CN109898729B - Composite wallboard capable of being reused in assembly construction and manufacturing method thereof - Google Patents
Composite wallboard capable of being reused in assembly construction and manufacturing method thereof Download PDFInfo
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- CN109898729B CN109898729B CN201910293347.2A CN201910293347A CN109898729B CN 109898729 B CN109898729 B CN 109898729B CN 201910293347 A CN201910293347 A CN 201910293347A CN 109898729 B CN109898729 B CN 109898729B
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Abstract
The invention relates to the technical field of buildings, in particular to a composite wallboard capable of being reused in assembly construction, which comprises a core board, wherein a first panel and a second panel are arranged on the front surface and the back surface of the core board, ear fans and concave ridges with the same size are arranged on the peripheries of the first panel and the second panel, and a plurality of bolts penetrate through the ear fans, the concave ridges and the core board to directly reach the bottom board surface to lock the ear fans, the concave ridges and the core board with the bottom board. The composite wallboard overcomes the defects of poor overall performance, easy breakage and fracture, poor joint crack and poor sound insulation effect of other boards, and meanwhile, the board has good waterproof, fireproof, heat-insulating, anti-seismic and anti-cracking performances, and is environment-friendly and energy-saving.
Description
Technical Field
The invention relates to the technical field of building energy conservation, in particular to a reusable composite wallboard for assembly construction and a manufacturing method thereof.
Background
At present, in order to protect urban environment, reduce pollution and save energy, the nation strongly pushes building energy conservation and building construction assembly, so that the light energy-saving composite wallboard which can be reused in assembly construction is imperative to manufacture. The gypsum batten boards and the cement fly ash batten boards are widely concerned, but the gypsum batten boards and the cement fly ash batten boards have the defects that the gypsum batten boards and the cement fly ash batten boards are difficult to overcome, such as poor overall performance, fragility, easy folding, poor abutted seam crack and poor sound insulation effect.
Disclosure of Invention
The invention aims to solve the defects in the prior art, and provides a composite wallboard which can be reused in assembly construction and a manufacturing method thereof.
In order to achieve the purpose, the invention adopts the following technical scheme:
the utility model provides a but composite wall panel that assembly construction reuse, includes the core, the tow sides of core are provided with first panel and second panel, first panel and second panel periphery are provided with ear fan and concave bank with the size to it pins ear fan and concave bank and core and bottom plate to be provided with a plurality of bolts and run through the direct bottom plate face of ear fan, concave bank and core, the notch has all been seted up to the concave bank platform of second panel both sides, and the hole that runs through the core is seted up at the core middle part.
The invention also provides a manufacturing method of the reusable composite wallboard for assembly construction, which comprises the following steps:
s1, weighing 5 parts of straw powder fiber, 4 parts of expanded perlite, 1 part of lime, 2 parts of cement, 1 part of water repellent and 3 parts of water according to the volume, stirring, mixing, pressing into a core plate by a press, and naturally curing for 15-28 days, wherein the length of the core plate is 1200mm, the width is 600mm, and the thickness is 800-;
s2, taking 1 part of cement, 1 part of expanded perlite, 1 part of straw chopped fiber, 1 part of medium and coarse yellow sand, 0.1 part of coagulant, 0.1 part of waterproof agent and 1 part of water, stirring and mixing to form slurry 1, taking 1 part of cement, 3 parts of medium and coarse yellow sand, 0.1 part of coagulant and 0.1 part of waterproof agent, and stirring and mixing to form slurry 2;
s3, placing 2 steel wire meshes with matching sizes with the core board into different molds with male ear fans and female concave sills, then pouring mixed slurry 1 in the middle, pouring mixed slurry 2 with the width of 100mm around, making a first panel and a second panel with the thickness of 20mm in the middle and the thickness of 50mm ear fans and concave sills 10mm around, naturally curing for 15-28 days, and finally sticking the first panel and the second panel on the two sides of the core board by cement paste for curing and curing, thus obtaining the light energy-saving composite wallboard with excellent overall performance and reusability in assembly construction.
Preferably, 1-6 parts of straw chopped fiber, 0-2 parts of lime, 0.5-3 parts of cement, 1-5 parts of yellow sand, 0-2 parts of a coagulant and 0-2 parts of a waterproof agent.
