CN113374199A - Composite board convenient to install - Google Patents

Abstract

The utility model provides a simple to operate's composite sheet, includes rostone substrate board, the nut has been buried underground in the rostone substrate board, the port of nut is located rostone substrate board back, and it has the metal sheet to openly cover at rostone substrate board. When the metal composite plate is compounded, the metal plate can be bent to wrap the side surface of the artificial stone substrate plate, the metal plate can wrap the back part of the artificial stone substrate plate through the added reinforcing strips or reinforcing wires or can be completely wrapped, and the metal plate can be mutually locked with the back embedded nut, so that the phenomenon that the metal plate falls off can be completely ensured even if the chemical glue completely loses the adhesion, and various potential safety hazards existing in the conventional metal composite plate which can be compounded only by depending on the chemical glue are thoroughly solved.

Description

Composite board convenient to install

Technical Field

The invention relates to the technical field of building board decoration, in particular to a composite board convenient to install.

Background

When the existing metal plates such as aluminum, copper, steel and the like are used for building decoration, the thick metal plates are high in cost, weight and installation cost when the plates with large thickness are directly adopted; when a thinner plate is directly adopted, the thin plate has poor impact resistance, wind pressure resistance and heat resistance, so that bulging deformation is easy to occur, and the decorative attractiveness is affected. In order to solve the problems, the metal sheet and various base material plates or core materials are adhered and compounded by chemical glue to form various metal composite plates, and the metal composite plates mainly comprise the following components: 1. a metal honeycomb plate is formed by bonding a plate material such as aluminum, copper, or steel to the upper and lower surfaces of a honeycomb core material made of aluminum, resin, plastic, or paper with a chemical adhesive to have a certain structural strength. 2. The metal composite board is made up by using the chemical adhesive to adhere the aluminium, copper and steel plates on the upper and lower surfaces of PE and PVC plastic base material plates, and mainly using aluminium composite board (aluminium-plastic plate) and titanium-zinc composite board, etc.. 3. The fireproof metal plate is produced with calcium silicate board, cement fiber board and other inorganic boards as base material and through adhering aluminum, copper, steel and other metal boards to the upper and lower surfaces of the base material board with chemical adhesive. 4. The metal sandwich (heat preservation) composite board takes various heat preservation materials such as rock wool boards, extruded sheets and the like as core materials, or various light materials such as perlite, foamed cement and the like as core materials, and chemical adhesives are used for adhering the metal boards on the upper surface and the lower surface of the core materials to form the composite board with heat preservation function or light weight. The above composite board has the following disadvantages: 1) the existing metal composite substrate board or core material has the following defects that the manufacturing cost of an aluminum honeycomb core is high, the honeycomb cores such as resin, plastic, paper and the like have poor high temperature resistance, aging resistance and water resistance, the porous structure of the honeycomb inevitably causes small adhesion area and low bonding strength, the plastics such as PE, PVC and the like are not fireproof and are easy to age and degrade, the flexural strength and tensile strength of calcium silicate boards, cement boards and gypsum boards are low, the water absorption rate is high, the freezing resistance is poor and the expansion and deformation are easy, and the magnesite boards are easy to be subjected to halogen-resistant deformation and corrosion metal; various heat-insulating light materials have low structural strength and small tensile force, and potential safety hazards of layering and falling can occur. 2) The installation has the great risk of falling off, and the chemical glue for the existing metal composite board is adhered on the upper surface and the lower surface of the core material and the base material to form a complete solid board, so that the metal composite board does not have the function of external hanging connection. Mounting a honeycomb plate by adopting a method that a hole is formed in a honeycomb core at the back, and a connecting piece such as a pre-buried nut or a screw is adhered by glue; or the installation and connection mode of the connecting piece is adhered or pulled in the honeycomb core on the side surface, the hanging strength and the drawing strength of the connection piece completely depend on the adhesive force generated by adhering the metal sheet and the honeycomb core material by chemical glue, and the connection piece can fall off after the glue is aged and degraded. Secondly, the metal composite boards of aluminum, copper, steel, titanium, zinc and the like are generally thin and light in thickness, and are directly pasted or hung at present in two ways, wherein the direct pasting is realized by directly pasting viscous mortar or chemical glue on the decorative part, is basically similar to pasting ceramic tiles, has extremely poor rigid connection shock resistance and has great risk of falling off, and the hanging is basically similar to honeycomb board, so that the same risk exists; the metal fireproof plate is basically similar to the metal composite plate and has the same risk; metal sandwich (heat preservation) composite boards are mainly used in industrial plants, but have the same defects in installation as the composite boards.

