CN210917815U - Low-energy-consumption assembled heat-insulation wallboard - Google Patents

Abstract

The utility model discloses a low energy consumption assembly heat preservation wallboard, including wallboard main part component, wallboard main part component is the steel reinforcement cage that comprises heterotypic heated board, reinforcing bar and split joint spare. The utility model has the advantages that: the heat insulation material is closely connected with the outer template, the slurry of the outer template can conform to the unevenness degree of the surface of the heat insulation material under the action of gravity and is completely matched with the gradient and fluctuation of the slurry, the heat insulation board is used as an upper layer template platform to form a double-layer template platform, the inner template and the outer template are simultaneously poured and maintained, the yield of a single template platform in unit time is improved, the work efficiency is improved, the hollow FRP bridge-cut connector, the liquid outlet plug, the steel-plastic conversion threaded connector, the hollow lead screw pipe, the liquid inlet plug, the temperature sensor and the like are arranged, the cooling of the concrete pouring process can be carried out, and the heat deformation of the. Particularly, in high-temperature construction weather with outdoor temperature reaching about 40 ℃, the temperature rise caused by concrete hydration heat accumulation is more obvious.

Description

Low-energy-consumption assembled heat-insulation wallboard

Technical Field

The utility model relates to a heat preservation wallboard specifically is a low energy consumption assembly heat preservation wallboard belongs to prefabricated assembled concrete technical field.

Background

The prefabricated concrete technology is a technology for designing and building a concrete structure type house building in a field assembly mode after pouring, curing and forming concrete components in a factory. Compared with the traditional cast-in-place building, the fabricated building has the advantages of high industrialization degree, easy guarantee of construction quality, short construction period, high economic benefit, small influence of climate and the like, and has no problems of water consumption, energy consumption, material waste, much waste discharge and the like caused by field construction. In recent years, the assembly type building is strongly supported by national policies due to unique advantages, and the routine meeting of the national institute of affairs in 9-month and 30-month in 2016 is approved through the guidance opinions about the vigorous development of the assembly type building, and the opinions indicate that the force contends for about 10 years, so that the proportion of the assembly type building in a newly built building reaches 30%.

In the existing production process of the precast concrete member, the template is generally dismantled after the casting is finished, so that the labor cost is increased and the material waste is caused. Along with the technical progress, the disassembly-free integrated pouring template can be used for replacing the traditional template, after the template is built and formed, the template is fixed by the connecting rod piece, pouring and maintenance are carried out until the requirement is met, and at the moment, the template, the wall body and the connecting rod piece pre-embedded in concrete form a whole without disassembly. The technical scheme reduces the construction process, reduces the cost, avoids material waste and meets the national requirements of energy conservation and emission reduction. When the novel steel bar formwork integrated wallboard adopts heat preservation in the formwork, the structure of the novel steel bar formwork integrated wallboard is similar to that of a sandwich wallboard. The sandwich wallboard generally comprises an outer leaf plate, a heat insulation layer and a structural plate 3, and respectively corresponds to an outer template, a heat insulation layer and a cast-in-place structural plate of the novel reinforced template integrated wallboard.

When novel steel bar formwork integration wallboard keeps warm in using, there is following 3 point problems mainly: 1) the size of the wall body is large, the heat insulation plates need to be spliced into a plurality of blocks, but gaps at the splicing positions of the heat insulation plates are too large, when concrete is poured, slurry leaks from the gaps, and the concrete connects the outer formwork and the concrete of the cast-in-place structural slab, so that a strip-shaped cold and hot bridge is formed; 2) the anchoring of a connecting piece made of FRP and other materials between the heat-insulation plate and the wall body is failed, or the outer side of the heat-insulation plate is not smooth enough, so that the gap between the heat-insulation plate and the outer template is too large, and the outer template is easy to crack due to water vapor permeation, freeze thawing and frost heaving at the gap in winter, so that rainwater permeates into the wall body and corrodes the reinforcing steel bars; 3) the connecting piece made of FRP and other materials between the heat-insulating plate and the wall body leaks slurry at the hole penetrating through the heat-insulating plate, and the concrete communicates the outer formwork with the cast-in-place structural slab through the hole to generate a serious cold and hot bridge. These problems not only reduce the thermal performance of the wall and cause energy waste, but also reduce the service life of the wall and affect the indoor thermal stability.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a low energy consumption assembly heat preservation wallboard in order to solve above-mentioned problem.

