CN110870646A - Preparation process of teapot with filigree pattern - Google Patents

Abstract

The invention relates to the technical field of teapots, in particular to a preparation process of a teapot with a filigree pattern, which comprises the following steps: utilizing a computer to model and produce a 3D teapot body model, and printing a white resin teapot by using 3D to form an initial teapot; step two: preparing the filament; step three: adhering the filament patterns prepared in the step two to the surface of the shell body of the initial teapot in the step one by using an adhesive to form a filament teapot; step four: turning over the mold to form a silica gel teapot model; step five: preparing a molded tea pot; step six: and (3) reversing the mold: manufacturing the molded teapot in the fifth step into a metal teapot model according to the existing mold-pouring process; step seven: opening the metal teapot model in the sixth step, and then performing wax injection, mould inversion, mould holding, ageing and polishing to finally form a teapot finished product capable of being produced in a flow process; the problem that the surface filaments of the teapot cannot be produced in quantity is solved, the attractive effect of manually inlaying the filaments is not influenced, flow production can be formed, and the working efficiency is improved.

Description

Preparation process of teapot with filigree pattern

[ technical field ] A method for producing a semiconductor device

The invention relates to the technical field of teapot manufacturing, in particular to a preparation process of a teapot with a filigree pattern.

[ background of the invention ]

Along with the improvement of living standard of people, people are in a leisure living mode. Tea drinking is a great interest in people's leisure life. The teapot can not be opened when the tea is made. The teapot is a vessel with a mouth for making tea and pouring tea, is a tea set and is mainly used for making tea. The teapot consists of a pot cover, a pot body, a pot bottom and a ring foot, wherein the pot cover is provided with a hole, a button, a seat, a cover and other details; the kettle body is provided with a mouth, a delay part, a mouth, a flow part, a belly part, a shoulder part, a handle part and the like. Traditional teapots are fired by soil, and the soil of the dark-red enameled pottery is divided into three types: purple mud, green mud and red mud are generally buried under a rock stratum and distributed among mud layers of the first mud, and the thickness of the mud layers is different from dozens of centimeters to one meter.

However, the conventional teapots have the following problems: the traditional teapot is generally made by hands, is slow in speed and high in manufacturing cost, is not beneficial to popularization and flow production, and is easy to break when being improperly used, so that the teapot is damaged and cannot be used any more. In addition, some metal teapots are adhered with filaments on the teapot body, but the metal teapots are manufactured by pure hands, and cannot be produced in quantity, so that the cost is high, the price is high, the market circulation is not facilitated, the cost performance is not high, and the market competitiveness is not high.

[ summary of the invention ]

The invention aims to provide a preparation process of a teapot with a filigree pattern, which aims at overcoming the defects and shortcomings of the prior art, solves the problem that the filigree on the surface of the teapot cannot be produced in quantity, does not influence the beautiful effect of manual filigree, and can form flow production; the method has simple operation steps, can form flow production, greatly reduces the production cost, improves the working efficiency, also reduces the market price of the product, and is beneficial to market competition.

The invention relates to a preparation process of a teapot with a filigree pattern, which comprises the following preparation steps:

the method comprises the following steps: utilizing a computer to model and produce a 3D teapot body model, and printing a white resin teapot by using 3D to form an initial teapot;

step two: the preparation of the filament comprises the following steps:

(3) gathering two plain silks into one strand to form a filament basic line;

(4) according to a pattern drawn in advance, pinching to form a filigree pattern the same as the pattern of the pattern;

step three: adhering the filament patterns prepared in the step two to the surface of the shell body of the initial teapot in the step one by using an adhesive to form a filament teapot;

step four: and (3) turning the die, which comprises the following steps:

(3) pouring the filament teapot in the third step into a silica gel mold by using liquid silica gel;

(4) after the silica gel is solidified, opening the mold by using a scalpel and taking out the filament teapot to form a silica gel teapot model;

step five: preparing a formed tea pot: heating the solid green wax to form liquid green wax, pouring the liquid green wax on the silica gel teapot model in the fourth step, and taking out the liquid green wax after the green wax is cooled to form a formed preserved teapot;

step six: and (3) reversing the mold: manufacturing the molded teapot in the fifth step into a metal teapot model according to the existing mold-pouring process;

step seven: and opening the metal teapot model in the sixth step, and then adopting a wax injection process, a mould reversing process, a mould holding process, an old-making process and a polishing process to finally form a teapot finished product capable of being produced in a flow manner.

Further, the binder in step three is an allyl resin binder, an amino resin binder, an alkyd resin binder, a modified resin binder, a polyethylene binder, a polypropylene binder or a silicate binder.

The invention has the beneficial effects that: the invention relates to a preparation process of a teapot with a filigree pattern, which comprises the steps of firstly preparing a white resin teapot, bonding filigree patterns on the white resin teapot, pouring green wax to form a molded preserved teapot, then forming a metal teapot model by adopting a reverse mould process, and then performing wax injection, reverse mould, mould holding, old making and polishing on the metal teapot model to form a finished product; the problem that the surface of the teapot cannot be massively produced is solved, the attractive effect of manually wire inlaying is not influenced, and flow production can be formed; the method has simple operation steps, can form flow production, greatly reduces the production cost, improves the working efficiency, also reduces the market price of the product, and is beneficial to market competition.

[ detailed description ] embodiments

The present invention will be described in detail with reference to specific examples, wherein the exemplary examples and descriptions are provided only for explaining the present invention and are not intended to limit the present invention.

