CN215105451U - Local raft for medium weathering beaded karst cave foundation structure - Google Patents

Abstract

The utility model provides a well stroke ization string of beads form karst cave local raft for foundation structure, including raft main part, first ceramic layer and first anticorrosive coating, the cladding of first ceramic layer is outside the lower part of raft main part, and the cladding of first anticorrosive coating is outside first ceramic layer and is connected the position that lies in on the lower part of raft main part. Preferably, raft board main part includes bottom plate, a plurality of stand and grade beam, and the bottom plate level sets up, and stand and grade beam all set up on the bottom plate, and the grade beam is located between two stands and connects these two stands respectively, and the cladding of first ceramic layer is outside bottom plate, the lower part of stand and grade beam, and the cladding of first anticorrosive coating is outside first ceramic layer and is connected the position that is located on the lower part of stand. The utility model discloses can be corrosion-resistant, prevent that the raft from being in under the adverse circumstances by the condition emergence of infringement corruption for a long time to can prolong the life of raft, design benefit, the structure is succinct, makes portably, and is with low costs, is suitable for extensive popularization and application.

Description

Local raft for medium weathering beaded karst cave foundation structure

Technical Field

The utility model relates to a construction technical field, in particular to local raft technical field for foundation structure specifically indicates a well stroke ization string of beads form local raft for solution cavity foundation structure.

Background

The building construction refers to production activities in the engineering construction implementation stage, is the construction process of various buildings, and also can be a process of changing various lines on a design drawing into a real object at a specified place. The method comprises foundation engineering construction, main structure construction, roofing engineering construction, decoration engineering construction and the like.

Because the place of construction is diversified, for example, know from the reconnaissance report that some building places are carbonate rock area, the drilling reveals that these place karst development degree are strong development district, probably produces engineering risk to the construction, mainly has: the karst cave development section in the pile hole protrudes water and mud, the ground collapse caused by the cave collapse of the karst cave is caused, and the stability of the building foundation is influenced. And the site water and soil have micro-corrosiveness to the steel bars in the concrete structure and the reinforced concrete structure. The raft plates need to be protected well to prevent the internal concrete and the reinforcing steel bars from being corroded, but the existing raft plates on the market do not have the anti-corrosion effect.

Therefore, it is desirable to provide a local raft for medium-stroke beading karst cave foundation structure, which can resist corrosion, prevent the raft from being in the adverse circumstances under for a long time and being invaded the corruption condition and taking place to can prolong the life of raft.

SUMMERY OF THE UTILITY MODEL

In order to overcome the shortcoming among the above-mentioned prior art, an object of the utility model is to provide a local raft is used to apoplexy ization string of beads form solution cavity foundation structure, it can be corrosion-resistant, prevents that the raft from being in for a long time under the adverse circumstances by the condition emergence of infringement corruption to can prolong the life of raft, be suitable for extensive popularization and application.

Another object of the utility model is to provide a local raft board is used to apoplexy ization string of beads form solution cavity foundation structure, its design benefit, the structure is succinct, and it is simple and convenient to make, with low costs, be suitable for extensive popularization and application.

In order to achieve the above object, the utility model discloses a well morals and manners beaded cave substructure uses local raft, including the raft main part, its characteristics are, well morals and manners beaded cave substructure uses local raft still includes first ceramic layer and first anticorrosive coating, first ceramic layer cladding is in outside the lower part of raft main part, first anticorrosive coating cladding is in first ceramic layer outer connection be located the raft main part the lower part of raft main part on the position.

Preferably, the raft board main part includes bottom plate, a plurality of stand and grade beam, the bottom plate level sets up, the stand with the grade beam all sets up on the bottom plate, the grade beam is located two between the stand and connect these two respectively the stand, the cladding of first ceramic layer is in the bottom plate, the lower part of stand with outside the grade beam, the cladding of first anticorrosive coating is in outside the first ceramic layer and connect being located of stand the position on the lower part of stand.