The utility model discloses a following technical scheme realizes above-mentioned purpose: a low-energy-consumption assembled heat-insulation wallboard comprises a wallboard main body component, wherein the wallboard main body component is a reinforcement cage consisting of a special-shaped heat-insulation board, a reinforcement and a counter-pull connecting piece;

the special-shaped heat-insulation board is characterized in that an integrated outer template is arranged on the outer side of the special-shaped heat-insulation board, an integrated inner template is arranged on the inner side of the special-shaped heat-insulation board, the integrated outer template, the integrated inner template and the special-shaped heat-insulation board are arranged in a parallel mode, and the integrated outer template, the integrated inner template and the special-shaped heat-insulation board are fixedly connected through a counter-pull connecting piece in a counter-pull.

As a further aspect of the present invention: the split connecting pieces are provided with two types, one type is formed by a vertically arranged screw rod, the connecting end of the screw rod is connected with a steel-plastic conversion broken bridge sleeve through split connection, the other type is formed by a vertically arranged hollow FRP broken bridge connecting piece and a hollow screw rod pipe, and the two types of split connecting pieces are alternately arranged.

As a further aspect of the present invention: the top end of the hollow FRP broken bridge connecting piece is provided with a cooling liquid outlet and a liquid outlet plug, the liquid outlet plug is arranged at the top end of the hollow FRP broken bridge connecting piece and is sealed, and the bottom end of the hollow screw rod pipe is provided with a cooling liquid inlet and a liquid inlet plug.

As a further aspect of the present invention: the steel reinforcement cage that abnormal shape heated board, reinforcing bar and counter-pull connecting piece constitute is placed on can dismantling netted grid supporting platform, can dismantle netted grid supporting platform and install on lower floor's die table through adjustable support lead screw.

As a further aspect of the present invention: the splicing position of the special-shaped heat-insulation plate is provided with a foamed polyethylene sealing strip, and the special-shaped heat-insulation plate and the integrated outer template are connected through a heat-insulation plate convex connecting strip and a heat-insulation plate concave connecting strip.

As a further aspect of the present invention: the screw rod is inserted into a mounting hole which is formed in the special-shaped heat-insulation plate in advance and is fixed by a limiting lantern ring, and a sealing and fixing glue is filled in a gap between the screw rod and the mounting hole which is formed in the special-shaped heat-insulation plate.

As a further aspect of the present invention: the outside of steel-plastic conversion threaded connecting piece is provided with a temperature sensor, and the temperature sensor is in radio signal connection with external equipment.

As a further aspect of the present invention: can dismantle netted grid supporting platform upper surface is provided with upper limit template, just can dismantle netted grid supporting platform installs the both ends at the netted grid supporting platform of dismantling through first superstrong magnet, lower floor's die table upper surface is provided with lower floor's limit template, just lower floor's limit template passes through the both ends that the superstrong magnet of second was installed at lower floor's die table.

As a further aspect of the present invention: the lower end of the adjustable supporting screw rod is arranged at the edge of the lower-layer die table.

The utility model has the advantages that: (1) the heat insulation material is tightly connected with the outer template, and the slurry of the outer template can conform to the unevenness degree of the surface of the heat insulation material under the action of gravity and is completely matched with the gradient and fluctuation of the heat insulation material;

