CN114150830B - Energy-saving insulation board structure for building exterior wall decoration - Google Patents

Abstract

The invention discloses a building outer wall decoration energy-saving insulation board structure, which comprises: first outer wall body, second outer wall body, keel frame set up between first outer wall body, the second outer wall body, are provided with the notch of evenly arranging in the keel frame, are provided with heated board, a plurality of water-absorbing resin pad in the notch, and the outer wall of heated board is laminated with keel frame mutually through respectively water-absorbing resin pad, and keel frame's antetheca is provided with net cloth, back wall setting internal baffle. According to the invention, the keel frame, the gridding cloth, the inner baffle, the water-absorbent resin pad and the heat-insulation board are arranged, the heat-insulation board is embedded and arranged inside the notch, when the heat-insulation board deforms to a certain extent due to heat expansion and cold contraction, the water-absorbent resin pad inside can be extruded, so that a sufficient deformation space is provided for the heat expansion and cold contraction of the heat-insulation board to a certain extent, and the gridding cloth not only has good chemical stability, but also has good performances of fire prevention, heat insulation, sound insulation and insulation, so that the overall heat-insulation effect of the outer wall can be improved to a certain extent.

Description

Energy-saving insulation board structure for building exterior wall decoration

Technical Field

The invention relates to the technical field of building exterior walls, in particular to a decorative energy-saving insulation board structure for a building exterior wall.

Background

The prior patent with patent document 202020167854.X discloses a building energy-saving heat-insulating structure, which comprises a front plate, wherein the front plate is of a rectangular structure, the material of the front plate is a corrosion-resistant and compression-resistant outer plate, a rear plate is arranged behind the front plate and is of a rectangular structure, the rear plate is a sound-absorbing composite plate, a heat-insulating laminate is arranged behind the front plate and is of a rectangular structure, the front wall surface of the heat-insulating laminate is fixedly connected with the rear wall surface of the front plate, a heat-insulating laminate is arranged behind the heat-insulating laminate, the rear wall surface of the heat-insulating laminate is fixedly connected with the front wall surface of the rear plate, compression-resistant grooves are symmetrically formed in one side wall surface of the heat-insulating laminate, which is close to the heat-insulating laminate, the two edge-covering blocks are clamped in the corresponding edge-covering grooves, corners at the top of the heat-insulating structure are easy to deform under extrusion force, and the edge-covering blocks are of the compression-resistant structures, playing the role of protecting the edge.

However, the building energy-saving insulation structure disclosed in the above publication mainly protects the corners of the insulation structure, and does not consider that the insulation structure inside the building outer wall is easily broken due to expansion with heat and contraction with cold, thereby affecting the overall insulation performance of the outer wall.

Therefore, there is a need for an energy-saving insulation board structure for decorating external walls of buildings to at least partially solve the problems in the prior art.

Disclosure of Invention

In this summary, concepts in a simplified form are introduced that are further described in the detailed description. This summary of the invention is not intended to identify key features or essential features of the claimed subject matter, nor is it intended to be used as an aid in determining the scope of the claimed subject matter.

In order to at least partially solve the above problems, the present invention provides an energy-saving insulation board structure for decorating exterior walls of buildings, comprising: first outer wall body, second outer wall body, keel frame sets up between first outer wall body, the second outer wall body, be provided with the notch of evenly arranging in the keel frame, be provided with heated board, a plurality of water-absorbing resin pad in the notch, the outer wall of heated board is laminated with keel frame through respectively water-absorbing resin pad, keel frame's antetheca is provided with net cloth, back wall setting internal baffle.

According to the building external wall decoration energy-saving insulation board structure provided by the embodiment of the invention, the front surface of the front grid cloth is provided with the concrete broken stone layers which are arranged in the front and back direction, the surfaces of the two concrete broken stone layers which are close to each other are provided with the wall building bricks which are uniformly arranged, the size of each wall building brick is smaller than that of each concrete broken stone layer, the front surface of each wall building brick is provided with the object placing holes which are arranged at equal intervals in a penetrating mode, the inner parts of the object placing holes are embedded with the reinforcing ribs, and the length of each reinforcing rib is smaller than that of each object placing hole.

According to the building external wall decoration energy-saving insulation board structure provided by the embodiment of the invention, the front side of the front concrete gravel layer is provided with the sound insulation felts which are uniformly distributed, the size of each sound insulation felt is smaller than that of the concrete gravel layer, the sound insulation felts are connected through the viscose, the front sides of the sound insulation felts are provided with the sound absorption cotton, the size of the sound absorption cotton is the same as that of the sound insulation felts, the back side of the inner baffle is provided with the cotton layer which is uniformly distributed, and the size of the cotton layer is smaller than that of the mesh cloth.

