An industrial furnace inorganic ceramic fiber board lining special-shaped part

By designing a combined structure of inner lining back panel, inner lining components, inner lining front panel, docking components, and fixing components, the problems of scrapping and inconvenient installation caused by the integrated production of irregularly shaped inorganic ceramic fiberboard inner lining components were solved. Stable splicing and convenient installation were achieved, reducing costs and improving thermal insulation performance.

CN224415722UActive Publication Date: 2026-06-26SHANGHAI ZHUQINGXIN MATERIALS TECHNOLOGY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHANGHAI ZHUQINGXIN MATERIALS TECHNOLOGY CO LTD
Filing Date
2025-08-15
Publication Date
2026-06-26

AI Technical Summary

Technical Problem

The existing method of manufacturing irregularly shaped parts for inorganic ceramic fiberboard linings as a single unit results in the entire board being scrapped when a part is damaged. Furthermore, it affects the overall use during assembly, leading to high production costs and inconvenient installation.

Method used

A combined structure consisting of an inner lining back panel, inner lining components, an inner lining front panel, a docking assembly, and a fixing assembly was designed. Through the cooperation of the docking assembly and the fixing assembly, multiple inner lining components can be spliced ​​and stably fixed, reducing production costs and improving installation convenience.

Benefits of technology

It achieves stable splicing and convenient installation of the inner lining components, reduces production costs, improves performance, and enhances thermal insulation performance.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses an industrial furnace inorganic ceramic fiberboard lining special-shaped part, including lining backplate, lining piece sets up in the front of lining backplate, butt joint subassembly sets up between lining backplate, lining piece and lining front plate, fixed assembly sets up in the side of lining backplate, lining piece and lining front plate, and fixed assembly is used for to the fixed constraint of lining backplate and lining front plate, one end of positioning rod is fixedly connected with the positioning plate, and the positioning groove is opened in the one side of connecting groove inner wall, and the outer wall of positioning rod and the inner chamber of positioning groove slide and connect. The utility model discloses the cooperation use mode of lining backplate, lining piece, lining front plate, butt joint subassembly and fixed assembly, under the action of butt joint subassembly, can make lining backplate, multiple lining piece and lining front plate splice into a whole, not only reduces its production cost, but also is convenient for installing lining backplate, multiple lining piece and lining front plate in the inside of furnace body to improve its use performance.
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Description

Technical Field

[0001] This utility model relates to the field of industrial furnaces, and in particular to a special-shaped part for the inner lining of an inorganic ceramic fiber board for industrial furnaces. Background Technology

[0002] The inorganic ceramic fiber board lining irregular parts for industrial furnaces are special components used for heat preservation and insulation in high-temperature furnaces and kilns. They are mainly made of inorganic ceramic fiber materials. These irregular parts play an important role in the high-temperature environment of industrial furnaces and have excellent heat preservation performance, high temperature resistance and chemical stability.

[0003] Inorganic ceramic fiberboard lining profiles are made from inorganic ceramic fibers through a specific process and are suitable for use as lining materials in equipment such as industrial furnaces, heating furnaces, and kilns. However, existing inorganic ceramic fiberboard lining profiles are usually manufactured as a single piece. Therefore, if any part of the inorganic ceramic fiberboard lining profile is damaged, the entire inorganic ceramic fiberboard lining profile will become unusable. Furthermore, the overall configuration of the inorganic ceramic fiberboard lining profiles can also affect the assembly process, thus presenting certain defects. Utility Model Content

[0004] The purpose of this utility model is to provide a non-circular lining component for an inorganic ceramic fiber board in an industrial furnace, so as to solve the problems mentioned in the background art.

[0005] To achieve the above objectives, this utility model provides the following technical solution: a shaped component for the inner lining of an industrial furnace using inorganic ceramic fiberboard, comprising:

[0006] Inner back panel;

[0007] The inner lining is disposed on the front side of the inner lining back panel;

[0008] A front liner panel, the front liner panel being located on the front side of the liner;

[0009] A docking assembly is disposed between the inner lining back plate, the inner lining component, and the inner lining front plate;

[0010] A fixing component is disposed on the side of the inner lining back panel, the inner lining piece, and the inner lining front panel, and the fixing component is used to fix and restrain the inner lining back panel and the inner lining front panel.

[0011] Preferably, the docking component includes:

[0012] The first docking piece is fixedly connected to the front panel of the inner liner and the back of the inner liner respectively;

[0013] The first docking groove is respectively opened on the front of the inner lining and the inner lining back plate, and the outer wall of the first docking part is slidably engaged with the inner cavity of the first docking groove.

[0014] The first asbestos pad is disposed on the back of the first mating member.

[0015] Preferably, the fixing component includes:

[0016] The fixing plate has grooves on the sides of the inner lining back plate, inner lining component and inner lining front plate, and the fixing plate is slidably engaged in the inside of the grooves;

[0017] The positioning plate and inner bolts are provided. The back plate and front plate of the inner lining are provided with connecting grooves on opposite sides. The positioning plate is slidably sleeved inside the connecting groove. The positioning plate is fixedly connected to the end of the fixing plate by the inner bolts.

