CN112809895A

CN112809895A - Noble metal and ceramic combining process

Info

Publication number: CN112809895A
Application number: CN202110193827.9A
Authority: CN
Inventors: 陈火龙; 孙晓风; 郑雄
Original assignee: Shenzhen Xin De Yuan Jewelry Co ltd
Current assignee: Shenzhen Xin De Yuan Jewelry Co ltd
Priority date: 2021-02-20
Filing date: 2021-02-20
Publication date: 2021-05-18

Abstract

The invention discloses a noble metal and porcelain combination process, which comprises the following steps; step S1: forming a matrix, selecting proper porcelain stone and kaolin as blank making raw materials, crushing the raw materials, selecting and washing, weighing and proportioning according to a production formula, performing ball milling and fine crushing through ball milling equipment, removing impurities from raw material powder after the required fineness is reached, performing press filtration and dehydration on machine-made forming slurry, performing vacuum pugging, and performing roll forming on the blank slurry according to requirements to prepare the matrix; step S2: firing the tire body, drying the tire body through ceramic drying equipment, and drying; according to the invention, the noble metal is combined with the porcelain, and the noble metal is attached to the surface of the porcelain at high temperature, so that the flaky and dotted development is formed, and the ornamental value of the porcelain can be greatly improved; meanwhile, in the process of firing the porcelain, the drying speed of the carcass is accelerated, and the processing speed of the porcelain can be effectively improved.

Description

Noble metal and ceramic combining process

Technical Field

The invention relates to the technical field of ceramics, in particular to a process for combining precious metal and porcelain.

Background

The porcelain is made by firing porcelain stone, kaolin, quartz stone, mullite and the like, and is provided with a glass glaze or a colored drawing object device on the surface; the porcelain is formed by high-temperature firing in a kiln; with the development of science and technology, metal is added into the porcelain, so that different images can be generated on the surface of the porcelain; in the prior art, in the process of firing, impurities carried in soil can influence the overall firing effect of the porcelain; in addition, in the process of firing the porcelain, the drying mode of the porcelain body is natural drying, and the drying time is long, so that the forming efficiency of the porcelain is low, and therefore, the design of a bonding process of the precious metal and the porcelain is necessary.

Disclosure of Invention

The invention aims to provide a process for combining precious metal and porcelain, which combines the precious metal and the porcelain, and the precious metal is adhered to the surface of the porcelain at high temperature, so as to form sheet and point-shaped development, and greatly improve the ornamental value of the porcelain; meanwhile, in the process of firing the porcelain, the drying speed of the carcass is accelerated, and the processing speed of the porcelain can be effectively improved.

The purpose of the invention can be realized by the following technical scheme:

a noble metal and porcelain combination process comprises the following steps;

step S1: forming a matrix, selecting proper porcelain stone and kaolin as blank making raw materials, crushing the raw materials, selecting and washing, weighing and proportioning according to a production formula, performing ball milling and fine crushing through ball milling equipment, removing impurities from raw material powder after the required fineness is reached, performing press filtration and dehydration on machine-made forming slurry, performing vacuum pugging, and performing roll forming on the blank slurry according to requirements to prepare the matrix;

step S2: firing the matrix, drying the matrix by ceramic drying equipment, finishing the matrix after drying, and firing the prepared matrix in a kiln for 3-5h, controlling the temperature in the kiln to be 900-1000 ℃, and taking out the fired matrix after firing; carrying out hot melting on the noble metal, namely selecting proper noble metal, and carrying out hot melting on the noble metal through high-temperature hot melting equipment;

step S3: spraying the precious metal melt, connecting the melt after hot melting with spraying equipment, spraying the molten metal after hot melting onto the surface of the matrix through the spraying equipment, so that the precious metal melt can be attached to one side of the surface of the ceramic semi-finished product, and cleaning the outer surface of the matrix after spraying is finished to remove the redundant precious metal melt;

step S4: glazing the tire body, namely glazing the tire body sprayed by the molten liquid; selecting proper glaze to prepare glaze slurry, heating the biscuit in a heating furnace for 10-20 min, taking out the biscuit, and pouring the glaze slurry into the biscuit to make the thickness of the glaze layer on the inner wall of the biscuit be 0.3-0.5 mm;

step S5: secondary sintering, namely transferring the glazed matrix to a kiln for secondary firing; controlling the temperature of the kiln to 1150-1200 ℃, keeping the firing time for 10-11h, keeping the temperature for 0.5-1h when the temperature is raised to 1100-1150 ℃, then raising the temperature and firing, and obtaining the precious metal and porcelain combined porcelain after firing.

