CN107554178B - Rockery construction method - Google Patents

Rockery construction method Download PDF

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CN107554178B
CN107554178B CN201710965128.5A CN201710965128A CN107554178B CN 107554178 B CN107554178 B CN 107554178B CN 201710965128 A CN201710965128 A CN 201710965128A CN 107554178 B CN107554178 B CN 107554178B
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rockery
concrete
steel bar
cement
concrete layer
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CN107554178A (en
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余晓
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Shaoxing Yijia Construction Co ltd
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Shaoxing Yijia Construction Co ltd
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Abstract

The invention relates to the field of constructional engineering, and discloses a rockery construction method, which comprises the following steps: A. tamping in a base: fixing the wood pile with the side wall coated with the hemp threads on a base according to the contour line of the bottom surface of the rockery, pouring a concrete layer on the base by using concrete, and coating the wood pile by using the concrete layer; B. manufacturing a rockery framework: mounting a support wood column on the concrete layer according to the mountain peak elevation of the rockery, and coating hemp threads outside the support wood column; meanwhile, a modeling reinforcing steel bar frame is installed on the concrete layer, and hemp threads are coated outside the modeling reinforcing steel bar frame; installing a cover steel plate mesh on the modeling steel bar frame; C. shaping: pouring concrete on the concrete layer covered with the steel plate net to form a rockery body; D. and (5) batch plastic coloring. The invention has the following advantages and effects: the cladding through the hemp thread avoids the timber pile, supports timber pillar and reinforcing bar and the moisture and oxygen reaction that get into through the concrete gap, guarantees the support intensity of timber pile and reinforcing bar, improves the life of artificial hill.

Description

Rockery construction method
Technical Field
The invention relates to the field of constructional engineering, in particular to a rockery construction method.
Background
The rockery has various landscaping functions, such as forming a main scene or a terrain skeleton of a garden, dividing and organizing garden space, arranging courtyards, revetments, slope protection and soil retaining, and arranging a natural flower bed. Meanwhile, the natural landscape garden can be combined with garden buildings, garden roads, fields and garden plants to form a scene rich in changes, so that artificial atmosphere is reduced, natural interest is added, and the garden buildings are converged into a landscape environment.
At present, chinese utility model patent with publication number CN202225672U discloses a concrete rockery, which comprises a rockery frame formed by splicing a plurality of steel bar skeletons, a main support rod is arranged inside the rockery frame, a metal net layer and a concrete layer covered on the metal net layer are arranged on the outer layer of the rockery frame.
The concrete is made up by using cement as cementing material and sand and stone as aggregate, and mixing them with water according to a certain proportion and stirring them. However, no matter how to adjust the proportion of water, the concrete generates gaps after pouring and solidification due to the addition of sand and stones, and the concrete has air permeability. According to the technical scheme, the steel bars embedded in the concrete are in an alkaline medium, and the pH value of newly cast concrete is about 12.5 or higher, so that the steel bars are corroded; meanwhile, because the concrete generates gaps, moisture and oxygen in the air react with the reinforcing steel bars through the gaps, and therefore corrosion of the reinforcing steel bars is accelerated.
In the existing concrete rockery manufacturing process, the reinforcing steel bars can be replaced by the wooden piles, but in the same way, the wooden piles are rotten due to the fact that gaps are formed in concrete and moisture and oxygen in air react with the wooden piles through the gaps. Whether the reinforcing steel bars are corroded or the wood piles are rotten, the internal supporting strength of the rockery is weakened, and therefore the service life of the rockery is shortened.
Disclosure of Invention
The invention aims to provide a construction method of an artificial hill, which avoids the reaction of wood piles, supporting wood columns and reinforcing steel bars with moisture and oxygen entering through concrete gaps through the cladding of hemp threads, ensures the supporting strength of the wood piles and the reinforcing steel bars, and prolongs the service life of the artificial hill.
