CN114575547A - Engaged composite energy dissipation and shock absorption assembled T-shaped mold wall - Google Patents

Abstract

The invention discloses an engaged composite energy-consuming and shock-absorbing assembled T-shaped mold wall, which relates to the technical field of mold walls and adopts the technical scheme that: the hollow-out sound-absorbing wall comprises a bottom frame, wherein the bottom frame is of a hollow rectangular structure, the periphery of the bottom frame is fixedly mounted on the outer wall of a wall body through first bolts, concave platforms are arranged on the surface of the bottom frame, sound-absorbing pads are fixedly mounted on the inner walls of the concave platforms and comprise substrates, the tops of the substrates are fixedly connected with rectangular frames, the inner walls of the rectangular frames are fixedly connected with limiting edges, the bottoms of the substrates are flush with the bottom of the bottom frame, first screw holes are uniformly formed in the surfaces of the substrates, sound-absorbing boards are inserted into the tops of the sound-absorbing pads, and keels are fixedly mounted on the tops of the sound-absorbing pads.

Description

Engaged composite energy dissipation and shock absorption assembled T-shaped mold wall

Technical Field

The invention relates to the technical field of mould walls, in particular to an engaged composite energy-consuming and shock-absorbing assembled T-shaped mould wall.

Background

The outer wall of a building is generally decorated by installing a mold wall on the surface of the outer wall of the building, the mold wall is mostly installed on the outer wall of an office building, a commercial building and the like, and the mold wall generally has the functions of decoration, water resistance, heat preservation, water resistance and the like on the surface of the wall and is generally used on the outer wall.

The prior art has the following defects: the current mould wall body is comparatively complicated on the mounting means, and is higher to installer's technical requirement, and traditional mould wall body does not have the damping function simultaneously, and mould wall body in use receives sound wave, wall body vibration effect down for a long time, appears easily that mould wall body surface causes the structure to become flexible because of the vibration, and the mould wall body has the risk of certain droing, and the effect that gives sound insulation simultaneously is relatively poor, and the implementation performance of mould wall body is lower.

Therefore, the invention is necessary to invent the engagement type composite energy dissipation and shock absorption assembly type T-shaped mold wall.

Disclosure of Invention

Therefore, the engaged composite energy-consuming and damping assembled T-shaped matrix wall is provided, and the silencing pad and the sound-absorbing board are matched for use, so that vibration generated indoors and vibration of sound waves are absorbed conveniently, the influence of indoor vibration on the surface of the matrix wall is reduced, the sound insulation effect of the wall is improved, the silence of an indoor environment is improved, and the problems in the background art are solved.

In order to achieve the above purpose, the invention provides the following technical scheme: a meshed composite energy-consuming and shock-absorbing assembled T-shaped matrix wall comprises a bottom frame, wherein the bottom frame is of a hollowed rectangular structure, the periphery of the bottom frame is fixedly mounted on the outer wall of the wall through a first bolt, a concave table is formed in the surface of the bottom frame, a sound-absorbing pad is fixedly mounted on the inner wall of the concave table and comprises a substrate, the top of the substrate is fixedly connected with a rectangular frame, the inner wall of the rectangular frame is fixedly connected with a limiting edge, the bottom of the substrate is flush with the bottom of the bottom frame, a first screw hole is uniformly formed in the surface of the substrate, a sound-absorbing plate is inserted into the top of the sound-absorbing pad, a keel is fixedly mounted at the top of the sound-absorbing pad, a buckle plate is fixedly mounted on the surface of the bottom frame, a shock-absorbing buckle is uniformly and fixedly mounted on the surface of the buckle plate, the shock-absorbing buckle is meshed with a panel, the shock-absorbing buckle comprises a base, and the base is fixedly mounted on the surface of the buckle plate through a third bolt, the base is bow-shaped, base inner wall elastic connection elastic buffer, elastic buffer top fixed mounting bracing piece, bracing piece top fixed connection supporting shoe, supporting shoe top fixed mounting elasticity card arris.