As a further scheme of the invention: in step S1, the removing the impurities from the raw material powder includes:

a. carrying out iron removal treatment on the raw material powder refined by ball milling, thereby removing magnetic particles in the powder from the raw material powder;

b. and then, the raw material powder subjected to iron removal treatment is screened by screening equipment, so that particles with unqualified particle sizes in the powder are separated from the raw material powder, and the raw material powder subjected to screening can have stable granularity.

As a further scheme of the invention: in the step S5, the enamel comprises 35-50% of quartz, 30-45% of feldspar, 6-12% of lime, 5-12% of colored soil and 5-10% of a moistening agent.

As a further scheme of the invention: the porcelain glaze is prepared by the following preparation method: after quartz, feldspar, lime, colored soil and a moistening agent are mixed and stirred, the raw materials are uniformly mixed, then slurry is added, and the mixture is stirred for the second time, so that the waviness of the porcelain glaze is adjusted to be 45-50 Baume.

As a further scheme of the invention: in the step S2, the ceramic drying equipment comprises an installation underframe, a drying shell, a material moving component, a feeding table, an installation component, a heating component, a ventilation component, an air supply opening, a box door, a heat dissipation plate and a waterproof base, wherein the drying shell is fixedly installed on one side of the top of the end face of the installation underframe through bolts, the box door is fixedly installed on one side of the end face of the drying shell through hinges, the heat dissipation plate is fixedly installed on the top and two sides of the outer wall of the drying shell through screws, the feeding table is installed at the bottom of the inner side of the drying shell, the material moving component is arranged below the bottom of the feeding table, the installation component is installed in the center of the top of the end face of the feeding table, the air supply opening is formed in the center of the inner wall of the drying shell, the heating component is installed, the periphery of the end face of the bottom of the installation underframe is fixedly provided with a waterproof base through screws;

the installation component comprises a stepping motor, a dust blocking plate, a rotating shaft, a rotating end cover, a rotating rubber ring and an anti-skidding bottom pad, the stepping motor is fixedly installed at the center of the bottom end face of the feeding table through screws, the rotating shaft is installed at the top of the stepping motor in a connected mode, the dust blocking plate is fixedly installed at the center of the top end face of the feeding table through screws, the rotating rubber ring is installed in the center of the end face of the dust blocking plate in a plugged mode, one end of the rotating shaft penetrates through the rotating rubber ring to be connected and installed with the rotating end cover, and the anti-skidding bottom pad is installed on the top.

As a further scheme of the invention: move the material subassembly and include guide way, material loading boss, removal frame and removal gyro wheel, the guide way is seted up at terminal surface one side both ends of installation chassis, the one end bottom fixed mounting of guide way has the material loading boss, it passes through screw fixed mounting around the bottom terminal surface of pay-off table to remove the frame, the bottom one side movable mounting that removes the frame has the removal gyro wheel, and removes the gyro wheel and be connected with the guide way.

As a further scheme of the invention: heating element is including thermal-insulated frame, honeycomb filter screen, electric heater and electric plate, thermal-insulated frame passes through the inner wall terminal surface of screw fixed mounting at dry casing, the terminal surface central authorities fixed mounting who separates thermal-insulated frame has the honeycomb filter screen, and the honeycomb filter screen is located one side of supply-air outlet, the terminal surface both sides that separate thermal-insulated frame all have the electric heater through screw fixed mounting, and the one end connection of electric heater installs the electric plate.

As a further scheme of the invention: the ventilation assembly comprises a box body, an air supply fan, a ventilation plate, a flow guide cover and an installation support, wherein the installation support is fixedly installed on the other side of the end face of the installation support through bolts, the end face of the installation support is fixedly installed with the box body, the air supply fan is installed in the box body through the screws, the ventilation plate is installed on one end face of the box body, the flow guide cover is installed on the other side of the end face of the box body in a connected mode, the other end of the flow guide cover is fixedly connected with the end face of a drying shell, and the inside of the flow guide cover is communicated with the inside.

The invention has the beneficial effects that:

1. according to the invention, the noble metal is combined with the porcelain, and the noble metal is attached to the surface of the porcelain at high temperature, so that the flaky and dotted development is formed, and the ornamental value of the porcelain can be greatly improved; in addition, in the process of firing the porcelain, impurities in the raw materials are effectively removed, the influence of the impurities on the porcelain in the firing process can be reduced, and the influence of the impurities on the forming quality of the porcelain is avoided.