Soft facing materials such as leather, plastics, cloth, paper, wood veneer and the like with surface facing decorative patterns are adhered to a substrate board consisting of various materials such as metals, woods, plastics, resins, inorganic materials and the like through an adhesive so as to form various decorative boards by compounding, and the existing main products are as follows: various composite boards such as ecological boards, bamboo-wood fiber boards, aluminum-plastic boards, stone-plastic boards and the like have various defects in application and installation. 1. The defects of the existing substrate plate are as follows: the metal has high cost, is easy to conduct electricity and shield signals indoors, and is easy to oxidize and rust outdoors; wood is afraid of fire and water and is easy to be affected by damp, mildew and deformation; various plates such as density plates, clamping plates and the like which are required to be compounded by chemical glue contain certain chemical harmful substances; the solid wood board has high manufacturing cost and damages the ecological environment after cutting; plastics and resins are not fireproof and are easy to age and degrade; the plates made of inorganic silicon, calcium and various light cements have low strength, high water absorption and poor freezing resistance. 2. The existing building wall generally adopts a light air-entraining block and various light slats under the strict environmental requirement of environmental protection, so that the existing wall generally has low structural strength and small hanging force, connecting pieces such as nails and bolts implanted in the wall are easy to loosen and fall off, the composite board is in a solid state after being formed and does not have the installation function of external connection, the existing building wall is mainly adhered and locked by using mortar or various adhesives in a manner of adhering and nailing, the mortar or various adhesives completely depend on the adhesive force generated by an adhesive and the wall, plastering of the wall or the wall has the inherent defect of cracking and hollowing, the adhesive attached to the wall also has aging and degradation, and the wet adhesion belongs to rigid connection and has poor shock resistance, so that the adhesion has great potential safety hazard of falling off. The front surface locking can damage the decorative surface by fixing various nails or other materials on the wall body, and the fasteners implanted into the wall body are easy to loosen and fall off due to low structural strength of the light wall body, so the safety is extremely poor.

Although the artificial stone slab solves the problem of external hanging and installation of the slab, the artificial stone slab has excellent performance, but the decorative effect of the slab veneer is limited by the process, only spotted natural granite stone and various single surface effects can be imitated, and complex veneers of various wood grains, stone grains, metals and the like cannot be imitated, so that the artificial stone slab has great defects in the application aspect.

Disclosure of Invention

The invention aims to provide a composite board convenient to mount so as to solve the problems in the background technology.

The technical scheme adopted by the invention is as follows: the utility model provides a simple to operate's composite sheet, includes rostone substrate board, the nut has been buried underground in the rostone substrate board, the port of nut is located rostone substrate board back, and it has the finish coat to openly cover at rostone substrate board, the finish coat is metal sheet or software finish material.

Preferably, the outer edge of the decorative layer is bent and attached to the side end part of the artificial stone base plate.

Preferably, the outer edge of the decorative layer is bent for multiple times and then attached to the side end part and the back part of the artificial stone base material plate.

Preferably, a mesh is further embedded in the artificial stone substrate plate, and the nut is arranged in the mesh.

Preferably, the outer edge of the facing layer is provided with a through hole.

Preferably, an adhesive bonding layer is arranged between the artificial stone substrate plate and the decorative layer.

Preferably, the through hole is connected with a connecting hole at one end of the metal strip, the metal strip is bent and attached to the back of the artificial stone substrate plate, a hanging screw rod penetrates through the connecting hole at the other end of the metal strip, and one end of the hanging screw rod is screwed with the nut.

Preferably, the through hole is connected with a connecting hole at one end of the metal strip through a screw, the metal strip is bent and attached to the back of the artificial stone base material plate, a screw penetrates through the connecting hole at the other end of the metal strip, and one end of the screw is in threaded connection with the through hole at the other end of the decorative layer.

Preferably, the through hole is connected with a metal wire, the nut is screwed with a hanging screw rod, and the metal wire is wound on the hanging screw rod or connected with the through hole on the other outer side of the metal plate.

Preferably, the through hole is overlapped with the port of the nut, a hanging screw is screwed on the nut, and the hanging screw penetrates through the through hole.

Preferably, the back of the artificial stone substrate plate is further compounded with one or two of a heat insulation material and a sound insulation material, a hanging screw is screwed on the nut, and the hanging screw penetrates through one or two of the heat insulation material and the sound insulation material.

Preferably, the artificial stone substrate sheet includes at least the following steps:

firstly, uniformly mixing dry powder including high-grade cement and silica fume, a high-efficiency water reducing agent and water according to a water-to-gel ratio of less than 0.25 to prepare slurry;

secondly, placing the slurry into a mold box, adopting vibration equipment to carry out strong vibration, paving a mesh with a nut on the surface of the slurry, paving an isolation cloth on the upper part of the mesh in the mold box, opening a hydraulic press to carry out strong pressure and vacuumizing at the same time;

and step three, arranging a plurality of grooves on a pressing plate of the hydraulic press, taking out the isolation cloth after the plurality of grooves form a plurality of protrusions for pressing the meshes on the cement substrate body, and conveying the pressed cement substrate body into a steam curing chamber for curing to obtain the artificial stone substrate plate.

The artificial stone base material plate is prepared by cement-based and resin-based materials, the cement-based can be prepared into the high-strength and ultrahigh-strength cement-based artificial stone base material plate by adding a water reducing agent, silica fume, a modifier, a water repellent and the like, and the plate has higher compactness and better strength by technical means of strong vibration, strong pressure, vacuum pumping and the like, so that the base material plate can completely reach the best comprehensive performance in the current decorative material used by human beings, the service life can reach all performance indexes of natural granite materials for more than hundreds of years, the folding resistance and the tensile resistance of the plate can be greatly improved by the net sheets which can be laid in a whole plate in the plate, various service performances can be ensured even if the plate is extremely thin, the artificial stone materials mutually wrapped with the net sheets can not fall off even if the artificial stone materials burst, the fireproof performance of the plate is greatly improved, and the base material plate with excellent performance can be ensured to be used indoors and outdoors for a long time, thereby completely overcoming the easy oxidation and corrosion of the metal plate; plastics and resins are easy to age and degrade and have poor fireproof performance; wood is easy to damp and mildew and is not fireproof; the plates made of inorganic silicon, calcium and various light cements have low strength, high water absorption, poor freezing resistance and easy expansion and deformation. And can also completely overcome the defects of easy aging degradation and poor fire resistance of the existing resin, plastic and paper, low strength, high water absorption, easy expansion and deformation of inorganic boards such as calcium silicate boards, cement fiber boards and the like, low bonding strength of various heat-insulating materials, poor tensile resistance and the like. The cement-based artificial stone substrate plate with low cost and excellent performance can ensure that a metal plate or a soft facing material is firmly adhered to the surface of a plate, thereby overcoming the defects of high manufacturing cost of an aluminum honeycomb core, small adhesion area of various honeycomb core materials and low adhesion strength. The metal plate or soft facing material of the present invention decorated on the wall can greatly improve various performances of the existing light wall.