Preferably, the panel comprises a T-shaped plate and a U-shaped plate, and the bottom surfaces of the T-shaped plate and the U-shaped plate are fixedly provided with the clamping columns.

Preferably, the clamping columns are uniformly distributed on the surfaces of the T-shaped plate and the U-shaped plate and are in interference fit with the elastic clamping edges.

Preferably, the sound-absorbing plate is rectangular, a limiting groove is formed in the bottom of the sound-absorbing plate, filling grooves are uniformly formed in the inner side of the limiting groove, soundproof cotton is filled in the inner wall of the filling groove, and the soundproof cotton is uniformly distributed on the inner wall of the filling groove.

Preferably, the fossil fragments include the main joist, recess one is evenly seted up on main joist top surface, main joist top joint false keel, recess two is evenly seted up on false keel bottom surface.

Preferably, the second groove is clamped with the first groove in a matched mode, the second bolt holes are formed in the center positions of the first groove and the second groove, the second bolt holes are connected with the second bolt holes through threads in the inner walls of the second bolt holes, and the second screw holes are formed in the end portions of the main keel and the auxiliary keel.

Preferably, keel positioning grooves are formed in the periphery of the surface of the concave table and are uniformly distributed on the periphery of the surface of the concave table.

Preferably, the central position of the keel positioning groove is fixedly connected with a bolt, and a first bolt hole is formed in the central position of the bolt.

Preferably, the end parts of the main keel and the auxiliary keel are respectively inserted into the inner wall of the keel positioning groove, and the second screw hole is fixedly connected with the first bolt hole through a bolt.

Preferably, the buckle plate mounting groove is evenly seted up all around on the underframe surface, the buckle plate is evenly fixed mounting hangers all around, the hangers is pegged graft with the cooperation of buckle plate mounting groove, pass through bolt fixed connection between hangers and the buckle plate mounting groove.

The invention has the beneficial effects that:

1. by arranging the bottom frame and fixedly installing the bottom frame on the surface of the wall body through the first bolt, the structural stability and safety of the integral installation of the mold wall body are improved, the durability of the equipment use is improved, and meanwhile, the mold wall body is convenient to install;

2. the silencing pad is matched with the sound-absorbing plate for use, so that vibration generated indoors and vibration of sound waves can be absorbed conveniently, the influence of indoor vibration on the surface of a mould wall body is reduced, the sound-insulating effect of the wall body is improved, and the silence of the indoor environment is improved;

3. carry out interference fit through setting up between elasticity card arris and the joint post, aim at buckle board with T-shaped plate and U-shaped plate through setting up, through strikeing T-shaped plate and U-shaped plate surface afterwards for elasticity card arris is extruded behind the joint post atress, thereby make inside the joint post inserts elasticity card arris, thereby conveniently install T-shaped plate and U-shaped plate, the efficiency of installation T-shaped plate and U-shaped plate has been improved, make things convenient for the later stage to dismantle and overhaul at T-shaped plate and U-shaped plate simultaneously, the practicality of equipment usage has been improved.

Drawings

FIG. 1 is a schematic top view of the present invention;

FIG. 2 is a schematic bottom view of the present invention;

fig. 3 is a schematic top view of the bottom frame according to the present invention;

FIG. 4 is a schematic bottom view of the silencing pad of the present invention;

FIG. 5 is a schematic bottom view of the acoustic panel of the present invention;

figure 6 is a schematic view of a keel structure provided by the present invention;

FIG. 7 is a schematic view of a latch plate according to the present invention;

FIG. 8 is an exploded view of the vibration-damping buckle according to the present invention;

FIG. 9 is a schematic bottom view of a panel according to the present invention;

fig. 10 is a schematic view of the connection between the elastic clamping edge and the clamping post according to the present invention.