More preferably, the first ceramic layer comprises a first ceramic plate, a second ceramic plate, a third ceramic plate, a fourth ceramic plate and a fifth ceramic plate, and the first anticorrosive layer comprises a first anticorrosive plate, a second anticorrosive plate, a third anticorrosive plate, a fourth anticorrosive plate and a fifth anticorrosive plate, wherein;

the first ceramic plate is coated on the top surface of the bottom plate, the outer side of the first ceramic plate protrudes out of the top surface of the bottom plate, the second ceramic plate is coated outside the lower part of the upright post and the end part of the ground beam connected with the upright post, the second ceramic plate is arranged on the top surface of the bottom plate and connected with the first ceramic plate, the third ceramic plate is coated outside the middle part of the ground beam and arranged on the top surface of the bottom plate and respectively connected with the first ceramic plate and the second ceramic plate, the fourth ceramic plate is coated on the bottom surface of the bottom plate, the outer side of the fourth ceramic plate protrudes out of the bottom surface of the bottom plate, the fifth ceramic plate is coated on the outer side face of the bottom plate, is positioned between the outer side of the first ceramic plate and the outer side of the fourth ceramic plate and is respectively connected with the outer side of the first ceramic plate and the outer side of the fourth ceramic plate;

first anticorrosive board cladding is in outside the first ceramic plate, the anticorrosive board cladding of second is in the second ceramic plate with the connection of third ceramic plate the tip of second ceramic plate is outer and connect be located of stand the lower part of stand on the position, the anticorrosive board of second sets up on the first ceramic plate and connect first anticorrosive board, the anticorrosive board cladding of third is in the middle part of third ceramic plate is outer and set up be in on the first ceramic plate and connect respectively first anticorrosive board with the anticorrosive board of second, the anticorrosive board cladding of fourth is in outside the fourth ceramic plate, the anticorrosive board cladding of fifth is in on the lateral surface of fifth ceramic plate and be located first anticorrosive board with just connect respectively between the anticorrosive board of fourth first anticorrosive board with the anticorrosive board of fourth.

Furthermore, the first anticorrosive board, the second anticorrosive board, the third anticorrosive board, the fourth anticorrosive board and the fifth anticorrosive board are all carbon fiber boards.

Preferably, the raft main body further comprises a plurality of reinforcing steel bars, and a plurality of the reinforcing steel bars are arranged in the bottom plate.

Preferably, well morals and manners pearl string form karst cave local raft still includes the ground, the top of ground is vertical to be worn to establish first anticorrosive coating with first ceramic layer and with the bottom surface of bottom plate is connected.

Furthermore, local raft still includes the spliced pole in well morals and manners beaded form solution cavity foundation structure, the spliced pole slope sets up, the upper end slope of spliced pole wear to establish first anticorrosive coating with first ceramic layer and with the bottom surface of bottom plate be connected, the lower extreme of spliced pole is connected the side of ground.

Especially better, well morals and manners beaded form solution cavity local raft for foundation structure still includes second ceramic layer and second anticorrosive coating, the cladding of second ceramic layer is in the middle part of spliced pole with the lower extreme of spliced pole outer and connect respectively first anticorrosive coating with the side of ground, the cladding of second anticorrosive coating is in outside the second ceramic layer and connect respectively first anticorrosive coating with the side of ground.

More preferably, the second ceramic layer is a sixth ceramic plate, and the second anticorrosive layer is a sixth anticorrosive plate.

Most preferably, the sixth corrosion prevention plate is a carbon fiber plate.

The beneficial effects of the utility model mainly lie in:

1. the utility model discloses a well stroke ization string of beads form karst cave local raft for foundation structure includes the raft main part, first ceramic layer and first anticorrosive coating, first ceramic layer cladding is outside the lower part of raft main part, first anticorrosive coating cladding is outside first ceramic layer and is connected the position that is located on the lower part of raft main part, consequently, it can be corrosion-resistant, prevent that the raft from being in under the adverse circumstances for a long time by the condition emergence of infringement corruption, thereby can prolong the life of raft, be suitable for extensive popularization and application.

2. The utility model discloses a well stroke ization string of beads form karst cave substructure includes raft main part, first ceramic layer and first anticorrosive coating with local raft, and the cladding of first ceramic layer is outside the lower part of raft main part, and the cladding of first anticorrosive coating is outside first ceramic layer and is connected the position that lies in on the lower part of raft main part, consequently, its design benefit, the structure is succinct, and it is simple and convenient to make, and is with low costs, is suitable for extensive popularization and application.

These and other objects, features and advantages of the present invention will be fully apparent from the following detailed description and appended drawings, and may be realized by means of the instrumentalities, devices and combinations particularly pointed out in the specification.

Drawings

Fig. 1 is a schematic front view of a specific embodiment of a partial raft for a medium-stroke beaded karst cave infrastructure of the present invention.

