CN220768682U - Composite energy-saving wallboard imitating shale plate - Google Patents

Abstract

The utility model relates to the technical field of composite energy-saving wallboards, in particular to a composite energy-saving wallboard imitating a shale plate, which comprises a Dan Banceng, wherein a strength increasing mechanism is arranged on the inner wall of the Dan Banceng, stable mounting mechanisms are arranged on the surfaces of a fixing frame and a mounting plate, and a fireproof heat preservation mechanism is arranged on the inner wall of a composite material layer. The utility model not only improves the convenience of the composite energy-saving wallboard in use, but also ensures the stability of the composite energy-saving wallboard in installation, avoids the phenomenon that the composite energy-saving wallboard loosens from the surface of the wallboard body, greatly improves the compression resistance of the composite energy-saving wallboard in use, greatly improves the integral strength of the stone slab layer, avoids the phenomenon of cracking and damaging the composite energy-saving wallboard due to collision in the use process, and greatly improves the practicability of the composite energy-saving wallboard.

Description

Composite energy-saving wallboard imitating shale plate

Technical Field

The utility model relates to the technical field of composite energy-saving wallboards, in particular to a shale plate-imitated composite energy-saving wallboard.

Background

The environment-friendly and energy-saving composite shale plate wallboard for the building is a very common composite shale plate wallboard for the building, but the existing composite shale plate wallboard for the building is not easy to attach when being practical, so that the working efficiency is affected, the practicability of the existing composite shale plate wallboard for the building is not high, and the environment-friendly and energy-saving composite shale plate wallboard for the building, which is convenient to attach and high in practicability, needs to be provided.

Firstly, when the composite energy-saving wallboard is used, the composite energy-saving wallboard needs to be firstly installed at a required position, the traditional composite energy-saving wallboard is generally inconvenient to assemble, and the stability cannot be ensured, so that the convenience of the composite energy-saving wallboard in use is greatly reduced, and meanwhile, the stability of the composite energy-saving wallboard in installation cannot be ensured, and the phenomenon that the composite energy-saving wallboard loosens from the surface of a wallboard body is easily caused; secondly, the composite energy-saving wallboard is easy to damage and crack when being collided, the integral strength of the existing composite energy-saving wallboard is often not high enough, so that the compressive capacity of the composite energy-saving wallboard is greatly reduced when in use, the integral strength of a stone slab layer is greatly reduced, and the phenomenon of cracking and damaging caused by collision in the use process is easy to occur; thirdly, the composite energy-saving wallboard needs to be fireproof and heat-insulating when in use, and the fireproof and heat-insulating performance of the traditional composite energy-saving wallboard is poor when in use, so that the practicability of the composite energy-saving wallboard is greatly reduced.

Disclosure of Invention

The utility model aims to provide a composite energy-saving wallboard of an imitation shale plate, which solves the problems that the composite energy-saving wallboard is generally inconvenient to assemble and cannot be ensured in stability when being used in the background art, the integral strength is often not high enough, and the fireproof heat-preservation performance is poor.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a compound energy-saving wallboard of imitative shale board, includes Dan Banceng, one side of Dan Banceng is provided with the wallboard body, the fixed frame is installed to the inner wall of wallboard body, the surface bonding of stone slab layer has imitative shale lath tattoo, the surface covering of stone slab layer keeping away from imitative shale lath tattoo has the TPU sheet layer, the surface of TPU sheet layer bonds with the surface of stone slab layer mutually, one side of TPU sheet layer is provided with the combined material layer, the surface of combined material layer bonds with the surface of TPU sheet layer through bonding glue mutually, the surface bonding of combined material layer has the base plate layer, the surface mounting of base plate layer is kept away from the surface mounting of combined material layer has the mounting panel, the one end of mounting panel extends to the inside of fixed frame, the inner wall of Dan Banceng is provided with the increase strength mechanism, the increase strength mechanism comprises reinforcing plate, reinforcing plate and increase strength portion, the surface of fixed frame and mounting panel all is provided with installation mechanism, firm installation mechanism comprises closing plate, recess and firm installation group, the surface of combined material layer and the surface bonding glue have the base plate layer, the surface bonding of combined material layer has the mounting plate, the surface mounting plate layer and the surface bonding through bonding glue, the surface of combined material layer and the surface of the first heat preservation board, the first heat preservation board and the fire protection plate.

