Fig. 1 shows heat insulation building block first embodiment of the present invention, as it is shown in figure 1, this heat insulation building block includes: be used for Reduce conduction of heat and serve as the concrete skeleton 1 of building block bracing frame；And be respectively fixedly connected with at described concrete skeleton 1 Two wallboards 2 of both sides.

The concrete skeleton 1 of the present invention is a supporter, is provided with the multiple spaces for blocking conduction of heat in it, thus Conduction of heat can be greatly reduced, improve the heat insulation effect of building block.

The wallboard 2 of the present invention is to utilize the material being different from concrete skeleton 1 material therefor to make, therefore wallboard 2 right and wrong Concrete panel, can select the fire-retardant materials for support being difficult to lead temperature.Concrete material selection can be according to constructing different wall Depending on the needs of body, example: plasterboard, high-strength calcium silicate board, ceramic wafer etc..By two pieces of non-concrete wallboard mortars with The bonding of concrete heat-insulating skeleton forms compound body.

Such as it is made up of warming plate material.The effect of wallboard 2 has two, first cladding concrete skeleton 1, thus hinders The heat bridge phenomenon that disconnected concrete causes；It two is to be combined with concrete skeleton 1, forms the blocking-up for blocking conduction of heat Space.

Fig. 2 shows the structure of the concrete skeleton 1 of first embodiment, as in figure 2 it is shown, this concrete skeleton 1 includes: Multiple longitudinal ribs 16, show in figure that 4 longitudinal ribs, the most all adjacent longitudinal ribs 16 are all connected through portion 17 altogether It is fixed together, thus between adjacent longitudinal ribs 16, forms multiple mutually isolated conduction of heat block space 15.

Longitudinal rib of the present invention is the bar shaped concret block of a longitudinal direction, utilizes multiple longitudinal rib to make the skill of building block Art effect is, can form multi-layer heat-transfer air block layer in building block, such that it is able to realization is based on block structure certainly Insulation.

Multiple longitudinal ribs 16 shown in figure at least including, a longitudinal rib 161, being positioned at inner side is positioned at outside Outer longitudinal rib 162 and more than one be positioned at middle part middle longitudinal rib 163.Each of which longitudinal rib has multiple position Connecting portion 17 at eccentric position, such as four connecting portions, each of which connecting portion 17 all from longitudinal rib side to overhanging Go out and connect the corresponding connecting portion 17 of adjacent longitudinal ribs, thus formed between interconnective adjacent longitudinal ribs 16 and be positioned at The end conduction of heat at two ends blocks space 151 and is positioned at the intermediate heat conduction block space 152 of centre.

Outside interior longitudinal rib 161, both ends extend outward protuberance 12 respectively, thus form intermediate groove 153, and The outer end of each described protuberance 12 has the outward extending projection 121 for connecting wallboard 2.

The both ends, outside of outer longitudinal rib 162 extend outward protuberance 12 the most respectively, in order to form intermediate groove 153, And the outer end of each described protuberance 12 has the outward extending projection 121 for connecting wallboard 2.

Additionally, concrete skeleton 1 also includes: be opened on described connecting portion 17 upper end and/or lower end draws for arrangement The lacing wire groove 14 of muscle, and the card for disposing clamping muscle being opened in respectively on described projection 121 upper end and/or lower end Muscle groove 18.

Fig. 3 shows the wallboard 2 of first embodiment, as it can be seen, include: corresponding to described projection 121 outer surface Bonding zone 22；With for bonding described projection 121 inner face and the adhesive strip 21 of longitudinal rib outer surface, adhesive strip upper end Have and the corresponding gap of card muscle groove 18.Wallboard 2 is typically after concrete skeleton builds into body of wall by laying bricks or stones, is respectively installed to every The both sides of individual concrete skeleton 1.

