A ceramic tube sintering apparatus
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHANDONG XIANGFENG NEW MATERIAL TECH CO LTD
- Filing Date
- 2025-08-14
- Publication Date
- 2026-06-26
Smart Images

Figure CN224415710U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of ceramic tube production technology, and in particular to a ceramic tube sintering device. Background Technology
[0002] Ceramic pipe, also known as corundum ceramic-lined wear-resistant composite pipe, is a type of ceramic composite steel pipe. Ceramic sintering is the general term for the densification process and phenomenon of the green body at high temperature. After the ceramic pipe is made into a green body, it needs to be placed in a sintering device for sintering.
[0003] Chinese Patent No. CN220818543U discloses a ceramic tube sintering device, including a base and a sintering box. A sliding door is installed on the side wall of the sintering box. A fixing plate and a vertical plate are fixedly installed on the top of the base. Multiple cooling plates are fixedly installed on the front side wall of the vertical plate. A placement mechanism is provided on the side wall of the fixing plate, extending into the sintering box and sliding within it. Two limiting plates are fixedly installed on the front side wall of the vertical plate, and a blocking mechanism is slidably connected between the two limiting plates. A sliding groove is formed on the front side wall of the vertical plate, and a fixing mechanism is provided within the sliding groove. This utility model has a reasonable structural design. After the ceramic tubes are sintered, it can automatically remove all the ceramic tubes from the placement rack at once for cooling. While the ceramic tubes are cooling, the next batch of ceramic tubes can be sintered, reducing the workload of operators and improving work efficiency.
[0004] The existing ceramic tube sintering equipment relies on natural cooling for the drying plate. However, if the natural cooling time is too long, it may affect the loading and unloading rhythm of subsequent batches. In addition, the drying plate is not equipped with a partition or fixing structure, and the ceramic tubes may roll and collide during placement, resulting in damage and reducing the effectiveness of the ceramic tube sintering equipment. Utility Model Content
[0005] To address the problems existing in the background technology, a ceramic tube sintering apparatus is proposed.
[0006] This utility model proposes a ceramic tube sintering device, including: a base, a drying component, a blowing component, and a sintering component;
[0007] A groove is provided at one end of the base;
[0008] The drying assembly is attached to one end of the base.
[0009] The drying assembly includes a drying box, connecting plate, movable parts, clamping plate, drying board, and clamping parts;
[0010] The drying box is connected to the base. Openings are provided on both sides of the top of the drying box. A connecting plate is connected to the top of the drying box and a moving part is connected to the connecting plate. A clamping plate is connected to the inner wall of the drying box. There are two sets of clamping parts, and the two sets of clamping parts are connected to both sides of the inner wall of the drying box.
[0011] The blower is attached to the drying assembly and connected to the base;
[0012] The blower unit includes fan a and fan b;
[0013] Fan a is connected to the bottom of the connecting plate, and fan b is connected to the groove, with the blowing ends of both fan a and fan b facing the opening;
[0014] The sintered component is connected to the other end above the base.
[0015] Preferably, the moving part includes a support plate, an electric push rod a, a moving block, and a vertical rod a;
[0016] The support plate is connected to the outer wall of the connecting plate. The support plate is connected to the electric push rod a. The drive end of the electric push rod a is connected to the moving block. The moving block is connected to the vertical rod a. The vertical rod a passes through the elongated through hole a and is set on one side of the inner wall of the drying box. One side of the vertical rod a is connected to the clamping plate and the drying plate. The clamping plate is located above the drying plate.
[0017] Preferably, the two sets of clamping components each include a clamping plate, a support frame, a vertical rod b, and an electric push rod b;
[0018] The clamp is connected to one side of the support frame, the support frame is connected to the vertical rod b, and the vertical rod b passes through the elongated through hole b and is connected to the drive end of the electric push rod b;
[0019] The clamp is connected to the inner wall of the drying box, and elongated through holes b and a are provided on the drying box.