2. The ceramic drying equipment disclosed by the invention is simple in structure and convenient to operate; when the porcelain is used, the porcelain is convenient to feed, and the drying rate of the porcelain body is increased by drying the porcelain body, so that the processing rate of the porcelain can be effectively increased; simultaneously, in the dry in-process, it is even to be heated, and drying effect is good, can effectively improve the shaping quality of porcelain.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

FIG. 1 is a schematic view of a first overall structure of the ceramic drying apparatus of the present invention;

FIG. 2 is a schematic view of a second overall structure of the ceramic drying apparatus of the present invention;

FIG. 3 is an overall side view of the ceramic drying apparatus of the present invention;

FIG. 4 is an overall sectional view of the ceramic drying apparatus of the present invention;

FIG. 5 is an internal front view of a drying enclosure of the ceramic drying apparatus of the present invention;

in the figure: 1. installing a bottom frame; 2. drying the shell; 3. a material moving component; 4. a feeding table; 5. mounting the component; 6. a heating assembly; 7. a ventilation assembly; 8. an air supply outlet; 9. a box door; 10. a thermal insulation board; 11. a waterproof base; 31. a guide groove; 32. feeding a boss; 33. a movable frame; 34. moving the roller; 51. a stepping motor; 52. a dust guard; 53. a rotating shaft; 54. rotating the end cover; 55. rotating the rubber ring; 56. an anti-slip base pad; 61. a heat insulation frame; 62. a honeycomb filter screen; 63. an electric heater; 64. an electric hot plate; 71. a box body; 72. an air supply fan; 73. a ventilation board; 74. a pod; 75. and (7) mounting a bracket.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1-5, a process for bonding a noble metal and porcelain includes the following steps;

wherein, carry out edulcoration processing to raw materials powder and include:

b. screening the raw material powder subjected to iron removal treatment by using screening equipment, so that particles with unqualified particle sizes in the powder are separated from the raw material powder, and the screened raw material powder can have stable granularity;

step S2: firing the tire body, drying the tire body through ceramic drying equipment, finishing the tire body after drying, placing the prepared tire body into a kiln for firing for 3-5h, controlling the temperature in the kiln to be 900-1000 ℃, taking out the fired tire body after firing, carrying out hot melting on the noble metal, selecting proper noble metal, and carrying out hot melting on the noble metal through high-temperature hot melting equipment;

the ceramic drying equipment comprises an installation chassis 1, a drying shell 2, a material moving component 3, a feeding table 4, an installation component 5, a heating component 6, a ventilation component 7, an air supply outlet 8, a box door 9, a heat dissipation plate 10 and a waterproof base 11, wherein the drying shell 2 is fixedly installed on one side of the top of the end face of the installation chassis 1 through bolts, the box door 9 is fixedly installed on one side of the end face of the drying shell 2 through hinges, the heat dissipation plate 10 is fixedly installed on the top and two sides of the outer wall of the drying shell 2 through bolts, the feeding table 4 is installed on the bottom of the inner side of the drying shell 2, the material moving component 3 is arranged below the bottom of the feeding table 4, the material moving component 3 comprises a guide groove 31, a material feeding boss 32, a moving frame 33 and a moving roller 34, the guide groove 31 is arranged at two ends of one side of the end face of the installation chassis 1, the material feeding boss 32 is fixedly installed at the, a moving roller 34 is movably mounted on one side of the bottom of the moving frame 33, and the moving roller 34 is connected with the guide groove 31; the mounting assembly 5 is mounted in the center of the top of the end face of the feeding table 4, the mounting assembly 5 comprises a stepping motor 51, a dust guard plate 52, a rotating shaft 53, a rotating end cover 54, a rotating rubber ring 55 and an anti-skid bottom pad 56, the stepping motor 51 is fixedly mounted in the center of the end face of the bottom of the feeding table 4 through screws, the rotating shaft 53 is connected and mounted at the top of the stepping motor 51, the dust guard plate 52 is fixedly mounted in the center of the end face of the top of the feeding table 4 through screws, the rotating rubber ring 55 is inserted and mounted in the center of the end face of the dust guard plate 52, one end of the rotating shaft 53 penetrates through the rotating rubber ring 55 to be connected and mounted with the rotating end cover; an air supply outlet 8 is formed in the center of the inner wall of the drying shell 2, a heating assembly 6 is mounted on one side of the air supply outlet 8, the heating assembly 6 comprises a heat insulation frame 61, a honeycomb filter screen 62, an electric heater 63 and an electric heating plate 64, the heat insulation frame 61 is fixedly mounted on the end face of the inner wall of the drying shell 2 through screws, the honeycomb filter screen 62 is fixedly mounted in the center of the end face of the heat insulation frame 61, the honeycomb filter screen 62 is located on one side of the air supply outlet 8, the electric heaters 63 are fixedly mounted on two sides of the end face of the heat insulation frame 61 through screws, and one end; the other side of the top of the end face of the installation underframe 1 is fixedly provided with a ventilation assembly 7 through bolts, and the ventilation assembly 7 is communicated with an air supply outlet 8; the ventilation assembly 7 comprises a box body 71, an air supply fan 72, a ventilation plate 73, a flow guide cover 74 and a mounting bracket 75, wherein the mounting bracket 75 is fixedly mounted on the other side of the end surface of the mounting bracket 75 through bolts, the box body 71 is fixedly mounted in the center of the end surface of the mounting bracket 75, the air supply fan 72 is fixedly mounted in the box body 71 through screws, the ventilation plate 73 is mounted on the end surface of one side of the box body 71, the flow guide cover 74 is connected and mounted on the other side of the end surface of the box body 71, the other end of the flow guide cover 74 is fixedly connected with the end surface of the drying shell 2, and the interior of; the periphery of the end face of the bottom of the installation underframe 1 is fixedly provided with a waterproof base 11 through screws;

