CN114575547B - Meshing type composite energy-consumption and shock-absorption assembled T-shaped formwork wall - Google Patents

Abstract

The invention discloses an engaged type composite energy-consumption shock-absorbing assembled T-shaped formwork wall, which relates to the technical field of formwork walls and comprises the following technical scheme: the novel sound-absorbing structure comprises a bottom frame, the bottom frame is of a hollowed-out rectangular structure, the periphery of the bottom frame is fixedly mounted on the outer wall of a wall body through bolts, 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, the sound-absorbing pad comprises a base plate, the top of the base plate 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 base plate is flush with the bottom of the bottom frame, the surface of the base plate is uniformly provided with screw holes I, a sound-absorbing plate is inserted into the top of the sound-absorbing pad, and a keel is fixedly mounted on the top of the sound-absorbing pad.

Description

Meshing type composite energy-consumption and shock-absorption assembled T-shaped formwork wall

Technical Field

The invention relates to the technical field of formwork walls, in particular to a meshing type composite energy-consumption damping assembly type T-shaped formwork wall.

Background

The exterior wall surface of a building is generally decorated by installing the mold wall bodies, more mold wall bodies are installed on the exterior walls of office buildings, commercial buildings and the like, the mold wall bodies generally have the functions of decoration, water resistance, heat preservation, water resistance and the like on the wall body surface, and are generally used in the exterior wall bodies.

The prior art has the following defects: the existing mould wall body is complex in mounting mode, the technical requirement on an installer is high, meanwhile, the traditional mould wall body does not have a vibration reduction function, when in use, under the action of sound waves and wall body vibration, the surface of the mould wall body is easy to loose due to the vibration, the mould wall body has a certain risk of falling off, the sound insulation effect is poor, and the implementation performance of the mould wall body is low.

Therefore, the invention is necessary to invent the meshing type composite energy-consumption damping assembled T-shaped formwork wall body.

Disclosure of Invention

Therefore, the invention provides the meshing type composite energy-consumption damping assembled T-shaped formwork wall, and the silencing pad and the acoustic board are arranged to be matched for use, so that vibration generated indoors and vibration of sound waves are conveniently absorbed, the influence of the indoor vibration on the surface of the formwork wall is reduced, the sound insulation effect of the wall is improved, and the silence of the indoor environment is improved, so that the problem in the background technology is solved.

In order to achieve the above object, the present invention provides the following technical solutions: the utility model provides a compound power consumption shock attenuation assembled T word mould wall body of meshing, includes the underframe, the underframe is fretwork rectangle structure, on the wall body outer wall is passed through first fixed mounting of bolt all around to the underframe, the concave station is seted up on the underframe surface, concave station inner wall fixed mounting amortization pad, the amortization pad includes the base plate, base plate top fixed connection rectangle frame, the spacing arris of rectangle frame inner wall fixed connection, the base plate bottom flushes with the underframe bottom, screw one is evenly offered on the base plate surface, the amortization pad top grafting abatvoix, amortization pad top fixed mounting fossil fragments, underframe surface fixed mounting buckle, buckle board surface even fixed mounting damping buckle, damping buckle meshing connection panel, the base includes the base, the base passes through three fixed mounting of bolt on buckle surface, the base is the arch, base inner wall elastic connection elastic buffer piece, elastic buffer piece top fixed mounting bracing piece, bracing piece top fixed connection supporting shoe, supporting shoe top fixed mounting elastic card.

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

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

Preferably, the acoustic panel is the rectangle, the spacing groove is seted up to the acoustic panel bottom, the filling groove is evenly seted up to spacing inslot side, filling groove inner wall fills the soundproof cotton, soundproof cotton evenly distributed is at filling groove inner wall.

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

Preferably, the second groove is in fit and clamping connection with the first groove, bolt holes II are formed in the center positions of the first groove and the second groove, the inner walls of the bolt holes II are connected with the bolts II through threads, and screw holes II are formed in the ends of the main keels and the auxiliary keels.

Preferably, keel positioning grooves are formed in the periphery of the surface of the concave table, and the keel positioning grooves are uniformly distributed in 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 the central position of the bolt is provided with a first bolt hole.

Preferably, the ends of the main keels and the auxiliary keels are respectively inserted into the inner walls of the keel positioning grooves, and the second screw holes are fixedly connected with the first screw holes through bolts.

Preferably, the buckle plate mounting grooves are uniformly formed in the periphery of the surface of the bottom frame, the hanging lugs are uniformly and fixedly mounted on the periphery of the buckle plate, the hanging lugs are matched and inserted with the buckle plate mounting grooves, and the hanging lugs are fixedly connected with the buckle plate mounting grooves through bolts.