[0020] Preferably, the electric push rod b is connected to the fixed plate b, and the fixed plate b is set on the base.
[0021] Preferably, the sintering assembly includes a sintering box, a placement plate, a mounting plate, and a sliding door;
[0022] The sintering box is connected to the base, the inner wall of the sintering box is connected to the placement plate, and the placement plate is connected to the mounting plate;
[0023] The sliding door is connected to one side of the sintering box.
[0024] Preferably, one side of the mounting plate is connected to the drive end of the electric push rod c, the electric push rod c is connected to the fixed plate a, and the fixed plate a is connected to the base.
[0025] Compared with the prior art, the present invention has the following beneficial technical effects:
[0026] This invention features openings on both the top and bottom sides of a drying box. A fan (a) is connected to the top of the drying box via a connecting plate, and a fan (b) is connected to the base via a groove. Fans a and b, through the openings on the top and bottom sides, allow for airflow to the sintered ceramic tubes within the drying box, conveniently reducing the cooling time of the ceramic tubes and mitigating the impact on the handling rhythm of subsequent batches due to prolonged cooling. A clamping device holds the ceramic tubes as they are moved from the sintering box, and then the drying plate moves downwards to support the bottom of the ceramic tubes, preventing rolling and collisions during placement, thus conveniently reducing damage to the ceramic tubes and improving the overall effectiveness of the ceramic tube sintering device. Attached Figure Description
[0027] Figure 1 This is a schematic diagram of the overall structure of this utility model;
[0028] Figure 2 This is a schematic diagram of the drying component structure in this utility model;
[0029] Figure 3 This is a schematic diagram of the drying board structure in this utility model;
[0030] Figure 4 This is a schematic diagram of the blower component structure in this utility model;
[0031] Figure 5 This is a schematic diagram of the clamping component structure in this utility model;
[0032] Figure 6 This is a schematic diagram of the placement plate structure in this utility model.
[0033] Reference numerals in the attached drawings: 1. Base; 2. Drying box; 201. Connecting plate; 202. Support plate; 203. Electric push rod a; 204. Moving block; 205. Vertical rod a; 206. Clamping plate; 207. Drying board; 208. Clamping plate; 209. Support frame; 210. Vertical rod b; 211. Electric push rod b; 3. Fan a; 301. Fan b; 4. Sintering box; 401. Placement plate; 402. Mounting plate; 5. Sliding door; 6. Electric push rod c; 7. Fixing plate a. Detailed Implementation
[0034] The specific embodiments of this disclosure will be described in detail below with reference to the accompanying drawings. It should be understood that the specific embodiments described herein are for illustration and explanation only and are not intended to limit this disclosure.
[0035] Example 1
[0036] like Figure 1 - Figure 6As shown, this utility model proposes a ceramic tube sintering device, comprising: a base 1, a drying assembly, a blowing component, and a sintering assembly; a groove is provided at one end of the base 1; the drying assembly is connected to the upper end of the base 1; the drying assembly includes a drying box 2, a connecting plate 201, a moving component, a clamping plate 206, a drying plate 207, and a clamping component; the drying box 2 is connected to the base 1, and openings are provided on both sides of the upper part of the drying box 2; the connecting plate 201 is connected to the upper part of the drying box 2, and the connecting plate 206... The connecting movable component 01 and the clamping plate 206 are connected to the inner wall of the drying box 2. Two sets of clamping components are provided, and the two sets of clamping components are connected to both sides of the inner wall of the drying box 2. The blowing component is connected to the drying assembly and to the base 1. The blowing component includes fan a3 and fan b301. Fan a3 is connected below the connecting plate 201, and fan b301 is connected in the groove, with the blowing ends of fan a3 and fan b301 facing the opening. The sintering assembly is connected to the other end above the base 1. After the sintered ceramic tube is moved into the drying box 2, it is blown by fan a3 and fan b301 to facilitate the cooling of the ceramic tube and reduce the use of air, thereby improving the practicality of the ceramic tube sintering device.