Preferably, the strength increasing portion is arranged on the inner wall of the stone slab layer and is composed of a pressure-resistant plate, a reinforcing rod and a tripod, the pressure-resistant plate for enhancing the pressure resistance of the stone slab layer is arranged on the inner wall of the Dan Banceng, the reinforcing plate for enhancing the stability of the stone slab layer is adhered to the surface of the pressure-resistant plate, and the reinforcing plate is covered with a reinforcing plate for reinforcing the inside of the stone slab layer away from the surface of one side of the pressure-resistant plate.

Preferably, the inside of stone slab layer all is provided with equidistant stiffener that is used for increasing stone slab layer's bulk strength, the tripod that is used for improving stone slab layer's bearing capacity is all installed on the surface at stiffener both ends, the surface of tripod is fixed with the inner wall of stone slab layer and the surface of resistance to compression board respectively.

Preferably, the fixed slot has been seted up to the inner wall of combined material layer, the inner wall in fixed slot glues has the first PLASTIC LAMINATED that is used for preventing fires, the inner wall in fixed slot glues has the second PLASTIC LAMINATED that is used for fire-retardant, the inner wall in fixed slot is provided with the first thermal insulation board that is used for carrying out heat retaining to the inside of stone slab layer, first thermal insulation board glues with the surface of first PLASTIC LAMINATED mutually.

Preferably, a second heat-insulating plate for improving the heat-insulating effect of the stone plate layer and the composite material layer is arranged in the fixing groove, the surface of the second heat-insulating plate is adhered to the surface of the second fireproof plate, and the surface of the second heat-insulating plate is adhered to the surface of the first heat-insulating plate through adhesive.

Preferably, the firm installation group sets up the surface at fixed frame and mounting panel, the inside of firm installation group includes location fastener and direction slider, the closing plate is all installed on the surface at mounting panel both ends, the inner wall of wallboard body is all seted up flutedly, the mutual sliding fit of surface of recess and closing plate.

Preferably, the surface of mounting panel both sides all installs the direction slider that is used for fixing a position the direction when installing the slabstone layer, the guide way has all been seted up to the inner wall of fixed frame, and the guide way is mutually sliding fit with the surface of direction slider.

Preferably, the surface of the guide slide block is provided with a positioning clamping piece for preventing the mounting plate and the guide slide block from falling off, the inner wall of the fixing frame is provided with a positioning groove, and the positioning clamping piece is matched with the inner wall of the positioning groove in a clamping way.

Compared with the prior art, the utility model has the beneficial effects that: the composite energy-saving wallboard of the shale-like plate not only improves the convenience of the composite energy-saving wallboard in use, but also ensures the stability of the composite energy-saving wallboard in installation, avoids the phenomenon that the composite energy-saving wallboard loosens from the surface of the wallboard body, greatly improves the compression resistance of the composite energy-saving wallboard in use, greatly improves the overall strength of the stone slab layer, avoids the phenomenon of cracking and damaging caused by collision in the use process, and has very high fireproof heat preservation performance in use, so that the practicability of the composite energy-saving wallboard is greatly improved;

through being provided with firm installation mechanism, when the mounting panel is moving, the mounting panel drives the sealing plate and slides in the inside of recess, seal between slate layer and fixed frame under the effect of sealing plate and recess, avoid the dust to get into the inside of fixed frame through the gap between slate layer and the fixed frame, after the mounting panel moved to the inside of fixed frame, at this moment, the mounting panel drives the guide slide block and slides at the inner wall of fixed frame, guide the mounting panel under the combined action of guide slide block and guide way, make the guide slide block drive the location fastener card to the inside of fixed frame, avoid the mounting panel to appear the phenomenon of pine taking off from the inside of fixed frame under the effect of location fastener, the whole steadiness when having guaranteed slate layer installation, the convenient function of equipment of composite energy-conserving wallboard has been realized, thereby the convenience when composite energy-conserving wallboard is used has been improved, simultaneously, the steadiness of composite energy-conserving wallboard when installing has been guaranteed that composite energy-conserving wallboard from the phenomenon of pine appears on the surface of wallboard body.

