CN215829800U - Energy-saving building wallboard structure - Google Patents

Abstract

The utility model discloses an energy-saving building wallboard structure which comprises a concrete wall body, cavities and inner support assemblies, wherein the cavities are uniformly formed in the concrete wall body from top to bottom, and the inner support assemblies are arranged in the concrete wall body; according to the concrete wall, the steel bar frames are fixedly connected by the transverse steel bars and the vertical steel bars in a staggered mode, the internal structural strength of the concrete wall is effectively improved by means of the connection of the steel bar frames, meanwhile, the steel wire mesh is arranged at the position below the surface layer of the concrete wall, the adhesion between concrete on the surface layer of the concrete wall is effectively improved, the probability of concrete falling off of the surface layer of the concrete wall is reduced, and the cavity is arranged in the concrete wall, so that the use amount of concrete during production of the concrete wall is reduced.

Description

Energy-saving building wallboard structure

Technical Field

The utility model relates to the technical field of energy-saving building wallboards, in particular to an energy-saving building wallboard structure.

Background

The energy-saving building wallboard structure is a modular wallboard produced and formed by pre-customization, and because cement is poured and formed in a workshop in advance, workers do not need to adopt materials such as red bricks to pile in a construction site, and a mode of batch pouring production and on-site splicing assembly in the workshop is adopted, so that the construction cost can be effectively reduced, and energy conservation and environmental protection are realized;

present energy-saving building wallboard, it is in production, adopt cement to pour cooperation reinforcing bar support usually, rely on the reinforcing bar to alternate inside the concrete, connect the reinforcement, however building wallboard among the prior art, its inside reinforcing bar is one-way setting usually, lack the ascending connection in another side between the reinforcing bar, lead to wallboard internal connection compactness restricted, influence building wallboard's structural strength, and wallboard surface concrete drops easily, therefore, need to develop an energy-saving building wallboard structure urgently, with the solution of the problem mentioned above, and be convenient for marketing and application.

SUMMERY OF THE UTILITY MODEL

The utility model provides an energy-saving building wallboard structure, which aims to solve the problems that the internal structure strength of an energy-saving building wallboard in the prior art is limited, and concrete on the surface layer of the wallboard is easy to fall off.

In order to achieve the purpose, the utility model adopts the following technical scheme:

the utility model provides an energy-saving building wallboard structure which comprises a concrete wall body, cavities and inner support assemblies, wherein the cavities are uniformly formed in the concrete wall body from top to bottom, and the inner support assemblies are arranged in the concrete wall body;

the inner support assembly comprises a steel bar frame, the steel bar frame comprises transverse steel bars and vertical steel bars, the transverse steel bars and the vertical steel bars are mutually vertically crossed and fixedly connected, a steel wire mesh is arranged in the concrete wall body, the steel wire mesh is arranged below the surface layer of the concrete wall body, and the transverse steel bars and the vertical steel bars are mutually crossed and fixedly connected through the steel bar frame;

through adopting above-mentioned scheme, effectively promoted the adhesion between the concrete wall body surface course concrete, reduced the probability that concrete wall body surface course concrete drops.

Furthermore, two groups of reinforcing steel frames are arranged, and the two groups of reinforcing steel frames are symmetrically arranged on the front side and the rear side inside the concrete wall;

through adopting above-mentioned scheme, the inside structural strength of reinforced concrete wall 100 has strengthened the inside structural strength of concrete wall.

Furthermore, transverse plates are symmetrically arranged on the upper side and the lower side of each group of cavities, are embedded into the concrete wall, and are fixedly connected with the front reinforcing steel bar frame and the rear reinforcing steel bar frame;

by adopting the scheme, the cavity of the device is prevented from collapsing and being damaged, and the quality of the device is convenient to improve.

Further, the steel wire meshes are fixedly wrapped on the outer sides of the two groups of steel bar frames and the upper and lower groups of transverse plates, the steel wire meshes are formed by mutually weaving steel wires in a latticed manner, and inner grids of the steel wire meshes are rhombic;

through adopting above-mentioned scheme, promoted the connection compactness between wire net to the surface course concrete.

Furthermore, a filling block is inserted into the cavity and comprises a heat-insulating foam block, the size of the outer side of the heat-insulating foam block is matched with the size of the inner part of the cavity, and the heat-insulating foam block is connected with the cavity in a sliding manner;

by adopting the scheme, the heat-insulating foam block is convenient for a user to install or disassemble.

