A profile turning device for making a ceramic manufacturing stamp
By introducing an electric telescopic rod, a moving motor, and a gear meshing mechanism into the ceramic manufacturing mold-making turning device, the synchronous turning of multiple ceramic blanks is realized, solving the problem of low efficiency of existing devices and improving the turning and repair efficiency.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- HUNAN HANCAI CERAMICS CO LTD
- Filing Date
- 2025-07-29
- Publication Date
- 2026-07-14
AI Technical Summary
Existing ceramic manufacturing mold-making turning devices can only turn and repair one ceramic blank at a time, resulting in low turning and repair efficiency.
A turning device was designed, comprising a base, mounting bracket, electric telescopic rod, lifting frame, moving motor, bidirectional screw, moving plate, and cutting tool. The moving motor drives the bidirectional screw to rotate, and the rotary motor drives the gears to mesh, so that the two turntables rotate synchronously, allowing two ceramic blanks to be turned and repaired at the same time.
The efficiency of the turning device in turning and repairing ceramic blanks has been improved, and multiple ceramic blanks can be processed at the same time, thus improving the processing efficiency.
Smart Images

Figure CN224488651U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of rotary cutting device technology, specifically to a rotary cutting device for ceramic manufacturing molds. Background Technology
[0002] A rotary cutting device is a mechanical device used to process the surface of an object. It gradually removes material from the surface of the object by rotating a cutting tool, thereby changing the shape, size and surface quality of the object, removing excess material from the surface and modifying the shape in preparation for glazing and sintering.
[0003] Existing ceramic mold-making turning devices, although driven by a rotary motor to rotate a turntable and allow the ceramic blank to rotate along with it, facilitating the cutting tool to approach and turn its surface, can only turn one ceramic blank at a time because one motor can only drive one turntable. This results in low efficiency for turning and repairing ceramic blanks. Therefore, there is an urgent need for a new type of ceramic mold-making turning device to solve these problems. Utility Model Content
[0004] (a) Technical problems to be solved
[0005] The technical problem to be solved by this utility model is to provide a rotary turning device for ceramic manufacturing molds that improves the efficiency of rotary turning repair, in light of the current state of the technology.
[0006] (II) Technical Solution
[0007] This utility model is achieved through the following technical solution: This utility model proposes a rotary cutting device for ceramic manufacturing molds, including a base, a mounting frame at the top of the base, an electric telescopic rod at the top of the mounting frame, a lifting frame connected to the telescopic part of the electric telescopic rod, a moving motor on one side wall of the lifting frame, a bidirectional screw connected to the power output end of the moving motor through the lifting frame, moving plates symmetrically mounted at both ends of the bidirectional screw, threaded holes opened on the moving plates at the bidirectional screw, limit blocks symmetrically fixed at the top of the two moving plates, cutting blades arranged below the opposite side wall of the moving plates, two sets of support columns symmetrically fixed at the top of the base, a worktable mounted at the top of the support columns, a gear at the bottom of the worktable, a rotary motor connected between one gear and the base, and a connecting shaft connected between the other gear and the base.
[0008] Furthermore, a turntable is mounted on the top of each of the two gears through the workbench, and an operation panel is provided on one side wall of the mounting bracket.
[0009] Furthermore, the base is welded to the mounting frame, the mounting frame is bolted to the electric telescopic rod, the electric telescopic rod and the moving motor are both bolted to the lifting frame, and the lifting frame has a U-shaped structure.
[0010] Furthermore, the gear is bolted to the turntable, and both the turntable and the gear are rotatably connected to the worktable. The mounting bracket is bolted to the operation panel, and both the rotary motor and the moving motor are electrically connected to the operation panel.
[0011] Furthermore, the moving motor is keyed to the bidirectional screw, the threaded hole is formed on one side wall of the moving plate, and the bidirectional screw is threadedly connected to the threaded hole.
[0012] Furthermore, the movable plate is welded to the limiting block, and a sliding groove is provided at the top of the lifting frame at the limiting block. The sliding groove is slidably connected to the limiting block, and the movable plate is bolted to the cutting tool.
[0013] Furthermore, both the base and the worktable are bolted to the support column, the base is bolted to the rotary motor, and the rotary motor is connected to one of the gear keys.
[0014] Furthermore, a bearing seat is provided at the connection between the connecting shaft and the base, and another gear is bolted to the connecting shaft, with the two gears meshing together.
