阅读说明：本技术 一种提高陶瓷餐具坯体强度的烧制方法及其窑炉 (Firing method for improving ceramic tableware body strength and kiln thereof ) 是由 邱秋雄 邱伟杰 李伟林 邱楚鹏 李洁 苏新 于 2019-10-23 设计创作，主要内容包括：本发明公开了一种提高陶瓷餐具坯体强度的烧制方法及其窑炉,包括以下步骤：S1,将陶瓷餐具放置在烧制窑炉中。本发明通过上腔设置由一级电机带动旋转的转轴与转盘,以支撑陶瓷餐具在窑体内进行水平旋转,通过在滤板下端销轴连接密封板,在下腔中设置由二级电机带动旋转的丝杆,利用旋转的丝杆使上下移动的螺母通过支杆对密封板进行牵引支撑,同时也有助于在炉体不灭火的情况下使窑体内的陶瓷餐具实现循序式的温度升降；通过分步烧制陶瓷餐具,并利用喷雾器为旋转运动的陶瓷餐具提供均匀全面的粘合喷雾,以提升其自身的粘合性；分步烧制实现循序式的升降温,可避免传统烧制技术下因温度骤升骤降而造成的气泡和陶瓷餐具的胚体损毁。(The invention discloses a firing method for improving the strength of a ceramic tableware blank and a kiln thereof, comprising the following steps: s1, placing the ceramic tableware in a firing kiln. The rotary shaft and the rotary disc which are driven to rotate by the primary motor are arranged on the upper cavity to support the ceramic tableware to horizontally rotate in the kiln body, the lower end of the filter plate is connected with the sealing plate through the pin shaft, the screw rod which is driven to rotate by the secondary motor is arranged in the lower cavity, the nut which moves up and down is used for carrying out traction support on the sealing plate through the support rod by utilizing the rotary screw rod, and meanwhile, the ceramic tableware in the kiln body can realize sequential temperature rise and fall under the condition that the furnace body is not put out a fire; the ceramic tableware is fired step by step, and the sprayer is used for providing uniform and comprehensive adhesive spray for the ceramic tableware which rotates to improve the self adhesiveness; the step-by-step firing realizes the sequential temperature rise and fall, and can avoid the bubble and the blank damage of the ceramic tableware caused by the sudden temperature rise and fall under the traditional firing technology.)

1. A firing method for improving the strength of a ceramic tableware blank is characterized by comprising the following steps:

s1, placing the ceramic tableware in a firing kiln, horizontally rotating the ceramic tableware in the firing kiln at a rotating speed of 35-40 r/min under the sealing state of the firing kiln, simultaneously heating the inside of the firing kiln at a speed of 0.5-0.7 ℃/min, and keeping the temperature in the firing kiln at 55-77 ℃ after 50-60 min;

s2, stopping supplying fire and stopping rotating the ceramic tableware, standing for 45-55min until the temperature in the firing kiln is kept at 35-40 ℃, starting the firing kiln for 15-20min, supplementing air into the firing kiln, and cooling the temperature in the firing kiln to 25-30 ℃;

s3, horizontally rotating the ceramic tableware in the firing kiln at a rotating speed of 15-25 r/min, simultaneously uniformly spraying bonding spray to the ceramic tableware at a dose of 1.5ml/cm, and standing for 35-45 min;

s4, sealing the firing kiln and supplying fire into the firing kiln again to enable the ceramic tableware to horizontally rotate at the rotating speed of 25-30 r/min, enabling the temperature in the firing kiln to rise at the speed of 1.5-2 ℃/min, and keeping the temperature in the firing kiln at 500-600 ℃ after 4.5-5 h;

s5, stopping supplying fire and stopping rotating the ceramic tableware, continuously supplying air to the firing kiln for 15-20min, and naturally cooling the temperature in the firing kiln to 450 ℃;

s6, sealing the firing kiln and supplying fire into the firing kiln again to enable the ceramic tableware to horizontally rotate at the rotating speed of 15-25 r/min, enabling the temperature in the firing kiln to rise at the speed of 5-6 ℃/min, keeping the temperature in the firing kiln at 750-.

2. The firing method for improving the strength of the ceramic tableware blank according to claim 1, wherein the firing kiln is always in a sealed state in steps S1 and S4, and the firing kiln is always in an open state in steps S3 and S5.

