A rapid drying device for ceramic tableware
By using a combination of belt conveyors and upper and lower hot air blowers in the ceramic tableware drying device, the problems of easy damage to the ceramic body and inaccurate temperature control are solved, achieving automated continuous production and precise temperature control for the drying of ceramic tableware.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- HUAIREN SHENGRUI CERAMICS CO LTD
- Filing Date
- 2025-05-13
- Publication Date
- 2026-06-23
AI Technical Summary
Existing ceramic tableware drying equipment suffers from problems such as easy damage to the body, inaccurate hot air temperature control, and inability to achieve automated continuous production.
The system uses a belt conveyor combined with upper and lower hot air blowers and exhaust fans. The ceramic tableware is thoroughly dried on both sides through the through holes in the belt conveyor and the hot air blower. Automated and continuous production is achieved through precise temperature control.
It achieves thorough drying and precise temperature control of ceramic tableware, reduces the risk of damage to the ceramic body, and supports automated continuous production.
Smart Images

Figure CN224398237U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of ceramic manufacturing technology, and in particular to a rapid drying device for ceramic tableware. Background Technology
[0002] Even today, ceramics remain a popular material, for example, in the manufacture of ceramic tableware. The manufacturing process generally includes several steps: body making, body drying, glazing, and glaze drying. Body drying requires batches of ceramic pieces to be sent to a drying room for drying. Glaze drying requires the glazed ceramic pieces to be sent to a drying room for drying. Therefore, before being sent to the drying room, the manufactured or glazed ceramic pieces need to be placed on drying racks, and then the drying racks are pushed into the drying room for drying.
[0003] Using a drying chamber has several disadvantages. First, the process of loading the tires onto the drying rack increases the risk of damage from impacts or pressure; for example, indentations may be left on the tire surface due to clamps or human hands. Second, with tires stacked in several layers on the drying rack, the hot air blows across different layers, and the distance between each layer and the hot air source varies, resulting in different temperatures for each layer. It is difficult to achieve true temperature control for each individual tire. Third, current trends across industries favor automated and continuous production. Drying in a drying chamber is essentially a batch-by-batch, intermittent operation, which contradicts this trend towards automation and continuous production.
[0004] This invention aims to provide a rapid drying device for ceramic tableware, which can achieve thorough drying, precise temperature control, and facilitate automated continuous production. Utility Model Content
[0005] This invention aims to provide a rapid drying device for ceramic tableware, which can achieve thorough drying, precise temperature control, and facilitate automated continuous production.
[0006] This utility model provides a rapid drying device for ceramic tableware, comprising: a belt conveyor with multiple through holes on the belt of the belt conveyor; a first hot air blower and a second hot air blower, the first hot air blower being located at the upper part of the belt conveyor and the second hot air blower being located at the lower part of the belt conveyor.
[0007] Furthermore, multiple raised strips are provided on the belt of the belt conveyor, and through holes are provided between different raised strips.
[0008] Furthermore, multiple protrusions are provided on the belt of the belt conveyor, and through holes are provided between different protrusions.
[0009] Furthermore, a cushioning material is provided on the top of the protruding strip or protruding post.
[0010] Furthermore, at a certain location on the belt conveyor, a first hot air fan is installed at the upper part of the belt conveyor, and a second hot air fan is installed at the lower part of the belt conveyor.
[0011] Furthermore, a first exhaust fan is installed above the first hot air blower, and a second exhaust fan is installed below the second hot air blower.
[0012] Furthermore, a plurality of first hot air fans are provided at the upper part of the belt conveyor, and a plurality of second hot air fans are provided at the lower part of the belt conveyor.
[0013] The rapid drying device for ceramic tableware provided by this utility model achieves thorough drying of both the top and bottom surfaces of ceramic tableware through through holes in the belt conveyor and a first and second hot air blower; the first and second hot air blowers directly face each ceramic tableware to achieve precise temperature control; and the drying can be completed by conveying through the belt conveyor, realizing automated and continuous production. Attached Figure Description
[0014] Figure 1 The diagram shown is a structural schematic of a rapid drying device for ceramic tableware according to the first embodiment of this utility model.
[0015] Figure 2 As shown Figure 1 A top view of the belt conveyor in the illustrated embodiment.
[0016] Figure 3 As shown Figure 1 A side view of the belt surface in the illustrated embodiment.
[0017] Figure 4 The image shown is a top view of the belt conveyor in the second embodiment of this utility model.
[0018] Figure 5 The diagram shown is a structural schematic of another embodiment of the present invention.
[0019] Figure label:
[0020] 1: Carcass; 2: Belt conveyor; 21: Belt; 211: Raised bar; 212: Through hole; 213: Raised post;
[0021] 31: First hot air blower; 32: Second hot air blower; 41: First exhaust fan; 42: Second exhaust fan. Detailed Implementation
[0022] To provide a better understanding of the purpose, structure, features, and functions of this utility model, detailed descriptions are provided below with reference to specific embodiments.
[0023] Figure 1 The diagram shown is a structural schematic of a rapid drying device for ceramic tableware according to the first embodiment of this utility model. Figure 2 As shown Figure 1 A top view of the belt conveyor in the illustrated embodiment. Figure 3 As shown Figure 1 A side view of the belt surface in the illustrated embodiment. Figure 4 The image shown is a top view of the belt conveyor in the second embodiment of this utility model. Figure 5 The diagram shown is a structural schematic of another embodiment of the present invention.