[0037] Further explanation: The movable component includes a support plate 202, an electric push rod a203, a moving block 204, and a vertical rod a205. The support plate 202 is connected to the outer wall of the connecting plate 201. The support plate 202 is connected to the electric push rod a203. The drive end of the electric push rod a203 is connected to the moving block 204. The moving block 204 is connected to the vertical rod a205. The vertical rod a205 passes through an elongated through-hole a and is located on one side of the inner wall of the drying box 2. One side of the vertical rod a205 is connected to a clamping plate 206 and a drying board 207. The clamping plate 206 is located above the drying board 207. The length of the elongated opening a is greater than that of the vertical rod a205, allowing the vertical rod a205 to move upward via the electric push rod a203, facilitating the connection and cooperation of the movable component components.
[0038] Further explanation: The two sets of clamping components include a clamping plate 208, a support frame 209, a vertical rod b210, and an electric push rod b211, respectively. The clamping plate 208 is connected to one side of the support frame 209, which is connected to the vertical rod b210. The vertical rod b210 passes through an elongated through hole b and is connected to the drive end of the electric push rod b211. The clamping plate 208 is connected to the inner wall of the drying box 2, and elongated through holes b and a are provided on the drying box 2. A certain distance is left between the two sets of clamping components and the drying plate 207, allowing the drying plate 207 to move upward and contact the bottom end of the ceramic tube, thus supporting the ceramic tube and placing it on the drying plate 207 for cooling. At the same time, it facilitates the movement of the clamping components toward the ceramic tube, making it easy to clamp and use the ceramic tube. The components of the drying assembly are made of high-temperature resistant materials, which conveniently improves the practicality of the components of the drying assembly.
[0039] Example 2
[0040] like Figure 1 and Figure 6As shown, the ceramic tube sintering device proposed in this utility model, based on the above embodiments, further details the specific components of the sintering assembly and their arrangement.
[0041] Further explanation: The sintering assembly includes a sintering box 4, a placement plate 401, a mounting plate 402, and a sliding door 5. The sintering box 4 is connected to the base 1, and the inner wall of the sintering box 4 is connected to the placement plate 401, which in turn is connected to the mounting plate 402. The sliding door 5 is connected to one side of the sintering box 4. One side of the mounting plate 402 is connected to the drive end of an electric push rod c6, which is connected to a fixed plate a7, which is connected to the base 1. The electric push rod c6 is connected to the control system and power supply via a power cord. Simultaneously, electric push rods a203 and b211 are also connected to the control system and power supply via power cords. When the electric push rod c6 is activated, it moves the mounting plate 402, which in turn moves the placement plate 401, facilitating the placement of ceramic tubes for sintering and improving the practicality of ceramic tube sintering operations.
[0042] The working principle of this utility model is as follows: When using the ceramic tube sintering device, the operator opens the sliding door 5, controls the electric push rod c6 to move the placement plate 401 on the mounting plate 402, so that it moves out of the sintering box 4. Then, the ceramic tubes to be processed are placed on the placement plate 401 in sequence. The electric push rod c6 is controlled to move the placement plate 401 on the mounting plate 402, so that it moves into the sintering box 4. The electric push rod c6 is closed, the sliding door 5 is closed, and the sintering box 4 is started to sinter the ceramic tubes. After sintering is completed, the sintering box 4 is closed, the sliding door 5 is opened, and the electric push rod c6 is operated to move the placement plate 401 on the mounting plate 402, so that the ceramic tubes placed on the placement plate 401 move out. One end of the placement plate 401 moves and is stuck in the clamping plate 206. The electric push rod c6 is closed, and the electric push rod b211 is operated to move the support frame 209 on the vertical rod b210. The support frame 209 moves the clamping plate 208 toward the ceramic tube, so that the two sets of All clamping plates 208 move toward the ceramic tube to clamp it. The electric push rod b211 is closed, and then the electric push rod c6 is controlled to move the placement plate 401 on the mounting plate 402 out of the drying box 2. The electric push rod a203 is operated to move the vertical rod a205 on the moving block 204 upwards. The movement of the vertical rod a205 causes the drying plate 207 to move downwards, so that the upper surface of the drying plate 207 contacts the bottom end of the ceramic tube, thus supporting the ceramic tube. The electric push rod b211 is then operated. 11. Move and reset the support frame 209 and clamping plate 208 on the vertical rod b210. Start the fan a3 and fan b301 so that the airflow from the fan a3 and fan b301 blows into the drying box 2 through the openings at the top and bottom. The drying board 207 is provided with through holes so that the airflow can fully cool the ceramic tube on the drying board 207. After cooling is completed, turn off the fan a3 and fan b301. The staff can then remove the ceramic tube on the drying board 207.
