CN210713301U - Aluminum alloy template built-in inorganic isolation warehouse-dividing polystyrene insulation board integrated structure - Google Patents

Abstract

The utility model discloses an aluminium alloy template embeds inorganic isolation and divides storehouse polystyrene insulation board body structure, including the aluminium template external mold, the aluminium template centre form, reinforcing bar ligature layer, the heated board body, cast-in-place concrete layer, form the cavity recess between aluminium template external mold and the aluminium template centre form, the right side inslot of cavity recess is provided with reinforcing bar ligature layer, and hug closely with the left end face of aluminium template centre form, be provided with reinforcing bar protection groove between the left end of reinforcing bar ligature layer and the right-hand member of heated board body, the left end face and the aluminium template external mold right-hand member face of heated board body are hugged closely, horizontal grafting has outer heat preservation crab-bolt on the heated board body, form the cavity recess between aluminium template centre form and the heated board body, the cavity inslot is. The inorganic isolation warehouse-dividing polystyrene heat insulation board and the cast concrete wall body form an integral installation structure, the risk of falling is avoided, the environmental protection performance of the wall body is improved, and the adhesive force of the heat insulation board and the cast-in-place concrete layer in the integral structure is improved.

Description

Aluminum alloy template built-in inorganic isolation warehouse-dividing polystyrene insulation board integrated structure

Technical Field

The utility model relates to an inorganic isolation divides storehouse polystyrene insulation board integration installation technical field specifically is an aluminum alloy template embeds inorganic isolation divides storehouse polystyrene insulation board an organic whole structure.

Background

In the process of building wall construction, an insulation board is arranged on an outer wall body in the later stage of a building so as to improve the heat insulation property of the building wall body, the insulation board is generally made of rock wool boards, the rock wool boards are generally directly bonded on the outer wall body of the building in a bonding mode, however,

1. during construction, the rock wool board is directly bonded on the outer wall surface of a building, the colloid is aged after a long time, the insulation board falls off and is dangerous, and the rock wool is an inorganic fiber material and has irritation to the skin of a human body, cannot be metabolized after being sucked into the body, is poor in environmental protection and causes harmful operation;

2. in addition, the insulation board is mostly not provided with a plurality of strip-shaped groove structures, so that the adhesive force of the integral structure of the insulation board and a cast-in-place concrete layer cannot be further improved.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an aluminum alloy template embeds inorganic isolation and divides storehouse polystyrene insulation board body structure to the heated board that solves prior art existence can not form the lower problem of overall structure cohesive force of integral erection structure, heated board and cast-in-place concrete layer with concreting wall body.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides an aluminium alloy template embeds inorganic isolation and divides storehouse polystyrene insulation board body structure, includes aluminium template external mold, aluminium template centre form, reinforcing bar ligature layer, heated board body, cast-in-place concrete layer, form the hollow cavity between aluminium template external mold and the aluminium template centre form, the right side inslot of hollow cavity is provided with reinforcing bar ligature layer to hug closely with the left end face of aluminium template centre form, be provided with reinforcing bar protection groove between the left end of reinforcing bar ligature layer and the right-hand member of heated board body, the left end face and the aluminium template external mold right-hand member face of heated board body are hugged closely, transversely peg graft on the heated board body has outer heat preservation crab-bolt, form the hollow cavity between aluminium template centre form and the heated board body, the hollow cavity is cast-in-place concrete layer, be provided with the cement apical rod between heated.

Preferably, the external heat preservation crab-bolt transversely sets up and runs through the heated board body, the one end of external heat preservation crab-bolt has first ligature with the vertical reinforcement of the left end on reinforcement ligature layer.

Preferably, the right end face of the insulation board body transversely penetrates through a strip-shaped groove on the contact surface of the cast-in-place concrete layer.

Preferably, the number of the strip-shaped grooves is multiple and the strip-shaped grooves are transversely arranged on the heat preservation plate body.

Preferably, a cushion block is arranged between the right end of the heat insulation board body and the reinforcing steel bar binding layer and is arranged in the reinforcing steel bar protection groove.

Preferably, each node of the steel bar binding layer is provided with a second steel bar binding.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the outer side of the aluminum formwork is surrounded by the aluminum formwork outer formwork and the aluminum formwork inner formwork, the steel bar binding layer and the insulation board body are respectively arranged in the surrounded hollow groove, and the concrete layer is cast in situ in the hollow groove formed by the steel bar binding layer and the insulation board body, so that an integrated wall body structure that a plurality of inorganic isolation bin-divided polystyrene insulation boards are placed in the aluminum formwork and concrete is poured is realized, an integrated installation structure that the inorganic isolation bin-divided polystyrene insulation boards and a poured concrete wall body really form is realized, the insulation boards do not have falling risks, the environmental protection performance of the wall body is improved, and harmful operation is eliminated;

2. through set up a plurality of bar groove structures on inorganic isolation bin-divided polystyrene heated board, further improved the overall structure cohesive force of heated board and cast-in-place concrete layer.

