CN215943865U - High-strength composite ceramic fiber board - Google Patents

Abstract

The utility model relates to the technical field of ceramic fiber boards, in particular to a high-strength composite ceramic fiber board, which solves the problem that the transverse and longitudinal compressive strengths of the ceramic fiber board in the prior art need to be improved. The utility model provides a high strength composite ceramic fiberboard, includes inlayer heated board, upper heated board and lower floor's heated board, horizontal axial lead position department inlays in the inlayer heated board and is equipped with horizontal compression resistance pipe, the embedded vertical compression resistance pipe that is equipped with the horizontal compression resistance pipe of a plurality of perpendicular to of inlayer heated board, vertical compression resistance pipe is provided with two sets ofly. According to the utility model, the transverse compression pipe and the longitudinal compression pipe are arranged, and the wrapping frame is used for positioning and protecting the transverse compression pipe and the longitudinal compression pipe, so that transverse and longitudinal supporting frameworks are formed in the composite ceramic fiber board, the transverse and longitudinal compression resistance of the composite ceramic fiber board can be effectively improved, and the high-strength composite ceramic fiber is realized.

Description

High-strength composite ceramic fiber board

Technical Field

The utility model relates to the technical field of ceramic fiber boards, in particular to a high-strength composite ceramic fiber board.

Background

The ceramic fiber board is an aluminum silicate fiber board, a board made of refractory materials. The ceramic fiber board has the excellent performance corresponding to the scattered ceramic fiber cotton, has the characteristics of hard texture, excellent toughness and strength, excellent wind erosion resistance, no expansion when heated, light weight and convenient construction, can be sheared and bent at will, is an ideal energy-saving material for kilns, pipelines and other heat-preservation equipment,

however, the existing ceramic fiber board has low strength and weak longitudinal and transverse compressive capacity, so that the ceramic fiber board is easily damaged during assembly and compression, and the normal use of the ceramic fiber board is influenced;

therefore, a high-strength composite ceramic fiber board has been proposed to solve the above problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a high-strength composite ceramic fiber board, which solves the problem that the transverse and longitudinal compressive strengths of the ceramic fiber board in the prior art need to be improved.

In order to achieve the purpose, the utility model adopts the following technical scheme:

a high-strength composite ceramic fiberboard comprises an inner-layer insulation board, an upper-layer insulation board and a lower-layer insulation board, wherein a transverse compression pipe is embedded at the position of a transverse axial lead in the inner-layer insulation board, a plurality of longitudinal compression pipes perpendicular to the transverse compression pipes are embedded in the inner-layer insulation board, two groups of the longitudinal compression pipes are arranged and are respectively positioned on two sides of the transverse compression pipes, the extending ends of the two groups of the longitudinal compression pipes respectively extend to the side end face of the inner-layer insulation board, the lower end face of the upper-layer insulation board respectively abuts against the upper end face of the inner-layer insulation board, the transverse compression pipes and the longitudinal compression pipes, the upper end face of the lower-layer insulation board respectively abuts against the lower end face of the inner-layer insulation board, the transverse compression pipes and the longitudinal compression pipes, a wrapping frame in a rectangular ring structure is mounted on the side end face of the inner-layer insulation board, and an outer wrapping layer is wrapped outside the inner-layer insulation board, the outer wrapping layer is of a hollow cuboid structure, and the inner side end face of the outer wrapping layer is respectively attached to the outer side of the upper insulation board, the outer side of the lower insulation board and the outer side of the wrapping frame.

Preferably, the upper end face of the wrapping frame is flush with the upper end face of the upper-layer heat-insulation plate, and the lower end face of the wrapping frame is flush with the lower end face of the lower-layer heat-insulation plate.

Preferably, the two ends of the transverse compression-resistant pipe are respectively provided with a support pipe in a splayed structure, the transverse compression-resistant pipe is positioned at the central line position of each support pipe, and the extending end of each support pipe extends to the end face where the extending end of the longitudinal compression-resistant pipe is positioned.