Preferably, the straw is fibrous, the linear length of the straw is 20-25mm, the cement is 325 Portland cement, and the yellow sand is medium coarse type.
Preferably, the first and second panels in step S3 each have a thickness of 5-40mm, a width of 5-20mm and a thickness of 5-20 mm.
Preferably, in the step S3, two ends of the first panel extend out of the ear fans with a width of 50mm and a thickness of 10mm, one end of each ear fan is internally provided with a right-angled concave ridge with a width of 50mm and a depth of 10mm, one end of each second panel is internally provided with a right-angled concave ridge with a width of 50mm and a depth of 10mm, and the ear fans and the concave ridges of the first panel, the second panel and the concave ridges form a male-female combination when the two panels are assembled up, down, left and right and are locked by a specific screw rod to stabilize the side opening of the wallboard.
Preferably, notches are formed in concave sill platforms on two sides of the second panel.
Preferably, the core plate has a row of holes therein, the holes having a diameter of 20-100 mm.
The composite wallboard capable of being reused in assembly construction and the manufacturing method thereof have the advantages that: the composite wallboard overcomes the defects of poor overall performance, easy breakage, crack splicing and poor sound insulation effect of other boards, and meanwhile, the board has good waterproof, fireproof, heat-insulating and anti-seismic performances, and is environment-friendly and energy-saving.
Drawings
Fig. 1 is a schematic front view of a composite wall panel that can be reused in assembly construction according to the present invention.
Fig. 2 is a schematic side view of a composite wall panel that can be reused in assembly construction according to the present invention.
Fig. 3 is a schematic top view of a composite wall panel for assembly construction and reuse according to the present invention.
In the figure: the panel comprises a first panel 1, a second panel 2, a core plate 3, an ear fan 4, a concave ridge 5, a bolt 6, a notch 7 and a hole 8.
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.
Referring to fig. 1-3, a composite wall panel capable of being reused in assembly construction, wherein a first panel 1 and a second panel 2 are arranged on the front and back surfaces of a core plate 3, the peripheries of the first panel 1 and the second panel 2 are provided with ear fans 4 and concave ridges 5 with the same size, a plurality of bolts 6 are arranged to penetrate through the ear fans 4, the concave ridges 5 and the core plate 3 to a bottom plate surface so as to lock the ear fans 4, the concave ridges 5 and the core plate 3 with the bottom plate, the concave ridges 5 on the two sides of the second panel 2 are provided with notches 7, the middle part of the core plate 3 is provided with a hole 8 penetrating through the core plate 3, the ear fans and the concave ridges of the first panel and the second panel are assembled up and down and left and right to form a male-female combination when the two panels are assembled, and a specific screw rod is used for locking and stabilizing the edge of the wall panel, the device is manufactured in a factory according to the design requirements of the wall body, the wall body is assembled on site, the lead screw rod can be disassembled, the wall panel can be disassembled, the wall body, the construction is convenient, and the stress intensity of the bolt 3 is higher, if the device is disassembled without manpower, the device cannot be loosened by self.
Example 1
A manufacturing method of a composite wallboard capable of being reused in assembly construction comprises the following steps:
s1, weighing 5 parts of straw powder fiber and 4 parts of expanded perlite according to the volume, wherein the expanded perlite is a white granular material which is prepared by preheating perlite ore sand, instantly roasting at high temperature and expanding and has a honeycomb structure inside, the expanded perlite has a high-efficiency heat preservation effect, 1 part of lime, 2 parts of cement and 1 part of water repellent are used as special waterproof agents for outer walls, the waterproof performance of the wall can be effectively improved, the water repellent can be used after being exchanged with water in a proper proportion, 3 parts of water are used, and the mixture is stirred and mixed and then is sent to a press machine to be pressed into a core plate for natural maintenance for 15-28 days, wherein the length of the core plate is 1200mm, the width of the core plate is 600mm, and the thickness of the core plate is 800-;
s2, taking 1 part of cement, 1 part of expanded perlite, 1 part of straw chopped fiber, 1 part of medium and coarse yellow sand, 0.1 part of coagulant, 0.1 part of waterproof agent, 1 part of water, stirring and mixing to form slurry 1, 1 part of cement, 3 parts of medium and coarse yellow sand, 0.1 part of coagulant, 0.1 part of waterproof agent and stirring and mixing to form slurry 2, wherein the coagulant can effectively promote the coagulation of various mixtures, thereby improving the coagulation efficiency;
s3, putting 2 steel wire meshes with matched sizes with the core board into different molds with male ear fans and female sills, then pouring mixed slurry 1 in the middle, pouring mixed slurry 2 with the width of 100mm around, making a first panel and a second panel with the thickness of 20mm in the middle and the width of 50mm around and the thickness of 10mm around, naturally curing for 15-28 days, and finally pasting the first panel and the second panel on the two sides of the core board by cement paste for curing and setting, thus obtaining the light energy-saving composite wallboard with excellent overall performance and reusability in assembly construction.