(2) when using the utility model discloses when producing integrated prefabricated wallboard, if the heated board seam is not tight, when upper integration exterior sheathing pours, concrete slurry can reveal lower floor's mould platform from the gap, so in time observe, discover the condition that the template piece leak the thick liquid not tight, and prevent cold and hot bridge remedy and sealing treatment, after having tentatively put up appropriate intensity in the concrete, with the local unnecessary concrete that leaks into the gap and get rid of, and paste heat preservation strip, pour the sealed heat bridge department such as mode such as foaming adhesive or resistant time glue, furthermore, in the process arrangement, can pour upper integration exterior sheathing earlier, pour the integration interior sheathing of lower floor again, the thick liquids that reveal the lower floor when upper integration exterior sheathing pours like this can use for the integration interior sheathing, can not waste;

(3) the heat-insulation board is used as an upper-layer mould platform, the existing equipment is used as a lower-layer mould platform, the counter-pull connecting piece is supported on the lower-layer mould platform to form a double-layer mould platform, the inner and outer templates are poured and maintained simultaneously, the yield of a single mould platform in unit time is improved, and the work efficiency is improved;

(4) the hollow FRP bridge-cut-off connecting piece, the liquid outlet plug, the steel-plastic conversion threaded connecting piece, the hollow screw rod pipe, the liquid inlet plug, the temperature sensor and the like are arranged, so that the concrete pouring process can be cooled, and the thermal deformation of the built-in insulation board is avoided. Particularly, under the high-temperature construction weather that the outdoor temperature reaches about 40 ℃, the temperature rise caused by the concrete hydration heat accumulation is more obvious;

(5) the wall body is provided with the heat insulation board and reliable bridge cut-off measures, so that the wall body has good heat insulation effect and can effectively reduce the energy consumption of the building.

Drawings

FIG. 1 is a schematic view of the wall panel structure of the present invention;

fig. 2 is the utility model discloses the double-deck model platform structure schematic diagram of wallboard production.

In the figure: 1. an integration exterior sheathing, 2, an integration interior sheathing, 3, heterotypic heated board, 4, the reinforcing bar, 5, the protruding connecting strip of heated board, 6, the sunken connecting strip of heated board, 7, the foaming polyethylene sealing strip, 8, spacing lantern ring, 9, sealed and fixed glue, 10, cavity FRP bridge cut-off connecting piece, 11, the liquid outlet end cap, 12, steel-plastic conversion threaded connection spare, 13, draw connection steel-plastic conversion bridge cut-off sleeve, 14, the lead screw, 15, the hollow lead screw pipe, 16, upper limit template, 17, first superstrong magnet, 18, lower floor's side template, 19, second superstrong magnet, 20, can dismantle netted grid supporting platform, 21, adjustable support lead screw, 22, the liquid inlet end cap, 23, temperature sensor and 24, lower floor's model platform.

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. 1-2, a low-energy-consumption assembled thermal insulation wallboard comprises a wallboard main body member, wherein the wallboard main body member is a reinforcement cage composed of a special-shaped thermal insulation board 3, a reinforcement 4 and a counter-pull connecting piece;

the outer side of the special-shaped heat-insulation board 3 is provided with an integrated outer template 1, the inner side of the special-shaped heat-insulation board 3 is provided with an integrated inner template 2, the integrated outer template 1, the integrated inner template 2 and the special-shaped heat-insulation board 3 are arranged in a parallel manner, and the integrated outer template 1, the integrated inner template 2 and the special-shaped heat-insulation board 3 are fixedly connected through a counter-pull connecting piece in a counter-pull screw rod shape.

Further, in the embodiment of the utility model provides an in, it is equipped with two kinds to drawing the connecting piece, one kind constitutes through the lead screw 14 by vertical arrangement, just the link of lead screw 14 is moulded the conversion bridge cut-off sleeve 13 through steel to drawing the connection and is connected, and another kind constitutes through the cavity FRP bridge cut-off connecting piece 10 by vertical arrangement and cavity lead screw pipe 15, just cavity FRP bridge cut-off connecting piece 10 is connected through steel with the link of cavity lead screw pipe 15, and two kinds are arranged in turn to drawing the connecting piece, and one kind only has the function to drawing the bridge cut-off, and another kind has simultaneously and is drawn the bridge and lead to cooling liquid cooling function.

