CN108395100A - A kind of raw material allocating technology for producing ceramics - Google Patents

Abstract

The invention discloses a kind of raw material allocating technologies for producing ceramics, include the following steps：The selection of material, mixture is put into the first crusher and carries out first break, it is transferred in compound crusher by the mixture of the first crusher screen and is finely crushed, collect sieving, sieving is put into batch mixer, water quenching after melting, obtain blocky glaze, by blocky glaze after wet ball grinding, sieving removal of impurities obtains glaze slip, glaze slip is imposed on into billet surface, after cooling, obtain ceramic glaze, a kind of raw material allocating technology for producing ceramics of the use of the present invention, using calcite as raw material, and by break process twice, so that each section material is broken complete, the precision of glaze can be improved, using the method for repeating to be crushed in shattering process, improve broken completeness.

Description

A kind of raw material allocating technology for producing ceramics

Technical field

The present invention relates to ceramic raw material technical fields more particularly to a kind of raw material for producing ceramics to allocate work Skill.

Background technology

Currently, there are architectural pottery, families up to ten thousand of sanitary ceramics producer, tens thousand of production lines, thousands of families of domestic ceramics factory in China. Produce nearly 3,000,000,000 square metres of architectural pottery, tens million of of sanitary ceramics, hundred million, domestic ceramics tree per year.As ceramic enters thousand Ten thousand families, ceramic glaze and colorant become for the indispensable extremely important ornament materials of ceramic, ceramic glaze it is steady Qualitative, diversity, glaze decoration, pattern decoration have become the target of ceramics producer of China pursuit.And now Production of Ceramics it is former The allotment of material glaze is not convenient enough, and the finished product of glaze is bad, can not easily adapt to production requirement of today.

Therefore, the raw material allocating technology that we have proposed a kind of for producing ceramics is for solving the above problems.

Invention content

The purpose of the present invention is to solve disadvantages existing in the prior art, and propose a kind of for producing ceramics Raw material allocating technology.

To achieve the goals above, present invention employs following technical solutions：

A kind of raw material allocating technology for producing ceramics proposed by the present invention, includes the following steps：

S1：Using quality as part, 100-150 parts of feldspar is selected, 10-15 parts of kaolin is 9-15 parts quartzy, and 20-40 parts of calcite is great 50-90 parts of diamond stone, 2-6 parts of zinc oxide, 8-13 parts of talcum；

S2：Mentioned component is put into the first crusher and carries out first break, non-sieving is transferred back to the first crusher again It carries out broken up to all by the first sieve of the first crusher, being transferred to by the mixture of the first crusher screen multiple It is finely crushed in box-like crusher, is not transferred to by the mixture of the second sieve of compound crusher and replys box-like be crushed Machine carries out broken until all by the second sieve of compound crusher, collection sieving again；

S3：Sieving is put into batch mixer, and a small amount of water is added, is stirred 10-20 minutes, after mixture is crossed 50-80 mesh sieve, Under 1100 ° -1500 °, water quenching after melting 2-5h obtains blocky glaze；

S4：By blocky glaze after wet ball grinding, sieving removal of impurities obtains glaze slip, and glaze slip is imposed on billet surface, dry to glaze slip In moisture be less than 2% after, under 900~1300 °C, fire 1~4h and obtain ceramic glaze after cooling.

Preferably, in the step S1,110-140 parts of feldspar, 11-14 parts of kaolin, 10-14 parts quartzy, Fang Xie are selected 25-30 parts of stone, great diamond stone 60-80 parts, 3-5 parts of zinc oxide, 9-10 parts of talcum.

Preferably, in the step S3, sieving is put into batch mixer, and a small amount of water is added, stirred 12-18 minutes, it will After mixture crosses 60-70 mesh sieve, under 1200 ° -1400 °, water quenching after melting 3-5h obtains blocky glaze.