Preferably, the inner sides of the extending ends of the transverse compression pipe, the longitudinal compression pipe and the supporting pipe are provided with thread ring structures, the threads are connected with the positioning assemblies in a screwing mode, and the inner side end face of the wrapping frame is provided with corresponding positioning holes for inserting the extending ends of the positioning assemblies.

Preferably, the positioning assembly comprises a threaded column and an inserting column connected with the threaded column, the upper end surface and the lower end surface of the wrapping frame are respectively and correspondingly provided with a first guide groove and a second guide groove which are of an annular structure and have triangular vertical cross sections, and the first guide groove and the second guide groove are arranged on one side close to the inner side end surface of the wrapping frame.

Preferably, the upper layer heat insulation board, the lower layer heat insulation board, the inner layer heat insulation board and the outer wrapping layer are all made of ceramic fibers, and the transverse compression pipe, the longitudinal compression pipe, the supporting pipe, the wrapping frame and the positioning assembly are all made of carbon fibers.

The utility model has at least the following beneficial effects:

through the setting of horizontal compressive connection pipe and vertical compressive connection pipe, in addition the package frame is fixed a position the protection to both to realize that the inside horizontal and fore-and-aft support skeleton that forms of compound ceramic fiber board, and then can the horizontal and fore-and-aft compressive capacity of effectual improvement compound ceramic fiber board, realized a high strength's compound ceramic fiber.

The utility model also has the following beneficial effects:

1. the setting of stay tube can be so that the both ends of horizontal withstand voltage pipe form stable triangle-shaped structure, further improves the stability of horizontal withstand voltage pipe, stability when improving the last whole skeleton resistance to compression of inlayer heated board.

2. Through the setting of first guiding groove and second guiding groove, can improve the efficiency that the cover was established in the inner insulation board outside about the package frame, realize positioning assembly and the efficient location grafting of package frame.

3. The transverse compression pipe, the longitudinal compression pipe and the supporting pipe are carbon fiber pipes, and the carbon fiber pipes are utilized to have excellent properties of high strength, long service life, corrosion resistance, light weight, energy absorption and shock resistance, so that the carbon fiber pipes can be better combined with the ceramic fiber board, and the strength, the fire resistance, the heat preservation performance and the shock resistance of the composite ceramic fiber board are further improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a schematic cross-sectional view of a composite ceramic fiber board;

FIG. 2 is an enlarged schematic view of the structure at A;

FIG. 3 is a schematic diagram of a vertical cross-sectional structure of a composite ceramic fiber board.

In the figure: 1. a transverse pressure-resistant pipe; 2. a longitudinal compression resistant tube; 3. supporting a tube; 4. wrapping a frame; 5. positioning holes; 6. a positioning assembly; 601. a threaded post; 602. inserting a column; 7. a threaded ring structure; 8. an outer wrapping layer; 9. a lower layer insulation board; 10. a first guide groove; 11. a second guide groove; 12. an upper layer insulation board; 13. the inner layer heat insulation board.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further 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 utility model and are not intended to limit the utility model.

Referring to fig. 1-3, a high-strength composite ceramic fiber board comprises an inner layer insulation board 13, an upper layer insulation board 12 and a lower layer insulation board 9, wherein a transverse compression pipe 1 is embedded at the position of a transverse axial lead in the inner layer insulation board 13, a plurality of longitudinal compression pipes 2 perpendicular to the transverse compression pipes 1 are embedded in the inner layer insulation board 13, two groups of the longitudinal compression pipes 2 are arranged and are respectively positioned at two sides of the transverse compression pipes 1, the extending ends of the two groups of the longitudinal compression pipes 2 respectively extend to the side end face of the inner layer insulation board 13, the lower end face of the upper layer insulation board 12 respectively abuts against the upper end face of the inner layer insulation board 13, the transverse compression pipes 1 and the longitudinal compression pipes 2, the upper end face of the lower layer insulation board 9 respectively abuts against the lower end face of the inner layer insulation board 13, the transverse compression pipes 1 and the longitudinal compression pipes 2, a wrapping frame 4 in a rectangular ring structure is installed on the side end face of the inner layer insulation board 13, an outer wrapping layer 8 is wrapped outside the inner-layer insulation board 13, the outer wrapping layer 8 is of a cuboid structure with a hollow interior, the end face of the inner side of the outer wrapping layer 8 is respectively attached to the outer side of the upper-layer insulation board 12, the outer side of the lower-layer insulation board 9 and the outer side of the wrapping frame 4, and specifically, the longitudinal compression pipe 2 is fixedly connected with the transverse compression pipe 1;