[0018] Preferably, the fixing component further includes:

[0019] A positioning rod, one end of which is fixedly connected to a positioning plate;

[0020] The positioning groove is formed on one side of the inner wall of the connecting groove, and the outer wall of the positioning rod is slidably engaged with the inner cavity of the positioning groove.

[0021] Preferably, the docking component includes:

[0022] The second docking groove is respectively opened on the inner lining back plate, the inner lining component and the inner lining front plate;

[0023] The second docking component is slidably engaged with the inside of the first docking groove;

[0024] The second asbestos pad is disposed on the side of the second mating member.

[0025] Preferably, the docking component further includes:

[0026] A docking rod, the outer wall of which is fixedly connected to a second docking member;

[0027] A limiting groove is provided on one side of the inner wall of the second docking groove, and the end of the outer wall of the docking rod is slidably engaged with the inner cavity of the limiting groove.

[0028] The technical effects and advantages of this utility model are as follows:

[0029] This utility model utilizes the combined use of an inner lining back plate, inner lining components, inner lining front plate, docking components, and fixing components. Under the action of the docking components, the inner lining back plate, multiple inner lining components, and inner lining front plate can be spliced ​​into a whole, which not only reduces its production cost, but also facilitates the installation of the inner lining back plate, multiple inner lining components, and inner lining front plate inside the furnace body, thereby improving its performance. Attached Figure Description

[0030] Figure 1 This is a schematic diagram of the overall structure of this utility model;

[0031] Figure 2 This is a partial top-view internal structure diagram of the first embodiment of the present invention;

[0032] Figure 3 This is a schematic diagram of the internal structure of the side of the front liner of this utility model;

[0033] Figure 4 This is a top-view schematic diagram of the internal structure of a second embodiment of the present invention.

[0034] In the figure: 1. Inner lining back panel; 2. Inner lining component; 3. Inner lining front panel; 4. Connecting assembly; 41. First connecting component; 42. First asbestos pad; 43. Second connecting component; 44. Second asbestos pad; 45. Connecting rod; 5. Fixing assembly; 51. Fixing plate; 52. Positioning plate; 53. Inner bolt; 54. Positioning rod. Detailed Implementation

[0035] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0036] First embodiment: This utility model provides as follows: Figure 1-3 The diagram shows an inorganic ceramic fiber board lining for an industrial furnace, comprising a back lining 1, lining components 2, a front lining 3, a docking assembly 4, and a fixing assembly 5. The lining components 2 are positioned on the front of the back lining 1, and the front lining 3 is located on the front of the lining components 2. The docking assembly 4 is positioned between the back lining 1, the lining components 2, and the front lining 3. The back lining 1, multiple lining components 2, and the front lining 3 can be assembled by the docking assembly 4, reducing the overall manufacturing difficulty and cost. The fixing assembly 5 is positioned on the sides of the back lining 1, the lining components 2, and the front lining 3. The fixing assembly 5 is used to fix and bind the back lining 1 and the front lining 3, ensuring the stability of the assembly of the back lining 1, multiple lining components 2, and the front lining 3.

[0037] Furthermore, the docking assembly 4 includes a first docking piece 41, a first docking groove, and a first asbestos pad 42. The first docking piece 41 is fixedly connected to the back of the inner lining front plate 3 and the inner lining piece 2, respectively. The first docking piece 41, the inner lining back plate 1, the inner lining piece 2, and the inner lining front plate 3 are all made of inorganic ceramic fiber material. The first docking groove is opened on the front of the inner lining piece 2 and the inner lining back plate 1, respectively. The outer wall of the first docking piece 41 is slidably engaged with the inner cavity of the first docking groove. The first asbestos pad 42 is set on the back of the first docking piece 41. When the inner lining back plate 1, multiple inner lining pieces 2, and inner lining front plate 3 are spliced, the first docking piece 41 can not only improve the stability of its docking, but also, when the first docking piece 41 and the first asbestos pad 42 are used together, can ensure the thermal insulation performance between the inner lining back plate 1, multiple inner lining pieces 2, and inner lining front plate 3.

[0038] Furthermore, the fixing component 5 includes a fixing plate 51, a positioning plate 52, and an inner bolt 53. Grooves are provided on the sides of the inner lining back plate 1, the inner lining component 2, and the inner lining front plate 3. The fixing plate 51 is slidably engaged in the interior of the groove. A connecting groove is provided on the opposite side of the inner lining back plate 1 and the inner lining front plate 3. The positioning plate 52 is slidably fitted in the interior of the connecting groove. The positioning plate 52 is fixedly connected to the end of the fixing plate 51 by the inner bolt 53. The two positioning plates 52 at the end of the fixing plate 51 can press and fix the inner lining back plate 1 and the inner lining front plate 3, thereby ensuring the stability of the assembly of the inner lining back plate 1, the multiple inner lining components 2, and the inner lining front plate 3.