[0015] (III) Beneficial Effects
[0016] Compared with the prior art, this utility model has the following advantages:
[0017] This invention features a gear at the bottom of the worktable. When turning ceramic blanks for repair, the blanks are placed on two turntables. The moving motor is started to drive the bidirectional screw to rotate, causing the two moving plates to bring the cutting blades closer to the two ceramic blanks. The limiting block can limit the movement of the moving plates. Then, the rotary motor is started to drive one of the gears to rotate. The rotating gear meshes with the other gear, causing them to rotate together at the bottom of the worktable. This allows the ceramic blanks on the two turntables to rotate together, facilitating simultaneous turning and repair of two ceramic blanks, thereby improving the efficiency of the turning device in turning and repairing ceramic blanks. Attached Figure Description
[0018] Figure 1 This is a schematic diagram of the external turning device for ceramic manufacturing molds described in this utility model;
[0019] Figure 2 This is a front view of the ceramic manufacturing mold turning device described in this utility model;
[0020] Figure 3 This is a schematic diagram of the moving plate, limiting block, and cutting tool in the ceramic manufacturing mold turning device described in this utility model.
[0021] The annotations in the attached figures are explained as follows:
[0022] 1. Base; 2. Mounting bracket; 3. Electric telescopic rod; 4. Lifting frame; 5. Moving motor; 6. Two-way screw; 7. Moving plate; 8. Threaded hole; 9. Limit block; 10. Cutting blade; 11. Support column; 12. Worktable; 13. Gear; 14. Rotary motor; 15. Connecting shaft; 16. Turntable; 17. Operation panel. Detailed Implementation
[0023] To make the objectives, technical solutions, and advantages of this utility model clearer, the present utility model will be further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present utility model and are not intended to limit the present utility model.
[0024] like Figures 1-3As shown, this embodiment of a ceramic manufacturing mold-making turning device includes a base 1, a mounting frame 2 at the top of the base 1, an electric telescopic rod 3 at the top of the mounting frame 2, and a lifting frame 4 connected to the telescopic part of the electric telescopic rod 3. The base 1 can more firmly fix the mounting frame 2, and the electric telescopic rod 3 can more easily drive the lifting frame 4 to move up and down within the mounting frame 2, facilitating turning and repairing ceramic blanks at different heights. A moving motor 5 is provided on one side wall of the lifting frame 4, and the power output end of the moving motor 5 passes through the lifting frame 4 and is connected to a bidirectional screw 6. Moving plates 7 are symmetrically installed at both ends of the bidirectional screw 6. The moving plates 7 have threaded holes 8 at the bidirectional screw 6. The moving motor 5 can more easily drive the bidirectional screw 6 to rotate within the lifting frame 4, thereby driving the moving plates 7 to move relative to each other within the lifting frame 4. Limit blocks 9 are symmetrically fixed at the top of the two moving plates 7. A cutting blade 10 is provided on the lower side wall of the opposite side of the plate 7. The movable plate 7 can more firmly fix the cutting blade 10. The cutting blade 10 can more easily perform rotary repair on the surface of the ceramic blank. Two sets of support columns 11 are symmetrically fixed at the top of the base 1. A worktable 12 is installed at the top of the support column 11. A gear 13 is provided at the bottom of the worktable 12. The support column 11 can firmly fix the worktable 12 on the base 1. The base 1 can more firmly fix the rotary motor 14. The rotary motor 14 can better drive one of the gears 13 to rotate under the worktable 12. The rotary motor 14 is provided between one gear 13 and the base 1. The connecting shaft 15 is connected between the other gear 13 and the base 1. The connecting shaft 15 can more firmly fix the other gear 13, so that the two gears 13 can follow the operation of the rotary motor 14 and rotate under the worktable 12.
[0025] like Figures 1-3As shown, in this embodiment, a turntable 16 is mounted on the top of the two gears 13 through the worktable 12. An operation panel 17 is provided on one side wall of the mounting frame 2. The gears 13 can more securely fix the turntable 16. The turntable 16 can drive the ceramic blank to rotate on the worktable 12 together with the gears 13. The base 1 is welded to the mounting frame 2. The mounting frame 2 is bolted to the electric telescopic rod 3. The electric telescopic rod 3 and the moving motor 5 are both bolted to the lifting frame 4. The lifting frame 4 has a U-shaped structure. The gears 13 are bolted to the turntable 16. The turntable 16 and the gears 13 are rotatably connected to the worktable 12. The mounting frame 2 is bolted to the operation panel 17. The rotary motor 14 and the moving motor 5 are both electrically connected to the operation panel 17. The mounting frame 2 can more securely fix the operation panel 17. The operation panel 17 makes it easier for the operator to control the operation of the turning device. The moving motor 5 is connected to the bidirectional screw. The system features a 6-key connection, a threaded hole 8 formed on one side wall of the movable plate 7, a bidirectional screw 6 threadedly connected to the threaded hole 8, a movable plate 7 welded to a limiting block 9, a sliding groove at the top of the lifting frame 4 located at the limiting block 9, a sliding groove slidably connected to the limiting block 9, a movable plate 7 bolted to the cutting blade 10, and the movable plate 7 more firmly fixing the limiting block 9. The limiting block 9 and the sliding groove cooperate to limit the movement of the movable plate 7 by the lifting frame 4, preventing the movable plate 7 from rotating with the bidirectional screw 6. The base 1 and the worktable 12 are both bolted to the support column 11. The base 1 is bolted to the rotary motor 14, and the rotary motor 14 is keyed to one of the gears 13. A bearing seat is provided at the connection between the connecting shaft 15 and the base 1. The other gear 13 is bolted to the connecting shaft 15, and the two gears 13 mesh with each other. The bearing seat allows the connecting shaft 15 to rotate steadily on the base 1.