3. The firing method for improving the strength of the ceramic tableware body as claimed in claim 1, wherein the firing kiln is in a sealed state during the standing process of step S2 and step S6, and the firing kiln is in an open state during the natural cooling process.

4. A firing method for improving the strength of a ceramic tableware blank according to claim 1, wherein the bonding spray is prepared by mixing 22-25 parts by weight of sodium perborate, 30-35 parts by weight of distilled water, 15-18 parts by weight of binder, 23-25 parts by weight of silica, 12-18 parts by weight of acrylic emulsion, 5-10 parts by weight of titanium dioxide and 7-10 parts by weight of hollow glass beads.

5. A firing kiln for improving the strength of ceramic tableware blanks comprises a kiln body (1) and a kiln body (2) and is characterized in that the lower end of the kiln body (1) is located in the kiln body (2), a filter plate (4) is integrally arranged in the kiln body (1), the kiln body (1) is divided into an upper cavity (5) and a lower cavity (6) by the filter plate (4), a first-stage motor (7) is arranged at the upper end of the kiln body (1), a rotating shaft (8) connected with an output shaft of the first-stage motor (7) is rotatably arranged in the upper cavity (5), a rotating disc (9) is fixedly sleeved on the rotating shaft (8), two second-stage motors (10) are correspondingly arranged on the outer wall of the kiln body (1), lead screws (11) connected with output shafts of the second-stage motors (10) are rotatably arranged in two sides of the lower cavity (6), nuts (12) are respectively connected on the lead screws (11) in a threaded manner, and sealing plates (13) are correspondingly, and be connected with branch (14) between nut (12) and closing plate (13), bolted connection has atomizer (15) on the kiln body (1), be equipped with temperature-sensing meter (16) in the kiln body (1), and install on the kiln body (1) with temperature-sensing meter (16) electric connection's control panel (17), set up vent (18), business turn over material mouth (19) and air intake (20) opened and close by control panel (17) control respectively on the kiln body (1) and furnace body (2).

6. The firing kiln for improving the strength of the ceramic tableware body as claimed in claim 5, characterized in that the inner wall of the kiln body (2) is integrally connected with a bearing flange (3), and the kiln body (1) with an opening at the bottom end fixedly sleeved in the kiln body (2) is positioned at the upper end of the bearing flange (3).

7. The firing kiln for improving the strength of the ceramic tableware green body according to claim 5, characterized in that the primary motor (7) and the secondary motor (10) are both servo motors, and two ends of the support rod (14) are respectively connected with the nut (12) and the sealing plate (13) through pin shafts.

8. The firing kiln for improving the strength of the ceramic tableware green body according to claim 6, characterized in that the sprayer (15) and the material inlet and outlet (19) correspond to the upper cavity (5), and the vent (18) is opened at the upper end of the kiln body (1) communicated with the upper cavity (5).

Technical Field

The invention relates to the technical field of firing of ceramic tableware blanks, in particular to a firing method and a kiln for improving the strength of a ceramic tableware blank.

Background

The ceramic preparation technology in China has a long history, and the ceramic preparation technology has various shapes, colorful colors, cool and smooth handfeel and easy washing, is popular with China and even internationally names China with ceramics. The traditional concept of ceramics refers to all artificial industrial products which take inorganic nonmetallic minerals such as clay and the like as raw materials. It includes various products made up by using clay or clay-containing mixture through the processes of mixing, forming and calcining. The range from the coarsest earthenware to the finest fine pottery and porcelain is wide, and the ceramic manufacturing technology takes the tableware products in China as common and has very successful representativeness.

Although the ceramic process in China has a long history and the process level is the first line, the ceramic processing technology which flows to the present is influenced by the traditional technology to a very deep degree, and particularly, the ceramic firing process has great lagging, and the two main reasons are summarized: firstly, the traditional ceramic firing kiln has a simple and single structure, the ceramic to be fired is placed in the kiln, fuel is added into the kiln, and open fire is generated by burning the fuel to directly roast the ceramic, so that the fire in the kiln is difficult to control, the temperature in the kiln cannot be accurately known and mastered, the fire in the kiln can be controlled only by experience and control of the quantity of the fuel, and the accuracy is lacked; secondly, the traditional firing process adopts a mode of one step in place on the firing mode, namely, the ceramic is continuously fired and roasted, so that the temperature of the ceramic is suddenly increased and decreased, water in the ceramic is quickly evaporated and consumed in a short time, the treated ceramic easily has the phenomena of thermal expansion and cold contraction with larger amplitude, even the ceramic has obvious defects of bubbles, cracks and the like because of quick water consumption, and meanwhile, the integral structure of the ceramic is quickly contracted, the tightness and the solid strength of the integral structure of the ceramic are seriously influenced, the ceramic structure is easy to crack, and the smoothness of the surface of the ceramic is seriously influenced.