According to the cement-based artificial stone base material plate, the characteristic that the cement-based material is from liquid to solid is utilized when the plate is manufactured, the nuts capable of being externally hung and connected are pre-embedded in the back of the plate, and the cement base material is completely an interconnected whole after being solidified, so that the base material plate with the extremely high externally hung and connected function is manufactured, the inherent defect that the existing metal composite plate does not have the externally hung function is thoroughly overcome, and the plate can be easily and flexibly hung on the wall, the ceiling, the roof and other parts. The metal composite board has the advantages that all functions of the metal composite board can be realized only by adhering one layer of metal sheet to the front surface of the board, and the cost of the metal sheet can be minimized, so that various defects that the existing metal composite board can form a composite board with structural strength only by compounding multiple layers, the generated composite process is complex, the cost is high, and the more chemical glue is used, the greater risk is caused, and the more chemical glue falls off are overcome.

When the metal composite plate is compounded, the metal plate can be bent to wrap the side surface of the artificial stone substrate plate, the metal plate can wrap the back part of the artificial stone substrate plate through the added reinforcing strips or reinforcing wires or can be completely wrapped, and the metal plate can be mutually locked with the back embedded nut, so that the phenomenon that the metal plate falls off can be completely ensured even if the chemical glue completely loses the adhesion, and various potential safety hazards existing in the conventional metal composite plate which can be compounded only by depending on the chemical glue are thoroughly solved.

When the metal composite board is installed, the embedded nuts and the screw rods on the back of the artificial stone base material board, the metal hanging strips, the expansion bolts, the wall-attached keels, the wall-penetrating bolts and the like form an interconnected installation integral structure, so that the weight of the hanging of the composite board is completely transmitted to a frame structure inevitably existing in a building, and various potential safety hazards existing in the method of adhering, nailing and locking and the like on the existing light wall body and fixedly installing various boards such as a honeycomb board, the composite board, a fireproof board and the like can be completely solved. The back of the metal composite plate can clamp various heat insulation materials and sound insulation materials through the screw rod hanging strip, and the heat insulation and sound insulation functions which cannot be realized by the existing honeycomb plate, composite plate and fireproof plate can be easily realized. The invention has less installation materials, thus being capable of completely adopting stainless steel materials, having excellent service performance and completely ensuring that the metal composite plate which is connected into a whole has the same service life with the building main body.

The stainless steel mesh sheet which can be laid in full page in the artificial stone base material plate of the invention can ensure the bending resistance and the tensile property of the artificial stone base material plate to be greatly improved, thereby ensuring that various service performances can be ensured even if the artificial stone base material plate is extremely thin, and the artificial stone material mutually wrapped with the mesh sheet can not fall off even if the artificial stone material is burst, thereby greatly improving the fireproof performance of the artificial stone base material plate, and solving the defects of wood, plastics, resins, inorganic materials, such as bending resistance, low tensile property and easy combustion in fire.

When the soft decorative material is installed, an interconnected installation integral structure is formed by the embedded nuts and the screw rods on the back of the artificial stone base material plate, the metal hanging strips, the expansion bolts, the through-length steel bars, the wall penetrating bolts and the like, so that the weight of the hanging and installing composite plate is completely transmitted to a frame structure inevitably existing in a building, and various potential safety hazards existing in the fixed installation plates such as sticking, nailing and locking of the existing ecological plates, bamboo-wood fiber plates, stone-plastic plates and the like on a light wall can be completely solved. The back of the soft facing material composite board can clamp various heat insulation materials and sound insulation materials through the screw hanging strips, and the heat insulation and sound insulation functions which cannot be realized by various composite boards such as an existing ecological board, a bamboo-wood fiber board, an aluminum-plastic-stone plastic board and the like can be easily realized.

The cement-based artificial stone substrate plate provided by the invention takes cement and various waste stone chips and stone powder as main materials, no mountain quarrying is needed in the plate production, no high-temperature firing is needed, no chemical smell is generated, no harmful substance is contained, the waste materials can be reused or made into other building materials, and the highest environmental standard of zero pollution and zero emission can be completely achieved. The cement-based artificial stone base material plate has excellent performance and extremely low cost, has the optimal installation function, is perfectly compounded with various metal sheets with the lowest cost, can easily realize the heat preservation and sound insulation functions of a building, and can ensure the same service life with a building main body, so the composite plate convenient to install is a technology benefiting the nation and the people.

