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Cement simulated tree and terrain effect manufacturing process

A technology for making crafts and simulating trees, applied in clothing, applications, artificial flowers, etc., can solve the problems of complex assembly, pollution in the manufacturing process, easy deformation effect, etc., and achieve the effect of simple manufacturing process and low cost.

Inactive Publication Date: 2019-08-30
天地间博展科技有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] However, at present, lights are added to artificial trees to beautify the environment. The demand for such products in the market is increasing. However, the production technology of existing artificial trees is mainly produced by molding, blow molding or injection molding. Compared with injection molding, it is mainly aimed at small trees, and is directly pressed into the shape of a simulated tree at one time. Due to the need for molds, the production cost is relatively high. Blow molding is to blow out the shape of the tree first, but the middle is hollow, and then insert supporting materials in the middle. However, the material is not tightly combined with the blow-molded tree trunk, and it is easy to deform and the effect is not good, and there are problems such as low production efficiency, complicated assembly, high production cost, and pollution during the manufacturing process.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0024] The invention provides a cement simulation tree and terrain effect manufacturing process, comprising the following steps:

[0025] S1 foundation: first determine the size and ratio of the position and make a good foundation. For large-scale shaping, use galvanized channel steel, angle steel, and rebar to weld the skeleton, and then fix the shape of the welded skeleton on the wall and ground to ensure its own bearing capacity;

[0026] S2 Binding steel wire mesh: Spread the steel wire mesh evenly on the steel frame and tie it firmly with wire, and the knots of the wire binding face the inside of the frame;

[0027] S3 Plastering: Use 1:1 cement mortar to plaster the base layer, with a thickness of about 1.5 cm. After the first completion, perform secondary plastering. Add iron oxide pigments to the cement mortar mixed with construction glue, and repeat processing to make the shape, texture, Plastic bodies and surface characterizations are basically close to the model;

...

Embodiment 2

[0038] The invention provides a cement simulation tree and terrain effect manufacturing process, comprising the following steps:

[0039] S1 foundation: first determine the size and ratio of the position and make a good foundation. For large-scale shaping, use galvanized channel steel, angle steel, and rebar to weld the skeleton, and then fix the shape of the welded skeleton on the wall and ground to ensure its own bearing capacity;

[0040] S2 Binding steel wire mesh: Spread the steel wire mesh evenly on the steel frame and tie it firmly with wire, and the knots of the wire binding face the inside of the frame;

[0041] S3 Plastering: Use 1:1 cement mortar to plaster the base layer with a thickness of about 1.5 cm. After one completion, perform secondary plastering. Add color paste to the cement mortar mixed with construction glue, and repeat processing to make the shape, texture, plastic Volume and surface characterizations are basically close to the model;

[0042] S4 colo...

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Abstract

The invention provides a cement simulated tree and a terrain effect manufacturing process. The process comprises the following steps: first, determining the position and size proportion for good foundation, during large-scale moulding, welding a skeleton by adopting galvanized channel steel, steel angles and deformed steel bars, uniformly laying steel wire gauzes on the steel skeleton, carrying out tight binding by adopting binding wires, wherein the binding knots of the binding wires face the inside of the skeleton, carrying out base-layer plastering by using 1:1 cement mortar, wherein the thickness is about 1.5cm, carrying out second-time plastering after the first-time plastering, adding iron oxide pigment or color paste into cement mortar obtained by stirring building glue, carrying out repeated processing so that the mouldling, texture, body shaping and surface carving are basically close to those of the model, wherein coloring is carried out when the moisture on the moulded faceis not completely dry, adding water into acrylic paint and cement, carrying out uniform mixing, carrying out layer-by-layer scattering-dyeing, and after coloring is completed, spraying acrylic emulsion to the colored moulded body. According to the technical scheme, the manufacturing of the cement simulated tree is carried out by adopting the ground moulding method, and the manufacturing process ofthe cement simulated tree is effectively enabled to be simple, low in cost, and energy-saving and environmentally friendly.

Description

technical field [0001] The invention relates to the technical field of cement simulation trees, in particular to a cement simulation tree and a process for making terrain effects. Background technique [0002] Simulation tree, as the name suggests, simulation tree is not a natural tree species, it is a kind of fake tree. It is an ornament that people use modern technology and new materials to reprocess and imitate the appearance of natural trees to show the real effect of natural trees on specific occasions. [0003] However, at present, lights are added to artificial trees to beautify the environment. The demand for such products in the market is increasing. However, the production technology of existing artificial trees is mainly produced by molding, blow molding or injection molding. Compared with injection molding, it is mainly aimed at small trees, and is directly pressed into the shape of a simulated tree at one time. Due to the need for molds, the production cost is ...

Claims

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Application Information

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IPC IPC(8): A41G1/00
CPCA41G1/007
Inventor 刘伟张斌刘睿峰陈雷
Owner 天地间博展科技有限公司
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