Disclosure of Invention

The invention aims to solve the problem that the quality of ceramic tableware is affected due to the fact that high-strength ceramic blanks are difficult to fire in the prior art, and provides a firing method and a kiln for improving the strength of ceramic tableware blanks.

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

a firing method for improving the strength of a ceramic tableware blank comprises the following steps:

s1, placing the ceramic tableware in a firing kiln, horizontally rotating the ceramic tableware in the firing kiln at a rotating speed of 35-40 r/min under the sealing state of the firing kiln, simultaneously heating the inside of the firing kiln at a speed of 0.5-0.7 ℃/min, and keeping the temperature in the firing kiln at 55-77 ℃ after 50-60 min;

s2, stopping supplying fire and stopping rotating the ceramic tableware, standing for 45-55min until the temperature in the firing kiln is kept at 35-40 ℃, starting the firing kiln for 15-20min, supplementing air into the firing kiln, and cooling the temperature in the firing kiln to 25-30 ℃;

s3, horizontally rotating the ceramic tableware in the firing kiln at a rotating speed of 15-25 r/min, simultaneously uniformly spraying bonding spray to the ceramic tableware at a dose of 1.5ml/cm, and standing for 35-45 min;

s4, sealing the firing kiln and supplying fire into the firing kiln again to enable the ceramic tableware to horizontally rotate at the rotating speed of 25-30 r/min, enabling the temperature in the firing kiln to rise at the speed of 1.5-2 ℃/min, and keeping the temperature in the firing kiln at 500-600 ℃ after 4.5-5 h;

s5, stopping supplying fire and stopping rotating the ceramic tableware, continuously supplying air to the firing kiln for 15-20min, and naturally cooling the temperature in the firing kiln to 450 ℃;

s6, sealing the firing kiln and supplying fire into the firing kiln again to enable the ceramic tableware to horizontally rotate at the rotating speed of 15-25 r/min, enabling the temperature in the firing kiln to rise at the speed of 5-6 ℃/min, keeping the temperature in the firing kiln at 750-.

Preferably, the firing kiln is always in a sealed state in steps S1 and S4, and the firing kiln is always in an open state in steps S3 and S5.

Preferably, the firing kiln is in a sealed state during the standing process of the step S2 and the step S6, and is in an open state during the natural cooling process.

Preferably, the adhesive spray is prepared by mixing 22-25 parts by weight of sodium perborate, 30-35 parts by weight of distilled water, 15-18 parts by weight of adhesive, 23-25 parts by weight of silicon dioxide, 12-18 parts by weight of acrylic emulsion, 5-10 parts by weight of titanium dioxide and 7-10 parts by weight of hollow glass beads.

Preferably, the lower end of the kiln body is located in the furnace body, a filter plate is integrally arranged in the kiln body, the kiln body is divided into an upper cavity and a lower cavity by the filter plate, a first-stage motor is arranged at the upper end of the kiln body, a rotating shaft connected with a first-stage motor output shaft is arranged in the upper cavity in a rotating manner, a rotating disc is fixedly sleeved on the rotating shaft, two second-stage motors are correspondingly arranged on the outer wall of the kiln body, lead screws connected with second-stage motor output shafts are arranged in the two sides of the lower cavity in a rotating manner, nuts are connected to the lead screws in threaded manner, sealing plates are connected to the lower ends of the two sides of the filter plate in a corresponding pin shaft manner, supporting rods are connected between the nuts and the sealing plates, a sprayer is connected to the kiln body through bolts, a temperature controller is arranged in the kiln body, a control panel electrically, A material inlet and a material outlet and an air inlet.

Preferably, the furnace body inner wall is integrally connected with a bearing flange, and the kiln body with an opening at the bottom end fixedly sleeved in the furnace body is positioned at the upper end of the bearing flange.