Through being provided with the strength increasing mechanism, after the surface at the wallboard body is installed to the slabstone layer, if the surface of slabstone layer produces the collision, the slabstone layer appears damaging and breaks easily, at this moment, strengthen the compressive property of slabstone layer under the effect of compressive plate, make the slabstone layer can not take place deformation easily, hardness is higher, make the holistic intensity of slabstone layer improve greatly under the combined action of gusset plate and reinforcing plate, at this moment, make the surface of slabstone layer also be difficult for appearing damaging and breaking when receiving the collision under the combined action of stiffener and tripod, strengthen the steadiness between the inner wall of compressive plate and slabstone layer under the effect of tripod, make the life of slabstone layer longer, it is safer and more durable, the function of compound energy-conserving wallboard enhancement compressive property has been realized, thereby the compressive capacity when making compound energy-conserving wallboard use improves greatly, make the holistic intensity of slabstone layer improve greatly, avoid breaking and damaging phenomenon because of the collision appears in the use;

through being provided with fire prevention heat preservation mechanism, make Dan Banceng and composite material layer surface's fire behavior higher under the combined action of fixed slot inner wall first PLASTIC LAMINATED and second PLASTIC LAMINATED, make composite material layer have very high thermal insulation performance under first thermal insulation board's effect, make Dan Banceng and composite material layer's whole thermal insulation performance higher under the effect of second thermal insulation board for stone slab layer's practicality improves greatly, has realized the thermal function of compound energy-conserving wallboard fire prevention, thereby have very high fire prevention thermal insulation performance when making compound energy-conserving wallboard use, make compound energy-conserving wallboard's practicality improve greatly.

Drawings

FIG. 1 is a schematic three-dimensional perspective view of the present utility model;

FIG. 2 is a schematic view of a front cross-sectional structure of the present utility model;

FIG. 3 is an enlarged schematic side view of the present utility model;

FIG. 4 is an enlarged schematic view of the strength-enhancing mechanism of FIG. 2 according to the present utility model;

FIG. 5 is an enlarged schematic view of the stabilizing mechanism of FIG. 3 according to the present utility model;

fig. 6 is an enlarged schematic view of the fire-proof and heat-insulating mechanism of fig. 3 according to the present utility model.

In the figure: 1. dan Banceng; 101. a wallboard body; 102. TPU plate layers; 103. a substrate layer; 104. shale slat imitation pattern board; 105. a fixed frame; 106. a mounting plate; 107. a composite material layer; 2. a strength increasing mechanism; 201. a reinforcing plate; 202. a reinforcing plate; 203. an increased strength portion; 2031. a pressure resistant plate; 2032. a reinforcing rod; 2033. a tripod; 3. a fireproof heat preservation mechanism; 301. a fixing groove; 302. a first fire protection plate; 303. a first heat-retaining plate; 304. a second insulation board; 305. a second fireproof plate; 4. a stable mounting mechanism; 401. a sealing plate; 402. a groove; 403. the installation group is firmly installed; 4031. a positioning clamp; 4032. and a guide sliding block.

Description of the embodiments

The technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are only some embodiments of the present utility model, but not all embodiments, and all other embodiments obtained by those skilled in the art without making creative efforts based on the embodiments of the present utility model are included in the protection scope of the present utility model.

The utility model provides a structure of a shale plate-imitated composite energy-saving wallboard, which is shown in figures 1 and 2, and comprises a stone plate layer 1, wherein one side of the stone plate layer 1 is provided with a wallboard body 101, the inner wall of the wallboard body 101 is provided with a fixing frame 105, the surface of the stone plate layer 1 is adhered with a shale plate strip pattern plate 104, the surface of the stone plate layer 1 far away from the shale plate strip pattern plate 104 is covered with a TPU plate layer 102, the surface of the TPU plate layer 102 is adhered with the surface of the stone plate layer 1, one side of the TPU plate layer 102 is provided with a composite material layer 107, the surface of the composite material layer 107 is adhered with the surface of the TPU plate layer 102 through adhesive, the surface of the composite material layer 107 is adhered with a substrate layer 103, the surface of the substrate layer 103 is adhered with the surface of the composite material layer 107 through adhesive, the surface of the substrate layer 103 far away from the composite material layer 107 is provided with a mounting plate 106, and one end of the mounting plate 106 extends into the fixing frame 105.

