CN115839148B

CN115839148B - Anti-seepage combined type archaize building brick wood

Info

Publication number: CN115839148B
Application number: CN202310159883.XA
Authority: CN
Inventors: 章振生
Original assignee: Jiangsu Yinqiao Construction Co ltd
Current assignee: Jiangsu Yinqiao Construction Co ltd
Priority date: 2023-02-24
Filing date: 2023-02-24
Publication date: 2023-06-16
Anticipated expiration: 2043-02-24
Also published as: CN115839148A

Abstract

The invention provides an anti-seepage combined type archaized building brick and wood, which belongs to the technical field of archaized building bricks and wood, and comprises a first brick and a second brick and wood, wherein the first brick and the second brick and wood are connected through a combined module, the combined module is used for realizing firm connection between the first brick and the second brick and wood, a reinforcing module is arranged at the side of the combined module, the reinforcing module is used for reinforcing the combination firmness between the first brick and the second brick and wood, a sealing module is arranged between the first brick and the second brick and wood, and the sealing module is used for realizing the tightness after the first brick and the second brick and wood are combined. The invention solves the problems of inconvenient assembly and disassembly, greatly reduced construction efficiency, partial maintenance in later period and inconvenient replacement.

Description

Anti-seepage combined type archaize building brick wood

Technical Field

The invention belongs to the technical field of archaize building brick and wood, and particularly relates to an impermeable combined archaize building brick and wood.

Background

In recent years, the domestic tourism industry is vigorously developed, and the tourist is led to repair scenic spots, and ancient architecture or wooden archaized architecture is built. The archaize building is specially used for imitating and replacing ancient building, traditional religious temple, traditional landscaping, historical building, cultural building, ancient village group and restoring the historical landscape profile. The archaize building form has broad sense and narrow sense, the broad sense archaize building form is to utilize modern building materials or traditional building materials to recreate the archaize building form in line with the traditional cultural characteristics, the narrow sense archaize building form is to utilize traditional building materials to recover the archaize building in a specific range, and strictly speaking, the archaize building form belongs to the field of cultural relics restoration, and only the broad sense archaize building form is discussed herein.

The archaize building is formed by combining the brick blocks of the archaize building, however, the brick blocks of the prior archaize building are generally combined by means of screws, riveting and the like, and the assembly and the disassembly of the brick blocks are inconvenient by adopting the traditional mode, so that the construction efficiency is greatly reduced, and the local maintenance and the replacement in the later stage are also very inconvenient.

Disclosure of Invention

The invention provides an anti-seepage combined type archaized building brick, which aims to solve the problems of inconvenient assembly and disassembly, greatly reduced construction efficiency, partial maintenance in later period and inconvenient replacement.

The embodiment of the invention provides an anti-seepage combined type archaized building brick and wood, which comprises a brick and wood block I and a brick and wood block II, wherein the brick and wood block I is connected with the brick and wood block II through a combined module, the combined module is used for realizing firm connection between the brick and wood block I and the brick and wood block II, a reinforcing module is arranged at the side of the combined module and used for reinforcing the combination firmness between the brick and wood block I and the brick and wood block II, a sealing module is arranged between the brick and wood block I and the brick and wood block II, and the sealing module is used for realizing the tightness after the brick and wood block I and the brick and wood block II are combined;

The combined module comprises a second assembly port and a third assembly port, wherein a pair of second assembly ports are reserved on the right side and the bottom of the first brick block, a pair of third assembly ports are reserved on the left side and the top of the second brick block, a pair of first grooves are reserved on the vertical two wall surfaces of the second assembly port, one surface, close to the second assembly port, of the third assembly port is opened, the other side of the third assembly port is fixedly connected with the first square block, the second square block is movably arranged in the second assembly port, the protruding blocks on the vertical two wall surfaces of the second square block are movably connected with the corresponding first grooves, a T-shaped shifting sheet is fixedly connected in the middle of the upper wall surface of the second square block, a first storage port is reserved in the second brick block and above the second assembly port, the assembly port II is communicated with the storage port through a strip-shaped ditch way I, one side of the upper end of the storage port I is opened, a shielding module is arranged at the opening of the storage port I, the upper end of a T-shaped pulling piece I extends into the storage port I, the T-shaped pulling piece I is movably connected with the strip-shaped ditch way I, rotating modules are arranged at the two transverse ends of the square block I, connecting rods are arranged at one sides of the two groups of rotating modules, which are close to the square block II, one ends of the connecting rods, which are farther away from the square block I, are connected with the square block II through the connecting modules, connecting interfaces are reserved at the two transverse ends of the square block II, the assembly port I is reserved in the connecting interfaces, and pressing modules are arranged in the connecting interfaces;

The pair of rotating modules comprises rotating columns, the rotating columns are connected with a square block I through a slewing bearing, a containing opening II is reserved in the brick block I and the brick block II and above an assembling opening III, one side of the upper end of the containing opening II is opened, the same shielding module is arranged at the opening of the containing opening II, the upper ends of the rotating columns extend into the containing opening II and are fixedly connected with rotating sheets, one ends of the rotating columns, which are farther from the rotating sheets, are fixedly connected with rotating platforms I, the outer peripheral surface of the lower end of each rotating platform is provided with tooth openings I at equal intervals, the lower parts of the rotating platforms II are respectively provided with a rotating platform II, the outer peripheral surface of the right end of each rotating platform II is provided with tooth openings II at equal intervals, the rotating platforms I and the rotating platforms II are meshed with each other through the tooth openings I and the tooth openings II, one side, which is close to the square block II, of each rotating platform II is fixedly connected with connecting columns, and each connecting column is fixedly connected with connecting rods;

the two groups of connecting modules comprise a first spiral beryllium copper wire and a first assembling port, one side, close to a connecting rod, of the first spiral beryllium copper wire is fixedly connected with a connecting block, one side, far away from the first assembling port, of the connecting block is fixedly connected with a butt joint block, and the pair of butt joint blocks are of a wedge-shaped structure;

The pair of pressing modules comprise connecting pieces, the pair of connecting pieces are fixedly connected with the connecting port, one side of the pair of connecting pieces, which is far from the connecting port, is fixedly connected with a second spiral beryllium copper wire, and one side of the pair of spiral beryllium copper wires, which is far from the connecting port, is fixedly connected with a first pressing block;

a pair of connecting rods are reserved on one side, which is far away from each other, of each connecting rod, and the butt joint interfaces are matched with the butt joint blocks on the connecting modules;

one side of the square block I, which is close to the square block II, is fixedly connected with a pair of cylinders, and the pair of cylinders are matched with the connecting rod.