Preferably, in the step S4, by blocky glaze after wet ball grinding, sieving removal of impurities obtains glaze slip, and glaze slip is applied In billet surface, after drying to the moisture in glaze slip is less than 2%, under 1000~1200 °C, fires 1~3h and obtained after cooling Ceramic glaze.

Preferably, the broken rotating speed of first crusher is 800rpm-1000rpm, and the compound crusher is broken Broken rotating speed 1000rpm-1200rpm.

Preferably, the mesh number of first sieve is 70-80 mesh, and the mesh number of the second sieve is 100-150 mesh.

The beneficial effects of the invention are as follows：A kind of raw material allocating technology for producing ceramics of the use of the present invention, with Calcite is raw material, and by break process twice so that the broken of each section material can improve the precision of glaze completely, Using broken method is repeated in shattering process, broken completeness is improved, after broken, batch mixing is carried out using batch mixer, Compounding effect frame is then dried by wet ball grinding handle and is cooled down, obtained ceramic glaze, reduce the water absorption rate of finished product.

Specific implementation mode

The present invention is made further to explain with reference to specific embodiment.

Embodiment one

A kind of raw material allocating technology for producing ceramics proposed by the present invention, includes the following steps：

S1：Using quality as part, 110 parts of feldspar, 12 parts of kaolin, 9 parts of quartz, 25 parts of calcite, 59 parts of great diamond stone, oxidation are selected 4 parts of zinc, 9 parts of talcum；

S2：Mentioned component is put into the first crusher and carries out first break, non-sieving is transferred back to the first crusher again It carries out broken up to all by the first sieve of the first crusher, being transferred to by the mixture of the first crusher screen multiple It is finely crushed in box-like crusher, is not transferred to by the mixture of the second sieve of compound crusher and replys box-like be crushed Machine carries out broken until all by the second sieve of compound crusher, collection sieving again；

S3：Sieving is put into batch mixer, and a small amount of water is added, is stirred 15 minutes, after mixture is crossed 70 mesh sieve, at 1300 ° Under, water quenching after melting 3h obtains blocky glaze；

S4：By blocky glaze after wet ball grinding, sieving removal of impurities obtains glaze slip, and glaze slip is imposed on billet surface, dry to glaze slip In moisture be less than 2% after, under 1100 °C, fire 2h and obtain ceramic glaze after cooling.

Embodiment two

A kind of raw material allocating technology for producing ceramics proposed by the present invention, includes the following steps：

S1：Using quality as part, 130 parts of feldspar, 13 parts of kaolin, 11 parts of quartz, 30 parts of calcite, 65 parts of great diamond stone, oxygen are selected Change 3 parts of zinc, 11 parts of talcum；

S2：Mentioned component is put into the first crusher and carries out first break, non-sieving is transferred back to the first crusher again It carries out broken up to all by the first sieve of the first crusher, being transferred to by the mixture of the first crusher screen multiple It is finely crushed in box-like crusher, is not transferred to by the mixture of the second sieve of compound crusher and replys box-like be crushed Machine carries out broken until all by the second sieve of compound crusher, collection sieving again；

S3：Sieving is put into batch mixer, and a small amount of water is added, is stirred 16 minutes, after mixture is crossed 55 mesh sieve, at 1200 ° Under, water quenching after melting 2.5h obtains blocky glaze；

S4：By blocky glaze after wet ball grinding, sieving removal of impurities obtains glaze slip, and glaze slip is imposed on billet surface, dry to glaze slip In moisture be less than 2% after, under 1200 °C, fire 2h and obtain ceramic glaze after cooling.

