CN110614483A - Production process of ceramic stirrer - Google Patents

Abstract

The invention discloses a production process of a ceramic stirrer, which comprises the following steps: the method comprises the steps of manufacturing a core rod, manufacturing blades, assembling and glaze firing, trimming the surface of a semi-finished product of the ceramic stirrer, glazing to cover the surfaces and joints of the glazed semi-finished product of the blades and the semi-finished product of the core rod, and glaze firing to obtain a finished product. The production process of the ceramic stirrer adopts the split processing process of the core rod and the blade, fully utilizes the first die and the second die to ensure the thickness and the uniformity of the first white blank and the second white blank, improves the corrosion resistance effect and the shock resistance, reduces the processing difficulty, and improves the connection strength and the structural stability of the core rod and the blade by combining the threaded connection, the welding and the glazing.

Description

Production process of ceramic stirrer

Technical Field

The invention relates to the technical field of ceramic product production, in particular to a production process of a ceramic stirrer.

Background

The agitator is mostly metal material and makes, and sound construction, the durability is good, can carry out high-speed rotation under the drive of motor, realizes the stirring of solution, promotes homogeneity or the chemical reaction effect that solution mixes.

The stirrer made of metal materials has poor adaptability to the properties of the solution, is easy to corrode to reduce the service life and even influence the reaction of the solution, so that part of the surface of the stirrer is covered with a layer of enamel for protection, but the enamel is usually very thin or uneven in thickness, poor in impact resistance effect and high in processing difficulty and needs to be improved.

Disclosure of Invention

The invention aims to provide a production process of a ceramic stirrer, which avoids the problem of corrosion by solution, improves the impact resistance effect and reduces the processing difficulty.

In order to achieve the purpose, the invention adopts the following technical scheme:

a production process of a ceramic stirrer comprises the following steps:

manufacturing a core rod, namely taking a solid steel bar, processing a plurality of first threaded holes at the bottom of the excircle of the steel bar, plugging the first threaded holes by using a plunger, putting the steel bar and the plunger into a first die together, performing blank glaze slip casting, forming a layer of first white blank on the surface of the excircle of the steel bar after drying, removing the plunger, and performing biscuit firing in a kiln to obtain a semi-finished product of the core rod;

manufacturing a blade, cutting a steel plate and then pressing the steel plate into a blade, welding a stud corresponding to the first threaded hole at the tail end of the blade, putting the blade into a second die, performing blank glaze slip casting, forming a layer of second white blank on the surface of the blade after drying, and putting the blade into a kiln for biscuit firing to obtain a blade semi-finished product;

assembling, namely mounting the blade semi-finished product at the bottom of the core rod semi-finished product through matching of the stud and the first threaded hole to obtain a ceramic stirrer semi-finished product;

and (3) glazing, namely finishing the surface of the semi-finished product of the ceramic stirrer, glazing to cover the surfaces and joints of the glazed blade semi-finished product and the core rod semi-finished product, and glazing to obtain a finished product.

The plunger is a circular steel column, an external thread corresponding to the first threaded hole is arranged at one end of the plunger, and a counter bore corresponding to the circular steel column is arranged at the end part of the first threaded hole.

And a second threaded hole is concentrically formed in the top end of the steel bar.

And the first threaded hole annular array is arranged at the bottom of the outer circle of the steel bar.

In the assembling step, after the stud is screwed into the first threaded hole, the angle of the semi-finished blade is adjusted and spot welding positioning is carried out.

The first die is provided with a first cavity corresponding to the steel bar and a first positioning hole corresponding to the plunger.

And a second cavity corresponding to the blade and a second positioning hole corresponding to the stud are arranged in the second die.

The invention has the beneficial effects that: the utility model provides a production technology of ceramic agitator, has adopted the process of core bar and paddle components of a whole that can function independently processing, and the thickness and the homogeneity of first white base and second white base are guaranteed to make full use of first mould and second mould, promote corrosion-resistant effect and shock resistance, reduce the processing degree of difficulty to through threaded connection, welding and the mode that glazing combined together, promote the joint strength and the structural stability of core bar and paddle.

Detailed Description

The technical solution of the present invention is further illustrated by the following specific examples.

