A forming die for processing ceramic fiber board

By introducing a demolding and cleaning device into the ceramic fiberboard molding die, the automatic demolding of the injection molded box is achieved using a hydraulic cylinder and guide rod. The combination of a surface cleaning box and blades solves the problems of inconvenient demolding and impurity cleaning, thus achieving efficient mold operation.

CN224391444UActive Publication Date: 2026-06-23ZHUMADIAN HENGRUI HIGH TEMPERATURE ENERGY SAVING MATERIAL CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ZHUMADIAN HENGRUI HIGH TEMPERATURE ENERGY SAVING MATERIAL CO LTD
Filing Date
2025-05-21
Publication Date
2026-06-23

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Abstract

The utility model discloses a kind of forming mould for ceramic fiberboard processing, it is related to ceramic fiberboard processing technical field, a kind of forming mould for ceramic fiberboard processing includes processing platform, the processing platform upper end is provided with forming box, the forming box is provided with injection moulding box, the injection moulding box upper end is provided with second support frame, the second support frame lower end is provided with mould pressing device, the injection moulding box lower end is provided with stripping device, the stripping device lower end is provided with first support frame, the mould pressing device outside is provided with cleaning device, the present scheme provides solution to the problem that stripping is inconvenient, and surface after stripping can have impurity inconvenient cleaning.
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Description

Technical Field

[0001] This utility model relates to the field of ceramic fiberboard processing technology, specifically a molding die for processing ceramic fiberboard. Background Technology

[0002] Ceramic fiberboard is a refractory material made primarily from ceramic fiber wool through vacuum forming or wet filtration and pressing processes. Its production process includes raw material preparation, pulping, forming, drying, cutting, and surface treatment. Ceramic fiberboard features low thermal conductivity, low heat capacity, high strength, high temperature resistance, corrosion resistance, thermal shock resistance, and good thermal insulation properties. It is widely used in furnace linings of industrial kilns, insulation of high-temperature pipelines, glass deep-processing molds, and thermal insulation of high-temperature equipment in industries such as petrochemicals, metallurgy, ceramics, and glass.

[0003] A molding die for ceramic fiberboard, as disclosed in announcement number CN219380990U, includes a lower die. A control component is bolted to the front surface of the lower die. An upper die is positioned on top of the lower die. A permeable mesh plate is fixedly embedded in the inner cavity of the lower die. A cavity is formed inside the lower die, located outside the permeable mesh plate, with a through hole at the center of the bottom of the cavity. This invention utilizes a small buzzer and a timer to set a reminder time according to actual processing needs. Upon reaching the set time, the buzzer automatically activates, eliminating the need for continuous operator attention or manual monitoring. Furthermore, the use of a vacuum extraction pipe, permeable mesh plate, T-junction, exhaust pipe, and transmission pipe allows for the separate fulfillment of vacuum and drying pipeline transmission requirements during product processing, depending on the opening and closing status of the solenoid valve.

[0004] The above-mentioned device is inconvenient to demold during use, and there may be impurities on the surface after demolding that are difficult to clean; therefore, we propose a molding die for processing ceramic fiberboard to solve the problems mentioned above. Utility Model Content

[0005] The purpose of this utility model is to provide a molding die for processing ceramic fiberboard, so as to solve the problems mentioned in the background art, such as the inconvenience of demolding and the difficulty in cleaning impurities on the surface after demolding.

[0006] To achieve the above objectives, this utility model provides the following technical solution: a molding die for processing ceramic fiberboard, comprising a processing table, a molding box provided at the upper end of the processing table, an injection molding box provided inside the molding box, a second support frame provided at the upper end of the injection molding box, a pressing device provided at the lower end of the second support frame, a demolding device provided at the lower end of the injection molding box, a first support frame provided at the lower end of the demolding device, and a cleaning device provided on the outside of the pressing device.

[0007] Preferably, the demolding device includes a first hydraulic cylinder, a first guide rod, and a push plate. The first hydraulic cylinder is disposed at the lower end of the push plate, the push plate is disposed at the lower end of the injection molding box, and is disposed inside the molding box. The first guide rod is provided in four sets, and is symmetrically disposed in pairs at the lower end of the push plate. The lower ends of the four sets of first guide rods all penetrate through and extend to the lower end of the first support frame. The upper ends of the first hydraulic cylinder and the first guide rods all penetrate through and extend into the molding box.

[0008] Preferably, the injection molded box includes an injection molded base plate, a movable plate, a movable groove, a connecting shaft, and a connector. The injection molded base plate is disposed on the upper end of the push plate. Movable grooves are provided around the injection molded base plate. A connecting shaft is provided in each movable groove. A connector is provided on each connecting shaft. A movable plate is provided on the other side of each connector.

[0009] Preferably, the pressing device includes a pressing plate, a second hydraulic cylinder, and a second guide rod. The second hydraulic cylinder is located at the lower end of the second support frame. The second guide rod is provided in four sets, which are symmetrically arranged in pairs around the second hydraulic cylinder. The upper ends of the four sets of second guide rods all penetrate through and extend to the upper end of the second support frame. The lower ends of the second hydraulic cylinder and the second guide rod are all located on the upper surface of the pressing plate.