Furthermore, through holes are uniformly formed in the heat-insulation foam block, the through holes are longitudinally formed in the heat-insulation foam block, and the through holes penetrate through the heat-insulation foam block from front to back;

through adopting above-mentioned scheme, promoted the inside gas permeability of the device.

Furthermore, the opening appearance of the through holes is regular hexagon, and the through holes are arranged in the thermal insulation foam block in a honeycomb shape;

through adopting above-mentioned scheme, isolated to the noise when having strengthened the device and using, reduced noise pollution.

Furthermore, the outer walls of the front side and the rear side of the concrete wall body are uniformly fixed with bars which are transversely and vertically arranged on the outer wall of the concrete wall body;

by adopting the scheme, the outer surface of the concrete wall body is favorably decorated and constructed.

Furthermore, the cross section of the side surface of each bar is in a right-angled triangle shape, one right-angled edge of the cross section of each bar is attached to the outer wall of the concrete wall, and the other right-angled edge of the cross section of each bar faces upwards;

by adopting the scheme, the adhesive force of the bar to the exterior decoration material is further improved.

Furthermore, the outer surfaces of the transverse steel bars and the vertical steel bars in the steel bar frame are both provided with stripes, and the stripes are spirally arranged on the outer surfaces of the transverse steel bars and the vertical steel bars in the steel bar frame;

through adopting above-mentioned scheme, be convenient for promote the connection stability of steel reinforcement frame inner structure.

The utility model has the beneficial effects that:

1. according to the utility model, the transverse steel bars and the vertical steel bars are fixedly connected in a mutually staggered manner through the arrangement of the steel bar frames, the internal structural strength of the concrete wall body is effectively improved by means of the connection of the steel bar frames, and meanwhile, the adhesion between concrete on the surface layer of the concrete wall body is effectively improved and the probability of concrete falling off from the surface layer of the concrete wall body is reduced by arranging the steel wire gauze at the position below the surface layer of the concrete wall body.

2. According to the utility model, the cavity is arranged in the concrete wall body, so that the use amount of concrete during production of the concrete wall body is reduced conveniently, meanwhile, the heat-insulating foam block is arranged in the cavity in a sliding and inserting manner, so that the heat-insulating performance of the device is ensured conveniently, the heat-insulating foam block is convenient to disassemble and assemble, and the through hole is arranged on the front surface of the heat-insulating foam block in a matching manner, so that the ventilation property in the device is effectively improved, and the noise pollution is reduced conveniently.

3. According to the utility model, the bar is arranged on the outer surface of the concrete wall body, so that the device can provide a good attachment point for wall decoration construction after assembly is finished, the decorative material is effectively prevented from falling off due to the fact that the surface is too smooth during wall decoration, meanwhile, the section of the bar is arranged to be a right-angled triangle, materials used for assembling the bar are effectively reduced, and the cost of the device is reduced conveniently.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is an enlarged view of the structure at A in FIG. 1 according to the present invention;

FIG. 3 is a schematic perspective view of the construction of the inner support assembly of the present invention;

fig. 4 is a perspective view of the structure of the reinforcing cage and the transverse plate according to the present invention;

FIG. 5 is a schematic perspective view of the structure of a steel wire mesh according to the present invention;

fig. 6 is a schematic perspective view of the structure of the filling block of the present invention.

In the figure:

100-concrete wall body, 200-cavity, 300-internal support component, 310-reinforcing frame, 320-transverse plate, 330-steel wire mesh, 400-filling block, 410-heat preservation foam block, 420-through hole and 500-bar.

Detailed Description

The technical scheme of the utility model is further explained by the specific implementation mode in combination with the attached drawings.

As shown in fig. 1 to 6, the energy-saving building wallboard structure of the present embodiment includes a concrete wall 100, a cavity 200 and an inner support assembly 300, the cavity 200 is uniformly opened in the concrete wall 100 from top to bottom, and the inner support assembly 300 is installed in the concrete wall 100;

the inner support assembly 300 comprises a reinforcing steel bar frame 310, the reinforcing steel bar frame 310 comprises transverse reinforcing steel bars and vertical reinforcing steel bars, the transverse reinforcing steel bars and the vertical reinforcing steel bars are vertically crossed and fixedly connected with each other, a steel wire mesh 330 is installed inside the concrete wall body 100, the steel wire mesh 330 is arranged below the surface layer of the concrete wall body 100, when the device works, the transverse reinforcing steel bars and the vertical reinforcing steel bars in the reinforcing steel bar frame 310 are vertically crossed and fixedly connected with each other, so that the structural connection tightness inside the concrete wall body 100 is favorably improved, the structural strength of the device is convenient to improve, meanwhile, the steel wire mesh 330 is covered below the surface layer of the concrete wall body 100, the connection tightness between the concrete layers on the surface layer of the concrete wall body 100 is effectively improved, and the surface layer concrete is prevented from falling off;

in this embodiment, two sets of the reinforcing frames 310 are provided, the two sets of the reinforcing frames 310 are symmetrically disposed on the front and rear sides of the interior of the concrete wall 100, and the two sets of the reinforcing frames 310 are symmetrically disposed on the front and rear sides of the cavity 200, so as to further enhance the structural strength of the interior of the concrete wall 100.