the scheme has the following working processes: when the composite ceramic fiberboard is manufactured, firstly, a transverse compression pipe 1 and a longitudinal compression pipe 2 which are integrally laid are manufactured in a manufacturing mold of an inner-layer insulation board 13, then an upper-layer insulation board 12 is manufactured on the upper layer of the composite ceramic fiberboard, a lower-layer insulation board 9 is manufactured on the lower layer of the composite ceramic fiberboard, then a rectangular annular wrapping frame 4 is sleeved on the composite ceramic fiberboard and used for positioning the transverse compression pipe 1 and the longitudinal compression pipe 2, and finally an outer wrapping layer 8 is manufactured on the outer layer of the composite ceramic fiberboard, so that the manufacturing is completed;

according to the working process, the following steps are known: through the setting of horizontal compressive resistance pipe 1 and vertical compressive resistance pipe 2, in addition wrap frame 4 and fix a position the protection to both to realize that the inside horizontal and fore-and-aft support skeleton of formation of compound ceramic fiber board, and then can effectual improvement compound ceramic fiber board horizontal and fore-and-aft compressive capacity, realized a high strength's compound ceramic fiber board.

Further, the up end of package frame 4 flushes with the up end of upper heated board 12, and the lower terminal surface of package frame 4 flushes with the lower terminal surface of lower floor's heated board 9, and is concrete for package frame 4 not only can fix a position horizontal compression resistant pipe 1 and vertical compression resistant pipe 2, but also can fix a position between upper heated board 12, inlayer heated board 13 and the lower floor's heated board 9, makes the stability of 8 inboard structures in outer parcel layer neat.

Further, stay tube 3 that is eight style of calligraphy structures is all installed at the both ends of horizontal compression pipe 1, horizontal compression pipe 1 is located the central line position department of every stay tube 3, the extension end of stay tube 3 extends to vertical compression pipe 2 and extends on the terminal surface at end place, and is concrete, the setting of stay tube 3, can be so that the both ends of horizontal compression pipe 1 form stable triangle-shaped structure, further improve the stability of horizontal compression pipe 1, stability when improving whole skeleton resistance to compression on the inlayer heated board 13.

Further, the extension end inboard of horizontal compression tube 1, vertical compression tube 2 and stay tube 3 all is provided with thread circle structure 7, and all the screw thread closes soon and is connected with locating component 6, on the medial surface of package frame 4, has seted up corresponding locating hole 5 to be used for the grafting of locating component 6's extension end, it is specific, locating component 6 just installs into corresponding extension end before embedding inlayer heated board 13.

Further, the positioning assembly 6 comprises a threaded column 601 and an inserting column 602 connected with the threaded column 601, the upper end face and the lower end face of the package frame 4 are respectively and correspondingly provided with a first guide groove 10 and a second guide groove 11 which are of an annular structure and have triangular cross sections, the first guide groove 10 and the second guide groove 11 are arranged on one side close to the inner side end face of the package frame 4, specifically, the extending end of the inserting column 602 protrudes to the outer side of the inner layer heat-insulating plate 13, the arrangement of the first guide groove 10 and the second guide groove 11 can improve the efficiency of the package frame 4 in the outer side of the inner layer heat-insulating plate 13 in an up-down sleeved mode, and the inserting column 602 can be more conveniently inserted into the corresponding positioning hole 5.