The technical purpose of the invention is realized by the following technical scheme: a rockery construction method comprises the following steps:
A. tamping in a base: fixing the wood pile with the side wall coated with the hemp threads on a base according to the contour line of the bottom surface of the rockery, pouring a concrete layer on the base by using concrete, and coating the wood pile by using the concrete layer;
B. manufacturing a rockery framework: mounting a support wood column on the concrete layer according to the mountain peak elevation of the rockery, and coating hemp threads outside the support wood column; meanwhile, a modeling reinforcing steel bar frame is installed on the concrete layer, and hemp threads are coated outside the modeling reinforcing steel bar frame; installing a cover steel plate mesh on the modeling steel bar frame;
C. shaping: firstly, gypsum slurry is coated on the supporting wood columns and the modeling reinforcing frames coated with the hemp threads, and then concrete is poured on a concrete layer in the steel plate covering net to form a rockery body;
D. batch plastic coloring: and firstly coating the outer side wall of the rockery body with a first cement and river sand mixed solution, then coating with a second cement and river sand mixed solution, and finally engraving, coloring and maintaining the outer side wall of the rockery body.
By adopting the technical scheme, the wood piles are coated with the hemp threads, so that the wood piles arranged in the concrete layer are prevented from reacting with moisture and oxygen entering through concrete gaps, and the wood piles are prevented from being rotten; the hemp threads are coated outside the supporting wood columns and the modeling reinforcing steel frames, so that the supporting wood columns and the modeling reinforcing steel frames which are arranged in the rockery body are prevented from reacting with moisture and oxygen entering through concrete gaps, and the supporting wood columns are prevented from being corroded and the modeling reinforcing steel frames are prevented from being corroded. The hemp thread can prevent water and isolate air, and has good adhesiveness, so that concrete can be adhered to the hemp thread, and the connection firmness between the concrete and the wood pile, the support wood column or the modeling reinforcing steel bar frame is improved.
The invention is further configured that the concrete layer pouring method in the step A comprises the following steps: firstly, annular concrete is poured on a foundation, the annular concrete coats the wooden piles, then a gravel layer is laid on the foundation in the annular concrete, then criss-cross reinforcing steel bars are installed in the annular concrete on the gravel layer, hemp threads are coated outside the reinforcing steel bars, and finally, gaps in the annular concrete are poured into concrete layers by using the concrete.
In the manufacturing process of the rockery, not only the structural firmness of the rockery but also the installation firmness of the rockery and a base need to be considered. By adopting the technical scheme, the upper end of the timber pile is fixed in the annular concrete, the lower end of the timber pile is fixed in the base, and the installation firmness of the rockery and the base is improved by arranging the timber pile; part of the broken stones of the broken stone layer can be embedded into the base in the laying process, gaps between the broken stones are filled with concrete, and the installation firmness of the rockery and the base is improved through the arrangement of the broken stones. Because criss-cross reinforcing bars are arranged in the concrete layer, the structural firmness of the concrete layer can be improved by adding the reinforcing bars. And the reinforcing steel bar is wrapped with the hemp thread, and the wrapping of the hemp thread can also avoid the reaction between the reinforcing steel bar arranged in the concrete layer and the moisture and oxygen entering through the concrete gap, so that the corrosion of the reinforcing steel bar is avoided, and the structural firmness of the concrete layer is improved.
The invention is further configured that the concrete is prepared from the following raw materials: cement, water, sand, stone and glass fiber.
The concrete is made up by using cement as cementing material and sand and stone as aggregate, and mixing them with water according to a certain proportion and stirring them. However, no matter how the proportion of water is adjusted, the concrete can generate gaps due to the addition of sand and stones, and the concrete has air permeability. The existence of the concrete gaps can enable moisture and oxygen in the air outside the rockery to permeate into the rockery through the gaps and react with wood piles or reinforcing steel bars in the rockery, so that the wood piles are rotten, and the reinforcing steel bars are corroded. Through adopting above-mentioned technical scheme, add glass fiber in the concrete configuration in-process, the clearance of sand, stone in the concrete can be filled in the addition of glass fiber to improve the compactedness of concrete. The higher the compactness of concrete is, the smaller the concrete gap is after pouring, the smaller the moisture and oxygen permeating the rockery through the gap are, and the wood piles and the steel bars installed in the rockery are not easy to rot and rust. Meanwhile, the glass fiber has high mechanical strength, and the firmness of a concrete pouring object can be improved by adding the glass fiber.