Drawings

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

FIG. 2 is a schematic view of the structure covered by the finishing layer according to the present invention;

FIG. 3 is a schematic view of the structure of the present invention installed by vertical steel bars;

FIG. 4 is a side view of the present invention covered by another facing layer;

FIG. 5 is a schematic view of the structure of the present invention in which the finishing layers are connected by metal strips;

FIG. 6 is a schematic view of another embodiment of the present invention in which the finishing layers are connected by metal strips;

FIG. 7 is a schematic view showing a structure in which a mesh is embedded in an artificial stone substrate plate according to the present invention;

FIG. 8 is a schematic view of the structure of the present invention in which the finishing layers are connected by wires;

FIG. 9 is an enlarged side view of another wire-bonded facing layer of the present invention;

FIG. 10 is a schematic view of another metal plate or soft facing material covering structure according to the present invention;

FIG. 11 is a schematic view of another alternative facing layer overlay construction of the present invention;

FIG. 12 is a schematic structural view of the present invention connected and installed by an L-shaped connecting member;

FIG. 13 is a schematic structural view of the present invention mounted by an L-shaped connecting member and an n-shaped clip;

FIG. 14 is a schematic view of the dry-hang humidifying paste mounting structure of the present invention through a connecting member;

FIG. 15 is a schematic view of the present invention mounted by a connector in a heat-insulating dry-hang humidifying manner;

FIG. 16 is a schematic structural view of the present invention installed in a non-backbone hanging manner by connecting members;

FIG. 17 is a schematic structural view of the present invention installed by means of a connector keel dry-hang manner;

fig. 18 is a schematic view of the installation structure of the present invention by means of a suspended ceiling.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

When the finishing layer 100 is a metal plate and is an aluminum plate, the aluminum plate and the artificial stone substrate plate 1 are compounded in the following manner:

preparing a composite material: the artificial stone substrate plate 1 with the length of 900mm, the width of 600mm and the thickness of 8mm and the thickness of an aluminum plate of 0.2mm is subjected to surface wire drawing treatment;

as can be seen from figure 1, the artificial stone substrate plate 1 is placed on a working platform of a press; and then coating phenolic glue on the front surface or the back part of the artificial stone substrate plate 1, or coating glue on the front surface and the back part of the artificial stone substrate plate 1 simultaneously, finally laying an aluminum plate on the artificial stone substrate plate 1, pressing the aluminum plate and the artificial stone substrate plate 1 for more than 12 hours by using a press machine, and finally taking out the compounded aluminum composite plate. The hanging screw 101 is screwed to the nut 110 for use.

Example 2

When the finishing layer 100 is a metal plate and is a titanium-zinc metal plate, the compounding manner of the titanium-zinc metal plate and the artificial stone substrate plate 1 is as follows:

the thickness of the titanium-zinc metal plate is 0.3 mm; specification of artificial stone substrate plate: 1200 x 900 x 10 mm.

As shown in fig. 2, the artificial stone substrate plate 1 is placed on a working platform of a hot-melt press, and then a hot-melt adhesive layer (hot-melt adhesive film EVA) is laid on the artificial stone substrate plate 1; bending the outer edge of the titanium-zinc metal plate along the side end part of the artificial stone base plate 1, enabling the bent outer edge to be tightly attached to the side end part of the artificial stone base plate 1, hot-pressing the titanium-zinc metal plate for 6-10 seconds by using a preheated press with the set hot-melting temperature of 130 ℃, and finally taking out the titanium-zinc metal plate composite plate which is subjected to hot-pressing compounding.

Example 3

When the finishing layer 100 is a metal plate and is a stainless steel plate, the stainless steel plate and the artificial stone substrate plate 1 are compounded in the following manner:

as shown in fig. 3, the front surface of the artificial stone substrate plate 1 is brushed with glue, then a stainless steel plate is laid on the artificial stone substrate plate, the outer edge of the stainless steel plate is bent along the side end part of the artificial stone substrate plate 1, the outer edge after being bent once is tightly attached to the side end part of the artificial stone substrate plate 1, a through hole 155 is formed in the outer edge of the metal plate, a screw 122 penetrates through the through hole in the outer edge of the stainless steel plate to be fixedly connected with the end part of the artificial stone substrate plate 1, and then the artificial stone substrate plate is pressed for 24 hours at normal temperature by using a press machine, wherein the glue is polyurethane two-component glue.

Examples 1, 2, 3 were mounted as follows:

as shown in fig. 4, in the wall body having the frame structure of the upper beam 9 and the lower beam 4, the connection holes 8 at the two ends of the vertical steel bar 2 are respectively arranged at the corresponding positions of the upper beam 9 and the lower beam 4, and then the expansion bolts and the steel bars 5 are implanted into the connection holes 8 to be combined with the upper beam 9 and the lower beam 4 and fixed to form the wall keel. Or the two ends of the vertical steel bars 2 are fixed on the upper and lower beam structures of the steel structure bearing frame by means of bolt connection or welding and the like to form wall-pasting keels. Furthermore, the preferable mode of forming the wall keel adopts the installation mode that a wall screw penetrates through the connecting hole 8 of the vertical steel bar 2 and the wall body 3 and then is locked and fixed by a nut. The bearing advantage that vertical billet 2 in the above-mentioned structure has all can bear the weight more than two tons, has high dress intensity of hanging.

A plurality of nuts 110 are embedded in the artificial stone substrate plate 1, the nuts 110 are screwed with one end of the metal hanging strip 6 through hanging strip screws, and the other end of the metal hanging strip 6 is provided with a screw through hole 61. After the wall-attached keel is installed, the expansion bolt 7 penetrates through the screw rod through hole 61 of the metal hanging strip and the connecting hole 8 of the vertical steel bar 2 and then is implanted into the wall body, and the nut on the expansion bolt 7 is fastened in a rotating mode to enable the metal hanging strip 6 and the wall body of the vertical steel bar 2 to be mutually locked, so that the metal composite plate is firmly fixed on a building bearing structure and attached to the wall body 3. The screw through holes of the metal hanging strips of the adjacent metal composite plates can be arranged in an overlapping or staggered manner.