FIG. 2 is a front cross-sectional schematic view of the embodiment shown in FIG. 1.

Fig. 3 is a schematic top view of the embodiment shown in fig. 1.

FIG. 4 is a schematic top cross-sectional view of the embodiment shown in FIG. 1.

Fig. 5 is a schematic bottom view of the embodiment shown in fig. 1.

(symbol description)

1, raft board main body; 2 a first ceramic layer; 3 a first anticorrosive layer; 4, a bottom plate; 5, upright posts; 6, a ground beam; 7 a first ceramic plate; 8 a second ceramic plate; 9 a third ceramic plate; 10 a fourth ceramic plate; 11 a fifth ceramic plate; 12 a first corrosion protection plate; 13 a second corrosion protection plate; 14 a third corrosion prevention plate; 15 a fourth corrosion prevention plate; 16 a fifth corrosion prevention plate; 17 reinforcing steel bars; 18 foundation base; 19 connecting columns; 20 a second ceramic layer; 21 a second corrosion protection layer; 22 a sixth ceramic plate; 23 sixth corrosion protection plate.

Detailed Description

In order to clearly understand the technical contents of the present invention, the following embodiments are specifically illustrated in detail.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Please refer to fig. 1-5, in an embodiment of the present invention, the local raft for medium-stroke beaded karst cave substructure of the present invention includes a raft main body 1, a first ceramic layer 2 and a first anticorrosive layer 3, wherein the first ceramic layer 2 is coated outside the lower portion of the raft main body 1, and the first anticorrosive layer 3 is coated outside the first ceramic layer 2 and is connected to the position of the raft main body 1, which is located on the lower portion of the raft main body 1.

The raft body 1 may have any suitable structure, please refer to fig. 1-2, in a specific embodiment of the present invention, the raft body 1 includes a bottom plate 4, a plurality of columns 5, and a ground beam 6, the bottom plate 4 is horizontally disposed, the columns 5 and the ground beam 6 are both disposed on the bottom plate 4, the ground beam 6 is disposed between two columns 5 and respectively connected to the two columns 5, the first ceramic layer 2 is coated outside the bottom plate 4, the lower portions of the columns 5 and the ground beam 6, and the first anti-corrosion layer 3 is coated outside the first ceramic layer 2 and connected to the positions of the columns 5 on the lower portions of the columns 5.

The first ceramic layer 2 and the first anticorrosive layer 3 may have any suitable structure, as shown in fig. 1 to 5, in a specific embodiment of the present invention, the first ceramic layer 2 includes a first ceramic plate 7, a second ceramic plate 8, a third ceramic plate 9, a fourth ceramic plate 10 and a fifth ceramic plate 11, and the first anticorrosive layer 3 includes a first anticorrosive plate 12, a second anticorrosive plate 13, a third anticorrosive plate 14, a fourth anticorrosive plate 15 and a fifth anticorrosive plate 16, wherein;

first ceramic plate 7 cladding be in on the top surface of bottom plate 4, the outside of first ceramic plate 7 outstanding in the top surface of bottom plate 4, second ceramic plate 8 cladding be in the lower part of stand 5 with the connection of ground roof beam 6 outside the tip of stand 5, second ceramic plate 8 sets up bottom plate 4's top surface on and connect first ceramic plate 7, third ceramic plate 9 cladding is in the middle part of ground roof beam 6 is outer and set up bottom plate 4's top surface on and connect respectively first ceramic plate 7 with second ceramic plate 8, fourth ceramic plate 10 cladding is in on bottom plate 4's bottom surface, fourth ceramic plate 10's the outside outstanding in bottom plate 4's bottom surface, fifth ceramic plate 11 cladding be in on bottom plate 4's the lateral surface and lie in first ceramic plate 7's the outside with fourth ceramic plate 10's the outside between and connect respectively first ceramic plate 7's the outside and institute The outer side of said fourth ceramic plate 10;

the first corrosion prevention plate 12 is coated outside the first ceramic plate 7, the second corrosion prevention plate 13 is coated outside the end portion of the second ceramic plate 8 connected to the second ceramic plate 8 of the second ceramic plate 8 and the third ceramic plate 9 and is connected to the lower portion of the column 5, the second corrosion prevention plate 13 is disposed on the first ceramic plate 7 and connected to the first corrosion prevention plate 12, the third corrosion prevention plate 14 is coated outside the middle of the third ceramic plate 9 and is disposed on the first ceramic plate 7 and is connected to the first corrosion prevention plate 12 and the second corrosion prevention plate 13, fourth anticorrosive board 15 cladding is in outside the fourth ceramic plate 10, the cladding of fifth anticorrosive board 16 is in on the lateral surface of fifth ceramic plate 11 and be located first anticorrosive board 12 with just connect respectively between the anticorrosive board 15 of fourth anticorrosive board 12 with anticorrosive board 15 of fourth.