A production process of a ceramic stirrer comprises the following steps:

the manufacturing method comprises the steps of manufacturing a core rod, namely taking a solid steel bar, machining 2 ~ 4 first threaded holes at the bottom of the outer circle of the steel bar, arranging 2 ~ 4 first threaded holes at the bottom of the outer circle of the steel bar in an annular array mode, uniformly distributing the first threaded holes, then plugging the first threaded holes by using a plunger, wherein the plunger is a circular steel column, one end of the plunger is provided with an external thread corresponding to the first threaded holes, the installation is convenient, the end part of each first threaded hole is provided with a counter bore corresponding to the circular steel column, so that the circular steel column enters the counter bore to strengthen the plugging of the first threaded holes, blank glaze is prevented from entering the first threaded holes during grouting, then the steel bar and the plunger are placed into a first mold together to perform blank glaze slip casting, a layer of first white blank is formed on the surface of the outer circle of the steel bar after drying, the plunger is detached and then is placed into a kiln to be biscuit fired to obtain a core rod semi-finished product, the first mold is provided with a first cavity corresponding to the steel bar and a first positioning hole corresponding to position the column, the blank is prevented from polluting the plunger during grouting, the blank glaze is wrapped on the surface of the first white blank, and the first cavity is formed, and the first;

manufacturing a blade, cutting a steel plate, pressing into 2 ~ 4 blades, welding a stud corresponding to a first threaded hole at the tail end of each blade, placing the blades into a second mold, performing blank glaze slip casting, forming a layer of second white blank on the surface of each blade after drying, and performing biscuit firing in a kiln to obtain a blade semi-finished product, wherein the second mold is internally provided with a second cavity corresponding to the blades and a second positioning hole corresponding to the stud;

assembling, namely mounting the semi-finished product of the blade at the bottom of the semi-finished product of the core rod by matching the stud with the first threaded hole, adjusting the angle of the semi-finished product of the blade and positioning by spot welding after the stud is screwed into the first threaded hole, and improving the structural stability to obtain the semi-finished product of the ceramic stirrer;

and glazing, namely trimming the surface of the semi-finished product of the ceramic stirrer, removing the salient points, filling the pits, glazing to cover the surfaces and joints of the glazed blade semi-finished product and the core bar semi-finished product, and glazing to obtain a finished product of the ceramic stirrer, wherein the thicknesses of the first white blank and the second white blank are guaranteed, the requirements on the glazing thickness and uniformity are weakened, and the production difficulty is reduced.

The top of rod iron is provided with the second screw hole with one heart, conveniently with being connected of motor shaft, utilizes the rotation of motor drive ceramic agitator, carries out the stirring of solution. The ceramic stirrer has stable structure, good corrosion resistance and good shock resistance.

The above description is only a preferred embodiment of the present invention, and for those skilled in the art, the present invention should not be limited by the description of the present invention, which should be interpreted as a limitation.

Claims (7)

1. The production process of the ceramic stirrer is characterized by comprising the following steps of:

manufacturing a core rod, namely taking a solid steel bar, processing a plurality of first threaded holes at the bottom of the excircle of the steel bar, plugging the first threaded holes by using a plunger, putting the steel bar and the plunger into a first die together, performing blank glaze slip casting, forming a layer of first white blank on the surface of the excircle of the steel bar after drying, removing the plunger, and performing biscuit firing in a kiln to obtain a semi-finished product of the core rod;

manufacturing a blade, cutting a steel plate and then pressing the steel plate into a blade, welding a stud corresponding to the first threaded hole at the tail end of the blade, putting the blade into a second die, performing blank glaze slip casting, forming a layer of second white blank on the surface of the blade after drying, and putting the blade into a kiln for biscuit firing to obtain a blade semi-finished product;

assembling, namely mounting the blade semi-finished product at the bottom of the core rod semi-finished product through matching of the stud and the first threaded hole to obtain a ceramic stirrer semi-finished product;

and (3) glazing, namely finishing the surface of the semi-finished product of the ceramic stirrer, glazing to cover the surfaces and joints of the glazed blade semi-finished product and the core rod semi-finished product, and glazing to obtain a finished product.

2. The production process of the ceramic stirrer according to claim 1, wherein the plunger is a circular steel column, one end of the plunger is provided with an external thread corresponding to the first threaded hole, and the end part of the first threaded hole is provided with a counter bore corresponding to the circular steel column.

3. The process for producing a ceramic stirrer according to claim 1, wherein the top end of the steel rod is concentrically provided with a second threaded hole.

4. The process for producing a ceramic stirrer according to claim 1, wherein the annular array of first threaded holes is provided at the bottom of the outer circle of the steel bar.

5. The process for producing a ceramic stirrer according to claim 1, wherein in the assembling step, after the stud is screwed into the first threaded hole, the angle of the semi-finished blade is adjusted and spot-welded.

6. The production process of the ceramic stirrer according to claim 1, wherein the first die is provided with a first cavity corresponding to the steel bar and a first positioning hole corresponding to the plunger.

7. The process for producing a ceramic stirrer according to claim 1, wherein the second die is provided therein with a second cavity corresponding to the blade and a second positioning hole corresponding to the stud.