According to the invention, the metal hanging strips 6, the vertical steel bars 2 and the wall body are completely connected in series and locked through bolts, so that the weight of the metal composite plate is transferred to the wall-attached keel formed by the vertical steel bars and is transferred to the upper and lower beam frame structures capable of bearing through the vertical steel bars interconnected with the frame, the height of the existing layer is generally about 3m, the width of the metal composite plate is generally about 0.6 m, the weight of five plates can not exceed hundreds of kilograms, therefore, the wall-attached keel formed by the vertical steel bars 2 can completely bear the weight of the metal composite plate, and even after the light wall body completely collapses, the plates connected in series and locked with the vertical steel bars 2 can not fall down.

Example 4

Unlike the embodiment 2, as shown in fig. 5, the metal plate is a stainless steel plate or a copper plate, and the outer edge thereof is provided with a through hole, the outer edge of the stainless steel plate or the copper plate is bent once and then closely attached to the side end of the artificial stone base plate 1, and the rivet screw 121 is then riveted to the side end of the artificial stone base plate 1 by passing through the one-end connection hole 156 of the metal bar 150 and the through hole 155 of the outer edge of the stainless steel plate or the copper plate in this order, and for better connection, a hole may be drilled in the side end of the artificial stone base plate 1, and a part of the body of the rivet screw 121 may be inserted into the hole of the side end. In addition, the metal strip 150 can be bent and attached to the back of the artificial stone substrate plate to obtain a metal plate fitting for standby.

Placing the artificial stone substrate plate 1 on a hot-melting press platform; and then laying a hot melt adhesive film PES on the artificial stone substrate plate 1, finally laying the stainless steel plate or the copper plate on the hot melt adhesive film PES, setting the temperature of a hot melt press at 140-160 ℃, and carrying out hot pressing on the hot melt adhesive film PES for 12-18 seconds. The stainless steel plate or the copper plate is glued with the artificial stone base plate 1, and the outer edge of the stainless steel plate or the copper plate is fixed at the side end part of the artificial stone base plate 1.

When in use, a hanging screw 151 is inserted into the connecting hole 152 at the other end of the metal strip, and one end of the hanging screw is screwed with a nut.

Example 5

Different from the embodiment 4, as shown in fig. 6, the outer edge of the stainless steel plate or copper plate is bent once and then closely attached to the side end of the artificial stone base plate 1, the rivet bolt 121 is sequentially inserted through the connecting hole at one end of the metal strip 150 and the through hole 155 at one end of the outer edge of the stainless steel plate or copper plate to be riveted to the side end of the artificial stone base plate 1, the other end of the metal strip is bent twice and then closely attached to the side end of the artificial stone base plate 1, the connecting hole is also formed at the other end, the rivet bolt is inserted through the connecting hole at the other end of the metal strip 150 and the through hole at the other end of the outer edge of the stainless steel plate or copper plate to be riveted to the other end of the artificial stone base plate 1.

Example 6

The artificial stone substrate plate at least comprises the following steps:

firstly, uniformly mixing dry powder including high-grade cement and silica fume, a high-efficiency water reducing agent and water according to a water-to-gel ratio of less than 0.25 to prepare slurry;

step two, placing the slurry into a mold box, adopting vibration equipment to strongly vibrate, paving a mesh 125 with a nut on the surface of the slurry, paving an isolation cloth on the upper part of the mesh in the mold box, opening a hydraulic press to strongly press and vacuumizing at the same time (the plate manufacturing equipment needs to have high-frequency vibration and is not less than 10 kg/cm)²A hydraulic press with pressure, a vacuum device for vacuumizing to a pressure below-0.08 MPa);

and step three, arranging a plurality of grooves on a pressing plate of the hydraulic press, taking out the isolation cloth after the plurality of grooves form a plurality of protrusions 126 for pressing the mesh on the cement substrate body, and conveying the pressed cement substrate body into a steam curing chamber for curing to obtain the ultrahigh-performance artificial stone substrate plate 1 with the strength of more than c 100.

As shown in fig. 7, a mesh 125 is further embedded in the artificial stone substrate 1, and the nut 110 is provided in the mesh 125.

Placing the artificial stone substrate plate 1 on a working platform of a press; and then spraying epoxy resin glue on the front surface of the artificial stone substrate plate 1 and the back of the metal plate 100, pressing for more than 12 hours by using a press after compounding, taking out the compounded stainless steel plate composite plate, and screwing the hanging screw 101 with the nut 110.

Example 7

When the finishing layer 100 is a metal plate and a copper plate, the copper plate and the artificial stone substrate plate 1 are compounded in the following manner:

drawing the surface of the copper plate to a thickness of 0.3mm, and punching the outer edge of the copper plate; specification of artificial stone substrate plate: 500 x 800 x 10 mm.

As can be seen in fig. 8-9, the artificial stone substrate plate 1 is placed on the working platform of the hot melting press; and then brushing acrylic acid glue on the front surface of the artificial stone substrate plate 1, compounding the copper plate bent into a frame shape on the artificial stone substrate plate 1, and opening a press machine to press for more than 12 hours. One end of the stainless steel wire or the aluminum wire 108 penetrates through the through hole 155 on the outer side of the copper plate and is wound on the outer side of the copper plate, a hanging screw rod is screwed in a port of the back nut of the artificial stone base material plate 1, and the other end of the stainless steel wire or the aluminum wire is wound to the position near the nut and is wound on the hanging screw rod or connected with the through hole on the other outer side of the copper plate to fix the copper plate, so that the copper composite plate is formed.