First anticorrosive board 12, second anticorrosive board 13 the third anticorrosive board 14 the fourth anticorrosive board 15 with the fifth anticorrosive board 16 can be the anticorrosive board of any suitable material the utility model discloses a specific embodiment, first anticorrosive board 12 the second anticorrosive board 13 the third anticorrosive board 14 the fourth anticorrosive board 15 with the fifth anticorrosive board 16 is the carbon fiber board. The carbon fiber plate can be made the utility model discloses corrosion resistance is good, intensity is high and high temperature resistant etc.

The raft body 1 may also have any other suitable configuration, as shown in fig. 2, in a specific embodiment of the present invention, the raft body 1 further includes a plurality of reinforcing bars 17, and the plurality of reinforcing bars 17 are disposed in the bottom plate 4. Thereby reinforcing the firmness of the bottom plate 4 by the reinforcing bars 17.

The local raft for the medium weathering beaded karst cave foundation structure may further include any other suitable components, and more preferably, the local raft for the medium weathering beaded karst cave foundation structure further includes a foundation 18, and a top end of the foundation 18 vertically penetrates through the first anticorrosive layer 3 and the first ceramic layer 2 and is connected with a bottom surface of the bottom plate 4. So that the position of the bottom plate 4 can be fixed by the arrangement of the foundation 18. Referring to fig. 1 to 2 and 5, in an embodiment of the present invention, in a case where the first ceramic layer 2 includes a first ceramic plate 7, a second ceramic plate 8, a third ceramic plate 9, a fourth ceramic plate 10 and a fifth ceramic plate 11, and the first anticorrosive layer 3 includes a first anticorrosive plate 12, a second anticorrosive plate 13, a third anticorrosive plate 14, a fourth anticorrosive plate 15 and a fifth anticorrosive plate 16, the top end of the foundation 18 vertically penetrates through the fourth anticorrosive plate 15 and the fourth ceramic plate 10.

The local raft for the medium weathering beaded karst cave foundation structure can further comprise any other suitable components, and further comprises a connecting column 19, wherein the connecting column 19 is obliquely arranged, the upper end of the connecting column 19 obliquely penetrates through the first anticorrosive layer 3 and the first ceramic layer 2 and is connected with the bottom surface of the bottom plate 4, and the lower end of the connecting column 19 is connected with the side surface of the foundation 18. So that the foundation 18 and the bottom plate 4 can be further fixed by the arrangement of the connecting column 19. Referring to fig. 2, in an embodiment of the present invention, in a case where the first ceramic layer 2 includes a first ceramic plate 7, a second ceramic plate 8, a third ceramic plate 9, a fourth ceramic plate 10, and a fifth ceramic plate 11, and the first anticorrosive layer 3 includes a first anticorrosive plate 12, a second anticorrosive plate 13, a third anticorrosive plate 14, a fourth anticorrosive plate 15, and a fifth anticorrosive plate 16, the upper end of the connecting column 19 is obliquely inserted through the fourth anticorrosive plate 15 and the fourth ceramic plate 10.

The local raft for the medium weathering beaded karst cave foundation structure may further include any other suitable components, please refer to fig. 1-2 and 5, in a specific embodiment of the present invention, the local raft for the medium weathering beaded karst cave foundation structure further includes a second ceramic layer 20 and a second anticorrosive layer 21, the second ceramic layer 20 is coated outside the middle portion of the connecting column 19 and the lower end of the connecting column 19 and respectively connected to the first anticorrosive layer 3 and the side of the foundation 18, and the second anticorrosive layer 21 is coated outside the second ceramic layer 20 and respectively connected to the first anticorrosive layer 3 and the side of the foundation 18. So that the connection post 19 can be prevented from being corroded by the second ceramic layer 20 and the second anticorrosive layer 21.

The second ceramic layer 20 and the second anticorrosive layer 21 may have any suitable structure, and as shown in fig. 1 to 2 and 5, in an embodiment of the present invention, the second ceramic layer 20 is a sixth ceramic plate 22, and the second anticorrosive layer 21 is a sixth anticorrosive plate 23.