Further, as shown in fig. 2 and 4, the inner wall of the stone slab layer 1 is provided with a strength increasing mechanism 2, the strength increasing mechanism 2 is composed of a reinforcing plate 201, a reinforcing plate 202 and a strength increasing portion 203, the strength increasing portion 203 is arranged on the inner wall of the stone slab layer 1, the strength increasing portion 203 is composed of a compression plate 2031, a reinforcing rod 2032 and a tripod 2033, the compression plate 2031 for enhancing the compression resistance of the stone slab layer 1 is mounted on the inner wall of the stone slab layer 1, the reinforcing plate 201 for enhancing the stability of the stone slab layer 1 is adhered to the surface of the compression plate 2031, the reinforcing plate 202 for reinforcing the interior of the stone slab layer 1 is covered on the surface of the side of the reinforcing plate 201 away from the compression plate 2031, the reinforcing rods 2032 for increasing the overall strength of the stone slab layer 1 are arranged in the interior of the stone slab layer 1 at equal intervals, the surfaces of both ends of the reinforcing rods 2032 are provided with the tripod 2033 for enhancing the bearing capacity of the stone slab layer 1, and the surfaces of the tripod 2033 are fixed to the inner wall of the stone slab layer 1 and the surface of the compression plate 2031 respectively.

During implementation, the compressive property of the stone slab layer 1 is enhanced under the action of the compressive plate 2031, so that the stone slab layer 1 cannot be easily deformed, the hardness is higher, the overall strength of the stone slab layer 1 is greatly improved under the combined action of the reinforcing plate 202 and the reinforcing plate 201, at this time, the surface of the stone slab layer 1 is not easy to damage and crack when being collided under the combined action of the reinforcing rod 2032 and the tripod 2033, the stability between the compressive plate 2031 and the inner wall of the stone slab layer 1 is enhanced under the action of the tripod 2033, the service life of the stone slab layer 1 is longer, and the stone slab layer is safer and more durable, so that the function of enhancing the compressive property of the composite energy-saving wallboard is realized.

Further, as shown in fig. 3 and 5, the surfaces of the fixing frame 105 and the mounting plate 106 are both provided with a stable mounting mechanism 4, the stable mounting mechanism 4 is composed of a sealing plate 401, a groove 402 and a stable mounting group 403, the stable mounting group 403 is arranged on the surfaces of the fixing frame 105 and the mounting plate 106, the inside of the stable mounting group 403 includes a positioning clamp 4031 and a guiding slide 4032, the surfaces of two ends of the mounting plate 106 are both provided with the sealing plate 401, the inner wall of the wallboard body 101 is provided with the groove 402, the surfaces of the groove 402 and the sealing plate 401 are in sliding fit with each other, the surfaces of two sides of the mounting plate 106 are both provided with guiding slide 4032 for positioning and guiding the stone slab 1, the inner wall of the fixing frame 105 is provided with a guiding groove, and the surface of the guiding slide 4032 is provided with a positioning clamp 4031 for preventing the mounting plate 106 and the guiding slide 4032 from falling off, and the inner wall of the fixing frame 105 is provided with a positioning groove.

When the mounting plate 106 moves, the mounting plate 106 drives the sealing plate 401 to slide in the groove 402, the stone slab layer 1 and the fixed frame 105 are sealed under the action of the sealing plate 401 and the groove 402, dust is prevented from entering the inside of the fixed frame 105 through a gap between the stone slab layer 1 and the fixed frame 105, after the mounting plate 106 moves to the inside of the fixed frame 105, at the moment, the mounting plate 106 drives the guide slide block 4032 to slide on the inner wall of the fixed frame 105, the guide slide block 4032 guides the mounting plate 106 under the combined action of the guide slide block 4032 and the guide groove, the guide slide block 4032 drives the positioning clamp 4031 to be clamped in the fixed frame 105, the phenomenon that the mounting plate 106 loosens from the inside of the fixed frame 105 is avoided under the action of the positioning clamp 4031, the whole stability of the stone slab layer 1 during installation is guaranteed, and the function of conveniently assembling the composite energy-saving wallboard is realized.

Further, as shown in fig. 3 and 6, the inner wall of the composite material layer 107 is provided with a fireproof heat preservation mechanism 3, the fireproof heat preservation mechanism 3 is composed of a fixing groove 301, a first fireproof plate 302, a first heat preservation plate 303, a second heat preservation plate 304 and a second fireproof plate 305, the fixing groove 301 is formed in the inner wall of the composite material layer 107, the first fireproof plate 302 used for fireproof is adhered to the inner wall of the fixing groove 301, the second fireproof plate 305 used for flame retardance is adhered to the inner wall of the fixing groove 301, the first heat preservation plate 303 used for preserving heat in the stone slab layer 1 is arranged on the inner wall of the fixing groove 301, the first heat preservation plate 303 is adhered to the surface of the first fireproof plate 302, the second heat preservation plate 304 used for improving heat preservation effects in the stone slab layer 1 and the composite material layer 107 is arranged in the fixing groove 301, the surface of the second heat preservation plate 304 is adhered to the surface of the second fireproof plate 305, and the surface of the second heat preservation plate 304 is adhered to the surface of the first heat preservation plate 303 through adhesive.