[0010] Preferably, the cleaning device includes a surface cleaning box, blades, blade slots, bolt holes, and bolts. The surface cleaning box is located at the lower end of the second support frame. Each of the lower ends of the surface cleaning box has a blade slot, each blade slot has a bolt hole, each blade slot has a blade, and the front end of each blade has a bolt. The blade is bolted to the bolt hole in the surface cleaning box via the bolt.

[0011] Preferably, each of the surface cleaning boxes has a cleaning plate installed on its inner wall.

[0012] Preferably, the lower end of the processing table is provided with support legs, and there are four sets of support legs, which are symmetrically arranged in pairs at the lower end of the processing table.

[0013] Compared with the prior art, the beneficial effects of this utility model are:

[0014] (1) This utility model solves the problem of inconvenient demolding by setting four sets of movable plates around the injection box and connecting shafts in the movable grooves set on the injection base plate, so that the injection box can open naturally during the demolding process.

[0015] (2) By installing a cleaning device at the top of the injection box, the processing plate inside the injection box is sent into the cleaning device by the first hydraulic cylinder in the demolding device. The surface of the processing plate is cleaned by the blades at the bottom of the surface cleaning box in the cleaning device, and the surface of the processing plate is cleaned a second time by the cleaning plate on the inner wall of the surface cleaning box, thereby solving the problem that there may be impurities on the surface after demolding that are inconvenient to clean. Attached Figure Description

[0016] Figure 1 This is a schematic diagram of the overall structure of this utility model;

[0017] Figure 2 This is a cross-sectional view of the present invention;

[0018] Figure 3 This is an enlarged view of the cleaning device of this utility model;

[0019] Figure 4 This is an enlarged view of the injection molded box of this utility model;

[0020] In the diagram: 1. Processing table; 2. First support frame; 3. Second support frame; 4. Demolding device; 41. First hydraulic cylinder; 42. First guide rod; 43. Push plate; 5. Injection box; 51. Injection base plate; 52. Movable plate; 53. Movable groove; 54. Connecting shaft; 55. Connector; 6. Molding box; 7. Pressing device; 71. Pressing plate; 72. Second hydraulic cylinder; 73. Second guide rod; 8. Cleaning device; 81. Surface cleaning box; 82. Blade; 83. Blade groove; 84. Bolt hole; 85. Bolt; 9. Cleaning plate; 10. Support leg. Detailed Implementation

[0021] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present utility model. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments.

[0022] Please see Figure 1-4This utility model provides an embodiment of a molding die for processing ceramic fiberboard, including a processing table 1, a molding box 6 at the upper end of the processing table 1, an injection box 5 inside the molding box 6, a second support frame 3 at the upper end of the injection box 5, a pressing device 7 at the lower end of the second support frame 3, a demolding device 4 at the lower end of the injection box 5, a first support frame 2 at the lower end of the demolding device 4, and a cleaning device 8 on the outside of the pressing device 7. By setting four sets of movable plates 52 around the injection box 5, and cooperating with the connecting shaft 54 ​​in the movable groove 53 on the injection base plate 51, the injection box 5 opens naturally during demolding, thereby solving the problem of inconvenient demolding. By setting the cleaning device 8 at the upper end of the injection box 5, the processing plate inside the injection box 5 is sent into the cleaning device 8 by the first hydraulic cylinder 41 in the demolding device 4. The surface of the processing plate is cleaned by the blade 82 at the lower end of the surface cleaning box 81 in the cleaning device 8, and the surface of the processing plate is cleaned a second time by the cleaning plate 9 on the inner wall of the surface cleaning box 81, thereby solving the problem that there may be impurities on the surface after demolding that are inconvenient to clean.

[0023] Please see Figure 2 The demolding device 4 includes a first hydraulic cylinder 41, a first guide rod 42, and a push plate 43. The first hydraulic cylinder 41 is located at the lower end of the push plate 43, which is located at the lower end of the injection molding box 5 and inside the molding box 6. There are four sets of first guide rods 42, which are symmetrically arranged in pairs at the lower end of the push plate 43. The lower ends of the four sets of first guide rods 42 all penetrate and extend to the lower end of the first support frame 2. The upper ends of the first hydraulic cylinder 41 and the first guide rods 42 all penetrate and extend into the molding box 6, which serves to demold the processing plate.

[0024] Please see Figure 4 The injection molded box 5 includes an injection molded base plate 51, a movable plate 52, a movable groove 53, a connecting shaft 54, and a connector 55. The injection molded base plate 51 is located on the upper end of the push plate 43. Movable grooves 53 are provided around the injection molded base plate 51. A connecting shaft 54 ​​is provided in each of the movable grooves 53. A connector 55 is provided on each of the connecting shafts 54. A movable plate 52 is provided on the other side of each connector 55, which serves to shape the injection molded plate.