[0026] The specific implementation process of this embodiment is as follows: In use, the two ceramic blanks are first placed at the center of the two turntables 16 respectively. By setting gears 13 at the bottom of the worktable 12, when the ceramic blanks are to be spun and repaired, the ceramic blanks are placed on the two turntables 16, and the moving motor 5 is started to drive the bidirectional screw 6 to rotate, thereby causing the two moving plates 7 to drive the cutting blades 10 to approach the two ceramic blanks. The limiting block 9 can limit the movement of the moving plate 7. Then, the rotating motor 14 is started to drive one of the gears 13 to rotate. The rotation of gear 13 will mesh with the other gear 13 and rotate together at the bottom of the worktable 12, thereby driving the ceramic blanks on the two turntables 16 to rotate together, which facilitates the simultaneous spun and repair of the two ceramic blanks, thereby improving the efficiency of the spun and repair device for the ceramic blanks.
[0027] The above description of the disclosed embodiments enables those skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the general principles defined herein may be implemented in other embodiments without departing from the spirit or scope of the present invention. Therefore, the present invention is not to be limited to the embodiments shown herein, but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.
Claims
1. A profile turning device for ceramic manufacturing molds, characterized in that: The device includes a base (1), a mounting frame (2) at the top of the base (1), an electric telescopic rod (3) at the top of the mounting frame (2), a lifting frame (4) connected to the telescopic part of the electric telescopic rod (3), a moving motor (5) on one side wall of the lifting frame (4), a bidirectional screw (6) through the power output end of the moving motor (5) and symmetrically mounted on both ends of the bidirectional screw (6), and threaded holes (8) opened on the moving plates (7) at the bidirectional screw (6). Two movable plates (7) are symmetrically fixed with limiting blocks (9) at the top center. A cutting blade (10) is provided below the opposite side wall of the movable plates (7). Two sets of support columns (11) are symmetrically fixed at the top of the base (1). A worktable (12) is installed at the top of the support column (11). A gear (13) is provided at the bottom of the worktable (12). A rotary motor (14) is provided between one of the gears (13) and the base (1). A connecting shaft (15) is connected between the other gear (13) and the base (1).
2. The ceramic manufacturing mold-making profile turning device according to claim 1, characterized in that: The top ends of the two gears (13) are connected to a turntable (16) through the workbench (12), and an operation panel (17) is provided on one side wall of the mounting frame (2).
3. The ceramic manufacturing mold-making profile turning device according to claim 1, characterized in that: The base (1) is welded to the mounting frame (2), the mounting frame (2) is bolted to the electric telescopic rod (3), the electric telescopic rod (3) and the mobile motor (5) are both bolted to the lifting frame (4), and the lifting frame (4) is a U-shaped structure.
4. The ceramic manufacturing mold-making profile turning device according to claim 2, characterized in that: The gear (13) is bolted to the turntable (16), and both the turntable (16) and the gear (13) are rotatably connected to the worktable (12). The mounting frame (2) is bolted to the operation panel (17), and both the rotary motor (14) and the moving motor (5) are electrically connected to the operation panel (17).
5. The ceramic manufacturing mold-making profile turning device according to claim 1, characterized in that: The moving motor (5) is keyed to the bidirectional screw (6), the threaded hole (8) is formed on one side wall of the moving plate (7), and the bidirectional screw (6) is threaded to the threaded hole (8).
6. The ceramic manufacturing mold turning device according to claim 1, characterized in that: The movable plate (7) is welded to the limiting block (9), and the top of the lifting frame (4) is provided with a sliding groove at the limiting block (9). The sliding groove is slidably connected to the limiting block (9), and the movable plate (7) is bolted to the cutting blade (10).
7. The ceramic manufacturing mold-making profile turning device according to claim 1, characterized in that: The base (1) and the worktable (12) are both bolted to the support column (11), the base (1) is bolted to the rotary motor (14), and the rotary motor (14) is keyed to one of the gears (13).
8. The ceramic manufacturing mold-making profile turning device according to claim 1, characterized in that: A bearing seat is provided at the connection between the connecting shaft (15) and the base (1), and another gear (13) is bolted to the connecting shaft (15), and the two gears (13) are meshed together.