In this embodiment, the upper and lower both sides of every group cavity 200 are all symmetrical to be provided with diaphragm 320, and the inside at concrete wall 100 is embedded into to diaphragm 320, fixed connection between diaphragm 320 and the front and back two sets of reinforcing bar frames 310, through setting up the connection of diaphragm 320, the effectual connection stability between two sets of reinforcing bar frames 310 around having ensured, be convenient for provide better internal connection for concrete wall 100 and support, and simultaneously, lift through diaphragm 320, two sets of reinforcing bar frames 310 around the cooperation, the damage of collapsing appears in the effectual device cavity 200 of avoiding, be convenient for promote the quality of the device.

In this embodiment, the fixed parcel of wire net 330 is in two sets of steel reinforcement frame 310 and the outside of two sets of upper and lower horizontal boards 320, and wire net 330 is latticed intertexture through the steel wire and forms, and the inside net of wire net 330 is the rhombus, and the inside through setting up wire net 330 is the latticed of rhombus, has effectually promoted the connection compactness of wire net 330 between to the surface course concrete.

In this embodiment, the inside of cavity 200 is inserted and is equipped with filling block 400, and filling block 400 is including heat preservation foam piece 410, the outside size of heat preservation foam piece 410 and the inside size looks adaptation of cavity 200, sliding connection between heat preservation foam piece 410 and the cavity 200, insert the inside of establishing cavity 200 through setting up heat preservation foam piece 410, the effectual heat preservation performance that has promoted the device, through setting up sliding connection between heat preservation foam piece 410 and the cavity 200, be convenient for install or dismantle heat preservation foam piece 410.

In this embodiment, perforating hole 420 has evenly been seted up to the inside of heat preservation foam piece 410, and perforating hole 420 vertically sets up in the inside of heat preservation foam piece 410, runs through the inside of heat preservation foam piece 410 around perforating hole 420, runs through the inside of setting up in heat preservation foam piece 410 through setting up perforating hole 420, has effectually promoted the inside gas permeability of the device.

In this embodiment, the opening appearance of perforating hole 420 is regular hexagon, and perforating hole 420 is cellular the inside of seting up at heat preservation foam piece 410, is cellular the inside of seting up at heat preservation foam piece 410 through setting up perforating hole 420, turns into the principle that heat energy dispels with the help of honeycomb with acoustic energy, and the effectual isolated effect to the noise when having promoted the device use is convenient for reduce noise pollution.

In this embodiment, the outer walls of the front and the rear sides of the concrete wall 100 are uniformly fixed with the bars 500, and the bars 500 are arranged on the outer wall of the concrete wall 100 in a horizontal and straight manner, and are arranged on the outer wall of the concrete wall 100 by arranging the bars 500, so that the adhesive force on the outer wall of the concrete wall 100 is favorably improved, and the outer surface of the concrete wall 100 is convenient for decoration and construction.

In this embodiment, the side cross-section of bar 500 is the right triangle shape, and a right-angle side laminating of bar 500 cross-section is on concrete wall 100's outer wall, and another right-angle side of bar 500 cross-section is up, is the right triangle shape through the cross-section that sets up bar 500, and the use amount of material when being favorable to reducing bar 500 and decorating, simultaneously, is favorable to further promoting bar 500 to the adhesive force of exterior finishing material.

In this embodiment, the inside horizontal bar of steel reinforcement frame 310 all is equipped with the stripe on the surface with vertical bar, and the stripe is the heliciform setting on the surface of the inside horizontal bar of steel reinforcement frame 310 with vertical bar, through setting up the inside horizontal bar of steel reinforcement frame 310 and being equipped with heliciform stripe on the surface with vertical bar, the effectual contact friction who promotes between horizontal bar and the vertical bar is convenient for promote the connection stability of steel reinforcement frame 310 inner structure.