[0025] Please see Figure 2 The molding device 7 includes a molding plate 71, a second hydraulic cylinder 72, and a second guide rod 73. The second hydraulic cylinder 72 is located at the lower end of the second support frame 3. There are four sets of second guide rods 73, which are symmetrically arranged around the second hydraulic cylinder 72 in pairs. The upper ends of the four sets of second guide rods 73 all pass through and extend to the upper end of the second support frame 3. The lower ends of the second hydraulic cylinder 72 and the second guide rod 73 are all located on the upper surface of the molding plate 71, which plays the role of injection molding the processing plate.

[0026] Please see Figure 3The cleaning device 8 includes a surface cleaning box 81, blades 82, blade grooves 83, bolt holes 84, and bolts 85. The surface cleaning box 81 is located at the lower end of the second support frame 3. Each surface cleaning box 81 has a blade groove 83 at its lower end. Each blade groove 83 has a bolt hole 84. Each blade groove 83 has a blade 82. The front end of each blade 82 is provided with a bolt 85. The blade 82 is bolted to the bolt hole 84 in the surface cleaning box 81 through the bolt 85, thereby cleaning the surface of the processing plate.

[0027] Please see Figure 2 The inner wall of the surface cleaning box 81 is equipped with cleaning plates 9, which serve to further clean the surface of the processing plate.

[0028] Please see Figure 1 The lower end of the processing table 1 is provided with support legs 10. There are four sets of support legs 10, which are symmetrically arranged in pairs at the lower end of the processing table 1 to support the processing table 1.

[0029] It will be apparent to those skilled in the art that this invention is not limited to the details of the exemplary embodiments described above, and that it can be implemented in other specific forms without departing from the spirit or essential characteristics of this invention. Therefore, the embodiments should be considered illustrative and non-limiting in all respects, and the scope of this invention is defined by the appended claims rather than the foregoing description. Thus, it is intended that all variations falling within the meaning and scope of equivalents of the claims be included within this invention. No reference numerals in the claims should be construed as limiting the scope of the claims.

Claims

1. A forming mold for processing of ceramic fiber boards, comprising a processing table (1), characterized in that: The processing table (1) is provided with a molding box (6) at the upper end, and an injection box (5) is provided inside the molding box (6). A second support frame (3) is provided at the upper end of the injection box (5), and a molding device (7) is provided at the lower end of the second support frame (3). A demolding device (4) is provided at the lower end of the injection box (5), and a first support frame (2) is provided at the lower end of the demolding device (4). A cleaning device (8) is provided on the outside of the molding device (7).

2. The forming mold for processing ceramic fiberboard according to claim 1, wherein: The demolding device (4) includes a first hydraulic cylinder (41), a first guide rod (42), and a push plate (43). The first hydraulic cylinder (41) is located at the lower end of the push plate (43). The push plate (43) is located at the lower end of the injection box (5) and inside the molding box (6). There are four sets of the first guide rods (42), which are symmetrically arranged in pairs at the lower end of the push plate (43). The lower ends of the four sets of the first guide rods (42) all penetrate and extend to the lower end of the first support frame (2). The upper ends of the first hydraulic cylinder (41) and the first guide rods (42) all penetrate and extend into the molding box (6).

3. The forming mold for processing ceramic fiberboard according to claim 2, wherein: The injection molded box (5) includes an injection molded base plate (51), a movable plate (52), a movable groove (53), a connecting shaft (54), and a connector (55). The injection molded base plate (51) is located on the upper end of the push plate (43). Movable grooves (53) are provided around the injection molded base plate (51). A connecting shaft (54) is provided in each of the movable grooves (53). A connector (55) is provided on each of the connecting shafts (54). A movable plate (52) is provided on the other side of each connector (55).

4. The forming mold for processing ceramic fiberboard according to claim 3, wherein: The pressing device (7) includes a pressing template (71), a second hydraulic cylinder (72), and a second guide rod (73). The second hydraulic cylinder (72) is located at the lower end of the second support frame (3). There are four sets of the second guide rods (73), which are symmetrically arranged around the second hydraulic cylinder (72) in pairs. The upper ends of the four sets of the second guide rods (73) all penetrate through and extend to the upper end of the second support frame (3). The lower ends of the second hydraulic cylinder (72) and the second guide rods (73) are all located on the upper surface of the pressing template (71).

5. The forming mold for processing ceramic fiberboard according to claim 4, wherein: The cleaning device (8) includes a surface cleaning box (81), blades (82), blade grooves (83), bolt holes (84), and bolts (85). The surface cleaning box (81) is located at the lower end of the second support frame (3). Each surface cleaning box (81) has a blade groove (83) at its lower end. Each blade groove (83) has a bolt hole (84) in it. Each blade groove (83) has a blade (82) in it. Each blade (82) has a bolt (85) at its front end. The blade (82) is bolted to the bolt hole (84) in the surface cleaning box (81) by the bolt (85).

6. The forming mold for processing ceramic fiberboard according to claim 5, wherein: The inner wall of each surface cleaning box (81) is provided with a cleaning plate (9).

7. The forming mold for processing ceramic fiberboard according to claim 6, wherein: The processing table (1) is provided with support feet (10) at the lower end. There are four sets of support feet (10), which are symmetrically arranged in pairs at the lower end of the processing table (1).