According to the building outer wall decoration energy-saving insulation board structure provided by the embodiment of the invention, the cotton layer is arranged on the front side of the first outer wall body, and the size of the first outer wall body is the same as that of the keel frame.

According to the building outer wall decoration energy-saving insulation board structure provided by the embodiment of the invention, the back surface of the first outer wall body is provided with the negative ion coating.

According to the building outer wall decoration energy-saving insulation board structure provided by the embodiment of the invention, the sound absorption cotton is arranged on the rear side of the second outer wall body, and the size of the second outer wall body is the same as that of the first outer wall body.

According to the building outer wall decoration energy-saving insulation board structure provided by the embodiment of the invention, the front surface of the second outer wall body is provided with the transparent isolation coating.

According to the building outer wall decoration energy-saving insulation board structure provided by the embodiment of the invention, the decorative boards are uniformly arranged on the front surface of the transparent isolation coating, and the size of each decorative board is smaller than that of the second outer wall body.

According to the building outer wall decoration energy-saving insulation board structure provided by the embodiment of the invention, the reinforcing groove is formed in the inner wall of the keel rod of the keel frame, the reinforcing mechanism is arranged in the reinforcing groove and comprises a first flexible layer, a second flexible layer, an inner bone module layer, a third flexible layer and an inner cushion layer, the inner cushion layer is arranged at the bottom of the reinforcing groove, the third flexible layer is arranged above the inner cushion layer, the inner bone module layer is arranged above the third flexible layer, the second flexible layer is arranged above the inner bone module layer, the first flexible layer is arranged above the second flexible layer, the inner bone module layer comprises a first isolation layer, a first inner frame, a second isolation layer, a second inner frame and a third isolation layer, the first isolation layer is arranged below the second isolation layer, and the first inner frame, the second inner frame and the third isolation layer are arranged below the second isolation layer, The second inner skeleton is sequentially arranged below the first isolation layer, the third isolation layer is arranged below the second inner skeleton and located above a third flexible layer, a plurality of inner bone holes are formed in the inner bone module layer and penetrate through the first inner skeleton, the second isolation layer and the second inner skeleton, flexible sleeves and inner bone rods are arranged in the inner bone holes, the inner bone rods are arranged in the flexible sleeves, the first inner skeleton comprises an upper bone plate, a lower bone plate and a continuous concave-convex plate, the continuous concave-convex plate is arranged between the upper bone plate and the lower bone plate, a hollow cylinder is arranged in a groove body of the continuous concave-convex plate, and a plurality of lightening holes are formed in the hollow cylinder.

According to the building external wall decoration energy-saving insulation board structure of the embodiment of the invention, a plurality of abutting modules are arranged in a notch of a keel frame, the plurality of abutting modules are uniformly distributed in the notch, the insulation board is arranged on the abutting modules, the abutting modules comprise abutting cylinders and a plurality of movable abutting frames, a plurality of strip-opening holes are arranged on the abutting cylinders, inner springs are arranged in the abutting cylinders, the movable abutting frames are arranged in the abutting cylinders and abut against the inner springs, the movable abutting frames comprise abutting plates, abutting rods and a plurality of outer support rod groups, the abutting plates are arranged on the abutting rods, a plurality of inner support grooves are arranged at the lower parts of the abutting rods, outer ring grooves are arranged on the abutting plates, cross-shaped holes and a plurality of insertion holes are arranged in the inner grooves, and a plurality of first notch grooves are arranged on the outer ring parts of the outer ring grooves, the inner groove is provided with a first notch groove, the inner groove is internally provided with an inner cover plate, a cross-shaped block corresponding to the cross-shaped hole and an inserted rod corresponding to the insertion hole are arranged below the inner cover plate, the outer support rod group comprises a fixed rod, a rotating cylinder, a moving cylinder, an inclined upper rod, an ejector rod and ejector balls, the rotating cylinder and the moving cylinder are arranged on the fixed rod, the inner end of the fixed rod penetrates through the strip opening hole and extends to the inner support hole, the inclined upper rod is arranged on the moving cylinder, the ejector rod is arranged on the inclined upper rod, the ejector balls are arranged at the inner end of the ejector rod, the ejector rod is arranged in the first notch groove, the ejector balls are located in the outer ring groove, and one of the ejector balls is located in the second notch groove and abuts against one of the inserted rods.