when in use, the mounting underframe 1 can be supported by the waterproof base 11, the manufactured tire body is placed on the end surface of the feeding table 4 through the mounting component 5 on the end surface of the feeding table 4, the tire body is placed on the anti-skid bottom pad 56 on the end face of the rotating end cover 54, after the door 9 on one side of the drying shell 2 is opened, the tire body is moved to the inside of the drying shell 2 through the material moving component 3 for drying, the feeding table 4 is pushed, so that the moving roller 34 at the bottom of the end face moving frame 33 at the bottom of the feeding table 4 is moved to the inside of the guide groove 31 by the feeding boss 32, so that, after moving the feeding table 4, the mounting assembly 5 and the carcass inside the drying casing 2, the doors 9 are closed, air is supplied to the inside of the drying shell 2 through the ventilation assembly 7 and the air supply opening 8, hot air is heated through the heating assembly 6, and the hot air is blown to the tire body, so that the drying rate of the tire body is accelerated; the box body 71 is fixed through the mounting bracket 75, when the air supply fan 72 in the box body 71 works, external air is sucked through the ventilation plate 73, then air is blown into the drying shell 2 through the air supply opening 8 through the air guide sleeve 74, the honeycomb filter screen 62 on one side of the heat insulation frame 61 works to enable the electric heater 63 to generate heat, the air is filtered after passing through the electric heating plate 64, the filtered air takes away heat generated by the electric heater 63 and is blown to the tire body on the end face of the anti-skidding base mat 56 to enable the tire body to be dried, meanwhile, the stepping motor 51 at the bottom of the feeding table 4 works to drive the rotating shaft 53 to rotate in the rotating rubber ring 55, so that the rotating end cover 54 rotates slowly, the tire body can be dried at different angles, and the drying rate of the tire body is improved; the dust blocking plate 52 can have a dust blocking effect on the feeding table 4; the heat preservation plate 10 is convenient for drying the shell 2 for heat preservation;

step S3: spraying the precious metal melt, connecting the melt after hot melting with spraying equipment, spraying the molten metal after hot melting onto the surface of the matrix through the spraying equipment, so that the precious metal melt can be attached to one side of the surface of the ceramic semi-finished product, and cleaning the outer surface of the matrix after spraying is finished to remove the redundant precious metal melt; the spraying equipment adopts high-temperature resistant materials;

the porcelain glaze comprises 35-50% of quartz, 30-45% of feldspar, 6-12% of lime, 5-12% of colored soil and 5-10% of a moistening agent;

the porcelain glaze is prepared by the following preparation method: mixing and stirring quartz, feldspar, lime, colored soil and a moistening agent to uniformly mix the raw materials, adding slurry, and stirring the mixed materials for the second time to adjust the waviness of the porcelain glaze to 45-50 Baume degrees;

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims

1. A combination process of noble metal and porcelain is characterized by comprising the following steps;

2. The process of claim 1, wherein the step S1 of removing impurities from the raw powder comprises:

3. The process of claim 1, wherein in step S5, the enamel comprises quartz 35-50%, feldspar 30-45%, lime 6-12%, colored soil 5-12%, and a humectant 5-10%.