[0043] The embodiments of the present invention have been described in detail above with reference to the accompanying drawings. However, the present invention is not limited thereto. Various changes can be made within the scope of knowledge possessed by those skilled in the art without departing from the spirit of the present invention.
Claims
1. A ceramic tube sintering apparatus, characterized in that, include: Base (1); A groove is provided at one end of the base (1); The drying assembly is attached to one end of the base (1); The drying assembly includes a drying box (2), a connecting plate (201), a movable component, a clamping plate (206), a drying board (207), and clamping components; The drying box (2) is connected to the base (1). Openings are provided on both sides of the top of the drying box (2). The connecting plate (201) is connected to the top of the drying box (2). The connecting plate (201) is connected to the moving part. The clamping plate (206) is connected to the inner wall of the drying box (2). There are two sets of clamping parts. The two sets of clamping parts are connected to both sides of the inner wall of the drying box (2). A blower is attached to the drying assembly and connected to the base (1); The blower includes fan a (3) and fan b (301); Fan a (3) is connected to the bottom of the connecting plate (201), and fan b (301) is connected to the groove. The blowing ends of both fan a (3) and fan b (301) are opposite to the opening. And a sintering component, connected to the other end above the base (1).
2. The ceramic tube sintering apparatus according to claim 1, characterized in that, The movable components include a support plate (202), an electric push rod a (203), a movable block (204), and a vertical rod a (205); The support plate (202) is connected to the outer wall of the connecting plate (201). The support plate (202) is connected to the electric push rod a (203). The driving end of the electric push rod a (203) is connected to the moving block (204). The moving block (204) is connected to the vertical rod a (205). The vertical rod a (205) passes through the elongated through hole a and is set on one side of the inner wall of the drying box (2). One side of the vertical rod a (205) is connected to the clamping plate (206) and the drying plate (207). The clamping plate (206) is located above the drying plate (207).
3. The ceramic tube sintering apparatus according to claim 2, characterized in that, The two sets of clamping components include a clamping plate (208), a support frame (209), a vertical rod b (210), and an electric push rod b (211); The clamp (208) is connected to one side of the support frame (209), the support frame (209) is connected to the vertical rod b (210), and the vertical rod b (210) passes through the elongated through hole b and is connected to the drive end of the electric push rod b (211); The clamp (208) is connected to the inner wall of the drying box (2), and the elongated through hole b and elongated through hole a are set on the drying box (2).
4. The ceramic tube sintering apparatus according to claim 3, characterized in that, The electric push rod b (211) is connected to the fixed plate b, which is set on the base (1).
5. A ceramic tube sintering apparatus according to claim 4, characterized in that, The sintering assembly includes a sintering box (4), a placement plate (401), a mounting plate (402), and a sliding door (5); The sintering box (4) is connected to the base (1), and the inner wall of the sintering box (4) is connected to the placement plate (401). The placement plate (401) is connected to the mounting plate (402). The sliding door (5) is connected to one side of the sintering box (4).
6. The ceramic tube sintering apparatus according to claim 5, characterized in that, The mounting plate (402) is connected to the drive end of the electric push rod c (6) on one side. The electric push rod c (6) is connected to the fixed plate a (7), and the fixed plate a (7) is connected to the base (1).