Compared with the prior art, the invention at least comprises the following beneficial effects:

1. the invention provides a building outer wall decoration energy-saving insulation board structure, which is obviously provided with a keel frame, grid cloth, a water-absorbent resin pad and an insulation board, wherein the keel frame is firstly built when a wall is built, then uniform notches are formed, symmetrical water-absorbent resin pads are laid in the notches, then the insulation board is embedded and installed in the notches, when the insulation board deforms by a certain amount due to heat expansion and cold contraction, the water-absorbent resin pad in the insulation board can be extruded, and then sufficient deformation space is provided for the heat expansion and cold contraction of the insulation board to a certain degree, and the grid cloth not only has good chemical stability, but also has good fireproof, heat preservation, sound insulation and insulation performances, so that the overall heat preservation effect of an outer wall can be improved to a certain degree.

2. The invention provides a building outer wall decoration energy-saving insulation board structure which is provided with a concrete crushed stone layer, wall bricks, object placing holes and reinforcing ribs, wherein the front surfaces of the wall bricks are provided with uniform object placing holes, the reinforcing ribs are placed in the object placing holes, and then the concrete crushed stone layer is coated on the two surfaces of the wall bricks, so that the integral load bearing capacity of the building outer wall is increased, and the stability of the wall body can be increased to a certain degree.

3. The invention provides a building outer wall decoration energy-saving insulation board structure, which is characterized in that a sound insulation felt, sound absorption cotton and a cotton layer are installed, external noise enters the interior of a second outer wall body after passing through a decoration board, partial noise is absorbed by the sound absorption cotton and then enters the interior of the sound insulation felt, and then the noise enters the interior of the cotton layer after passing through two mesh cloths.

4. The invention provides a building outer wall decoration energy-saving insulation board structure which is provided with a negative ion coating, wherein the negative ion coating is arranged on the surface of a first outer wall body, so that harmful gas in purified air can be absorbed, the purpose of purifying air can be achieved to a certain extent, and the building outer wall decoration energy-saving insulation board structure is beneficial to body health.

Other advantages, objects, and features of the present invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the present invention.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

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

FIG. 2 is a schematic structural view of a concrete gravel layer according to the present invention;

FIG. 3 is a schematic view of the structure of the decorative panel of the present invention;

FIG. 4 is a schematic structural view of the keel frame of the invention;

FIG. 5 is a side view of the structure of the present invention;

FIG. 6 is a schematic view of the reinforcement mechanism of the present invention;

FIG. 7 is a schematic structural view of a first endoskeleton of the present invention;

FIG. 8 is a schematic structural diagram of a butting module according to the invention;

FIG. 9 is an exploded view of the exemplary ejection module of the present invention;

FIG. 10 is a schematic view of the structure of the top plate of the present invention;

FIG. 11 is a top view of the structure of the top plate of the present invention;

FIG. 12 is a schematic view of the construction of the outer strut set in the present invention;

fig. 13 is a schematic structural view of the inner cover plate of the present invention.

Detailed Description

The present invention is further described in detail below with reference to the drawings and examples so that those skilled in the art can implement the invention with reference to the description.

It will be understood that terms such as "having," "including," and "comprising," as used herein, do not preclude the presence or addition of one or more other elements or combinations thereof.

Example one

Referring to fig. 4, an embodiment of the present invention: the utility model provides an energy-conserving heated board structure is decorated to building outer wall, including keel frame 1, keel frame 1's front runs through the notch that is provided with even arrangement, and the notch is "mouth" style of calligraphy structure, absorbent resin pad 102 is all installed to the inner wall of notch, and the thickness of absorbent resin pad 102 equals with the thickness of notch, the internally mounted of notch has heated board 103, and heated board 103's outer wall is laminated with the relative surface of absorbent resin pad 102 respectively, heated board 103's thickness is less than the thickness of notch, net cloth 101 is installed to keel frame 1's antetheca, back wall installation interior baffle 107, and net cloth 101, the size of interior baffle 107 is the same with keel frame 1's size.

Specific, according to the actual size installation keel frame 1 of wall body, and the notch internal surface on keel frame 1 glues glutinous water absorbent resin pad 102, then place heated board 103 in the notch, make heated board 103's surface can laminate mutually with water absorbent resin pad 102's both sides, then net cloth 101 on keel frame 1's surface mounting, interior baffle 107, heated board 103 can be located the inside of notch all the time after receiving expend with heat and contract with cold, thereby reserve sufficient space for the expend with heat and contract with cold of heated board 103 to a certain extent, because net cloth 101 has good fire prevention, keep warm, give sound insulation and insulating properties, therefore can effectively improve the heat preservation effect of building outer wall.