1-6 parts of straw chopped fiber, 0-2 parts of lime, 0.5-3 parts of cement, 1-5 parts of yellow sand, 0-2 parts of a coagulant and 0-2 parts of a waterproof agent, wherein the waterproof agent is a chemical additive and is added into the cement, and when the cement is coagulated and hardened, the waterproof agent expands along with the volume of the cement, so that the effects of compensating shrinkage and tensioning a reinforcing steel bar to generate prestress and fully filling gaps of the cement are achieved.
The straw is fibrous, the linear length of the straw is 20-25mm, the cement is 325 Portland cement, the yellow sand is medium coarse type, the strength of the coagulated Portland cement is higher, and the protective performance is better.
In this embodiment, the core 3 is composed of straw fiber, expanded perlite, cement and water at a weight ratio of 5:5:2:5, wherein the weight ratio of straw fiber, expanded perlite and cement is 41.67%, 41.67% and 16.67%, respectively, and the value of detected thermal conductivity is 0.065442.
In step S3, the first and second panels are each 5-40mm thick, and the width and thickness of the peripheral ear fan and the concave ridge are 5-20mm and 5-20mm respectively.
In the step S3, two ends of the first panel extend out of the ear fans with the width of 50mm and the thickness of 10mm, one end of the first panel is internally provided with the right-angled concave ridge with the width of 50mm and the depth of 10mm, one end of the second panel is internally provided with the right-angled concave ridge with the width of 50mm and the depth of 10mm, and the ear fans and the concave ridges of the first panel, the second panel and the concave ridges form a male-female combination when the two panels are assembled up, down, left and right and are locked by a specific screw to fix the side opening of the wallboard.
The concave ridge platform in second panel both sides is seted up the notch.
The core plate is provided with a row of holes, and the diameter of each hole is 20-100 mm.
Example 2
A manufacturing method of a composite wallboard capable of being reused in assembly construction comprises the following steps:
s1, weighing 5 parts of straw powder fiber and 4 parts of expanded perlite according to volume, wherein the expanded perlite is a white granular material which is prepared by preheating perlite ore sand and instantaneously roasting and expanding at high temperature and has a honeycomb structure inside, the expanded perlite has a high-efficiency heat preservation effect, 1 part of lime, 2 parts of cement and 1 part of water repellent are used as a special waterproof agent for outer wall water proofing, the waterproof performance of the wall can be effectively improved, the water repellent can be used after being exchanged with water in a proper proportion, 3 parts of water are used, and the mixture is stirred, mixed and then sent to a press to be pressed into a core plate for natural maintenance for 15-28 days, wherein the length of the core plate is 1200mm, the width of the core plate is 600mm, and the thickness of the core plate is 800 plus 160 mm;
s2, taking 1 part of cement, 1 part of expanded perlite, 1 part of straw chopped fiber, 1 part of medium and coarse yellow sand, 0.1 part of coagulant, 0.1 part of waterproof agent, 1 part of water, stirring and mixing to form slurry 1, 1 part of cement, 3 parts of medium and coarse yellow sand, 0.1 part of coagulant, 0.1 part of waterproof agent and stirring and mixing to form slurry 2, wherein the coagulant can effectively promote the coagulation of various mixtures, thereby improving the coagulation efficiency;
s3, putting 2 steel wire meshes with matched sizes with the core board into different molds with male ear fans and female sills, then pouring mixed slurry 1 in the middle, pouring mixed slurry 2 with the width of 100mm around, making a first panel and a second panel with the thickness of 20mm in the middle and the width of 50mm around and the thickness of 10mm around, naturally curing for 15-28 days, and finally pasting the first panel and the second panel on the two sides of the core board by cement paste for curing and setting, thus obtaining the light energy-saving composite wallboard with excellent overall performance and reusability in assembly construction.