Preferably, the primary motor and the secondary motor are both servo motors, and two ends of the support rod are respectively connected with the nut and the sealing plate pin shaft.

Preferably, the sprayer and the material inlet and outlet correspond to the upper cavity, and the vent is arranged at the upper end of the kiln body communicated with the upper cavity.

Compared with the prior art, the invention has the following advantages:

1. the kiln body is divided into an upper cavity and a lower cavity by using the filter plate, and the upper cavity is provided with the rotating shaft and the rotating disc which are driven by the primary motor to rotate so as to support the ceramic tableware to horizontally rotate in the kiln body and avoid cracking caused by uneven heating of the ceramic tableware; the lower end of the filter plate is connected with a sealing plate through a pin shaft, a screw rod driven by a secondary motor to rotate is arranged in the lower cavity, and a nut moving up and down is used for carrying out traction support on the sealing plate through a support rod by utilizing the rotating screw rod, so that the filter plate is opened and closed, and the fire supply is stopped under the condition that a fire source in the furnace body is not extinguished; the sequential cooling is helpful to avoid the influence of shock heating and shock cooling on the ceramic tableware blank.

2. According to the invention, the ceramic tableware is driven to rotate horizontally by the turntable, then the sprayer sprays adhesive spray to the ceramic tableware which rotates, and the adhesive spray is used for wetting the primarily fired ceramic tableware, so that the adhesiveness and flexibility of the ceramic tableware are improved; meanwhile, the bonding strength of the ceramic disabled is improved through the silicon dioxide, the acrylic emulsion, the sodium perborate and the adhesive, and the ceramic tableware is provided with higher whiteness and wear resistance through the titanium dioxide and the hollow glass beads.

3. According to the invention, the moist ceramic tableware is heated by distributed firing, and the moisture in the ceramic tableware is slowly evaporated by preheating at a lower temperature in a shorter time, so that the phenomenon that the ceramic tableware expands too fast to generate bubbles or cracks is avoided; the ceramic tableware after being sprayed is subjected to secondary firing and tertiary firing, so that the ceramic tableware is sequentially heated, the bonding spray can uniformly enter the ceramic tableware, the integral bonding degree of the ceramic tableware can be realized, the wear resistance and the fineness of the ceramic tableware are enhanced, and the bonding degree and the firmness of the ceramic tableware can be further improved.

In conclusion, the rotary shaft and the rotary disc which are driven to rotate by the primary motor are arranged on the upper cavity to support the ceramic tableware to horizontally rotate in the kiln body, the sealing plate is connected with the lower end of the filter plate through the pin shaft, the screw rod which is driven to rotate by the secondary motor is arranged in the lower cavity, and the nut which moves up and down is used for dragging and supporting the sealing plate through the support rod by utilizing the rotary screw rod, so that the filter plate is opened and closed, and the fire supply is stopped under the condition that a fire source in the kiln body is not extinguished; the furnace body realizes uniform fire supply and heat supply for the ceramic tableware in the kiln body through the hollow filter plate, and is also beneficial to realizing sequential temperature rise and fall of the ceramic tableware in the kiln body under the condition that the furnace body does not extinguish fire; the ceramic tableware is fired step by step, and the sprayer is used for providing uniform and comprehensive bonding spray for the ceramic tableware in rotary motion so as to improve the self bonding, wear resistance and firmness; the step-by-step firing realizes the sequential temperature rise and fall, and can avoid the bubble and the blank damage of the ceramic tableware caused by the sudden temperature rise and fall under the traditional firing technology.

Drawings

FIG. 1 is a schematic structural diagram of a firing kiln for improving the strength of a ceramic tableware blank according to the present invention;

FIG. 2 is an enlarged view of the part A of the firing kiln for improving the strength of the ceramic tableware blank according to the present invention.