The invention is further configured that in the step A, the concrete layer is compacted in the fixed forming process, and the operation method of compaction comprises the following steps: vibrating along the timber pile by using a vibrating rod, inserting the vibrating rod quickly and pulling the vibrating rod slowly in the vibrating and inserting process, and removing bubbles, lifting slurry and leveling the concrete layer by using a tamping plate after vibrating.
The concrete layer is used as a bearing building foundation of the rockery, and not only the firmness of the concrete layer but also the flatness of the concrete layer need to be considered. The concrete is because including sand, stone, therefore the concrete can produce the bubble at the in-process of pouring, and the existence of bubble can influence the firmness on concrete layer. Because the subsequent supporting wood columns and the modeling reinforcing steel frames both use the concrete layer as a reference surface, if the upper surface of the concrete layer is uneven, the installation of the supporting wood columns and the modeling reinforcing steel frames can be influenced, and the overall modeling of the rockery is influenced. By adopting the technical scheme, the vibrating rod is vibrated along the timber pile, the vibrating rod is required to be quickly inserted and slowly pulled out in the vibrating and inserting process, and the vibrating rod is required to be quickly inserted firstly in the vibrating process, so that the vibrating area can be increased; the vibrating rod is required to be slowly pulled out in the vibrating process, so that air is prevented from being mixed into the vibrating rod to form bubbles in the pulling-out process; the vibrating rod can effectively remove air bubbles in the concrete layer by vibrating, thereby improving the firmness of the concrete layer. After the vibration is finished, the concrete layer is debubbled, slurry is lifted and leveled by the tamping plate, so that the flatness of the upper surface of the concrete layer can be ensured, and the upper surface of the concrete layer is prevented from being bubbled.
The invention is further configured that the manufacturing method of the shaped reinforcing steel bar frame in the step B comprises the following steps: the surface of the steel bar is cleaned, then the steel bar is straightened and cut off, and finally the steel bar is continuously welded by welding rods to form the modeling reinforcing steel bar frame.
The firmness of the shaped reinforcing steel frame can affect the firmness of the whole rockery. By adopting the technical scheme, the surface of the steel bar is cleaned firstly, so that the surface of the steel bar is prevented from being rusted, and if moisture and oxygen in air outside the rockery permeate into the rockery through gaps, the steel bar can be corroded as soon as possible; then, the reinforcing steel bar is straightened and cut off, the reinforcing steel bar cannot be locally bent, once the reinforcing steel bar is locally bent, the overall stress of the reinforcing steel bar is influenced, and once the overall stress of the reinforcing steel bar is uneven, the reinforcing steel bar at the position with increased stress is broken, so that the internal structural firmness of the rockery is reduced; and finally, welding the steel bars continuously by using a welding rod to prepare the modeling steel bar frame, wherein the firmness of the steel bar welding can be ensured by continuous welding, and incomplete penetration, pores or slag inclusion is avoided.
The invention is further configured that the gypsum slurry in the step C is prepared from the following raw materials: gypsum, water and epoxy resin.
Through adopting above-mentioned technical scheme, coating the gypsum thick liquid on the flax silk of cladding outside supporting wood post and molding steel bar rack, the setting of gypsum thick liquid can also avoid supporting wood post and molding steel bar rack and the outer moisture and the oxygen of air of artificial hillock to permeate into the artificial hillock through the gap and react. The gypsum slurry comprises epoxy resin, the epoxy resin has the advantages of compactness, water resistance, high strength and strong adhesive force, can reduce the reaction between the support wood column and the modeling reinforcing steel bar frame and moisture and oxygen, and can be well attached between hemp threads and concrete, thereby improving the connection firmness of the support wood column and the modeling reinforcing steel bar frame and the concrete.