1-6 parts of straw powder fiber, 0-2 parts of lime, 0.5-3 parts of cement, 1-5 parts of yellow sand, 0-2 parts of a coagulant and 0-2 parts of a waterproof agent, wherein the waterproof agent is a chemical additive, is added into the cement, and has the functions of compensating shrinkage and tensioning a reinforcing steel bar to generate prestress and fully filling gaps of the cement along with volume expansion when the cement is coagulated and hardened.
The straw is fibrous, the linear length of the straw is 20-25mm, the cement is 325 Portland cement, the yellow sand is medium coarse type, and the Portland cement has higher strength and better protective performance after being coagulated.
In this embodiment, the core 3 is composed of straw fiber, expanded perlite, cement and water at a weight ratio of 6:4:2:5, wherein the weight ratio of straw fiber, expanded perlite and cement is 50%, 33.33% and 16.67%, respectively, and the value of detected thermal conductivity is 0.068645.
In step S3, the first and second panels are each 5-40mm thick, and the width and thickness of the peripheral ear fan and the concave ridge are 5-20mm and 5-20mm respectively.
In the step S3, two ends of the first panel extend out of the ear fans with the width of 50mm and the thickness of 10mm, one end of the first panel is internally provided with the right-angled concave ridge with the width of 50mm and the depth of 10mm, one end of the second panel is internally provided with the right-angled concave ridge with the width of 50mm and the depth of 10mm, and the ear fans and the concave ridges of the first panel, the second panel and the concave ridges form a male-female combination when the two panels are assembled up, down, left and right and are locked by a specific screw to fix the side opening of the wallboard.
The concave ridge platform in second panel both sides is seted up the notch.
The core plate is provided with a row of holes, and the diameter of each hole is 20-100 mm.
Example 3
A manufacturing method of a composite wallboard capable of being reused in assembly construction comprises the following steps:
s1, weighing 5 parts of straw powder fiber and 4 parts of expanded perlite according to volume, wherein the expanded perlite is a white granular material which is prepared by preheating perlite ore sand and instantaneously roasting and expanding at high temperature and has a honeycomb structure inside, the expanded perlite has a high-efficiency heat preservation effect, 1 part of lime, 2 parts of cement and 1 part of water repellent are used as a special waterproof agent for outer wall water proofing, the waterproof performance of the wall can be effectively improved, the water repellent can be used after being exchanged with water in a proper proportion, 3 parts of water are used, and the mixture is stirred, mixed and then sent to a press to be pressed into a core plate for natural maintenance for 15-28 days, wherein the length of the core plate is 1200mm, the width of the core plate is 600mm, and the thickness of the core plate is 800 plus 160 mm;
s2, taking 1 part of cement, 1 part of expanded perlite, 1 part of straw chopped fiber, 1 part of medium and coarse yellow sand, 0.1 part of coagulant, 0.1 part of waterproof agent, 1 part of water, stirring and mixing to form slurry 1, 1 part of cement, 3 parts of medium and coarse yellow sand, 0.1 part of coagulant, 0.1 part of waterproof agent and stirring and mixing to form slurry 2, wherein the coagulant can effectively promote the coagulation of various mixtures, thereby improving the coagulation efficiency;
s3, putting 2 steel wire meshes with matched sizes with the core board into different molds with male ear fans and female sills, then pouring mixed slurry 1 in the middle, pouring mixed slurry 2 with the width of 100mm around, making a first panel and a second panel with the thickness of 20mm in the middle and the width of 50mm around and the thickness of 10mm around, naturally curing for 15-28 days, and finally pasting the first panel and the second panel on the two sides of the core board by cement paste for curing and setting, thus obtaining the light energy-saving composite wallboard with excellent overall performance and reusability in assembly construction.