During implementation, under the combined action of the first fireproof plate 302 and the second fireproof plate 305 on the inner wall of the fixing groove 301, the fireproof performance of the surfaces of the stone slab layer 1 and the composite material layer 107 is higher, under the action of the first heat preservation plate 303, the composite material layer 107 has very high heat preservation performance, under the action of the second heat preservation plate 304, the overall heat preservation performance of the stone slab layer 1 and the composite material layer 107 is higher, and the practicability of the stone slab layer 1 is greatly improved, so that the fireproof heat preservation function of the composite energy-saving wallboard is realized.

Working principle: when the wallboard is used, firstly, the stone slab layer 1 is placed on the surface of the wallboard body 101, the stone slab layer 1 drives the mounting plate 106 to move to the inside of the fixed frame 105, when the mounting plate 106 moves, the mounting plate 106 drives the sealing plate 401 to slide in the inside of the groove 402, the stone slab layer 1 and the fixed frame 105 are sealed under the action of the sealing plate 401 and the groove 402, dust is prevented from entering the inside of the fixed frame 105 through gaps between the stone slab layer 1 and the fixed frame 105, after the mounting plate 106 moves to the inside of the fixed frame 105, at the moment, the mounting plate 106 drives the guide slide block 4032 to slide on the inner wall of the fixed frame 105, the guide slide block 4032 guides the mounting plate 106 under the combined action of the guide slide block 4032 and the guide groove, the guide slide block 4031 is prevented from being loosened from the inside of the fixed frame 105 under the action of the guide clamp 4031, the whole firmness of the stone slab layer 1 is ensured when the composite energy-saving wallboard is mounted, the convenience of assembling is improved, and simultaneously, the stability of the composite wallboard is ensured when the composite energy-saving wallboard is mounted, and the phenomenon is prevented from being loosened from the surface 101.

Subsequently, after the stone slab 1 is mounted on the surface of the wallboard body 101, if the surface of the stone slab 1 collides, the stone slab 1 is easy to damage and crack, at this moment, the compressive property of the stone slab 1 is enhanced under the action of the compressive plate 2031, so that the stone slab 1 cannot be easily deformed, the hardness is higher, the integral strength of the stone slab 1 is greatly improved under the combined action of the reinforcing plate 202 and the reinforcing plate 201, at this moment, the surface of the stone slab 1 is also difficult to damage and crack when being collided under the combined action of the reinforcing rod 2032 and the tripod 2033, the stability between the compressive plate 2031 and the inner wall of the stone slab 1 is enhanced under the action of the tripod 2033, the service life of the stone slab 1 is longer, the function of enhancing the compressive property of the composite energy-saving wallboard is safer and more durable, thereby greatly improving the compressive property of the composite energy-saving wallboard, the integral strength of the stone slab 1 is greatly improved, and the phenomenon of cracking due to collision in the use is avoided in the use process.

Subsequently, the fireproof performance of the surfaces of the stone slab layer 1 and the composite material layer 107 is higher under the combined action of the first fireproof plate 302 and the second fireproof plate 305 on the inner wall of the fixing groove 301, the composite material layer 107 has very high heat insulation performance under the action of the first heat insulation plate 303, the overall heat insulation performance of the stone slab layer 1 and the composite material layer 107 is higher under the action of the second heat insulation plate 304, the practicability of the stone slab layer 1 is greatly improved, the fireproof heat insulation function of the composite energy-saving wallboard is realized, the composite energy-saving wallboard has very high fireproof heat insulation performance when in use, the practicability of the composite energy-saving wallboard is greatly improved, the composite material of the TPU slab layer 102 and the composite material layer 107 can lighten the weight of the stone slab layer 1, the simulation degree of the composite energy-saving wallboard is higher under the action of the simulated shale lath plate 104, the use amount of natural marble can be saved, and the market demand can be met. Finally, the use work of the composite energy-saving wallboard is completed.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model 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.