[0039] Furthermore, the fixing component 5 also includes a positioning rod 54 and a positioning groove. One end of the positioning rod 54 is fixedly connected to the positioning plate 52. The positioning groove is opened on one side of the inner wall of the connecting groove. The outer wall of the positioning rod 54 is slidably engaged with the inner cavity of the positioning groove. The positioning rod 54 can ensure the stability of the installation of the positioning plate 52 on the inner lining back plate 1 and the inner lining front plate 3, and prevent the positioning plate 52 and the fixing plate 51 from sliding off.

[0040] Second embodiment: Unlike the first embodiment, as follows Figure 4As shown, the docking assembly 4 includes a second docking groove, a second docking piece 43, a second asbestos pad 44, a docking rod 45, and a limiting groove. The second docking groove is respectively opened on the inner lining back plate 1, the inner lining piece 2, and the inner lining front plate 3. The second docking piece 43 is slidably engaged with the inside of the first docking groove. The second docking piece 43, the inner lining back plate 1, the inner lining piece 2, and the inner lining front plate 3 are all made of inorganic ceramic fiber material. The second asbestos pad 44 is set on the side of the second docking piece 43. The outer wall of the docking rod 45 is fixedly connected to the second docking piece 43. The limiting groove is opened on one side of the inner wall of the second docking groove. The end of the outer wall of the docking rod 45 is slidably engaged with the inner cavity of the limiting groove. The second docking piece 43 and the docking rod 45 can not only improve the stability of their docking, but also, the second docking piece 43 and the second asbestos pad 44 can work together to ensure the thermal insulation performance between the inner lining back plate 1, the multiple inner lining pieces 2, and the inner lining front plate 3.

[0041] Finally, it should be noted that the above description is only a preferred embodiment of the present utility model and is not intended to limit the present utility model. Although the present utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art can still modify the technical solutions described in the foregoing embodiments or make equivalent substitutions for some of the technical features. 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 shaped component for the inner lining of an industrial furnace using inorganic ceramic fiberboard, characterized in that, include: Inner back panel (1); Liner (2), the liner (2) is disposed on the front side of the liner back plate (1); The inner lining front panel (3) is located on the front side of the inner lining (2); A docking assembly (4) is disposed between the inner lining back plate (1), the inner lining piece (2) and the inner lining front plate (3); The fixing component (5) is disposed on the side of the inner lining back plate (1), the inner lining piece (2) and the inner lining front plate (3), and the fixing component (5) is used to fix and bind the inner lining back plate (1) and the inner lining front plate (3).

2. The irregularly shaped part of the inorganic ceramic fiberboard lining for an industrial furnace according to claim 1, characterized in that, The docking component (4) includes: The first docking part (41) is fixedly connected to the back of the inner lining front plate (3) and the inner lining part (2); The first docking groove is respectively opened on the front of the inner lining (2) and the inner lining back plate (1), and the outer wall of the first docking part (41) is slidably engaged with the inner cavity of the first docking groove. A first asbestos pad (42) is disposed on the back side of the first mating member (41).

3. The irregularly shaped part of the inorganic ceramic fiberboard lining for an industrial furnace according to claim 1, characterized in that, The fixing component (5) includes: The fixing plate (51) has grooves on the sides of the inner back plate (1), inner lining (2) and inner front plate (3), and the fixing plate (51) is slidably engaged in the inside of the grooves. The positioning plate (52) and the inner bolt (53) are provided with connecting grooves on opposite sides of the inner lining back plate (1) and the inner lining front plate (3). The positioning plate (52) is slidably sleeved inside the connecting groove. The positioning plate (52) is fixedly connected to the end of the fixing plate (51) by the inner bolt (53).

4. The irregularly shaped part of the inorganic ceramic fiberboard lining for an industrial furnace according to claim 3, characterized in that, The fixing component (5) also includes: A positioning rod (54), one end of which is fixedly connected to a positioning plate (52); The positioning groove is located on one side of the inner wall of the connecting groove, and the outer wall of the positioning rod (54) is slidably engaged with the inner cavity of the positioning groove.

5. The irregularly shaped part of the inorganic ceramic fiberboard lining for an industrial furnace according to claim 1, characterized in that, The docking component (4) includes: The second docking groove is respectively opened on the inner lining back plate (1), the inner lining part (2) and the inner lining front plate (3); The second docking member (43) is slidably engaged with the inside of the first docking groove; The second asbestos pad (44) is disposed on the side of the second mating member (43).

6. The irregularly shaped part of the inorganic ceramic fiberboard lining for an industrial furnace according to claim 5, characterized in that, The docking component (4) also includes: A docking rod (45) is fixedly connected to the outer wall of a second docking member (43); The limiting groove is located on one side of the inner wall of the second docking groove, and the end of the outer wall of the docking rod (45) is slidably engaged with the inner cavity of the limiting groove.