By adopting the technical scheme, when in assembly, the T-shaped poking piece I is poked, the T-shaped poking piece carries the square block II to move towards the square block I, the pair of connecting rods respectively extend into the pair of connecting ports, simultaneously, the pair of connecting blocks are pressed to move, the pair of connecting blocks extend into the assembly port I, and the spiral beryllium copper wire I is pressed until the position where the butt ports on the pair of connecting rods are opposite to the butt blocks is reached, the pair of spiral beryllium copper wire I presses the pair of connecting blocks to return to the original position, simultaneously, the pair of connecting blocks extend into the butt ports, the connecting rods are connected with the press block I in a contact way, the spiral beryllium copper wire II is compressed, and the rapid combination of the combination modules is realized, the rotary plate is convenient to use and stable in combination, and when the rotary plate is disassembled, the rotary plate is pulled to rotate, so that the rotary plate drives the rotary plate I to rotate, the rotary plate I drives the rotary plate II to rotate, the connecting rod on the rotary plate II drives the connecting rod to rotate, the connecting rod rotates to disassemble the connecting block from the connecting joint, and meanwhile, the pair of spiral beryllium copper wires II return to the original state under the action of the deformation force of the connecting block I, and simultaneously press the pair of pressing blocks I, so that the pair of connecting rods are withdrawn, the combined module is quickly disassembled, the brick is convenient to disassemble and assemble, and the brick is convenient to maintain and replace.

Further, the reinforcing module comprises a fourth assembling port and a fifth assembling port, a pair of fourth assembling ports are reserved on the right and the bottom of the first brick block and the right of the second brick block, a pair of fifth assembling ports are reserved on the left and the top of the first brick block and the right of the second brick block, one surface, close to each other, of the fourth assembling port and the fifth assembling port is provided with an opening, a second ditch is reserved on the lower wall surface of the fifth assembling port, a movable block is arranged in the fifth assembling port, the lower end of the movable block is movably connected with the second ditch, a T-shaped shifting block is fixedly connected with the upper end of the movable block, a third accommodating port is reserved above the fifth assembling port in the first brick block and the second brick block, the fifth assembling port is communicated with the third accommodating port through a strip-shaped ditch, one side of the upper end of the third accommodating port is opened, the same shielding module is arranged at the opening of the third accommodating port, the upper end of the T-shaped shifting sheet II extends into a storage port III, the T-shaped shifting sheet II is movably connected with a strip-shaped ditch way II, one side of the movable block, which is close to the assembly port IV, is fixedly connected with a splicing block which is of a wedge-shaped framework, a plurality of first stop blocks are arranged on the two transverse sides of the splicing block at equal intervals, two groups of ditch ways III are reserved on the two vertical wall surfaces of the assembly port IV, a pair of second stop blocks are arranged in the assembly port IV, the protruding blocks on the two vertical wall surfaces of the second stop blocks are movably connected with the corresponding ditch ways III, the second stop blocks are of a wedge-shaped framework, one right-angle side of the second stop blocks is respectively connected with the two transverse wall surfaces of the assembly port IV through a pair of spiral beryllium copper wires III, a plurality of first stop blocks are reserved on the inclined surfaces of the second stop blocks at equal intervals, the first stop blocks correspond to the first stop blocks one by one, the device is characterized in that one end of the stop block II, which is far away from the assembly port five, is fixedly connected with the disassembly block, the disassembly block is of a wedge-shaped structure, the upper end of the disassembly block is connected with the second pressing block, the upper wall surface of the second pressing block is fixedly connected with the pressing column, the first brick block and the second brick block are reserved with the fourth storage port above the fourth assembly port, one side of the upper end of the fourth storage port is opened, the same shielding module is arranged at the opening of the fourth storage port, the upper end of the pressing column extends into the fourth storage port, a wafer is fixedly connected to one side wall, which is far away from the assembly port five, of the fourth assembly port, a spiral beryllium copper wire is fixedly connected with the fourth pressing block, and one end, which is far away from the fourth spiral beryllium copper wire, of the wafer is fixedly connected with the third pressing block.

By adopting the technical scheme, when the T-shaped shifting piece II is shifted during combination, the plug-in block connected with the movable block is shifted towards the fourth assembling port through the T-shaped shifting piece II, the stop block I at the side of the plug-in block is pressed against the stop block II to be shifted towards two sides, the spiral beryllium copper wire III is compressed, the stop block I moves to the stop port, under the deformation force of the spiral beryllium copper wire III, the spiral beryllium copper wire III is pressed against the stop block II to be shifted, then the stop block I extends into the stop port, so that the brick wood block I and the brick wood block II are combined to be reinforced, the brick wood block I and the brick wood block II are combined to be firmer, meanwhile, the block III is shifted after the plug-in block extends to the fourth assembling port by a certain depth, so that the spiral beryllium copper wire IV is compressed, a pressing column is pressed, the pressing column is moved downwards, then the pressing block II presses against the stop block to be shifted towards two sides, and the pressing block IV is pressed under the pressing block IV to be separated from the stop port, the pressing block IV is pressed against the pressing block III, the brick wood block IV is pressed against the stop block IV, the brick wood is convenient to be assembled and disassembled, and the brick wood is greatly and the brick wood is convenient to be assembled and disassembled.