Embodiment three

A kind of raw material allocating technology for producing ceramics proposed by the present invention, includes the following steps：

S1：Using quality as part, 125 parts of feldspar, 15 parts of kaolin, 12 parts of quartz, 34 parts of calcite, 65 parts of great diamond stone, oxygen are selected Change 4 parts of zinc, 8 parts of talcum；

S2：Mentioned component is put into the first crusher and carries out first break, non-sieving is transferred back to the first crusher again It carries out broken up to all by the first sieve of the first crusher, being transferred to by the mixture of the first crusher screen multiple It is finely crushed in box-like crusher, is not transferred to by the mixture of the second sieve of compound crusher and replys box-like be crushed Machine carries out broken until all by the second sieve of compound crusher, collection sieving again；

S3：Sieving is put into batch mixer, and a small amount of water is added, is stirred 12 minutes, after mixture is crossed 60 mesh sieve, at 1100 ° Under, water quenching after melting 2h obtains blocky glaze；

S4：By blocky glaze after wet ball grinding, sieving removal of impurities obtains glaze slip, and glaze slip is imposed on billet surface, dry to glaze slip In moisture be less than 2% after, under 900 °C, fire 1h and obtain ceramic glaze after cooling.

Purity detecting is carried out to glaze prepared by above-described embodiment one to embodiment three, it is as a result as follows：

	Embodiment one	Embodiment two	Embodiment three
				Glaze water absorption rate %	3.5	4.7	2.3

The foregoing is only a preferred embodiment of the present invention, but scope of protection of the present invention is not limited thereto, and it is any Those familiar with the art in the technical scope disclosed by the present invention, according to the technique and scheme of the present invention and its invents Design is subject to equivalent substitution or change, should be covered by the protection scope of the present invention.

Claims (6)

1. a kind of raw material allocating technology for producing ceramics, which is characterized in that include the following steps：

S1：Using quality as part, 100-150 parts of feldspar is selected, 10-15 parts of kaolin is 9-15 parts quartzy, and 20-40 parts of calcite is great 50-90 parts of diamond stone, 2-6 parts of zinc oxide, 8-13 parts of talcum；

S2：Mentioned component is put into the first crusher and carries out first break, non-sieving is transferred back to the first crusher again It carries out broken up to all by the first sieve of the first crusher, being transferred to by the mixture of the first crusher screen multiple It is finely crushed in box-like crusher, is not transferred to by the mixture of the second sieve of compound crusher and replys box-like be crushed Machine carries out broken until all by the second sieve of compound crusher, collection sieving again；

S3：Sieving is put into batch mixer, and a small amount of water is added, is stirred 10-20 minutes, after mixture is crossed 50-80 mesh sieve, Under 1100 ° -1500 °, water quenching after melting 2-5h obtains blocky glaze；

S4：By blocky glaze after wet ball grinding, sieving removal of impurities obtains glaze slip, and glaze slip is imposed on billet surface, dry to glaze slip In moisture be less than 2% after, under 900~1300 °C, fire 1~4h and obtain ceramic glaze after cooling.

2. a kind of raw material allocating technology for producing ceramics according to claim 1, which is characterized in that the step In S1,110-140 parts of feldspar is selected, 11-14 parts of kaolin is 10-14 parts quartzy, 25-30 parts of calcite, great diamond stone 60-80 parts, 3-5 parts of zinc oxide, 9-10 parts of talcum.

3. a kind of raw material allocating technology for producing ceramics according to claim 1, which is characterized in that the step In S3, sieving is put into batch mixer, and a small amount of water is added, stirred 12-18 minutes, after mixture is crossed 60-70 mesh sieve, Under 1200 ° -1400 °, water quenching after melting 3-5h obtains blocky glaze.

4. a kind of raw material allocating technology for producing ceramics according to claim 1, which is characterized in that the step In S4, by blocky glaze after wet ball grinding, sieving removal of impurities obtains glaze slip, glaze slip is imposed on billet surface, in drying to glaze slip Moisture be less than 2% after, under 1000~1200 °C, fire 1~3h and obtain ceramic glaze after cooling.

5. a kind of raw material allocating technology for producing ceramics according to claim 1, which is characterized in that described first The broken rotating speed of crusher is 800rpm-1000rpm, the broken rotating speed 1000rpm-1200rpm of the compound crusher.

6. a kind of raw material allocating technology for producing ceramics according to claim 1, which is characterized in that described first The mesh number of sieve is 70-80 mesh, and the mesh number of the second sieve is 100-150 mesh.