Example two

As shown in the attached drawing 2, an energy-saving insulation board structure for decorating an external wall of a building comprises a concrete gravel layer 2, the front surface of a front grid cloth 101 is provided with the concrete gravel layer 2 arranged front and back, the surface of the two concrete gravel layers 2 close to each other is provided with wall bricks 201 arranged uniformly, the size of the wall bricks 201 is smaller than that of the concrete gravel layers 2, the front surface of the wall bricks 201 is provided with object placing holes 202 arranged at equal intervals in a penetrating mode, reinforcing ribs 203 are installed in the inner embedding of the object placing holes 202, and the length of the reinforcing ribs 203 is smaller than that of the object placing holes 202.

Specifically, insert strengthening rib 203 in putting thing hole 202 on brick 201 of building a wall, then paint the garrulous stone layer of concrete 2 on the surface of brick 201 of building a wall to can improve building wall's bearing capacity to a certain extent, through installing keel frame 1, brick 201 of building a wall, garrulous stone layer of concrete 2, second outer wall 105 and first outer wall 104, can effectively improve the holistic steadiness of building outer wall.

EXAMPLE III

As shown in the attached figure 1, the building outer wall decoration energy-saving insulation board structure comprises a sound insulation felt 3, a second outer wall body 105 and a first outer wall body 104, wherein the sound insulation felt 3 which is uniformly distributed is installed on the front surface of a front concrete gravel layer 2, the size of the sound insulation felt 3 is smaller than that of the concrete gravel layer 2, a plurality of sound insulation felts 3 are connected through viscose, sound absorption cotton 301 is installed on the front surface of each sound insulation felt 3, the size of the sound absorption cotton 301 is the same as that of the sound insulation felt 3, a cotton layer 302 which is uniformly distributed is arranged on the back surface of an inner baffle 107, and the size of the cotton layer 302 is smaller than that of the mesh cloth 101, the sound-absorbing cotton 301 is arranged at the rear side of the second outer wall 105, the size of the second outer wall 105 is the same as that of the first outer wall 104, a cotton layer 302 is installed on the front side of the first outer wall 104, and the size of the first outer wall 104 is the same as that of the keel frame 1.

Specifically, the inside of inhaling sound cotton 301 is at first entered into from second exterior wall 105 to external noise, through inhaling the inside that sound cotton 301 absorbs the noise and enter into soundproof felt 3 again after partly, one of them part noise can be blocked outside by soundproof felt 3, another part enters into the inside on cotton layer 302, because there are a large amount of fibre holes in the inside on cotton layer 302, the noise gets into cotton layer 302 back, can increase the bounce-back number of times of noise, thereby reach the mesh of amortization, inhale the sound through amortization layer upon layer, can effectively improve the sound insulation of this building outer wall to a certain extent.

Example four

As shown in fig. 3 and fig. 5, the energy-saving insulation board structure for decorating the exterior wall of the building comprises a transparent isolation coating 4, a negative ion coating 106 and a decorative board 8, wherein the negative ion coating 106 is arranged on the back surface of a first exterior wall 104, the transparent isolation coating 4 is arranged on the front surface of a second exterior wall 105, the decorative boards 8 which are uniformly arranged are arranged on the front surface of the transparent isolation coating 4, and the size of the decorative board 8 is smaller than that of the second exterior wall 105.

Specifically, be provided with transparent barrier coating 4 on the surface of second outer wall 105, thereby can avoid rainwater to get into the inside back of wall and influence the condition emergence of its internal insulation structure to a certain extent, and spread decorative board 8 on transparent barrier coating 4's surface, improve second outer wall 105's aesthetic property with this, and the surface of first outer wall 104 is provided with anion coating 106, after contacting with the air, can adsorb the harmful gas in the surrounding environment to the material surface, and fix in the hole on material surface, then neutralize and produce chemical reaction, and then can reach the purpose of air-purifying to a certain extent.

The working principle is as follows: firstly, when a keel frame 1 is built, the heat insulation board 103 is placed in a groove on the keel frame 1, the heat insulation board 103 can be in contact with a water-absorbent resin pad 102, and then gridding cloth 101 is installed on the front surface and the back surface of the keel frame 1, so that enough space can be reserved for expansion with heat and contraction with cold of the heat insulation board 103 to a certain extent, and the overall heat insulation effect of the building outer wall can be improved;

then, the reinforcing ribs 203 are placed in the placing holes 202 in the wall building bricks 201, and concrete crushed stone layers 2 are coated on the surfaces of the wall building bricks 201, so that the overall load capacity of the building outer wall is enhanced, and the sound insulation effect can be improved to a certain extent through the arrangement of the sound insulation felt 3, the sound insulation cotton 301 and the cotton layer 302; transparent barrier coating 4 is sprayed on the surface of second outer wall 105, so that rainwater can be prevented from permeating into the wall to a certain extent, and negative ion coating 106 on the surface of first outer wall 104 can adsorb and purify harmful gases in the surrounding air, thereby achieving the purpose of air purification.