Further, the shielding module comprises a pair of guide rails fixedly connected to the second storage opening, the first storage opening, the third storage opening and the fourth storage opening, a pair of changing blocks are movably arranged on each guide rail, a spiral beryllium copper wire five and a telescopic column are fixedly connected to the upper wall surface of each changing block, the spiral beryllium copper wire five is hooped on the outer peripheral surface of the telescopic column, a shielding block is fixedly connected to the movable end of the telescopic column, the top of the spiral beryllium copper wire five is fixedly connected with the bottom wall surface of the shielding block, and the shielding block is matched with the corresponding openings of the second storage opening, the first storage opening, the third storage opening and the fourth storage opening respectively.

Through adopting above-mentioned technical scheme, when needs open the opening part, lower and hide the dog, the five compression of heliciform beryllium copper wire, flexible post shortens, push away the shielding piece towards one side and change, under the effect of change piece and guide rail, one side of shielding piece is received in accomodating the mouth, thereby open the opening part of accomodating the mouth, then be convenient for to the operation of brick one with brick two, after the operation is ended, close accomodate the mouth, lower and hide the dog, the five compression of heliciform beryllium copper wire, flexible post shortens, move the shielding piece towards the another side and change, under the effect of change piece and guide rail, move the shielding piece to the opening part of accomodating the mouth, under the effect of the five deformation forces of heliciform beryllium copper wire, the shielding piece is covered the opening part of accomodating the mouth, the operation is very convenient, simultaneously through the setting up of hiding the dog, can prevent the external personnel to disassemble brick one and brick two, the security of using has been promoted.

Further, the surfaces of the first brick wood block, the second brick wood block and the shielding block are coated with waterproof paint.

Through adopting above-mentioned technical scheme, can strengthen the waterproof performance of brick wood through the coating of waterproof paint, let the service time length of brick wood prolonged greatly then, also can avoid water to permeate into inside through the brick wood, strengthened the wholeness ability of brick wood.

Further, the sealing module comprises strip-shaped openings reserved on the first side and the two sides of the brick, one end of each strip-shaped opening is opened, a plurality of wedge-shaped openings are reserved on the two lateral sides of each strip-shaped opening at equal intervals, a rubber strip is arranged in each strip-shaped opening, wedge-shaped blocks are reserved on the two sides of the two vertical ends of each rubber strip at equal intervals, the wedge-shaped blocks are made of rubber, and the wedge-shaped blocks on the two vertical ends of each rubber strip are respectively closely attached to the wedge-shaped openings on the first side and the two sides of the brick.

By adopting the technical scheme, the multiple sealing waterproof of the combined brick blocks is realized, and the firmness of the combined brick blocks is further enhanced while the waterproof of the brick blocks is realized.

The beneficial effects of the invention are as follows:

1. according to the invention, through the installation of the combined module, the T-shaped pulling piece is pulled to move towards the square block I, the square block II is carried by the T-shaped pulling piece to move towards the square block I, the pair of connecting rods respectively extend into the pair of connecting ports, the pair of connecting blocks are pressed to move, the pair of connecting blocks extend into the first assembling port and press the spiral beryllium copper wire I, until the position where the butt joint ports on the pair of connecting rods are opposite to each other, the pair of spiral beryllium copper wire I presses the pair of connecting blocks to return to the original position, the pair of connecting blocks extend into the butt joint ports, the connecting rods are connected with the pressing block I in a contact manner, the spiral beryllium copper wire II is compressed, the combined module is quickly combined, the combined module is convenient and fast to use, the combined is stable, the rotating piece is pulled to rotate, the rotating column is driven to rotate, the rotating table I drives the rotating table II to rotate, the connecting rods on the rotating table II are driven to rotate, the connecting rods are enabled to be disassembled from the butt joint blocks and the butt joint ports, the butt joint blocks are simultaneously enabled to be disassembled, the first assembling port is enabled to be in the first assembling port, the pair of spiral beryllium copper wire II is enabled to withdraw from the original position, the butt blocks are enabled to be in the first assembling port, the butt bricks are enabled to be conveniently disassembled under the self state, and the wood brick is conveniently and the combined to be quickly disassembled, and the combined and is convenient to be conveniently and disassembled.

2. According to the invention, through the installation of the reinforcing module, the T-shaped shifting piece II is shifted during the combination, the plug-in block connected with the movable block is shifted towards the fourth assembling port through the T-shaped shifting piece II, the stop block I at the side of the plug-in block is pressed against the stop block II to be shifted towards two sides, the spiral beryllium copper wire III is compressed, the stop block I moves to the stop port, under the deformation force of the spiral beryllium copper wire III, the spiral beryllium copper wire III is pressed against the stop block II to be shifted, then the stop block I extends into the stop port, so that the reinforcing of the brick block I and the brick block II is realized after the brick block I and the brick block II are combined, the brick block I and the brick block II are combined more firmly, meanwhile, the block III is shifted after the plug-in block extends to the fourth assembling port, so that the spiral beryllium copper wire IV is compressed, the pressing column is pressed down with the block II to be pressed against the stop block II to be shifted towards two sides, and the pressing block II is pressed against the stop block III under the deformation force of the spiral beryllium copper wire IV when the stop block I is separated from the stop port, the stop block I is pressed against the stop port, the brick block III is pressed against the brick block III, and the brick block II is assembled and the brick is convenient to be assembled and disassembled, and the brick is convenient and maintained, and the brick is convenient to be assembled and disassembled.

3. According to the invention, when the opening is required to be opened, the shielding block is pressed down, the spiral beryllium copper wire is compressed five, the telescopic column is shortened, the shielding block is pushed to move towards one side, one side of the shielding block is retracted into the accommodating opening under the action of the changing block and the guide rail, so that the opening of the accommodating opening is opened, the operation of combining the first brick block and the second brick block is facilitated, after the operation is finished, the accommodating opening is closed, the shielding block is pressed down, the spiral beryllium copper wire is compressed five, the telescopic column is shortened, the shielding block is pushed to move towards the other side, the shielding block is moved to the opening of the accommodating opening under the action of the changing block and the guide rail, the shielding block shields the opening of the accommodating opening under the action of the spiral beryllium copper wire five-deformation force, the operation is very convenient, and meanwhile, the disassembling of the first brick block and the second brick block by an external person can be prevented, and the use safety is improved.