[0024] like Figure 1 and Figure 2 As shown, this embodiment of the present invention provides a rapid drying device for ceramic tableware, comprising: a belt conveyor 2, wherein the belt 21 of the belt conveyor 2 is provided with multiple through holes 212 to facilitate the passage of hot air; a first hot air blower 31 and a second hot air blower 32, wherein the first hot air blower 31 is located at the upper part of the belt conveyor 2 and the second hot air blower 32 is located at the lower part of the belt conveyor 2. The first hot air blower 31 and the second hot air blower 32 can be located at the same position or different positions on the belt conveyor 2. The belt conveyor 2 is used to transport the ceramic body 1. The ceramic body 1 can be an unglazed ceramic body that needs to be dried, or a glazed ceramic body that needs to be dried. When a ceramic body 1 passes by, the first hot air blower 31 dries the ceramic body 1 from the top, and the second hot air blower 32 dries the ceramic body 1 from the bottom through the through holes 212, thereby achieving thorough drying on both sides. Furthermore, the first hot air blower 31 and the second hot air blower 32 dry only one tire carcass 1 at a time. Therefore, adjusting the first hot air blower 31 and the second hot air blower 32 allows for precise control of the drying temperature. The belt conveyor 2 transports the tire carcass 1. Once one tire carcass 1 is dried, the belt conveyor 2 can transport the next tire carcass 2 to the location of the first hot air blower 31 and the second hot air blower 32, achieving continuous transport.
[0025] Figure 5 The diagram shown is a structural schematic of another embodiment of the present invention. To further improve the continuity of the drying operation, multiple first hot air fans 31 are arranged at the upper part of the belt conveyor 2, and multiple second hot air fans 32 are arranged at the lower part of the belt conveyor 2. This allows the tire body 1 to be continuously dried at multiple locations, improving the continuity of the drying operation and reducing intermittent operation. The same or different hot air temperatures can be set in different first hot air fans 31 and second hot air fans 32 to improve the drying effect. Furthermore, as... Figure 1 and Figure 5As shown, a first exhaust fan 41 is provided above the first hot air blower 31, and a second exhaust fan 42 is provided below the second hot air blower 32. The hot air blown out by the first hot air blower 31 and the second hot air blower 32 is drawn out to draw out the air containing water vapor.
[0026] Figure 2 As shown Figure 1 A top view of the belt conveyor in the illustrated embodiment. Figure 3 As shown Figure 1 A side view of the belt surface in the illustrated embodiment. Figure 4 The image shown is a top view of the belt conveyor in the second embodiment of this utility model.
[0027] Furthermore, such as Figure 2 and Figure 3 As shown, multiple protrusions 211 are provided on the belt 21 of the belt conveyor 2, and through holes 212 are arranged between different protrusions 211, which reduces the contact area between the tire body 1 and the belt 21 and improves ventilation at the bottom of the tire body 1. Furthermore, as... Figure 4 As shown, multiple protrusions 213 are provided on the belt 21 of the belt conveyor 2, and through holes 212 are provided between different protrusions 213, which further reduces the contact area between the tire body 1 and the belt 21 and improves ventilation at the bottom of the tire body 1. Furthermore, a cushioning material (such as rubber or sponge) is provided on the top of the protrusions 211 or protrusions 213 to cushion the part of the tire body 1 that contacts the protrusions 211 or protrusions 213 and avoid the occurrence of indentations.
[0028] The rapid drying device for ceramic tableware provided by this utility model achieves thorough drying of both the top and bottom surfaces of ceramic tableware through through holes in the belt conveyor and a first and second hot air blower; the first and second hot air blowers directly face each ceramic tableware to achieve precise temperature control; and the drying can be completed by conveying through the belt conveyor, realizing automated and continuous production.
[0029] In the description of this utility model, it should be understood that the terms "longitudinal", "transverse", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", and "outer" and their orientation or positional relationships are only for the convenience of describing this utility model and simplifying the description, and are not intended to indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation, and therefore should not be construed as a limitation of this utility model.
[0030] This utility model has been described by the above-described embodiments; however, these embodiments are merely examples for implementing this utility model. It must be noted that the disclosed embodiments do not limit the scope of this utility model. Conversely, any modifications and refinements made without departing from the spirit and scope of this utility model are within the scope of patent protection of this utility model.
Claims
1. A rapid drying device for ceramic tableware, characterized in that, include: A belt conveyor, wherein the belt of the belt conveyor is provided with multiple through holes; The first hot air blower is located at the top of the belt conveyor, and the second hot air blower is located at the bottom of the belt conveyor.
2. The rapid drying device for ceramic tableware according to claim 1, characterized in that, Multiple raised strips are provided on the belt of the belt conveyor, and through holes are provided between different raised strips.
3. The rapid drying device for ceramic tableware according to claim 1, characterized in that, Multiple protrusions are provided on the belt of the belt conveyor, and through holes are provided between different protrusions.
4. The rapid drying device for ceramic tableware according to claim 2, characterized in that, A cushioning material is provided on the top of the convex strip.
5. The rapid drying device for ceramic tableware according to claim 1, characterized in that, At a certain location on the belt conveyor, a first hot air fan is installed at the top of the belt conveyor, and a second hot air fan is installed at the bottom of the belt conveyor.
6. The rapid drying device for ceramic tableware according to claim 5, characterized in that, A first exhaust fan is installed above the first hot air blower, and a second exhaust fan is installed below the second hot air blower.
7. The rapid drying device for ceramic tableware according to claim 1, characterized in that, Multiple first hot air fans are installed at the upper part of the belt conveyor, and multiple second hot air fans are installed at the lower part of the belt conveyor.