4. The process of claim 3, wherein the enamel is prepared by the following preparation method: after quartz, feldspar, lime, colored soil and a moistening agent are mixed and stirred, the raw materials are uniformly mixed, then slurry is added, and the mixture is stirred for the second time, so that the waviness of the porcelain glaze is adjusted to be 45-50 Baume.

5. The noble metal and porcelain combination process according to claim 1, wherein in the step S2, the ceramic drying equipment comprises an installation chassis (1), a drying shell (2), a material moving component (3), a feeding table (4), an installation component (5), a heating component (6), a ventilation component (7), an air supply outlet (8), a box door (9), a heat dissipation plate (10) and a waterproof base (11), wherein the drying shell (2) is fixedly installed on one side of the top of the end surface of the installation chassis (1) through bolts, the box door (9) is fixedly installed on one side of the end surface of the drying shell (2) through hinges, the heat dissipation plate (10) is fixedly installed on the top and two sides of the outer wall of the drying shell (2) through bolts, the feeding table (4) is installed on the bottom of the inner side of the drying shell (2), and the material moving component (3) is arranged below the bottom of the feeding table (4), an installation component (5) is installed in the center of the top of the end face of the feeding table (4), an air supply outlet (8) is formed in the center of the inner wall of the drying shell (2), a heating component (6) is installed on one side of the air supply outlet (8), a ventilation component (7) is fixedly installed on the other side of the top of the end face of the installation chassis (1) through bolts, the ventilation component (7) is communicated with the air supply outlet (8), and waterproof bases (11) are fixedly installed on the periphery of the end face of the bottom of the installation chassis (1) through screws;

installation component (5) include step motor (51), dust board (52), axis of rotation (53), rotate end cover (54), rotate rubber ring (55) and anti-skidding heelpiece (56), step motor (51) are through screw fixed mounting in the bottom terminal surface central authorities of pay-off platform (4), and the top connection of step motor (51) installs axis of rotation (53), dust board (52) are through screw fixed mounting in the top terminal surface central authorities of pay-off platform (4), the terminal surface central authorities of dust board (52) are pegged graft and are installed and rotate rubber ring (55), the one end of axis of rotation (53) is passed and is rotated rubber ring (55) and connect and install rotation end cover (54), and the laminating of the top terminal surface of rotating end cover (54) installs anti-skidding heelpiece (56).

6. The noble metal and porcelain combination process according to claim 1, wherein the material moving assembly (3) comprises a guide groove (31), a feeding boss (32), a moving frame (33) and moving rollers (34), the guide groove (31) is formed in two ends of one side of the end face of the installation base frame (1), the feeding boss (32) is fixedly installed at the bottom of one end of the guide groove (31), the moving frame (33) is fixedly installed around the end face of the bottom of the feeding table (4) through screws, the moving rollers (34) are movably installed on one side of the bottom of the moving frame (33), and the moving rollers (34) are connected with the guide groove (31).

7. The bonding process of noble metal and porcelain according to claim 1, wherein the heating assembly (6) comprises a heat insulation frame (61), a honeycomb filter screen (62), an electric heater (63) and an electric heating plate (64), the heat insulation frame (61) is fixedly installed on the end surface of the inner wall of the drying shell (2) through screws, the honeycomb filter screen (62) is fixedly installed in the center of the end surface of the heat insulation frame (61), the honeycomb filter screen (62) is located on one side of the air supply opening (8), the electric heater (63) is fixedly installed on both sides of the end surface of the heat insulation frame (61) through screws, and the electric heating plate (64) is installed at one end of the electric heater (63) in a connecting manner.

8. The noble metal and porcelain bonding process according to claim 1, wherein the ventilation assembly (7) comprises a box (71), an air supply fan (72), a ventilation plate (73), a dome (74), and a mounting bracket (75), the mounting bracket (75) is fixedly mounted on the other side of the end surface of the mounting bracket (75) through a bolt, a box body (71) is fixedly arranged in the center of the end surface of the mounting bracket (75), an air supply fan (72) is fixedly arranged in the box body (71) through a screw, a ventilation plate (73) is arranged on the end face of one side of the box body (71), a flow guide cover (74) is connected and arranged on the other side of the end face of the box body (71), the other end of the air guide sleeve (74) is fixedly connected with the end face of the drying shell (2), and the inside of the air guide sleeve (74) is communicated with the inside of the air supply outlet (8).