In the figure: the kiln comprises a kiln body 1, a kiln body 2, a bearing flange 3, a filter plate 4, an upper cavity 5, a lower cavity 6, a primary motor 7, a rotating shaft 8, a rotating disc 9, a secondary motor 10, a lead screw 11, a nut 12, a sealing plate 13, a support rod 14, a sprayer 15, a temperature controller 16, a control panel 17, a vent 18, a feed inlet and a discharge outlet 19 and an air inlet 20.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-2, a firing method for improving the strength of a ceramic tableware blank and a kiln thereof, comprising the following steps:

s1, placing the ceramic tableware in a firing kiln, horizontally rotating the ceramic tableware in the firing kiln at a rotating speed of 35-40 r/min under the sealing state of the firing kiln, simultaneously heating the inside of the firing kiln at a speed of 0.5-0.7 ℃/min, and keeping the temperature in the firing kiln at 55-77 ℃ after 50-60 min;

s2, stopping supplying fire and stopping rotating the ceramic tableware, standing for 45-55min until the temperature in the firing kiln is kept at 35-40 ℃, starting the firing kiln for 15-20min, supplementing air into the firing kiln, and cooling the temperature in the firing kiln to 25-30 ℃;

further explanation is as follows: steps S1 and S2 are primary firing and cooling processes performed on the ceramic to perform a preheating process on ceramic tableware with a large water content, because the temperature in the firing kiln is such that the water in the ceramic tableware is not largely evaporated and consumed, but is heated and remains in the ceramic tableware; after primary cooling, the overall structure of the ceramic tableware can be subjected to primary expansion and contraction, so that the structure of the ceramic tableware is promoted to shrink to a smaller extent.

S3, horizontally rotating the ceramic tableware in the firing kiln at a rotating speed of 15-25 r/min, simultaneously uniformly spraying bonding spray to the ceramic tableware at a dose of 1.5ml/cm, and standing for 35-45 min;

it should be noted that: the ceramic tableware is further humidified by spraying adhesive spray to the ceramic tableware, so that cracking and crushing of the secondarily heated ceramic tableware caused by over-roasting are avoided.

S4, sealing the firing kiln and supplying fire into the firing kiln again to enable the ceramic tableware to horizontally rotate at the rotating speed of 25-30 r/min, enabling the temperature in the firing kiln to rise at the speed of 1.5-2 ℃/min, and keeping the temperature in the firing kiln at 500-600 ℃ after 4.5-5 h;

s5, stopping supplying fire and stopping rotating the ceramic tableware, continuously supplying air to the firing kiln for 15-20min, and naturally cooling the temperature in the firing kiln to 450 ℃;

further explanation is as follows: the steps S4 and S5 are secondary firing and cooling treatment of the ceramic, and rapid roasting heating is carried out on the wetted ceramic tableware, so that the comprehensive shrinkage of the mechanism of the ceramic tableware is promoted, and the comprehensive absorption of the bonding spray by the ceramic tableware is promoted; in the heating process, 80% of water in the ceramic can be evaporated and consumed, so that the higher-degree dehumidification shaping operation is realized.

S6, sealing the firing kiln and supplying fire into the firing kiln again to enable the ceramic tableware to horizontally rotate at the rotating speed of 15-25 r/min, enabling the temperature in the firing kiln to rise at the speed of 5-6 ℃/min, keeping the temperature in the firing kiln at 750-.

The ceramic tableware heated and cooled by three times of firing can realize final shaping, and the bonding spray is completely melted into the ceramic tableware, so that the ceramic tableware is further tightly bonded.

The firing kiln in steps S1 and S4 is always in a sealed state, during which the air in the firing kiln can be fully consumed by burning fuel, and the firing kiln in steps S3 and S5 is always in an open state, so that natural cooling can be achieved by opening the firing kiln, and oxygen can be supplied for secondary firing.

The firing kiln is in a sealed state during the standing process of the step S2 and the step S6, and the firing kiln is in an open state during the natural cooling process.

The adhesive spray is prepared by mixing 22-25 parts by weight of sodium perborate, 30-35 parts by weight of distilled water, 15-18 parts by weight of adhesive, 23-25 parts by weight of silicon dioxide, 12-18 parts by weight of acrylic emulsion, 5-10 parts by weight of titanium dioxide and 7-10 parts by weight of hollow glass beads.