In the utility model, when in use, the transverse steel bars and the vertical steel bars in the steel bar frames 310 are vertically connected with each other, so that the tightness of the steel bar frames 310 to the interior of the concrete wall 100 is effectively improved, the structural strength of the concrete wall 100 is convenient to improve, meanwhile, the transverse plates 320 are uniformly connected between the front and the back steel bar frames 310, the structural strength in the device is further enhanced, the cavity 200 is prevented from collapsing, the steel wire mesh 330 is covered under the surface layer of the concrete wall 100, the concrete on the surface layer of the concrete wall 100 is effectively prevented from falling off by virtue of the connection of the latticed steel wire mesh 330, the heat-insulating foam block 410 is inserted in the cavity 200, the heat-insulating performance of the device is effectively enhanced, and meanwhile, the through holes 420 are uniformly arranged in the heat-insulating foam block 410, so that the internal ventilation performance of the device is effectively improved, and the sound energy is converted into heat energy by the through holes 420 arranged in a honeycomb shape, the isolation performance of the device to noise is effectively improved, and the adhesion capability of the outer surface of the concrete wall 100 to the decorative material can be effectively improved due to the existence of the bar 500.

While the utility model has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing from the spirit and scope of the utility model. The present invention is not to be limited by the specific embodiments disclosed herein, and other embodiments that fall within the scope of the claims of the present application are intended to be within the scope of the present invention.

Claims (10)

1. An energy-saving building wallboard structure is characterized by comprising a concrete wall body (100), a cavity (200) and an inner support assembly (300), wherein the cavity (200) is uniformly formed in the concrete wall body (100) from top to bottom, and the inner support assembly (300) is arranged in the concrete wall body (100);

interior support subassembly (300) including steel reinforcement frame (310), the inside of steel reinforcement frame (310) is including horizontal bar and vertical reinforcement, be perpendicular cross fixed connection between horizontal bar and the vertical reinforcement each other, the internally mounted of concrete wall body (100) has wire net (330), and wire net (330) sets up the top layer below position at concrete wall body (100).

2. The energy-saving building wallboard structure of claim 1, wherein: the two groups of the reinforcing steel frames (310) are arranged, and the two groups of the reinforcing steel frames (310) are symmetrically arranged on the front side and the rear side of the interior of the concrete wall body (100).

3. The energy-saving building wallboard structure of claim 2, wherein: and transverse plates (320) are symmetrically arranged on the upper side and the lower side of each group of cavities (200), the transverse plates (320) are embedded in the concrete wall body (100), and the transverse plates (320) are fixedly connected with the front reinforcing steel bar frame and the rear reinforcing steel bar frame (310).

4. The energy-saving building wallboard structure of claim 3, wherein: wire net (330) is fixed the parcel is two sets of reinforcing bar frame (310) and upper and lower two sets of the outside of diaphragm (320), wire net (330) is latticed intertexture through the steel wire and forms, the inside net of wire net (330) is the rhombus.

5. The energy-saving building wallboard structure of claim 4, wherein: the heat-insulation foam block is characterized in that a filling block (400) is inserted into the cavity (200), the filling block (400) comprises a heat-insulation foam block (410), the outer side size of the heat-insulation foam block (410) is matched with the inner size of the cavity (200), and the heat-insulation foam block (410) is connected with the cavity (200) in a sliding mode.

6. The energy-saving building wallboard structure of claim 5, wherein: through hole (420) have evenly been seted up to the inside of heat preservation foam block (410), and through hole (420) vertically open in the inside of heat preservation foam block (410), the inside of heat preservation foam block (410) is run through around through hole (420).

7. The energy-saving building wallboard structure of claim 6, wherein: the opening appearance of the through holes (420) is regular hexagon, and the through holes (420) are arranged in the thermal insulation foam block (410) in a honeycomb shape.

8. The energy-saving building wallboard structure of claim 1, wherein: the outer walls of the front side and the rear side of the concrete wall body (100) are uniformly fixed with the bars (500), and the bars (500) are transversely and vertically arranged on the outer wall of the concrete wall body (100).

9. The energy-saving building wallboard structure of claim 8, wherein: the side cross-section of bar (500) is the right triangle-shaped form, a right angle limit laminating on concrete wall (100) of bar (500) cross-section, another right angle limit of bar (500) cross-section is up.

10. The energy-saving building wallboard structure of claim 1, wherein: the outer surfaces of the transverse steel bars and the vertical steel bars in the steel bar frame (310) are all provided with stripes, and the stripes are spirally arranged on the outer surfaces of the transverse steel bars and the vertical steel bars in the steel bar frame (310).

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