The invention is further configured that the first cement river sand mixed liquid in the step D is prepared from the following raw materials: cement, river sand, yellow mud, water and a hemp cut, wherein the second cement and river sand mixed solution is prepared from the following raw materials: yellow mud, cement, water and river sand.
By adopting the technical scheme, the outer side wall of the rockery body is coated with the first cement and river sand mixed solution once, and the first cement and river sand mixed solution comprises cement, river sand and yellow mud, so that the cement can coat the river sand and the yellow mud on the outer side wall of the rockery body, and the rockery body is vivid; the first cement river sand mixed liquid also comprises a hemp knife, and the strength of the rockery can be improved by adding the hemp knife, so that the rockery is prevented from cracking. And after the first cement river sand mixed liquor is coated once, the second cement river sand mixed liquor is coated for multiple times. The second cement river sand mixed liquor only comprises yellow mud, cement and river sand, and can make up the unevenness of the first cement river sand mixed liquor when being smeared, so that the rockery body is uniformly colored.
The invention is further configured that the operation method of the engraving in the step D is as follows: and laser engraving contour lines which are gradually reduced from the feet of the rockery to the top of the rockery on the rockery, wherein the depths of the contour lines are reduced from the feet of the rockery to the top of the rockery.
No matter be the carving characters or carve the contour line on the rockery among the current rockery manufacturing process, it adopts the burin sculpture mostly, and the burin sculpture requires extremely high to user's dynamics, in case exert oneself excessively, thereby can form the firmness of crack influence rockery. Through adopting above-mentioned technical scheme, adopt laser engraving, laser engraving is not only efficient, easy operation moreover, and can reduce and produce the gap at sculpture in-process to influence the firmness of artificial hillock. Meanwhile, in the process of carving the contour lines by laser, the depth of the contour lines is sequentially reduced from the feet to the tops of the rockery, and the cross section area of the feet of the rockery is larger than that of the tops of the rockery, so that the firmness of the feet of the rockery is larger than that of the tops of the rockery, and further, cracks are not generated when the feet of the rockery carve the deeper contour lines, and the depth of the contour lines is sequentially reduced from the feet of the rockery to the tops of the rockery, so that the rockery can be visually tall and realistic.
The invention further provides that the pigment colored in the step D is prepared from the following raw materials: mineral pigment, white cement, 107 glue, water and ethylene-vinyl acetate copolymer.
The pigment coated on the outer side wall of the rockery is susceptible to fading by wind and rain. By adopting the technical scheme, the pigment raw material comprises the ethylene-vinyl acetate copolymer which has better water resistance and can reduce the pigment fading caused by rain and snow; and the ethylene-vinyl acetate copolymer has better corrosion resistance, and can reduce the color fading of the pigment due to the corrosion of chemicals such as grease, acid, alkali and the like. Meanwhile, the pigment raw materials comprise 107 glue, the name of the 107 glue is polyvinyl formal adhesive, and the adhesion of the pigment can be improved by adding the 107 glue, so that the pigment can be better coated on the outer side wall of the rockery.
The invention is further provided that the rockery body after being colored in the step D is coated and cured by organic silicon.
By adopting the technical scheme, the colored rockery body is coated with the organic silicon, and the organic silicon is high-temperature resistant and low-temperature resistant, so that the cracks of the pigment and the outer side wall of the rockery due to temperature difference are reduced; meanwhile, the organic silicon has weather resistance and is not easily decomposed by ultraviolet light and ozone, the organic silicon has better thermal stability, irradiation resistance and weather resistance than other high polymer materials, the service life of the organic silicon in the natural environment can reach dozens of years, and the organic silicon protective layer is prevented from being decomposed due to being exposed outdoors; and the organic silicon has oxidation resistance stability, flame retardancy, hydrophobicity and corrosion resistance, so that the rockery is prevented from cracking, and the firmness of the rockery is improved.