Drawings

FIG. 1 is a sectional view of the whole structure of the present invention;

FIG. 2 is a structural side view of the reinforcing steel bar binding layer and the insulation board body of the present invention;

fig. 3 is the utility model discloses a partial side view of bar groove overall arrangement of heated board body.

In the figure: 1 aluminum mould external mold, 2 aluminum mould internal molds, 3 steel bar binding layers, 31 second binding knots, 4 insulation board bodies, 41 strip-shaped grooves, 42 external insulation anchor bolts, 43 first binding knots, 5 cement top sticks, 6 steel bar protection grooves, 7 cushion blocks and 8 cast-in-place concrete layers.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1 and fig. 2, the present invention provides a technical solution: an inorganic isolation bin-dividing polystyrene insulation board integrated structure with an aluminum alloy template built-in comprises an aluminum template external mold 1, an aluminum template internal mold 2, a steel bar binding layer 3, an insulation board body 4 and a cast-in-place concrete layer 8, wherein the aluminum template external mold 1 and the aluminum template internal mold 2 are all common aluminum alloy templates, the insulation board body 4 is an inorganic isolation bin-dividing polystyrene insulation board, a hollow groove is formed between the aluminum template external mold 1 and the aluminum template internal mold 2, the steel bar binding layer 3 is arranged in the right groove of the hollow groove and is clung to the left end surface of the aluminum template internal mold 2, a steel bar protection groove 6 is arranged between the left end of the steel bar binding layer 3 and the right end of the insulation board body 4, each node of the steel bar binding layer 3 is provided with a second steel bar binding 31, the left end surface of the insulation board body 4 is clung to the right end surface of the aluminum template external mold 1, an external insulation, the outer heat preservation anchor bolt 42 is a common heat preservation plate anchor bolt, ageing resistance and high bearing capacity are achieved, a hollow groove is formed between the aluminum template inner die 2 and the heat preservation plate body 4, a cast-in-place concrete layer 8 is arranged in the hollow groove, the outer heat preservation anchor bolt 42 is transversely arranged and penetrates through the heat preservation plate body 4, the right end of the outer heat preservation anchor bolt 42 is bound with a vertical reinforcing steel bar at the left end of the reinforcing steel bar binding layer 3 to form a first binding knot 43, the second reinforcing steel bar binding knot 31 and the first binding knot 43 are both made of binding wires and are galvanized iron wires commonly used for building binding reinforcing steel bars, the reinforcing steel bar binding layer 3 is a mesh structure which is a cuboid mesh structure formed by arranging longitudinal reinforcing steel bars and transverse reinforcing steel bars at certain intervals and mutually crossing at right angles, the cuboid mesh structure has certain thickness, the thickness is the thickness of a wall body, and second binding knots 31 are arranged at the crossing points of the longitudinal reinforcing steel bars and the transverse, be provided with cushion 7 between heated board body 4's right-hand member and reinforcing bar ligature layer 3 and set up in reinforcing bar protection groove 6, cushion 7 adopts cement to make, and horizontal thickness is 15mm, plays the thickness control to reinforcing bar protection groove 6, avoids the extrusion to take place deformation wearing and tearing between reinforcing bar ligature layer 3 and the heated board body 4.

Please refer to fig. 1 and fig. 3, the right end face of the insulation board body 4 transversely penetrates through the contact surface with the cast-in-place concrete layer 8 to be provided with the strip-shaped groove 41, the number of the strip-shaped grooves 41 is a plurality of and transversely arranged on the insulation board body 4, the width of the strip-shaped groove 41 is 20mm, the depth is 15mm, 7 grooves are formed in each insulation board body 4, when concrete is poured, concrete liquid enters each strip-shaped groove 41, after the concrete liquid is condensed, the overall structural cohesive force between the insulation board body 4 and the cast-in-place concrete layer 8 can be further improved.

Referring to fig. 1, a cement jacking rod 5 is arranged between the insulation board body 4 and the aluminum formwork inner mold 2, and the transverse length of the cement jacking rod 5 is 200mm, so that the thickness of a concrete interface is controlled.