EXAMPLE five

As shown in fig. 6 and 7, an energy-saving insulation board structure for decorating an external wall of a building comprises a keel frame 1, a reinforcing groove is arranged on the inner wall of a keel rod of the keel frame 1, a reinforcing mechanism 5 is arranged in the reinforcing groove, the reinforcing mechanism 5 comprises a first flexible layer 51, a second flexible layer 52, an inner bone module layer 53, a third flexible layer 54 and an inner cushion layer 55, the inner cushion layer 55 is arranged at the bottom of the reinforcing groove, the third flexible layer 54 is arranged above the inner cushion layer 55, the inner bone module layer 53 is arranged above the third flexible layer 54, the second flexible layer 52 is arranged above the inner bone module layer 53, the first flexible layer 51 is arranged above the second flexible layer 52, the inner bone module layer 53 comprises a first isolation layer 531, a first inner frame 532, a second isolation layer 533, a second inner frame 534 and a third isolation layer 535, the first isolation layer 531 is arranged below the second flexible layer 52, the first inner framework 532, the second isolation layer 533 and the second inner framework 534 are sequentially arranged below the first isolation layer 531, the third isolation layer 535 is arranged below the second inner framework 534 and above the third flexible layer 54, a plurality of inner bone holes 536 are arranged in the inner bone module layer 53, the inner bone holes 536 penetrate through the first inner framework 532, the second isolation layer 533 and the second inner framework 534, flexible sleeves 537 and inner bone rods 538 are arranged in the inner bone holes 536, the inner bone rods 538 are arranged in the flexible sleeves 537, the first inner framework 532 comprises an upper bone plate 539, a lower bone plate 540 and a continuous concave-convex plate 541, the continuous concave-convex plate 539 and the lower bone plate 540 are arranged between the upper bone plate 539 and the lower bone plate 540, a hollow cylinder 542 is arranged in a groove body of the continuous concave-convex plate 541, and a plurality of weight reducing holes 551 are arranged on the hollow cylinder 542.

In order to further increase the space reserved for the heat insulation plate 103 to expand with heat and contract with cold in the keel frame 1 and improve the overall heat insulation effect of the building outer wall, and meanwhile, the water-absorbent resin pad 102 also needs enough space for expansion after absorbing water vapor, a reinforcing groove is formed in the inner wall of the keel rod 11 of the keel frame 1, specifically, a reinforcing mechanism 5 is installed in the reinforcing groove, the reinforcing mechanism 5 is extruded after the water-absorbent resin pad 102 expands, the reinforcing mechanism 5 provides space for the water-absorbent resin pad 102, and the keel rod 11 can be kept from being damaged;

the reinforcing mechanism 5 comprises a first flexible layer 51, a second flexible layer 52, an inner bone module layer 53, a third flexible layer 54 and an inner cushion layer 55, specifically, the inner cushion layer 55 is installed at the bottom of the reinforcing groove, the third flexible layer 54 is installed above the inner cushion layer 55, the inner bone module layer 53 is installed above the third flexible layer 54, the second flexible layer 52 is installed above the inner bone module layer 53, the first flexible layer 51 is installed above the second flexible layer 52, and a compression space is provided for the water-absorbent resin pad 102 by the first flexible layer 51 and the second flexible layer 52, that is, the water-absorbent resin pad 102 compresses the first flexible layer 51 and the second flexible layer 52 after absorbing water and expanding, so the first flexible layer 51 and the second flexible layer 52 further push the inner bone module layer 53 and the third flexible layer 54 to move towards the inner cushion layer 55, and simultaneously the inner bone module layer 53 also moves towards the third flexible layer 54, here, the first flexible layer 51, the second flexible layer 52 and the third flexible layer 54 have a better deformability to provide space for the water absorbent resin pad 102, while the inner bone module layer 53 has a better resistance to damage;