In the figure: the sound-absorbing and noise-reducing floor comprises a bottom frame 100, a concave table 110, a keel positioning groove 120, a first bolt hole 130, a first bolt 140, a clamping plate mounting groove 150, a sound-absorbing pad 200, a base plate 210, a rectangular frame 220, a limiting rib 230, a first screw hole 240, a sound-absorbing plate 250, a limiting groove 260, a filling groove 270, soundproof cotton 280, a keel 300, a main keel 310, a first groove 311, a secondary keel 320, a second groove 321, a second screw hole 330, a second bolt hole 340, a second bolt 350, a clamping plate 400, a hanging lug 410, a vibration-absorbing clamping buckle 420, a base 421, a third bolt 422, an elastic buffer 423, a supporting rod 424, a supporting block 425, an elastic clamping rib 426, a panel 500, a T-shaped plate 510, a U-shaped plate 520 and a clamping column 530.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

Referring to the attached drawings 1-10, the invention provides an engagement type composite energy dissipation and shock absorption assembly type T-shaped mold wall, and in order to achieve the purpose, the invention provides the following technical scheme: an engaged composite energy-consuming and shock-absorbing assembled T-shaped wall body comprises a bottom frame 100, wherein the bottom frame 100 is of a hollow rectangular structure, the periphery of the bottom frame 100 is fixedly installed on the outer wall of the wall body through a first bolt 140, a concave table 110 is arranged on the surface of the bottom frame 100, a sound-absorbing pad 200 is fixedly installed on the inner wall of the concave table 110, the sound-absorbing pad 200 comprises a base plate 210, the top of the base plate 210 is fixedly connected with a rectangular frame 220, the inner wall of the rectangular frame 220 is fixedly connected with a limiting edge 230, the bottom of the base plate 210 is flush with the bottom of the bottom frame 100, a first screw hole 240 is uniformly arranged on the surface of the base plate 210, a sound-absorbing plate 250 is inserted and connected onto the top of the sound-absorbing pad 200, a keel 300 is fixedly installed on the top of the sound-absorbing pad 200, a buckle plate 400 is fixedly installed on the surface of the bottom frame 100, a shock-absorbing buckle 420 is uniformly and fixedly installed on the surface of the buckle plate 400, the shock-absorbing buckle plate 420 is engaged with a panel 500, the shock-absorbing buckle 420 comprises a base 421, and is fixedly installed on the surface of the buckle plate 400 through a third bolt 422, the base 421 is bow-shaped, the elastic buffer 423 is elastically connected to the inner wall of the base 421, the supporting rod 424 is fixedly installed at the top of the elastic buffer 423, the supporting block 425 is fixedly connected to the top of the supporting rod 424, the elastic clamping rib 426 is fixedly installed at the top of the supporting block 425, the panel 500 comprises a T-shaped plate 510 and a U-shaped plate 520, the clamping posts 530 are fixedly installed on the bottom surfaces of the T-shaped plate 510 and the U-shaped plate 520, the clamping posts 530 are uniformly distributed on the surfaces of the T-shaped plate 510 and the U-shaped plate 520, the clamping posts 530 are in interference fit with the elastic clamping ribs 426, specifically, the bottom frame 100 is convenient to be butted with a wall body, so that the silencing pads 200 and the keel 300 are convenient to install, the inner wall of the concave table 110 has the effect of conveniently installing the silencing pads 200, the silencing pads 200 have the effects of sound insulation, noise reduction and vibration reduction, the impact force of indoor vibration and noise on the panel 500 is reduced, and outdoor noise is filtered, so that the silencing effect of indoor environment is improved, the base plate 210 is rectangular and has the function of facilitating the tight fit between the inner wall of the concave table 110 and the sound absorption pad 200, thereby improving the sound insulation effect of the sound absorption pad 200, the rectangular frame 220 has the function of facilitating the insertion connection of the sound absorption plate 250, the limiting edge 230 has the function of facilitating the matching insertion with the limiting groove 260, thereby improving the mechanical function when the sound absorption plate 250 is installed, improving the stability of the sound absorption plate 250, reducing the risk that the sound absorption plate 250 is vibrated to fall off, the base plate 210 bottom is flush with the bottom frame 100 bottom and has the function of facilitating the improvement of the stability of the mold wall plate installation structure, preventing the sound absorption pad 200 from having a gap