In conclusion, the invention has the following beneficial effects:
1. the hemp threads are coated to prevent the reaction between the wood piles, the supporting wood columns and the reinforcing steel bars and the moisture and oxygen entering through concrete gaps, so that the supporting strength of the wood piles and the reinforcing steel bars is ensured, and the service life of the rockery is prolonged;
2. the glass fiber is added in the concrete preparation process, and the addition of the glass fiber can fill the gaps of sand and stone in the concrete, so that the compactness of the concrete is improved; the higher the compactness of the concrete is, the smaller the gap of the poured concrete is, the smaller the moisture and oxygen permeating into the rockery through the gap are, and the wood piles and the steel bars installed in the rockery are not easy to rot and rust; meanwhile, the glass fiber has high mechanical strength, and the firmness of a concrete pouring object can be improved by adding the glass fiber;
3. the gypsum slurry comprises epoxy resin, and the epoxy resin not only has compactness, water resistance, high strength and strong adhesive force, can reduce the reaction between the support wood column and the modeling reinforcing steel bar frame with moisture and oxygen, but also can be well adhered between the hemp threads and the concrete, thereby improving the connection firmness of the support wood column and the modeling reinforcing steel bar frame with the concrete;
4. the pigment raw material comprises an ethylene-vinyl acetate copolymer which has good water resistance and can reduce the pigment fading caused by rain and snow; the ethylene-vinyl acetate copolymer has better corrosion resistance, and can reduce the color fading of the pigment caused by the corrosion of chemicals such as grease, acid, alkali and the like;
5. the colored rockery body is coated with organic silicon, and the organic silicon is resistant to high temperature and low temperature, so that cracks of the pigment and the outer side wall of the rockery due to temperature difference are reduced; and the organic silicon has oxidation resistance stability, flame retardancy, hydrophobicity and corrosion resistance, so that the rockery is prevented from cracking, and the firmness of the rockery is improved.
Detailed Description
A rockery construction method comprises the following steps:
A. tamping in a base: firstly, designing a rockery according to the bearing capacity of soil of a base and the weight of the rockery, and fixing a wood pile with the side wall coated with hemp threads on the base according to the contour line of the bottom surface of the rockery before pouring the rockery. And then annular concrete is poured on the base, and the annular concrete coats the wooden piles. Then, a 10cm gravel layer is paved on the foundation in the annular concrete, and then criss-cross reinforcing steel bars are installed in the annular concrete on the gravel layer, and the reinforcing steel bars are coated with hemp threads. Finally, pouring concrete into the gaps in the annular concrete to form a concrete layer, wherein the section size of the annular concrete foundation is 50cmx 60cm, and the thickness of the annular concrete foundation is 40 cm.
The concrete layer is compacted in the fixed forming process, and the compacting operation method comprises the following steps:
(1) the concrete layer starts a vibrating rod to enter the concrete layer for vibration in the fixed forming process, the insertion depth is preferably 30-50mm away from the base, and the vibrating rod cannot collide a template, a steel bar, an embedded part, a dowel bar and the like; the vibrating rod should be inserted quickly and pulled out slowly, and cannot be pulled out quickly; firstly, performing point vibration at a distance of 30cm along about 10cm of the timber pile, uniformly advancing the middle part at a speed of about 1 m/min at intervals of 50-60cm, and performing normal vibration with full width and full thickness, wherein the point vibration is inserted once again when the distance is 1 m;
(2) after the concrete layer is vibrated by the vibrating rod, 1.1kg of ramming plate is used for further leveling, slurry lifting and surface layer bubble expelling, so that the surface layer quality is improved.
Wherein the concrete mixture stirring process is as follows:
(1) the concrete raw materials adopt a mixer with computer metering to intensively mix so as to ensure the uniform and stable quality of the concrete materials, and the mass percentage of the concrete raw materials is as follows: 25% of cement, 40% of stone, 15% of sand, 15% of water and 5% of glass fiber; the allowable error control precision is as follows: cement plus or minus 1%, water plus or minus 1%, sand plus or minus 2%, stone material plus or minus 2%, glass fiber plus or minus 1%;
(2) when the mixer stirs the first disc concrete, adding proper amount of cement and corresponding water and sand, and properly prolonging the stirring time; the mixture must be stirred evenly, and the colors are consistent visually; the stirring time is not less than 40s from the completion of feeding to the discharge, and the slump is checked at any time.