The sixth anti-corrosion plate 23 may be an anti-corrosion plate made of any suitable material, and in a specific embodiment of the present invention, the sixth anti-corrosion plate 23 is a carbon fiber plate. The carbon fiber plate can be made the utility model discloses corrosion resistance is good, intensity is high and high temperature resistant etc.

The utility model can be built in various ways, for example, the bottom plate 4, the upright post 5, the ground beam 6 and the connecting column 19 can be poured on the foundation 18 by adopting a template, and then the first ceramic plate 7, the second ceramic plate 8, the third ceramic plate 9, the fourth ceramic plate 10, the fifth ceramic plate 11, the sixth ceramic plate 22, the first anticorrosive plate 12, the second anticorrosive plate 13, the third anticorrosive plate 14, the fourth anticorrosive plate 15, the fifth anticorrosive plate 16 and the sixth anticorrosive plate 23 are installed in place; it is also possible to cast directly on the foundation 18 using the first 7, second 8, third 9, fourth 10, fifth 11 and sixth 22 ceramic plates as formwork, for example:

the lower end of a sixth ceramic plate 22 is fixedly arranged on the side face of a foundation 18 through a tool, a fourth anticorrosive plate 15 is fixed on the upper end of the sixth ceramic plate 22 and the side face of the foundation 18 through the tool, a fourth ceramic plate 10 is fixed on the fourth anticorrosive plate 15 and the side face of the foundation 18 through the tool, holes are formed in the fourth anticorrosive plate 15 and the fourth ceramic plate 10 along the length direction of the sixth ceramic plate 22, then, concrete is poured into the sixth ceramic plate 22, a connecting column 19 is formed after the concrete is cooled, then, a fifth ceramic plate 11 is fixedly arranged on the fourth ceramic plate 10, the position of a steel bar 17 is placed, the concrete is poured outside the steel bar 17, a bottom plate 4 is formed after the concrete is cooled, then, a first ceramic plate 7 is fixed on the bottom plate 4 and the fifth ceramic plate 11, a second ceramic plate 8 is arranged on the bottom plate 4 and connected with the first ceramic plate 7, use concrete placement to go out the shape of stand 5 through the mould, later reuse mould watering out the shape of grade beam 6, with the cladding of third ceramic plate 9 outside grade beam 6 and set up on bottom plate 4 and fix with first ceramic plate 7 and second ceramic plate 8 respectively, install first anticorrosive board 12, second anticorrosive board 13, third anticorrosive board 14, fifth anticorrosive board 16 and sixth anticorrosive board 23 in place again, just accomplished the utility model discloses a construction.

Therefore, adopt the utility model discloses, have anticorrosive effect through first ceramic plate, second ceramic plate, third ceramic plate, fourth ceramic plate, fifth ceramic plate and sixth ceramic plate, through first anticorrosive board, second anticorrosive board, third anticorrosive board, fourth anticorrosive board, fifth anticorrosive board and sixth anticorrosive board, can make the raft body corrosion-resistant, prevent that the raft is in the condition emergence of infringement corruption under the adverse circumstances for a long time to prolong the life of raft.

To sum up, the utility model discloses a well stroke ization string of beads form solution cavity local raft for foundation structure can be corrosion-resistant, prevents that the raft from being in for a long time under the adverse circumstances by the condition emergence of infringement corruption to can prolong the life of raft, design benefit, the structure is succinct, makes portably, and is with low costs, is suitable for extensive popularization and application.

Therefore, the purpose of the utility model is completely and effectively realized. The functional and structural principles of the present invention have been shown and described in the embodiments, and the embodiments may be modified without departing from the principles. Therefore, the present invention includes all modifications within the spirit and scope of the appended claims.

Claims (10)

1. The utility model provides a well local raft is used to morals and manners string of beads form karst cave foundation structure, includes the raft main part, its characterized in that, well local raft is used to morals and manners string of beads form karst cave foundation structure still includes first ceramic layer and first anticorrosive coating, first ceramic layer cladding is in outside the lower part of raft main part, first anticorrosive coating cladding is in outside the first ceramic layer and connect being located of raft main part the position on the lower part of raft main part.