4. The waterproof paint is coated on the surfaces of the first brick block, the second brick block and the shielding block, the waterproof performance of the brick and the wood can be enhanced through the coating of the waterproof paint, the service life of the brick and the wood is prolonged greatly, water can be prevented from penetrating into the brick and the wood through the brick and the wood, and the overall performance of the brick and the wood is enhanced.

5. The invention realizes the repeated sealing and waterproofing after the brick blocks are combined by arranging the sealing module, and further enhances the firmness after the brick blocks are combined while realizing the waterproofing of the brick blocks.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention may be realized and attained by the structure particularly pointed out in the written description and drawings.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

FIG. 1 is a schematic top view of a block assembly according to an embodiment of the present invention;

FIG. 2 is a schematic view of an open structure of a shutter according to an embodiment of the present invention;

FIG. 3 is a schematic cross-sectional view of the A-A direction of FIG. 1 according to an embodiment of the present invention;

FIG. 4 is an enlarged schematic view of the structure of FIG. 3 according to the embodiment of the present invention;

FIG. 5 is an enlarged schematic view of the structure of FIG. 3 b according to the embodiment of the present invention;

FIG. 6 is a schematic diagram of an assembly structure of a deblocking block and a briquetting block according to an embodiment of the present invention;

FIG. 7 is an enlarged schematic view of the structure of FIG. 4 according to the embodiment of the present invention;

FIG. 8 is a schematic view of an assembly structure of a shielding module according to an embodiment of the present invention;

fig. 9 is a schematic structural view of a compression module according to an embodiment of the present invention;

FIG. 10 is a schematic view of a four-assembly structure of a helical beryllium copper wire according to an embodiment of the present invention;

FIG. 11 is a schematic view of a seal module according to an embodiment of the present invention;

reference numerals: 1. brick wood block I; 2. brick wood blocks II; 3. a combination module; 4. a reinforcement module; 5. a sealing module; 31. an assembly port II; 32. an assembly port III; 33. a ditch way I; 34. square block I; 35. rotating the module; 351. rotating the column; 3511. a second storage port; 352. a rotating plate; 353. rotating the first table; 354. a rotating table II; 355. a connecting column; 36. a cylinder; 37. a connecting rod; 38. a linking module; 381. a first spiral beryllium copper wire; 382. a joint block; 383. a butt joint block; 39. a compression module; 391. a connecting piece; 392. spiral beryllium copper wire II; 393. a first pressing block; 310. a connecting port; 311. the first assembly port is formed; 312. square block II; 3121. t-shaped shifting piece I; 3122. a first storage port; 313. an interface; 41. the assembly port is IV; 42. an assembling port V; 43. a second ditch; 44. a movable block; 45. t-shaped shifting piece II; 451. a third storage port; 46. a plug block; 47. a first stop block; 48. a ditch way III; 49. a stop block II; 410. spiral beryllium copper wire III; 411. a stop opening; 412. disassembling the block; 413. pressing a second block; 414. pressing a column; 4141. a fourth storage port; 415. a wafer; 416. spiral beryllium copper wire IV; 417. pressing into a third block; 321. a guide rail; 322. a change block; 323. fifthly, a spiral beryllium copper wire; 324. a telescopic column; 325. a shielding block; 51. a strip-shaped opening; 52. a wedge-shaped opening; 53. a rubber strip; 54. wedge blocks.

Detailed Description

In order to make the objects, technical solutions and advantages of the technical solutions of the present invention more clear, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings of specific embodiments of the present invention. Like reference numerals in the drawings denote like parts. It should be noted that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be made by a person skilled in the art without creative efforts, based on the described embodiments of the present invention fall within the protection scope of the present invention.

Referring to fig. 1-11, an embodiment of the invention provides an anti-seepage combined archaized building brick, which comprises a brick block 1 and a brick block 2, wherein the brick block 1 and the brick block 2 are connected through a combined module 3, the combined module 3 is used for realizing firm connection between the brick block 1 and the brick block 2, a reinforcing module 4 is arranged at the side of the combined module 3, the reinforcing module 4 is used for reinforcing the firmness of combination between the brick block 1 and the brick block 2, a sealing module 5 is arranged between the brick block 1 and the brick block 2, and the sealing module 5 is used for realizing tightness after the brick block 1 and the brick block 2 are combined.

The combined module 3 comprises a second assembling port 31 and a third assembling port 32, a pair of second assembling ports 31 are reserved on the right side and the bottom of the first and second bricks 1 and 2, a pair of third assembling ports 32 are reserved on the left side and the top of the first and second bricks 1 and 2, a pair of first ditch paths 33 are reserved on the vertical two wall surfaces of the second assembling ports 31, one surface of the second assembling ports 31 and the third assembling ports 32 close to each other is provided with an opening, the other side of the third assembling ports 32 is fixedly connected with a square block 34, a square block 312 is movably arranged in the second assembling ports 31, a protruding block on the vertical two wall surfaces of the square block 312 is movably connected with the corresponding first ditch path 33, a T-shaped shifting block 3121 is fixedly connected to the middle position of the upper wall surface of the square block 312, a storage port 3122 is reserved in the first brick block 31 and the second brick block 31, a square block 3122 is arranged on one side of the block 3122, a square block 37 is connected with the first block 312 in a rotating way, a square block 312 is arranged on one side of the block 3122, a square block 37 is connected with the block 312 in a rotating way, a square block 37 is connected with the block 312 via a square block 312, a square block 312 is arranged on one side of the block 312, a square block 37 is connected with the block 312 via a square block 312, a square block 37 is connected with the block 37 via a square block 37, a square block 35, a joint is connected with the two end 35, and a square block 37 is connected with the two end through a square block 35, for assembly and use of compression module 39, compression module 39 is mounted in a pair of interfaces 310.