The mounting method is the same as that of the embodiments 1, 2 and 3.

Example 8

As can be seen from fig. 10, the outer edge of the aluminum plate is bent along the side end portion of the artificial stone base plate 1, the outer edge after twice bending is closely attached to the back portion of the end portion of the artificial stone base plate 1, the outer edge of the aluminum plate is provided with a through hole 155, and the through hole is overlapped with the port of the nut 110, so that a metal plate fitting is obtained for standby. Placing the artificial stone substrate plate 1 on a working platform of a hot-melt press, and then laying a hot-melt adhesive layer (hot-melt adhesive film EVA) on the artificial stone substrate plate 1; and (3) aligning the preheated press machine with the hot melting temperature of 130 ℃ to the aluminum plate for hot pressing for 6-10 seconds, taking out the aluminum composite plate subjected to hot pressing compounding, and screwing the hanging screw 101 with the nut 110 after penetrating through the through hole of the aluminum plate.

The outer edges of part of the aluminium plate (as shown in figure 9) can be removed, which ensures the security of the installation and reduces the cost.

Example 9

Different from the embodiment 1, the back of the artificial stone substrate plate 1 is compounded with the thermal insulation material 103 and the sound insulation material 102, and the hanging screw 101 sequentially passes through the plane connecting hole of the connecting piece, the thermal insulation material, the sound insulation material and the through hole outside the metal plate to be in threaded connection with the nut on the artificial stone substrate plate.

As shown in fig. 12, the connecting member includes an L-shaped connecting member 105 having an L shape, and two connecting portions of the L-shaped connecting member 105 are each provided with a planar connecting hole, wherein one connecting portion of the L-shaped connecting member 105 is connected to the nut 2 of the inorganic artificial stone plate by a screw rod penetrating through the planar connecting hole, and the other connecting portion of the L-shaped connecting member 105 is locked to the connecting keel 107 by a screw rod or a tapping screw 111 penetrating through the planar connecting hole.

Example 10

When the facing layer 100 is made of soft facing material and plastic film (surface yellow jade effect), the plastic film and the artificial stone substrate plate 1 are compounded in the following way:

a net piece 109 is buried in the artificial stone substrate plate 1, a nut 110 is arranged in the net piece 109, a port of the nut 110 is positioned at the back of the artificial stone substrate plate 1, and a plastic film is glued on the front surface of the artificial stone substrate plate. The plastic film is directly glued and coated on the surface of the artificial stone substrate plate 1 through a film coating machine.

The mounting method is the same as that of the embodiments 1, 2 and 3.

Example 11

When finish coat 100 is the software finish material and for the PVC leather (surperficial cherry wood effect), the compound mode of PVC leather and rostone substrate board 1 is as follows:

as shown in fig. 11, the artificial stone substrate plate 1 is placed on the working platform of the press; then, glue bonding layers 121 (epoxy resin glue) are coated on the front side and the side faces of the artificial stone substrate plate 1, finally, PVC leather is paved on the artificial stone substrate plate 1 coated with the glue, and the outer edge of the PVC leather is bent once and then attached to the front side end and the side end of the artificial stone substrate plate 1. And (4) pressing the press machine for more than 6 hours in alignment with the PVC leather to obtain the composite board.

The mounting method is the same as that of the embodiments 1, 2 and 3.

Example 12

When the finish coat 100 is soft finish material and melamine paper (surface rosewood effect), the compound mode of melamine paper and artificial stone substrate board 1 is as follows:

the melamine paper is pressed on the surface of the artificial stone substrate plate 1 through a hot press. The outer edge of the melamine paper is bent for multiple times and then attached to the side end part and the back part of the artificial stone base material plate.

Example 13

When the finishing layer 100 is made of soft finishing material and cloth (surface cloth effect), the cloth and artificial stone substrate 1 is compounded in the following way:

the cloth is adhered to the surface of the artificial stone substrate plate 1 through universal glue, and the surface of the cloth is coated with a fireproof protective agent.

As shown in fig. 5, a thermal insulation material 103 and a sound insulation material 102 are adhered to the back of the artificial stone substrate 1, and the hanging screw 101 is screwed with a nut on the artificial stone substrate through a connecting hole of the middle connecting piece, the thermal insulation material 103 and the sound insulation material 102 in sequence.

Example 14

When the facing layer 100 is made of soft facing material and is made of plastic film (the surface simulates stainless steel wire drawing effect), the plastic film and the artificial stone substrate plate 1 are compounded in the following way:

placing the artificial stone substrate plate on a working platform of a hot-melting press; and then laying a hot melt adhesive layer on the artificial stone substrate plate, finally laying a plastic film on the hot melt adhesive layer (hot melt adhesive film EVA), and hot-pressing the plastic film for 6-10 seconds by aiming at the plastic film by a preheated press machine with the hot melt temperature of 120-135 ℃ to obtain the composite plate compounded by hot pressing.

The back of the artificial stone substrate plate 1 is adhered with a heat insulation material 103 and a sound insulation material 102, and the hanging screw 101 sequentially penetrates through the connecting hole of the middle connecting piece, the heat insulation material 103 and the sound insulation material 102 to be connected with the nut on the artificial stone substrate plate in a screwing mode.