1-6 parts of straw powder fiber, 0-2 parts of lime, 0.5-3 parts of cement, 1-5 parts of yellow sand, 0-2 parts of a coagulant and 0-2 parts of a waterproof agent, wherein the waterproof agent is a chemical additive, is added into the cement, and has the functions of compensating shrinkage and tensioning a reinforcing steel bar to generate prestress and fully filling gaps of the cement along with volume expansion when the cement is coagulated and hardened.
The straw is fibrous, the linear length of the straw is 20-25mm, the cement is 325 Portland cement, the yellow sand is medium coarse type, and the Portland cement has higher strength and better protective performance after being coagulated.
In this embodiment, the core 3 is made of straw fiber, expanded perlite, cement, water and lime in a weight ratio of 7:3:2:5:0.5, wherein the straw fiber, expanded perlite, cement and lime are 56%, 24%, 16% and 4%, and the value of the detected thermal conductivity is 0.069845.
In step S3, the first and second panels are each 5-40mm thick, and the width and thickness of the peripheral ear fan and the concave ridge are 5-20mm and 5-20mm respectively.
In the step S3, two ends of the first panel extend out of the ear fans with the width of 50mm and the thickness of 10mm, one end of the first panel is internally provided with the right-angled concave ridge with the width of 50mm and the depth of 10mm, one end of the second panel is internally provided with the right-angled concave ridge with the width of 50mm and the depth of 10mm, and the ear fans and the concave ridges of the first panel, the second panel and the concave ridges form a male-female combination when the two panels are assembled up, down, left and right and are locked by a specific screw to fix the side opening of the wallboard.
The concave ridge platform in second panel both sides is seted up the notch.
The core plate is provided with a row of holes, and the diameter of each hole is 20-100 mm.
Example 4
A manufacturing method of a composite wallboard capable of being reused in assembly construction comprises the following steps:
s1, weighing 5 parts of straw powder fiber and 4 parts of expanded perlite according to volume, wherein the expanded perlite is a white granular material which is prepared by preheating perlite ore sand and instantaneously roasting and expanding at high temperature and has a honeycomb structure inside, the expanded perlite has a high-efficiency heat preservation effect, 1 part of lime, 2 parts of cement and 1 part of water repellent are used as a special waterproof agent for outer wall water proofing, the waterproof performance of the wall can be effectively improved, the water repellent can be used after being exchanged with water in a proper proportion, 3 parts of water are used, and the mixture is stirred, mixed and then sent to a press to be pressed into a core plate for natural maintenance for 15-28 days, wherein the length of the core plate is 1200mm, the width of the core plate is 600mm, and the thickness of the core plate is 800 plus 160 mm;
s2, taking 1 part of cement, 1 part of expanded perlite, 1 part of straw chopped fiber, 1 part of medium and coarse yellow sand, 0.1 part of coagulant, 0.1 part of waterproof agent, 1 part of water, stirring and mixing to form slurry 1, 1 part of cement, 3 parts of medium and coarse yellow sand, 0.1 part of coagulant, 0.1 part of waterproof agent and stirring and mixing to form slurry 2, wherein the coagulant can effectively promote the coagulation of various mixtures, thereby improving the coagulation efficiency;
s3, putting 2 steel wire meshes with matched sizes with the core board into different molds with male ear fans and female sills, then pouring mixed slurry 1 in the middle, pouring mixed slurry 2 with the width of 100mm around, making a first panel and a second panel with the thickness of 20mm in the middle and the width of 50mm around and the thickness of 10mm around, naturally curing for 15-28 days, and finally pasting the first panel and the second panel on the two sides of the core board by cement paste for curing and setting, thus obtaining the light energy-saving composite wallboard with excellent overall performance and reusability in assembly construction.
1-6 parts of straw chopped fiber, 0-2 parts of lime, 0.5-3 parts of cement, 1-5 parts of yellow sand, 0-2 parts of a coagulant and 0-2 parts of a waterproof agent, wherein the waterproof agent is a chemical additive and is added into the cement, and when the cement is coagulated and hardened, the waterproof agent expands along with the volume of the cement, so that the effects of compensating shrinkage and tensioning a reinforcing steel bar to generate prestress and fully filling gaps of the cement are achieved.
The straw is fibrous, the linear length of the straw is 20-25mm, the cement is 325 Portland cement, the yellow sand is medium coarse type, and the Portland cement has higher strength and better protective performance after being coagulated.