Claims (8)

1. The utility model provides a compound energy-conserving wallboard of imitative shale board, includes Dan Banceng (1), its characterized in that: one side of slabstone layer (1) is provided with wallboard body (101), fixed frame (105) are installed to the inner wall of wallboard body (101), the surface adhesion of slabstone layer (1) has imitative shale lath pattern (104), the surface covering that imitative shale lath pattern (104) was kept away from to slabstone layer (1) has TPU sheet (102), the surface of TPU sheet (102) and the surface phase bonding of slabstone layer (1), one side of TPU sheet (102) is provided with composite material layer (107), the surface adhesion of composite material layer (107) and the surface of TPU sheet (102) has substrate layer (103) through the bonding adhesive, the surface adhesion of substrate layer (103) and the surface adhesion of composite material layer (107), the surface mounting plate (106) that composite material layer (107) were kept away from to substrate layer (103), the inside of fixed frame (105) is extended to one end, the inner wall of TPU sheet (1) is provided with composite material layer (107), reinforcing mechanism (2) increase the surface mounting plate (2) and reinforcing mechanism (203) are all by reinforcing mechanism (2) and reinforcing plate (106) are firmly fixed frame (4), the stable installation mechanism (4) is composed of a sealing plate (401), a groove (402) and a stable installation group (403), a fireproof heat preservation mechanism (3) is arranged on the inner wall of the composite material layer (107), and the fireproof heat preservation mechanism (3) is composed of a fixing groove (301), a first fireproof plate (302), a first heat preservation plate (303), a second heat preservation plate (304) and a second fireproof plate (305).

2. The shale-board-like composite energy-saving wallboard of claim 1, wherein: the utility model discloses a stone slab layer, including stone slab layer (1), add intensity portion (203) and tripod (2033) and constitute by compressive plate (2031), compressive plate (2031) that are used for reinforcing compressive capacity of stone slab layer (1) are installed to the inner wall of stone slab layer (1), the surface adhesion of compressive plate (2031) has reinforcing plate (201) that are used for reinforcing the steadiness of stone slab layer (1), the surface covering of reinforcing plate (201) one side of keeping away from compressive plate (2031) has reinforcing plate (202) that are used for reinforcing the inside of stone slab layer (1).

3. The shale-board-like composite energy-saving wallboard of claim 1, wherein: the stone slab is characterized in that equally spaced reinforcing rods (2032) used for increasing the overall strength of the stone slab are arranged inside the stone slab layer (1), triangular supports (2033) used for improving the bearing capacity of the stone slab layer (1) are arranged on the surfaces of the two ends of the reinforcing rods (2032), and the surfaces of the triangular supports (2033) are respectively fixed with the inner wall of the stone slab layer (1) and the surface of the compression-resistant plate (2031).

4. The shale-board-like composite energy-saving wallboard of claim 1, wherein: the inner wall of combined material layer (107) has seted up fixed slot (301), the inner wall of fixed slot (301) glues has first PLASTIC LAMINATED (302) that are used for the fire prevention, the inner wall of fixed slot (301) glues has second PLASTIC LAMINATED (305) that are used for fire-retardant, the inner wall of fixed slot (301) is provided with and is used for carrying out heat retaining first thermal insulation board (303) to the inside of slabstone layer (1), first thermal insulation board (303) glues with the surface of first PLASTIC LAMINATED (302) mutually.

5. The shale-board-like composite energy-saving wallboard of claim 4, wherein: the inside of fixed slot (301) is provided with second heated board (304) that are used for improving the inside heat preservation effect of stone slab layer (1) and combined material layer (107), the surface of second heated board (304) is bonded with the surface of second PLASTIC LAMINATED (305), the surface of second heated board (304) is bonded through bonding glue with the surface of first heated board (303).

6. The shale-board-like composite energy-saving wallboard of claim 1, wherein: firm installation group (403) set up the surface at fixed frame (105) and mounting panel (106), the inside of firm installation group (403) includes location fastener (4031) and direction slider (4032), closing plate (401) are all installed on the surface at mounting panel (106) both ends, recess (402) are all seted up to the inner wall of wallboard body (101), recess (402) and the mutual sliding fit of the surface of closing plate (401).

7. The shale-board-like composite energy-saving wallboard of claim 1, wherein: the surface of mounting panel (106) both sides all installs guide slide (4032) that are used for fixing a position the direction when installing slabstone layer (1), the guide way has all been seted up to the inner wall of fixed frame (105), and the guide way is mutually sliding fit with the surface of guide slide (4032).

8. The shale-board-like composite energy-saving wallboard of claim 7, wherein: the surface of the guide slide block (4032) is provided with a positioning clamping piece (4031) for preventing the mounting plate (106) and the guide slide block (4032) from falling off, the inner wall of the fixed frame (105) is provided with a positioning groove, and the positioning clamping piece (4031) is matched with the inner wall of the positioning groove in a mutually clamping way.