Application example 1

As shown in fig. 13, the thermal insulation material 103 and the sound insulation material 102 are compounded on the back of the artificial stone substrate 1 with the metal plate or the soft finishing material, and the hanging screw 101 is screwed with the nut on the artificial stone substrate sequentially through the connecting hole of the middle connecting piece, the thermal insulation material 103, the sound insulation material 102, and the through hole 155 outside the metal plate or the soft finishing material.

The connecting piece includes the L type connecting piece 105 of "L" font, the n type checkpost 106 of "n" font, n type checkpost 106 staple bolt is on connecting fossil fragments 107, n type checkpost 106 mid-plane is equipped with middle connecting hole, and wherein a connecting portion of L type connecting piece 105 is connected with the nut 110 of rostone base material board 1 by the screw rod that passes the connecting hole, and another connecting portion of L type connecting piece is by passing the plane connecting hole, and the screw rod and the n type checkpost mid-plane of middle connecting hole are connected.

The installation mode is as follows:

the opening of the n-shaped clamp 106 is sleeved on the connecting keel 107, the other side of the opening is connected with one connecting end face of the L-shaped connecting piece through the screw and the nut, the other connecting end face of the L-shaped connecting piece sequentially penetrates through the heat insulation material and the sound insulation material through the screw to be screwed with the nut 2, after the position of the plate is adjusted, the screw and the nut are screwed to fix the n-shaped clamp 106 and the L-shaped connecting piece 105, and finally the fastening screw 108 on the side face of the n-shaped clamp is screwed to fasten the n-shaped clamp with the connecting keel 107, so that the first plate is installed.

Application example 2

As shown in fig. 14, after the artificial stone substrate plate 1 is combined with the metal plate or the soft facing material, the artificial stone substrate plate is installed on the wall body in a dry-hanging and humidifying manner through a connecting piece, the connecting piece includes a straight metal strip 14, a plurality of screw rod through holes 15 are respectively formed at two ends of the straight metal strip 14, a screw rod 21 penetrates through one screw rod through hole of the straight metal strip 14, a fastening nut 16 is screwed at the outer end of the screw rod 21, and the fastening nut 16 presses the straight metal strip 14 on the back of the artificial stone substrate plate 1. The screw 21 is screwed with the nut 110 on the artificial stone substrate plate 1, the expansion bolt 19 is arranged in the other screw through hole of the straight metal strip, the main body of the expansion bolt 19 is embedded into the wall, and a plurality of mortar blocks 12 are arranged between the back of the artificial stone substrate plate 1 and the wall.

Application example 3

As shown in fig. 15, after the artificial stone substrate plate 1 is compounded with a metal plate or a soft facing material, the artificial stone substrate plate is installed on a wall body in a heat preservation dry hanging and humidifying manner through a connecting piece, the connecting piece comprises a straight metal strip 14, a plurality of screw rod through holes are respectively arranged at two ends of the straight metal strip 14, a long screw rod 22 penetrates through one screw rod through hole of the straight metal strip 14, a fastening nut 16 is screwed at the outer end of the long screw rod 22, and the straight metal strip 14 is pressed on the back of the heat preservation material 103 by the fastening nut 16. The long screw 22 passes through the heat insulation material 103 and the through hole 15 at the end part of the metal plate 100 to be screwed with the nut 110 on the artificial stone substrate plate 1, the expansion bolt 19 passes through the other screw through hole of the straight metal strip, the main body of the expansion bolt 19 is implanted into the wall, and a plurality of mortar blocks 12 are also arranged between the back part of the heat insulation plate and the wall.

Application example 4

As shown in fig. 16, after the artificial stone substrate plate 1 is compounded with the metal plate or the soft facing material, the artificial stone substrate plate is installed on the wall body in a non-keel hanging manner through a connecting piece, the connecting piece comprises a Z-shaped metal connecting piece 18, a plurality of screw rod through holes are respectively arranged at two ends of the Z-shaped metal connecting piece 18, a screw rod 24 is arranged in one screw rod through hole of the Z-shaped metal connecting piece 18, a fastening nut 15 is screwed at the outer end of the screw rod 24, the Z-shaped metal connecting piece 18 is pressed on the back of the artificial stone substrate plate 1 through the fastening nut 15, the screw rod penetrates through the screw rod through hole of the Z-shaped metal connecting piece 18 and the through hole at the end part of the metal plate 100 to be screwed with a non-nut 110 on the artificial stone substrate plate 1, an expansion bolt 19 is arranged in the other screw rod through hole of the Z-shaped metal connecting piece, and the main body of the expansion bolt is implanted into the wall body.

Application example 5

As shown in fig. 17, after the artificial stone substrate plate 1 is compounded with a metal plate or a soft facing material, the artificial stone substrate plate is installed on a wall body in a way of dry hanging with a keel through a connecting piece, the connecting piece comprises an L-shaped metal connecting piece 27, the keel comprises a bearing keel 17 and a transverse keel 28, the transverse keel 28 is fixed on the bearing keel 17, the bearing keel 17 is fixed on the wall body, a screw through hole 34 is arranged on the transverse keel 28, waist holes are respectively arranged at two connecting ends of the L-shaped metal connecting piece 27, a screw is arranged in the waist hole at one connecting end of the L-shaped metal connecting piece 27 in a penetrating way, the screw penetrates through the waist hole at one connecting end of the L-shaped metal connecting piece 27, the screw is screwed with a nut 110 on the artificial stone substrate plate 1, a bolt 26 is arranged in the waist hole at the other connecting end of the L-shaped metal connecting piece 27, the bolt 26 penetrates through the screw through hole 34 and is screwed with the nut, adjusting the vertical height and the front-back flatness of the plate, and screwing nuts at two ends after confirmation to finish the installation of the composite plate.