In this embodiment, the core 3 is made of straw fiber, expanded perlite, cement, water and lime in a weight ratio of 8:2:2:5:1, wherein the ratio of straw fiber, expanded perlite, cement and lime is 61.53%, 15.38%, 16% and 8%, and the value of detected thermal conductivity is 0.075365.
In step S3, the first and second panels are each 5-40mm thick, and the width and thickness of the peripheral ear fan and the concave ridge are 5-20mm and 5-20mm respectively.
In the step S3, two ends of the first panel extend out of the ear fans with the width of 50mm and the thickness of 10mm, one end of the first panel is internally provided with the right-angled concave ridge with the width of 50mm and the depth of 10mm, one end of the second panel is internally provided with the right-angled concave ridge with the width of 50mm and the depth of 10mm, and the ear fans and the concave ridges of the first panel, the second panel and the concave ridges form a male-female combination when the two panels are assembled up, down, left and right and are locked by a specific screw to fix the side opening of the wallboard.
The concave ridge platform in second panel both sides is seted up the notch.
The core plate is provided with a row of holes, and the diameter of each hole is 20-100 mm.
Example 5
A manufacturing method of a composite wallboard capable of being reused in assembly construction comprises the following steps:
s1, weighing 5 parts of straw powder fiber and 4 parts of expanded perlite according to volume, wherein the expanded perlite is a white granular material which is prepared by preheating perlite ore sand and instantaneously roasting and expanding at high temperature and has a honeycomb structure inside, the expanded perlite has a high-efficiency heat preservation effect, 1 part of lime, 2 parts of cement and 1 part of water repellent are used as a special waterproof agent for outer wall water proofing, the waterproof performance of the wall can be effectively improved, the water repellent can be used after being exchanged with water in a proper proportion, 3 parts of water are used, and the mixture is stirred, mixed and then sent to a press to be pressed into a core plate for natural maintenance for 15-28 days, wherein the length of the core plate is 1200mm, the width of the core plate is 600mm, and the thickness of the core plate is 800 plus 160 mm;
s2, taking 1 part of cement, 1 part of expanded perlite, 1 part of straw chopped fiber, 1 part of medium and coarse yellow sand, 0.1 part of coagulant, 0.1 part of waterproof agent, 1 part of water, stirring and mixing to form slurry 1, 1 part of cement, 3 parts of medium and coarse yellow sand, 0.1 part of coagulant, 0.1 part of waterproof agent and stirring and mixing to form slurry 2, wherein the coagulant can effectively promote the coagulation of various mixtures, thereby improving the coagulation efficiency;
s3, putting 2 steel wire meshes with matched sizes with the core board into different molds with male ear fans and female sills, then pouring mixed slurry 1 in the middle, pouring mixed slurry 2 with the width of 100mm around, making a first panel and a second panel with the thickness of 20mm in the middle and the width of 50mm around and the thickness of 10mm around, naturally curing for 15-28 days, and finally pasting the first panel and the second panel on the two sides of the core board by cement paste for curing and setting, thus obtaining the light energy-saving composite wallboard with excellent overall performance and reusability in assembly construction.
1-6 parts of straw powder fiber, 0-2 parts of lime, 0.5-3 parts of cement, 1-5 parts of yellow sand, 0-2 parts of a coagulant and 0-2 parts of a waterproof agent, wherein the waterproof agent is a chemical additive, is added into the cement, and has the functions of compensating shrinkage and tensioning a reinforcing steel bar to generate prestress and fully filling gaps of the cement along with volume expansion when the cement is coagulated and hardened.
The straw is fibrous, the linear length of the straw is 20-25mm, the cement is 325 Portland cement, the yellow sand is medium coarse type, and the Portland cement has higher strength and better protective performance after being coagulated.
In this embodiment, the core 3 is composed of straw fiber, cement, water and lime in a weight ratio of 10:2:5:1.5, wherein the ratio of straw fiber, cement and lime is 74.07%, 14.81% and 11.11%, and the value of the detected thermal conductivity is 0.076275.
In step S3, the first and second panels are each 5-40mm thick, and the width and thickness of the peripheral ear fan and the concave ridge are 5-20mm and 5-20mm respectively.