the inner skeleton module layer 53 includes a first isolation layer 531, a first inner skeleton 532, a second isolation layer 533, a second inner skeleton 534, and a third isolation layer 535, specifically, the first isolation layer 531 is disposed under the second flexible layer 52, the first inner skeleton 532, the second isolation layer 533, and the second inner skeleton 534 are sequentially disposed under the first isolation layer 531, the third isolation layer 535 is disposed under the second inner skeleton 534 and above the third flexible layer 54, a plurality of inner bone holes 536 are disposed in the inner skeleton module layer 53, the inner bone holes 536 pass through the first inner skeleton 532, the second isolation layer 533, and the second inner skeleton 534, flexible sleeves 537 and inner bone rods 538 are disposed in the inner bone holes 536, and the inner bone rods 538 are disposed in the flexible sleeves 537, where the first inner skeleton 532 and the second inner skeleton 534 have the same structure, specifically, the first inner skeleton 532 includes an upper bone plate 539, a lower bone plate 540, a lower bone plate 537, and a plurality of inner bone rods 538 are disposed in the inner skeleton module layer 53, The continuous concave-convex plate 541 is installed between the upper bone plate 539 and the lower bone plate 540, the hollow cylinder 542 is installed in the groove body of the continuous concave-convex plate 541, and the plurality of lightening holes 551 are installed on the hollow cylinder 542, and by means of the design of the structure, the inner bone module layer 53 is enabled to have better deformation damage resistance, and therefore the whole keel rod 11 can provide enough space for the water-absorbent resin pad 102 after water absorption and expansion, and the deformation resistance of the whole keel frame 1 is maintained.

EXAMPLE six

As shown in fig. 8-13, an energy-saving and heat-insulating board structure for decorating exterior walls of buildings comprises a keel frame 1, a plurality of abutting modules 6 are arranged in a notch of the keel frame 1, the plurality of abutting modules 6 are uniformly distributed in the notch, a heat-insulating board 103 is arranged on the abutting modules 6, the abutting modules 6 comprise an abutting cylinder 61, a plurality of movable top frames 62, a plurality of strip-shaped holes 611 are arranged on the abutting cylinder 61, an inner spring 612 is arranged in the abutting cylinder 61, the movable top frames 62 are arranged in the abutting cylinder 61 and abut against the inner spring 612, the movable top frames 62 comprise an abutting plate 63, an abutting rod 64 and a plurality of outer rod sets 65, the abutting plate 63 is arranged on the abutting rod 64, a plurality of inner supporting holes 641 are arranged at the lower part of the abutting rod 64, an inner groove 631, an outer ring groove 632 is arranged on the abutting plate 63, a cross-shaped hole 633 and a plurality of insertion holes 634 are arranged in the inner groove, and a plurality of first notches 635 are arranged on an outer ring part of the outer ring groove 632, the inner groove 631 has a second notch groove 636 on a groove wall thereof, an inner cover plate 66 is disposed in the inner groove 631, a cross block 661 corresponding to the cross hole 633 and an insertion rod 662 corresponding to the insertion hole 634 are disposed below the inner cover plate 66, the outer support rod set 65 includes a fixing rod 651, a rotary cylinder 652, a moving cylinder 653, an inclined upper rod 654, an ejector rod 655 and an ejector bead 656, the rotary cylinder 652 and the moving cylinder 653 are disposed on the fixing rod 651, an inner end of the fixing rod 641 passes through the slotted hole 611 and extends to the inner support hole, the inclined upper rod 654 is disposed on the moving cylinder 653, the ejector rod 655 is disposed on the inclined upper rod 654, the ejector bead 656 is disposed on an inner end of the ejector rod 655, and the ejector rod 655 is disposed in the first notch outer ring groove 635, such that a plurality of the ejector beads 656 are disposed in the first notch outer ring groove 632, wherein one of the ejector beads 656 is disposed in the second notch groove 636 and abuts against one of the insertion rods 662.

Because the heat insulation board 103 can expand with heat and contract with cold, the whole heat insulation board 103 may have uneven deformation due to inconsistent rates of expansion with heat and contraction with cold, so as to reduce the deformation of the heat insulation board 103, a plurality of abutting modules 6 are installed in the notches of the keel frame 1, specifically, the plurality of abutting modules 6 are uniformly installed in the notches and connected to the inner baffle 107, the heat insulation board 103 is installed on the abutting modules 6, specifically, the abutting modules 6 include an abutting cylinder 61 and a plurality of movable top frames 62, the abutting cylinder 61 is provided with a plurality of strip-opening holes 611, the abutting cylinder 61 is internally provided with an inner spring 612, the movable top frames 62 are arranged in the abutting cylinder 61 and abut against the inner spring 612, here, the movable top frames 62 can abut against the rear wall of the heat insulation board 103, and provide good pre-tightening force for the heat insulation board 103;