It should be noted that:

firstly, the sodium perborate, the adhesive and the silicon dioxide are added into the bonding spray, so that the bonding spray can be fully permeated into the ceramic tableware in the heating process of the ceramic, the absorption is realized to the maximum extent, the shrinkage of the surface of the ceramic tableware is facilitated, the surface smoothness and the structural strength of the ceramic tableware are improved, and the bubbles and cracks of the ceramic tableware in the cooling shrinkage process are avoided;

secondly, the acrylic emulsion is added into the bonding spray, and the acrylic emulsion has good adhesion, is suitable for keeping stable in various complex environments, has good light and color retention, and is beneficial to improving the appearance attractiveness of the ceramic tableware;

thirdly, because the hollow glass beads have the characteristics of light weight, compression resistance and stable chemical property, the bonding spray has the effects of lightness, thinness, high toughness and stability, and meanwhile, because the heat conductivity coefficient of the hollow glass beads is small, the bonding spray can not absorb a large amount of high-temperature heat, so that the ceramic tableware can keep stable structure in a complex environment;

fourth, a certain amount of titanium white powder can play the effect of hiding the black spot to promote ceramic pleasing to the eye effect, further, titanium white powder extremely has stable chemical properties, can strengthen the chemical stability of ceramic tableware itself: on one hand, the mechanical property of the structure of the bonding spray is improved, so that the ceramic tableware which fully absorbs the bonding spray is prevented from cracking and breaking under the condition of high-temperature and strong-light roasting, on the other hand, the tightness among all layers of the ceramic tableware can be enhanced, and the penetration of ultraviolet rays and moisture is effectively reduced, thereby playing a role in protection.

The lower end of a kiln body 1 is positioned in a furnace body 2, the kiln body 1 and the furnace body 2 are defined as a detachable mounting structure in the scheme, so that the kiln body 1 and the furnace body 2 can be distinguished, the firing kiln in the steps is particularly referred to as the kiln body 1, a filter plate 4 is integrally arranged in the kiln body 1, the kiln body 1 is divided into an upper chamber 5 and a lower chamber 6 by the filter plate 4, a primary motor 7 is arranged at the upper end of the kiln body 1, a rotating shaft 8 connected with an output shaft of the primary motor 7 is rotatably arranged in the upper chamber 5, a rotating disc 9 is fixedly sleeved on the rotating shaft 8, positions for limiting and placing ceramic tableware are equidistantly arranged on the rotating disc 9 to ensure the stability of the ceramic tableware in the rotating process, two secondary motors 10 are correspondingly arranged on the outer wall of the kiln body 1, lead screws 11 connected with output shafts of the secondary motors 10 are rotatably arranged in both sides of the lower chamber 6, the lower ends of the two sides of the filter plate 4 are connected with sealing plates 13 corresponding to the pin shafts, it should be noted that the two sealing plates 13 are of a semicircular structure, the two sealing plates can seal the filter plate 4 when the two sealing plates are horizontally abutted, the open fire in the furnace body 2 is prevented from entering the kiln body 1, the two sealing plates 13 are inclined to enable the filter plate 4 to be in an unblocked state with different degrees, so that the open fire in the furnace body 2 enters the kiln body 1, a support rod 14 is connected between a nut 12 and the sealing plates 13, a sprayer 15 is connected on the kiln body 1 through bolts, a temperature controller 16 is arranged in the kiln body 1, a control panel 17 electrically connected with the temperature controller 16 is arranged on the kiln body 1, and a vent 18, a feed/discharge port 19 and an air inlet 20 which are controlled to be opened and closed.

It should be noted that: the temperature controller 16 can monitor the temperature in the kiln body 1 in real time, controllable valves are arranged in the ventilation opening 18, the material inlet and outlet 19 and the air inlet 20, and the opening and closing of the controllable valves in the ventilation opening 18, the material inlet and outlet 19 and the air inlet 20 can be controlled through the control panel 17.

The inner wall of the furnace body 2 is integrally connected with a bearing flange 3, and the kiln body 1 with an opening at the bottom end fixedly sleeved in the furnace body 2 is positioned at the upper end of the bearing flange 3.

The primary motor 7 and the secondary motor 10 are both servo motors, two ends of the supporting rod 14 are respectively in pin connection with the nut 12 and the sealing plate 13, and the servo motors with product models of MR-J2S-500B or HC-SFS121 can be selected for the primary motor 7 and the secondary motor 10.

The sprayer 15 corresponds to the feed and discharge port 19 and the upper cavity 5, a spray head communicated with the sprayer 15 is arranged in the kiln body 1 to uniformly spray ceramic tableware on the rotary plate 9, the vent 18 is arranged at the upper end of the kiln body 1 communicated with the upper cavity 5, and the kiln body 1 can be in a ventilation state or not by opening and closing the vent 18, so that the temperature condition in the kiln body 1 can be better adjusted.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.