Further, in the embodiment of the utility model, cavity FRP bridge cut-off connecting piece 10 top is equipped with the cooling liquid export and is equipped with liquid outlet end cap 11 and seals, cavity lead screw pipe 15 bottom is equipped with the cooling liquid inlet, is equipped with inlet end cap 22 and seals, flows in with cooling liquid such as running water from the pressurization of the 15 bottom cooling liquid entry of cavity lead screw pipe, leaves from FRP bridge cut-off connecting piece 10 top cooling liquid export pressurization, takes away concrete hydration heat, effectively reduces temperature and heat preservation face and heated board seam crossing temperature in the board, after the concrete solidification was accomplished, evacuation FRP bridge cut-off connecting piece 10 and the inside liquid of cavity lead screw pipe 15, liquid inlet end cap 11 and liquid outlet end cap 22 seal are advanced in the installation.

Further, in the embodiment of the utility model provides an in, the steel reinforcement cage that heterotypic heated board 3, reinforcing bar 4 and counter-pull connecting piece constitute is placed on can dismantling netted grid supporting platform 20, can dismantle netted grid supporting platform 20 and install on lower floor's mould platform 24 through adjustable support lead screw 21, if the heated board seam is not tight, when upper integration exterior sheathing was pour, lower floor's mould platform 24 can be revealed from the gap to the concrete thick liquids, can in time observe like this, discover the not tight condition of leaking the thick liquid of template piece to prevent that the cold and hot bridge remedies and sealing process.

Further, in the embodiment of the utility model provides an in, the concatenation department of heterotypic heated board 3 is equipped with foaming polyethylene sealing strip 7, just be connected through heated board protruding connecting strip 5 and heated board sunken connecting strip 6 between heterotypic heated board 3 and the integration exterior sheathing 1, guarantee that seam crossing is firmly sealed for the concrete does not flow down from the gap.

Further, in the embodiment of the utility model provides an in, lead screw 14 is inserted in the mounting hole that heterotypic heated board 3 seted up in advance to fixed by spacing lantern ring 8, just the mounting hole gap department that lead screw 14 and heterotypic heated board 3 seted up is filled has sealed and fixed glue 9, carries out the shutoff to gap department, improves the leakproofness of junction.

Further, in the embodiment of the utility model provides an in, temperature sensor 23 is installed in the outside of steel-plastic conversion threaded connection spare 12, just temperature sensor 23 is radio signal connection with external equipment, can detect whether the temperature exceeds standard, and then can be convenient for constructor in time cool down the construction.

Further, in the embodiment of the utility model provides an in, can dismantle netted grid supporting platform 20 upper surface and be provided with upper limit template 16, just can dismantle netted grid supporting platform 20 and install the both ends that can dismantle netted grid supporting platform 20 through first super magnet 17, lower floor's mould platform 24 upper surface is provided with lower floor's limit template 18, just lower floor's limit template 18 is installed at lower floor's mould platform 24 both ends through second super magnet 19, forms double-deck mould platform, and interior outer template is pour simultaneously, is maintained simultaneously, improves the output in single mould platform unit interval, improves the work efficiency.

Further, in the embodiment of the utility model provides an in, adjustable support lead screw 21 lower extreme is installed at lower floor's mould platform 24 marginally, avoids influencing pouring of integration inner formword.

A manufacturing method of a low-energy-consumption assembled heat-insulation wallboard comprises the following steps:

(1) the special-shaped heat-insulation board 3, the steel bars 4, the heat-insulation board convex connecting strips 5, the heat-insulation board concave connecting strips 6, the foamed polyethylene sealing strips 7, the limiting lantern rings 8, the sealing and fixing glue 9, the hollow FRP broken bridge connecting piece 10, the liquid outlet plugs 11, the steel-plastic conversion threaded connecting piece 12, the opposite-pull connection steel-plastic conversion broken bridge sleeve 13 and the screw rods 14 are connected and formed in advance in an interconnecting mode to form a steel bar cage with the special-shaped heat-insulation board 3 and the opposite-pull connecting pieces;