Wallboard 2, by outside the bonding interior longitudinal rib 161 of bonding zone 22 and adhesive strip 21, is formed in wallboard 2 Layer conduction of heat blocks space 153；And wallboard 2 is by with the bonding described outer longitudinal rib 161 of bonding zone 22 and adhesive strip 21 Outside, forms the outer layer conduction of heat towards wallboard 2 and blocks space 153.

The concrete skeleton 1 of the present invention can use concrete one-time cast-forming.

A feature of the present invention is, forms multiple conduction of heat at the two ends of building block and blocks space 151, thus can be effective Block the heat bridge of concrete.

Fig. 4 only shows the difference of heat insulation building block second embodiment of the present invention, this second embodiment and first embodiment Being only that, one of them wallboard 2 uses identical material to be integrally formed with concrete skeleton 1.Another wallboard 2 is then Use non-concrete material to make, and by being adhesively mounted to the side of concrete skeleton 1, the advantage of this embodiment be, Owing to a wallboard 2 only need to be installed, walling speed therefore can be improved.

Fig. 5 shows heat insulation building block the 3rd embodiment of the present invention, in this embodiment, concrete heat-insulating skeleton 1 with Two pieces of wallboards 2 all use concrete once molding formed.

Fig. 6 shows heat insulation building block the 4th embodiment of the present invention, and in this embodiment, non-concrete wallboard 2 is divided into Outer layer and internal layer, its internal layer area is more than the external area of concrete skeleton 1, its outer layer area and concrete skeleton 1 External area is equal, so its internal layer can be utilized to cover puzzle joint beyond the part of concrete skeleton after masonry panel, Generally, internal layer exceeds wallboard 4～5.

Fig. 7 is the schematic diagram utilizing the building block of the present invention wall constructed, as it is shown in fig. 7, first assemble mixed in Shi Gong with mortar Solidifying soil thermal insulating framework, is placed into lacing wire 3 in lacing wire groove and carries out lacing wire, then by non-concrete wallboard mortar with every piece Concrete heat-insulating skeleton is bonding, and wallboard 2 is installed to the both sides of concrete skeleton 1.

In sum, the heat insulation building block of the present invention includes: for reducing conduction of heat and serving as the concrete of building block bracing frame Skeleton 1；It is respectively fixedly connected with two wallboards 2 in described concrete skeleton 1 both sides.

Concrete skeleton 1 includes: multiple longitudinal ribs 16, and the most all of adjacent longitudinal ribs 16 is all connected through portion 17 It is fixed together, and between adjacent longitudinal ribs 16, forms multiple mutually isolated conduction of heat blocking-up space 15.

In multiple longitudinal ribs 16, at least include that a longitudinal rib 161, being positioned at inner side is positioned at the outer vertical of outside To rib 162 and the more than one middle longitudinal rib 163 being positioned at middle part.

Rib 16 has multiple connecting portion 17 being positioned at eccentric position, longitudinally in each all connecting portions of rib 16 longitudinally in each All protruding from its both sides and connect the corresponding connecting portion of adjacent longitudinal ribs respectively, thus in interconnective adjacent longitudinal direction The conduction of heat blocking-up space, end 151 being positioned at two ends and the intermediate heat conduction block space being positioned at centre is formed between rib 16 152。

The both ends, outside of interior longitudinal rib 161 and described outer longitudinal rib 162 extend outward protuberance 12 respectively, and The outer end of each described protuberance 12 has outward extending projection 121.

Concrete skeleton 1 also includes: be opened on described connecting portion 17 upper end and/or lower end for disposing drawing of lacing wire Muscle groove 14；And the card muscle groove 18 for disposing clamping muscle being opened in respectively on described projection 121 upper end and/or lower end.

Wallboard 2 includes: corresponding to the bonding zone 22 of described projection 121 outer surface；Inner for bonding described projection 121 The adhesive strip 21 of face and longitudinal rib outer surface.

Wallboard 2, by outside the bonding described interior longitudinal rib 161 of bonding zone 22 and adhesive strip 21, is formed towards wallboard 2 Internal layer conduction of heat block space 153；And wallboard 2 is by by the bonding described outer longitudinal direction of bonding zone 22 and adhesive strip 21 Outside rib 161, form the outer layer conduction of heat towards wallboard 2 and block space 153.