Application example 6

As shown in fig. 18, after the artificial stone substrate plate 1 is combined with the metal plate or the soft facing material, the artificial stone substrate plate is installed on the floor slab in a suspended ceiling manner through a connecting member, the connecting member includes an L-shaped metal connecting member 105 and an "n" -shaped metal clip 106, waist holes are respectively formed in two connecting end surfaces of the L-shaped metal connecting member 105, a screw through hole or a fixing screw hole is formed in the middle end surface of the "n" -shaped metal clip 106, fastening screw holes are formed in the end surfaces of the side portions of the "n" -shaped metal clip, and the fastening screw holes are screwed with fastening screws. A screw rod and a nut are used in a waist hole at one connecting end of the L-shaped metal connecting piece 105, the screw rod penetrates through a through hole outside the metal plate 100, and the screw rod is lightly screwed and fixed in a stainless steel nut 110 on the back of the artificial stone substrate plate 1 for standby. A screw rod penetrates through the n-shaped metal clip 106 to fix the screw hole for later use; or the screw 59 is used for penetrating through the screw through hole of the n-shaped metal clip 106 and the other connecting end surface of the inner nut screwing standby L-shaped metal connecting piece 105 is connected with the middle end surface of the n-shaped metal clip 106 in a screw and nut screwing mode through the waist hole, the screw through hole or the fixing screw hole. Or the other connecting end waist hole of the L-shaped metal connecting piece of the plate is sleeved on the screw 59 of the n-shaped metal clip, and the nut is screwed for fixing.

The n-shaped metal clip 106 is placed on the cross keel 55 according to the position of the comparison, and after the confirmation of the error, the n-shaped metal clip 106 is screwed up by the fastening screw 60 screwed in the side fastening screw hole of the n-shaped metal clip 106, so that the n-shaped metal clip is completely fixed. The bearing metal keel 56 is connected with the transverse keel 55, a hoop 57 is sleeved on the bearing metal keel 56, the hoop 57 is screwed on the bearing steel plate 58 through bolts, and the bearing steel plate 58 is fixed on a top floor or a wall through embedded bars or expansion bolts.

According to the technical solution feature set (independent claim), various additional technical features in this specific embodiment may be incorporated into the technical solution feature set alone to form a new embodiment, or may be incorporated into the technical solution feature set in any combination to form a new embodiment. Or various additional features of the present embodiments may be substituted for the specific features of the present embodiments to form new embodiments.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (11)

1. The utility model provides a simple to operate's composite sheet, includes rostone base material board, its characterized in that the nut has been buried underground in the rostone base material board, the port of nut is located rostone base material board back, and it has the finish coat to openly cover at rostone base material board, the finish coat is metal sheet or software finish material.

2. The composite board as claimed in claim 1, wherein the outer edge of the finishing layer is bent to be attached to the side end of the artificial stone substrate board.

3. The composite board as claimed in claim 1, wherein the outer edge of the finishing layer is bent several times and attached to the side end and the back of the artificial stone substrate board.

4. The composite board as claimed in claim 1, wherein a mesh is further embedded in the artificial stone substrate, and the nut is disposed in the mesh.

5. A composite board for easy installation according to claim 1, 2, 3 or 4, wherein an adhesive layer is provided between the artificial stone substrate board and the veneer layer.

6. A composite sheet according to claim 2 or claim 3, wherein the finishing layer is provided with through holes on its outer edge.

7. The composite board as claimed in claim 6, wherein the through hole is connected to a connecting hole at one end of a metal strip, the metal strip is bent and attached to the back of the artificial stone substrate board, a hanging screw rod is inserted into the connecting hole at the other end of the metal strip, and one end of the hanging screw rod is screwed with a nut.

8. The composite board as claimed in claim 6, wherein the through holes are connected to the connecting holes at one ends of the metal strips by screws, the metal strips are bent and attached to the back of the artificial stone substrate board, and screws are inserted into the connecting holes at the other ends of the metal strips, and one ends of the screws are screwed with the through holes at the other ends of the decorative layer.

9. The composite board according to claim 6, wherein the through hole is connected with a metal wire, the nut is screwed with a hanging screw, and the metal wire is wound on the hanging screw or connected with the through hole.

10. The composite board as claimed in claim 5, wherein the back of the artificial stone substrate is further compounded with one or both of a thermal insulation material and a sound insulation material, and the nut is screwed with a hanging screw which passes through one or both of the thermal insulation material and the sound insulation material.

11. An installation convenient composite board according to claim 1 or 2 or 3 or 4, wherein said artificial stone substrate board comprises at least the following steps:

firstly, uniformly mixing dry powder including high-grade cement and silica fume, a high-efficiency water reducing agent and water according to a water-to-gel ratio of less than 0.25 to prepare slurry;

secondly, placing the slurry into a mold box, adopting vibration equipment to carry out strong vibration, paving a mesh with a nut on the surface of the slurry, paving an isolation cloth on the upper part of the mesh in the mold box, opening a hydraulic press to carry out strong pressure and vacuumizing at the same time;

and step three, a plurality of grooves are formed in the pressing plate of the hydraulic press, after the plurality of grooves form a plurality of protrusions for pressing the net sheets on the cement substrate, the isolation cloth is taken out, and the pressed substrate is maintained to obtain the artificial stone substrate.

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