The two groups of the linking modules 38 comprise a first spiral beryllium copper wire 381 which is fixedly connected with the first assembling port 311, one side of the first spiral beryllium copper wire 381, which is close to the linking rod 37, is fixedly connected with a linking block 382, one side of the first linking block 382, which is far from the first assembling port 311, is fixedly connected with a butting block 383, the butting block 383 is in a wedge-shaped structure, the butting block 383 is pulled to change through the first spiral beryllium copper wire 381 so that the butting block 383 can extend into the butting port 313 and is connected with the linking rod 37, the pressing module 39 comprises a linking piece 391, the linking piece 391 is fixedly connected with the linking port 310, one side of the linking piece 391, which is far from the linking port 310, is fixedly connected with a second spiral beryllium copper wire 392, one side of the second spiral beryllium copper wire 392, which is far from the linking port 310, is fixedly connected with a pressing block 393, the change of the pressing block 393 is pressed through the second spiral beryllium copper wire 392, the connection rod 37 is then easy to be disassembled, so that the connection rod 37 and the connection opening 310 are more quickly disassembled, a pair of rotating modules 35 comprise rotating columns 351, the rotating columns 351 are connected with a square block I34 through a slewing bearing, a containing opening II 3511 is reserved in the brick block I1 and the brick block II 2 and above the assembling opening III 32, one side of the upper end of the containing opening II 3511 is opened, the same shielding module is arranged at the opening of the containing opening II 3511, the upper end of the rotating column 351 extends into the containing opening II 3511 and is fixedly connected with a rotating sheet 352, one end of the rotating column 351 which is farther from the rotating sheet 352 is fixedly connected with a rotating table I353, a tooth opening I is reserved on the outer circumferential surface of the lower end of the rotating table I353, a tooth opening II 354 is reserved on the outer circumferential surface of the right end of the rotating table II 354 at equal intervals, the first rotating table 353 and the second rotating table 354 are meshed with each other through the first tooth mouth and the second tooth mouth, one pair of rotating tables 354 is close to one side of the square block 312 and fixedly connected with the connecting column 355, the rotating column 351 is pulled to rotate through the rotating sheet 352, the rotating column 351 drives the first rotating table 353 to rotate, the first rotating table 353 drives the second rotating table 354 to drive the connecting rod 37 to rotate, one pair of rotating tables 354 is fixedly connected with the connecting rod 37, one side of the square block 34 close to the second square block 312 is fixedly connected with the pair of cylinders 36, the pair of cylinders 36 are matched with the connecting rod 37, the cylinders 36 are used for protecting the connecting rod 37, the connecting rod 37 is more firmly applied, one side of the connecting rod 37 which is far away from each other is reserved with the opposite connector 313, the opposite connector 313 is matched with the opposite connector 383 on the connecting module 38, so that the opposite connector 383 is conveniently disassembled and assembled, and simultaneously, the brick is conveniently disassembled and replaced.

The reinforcing module 4 comprises a fourth assembling port 41 and a fifth assembling port 42, a pair of fourth assembling ports 41 are reserved on the right and bottom of the first brick block 1 and the second brick block 2, a pair of fifth assembling ports 42 are reserved on the left and top of the first brick block 1 and the second brick block 2, one surface of the fourth assembling port 41 and one surface of the fifth assembling port 42, which are close to each other, are provided with openings, a second ditch 43 is reserved on the lower wall surface of the fifth assembling port 42, a movable block 44 is arranged in the fifth assembling port 42, the lower end of the movable block 44 is movably connected with the second ditch 43, a T-shaped pulling block 45 is fixedly connected with the upper end of the movable block 44, a third accommodating port 451 is reserved in the first brick block 1 and the second brick block 2 and above the fifth assembling port 42, the fifth assembling port 42 is communicated with the third accommodating port 451 through a second strip-shaped ditch, one side of the upper end of the third accommodating port 451 is provided with openings, the same shielding module is arranged at the opening of the receiving opening III 451, the upper end of the T-shaped pulling piece II 45 extends into the receiving opening III 451, the T-shaped pulling piece II 45 is movably connected with the strip-shaped groove III 48, one side of the movable block 44 close to the assembling opening IV 41 is fixedly connected with the inserting block 46, the inserting block 46 is of a wedge-shaped framework, a plurality of first stop blocks 47 are arranged at equal intervals on the transverse two sides of the inserting block 46, two groups of groove III 48 are reserved on the vertical two wall surfaces of the assembling opening IV 41, a pair of second stop blocks 49 are arranged in the assembling opening IV 41, the protruding blocks on the vertical two wall surfaces of the second stop blocks 49 are movably connected with the corresponding groove III 48, the second stop blocks 49 are of a wedge-shaped framework, one right angle side of the second stop blocks 49 is respectively connected with the transverse two wall surfaces of the assembling opening IV 41 through a pair of spiral beryllium wires III 410, a plurality of stop openings 411 are reserved on the inclined surface of the stop block II 49 at equal intervals, the stop openings 411 are in one-to-one correspondence with the stop block I47, one end of the stop block II 49 which is farther from the assembly opening IV 42 is fixedly connected with a disassembly block 412, the disassembly block 412 is of a wedge-shaped framework, the upper end of the disassembly block 412 is in contact with the press block II 413, a pressing column 414 is fixedly connected on the upper wall surface of the press block II 413, a storage opening IV 4141 is reserved in the brick block I1 and the brick block II 2 and above the assembly opening IV 41, one side of the upper end of the storage opening IV 4141 is opened, the opening of the storage opening IV 4141 is provided with the same shielding module, the upper end of the pressing column 414 extends into the storage opening IV 4141, the side wall of the assembly opening IV 41 which is farther from the assembly opening IV 42 is fixedly connected with a wafer 415, the wafer 415 is positioned between the disassembly blocks 412, the disc 415 is close to a wall surface of the assembly port five 42 and is fixedly connected with a spiral beryllium copper wire four 416, one end of the spiral beryllium copper wire four 416, which is farther from the disc 415, is fixedly connected with a pressing block three 417, when the disc 415 is assembled, the T-shaped shifting plate two 45 is shifted, the plug-in block 46 connected with the movable block 44 is moved towards the assembly port four 41 through the T-shaped shifting plate two 45, the stop block one 47 at the side of the plug-in block 46 is pressed against the stop block two 49 to move towards two sides, the spiral beryllium copper wire three 410 is compressed, when the stop block one 47 is moved to the stop port 411, the spiral beryllium copper wire three 410 is pressed against the stop block two 49 to move under the deformation force of the spiral beryllium copper wire three 410, then the stop block one 47 is extended into the stop port 411, so that the reinforcement after the brick block one 1 is assembled with the brick block two 2 is achieved, the brick block one 1 is combined with the brick block two 2 is more firmly, and at the same time, after the plug-in block 46 is extended to a certain depth into the assembly port four 41, the pressing block three 417 is moved, therefore, the spiral beryllium copper wire IV 416 is compressed, when the press column 414 is pressed down, the press column 414 moves downwards with the press block II 413, the press block II 413 presses the disassembling block 412 to move towards two sides, and when the stop block I47 is separated from the stop opening 411, the press block III 417 pushes the plug block 46 out of the assembly opening IV 41 under the deformation force of the spiral beryllium copper wire IV 416, so that the rapid disassembly and assembly of the reinforcing module 4 are achieved, the construction time is greatly saved, the convenience is brought, and meanwhile, the maintenance and replacement of bricks and wood are also facilitated.