with the wall surface, improving the reliability of the sound absorption pad 200 installation structure, reducing the risk that the sound absorption pad 200 falls off, improving the heat preservation and sound insulation functions of the sound absorption pad 200 on the wall body, the sound absorption plate 250 has the functions of sound absorption and noise reduction, the screw hole I240 has the function of facilitating the threaded connection with the bolt II 350, thereby facilitating the fixed connection of the keel 300 and the surface of the base plate 210, the positioning and fixing of the sound-absorbing pad 200 and the sound-absorbing pad 250 by the keel 300, facilitating the phenomena of movement, dislocation and the like of the sound-absorbing pad 200 and the sound-absorbing pad 200 under the vibration effect when in later use, improving the stability of the sound-absorbing pad 200, the buckling plate 400 has certain sound-insulating and waterproof effects, and simultaneously facilitating the fixed installation of the vibration-absorbing buckle 420 on the surface of the buckling plate 400 by installing the buckling plate 400, thereby facilitating the fixation of the panel 500 through the vibration-absorbing buckle 420, facilitating the disassembly and assembly of the panel by an operator, enabling the surface of the panel 500 not to be installed through bolts, improving the flatness of the surface of the panel 500, improving the ornamental value of the surface of the panel 500, enabling the energy-absorbing panel 500 to be more attractive as a buffer member, the base 421 has the effect of facilitating the installation of the elastic 423, and the elastic 423 being a shock-absorbing rod, the elastic buffer part 423 is elastically connected with the inner wall of the base 421, when the base 421 is vibrated, the kinetic energy is transmitted to the elastic buffer part 423, the elastic buffer part 423 generates elastic deformation to consume the energy of the vibration, and the elastic buffer part 423 consumes the energy of the vibration in the repeated deformation energy absorption process, thereby reducing the influence of the vibration energy on the wall body in the environment, simultaneously reducing the noise and the influence of the vibration on the wall body, prolonging the service life of the wall body, the supporting rod 424 has the function of conveniently supporting and installing the supporting block 425, the supporting block 425 has the function of conveniently installing the elastic clamping rib 426, the elastic clamping rib 426 has the function of conveniently clamping the panel 500, the T-shaped plate 510 is matched with the U-shaped plate 520 for use, the panel 500 is conveniently formed, the T-shaped plate 510 is matched and spliced with the U-shaped plate 520, and the T-shaped plate 510 and the U-shaped plate 520 form a plane, the influence of local vibration on the whole body of the wall body is reduced, energy in vibration is isolated through a gap between the T-shaped plate 510 and the U-shaped plate 520, the speed and the width of vibration transmission are reduced, the stability of the panel 500 is improved, the clamping columns 530 are matched and connected with the elastic clamping ridges 426, the panel 500 is convenient to mount, meanwhile, later-stage operation personnel can conveniently detach the panel 500, when the panel 500 is mounted, only the surface of the panel 500 needs to be lightly pressed, the clamping columns 530 are inserted into clamping grooves between the two groups of elastic clamping ridges 426 one by one, the clamping columns 530 are locked through the two groups of elastic clamping ridges 426, mounting marks can not be left on the surface of the panel 500, the smoothness and the integrity of the surface of the panel 500 are improved, the elastic clamping ridges 426 are made of stainless steel elastic materials, extrusion force when the elastic clamping ridges 426 are inserted by the clamping columns 530 is applied, and the elastic clamping ridges 426 deflect towards the outside, inside joint post 530 head end enters into elasticity card arris 426, the extrusion force disappears, thereby make elasticity card arris 426 reset, make elasticity card arris 426 locking joint post 530 head end, thereby make panel 500 close mount on the surface of buckle plate 400, because T shaped plate 510, there is the clearance on U shaped plate 520 and buckle plate 400 surface, make panel 500 when receiving sleet erosion, can carry out the isolation of certain degree to sleet, the erosion of sleet to wall body itself has been reduced, the effect that has the protection to the wall body, the vibration in the environment has been reduced simultaneously, the noise is to the influence of wall body, indoor personnel's comfort level has been improved.