B. Manufacturing a rockery framework: mounting a support wood column on the concrete layer according to the mountain peak elevation of the rockery, and coating hemp threads outside the support wood column; meanwhile, a modeling reinforcing steel bar frame is installed on the concrete layer, and hemp threads are coated outside the modeling reinforcing steel bar frame; and a cover steel plate net is arranged on the modeling steel bar frame.
The manufacturing method of the modeling reinforcing steel bar frame comprises the following steps:
(1) manufacturing a steel bar: the surface of the steel bar should be clean, the adhered oil stain, soil and rust must be cleaned before use, and the cold drawing process can be combined for removing rust; straightening the steel bar mechanically or manually, wherein the straightened steel bar cannot have local bending, dead bending and small wave shape, and the surface flaw of the straightened steel bar cannot reduce the section of the steel bar by 5%; the cutting of the steel bars is matched according to the number, the diameter, the length and the number of the steel bars, the long materials are firstly cut off, and then the short materials are cut off, so that the short ends of the steel bars are reduced and shortened as much as possible, and the steel materials are saved;
(2) welding steel bars: after the backing plate is arc-ignited from the seam, continuous welding is carried out, and the end part of the reinforcing steel bar is fused, so that incomplete welding, pores or slag inclusion are prevented; the welding can be stopped and slag can be removed once, and after the welding is flat, the welding with the welding residual height is carried out, wherein the height of the welding residual height is not more than 3 m; the surface of the welding seam should not have defects and weakening phenomena, and the displacement of the central line of the steel bar at the joint is not more than 0.1 time of the diameter of the steel bar.
C. Shaping: firstly, gypsum slurry is coated on the supporting wood columns and the modeling reinforcing frames which are coated with the hemp threads, and then concrete is poured on the concrete layer in the steel plate covering net to form the rockery body.
Wherein the gypsum slurry comprises the following raw materials in percentage by mass: 60% of gypsum, 30% of water and 10% of epoxy resin; the allowable error control precision is as follows: gypsum plus or minus 2%, water plus or minus 1% and epoxy resin plus or minus 1%.
D. Batch plastic coloring: and firstly coating the outer side wall of the rockery body with a first cement and river sand mixed solution, then coating with a second cement and river sand mixed solution, and finally engraving, coloring and maintaining the outer side wall of the rockery body.
The first cement and river sand mixed liquor comprises the following raw materials in percentage by mass: 13% of cement, 26% of river sand, 45% of water, 10% of yellow mud and 6% of hemp cut; the allowable error control precision is as follows: cement plus or minus 1%, river sand plus or minus 1%, water plus or minus 2%, yellow mud plus or minus 1% and hemp cut plus or minus 1%. The second cement and river sand mixed liquid comprises the following raw materials in percentage by mass: 15% of cement, 30% of river sand, 45% of water and 10% of yellow mud; the allowable error control precision is as follows: cement plus or minus 1%, river sand plus or minus 1%, water plus or minus 2% and yellow mud plus or minus 1%.
The operation method of the carving pattern comprises the following steps: and laser engraving contour lines which are gradually reduced from the feet of the rockery to the top of the rockery on the rockery, wherein the depths of the contour lines are reduced from the feet of the rockery to the top of the rockery. Meanwhile, the emphasis of modification is on the feet of the rockery and the middle part of the rockery body, the feet of the rockery are rough and have traces of artificial damage and weathering, and a plant growth area is left. When the reality of texture is pursued, different surfaces are made, the force sense and the fillet are strengthened, and the modeling and the hierarchy are enriched.