Further, upper heated board 12, lower floor's heated board 9, inner insulation board 13 and outer parcel layer 8 are the ceramic fibre material, horizontal compression joint pipe 1, vertical compression joint pipe 2, stay tube 3, package frame 4 and locating component 6 are the carbon fiber material, it is specific, horizontal compression joint pipe 1, vertical compression joint pipe 2 and stay tube 3 are the carbon fiber pipe, it is high to utilize the carbon fiber pipe to have intensity, it is longe-lived, corrosion-resistant, the quality is light, the shock-resistant excellent performance of energy-absorbing, thereby can with the better combination of ceramic fiber board, further improve compound ceramic fiber board's intensity, fire resistance, heat preservation and anti-seismic performance.

The foregoing shows and describes the general principles, essential features, and advantages of the utility model. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the utility model, but that various changes and modifications may be made without departing from the spirit and scope of the utility model, which fall within the scope of the utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (6)

1. The high-strength composite ceramic fiberboard is characterized by comprising an inner-layer insulation board (13), an upper-layer insulation board (12) and a lower-layer insulation board (9), wherein a transverse compression pipe (1) is embedded in the position of a transverse axis in the inner-layer insulation board (13), a plurality of longitudinal compression pipes (2) perpendicular to the transverse compression pipe (1) are embedded in the inner-layer insulation board (13), the longitudinal compression pipes (2) are arranged in two groups, the two groups are respectively positioned on two sides of the transverse compression pipe (1), the extending ends of the two groups of longitudinal compression pipes (2) respectively extend to the side end faces of the inner-layer insulation board (13), the lower end face of the upper-layer insulation board (12) is respectively abutted against the upper end face of the inner-layer insulation board (13), the transverse compression pipe (1) and the longitudinal compression pipe (2), and the upper end face of the lower-layer insulation board (9) is respectively abutted against the lower end face of the inner-layer insulation board (13), Horizontal compression tube (1) and vertical compression tube (2) offset, the side end face of inlayer heated board (13) is installed and is a package frame (4) that the rectangle ring constructs, inlayer heated board (13) outsourcing is equipped with outer parcel layer (8), outer parcel layer (8) are the hollow cuboid structure in inside, the medial surface of outer parcel layer (8) is laminated with the outside of upper heated board (12), the outside of lower floor's heated board (9) and the outside of package frame (4) respectively mutually.

2. The high-strength composite ceramic fiber board is characterized in that the upper end face of the wrapping frame (4) is flush with the upper end face of the upper-layer insulation board (12), and the lower end face of the wrapping frame (4) is flush with the lower end face of the lower-layer insulation board (9).

3. A high-strength composite ceramic fiber board according to claim 1, wherein the support tubes (3) are installed at both ends of the transverse compression tube (1), the transverse compression tube (1) is located at the centerline position of each support tube (3), and the extending ends of the support tubes (3) extend to the end faces where the extending ends of the longitudinal compression tubes (2) are located.

4. The high-strength composite ceramic fiberboard according to claim 1, wherein the inner sides of the extending ends of the transverse compression pipe (1), the longitudinal compression pipe (2) and the support pipe (3) are all provided with a thread ring structure (7), and are all connected with a positioning component (6) in a threaded manner, and the end surface of the inner side of the covering frame (4) is provided with corresponding positioning holes (5) for inserting the extending ends of the positioning component (6).

5. The high-strength composite ceramic fiberboard of claim 4, wherein the positioning assembly (6) comprises a threaded column (601) and an insert column (602) connected with the threaded column (601), the upper end surface and the lower end surface of the covering frame (4) are respectively and correspondingly provided with a first guide groove (10) and a second guide groove (11) which are of a triangular structure in vertical cross section and are of an annular structure, and the first guide groove (10) and the second guide groove (11) are arranged on one side close to the end surface of the inner side of the covering frame (4).

6. The high-strength composite ceramic fiber board according to claim 1, wherein the upper layer heat insulation board (12), the lower layer heat insulation board (9), the inner layer heat insulation board (13) and the outer wrapping layer (8) are all made of ceramic fiber, and the transverse compression pipe (1), the longitudinal compression pipe (2), the support pipe (3), the wrapping frame (4) and the positioning component (6) are all made of carbon fiber.

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