A glazing device for an artistic ceramic product
By combining spraying with vacuum adsorption and a rotating gimbal glazing device, the problems of labor-intensive and inefficient ceramic glazing have been solved, achieving a fast, labor-saving, and efficient ceramic glazing process while ensuring the quality of the glaze layer.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- JINGDEZHEN RED LEAF CERAMICS CO LTD
- Filing Date
- 2025-01-09
- Publication Date
- 2026-06-09
AI Technical Summary
Existing ceramic glazing methods are labor-intensive and inefficient, especially the brushing method, and there is a lack of efficient solutions that save manpower and time.
A glazing device that combines spraying with vacuum adsorption, a rotating gimbal, and a drying lamp uses a vacuum suction cup to adsorb the bottom of the ceramic, sprays glaze through a ring nozzle, and uses a rotating gimbal to spray the ceramic from all directions. After spraying, a drying lamp is used to solidify the glaze, making it easy to remove.
It achieves quick glazing, saves manpower, improves efficiency, avoids water droplets falling during the later processing, ensures the quality of the glaze layer, and simplifies the later drying steps.
Smart Images

Figure CN224334660U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of ceramic glazing technology, and more specifically, to a glazing device for art ceramic products. Background Technology
[0002] Glaze is a silicate. The glaze applied to ceramics is generally made from quartz, feldspar, and clay. These materials are ground, mixed with water, and then applied to the surface of the ceramic body. After firing at a certain temperature, the glaze melts and, as the temperature drops, forms a thin, glassy layer on the ceramic surface. This glaze increases the mechanical strength, thermal stability, and dielectric strength of the ceramic, and protects it from the erosion of liquids and gases. Glaze also enhances the appearance of porcelain and makes it easier to clean and prevents dust from adhering to it.
[0003] There are five methods for glazing ceramics: brushing, immersion, spraying, dripping, and carving. Brushing is the most common method, but it is extremely labor-intensive and inefficient. This paper proposes a glazing device for artistic ceramics that uses a spraying method. First, the bottom of the ceramic is placed on a vacuum suction cup. The vacuum generator is activated using the control panel, causing the suction cup to adhere to the bottom of the ceramic. This method does not obstruct the spraying surface, reducing post-processing steps. Then, the control panel activates a booster pump to deliver liquid ceramic glaze to a ring tube, which is then sprayed onto the ceramic through nozzles on the surface of the ring tube, achieving the glazing effect. Simultaneously, the control panel activates a rotating platform to rotate the ceramic, ensuring that each surface is sprayed. This method saves labor and achieves high efficiency. Excellent. After spraying, the booster pump is turned off using the control panel, and the partition inside the fixing frame is pulled out. The partition has teeth on both sides, and a gear meshes with the teeth on one side. The gear fixes the partition and determines its movement path. The bottom of the partition also has a limiting groove that matches the limiting block on the surface of the fixing frame. The limiting groove further fixes and determines the movement path of the partition. After pulling out the partition, the drying lamp is turned on using the control panel to dry the sprayed ceramic, so that the ceramic glaze on its surface solidifies. This makes it easy to remove the ceramic and eliminates the need for subsequent air drying, saving manpower and time.
[0004] No effective solutions have yet been proposed to address the problems in the relevant technologies. Utility Model Content
[0005] (a) Technical problems to be solved
[0006] To address the shortcomings of existing technologies, this utility model provides a glazing device for art ceramic products, which has the advantages of quick glazing, saving time and manpower, and easy mobility, thereby solving the problems mentioned in the background technology.
[0007] (II) Technical Solution
[0008] To achieve the advantages of quick glazing, saving time and manpower, and easy relocation, the specific technical solution adopted by this utility model is as follows:
[0009] A glazing device for art ceramics includes a stirring chamber and a glazing chamber. The bottoms of the stirring chamber and the glazing chamber are connected to a base. A speed-regulating motor is installed inside the stirring chamber, and a stirring paddle is connected to the motor through a baffle. A feed inlet is located at the top of the stirring chamber. A waterproof tank is located on the top side of one side of the stirring chamber's interior surface. A booster pump is installed inside the waterproof tank. The bottom of the booster pump is connected to the bottom of the stirring chamber via a water pipe that passes through the waterproof tank. An annular pipe is located on one side of the glazing chamber's interior surface. The annular pipe is connected to the booster pump via a water pipe, and a nozzle is installed on the surface of the annular pipe. A rotating gimbal is located at the bottom center of the unit. The rotating gimbal is connected to a mounting plate via a rotating shaft. A glazing platform is connected to the top of the mounting plate. A vacuum generator is located inside the glazing platform. A vacuum suction cup is connected to the top of the vacuum generator through the glazing platform. A fixing frame is located at the top of the glazing chamber. A drying lamp is located inside the fixing frame. A glass lampshade is located around the drying lamp. A partition is located below the glass lampshade. Teeth are provided on both sides of the partition. A gear is provided on one side of the teeth to mesh with it. A limiting block is provided inside the fixing frame. A limiting groove that matches the limiting block is provided at the bottom of the partition.