The shielding module comprises a pair of guide rails 321 fixedly connected to the second storage port 3511, the first storage port 3122, the third storage port 451 and the fourth storage port 4141, a pair of changing blocks 322 are movably arranged on each guide rail 321, a pair of spiral beryllium copper wire five 323 and a telescopic column 324 are fixedly connected to the upper wall surface of each changing block 322, the spiral beryllium copper wire five 323 is hooped on the outer peripheral surface of the telescopic column 324, the movable end of the telescopic column 324 is fixedly connected with a shielding block 325, the top of the spiral beryllium copper wire five 323 is fixedly connected with the bottom wall surface of the shielding block 325, the shielding block 325 is respectively matched with the corresponding second storage port 3511, the first storage port 3122, the third storage port 451 and the opening of the fourth storage port 4141, when the opening is required to be opened, the lower pressing block 325, the spiral beryllium copper wire five 323 is compressed, the shielding block 325 is pushed towards one side, under the action of the changing block 322 and the guide rails 321, the one side of the shielding block 325 is pushed down, the operation of the opening is conveniently and the opening is closed, the two side of the opening is opened, the opening is conveniently opened, the opening is closed, the opening is opened, the opening is closed, and the opening is opened, the opening is closed, the opening is opened, and the opening is closed, and the opening is opened, and the opening is convenient, and the opening is opened.

The surfaces of the brick block 1, the brick block 2 and the shielding block 325 are coated with waterproof paint, the waterproof performance of the brick can be enhanced through the coating of the waterproof paint, the service life of the brick is prolonged greatly, water can be prevented from penetrating into the brick through the brick, and the overall performance of the brick is enhanced.

The sealing module 5 comprises strip-shaped openings 51 reserved on the side edges of the first brick block 1 and the second brick block 2, one end of each strip-shaped opening 51 is opened, a plurality of wedge-shaped openings 52 are reserved on the two lateral sides of each strip-shaped opening 51 at equal intervals, a rubber strip 53 is arranged in each strip-shaped opening 51, wedge-shaped blocks 54 are reserved on the two sides of the two vertical ends of each rubber strip 53 at equal intervals, each wedge-shaped block 54 is made of rubber, and the wedge-shaped blocks 54 on the two vertical ends of each rubber strip 53 are respectively tightly attached to the wedge-shaped openings 52 on the side edges of the first brick block 1 and the second brick block 2, so that multiple sealing and waterproofing of the combined bricks are realized, and the firmness of the combined bricks is further enhanced while the waterproofing of the bricks is realized.

The implementation mode specifically comprises the following steps: when the brick and wood blocks are combined, the two vertical ends of the rubber strip 53 are aligned with the strip-shaped openings 51 on the brick and wood block 1 and the brick and wood block 2, the brick and wood block 1 and the brick and wood block 2 are close to each other, then the rubber strip 53 is pressed into the strip-shaped opening 51, the wedge-shaped block 54 is embedded into the wedge-shaped opening 52, the sealing waterproof of the brick and wood blocks is realized for many times, the firmness of the brick and wood blocks after the brick and wood block combination is further enhanced, the brick and wood block is waterproof, the shielding block 325 is pressed down, the spiral beryllium copper wire five 323 is compressed, the telescopic column 324 is shortened, the shielding block 325 is pushed towards one side to be changed, one side of the shielding block 325 is taken into the receiving opening under the action of the changing block 322 and the guide rail 321, so that the openings of all the receiving openings are opened, the T-shaped shifting block 3121 is shifted, the T-shaped shifting block 3121 is changed towards the square block 34, the square block 312 is moved towards the square block 34, the pair of connecting rods 37 are respectively extended into the pair of connecting openings 310, simultaneously pressing the pair of counter blocks 383 to move, the pair of counter blocks 383 to extend into the first assembling port 311 and pressing the first spiral beryllium copper wire 381 until the position where the counter ports 313 and the counter blocks 383 on the pair of engagement bars 37 face each other, the pair of spiral beryllium copper wires 381 press the pair of counter blocks 383 back to the original position, simultaneously allowing the pair of counter blocks 383 to extend into the counter ports 313 and the engagement bars 37 to be in contact with the first pressing block 393, compressing the second spiral beryllium copper wires 392, stirring the second T-shaped stirring plate 45, allowing the plug-in block 46 connected with the movable block 44 to move towards the fourth assembling port 41 through the second T-shaped stirring plate 45, pressing the first stop block 47 on the side of the plug-in block 46 to move towards the two sides, compressing the third spiral beryllium copper wire 410, moving the first stop block 47 to the position of the third spiral beryllium copper wire 410 under the deformation force of the third spiral beryllium copper wire 410, screw beryllium copper wire III 410 presses stop block II 49 to change, then stop block I47 stretches into stop opening 411, so as to achieve the reinforcement of brick wood block I1 and brick wood block II 2 after being combined, brick wood block I1 and brick wood block II 2 are combined more firmly, meanwhile, plug-in block 46 stretches to a certain depth of assembly opening IV, pressing block III 417 changes, so that screw beryllium copper wire IV 416 is compressed, quick assembly of brick wood block I1 and brick wood block II 2 is realized, when assembly is completed, shielding block 325 is pressed down, screw beryllium copper wire V323 is compressed, telescopic column 324 shortens, shielding block 325 is pushed to change towards the other side, shielding block 325 is moved to the opening of the receiving opening under the action of change block 322 and guide rail 321, the opening of the receiving opening is shielded by the screw beryllium copper wire V323, operation is very convenient, and simultaneously, through installation of shielding block 325, the disassembly of brick wood block I1 and brick wood block II by external personnel can be prevented, and the safety of brick is improved;