further, the movable top frame 62 includes a top abutting plate 63, a top abutting rod 64, and a plurality of outer rod sets 65, the top abutting plate 63 is installed on the top abutting rod 64, a plurality of inner supporting holes 641 are opened on the lower portion of the top abutting rod 64, an inner groove 631 and an outer ring groove 632 are opened on the top abutting plate 63, and a plurality of outer rod sets 65 are uniformly distributed around the top abutting rod 64, the top abutting function of the top abutting module 6 is further increased through the outer rod sets 65, the fixing rod 651 of the outer rod set 65 is installed in the inner supporting hole 641, the rotating cylinder 652 is rotated along the fixing rod 651, so that the moving cylinder 653 can approach the top abutting cylinder 61, the inclined upper rod 654 on the moving cylinder 653 drives the top abutting rod 655 to approach the top abutting plate 63, so that the top ball 656 on the top abutting rod 655 moves into the outer ring groove 632, one of the top ball 656 can move the second notch groove 636, at this time, the top abutting cylinder 655 is located in the first notch 635, and the inner groove 631 and a plurality of cross-shaped holes 634 are opened in the inner groove 633, the lower part of the inner cover plate 66 is arranged in the cross-shaped hole 633 and the jack 634 through the cross-shaped block 661 and the plurality of insertion rods 662, so that the inner cover plate 66 can fix the plurality of top beads 656, and meanwhile, one of the top beads 656 fixes the corresponding insertion rod 632, so that the whole abutting module 6 can abut against a large area through the abutting plate 63 and the plurality of ejection rods 655, and meanwhile, when the local part of the heat-insulating plate 103 deforms in a concave-convex manner, the inner spring 612 in the abutting cylinder 61 can abut against the abutting rod 64, so that the movable top frame 62 moves in the abutting cylinder 61 to correspond to the local part of the heat-insulating plate 103, and meanwhile, the local part of the heat-insulating plate 103 is further limited from deforming, and the service life of the heat-insulating plate 103 is prolonged.

In the description of the present invention, it is to be understood that the terms "central," "longitudinal," "lateral," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," "axial," "radial," "circumferential," and the like are used in the orientations and positional relationships indicated in the drawings for convenience in describing the invention and to simplify the description, and are not intended to indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and are therefore not to be considered limiting of the invention.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally formed; may be mechanically coupled, may be electrically coupled or may be in communication with each other; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

While embodiments of the invention have been disclosed above, it is not limited to the applications set forth in the description and the embodiments, which are fully applicable in various fields of endeavor to which the invention pertains, and further modifications may readily be made by those skilled in the art, it being understood that the invention is not limited to the details shown and described herein without departing from the general concept defined by the appended claims and their equivalents.

Claims (9)

1. The utility model provides an energy-conserving heated board structure is decorated to building outer wall which characterized in that includes: the building insulation board comprises a first outer wall body (104), a second outer wall body (105) and a keel frame (1), wherein the keel frame (1) is arranged between the first outer wall body (104) and the second outer wall body (105), notches which are uniformly distributed are formed in the keel frame (1), an insulation board (103) and a plurality of water-absorbing resin pads (102) are arranged in the notches, the outer wall of the insulation board (103) is attached to the keel frame (1) through the water-absorbing resin pads (102), grid cloth (101) is arranged on the front wall of the keel frame (1), and an inner baffle (107) is arranged on the rear wall of the keel frame (1);

a reinforcing groove is formed in the inner wall of a keel rod of the keel frame (1), a reinforcing mechanism (5) is arranged in the reinforcing groove, the reinforcing mechanism (5) comprises a first flexible layer (51), a second flexible layer (52), an inner bone module layer (53), a third flexible layer (54) and an inner cushion layer (55), the inner cushion layer (55) is arranged at the bottom of the reinforcing groove (111), the third flexible layer (54) is arranged above the inner cushion layer (55), the inner bone module layer (53) is arranged above the third flexible layer (54), the second flexible layer (52) is arranged above the inner bone module layer (53), the first flexible layer (51) is arranged above the second flexible layer (52), the inner bone module layer (53) comprises a first isolation layer (531), a first inner framework (532), a second isolation layer (533), a second inner framework (534) and a third isolation layer (535), the first isolation layer (531) is arranged below the second flexible layer (52), the first inner framework (532), the second isolation layer (533) and the second inner framework (534) are sequentially arranged below the first isolation layer (531), the third isolation layer (535) is arranged below the second inner framework (534) and above the third flexible layer (54), a plurality of inner bone holes (536) are arranged in the inner bone module layer (53), the inner bone holes (536) penetrate through the first inner framework (532), the second isolation layer (533) and the second inner framework (534), a flexible sleeve (537) and an inner bone rod (538) are arranged in the inner bone holes (536), the inner bone rod (538) is arranged in the flexible sleeve (537), the first inner framework (532) comprises an upper bone plate (539), a lower bone plate (540) and a continuous concave-convex plate (541), the continuous concave-convex plate (541) is arranged between the upper bone plate (539) and the lower bone plate (540), a hollow cylinder (542) is arranged in a groove body of the continuous concave-convex plate (541), and a plurality of lightening holes (551) are arranged on the hollow cylinder (542).