Wherein the mass percentage of the colored pigment raw materials is as follows: 55% of mineral pigment, 10% of white cement, 8% of 107 glue, 7% of ethylene-vinyl acetate copolymer and 20% of water; the allowable error control precision is as follows: mineral pigment +/-2%, white cement +/-1%, 107 glue +/-1%, ethylene-vinyl acetate copolymer +/-1% and water +/-1%.
And coating and curing the colored rockery body with organic silicon.
The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications of the present embodiment without inventive contribution as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.

Claims (9)

1. A rockery construction method is characterized in that: the method comprises the following steps:
A. tamping in a base: fixing the wood pile with the side wall coated with the hemp threads on a base according to the contour line of the bottom surface of the rockery, pouring a concrete layer on the base by using concrete, and coating the wood pile by using the concrete layer;
B. manufacturing a rockery framework: mounting a support wood column on the concrete layer according to the mountain peak elevation of the rockery, and coating hemp threads outside the support wood column; meanwhile, a modeling reinforcing steel bar frame is installed on the concrete layer, and hemp threads are coated outside the modeling reinforcing steel bar frame; installing a cover steel plate mesh on the modeling steel bar frame;
C. shaping: firstly, gypsum slurry is coated on the supporting wood columns and the modeling reinforcing frames coated with the hemp threads, and then concrete is poured on a concrete layer in the steel plate covering net to form a rockery body;
D. batch plastic coloring: firstly coating the outer side wall of the rockery body with a first cement and river sand mixed solution, then coating with a second cement and river sand mixed solution, and finally carving patterns, coloring and maintaining on the outer side wall of the rockery body;
the concrete is prepared from the following raw materials: cement, water, sand, stone and glass fiber; the first cement river sand mixed liquid is prepared from the following raw materials: cement, river sand, yellow mud, water and a hemp cut, wherein the second cement and river sand mixed solution is prepared from the following raw materials: yellow mud, cement, water and river sand.
2. The rockery construction method according to claim 1, wherein: the concrete layer pouring method in the step A comprises the following steps: firstly, annular concrete is poured on a foundation, the annular concrete coats the wooden piles, then a gravel layer is laid on the foundation in the annular concrete, then criss-cross reinforcing steel bars are installed in the annular concrete on the gravel layer, hemp threads are coated outside the reinforcing steel bars, and finally, gaps in the annular concrete are poured into concrete layers by using the concrete.
3. The rockery construction method according to claim 2, wherein: the concrete is prepared from the following raw materials: cement, water, sand, stone and glass fiber.
4. The rockery construction method according to claim 1, wherein: in the step A, the concrete layer is compacted in the fixed forming process, and the operation method of the compaction comprises the following steps: vibrating along the timber pile by using a vibrating rod, inserting the vibrating rod quickly and pulling the vibrating rod slowly in the vibrating and inserting process, and removing bubbles, lifting slurry and leveling the concrete layer by using a tamping plate after vibrating.
5. The rockery construction method according to claim 1, wherein: the manufacturing method of the modeling reinforcing steel bar frame in the step B comprises the following steps: the surface of the steel bar is cleaned, then the steel bar is straightened and cut off, and finally the steel bar is continuously welded by welding rods to form the modeling reinforcing steel bar frame.
6. The rockery construction method according to claim 1, wherein: the gypsum slurry in the step C is prepared from the following raw materials: gypsum, water and epoxy resin.
7. The rockery construction method according to claim 1, wherein: the operation method of the carving in the step D comprises the following steps: and laser engraving contour lines which are gradually reduced from the feet of the rockery to the top of the rockery on the rockery, wherein the depths of the contour lines are reduced from the feet of the rockery to the top of the rockery.
8. The rockery construction method according to claim 1, wherein: the pigment colored in the step D is prepared from the following raw materials: mineral pigment, white cement, 107 glue, water and ethylene-vinyl acetate copolymer.
9. The rockery construction method according to claim 1, wherein: and D, coating and curing the colored rockery body by using organic silicon.
CN201710965128.5A 2017-10-17 2017-10-17 Rockery construction method Active CN107554178B (en)

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