The utility model discloses when concrete implementation: referring to fig. 2, before installing the insulation board body 4, reinforcing steel bars are bound according to the area size of the wall body to form a reinforcing steel bar binding layer 3, the reinforcing steel bar binding layer 3 is a mesh structure which is a cuboid mesh structure formed by arranging longitudinal reinforcing steel bars and transverse reinforcing steel bars at certain intervals and crossing each other at right angles, the cuboid mesh structure has a certain thickness, the thickness is the thickness of the wall body, second binding knots 31 are bound at the crossing points of the longitudinal reinforcing steel bars and the transverse reinforcing steel bars, referring to fig. 1, then, a formwork is built on the preset aluminum alloy inner formwork 2 to ensure that the left end surface of the aluminum alloy inner formwork 2 is attached to the right end surface of the reinforcing steel bar binding layer 3, then a plurality of insulation board bodies 4 are spliced according to the design position, outer insulation anchor bolts 42 are transversely arranged on the insulation board body 4 in a penetrating manner, the right ends of the outer insulation anchor bolts 42 are fixed to the contact node positions of the reinforcing steel bar binding layer 3 through first binding knots 43, the integral splicing, mounting and fixing of a plurality of insulation board bodies 4 are realized, then an aluminum template outer mold 1 is built by clinging to the integral left end face of the insulation board body 4, a hollow groove is formed between the whole insulation board body 4 and the aluminum template inner mold 2, a steel bar binding layer 3 is positioned in the hollow groove, concrete is poured into the hollow groove through an upper side pouring gate to form a cast-in-place concrete layer 8, the aluminum alloy inner mold 2 and the aluminum template outer mold 1 on two sides are detached after the concrete is bonded and solidified, so that the real integral mounting structure of the inorganic isolation bin-divided polystyrene insulation board and a poured concrete wall body can be realized, the insulation board body 4 has no falling risk, the insulation board body 4 is made of the inorganic isolation bin-divided polystyrene, no toxic odor exists, the environmental protection performance of the wall body is improved, the harmful operation is eliminated, in addition, a plurality of strip-shaped grooves 41 structures, the overall structure cohesive force of the insulation board body 4 and the cast-in-place concrete layer 8 is further improved.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides an aluminium alloy template embeds inorganic isolation and divides storehouse polystyrene heated board body structure, includes aluminium template external mold (1), aluminium template centre form (2), reinforcing bar ligature layer (3), heated board body (4), cast in situ concrete layer (8), its characterized in that: form the hollow cavity between aluminium template external mold (1) and aluminium template centre form (2), the right side inslot of hollow cavity is provided with reinforcing bar ligature layer (3) to hug closely with the left end face of aluminium template centre form (2), be provided with between the left end of reinforcing bar ligature layer (3) and the right-hand member of heated board body (4) reinforcing bar protection slot (6), the left end face and the aluminium template external mold (1) right-hand member face of heated board body (4) are hugged closely, horizontal grafting has outer heat preservation crab-bolt (42) on heated board body (4), form the hollow cavity between aluminium template centre form (2) and the heated board body (4), the hollow cavity is interior cast-in-place concrete layer (8), be provided with cement top rod (5) between heated board body (4) and aluminium template centre form (2).

2. The aluminum alloy template built-in inorganic isolation bin-dividing polystyrene insulation board integrated structure as claimed in claim 1, which is characterized in that: outer heat preservation crab-bolt (42) transversely sets up and runs through heated board body (4), the vertical reinforcement of the one end of outer heat preservation crab-bolt (42) and the left end of reinforcing bar ligature layer (3) has first ligature (43).

3. The aluminum alloy template built-in inorganic isolation bin-dividing polystyrene insulation board integrated structure as claimed in claim 1, which is characterized in that: the right end face of the insulation board body (4) and the contact surface of the cast-in-place concrete layer (8) transversely penetrate through and are provided with strip-shaped grooves (41).

4. The aluminum alloy template built-in inorganic isolation bin-dividing polystyrene insulation board integrated structure as claimed in claim 3, which is characterized in that: the number of the strip-shaped grooves (41) is multiple and the grooves are transversely arranged on the heat preservation plate body (4).

5. The aluminum alloy template built-in inorganic isolation bin-dividing polystyrene insulation board integrated structure as claimed in claim 1, which is characterized in that: a cushion block (7) is arranged between the right end of the heat insulation board body (4) and the reinforcing steel bar binding layer (3) and is arranged in the reinforcing steel bar protection groove (6).

6. The aluminum alloy template built-in inorganic isolation bin-dividing polystyrene insulation board integrated structure as claimed in claim 1, which is characterized in that: each node of the steel bar binding layer (3) is provided with a second steel bar binding knot (31).

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