Further, the sound-absorbing board 250 is rectangular, the bottom of the sound-absorbing board 250 is provided with a limiting groove 260, the inner side of the limiting groove 260 is uniformly provided with a filling groove 270, the inner wall of the filling groove 270 is filled with soundproof cotton 280, the soundproof cotton 280 is uniformly distributed on the inner wall of the filling groove 270, the keel 300 comprises a main keel 310, the top surface of the main keel 310 is uniformly provided with a first groove 311, the top of the main keel 310 is clamped with a secondary keel 320, the bottom surface of the secondary keel 320 is uniformly provided with a second groove 321, the second groove 321 is clamped with the first groove 311 in a matching manner, the central positions of the surfaces of the first groove 311 and the second groove 321 are both provided with a second bolt hole 340, the inner walls of the second bolt holes 340 are in threaded connection with a second bolt 350, the ends of the main keel 310 and the secondary keel 320 are provided with a second bolt hole 330, the surface of the concave platform 110 is provided with keel positioning grooves 120, the keel positioning grooves 120 are uniformly distributed on the periphery of the surface of the concave platform 110, the central positions of the keel positioning grooves 120 are fixedly connected with bolts, the first bolt holes 130, the main keel 310 and the auxiliary keel 320 are respectively inserted into the inner wall of the keel positioning groove 120, the screw holes 330 are fixedly connected with the bolt holes 130 through bolts, specifically, the filling groove 270 has the function of conveniently installing the soundproof cotton 280, the soundproof cotton 280 is internally provided with soft holes, the soundproof cotton 280 has the functions of sound absorption and noise reduction, and the holes are arranged inside the soundproof cotton 280 to have the function of blocking the transmission efficiency of sound waves, so that the influence of the noise in the environment on the indoor environment is reduced, the sound waves are separated and interfered in the sound wave transmission process, the sound absorption and noise reduction effects of the soundproof cotton 280 are improved, the main keel 310 and the auxiliary keel 320 are matched for use, the main keel has the function of conveniently fixing the soundproof pad 200 and the sound absorption plate 250, the soundproof pad 200 and the sound absorption plate 250 are prevented from deviating in use, the function of dropping the soundproof pad 200 and the sound absorption plate 250 is improved, and the working stability of the soundproof pad 200 and the sound absorption plate 250 is improved, the bottom frame 100 and the silencing pad 200 are of an integrated detachable structure, the flatness of the bottom frame 100 is improved, the first groove 311 and the second groove 321 are matched for use, the connecting fit between the main keel 310 and the auxiliary keel 320 is conveniently improved, the fixing balance of all the directions of the silencing pad 200 is improved, the second bolt 350 is in threaded connection with the second bolt hole 340 and the first bolt hole 240, and the main keel 310, the auxiliary keel 320 and the base plate 210 are conveniently and fixedly connected, through setting up screw two 330, have the effect that conveniently passes through bolt fixed mounting with main joist 310, false keel 320 in fossil fragments constant head tank 120, screw two 330 has the effect that conveniently installs main joist 310, false keel 320 in fossil fragments constant head tank 120 inner wall through the bolt, and fossil fragments constant head tank 120 has the effect that conveniently installs main joist 310, false keel 320, and main joist 310, false keel 320 top surface and concave station 110 surface flush.

Further, buckle plate mounting groove 150 is evenly seted up all around on underframe 100 surface, buckle plate 400 is even fixed mounting hangers 410 all around, hangers 410 pegs graft with the cooperation of buckle plate mounting groove 150, through bolt fixed connection between hangers 410 and the buckle plate mounting groove 150, and is concrete, buckle plate mounting groove 150 has the effect of conveniently installing buckle plate 400, pegs graft in mounting groove 150 through hangers 410, then through the bolt with buckle plate 400 fixed mounting underframe 100 surface.