As for wallboard 2, at least one wallboard 2 is integrally formed with described concrete skeleton 1；And at least one wallboard 2 It is made up of non-concrete material, as insulation material is made.

The present invention reduces the heat bridge phenomenon of building block by building block distinctive conduction of heat blocking-up structure, thus improves building block Heat insulation effect, thus so that utilize the body of wall that building block of the present invention is constructed relative to the body of wall of prior art, have more preferably Heat insulation effect.

Although being described in detail the present invention above, but the invention is not restricted to this, those skilled in the art of the present technique can Various amendment is carried out with the principle according to the present invention.Therefore, all amendments made according to the principle of the invention, all it is to be understood that For falling into protection scope of the present invention.

Claims (6)

1. a heat insulation building block, including:

For reducing conduction of heat and serving as the concrete skeleton of building block bracing frame, comprising:

One longitudinal rib being positioned at inner side；

One outer longitudinal rib being positioned at outside；

The more than one middle longitudinal rib being positioned at middle part；And

The multiple mutually isolated conduction of heat formed between adjacent longitudinal rib blocks space；

Characterized by further comprising:

It is respectively fixedly connected with two non-concrete wallboards being incubated in described concrete skeleton both sides, by bonding, installs To concrete skeleton inner side and outer side；

Wherein, the described interior longitudinal rib of concrete skeleton and the both ends, outside of described outer longitudinal rib extend outward convex respectively Go out portion, and the outer end of each described protuberance has outward extending projection；

Wherein, described non-concrete wallboard includes:

Bonding zone corresponding to described projection outer surface；

For bonding described projection inner face and the adhesive strip of longitudinal rib outer surface.

2. a heat insulation building block, including:

For reducing conduction of heat and serving as the concrete skeleton of building block bracing frame, comprising:

One longitudinal rib being positioned at inner side；

One outer longitudinal rib being positioned at outside；

The more than one middle longitudinal rib being positioned at middle part；And

The multiple mutually isolated conduction of heat formed between adjacent longitudinal rib blocks space；

Characterized by further comprising:

It is respectively fixedly connected with two wallboards in described concrete skeleton both sides, one wallboard and described concrete skeleton one Body is formed, and its another wallboard is the non-concrete wallboard of insulation, by bonding, is installed to the side of concrete skeleton；

Wherein, the described interior longitudinal rib of concrete skeleton and the both ends, outside of described outer longitudinal rib extend outward convex respectively Go out portion, and the outer end of each described protuberance has outward extending projection；

Wherein, described non-concrete wallboard includes:

Bonding zone corresponding to described projection outer surface；

For bonding described projection inner face and the adhesive strip of longitudinal rib outer surface.

Heat insulation building block the most according to claim 1 and 2, it is characterised in that all adjacent longitudinal ribs are respectively The portion of being connected through is fixed together.

Heat insulation building block the most according to claim 3, it is characterised in that rib has multiple being positioned at partially longitudinally in each From the connecting portion of center position, and all connecting portions of rib longitudinally in each are all protruding from its both sides and connect respectively The corresponding connecting portion of adjacent longitudinal ribs.

Heat insulation building block the most according to claim 4, it is characterised in that described concrete skeleton also includes: The lacing wire groove for disposing lacing wire being opened on described connecting portion upper end and/or lower end；And it is opened in described projection respectively The card muscle groove for disposing clamping muscle on upper end and/or lower end.

Heat insulation building block the most according to claim 1 and 2, it is characterised in that non-concrete wallboard is by with viscous Close outside district and the bonding described interior longitudinal rib of adhesive strip, form the internal layer conduction of heat towards wallboard and block space；And it is immiscible Solidifying soil wallboard, by outside the bonding described outer longitudinal rib of bonding zone and adhesive strip, forms the outer layer conduction of heat towards wallboard and hinders Disconnected space.