In the step S3, two ends of the first panel extend out of the ear fans with the width of 50mm and the thickness of 10mm, one end of the first panel is internally provided with the right-angled concave ridge with the width of 50mm and the depth of 10mm, one end of the second panel is internally provided with the right-angled concave ridge with the width of 50mm and the depth of 10mm, and the ear fans and the concave ridges of the first panel, the second panel and the concave ridges form a male-female combination when the two panels are assembled up, down, left and right and are locked by a specific screw to fix the side opening of the wallboard.
Notches are formed in the concave ridge platforms on the two sides of the second panel.
The core plate is provided with a row of holes, and the diameter of each hole is 20-100 mm.
The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered as the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.
Claims (7)
1. A composite wallboard capable of being reused in assembly construction comprises a core plate (3) and is characterized in that a first panel (1) and a second panel (2) are arranged on the front surface and the back surface of the core plate (3), ear fans (4) and concave ridges (5) with the same size are arranged on the peripheries of the first panel (1) and the second panel (2), and a plurality of bolts (6) are arranged to penetrate through the ear fans (4), the concave ridges (5) and the core plate (3) and directly reach the bottom plate surface to lock the ear fans (4), the concave ridges (5) and the core plate (3) with the bottom plate; notches (7) are formed in the concave ridges (5) on the two sides of the second panel (2), and holes (8) penetrating through the core plate (3) are formed in the middle of the core plate (3);
the manufacturing method of the composite wallboard capable of being reused in assembly construction comprises the following steps:
s1, weighing 5 parts of straw powder fiber, 4 parts of expanded perlite, 1 part of lime, 2 parts of cement, 1 part of water repellent and 3 parts of water according to the volume, stirring and mixing, then pressing into a core plate by a press, and naturally curing for 15-28 days, wherein the length of the core plate is 1200mm, the width is 600mm, and the thickness is 800 plus 160 mm;
s2, taking 1 part of cement, 1 part of expanded perlite, 1 part of straw chopped fiber, 1 part of medium and coarse yellow sand, 0.1 part of coagulant, 0.1 part of waterproof agent and 1 part of water, stirring and mixing to form slurry 1, taking 1 part of cement, 3 parts of medium and coarse yellow sand, 0.1 part of coagulant and 0.1 part of waterproof agent, and stirring and mixing to form slurry 2;
s3, putting 2 steel wire meshes with matched sizes with the core board into different molds with male ear fans and female sills, then pouring mixed slurry 1 in the middle, pouring mixed slurry 2 with the width of 100mm around, making a first panel and a second panel with the thickness of 20mm in the middle and the width of 50mm around and the thickness of 10mm around, naturally curing for 15-28 days, and finally pasting the first panel and the second panel on the two sides of the core board by cement paste for curing and setting, thus obtaining the light energy-saving composite wallboard with excellent overall performance and reusability in assembly construction.
2. The prefabricated reusable composite wallboard of claim 1, wherein the straw chopped fiber is 1-6 parts, lime is 0-2 parts, cement is 0.5-3 parts, yellow sand is 1-5 parts, coagulant is 0-2 parts, and water repellent is 0-2 parts.
3. The prefabricated construction reusable composite wallboard according to claim 1, wherein the straw is fibrous, the linear length of the straw is 20-25mm, the cement is 325 Portland cement, and the yellow sand is medium coarse type.
4. The prefabricated construction reusable composite wall panel according to claim 1, wherein the first and second panels in step S3 are each 5-40mm thick, 5-20mm wide and 5-20mm thick with respect to the surrounding ear and notch ridge.
5. The prefabricated construction reusable composite wall panel according to claim 4, wherein in step S3, two ends of the first panel are extended with 50mm wide and 10mm thick ear fans, one end is inserted with 50mm wide and 10mm deep right-angled concave ridges, one end of the second panel is inserted with 50mm wide and 10mm deep right-angled concave ridges, and the first and second panel ear fans and concave ridges form a male-female combination when the two panels are assembled up, down, left and right, and the wall panel rim is locked and fixed by a special screw.
6. The prefabricated reusable composite wall panel of claim 1, wherein the recessed sill platforms on both sides of the second panel are notched.
7. An assembled construction reusable composite wall panel according to claim 1 wherein the core has an array of holes therein, the holes having a diameter of 20 to 100 mm.
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