[0010] Furthermore, a control panel is provided on the top of the mixing chamber.
[0011] Furthermore, a handle is provided on one side of the partition.
[0012] Furthermore, a fixing clamp is provided on the horizontal part of the annular tube, and a support frame is connected to the bottom of the fixing clamp. The other end of the support frame is connected to the internal surface of the glaze chamber by a fixing bolt.
[0013] Furthermore, a slot is provided on one side of the base.
[0014] Furthermore, the rotating gimbal, the mounting plate and the glazing table are all provided with ventilation openings.
[0015] (III) Beneficial Effects
[0016] Compared with the prior art, this utility model provides a glazing device for art ceramic products, which has the following beneficial effects:
[0017] (1) This utility model adopts a spraying method for glazing ceramics. First, the bottom of the ceramic is placed on a vacuum suction cup. The vacuum generator is started using the control panel, which causes the vacuum suction cup to adhere to the bottom of the ceramic. This method does not block the spraying surface and reduces the post-processing steps. Then, the booster pump is started using the control panel to deliver liquid ceramic glaze to the annular tube. The glaze is then sprayed onto the ceramic through nozzles on the surface of the annular tube to achieve the glazing effect. At the same time, the rotating gimbal is started using the control panel to rotate the ceramic so that each side can be sprayed. This method saves manpower and has excellent results. During the spraying process, water droplets will condense at the bottom of the partition. However, the bottom of the partition is lower in the middle and higher on both sides. The water droplets generated during spraying will slide to both sides due to gravity, preventing them from dripping onto the ceramic and thus avoiding a reduction in glazing quality. After spraying, the booster pump is turned off using the control panel, and the partition inside the fixing frame is pulled out. The partition has teeth on both sides, and a gear on one side of the teeth meshes with them. The gear serves to fix the partition and determine its movement path. The bottom of the partition also has a limiting groove that matches the limiting block on the surface of the fixing frame. The limiting groove further fixes and determines the movement path of the partition. After pulling out the partition, the drying lamp is activated using the control panel to dry the sprayed ceramic, causing the ceramic glaze on its surface to solidify. This makes it easy to remove the ceramic and eliminates the need for subsequent air drying, saving manpower and time.
[0018] (2) This utility model adopts a mixing chamber to mix ceramic glaze. The ceramic glaze raw material is put into the feed port of the mixing chamber, an appropriate amount of water is poured in, and the speed-regulating motor is started using the control panel to mix the raw material, thus completing the production of ceramic glaze and realizing the material preparation function. The base at the bottom of the mixing chamber and the glazing chamber is equipped with fixing bolts around the ground to improve the stability of the device. A slot is provided on one side of the base, and the forks of the forklift can be inserted into it when moving, so that the device can be lifted and moved. Overall, the material preparation function and the effect of convenient movement are realized. Attached Figure Description
[0019] To more clearly illustrate the technical solutions in the embodiments of this utility model or the prior art, the drawings used in the embodiments will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.
[0020] Figure 1 This is a schematic diagram of the structure of a glazing device for art ceramic products proposed in this utility model;
[0021] Figure 2 This is a schematic diagram of the connection structure between the partition and the fixing frame of this utility model;
[0022] Figure 3 This is a schematic diagram of the partition of this utility model;
[0023] Figure 4 This is a structural schematic diagram of the base of this utility model.
[0024] In the picture:
[0025] 1. Base; 2. Speed-regulating motor; 3. Stirring paddle; 4. Stirring chamber; 5. Waterproof tank; 6. Booster pump; 7. Feed inlet; 8. Glazing chamber; 9. Gear; 10. Tooth; 11. Drying lamp; 12. Glass lampshade; 13. Partition; 14. Limiting block; 15. Limiting groove; 16. Fixing frame; 17. Annular tube; 18. Nozzle; 19. Fixing clamp; 20. Support frame; 21. Vacuum suction cup; 22. Glazing table; 23. Vacuum generator; 24. Mounting plate; 25. Rotating gimbal; 26. Slot. Detailed Implementation
[0026] To further illustrate the various embodiments, the present invention provides accompanying drawings, which are part of the disclosure of the present invention. These drawings are mainly used to illustrate the embodiments and can be used in conjunction with the relevant descriptions in the specification to explain the operating principles of the embodiments. With reference to these contents, those skilled in the art should be able to understand other possible implementation methods and the advantages of the present invention. The components in the figures are not drawn to scale, and similar component symbols are usually used to represent similar components.