(4) the heat insulation board is provided with a counter-pull connecting piece in advance, when the counter-pull connecting piece penetrates through the heat insulation board, a gap at the position of a perforation is sealed by using sealing and fixing glue 9, and a rod piece of the counter-pull connecting piece penetrating through the heat insulation board can be wound with a flexible material for further sealing;

(5) the insulation board is reserved with bulges or depressions which are embedded and fixed with the concrete;

(6) placing the special-shaped heat-insulation plate 3 and a reinforcement cage of the counter-pull connecting piece on a detachable reticular grid supporting platform 20, enabling the counter-pull connecting piece and a screw rod 14 below the heat-insulation plate to pass through grid holes of the grid supporting platform, and supporting the lower end of the screw rod 14 of the counter-pull connecting piece on a lower-layer die table 24;

(7) after the wallboard is placed, adjusting the side die according to the size of the wallboard;

(8) pouring the integrated external template 1 by taking the connected special-shaped heat-insulation plate 3 as a bottom die;

(9) after the integrated outer formwork 1 is poured, if the phenomenon that the gaps of the insulation boards leak grout does not exist, pouring concrete on the lower-layer integrated inner formwork 2 is carried out, and the integrated outer formwork 1 and the integrated inner formwork 2 are molded;

(10) and after the strength of the template reaches the standard, the production of the integrated prefabricated wallboard is finished.

Further, in the embodiment of the utility model provides an in, when each heat preservation plate interconnect, make tongue-and-groove connection between the heated board to use flexible insulation material such as foamed polyethylene sealing strip 7 sealed, make the concrete not flow down from the gap.

Further, in the embodiment of the present invention, after the concrete is poured on the integrated inner formwork 2, the integrated outer formwork 1 and the integrated inner formwork 2 are formed by vibrating, standing and solidifying; if the slurry leakage phenomenon of the gaps of the insulation boards occurs, the cold and heat bridge prevention remediation and the sealing treatment are required to be carried out as soon as possible, and the pouring of the integrated outer formwork and the pouring of the integrated inner formwork are continuously completed after the treatment is completed.

Further, in the embodiment of the utility model provides an in, the prefabricated wallboard of integration production back that finishes, demolish and to dismantle netted grid supporting platform 20, hoist the prefabricated wallboard of integration, transport to the district of depositing and deposit.

The working principle is as follows: when the low-energy-consumption assembled heat-insulation wallboard and the manufacturing method thereof are used, the concrete releases hydration heat in the solidification process, the heat conductivity coefficient of the heat-insulation board is low, and if the hydration heat is accumulated too much at the position of the heat-insulation board, the temperature of the position where the heat-insulation board is contacted with the concrete is raised too high and exceeds the allowable temperature of the heat-insulation board or filler (foamed polyethylene) and bonding glue at the joint of the heat-insulation board, so that the heat-insulation board is softened and deformed, the joint is cracked, and the heat-insulation performance of a wall body is influenced. Particularly, in high-temperature construction weather with outdoor temperature reaching about 40 ℃, the temperature rise caused by concrete hydration heat accumulation is more obvious. Therefore, a cooling liquid outlet is arranged at the top end of the hollow FRP broken bridge connecting piece 10 and is closed by a liquid outlet plug 11; the bottom end of the hollow screw rod pipe 15 is provided with a cooling liquid inlet, and the hollow screw rod pipe is provided with a liquid inlet plug 22 for sealing. When concrete pouring is completed, the temperature sensor 23 monitors that the temperature exceeds the standard, and when the wall body needs to be cooled, the liquid inlet plug 22 and the liquid outlet plug 11 can be removed, cooling liquid such as tap water flows in from the cooling liquid inlet at the bottom end of the hollow screw rod pipe 15 in a pressurizing mode, the cooling liquid flows out from the cooling liquid outlet at the top end of the FRP bridge-cut-off connecting piece 10 in a pressurizing mode, concrete hydration heat is taken away, and the temperature in the plate and the temperature at the joint of the heat preservation plate surface and the heat preservation plate are effectively. After concrete solidification is finished, liquid in the FRP broken bridge connecting piece 10 and the hollow screw rod pipe 15 is emptied, and a liquid inlet plug 22 and a liquid outlet plug 11 are installed.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (9)