2. The building external wall decoration energy-saving insulation board structure according to claim 1, wherein the front side of the grid cloth (101) is provided with concrete gravel layers (2) which are arranged in the front and back, the surfaces of the two concrete gravel layers (2) which are close to each other are provided with wall bricks (201) which are uniformly arranged, the size of each wall brick (201) is smaller than that of each concrete gravel layer (2), the front side of each wall brick (201) is provided with object placing holes (202) which are arranged at equal intervals in a penetrating mode, reinforcing ribs (203) are embedded in the object placing holes (202), and the length of each reinforcing rib (203) is smaller than that of each object placing hole (202).

3. The building external wall decoration energy-saving insulation board structure according to claim 2, wherein the front surface of the front concrete gravel layer (2) is provided with uniformly arranged sound insulation felts (3), a plurality of sound insulation felts (3) are connected through viscose, the front surface of each sound insulation felt (3) is provided with sound absorption cotton (301), and the back surface of the inner baffle (107) is provided with uniformly arranged cotton layers (302).

4. The building external wall decoration energy-saving insulation board structure according to claim 3, wherein the front side of the first external wall (104) is provided with a cotton layer (302), and the size of the first external wall (104) is the same as that of the keel frame (1).

5. The building exterior wall decoration energy-saving insulation board structure according to claim 1, wherein the back surface of the first exterior wall (104) is provided with a negative ion coating (106).

6. The building external wall decoration energy-saving insulation board structure according to claim 1, wherein the rear side of the second external wall (105) is provided with sound-absorbing cotton (301), and the size of the second external wall (105) is the same as that of the first external wall (104).

7. The building exterior wall decoration energy-saving insulation board structure according to claim 6, wherein the front surface of the second exterior wall (105) is provided with a transparent isolation coating (4).

8. The building external wall decoration energy-saving insulation board structure according to claim 7, characterized in that the front surface of the transparent isolation coating (4) is provided with uniformly arranged decorative boards (8), and the size of the decorative boards (8) is smaller than that of the second external wall (105).

9. The building exterior wall decoration energy-saving heat-insulation board structure according to claim 1, wherein a plurality of abutting modules (6) are arranged in a notch of the keel frame (1), the plurality of abutting modules (6) are uniformly distributed in the notch, the heat-insulation board (103) is arranged on the abutting modules (6), the abutting modules (6) comprise an abutting barrel (61) and a plurality of movable top frames (62), a plurality of strip-opening holes (611) are arranged on the abutting barrel (61), an inner spring (612) is arranged in the abutting barrel (61), the movable top frames (62) are arranged in the abutting barrel (61) and abut against the inner spring (612), the movable top frames (62) comprise an abutting board (63), an abutting rod (64) and a plurality of outer rod groups (65), the abutting board (63) is arranged on the abutting rod (64), the lower part of the abutting rod (64) is provided with a plurality of inner supporting holes (641), the abutting plate (63) is provided with an inner groove (631) and an outer ring groove (632), a cross-shaped hole (633) and a plurality of inserting holes (634) are arranged in the inner groove (631), a plurality of first notch grooves (635) are arranged on the outer ring part of the outer ring groove (632), the groove wall of the inner groove (631) is provided with a second notch groove (636), an inner cover plate (66) is arranged in the inner groove (631), a cross-shaped block (661) corresponding to the cross-shaped hole (633) and an inserting rod (662) corresponding to the inserting holes (634) are arranged below the inner cover plate (66), the outer supporting rod group (65) comprises a fixing rod (651), a rotating cylinder (652), a moving cylinder (653), an inclined upper rod (654), an abutting rod (655) and an abutting ball (656), the rotating cylinder (652) and the abutting plate (63), and the outer supporting rod group (65) comprises a fixing rod (652), a rotating cylinder (652), a moving cylinder (653) and an inclined upper rod (654), A moving cylinder (653) is disposed on the fixing rod (651), the inner end of the fixing rod (651) passes through the slotted hole (611) and extends to the inner supporting hole (641), the inclined upper rod (654) is disposed on the moving cylinder (653), the push rod (655) is disposed on the inclined upper rod (654), the top beads (656) are disposed on the inner end of the push rod (655), and the push rod (655) is disposed in the first cut-out groove (635), such that the plurality of top beads (656) are disposed in the outer ring groove (632), one of the top beads (656) is disposed in the second cut-out groove (636) and abuts against one of the insertion rods (662).

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