[0027] According to an embodiment of the present invention, a glazing device for art ceramic products is provided.
[0028] The present invention will now be further described in conjunction with the accompanying drawings and specific embodiments, such as... Figure 1-4As shown, a glazing device for art ceramic products according to an embodiment of the present invention includes a stirring chamber 4 and a glazing chamber 8. The bottoms of the stirring chamber 4 and the glazing chamber 8 are connected to a base 1. A speed-regulating motor 2 is installed inside the stirring chamber 4. The speed-regulating motor 2 passes through a baffle and is connected to a stirring paddle 3. A feed inlet 7 is provided at the top of the stirring chamber 4. A waterproof tank 5 is provided on the top of one side of the inner surface of the stirring chamber 4. A booster pump 6 is provided inside the waterproof tank 5. The bottom of the booster pump 6 is connected to the bottom of the stirring chamber 4 through a water pipe. An annular pipe 17 is provided on one side of the inner surface of the glazing chamber 8. The annular pipe 17 is connected to the booster pump 6 through a water pipe. A nozzle 18 is provided on the surface of the annular pipe 17. The bottom of the glazing chamber 8 is... A rotating gimbal 25 is located in the middle. The rotating gimbal 25 is connected to the mounting plate 24 via a rotating shaft. The top of the mounting plate 24 is connected to the glazing platform 22. The glazing platform 22 is equipped with a vacuum generator 23. The top of the vacuum generator 23 passes through the glazing platform 22 and is connected to a vacuum suction cup 21. The top of the glazing chamber 8 is equipped with a fixing frame 16. The fixing frame 16 is equipped with a drying lamp 11. The drying lamp 11 is surrounded by a glass lamp cover 12. The glass lamp cover 12 is equipped with a partition 13 below it. The partition 13 is equipped with teeth 10 on both sides. One side of the teeth 10 is equipped with a gear 9 that meshes with it. The fixing frame 16 is equipped with a limiting block 14. The bottom of the partition 13 is equipped with a limiting groove 15 that matches the limiting block 14.
[0029] In one embodiment, the top of the stirring chamber 4 is equipped with a control panel, the output of which is connected to the input of the speed regulating motor 2, the booster pump 6, the drying lamp 11, the vacuum generator 23, and the rotating gimbal 25.
[0030] In one embodiment, a handle is provided on one side of the partition 13, which employees can use to pull out the partition 13.
[0031] In one embodiment, a fixing clamp 19 is provided at the horizontal part of the annular tube 17. A support frame 20 is connected to the bottom of the fixing clamp 19. The other end of the support frame 20 is connected to the inner surface of the glaze chamber 8 by a fixing bolt. The fixing clamp 19 and the support frame 20 provide support for the annular tube 17.
[0032] In one embodiment, a slot 26 is provided on one side of the base 1, which can engage forklift forks.
[0033] In one embodiment, the connection points of the rotating gimbal 25, the mounting plate 24, and the glazing table 22 are all provided with ventilation openings to dissipate heat and provide ventilation for the interior of the rotating gimbal 25 and the glazing table 22.
[0034] Working principle:
[0035] First, the ceramic glaze raw material is put into the feed inlet 7 of the mixing chamber 4, and an appropriate amount of water is added. The speed-regulating motor 2 is started using the control panel to stir and mix the raw material, thus completing the ceramic glaze production. Next, the bottom of the ceramic is placed on the vacuum suction cup 21. The vacuum generator 23 is started using the control panel to allow the vacuum suction cup 21 to adhere to the bottom of the ceramic. Then, the booster pump 6 is started using the control panel to deliver liquid ceramic glaze to the annular tube 17. The glaze is then sprayed onto the ceramic through the nozzles 18 on the surface of the annular tube 17, achieving the glazing effect. Simultaneously, the rotating gimbal 25 is started using the control panel to rotate the ceramic, ensuring that each surface is sprayed. This method saves manpower and has excellent results. After spraying, the booster pump 6 is turned off using the control panel, and the internal components of the fixing frame 16 are pulled out. The partition 13 has teeth 10 on both sides, and a gear 9 meshing with the teeth 10 on one side. The gear 9 serves to fix the partition 13 and determine the movement path of the partition 13. The bottom of the partition 13 also has a limiting groove 15 that matches the limiting block 14 on the surface of the fixing frame 16. The limiting groove 15 further fixes and determines the movement path of the partition 13. After the partition 13 is pulled out, the drying lamp 11 is activated using the control panel to dry the sprayed ceramic and solidify the ceramic glaze on its surface. The base 1 at the bottom of the mixing chamber 4 and the glazing chamber 8 is fixed to the ground with fixing bolts on all four sides to improve the stability of the device. A slot 26 is provided on one side of the base 1, into which the forks of a forklift can be inserted to lift and move the device.