The using process of the invention is as follows: the technical personnel in the field firstly measure the surface of the wall body before installation, carry out formwork wallboard typesetting, then punch holes at proper positions on the surface of the wall body, fixedly install the bottom frame 100 on the surface of the wall body through the first bolts 140, then evenly fill the sound insulation cotton 280 on the inner wall of the filling groove 270 on the bottom surface of the sound absorption plate 250, insert the sound absorption plate 250 into the rectangular frame 220 on the surface of the sound absorption pad 200, match and insert the limiting ribs 230 and the limiting grooves 260, then install the sound absorption pad 200 and the sound absorption plate 250 on the inner wall of the concave table 110 together, make the inner wall of the base plate 210 at the bottom of the sound absorption pad 200 fit with the surface of the wall body, then sequentially install the main keel 310 and the cross keel 320 into the keel positioning groove 120, make the first grooves 311 and the second grooves 321 correspondingly embedded one by one, then fixedly install the head ends of the main keel 310 and the cross keel 320 on the inner wall of the keel positioning groove 120 through the bolts, then connect the bolt holes 340 and the first screw holes 240 through the second bolts 350, the main keel 310, the cross keel 320 and the inner wall of the base plate 210 are fixedly connected, then the hanging lugs 410 around the buckling plate 400 are inserted into the buckling plate installation groove 150, then the hanging lugs 410 are fixedly connected with the inner wall of the buckling plate installation groove 150 through bolts, the base 421 is fixedly installed on the top surface of the buckling plate 400 through the bolts III 422, the outer wall of the elastic buffer member 423 is elastically connected with the inner wall of the top of the base 421, then the supporting rod 424 is in threaded connection with the inner wall of the elastic buffer member 423, then the supporting block 425 is fixedly installed on the top of the supporting rod 424, then the T-shaped plate 510 and the U-shaped plate 520 are taken out in sequence, the clamping columns 530 at the bottoms of the T-shaped plate 510 and the U-shaped plate 520 are respectively aligned to the elastic clamping ribs 426, the surfaces of the T-shaped plate 510 and the U-shaped plate 520 are knocked by rubber hammers and positioned above the clamping columns 530, so that the clamping columns 530 extrude the elastic clamping ribs 426, and the head ends of the clamping columns 530 extrude the elastic clamping ribs 426 towards the left side and the right side, the elastic ribs 426 are deflected, so that the clip posts 530 are inserted into the elastic ribs 426, and the T-shaped plate 510 and the U-shaped plate 520 are mounted.

The above is only a preferred embodiment of the present invention, and any person skilled in the art may modify the present invention or modify it into an equivalent technical solution by using the technical solution described above. Therefore, any simple modifications or equivalent substitutions made in accordance with the technical solution of the present invention are within the scope of the claims of the present invention.

Claims (10)

1. The utility model provides a compound energy consumption shock attenuation assembled T type matrix wall body of meshing type, includes underframe (100), underframe (100) are fretwork rectangle structure, underframe (100) are all around through bolt one (140) fixed mounting on the wall body outer wall, concave station (110) are seted up on underframe (100) surface, concave station (110) inner wall fixed mounting amortization pad (200), its characterized in that: the noise reduction pad (200) comprises a substrate (210), the top of the substrate (210) is fixedly connected with a rectangular frame (220), the inner wall of the rectangular frame (220) is fixedly connected with a limiting edge (230), the bottom of the substrate (210) is flush with the bottom of a bottom frame (100), screw holes I (240) are uniformly formed in the surface of the substrate (210), a sound absorption plate (250) is inserted into the top of the noise reduction pad (200), keels (300) are fixedly installed at the top of the noise reduction pad (200), snap boards (400) are fixedly installed on the surface of the bottom frame (100), vibration reduction buckles (420) are uniformly and fixedly installed on the surface of the snap boards (400), the vibration reduction buckles (420) are meshed with a connecting panel (500), the vibration reduction buckles (420) comprise bases (421), the bases (421) are fixedly installed on the surface of the snap boards (400) through bolts III (422), and the bases (421) are arched, base (421) inner wall elastic connection elastomeric buffer (423), elastomeric buffer (423) top fixed mounting bracing piece (424), bracing piece (424) top fixed connection supporting shoe (425), supporting shoe (425) top fixed mounting elasticity card arris (426).