When the first brick block 1 and the second brick block 2 are disassembled, the shielding block 325 is pressed down, the spiral beryllium copper wire five 323 is compressed, the telescopic column 324 is shortened, the shielding block 325 is pushed to one side to change, one side of the shielding block 325 is retracted into the accommodating opening under the action of the changing block 322 and the guide rail 321, the opening of the accommodating opening is opened, the rotating sheet 352 is rotated, the rotating sheet 352 pulls the rotating column 351 to rotate, the rotating column 351 drives the rotating table first 353 to rotate, the rotating table first 353 drives the rotating table second 354 to rotate, the connecting rod 37 is driven by the connecting column 355 on the rotating table second 354 to rotate, the connecting rod 37 rotates to enable the abutting block 383 to be disassembled from the abutting opening 313, and meanwhile, the abutting block 383 is enabled to be received into the first assembling opening 311, at the moment, the pair of spiral beryllium copper wires two 392 return to the original state under the action of deformation force of the abutting block 322, the abutting block is simultaneously pressed against the first 393, then the pair of the abutting block 37 is enabled to be withdrawn, the pressing sheet 414 is pressed down by the pressing sheet 414, the pressing block two 413 is driven to rotate, the abutting block two 413 is pressed against the abutting block two connecting block 413, the abutting block 412 is enabled to be pressed against the abutting block to face the first 353, the abutting block is enabled to be rapidly separated from the abutting block 47, and the abutting block is rapidly disassembled from the abutting block 4, and the brick block is assembled under the condition of the four-shaped brick block is assembled, and the brick block is assembled with the convenience and the 4 is assembled and disassembled, and the brick block is quickly and disassembled.

The foregoing has shown and described the basic principles and main features of the present invention and the advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The anti-seepage combined type archaized building brick comprises a first brick (1) and a second brick (2), and is characterized in that the first brick (1) is connected with the second brick (2) through a combined module (3), the combined module (3) is used for realizing firm connection between the first brick (1) and the second brick (2), a reinforcing module (4) is arranged on the side of the combined module (3), the reinforcing module (4) is used for reinforcing the firmness of combination between the first brick (1) and the second brick (2), a sealing module (5) is arranged between the first brick (1) and the second brick (2), and the sealing module (5) is used for realizing the tightness after the first brick (1) and the second brick (2) are combined;

The combined module (3) comprises a second assembling port (31) and a third assembling port (32), a pair of second assembling ports (31) are reserved on the right side and the bottom of the first and second bricks (1, 2), a pair of third assembling ports (32) are reserved on the left side and the top of the first and second bricks (1, 2), a pair of first grooves (33) are reserved on the vertical two wall surfaces of the second assembling port (31), one side of the second assembling port (31) and one side of the third assembling port (32) close to each other are all openings, the other side of the third assembling port (32) is fixedly connected with a first square block (34), a square block (312) is movably arranged in the second assembling port (31), a block on the vertical two wall surfaces of the second square block (312) is movably connected with the corresponding first groove (33), a T-shaped block 3121 is fixedly connected with the middle part of the upper wall surface of the second square block (312), a first square block 3122 is arranged in the first groove 3122, a second block 3122 is arranged on the first block (31), a second block 3122 is arranged on the second block (312), a second block 3122 is arranged on the first block (31) and is arranged on the first block 3122, the upper end of the T-shaped pulling piece I (3121) extends into the accommodating opening I (3122), the T-shaped pulling piece I (3121) is movably connected with the strip-shaped ditch I, the two transverse ends of the square block I (34) are provided with rotating modules (35), one side, close to the square block II (312), of each rotating module (35) is provided with a connecting rod (37), one end, farther from the square block I (34), of each connecting rod (37) is connected with the square block II (312) through a connecting module (38), two transverse ends of the square block II (312) are respectively reserved with connecting interfaces (310), the two transverse ends of each connecting interface (310) are respectively reserved with an assembling opening I (311), and the pair of connecting interfaces (310) are respectively provided with a pressing module (39);

The pair of rotating modules (35) comprises rotating columns (351), the pair of rotating columns (351) are connected with the first square block (34) through a slewing bearing, a containing opening II (3511) is reserved above the assembly opening III (32) in the first brick block (1) and the second brick block (2), one side of the upper end of the containing opening II (3511) is opened, the same shielding module is arranged at the opening of the containing opening II (3511), the upper ends of the rotating columns (351) extend into the containing opening II (3511) and are fixedly connected with rotating plates (352), one end of each rotating column (351) which is farther away from the rotating plate (352) is fixedly connected with a rotating table III (353), a tooth opening I is reserved on the outer peripheral surface of the lower end of each rotating table III (353), a tooth opening II (354) is reserved on the outer peripheral surface of the right end of each rotating table III (3511) at equal intervals, the tooth opening II (354) is fixedly connected with the rotating table III (353) through the rotating table III (353), and the rotating columns (354) are fixedly connected with the rotating columns (37) on one side of each rotating column III;