[0036] It should be noted that the model and specifications of the control panel, speed-regulating motor 2, booster pump 6, drying lamp 11, vacuum suction cup 21, vacuum generator 23 and rotating gimbal 25 need to be selected and determined according to the actual specifications of the device. The specific selection calculation method adopts the existing technology in this field, so it will not be described in detail.
[0037] The power supply and operating principles of the control panel, speed-regulating motor 2, booster pump 6, drying lamp 11, vacuum generator 23, and rotating gimbal 25 are clear to those skilled in the art and will not be described in detail here.
[0038] In this utility model, unless otherwise explicitly specified and limited, the terms "installation", "setting", "connection", "fixing", "screw connection", etc., should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral part; they can refer to a mechanical connection or an electrical connection; they can refer to a direct connection or an indirect connection through an intermediate medium; they can refer to the internal connection of two components or the interaction between two components. Unless otherwise explicitly limited, those skilled in the art can understand the specific meaning of the above terms in this utility model according to the specific circumstances.
[0039] The above description is only a preferred embodiment of the present utility model and is not intended to limit the present utility model. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present utility model should be included within the protection scope of the present utility model.
Claims
1. A glazing apparatus for art ceramic products, comprising a stirring chamber (4) and a glazing chamber (8), characterized in that, The bottom of the mixing chamber (4) and the glazing chamber (8) are connected to the base (1). The mixing chamber (4) is equipped with a speed-regulating motor (2). The speed-regulating motor (2) is connected to the stirring paddle (3) through the baffle. The top of the mixing chamber (4) is equipped with a feed inlet (7). A waterproof box (5) is provided on the top of one side of the inner surface of the mixing chamber (4). A booster pump (6) is provided inside the waterproof box (5). The bottom of the booster pump (6) is connected to the bottom of the mixing chamber (4) through a water pipe. An annular pipe (17) is provided on one side of the inner surface of the glazing chamber (8). The annular pipe (17) is connected to the booster pump (6) through a water pipe. A nozzle (18) is provided on the surface of the annular pipe (17). A rotating gimbal (25) is provided at the middle of the bottom of the glazing chamber (8). The mounting plate (24) is connected by a rotating shaft. The top of the mounting plate (24) is connected to a glazing platform (22). The glazing platform (22) is equipped with a vacuum generator (23). The top of the vacuum generator (23) passes through the glazing platform (22) and is connected to a vacuum suction cup (21). The top of the glazing chamber (8) is equipped with a fixed frame (16). The fixed frame (16) is equipped with a drying lamp (11). The drying lamp (11) is equipped with a glass lamp cover (12) around it. The glass lamp cover (12) is equipped with a partition (13) below it. The partition (13) is equipped with teeth (10) on both sides. The teeth (10) are equipped with a gear (9) meshing with them on one side. The fixed frame (16) is equipped with a limiting block (14). The bottom of the partition (13) is equipped with a limiting groove (15) that matches the limiting block (14).
2. The glazing device for art ceramic products according to claim 1, characterized in that, The mixing chamber (4) is equipped with a control panel on top.
3. The glazing device for art ceramic products according to claim 1, characterized in that, A handle is provided on one side of the partition (13).
4. The glazing device for art ceramic products according to claim 1, characterized in that, The annular tube (17) is provided with a fixing clamp (19) at the horizontal part. The bottom of the fixing clamp (19) is connected to a support frame (20). The other end of the support frame (20) is connected to the inner surface of the glaze chamber (8) by a fixing bolt.
5. The glazing device for art ceramic products according to claim 1, characterized in that, The base (1) has a slot (26) on one side.
6. The glazing device for art ceramic products according to claim 1, characterized in that, Ventilation openings are provided at the connection points of the rotating gimbal (25), the mounting plate (24), and the glazing platform (22).