2. The engaged composite energy-dissipating and shock-absorbing assembled T-shaped formwork wall body as claimed in claim 1, wherein the panel (500) comprises a T-shaped plate (510) and a U-shaped plate (520), and the bottom surfaces of the T-shaped plate (510) and the U-shaped plate (520) are fixedly provided with the clamping columns (530).

3. The engagement type composite energy dissipation and shock absorption assembled T-shaped formwork wall body as claimed in claim 2, wherein the clamping columns (530) are uniformly distributed on the surfaces of the T-shaped plate (510) and the U-shaped plate (520), and the clamping columns (530) are in interference fit with the elastic clamping ribs (426).

4. The engaged composite energy-dissipating and shock-absorbing assembled T-shaped formwork wall body as claimed in claim 1, wherein the sound-absorbing plate (250) is rectangular, a limiting groove (260) is formed in the bottom of the sound-absorbing plate (250), filling grooves (270) are uniformly formed in the inner sides of the limiting groove (260), soundproof cotton (280) is filled in the inner walls of the filling grooves (270), and the soundproof cotton (280) is uniformly distributed on the inner walls of the filling grooves (270).

5. The engaged composite energy-consuming and shock-absorbing assembled T-shaped formwork wall body as claimed in claim 4, wherein the keel (300) comprises a main keel (310), a first groove (311) is uniformly formed in the top surface of the main keel (310), a second groove (321) is uniformly formed in the bottom surface of the main keel (310) and the top of the main keel (310) is clamped with a secondary keel (320).

6. The engaged composite energy-consuming and shock-absorbing assembled T-shaped formwork wall body as claimed in claim 5, wherein the second groove (321) is in matched clamping connection with the first groove (311), the second bolt hole (340) is formed in the center positions of the surfaces of the first groove (311) and the second groove (321), the second bolt hole (350) is connected with the inner wall of the second bolt hole (340) in a threaded mode, and the second bolt hole (330) is formed in the end portions of the main keel (310) and the auxiliary keel (320).

7. The engagement type composite energy dissipation and shock absorption assembly type T-shaped formwork wall body as claimed in claim 6, wherein keel positioning grooves (120) are formed in the periphery of the surface of the concave table (110), and the keel positioning grooves (120) are uniformly distributed in the periphery of the surface of the concave table (110).

8. The engagement type composite energy-consuming and shock-absorbing assembled T-shaped formwork wall body as claimed in claim 7, wherein a bolt is fixedly connected to the center position of the keel positioning groove (120), and a first bolt hole (130) is formed in the center position of the bolt.

9. The engaged composite energy-consuming and shock-absorbing assembled T-shaped formwork wall body as claimed in claim 8, wherein the ends of the main keel (310) and the auxiliary keel (320) are respectively inserted into the inner wall of the keel positioning groove (120), and the screw hole II (330) and the bolt hole I (130) are fixedly connected through a bolt.

10. The engagement type composite energy-consuming and shock-absorbing assembled T-shaped formwork wall body as claimed in claim 1, wherein buckling plate installation grooves (150) are uniformly formed in the periphery of the surface of the bottom frame (100), hanging lugs (410) are uniformly and fixedly installed on the periphery of the buckling plate (400), the hanging lugs (410) are matched and inserted in the buckling plate installation grooves (150), and the hanging lugs (410) are fixedly connected with the buckling plate installation grooves (150) through bolts.

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