1. The utility model provides a low energy consumption assembly heat preservation wallboard, includes wallboard main part component, its characterized in that: the wallboard main body component is a reinforcement cage consisting of a special-shaped insulation board (3), a reinforcement (4) and a counter-pull connecting piece;

the special-shaped heat insulation board is characterized in that an integrated outer template (1) is arranged on the outer side of the special-shaped heat insulation board (3), an integrated inner template (2) is arranged on the inner side of the special-shaped heat insulation board (3), the integrated outer template (1), the integrated inner template (2) and the special-shaped heat insulation board (3) are arranged in a parallel mode, and the integrated outer template (1), the integrated inner template (2) and the special-shaped heat insulation board (3) are fixedly connected through a counter-pull connecting piece of a counter-pull screw rod.

2. A low energy consumption assembled insulating wall panel as claimed in claim 1, wherein: the split connecting piece is equipped with two kinds, one kind constitutes through lead screw (14) by vertical arrangement, just the link of lead screw (14) is connected through steel-plastic conversion bridge cut-off sleeve (13) to the split connection, and another kind constitutes through cavity FRP bridge cut-off connecting piece (10) by vertical arrangement and cavity lead screw pipe (15), just cavity FRP bridge cut-off connecting piece (10) is connected through steel-plastic conversion threaded connection spare (12) with the link of cavity lead screw pipe (15), and two kinds are arranged alternately to the split connecting piece.

3. A low energy consumption assembled insulating wall panel as claimed in claim 2, wherein: the top end of the hollow FRP broken bridge connecting piece (10) is provided with a cooling liquid outlet and a liquid outlet plug (11) for sealing, and the bottom end of the hollow screw rod pipe (15) is provided with a cooling liquid inlet and a liquid inlet plug (22) for sealing.

4. A low energy consumption assembled insulating wall panel as claimed in claim 1, wherein: the special-shaped heat-insulation board (3), the reinforcing steel bars (4) and the reinforcing steel bar cage formed by the counter-pull connecting pieces are placed on the detachable mesh grid supporting platform (20), and the detachable mesh grid supporting platform (20) is installed on the lower-layer die table (24) through the adjustable supporting lead screw (21).

5. A low energy consumption assembled insulating wall panel as claimed in claim 1, wherein: the splicing part of the special-shaped heat-insulation board (3) is provided with a foamed polyethylene sealing strip (7), and the special-shaped heat-insulation board (3) and the integrated outer template (1) are connected through a heat-insulation board convex connecting strip (5) and a heat-insulation board concave connecting strip (6).

6. A low energy consumption assembled insulating wall panel as claimed in claim 2, wherein: the screw rod (14) is inserted into a mounting hole which is formed in the special-shaped heat-insulation board (3) in advance and is fixed by a limiting lantern ring (8), and a sealing and fixing glue (9) is filled in a gap between the screw rod (14) and the mounting hole which is formed in the special-shaped heat-insulation board (3).

7. A low energy consumption assembled insulating wall panel as claimed in claim 2, wherein: a temperature sensor (23) is installed on the outer side of the steel-plastic conversion threaded connecting piece (12), and the temperature sensor (23) is in radio signal connection with external equipment.

8. A low energy consumption assembled insulating wall panel according to claim 4, wherein: can dismantle mesh grid supporting platform (20) upper surface is provided with upper limit template (16), just can dismantle mesh grid supporting platform (20) and install the both ends at can dismantling mesh grid supporting platform (20) through first superstrong magnet (17), lower floor's mould platform (24) upper surface is provided with lower floor's side forms (18), just lower floor's side forms (18) are installed at the both ends of lower floor's mould platform (24) through second superstrong magnet (19).

9. A low energy consumption assembled insulating wall panel according to claim 4, wherein: the lower end of the adjustable supporting screw rod (21) is arranged at the edge of the lower die table (24).

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