The two groups of connecting modules (38) comprise a pair of spiral beryllium copper wires (381) which are fixedly connected with an assembly port (311), one side, close to the connecting rod (37), of each pair of spiral beryllium copper wires (381) is fixedly connected with a connecting block (382), one side, far away from the assembly port (311), of each connecting block (382) is fixedly connected with a butt joint block (383), and each pair of butt joint blocks (383) is of a wedge-shaped structure;

the pair of compression modules (39) comprises connecting pieces (391), the pair of connecting pieces (391) are fixedly connected with the connecting opening (310), one side, far away from the connecting opening (310), of the pair of connecting pieces (391) is fixedly connected with a spiral beryllium copper wire II (392), and one side, far away from the connecting opening (310), of the pair of spiral beryllium copper wires II (392) is fixedly connected with a pressing block I (393);

a pair of the connecting rods (37) are reserved with a pair of interfaces (313) on one side which is far away from each other, and the interfaces (313) are matched with the butt joint blocks (383) on the connecting modules (38);

one side of the square block I (34) close to the square block II (312) is fixedly connected with a pair of cylinders (36), and the pair of cylinders (36) are matched with the connecting rod (37).

2. The impermeable modular archaized building block of claim 1, wherein: the reinforcing module (4) comprises a fourth assembling port (41) and a fifth assembling port (42), a pair of the fourth assembling port (41) is reserved on the right and the bottom of the first and the second bricks (1, 2), a pair of the fifth assembling ports (42) is reserved on the left and the top of the first and the second bricks (1, 2), one surfaces of the fourth assembling port (41) and the fifth assembling port (42) close to each other are all opened, a second groove (43) is reserved on the lower wall surface of the fifth assembling port (42), a movable block (44) is arranged in the fifth assembling port (42), the lower end of the movable block (44) is movably connected with the second groove (43), a T-shaped shifting block (45) is fixedly connected with the upper end of the movable block (44), a third accommodating port (451) is reserved in the first and the second bricks (2) and is positioned above the fifth assembling port (42), a second groove (451) is reserved on the lower wall surface of the fifth assembling port, a second groove (451) is reserved on the upper surface of the second groove (45), the second groove (45) is connected with the third groove (451) through the second groove (45), the second groove (451) is connected with the third groove (45) through the second groove (45), the movable block (44) is close to one side of the assembly port IV (41) and fixedly connected with the inserting block (46), the inserting block (46) is of a wedge-shaped framework, a plurality of first stopping blocks (47) are arranged on two transverse sides of the inserting block (46) at equal intervals, two groups of three grooves (48) are reserved on two vertical wall surfaces of the assembly port IV (41), a pair of second stopping blocks (49) are arranged in the assembly port IV (41), protruding blocks on two vertical wall surfaces of the second stopping blocks (49) are movably connected with the corresponding three grooves (48), the second stopping blocks (49) are of a wedge-shaped framework, one right-angle side of the pair of second stopping blocks (49) is connected with two transverse wall surfaces of the assembly port IV (41) through a pair of spiral beryllium copper wires III (410), a plurality of stopping ports (411) are reserved on inclined surfaces of the second stopping blocks (49) at equal intervals, one end opening (411) is connected with the corresponding first stopping block (412) and the second stopping block (412) in a detachable mode, the second stopping blocks (412) are connected with the corresponding second stopping blocks (412) in a detachable mode, and the two stopping blocks (413) are connected with the two pressing blocks (413) in a detachable mode, the novel brick comprises a brick block I (1) and a brick block II (2), wherein a containing port IV (4141) is reserved above an assembling port IV (41), one side of the upper end of the containing port IV (4141) is provided with an opening, the same shielding module is arranged at the opening of the containing port IV (4141), the upper end of a pressing column (414) extends into the containing port IV (4141), a wafer (415) is fixedly connected to one side wall, far away from the assembling port IV (42), of the assembling port IV (41), the wafer (415) is positioned between a pair of disassembling blocks (412), one wall surface, close to the assembling port IV (42), of the wafer (415) is fixedly connected with a spiral beryllium copper wire IV (416), and one end, far away from the wafer (415), of the spiral beryllium copper wire IV (416) is fixedly connected with a pressing block III (417).

3. The impermeable modular archaized building block of claim 2, wherein: the shielding module comprises a pair of guide rails (321) fixedly connected to the second storage opening (3511), the first storage opening (3122), the third storage opening (451) and the fourth storage opening (4141), a pair of variable blocks (322) are movably arranged on each guide rail (321), a spiral beryllium copper wire five (323) and a telescopic column (324) are fixedly connected to the upper wall surface of each variable block (322), the spiral beryllium copper wire five (323) is hooped on the outer peripheral surface of the telescopic column (324), shielding blocks (325) are fixedly connected to the movable end of the telescopic column (324), the top of the spiral beryllium copper wire five (323) is fixedly connected with the bottom wall surface of each shielding block (325), and the shielding blocks (325) are respectively matched with the openings of the corresponding second storage opening (3511), the first storage opening (3122), the third storage opening (451) and the fourth storage opening (4141).

4. A modular anti-seepage archaized construction block according to claim 3, wherein: the surfaces of the first brick block (1), the second brick block (2) and the shielding block (325) are coated with waterproof paint.

5. The impermeable modular archaized building block of claim 1, wherein: the sealing module (5) comprises strip-shaped openings (51) reserved on the side of the first brick block (1) and the side of the second brick block (2), one end of each strip-shaped opening (51) is opened, a plurality of wedge-shaped openings (52) are reserved on the two lateral sides of each strip-shaped opening (51) at equal intervals, rubber strips (53) are arranged in each strip-shaped opening (51), wedge-shaped blocks (54) are reserved on the two sides of each of the two vertical ends of each rubber strip (53) at equal intervals, the wedge-shaped blocks (54) are made of rubber, and the wedge-shaped blocks (54) on the two vertical ends of each rubber strip (53) are closely attached to the wedge-shaped openings (52) on the side of the first brick block (1) and the side of the second brick block (2).