2. The local raft for medium-stroke beaded karst cave infrastructure of claim 1, wherein the raft body comprises a bottom plate, a plurality of columns, and a ground beam, wherein the bottom plate is horizontally arranged, the columns and the ground beam are both arranged on the bottom plate, the ground beam is arranged between and respectively connected with the two columns, the first ceramic layer is coated outside the bottom plate, the lower parts of the columns and the ground beam, and the first anticorrosive layer is coated outside the first ceramic layer and is connected with the position of the columns on the lower parts of the columns.

3. The partial raft for a medium-stroke beaded karst cave infrastructure of claim 2, wherein the first ceramic layer comprises a first ceramic plate, a second ceramic plate, a third ceramic plate, a fourth ceramic plate, and a fifth ceramic plate, and the first anticorrosive layer comprises a first anticorrosive plate, a second anticorrosive plate, a third anticorrosive plate, a fourth anticorrosive plate, and a fifth anticorrosive plate, wherein;

the first ceramic plate is coated on the top surface of the bottom plate, the outer side of the first ceramic plate protrudes out of the top surface of the bottom plate, the second ceramic plate is coated outside the lower part of the upright post and the end part of the ground beam connected with the upright post, the second ceramic plate is arranged on the top surface of the bottom plate and connected with the first ceramic plate, the third ceramic plate is coated outside the middle part of the ground beam and arranged on the top surface of the bottom plate and respectively connected with the first ceramic plate and the second ceramic plate, the fourth ceramic plate is coated on the bottom surface of the bottom plate, the outer side of the fourth ceramic plate protrudes out of the bottom surface of the bottom plate, the fifth ceramic plate is coated on the outer side face of the bottom plate, is positioned between the outer side of the first ceramic plate and the outer side of the fourth ceramic plate and is respectively connected with the outer side of the first ceramic plate and the outer side of the fourth ceramic plate;

first anticorrosive board cladding is in outside the first ceramic plate, the anticorrosive board cladding of second is in the second ceramic plate with the connection of third ceramic plate the tip of second ceramic plate is outer and connect be located of stand the lower part of stand on the position, the anticorrosive board of second sets up on the first ceramic plate and connect first anticorrosive board, the anticorrosive board cladding of third is in the middle part of third ceramic plate is outer and set up be in on the first ceramic plate and connect respectively first anticorrosive board with the anticorrosive board of second, the anticorrosive board cladding of fourth is in outside the fourth ceramic plate, the anticorrosive board cladding of fifth is in on the lateral surface of fifth ceramic plate and be located first anticorrosive board with just connect respectively between the anticorrosive board of fourth first anticorrosive board with the anticorrosive board of fourth.

4. The partial raft for a medium-stroke beaded karst cave infrastructure of claim 3, wherein the first, second, third, fourth, and fifth corrosion prevention plates are all carbon fiber plates.

5. The partial raft for a medium-stroke beaded karst cave infrastructure of claim 2, wherein the raft body further comprises a plurality of rebars, the plurality of rebars being disposed in the bottom plate.

6. The partial raft for a medium weathered beaded cavern substructure of claim 2, wherein the partial raft for a medium weathered beaded cavern substructure further comprises a foundation, wherein a top end of the foundation vertically penetrates through the first anti-corrosion layer and the first ceramic layer and is connected with a bottom surface of the bottom plate.

7. The local raft for a medium weathered beaded cavern foundation structure of claim 6, further comprising connecting columns, wherein the connecting columns are arranged in an inclined manner, the upper ends of the connecting columns are obliquely arranged to penetrate through the first anticorrosive layer and the first ceramic layer and are connected with the bottom surface of the bottom plate, and the lower ends of the connecting columns are connected with the side surfaces of the foundation.

8. The local raft for medium weathered beaded cavern substructure of claim 7, further comprising a second ceramic layer and a second anti-corrosive layer, wherein the second ceramic layer is coated outside the middle part of the connecting column and the lower end of the connecting column and respectively connects the first anti-corrosive layer and the side surface of the foundation, and the second anti-corrosive layer is coated outside the second ceramic layer and respectively connects the first anti-corrosive layer and the side surface of the foundation.

9. The partial raft for a medium-stroke beaded karst cave infrastructure of claim 8, wherein the second ceramic layer is a sixth ceramic plate and the second anticorrosive layer is a sixth anticorrosive plate.

10. The partial raft for a medium-stroke beaded karst cave infrastructure of claim 9, wherein the sixth anti-corrosive plate is a carbon fiber plate.

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