The preparation process of the teapot with the filigree pattern in the specific embodiment adopts the following preparation steps:

the method comprises the following steps: utilizing a computer to model and produce a 3D teapot body model, and printing a white resin teapot by using 3D to form an initial teapot;

step two: the preparation of the filament comprises the following steps:

(5) gathering two plain silks into one strand to form a filament basic line;

(6) according to a pattern drawn in advance, pinching to form a filigree pattern the same as the pattern of the pattern;

step three: adhering the filament patterns prepared in the step two to the surface of the shell body of the initial teapot in the step one by using an adhesive to form a filament teapot;

step four: and (3) turning the die, which comprises the following steps:

(5) pouring the filament teapot in the third step into a silica gel mold by using liquid silica gel;

(6) after the silica gel is solidified, opening the mold by using a scalpel and taking out the filament teapot to form a silica gel teapot model;

step five: preparing a formed tea pot: heating the solid green wax to form liquid green wax, pouring the liquid green wax on the silica gel teapot model in the fourth step, and taking out the liquid green wax after the green wax is cooled to form a formed preserved teapot;

step six: and (3) reversing the mold: manufacturing the molded teapot in the fifth step into a metal teapot model according to the existing mold-pouring process;

step seven: and opening the metal teapot model in the sixth step, and then adopting a wax injection process, a mould reversing process, a mould holding process, an old-making process and a polishing process to finally form a teapot finished product capable of being produced in a flow manner.

Further, the binder in step three is an allyl resin binder, an amino resin binder, an alkyd resin binder, a modified resin binder, a polyethylene binder, a polypropylene binder or a silicate binder.

The working principle of the invention is as follows:

according to the invention, a 3D teapot body model is produced by computer modeling, a white resin teapot is printed by 3D, and the surface of the white resin teapot is adhered and inlaid with pattern filaments by using an adhesive to form the white resin teapot with the filaments; pouring the green wax which forms liquid after being heated to form a formed teapot; forming a metal teapot model by performing mould reversing on the formed teapot;

then, aiming at the metal teapot model, carrying out a wax injection procedure, a mould reversing procedure, a mould holding procedure, an old-making procedure and a polishing process to finally form a teapot finished product capable of being produced in a flow process; therefore, the metal teapot model can be used as a model unit for streamlined production to form duplication, the production cost is greatly reduced, but the filigree effect of the manually filigree is duplicated and stored, the filigree effect is retained, the appearance is attractive and attractive, the process value of the teapot is improved, the sale price in the market is correspondingly improved, the market competition is facilitated, the production cost is reduced, the added value of a finished product can be improved, and the product has strong market competitiveness.

The invention has the advantages that: (1) the production process can solve the problem that the mass production of partial filament products cannot be realized; (2) the production process can also preserve the beautiful effect of the hand-made filament. (3) The production process can form flow production and has reproducibility.

In the present invention, the 3D printing technology, the wax injection process, the mold inversion process, the mold holding process, the old-fashioned process, and the polishing process are all the prior art, and therefore, the present invention is not described in detail.

The invention relates to a preparation process of a teapot with a filigree pattern, which comprises the steps of firstly preparing a white resin teapot, bonding filigree patterns on the white resin teapot, pouring green wax to form a molded preserved teapot, then forming a metal teapot model by adopting a reverse mould process, and then performing wax injection, reverse mould, mould holding, old making and polishing on the metal teapot model to form a finished product; the problem that the surface of the teapot cannot be massively produced is solved, the attractive effect of manually wire inlaying is not influenced, and flow production can be formed; the method has simple operation steps, can form flow production, greatly reduces the production cost, improves the working efficiency, also reduces the market price of the product, and is beneficial to market competition.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention, and all equivalent changes and modifications made based on the features and principles described in the claims of the present invention are included in the scope of the present invention.

Claims (2)

1. A preparation process of a teapot with a filigree pattern is characterized in that: the method comprises the following steps: utilizing a computer to model and produce a 3D teapot body model, and printing a white resin teapot by using 3D to form an initial teapot;

step two: the preparation of the filament comprises the following steps:

(1) gathering two plain silks into one strand to form a filament basic line;

(2) according to a pattern drawn in advance, pinching to form a filigree pattern the same as the pattern of the pattern;

step three: adhering the filament patterns prepared in the step two to the surface of the shell body of the initial teapot in the step one by using an adhesive to form a filament teapot;

step four: and (3) turning the die, which comprises the following steps:

(1) pouring the filament teapot in the third step into a silica gel mold by using liquid silica gel;

(2) after the silica gel is solidified, opening the mold by using a scalpel and taking out the filament teapot to form a silica gel teapot model;

step five: preparing a formed tea pot: heating the solid green wax to form liquid green wax, pouring the liquid green wax on the silica gel teapot model in the fourth step, and taking out the liquid green wax after the green wax is cooled to form a formed preserved teapot;

step six: and (3) reversing the mold: manufacturing the molded teapot in the fifth step into a metal teapot model according to the existing mold-pouring process;

step seven: and opening the metal teapot model in the sixth step, and then adopting a wax injection process, a mould reversing process, a mould holding process, an old-making process and a polishing process to finally form a teapot finished product capable of being produced in a flow manner.

2. The process of claim 1, wherein the process comprises the steps of: the adhesive in the third step is allyl resin adhesive, amino resin adhesive, alkyd resin adhesive, modified resin adhesive, polyethylene adhesive, polypropylene adhesive or silicate adhesive.