The beneficial effects of the invention are as follows:

1. the bottom frame is fixedly arranged on the surface of the wall body through the first bolt, so that the structural stability and safety of the integral installation of the molded wall body are improved, the durability of equipment is improved, and the molded wall body is convenient to install;

2. the sound-absorbing pad and the sound-absorbing plate are matched for use, so that vibration generated indoors and vibration of sound waves are conveniently absorbed, the influence of the indoor vibration on the surface of the 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 between through setting up elasticity card arris and joint post, aim at the buckle through setting up T shaped plate and U shaped plate, later through striking T shaped plate and U shaped plate surface for the elasticity card arris is extruded after the joint post atress, thereby makes the joint post insert inside the elasticity card arris, thereby conveniently installs T shaped plate and U shaped plate, has improved the efficiency of installation T shaped plate and U shaped plate, and convenient later stage is dismantled and is overhauld at T shaped plate and U shaped plate simultaneously, has improved the practicality that equipment used.

Drawings

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

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

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

FIG. 4 is a schematic view of the bottom view of the muffler pad according to the present invention;

fig. 5 is a schematic view showing the bottom view structure of the acoustic panel according to the present invention;

fig. 6 is a schematic view of a keel structure according to the present invention;

fig. 7 is a schematic view of a structure of a buckle plate according to the present invention;

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

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

fig. 10 is a schematic diagram illustrating connection between an elastic clip rib and a clip post according to the present invention.

In the figure: the base frame 100, the concave table 110, the keel positioning groove 120, the bolt hole one 130, the bolt one 140, the fastening plate mounting groove 150, the noise reducing pad 200, the base plate 210, the rectangular frame 220, the limit rib 230, the screw hole one 240, the sound absorbing plate 250, the limit groove 260, the filling groove 270, the soundproof cotton 280, the keel 300, the main keel 310, the groove one 311, the auxiliary keel 320, the groove two 321, the screw hole two 330, the bolt hole two 340, the bolt two 350, the fastening plate 400, the hanging lugs 410, the vibration reducing fastener 420, the base 421, the bolt three 422, the elastic buffer 423, the support bar 424, the support block 425, the elastic fastening rib 426, the panel 500, the T-shaped plate 510, the U-shaped plate 520, and the fastening post 530.

Detailed Description

The preferred embodiments of the present invention will be described below with reference to the accompanying drawings, it being understood that the preferred embodiments described herein are for illustration and explanation of the present invention only, and are not intended to limit the present invention.

Referring to fig. 1-10, the invention provides a meshing type composite energy-consumption shock-absorbing assembled T-shaped formwork wall, and in order to achieve the purposes, the invention provides the following technical scheme: the meshing type composite energy-consumption damping assembled T-shaped formwork wall comprises a bottom frame 100, wherein the bottom frame 100 is of a hollowed rectangular structure, the periphery of the bottom frame 100 is fixedly arranged on the outer wall of the wall through a first bolt 140, a concave table 110 is arranged on the surface of the bottom frame 100, a damping cushion 200 is fixedly arranged on the inner wall of the concave table 110, the damping cushion 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 limit rib 230, the bottom of the base plate 210 is flush with the bottom of the bottom frame 100, a first bolt 240 is uniformly arranged on the surface of the base plate 210, a sound absorbing plate 250 is inserted at the top of the damping cushion 200, a keel 300 is fixedly arranged at the top of the damping cushion 200, a buckle plate 400 is fixedly arranged on the surface of the buckle plate 400, a damping buckle 420 is uniformly fixedly arranged on the surface of the buckle plate, the damping buckle 420 meshes with a connecting panel 500, the damping buckle 420 comprises a base 421, the base 421 is fixedly arranged on the surface of the buckle plate 400 through a third bolt 422, the base 421 is arched, the inner wall of the base 421 is elastically connected with the elastic buffer piece 423, the top of the elastic buffer piece 423 is fixedly provided with the supporting rod 424, the top of the supporting rod 424 is fixedly connected with the supporting block 425, the top of the supporting block 425 is fixedly provided with the elastic clamping edge 426, the panel 500 comprises a T-shaped plate 510 and a U-shaped plate 520, the T-shaped plate 510 and the bottom surface of the U-shaped plate 520 are fixedly provided with clamping columns 530, the clamping columns 530 are uniformly distributed on the surfaces of the T-shaped plate 510 and the U-shaped plate 520, the clamping columns 530 are in interference fit with the elastic clamping edge 426, the bottom frame 100 is particularly convenient to be butted with a wall body, thereby the noise-reducing pad 200 and the keel 300 are conveniently installed, the inner wall of the concave 110 has the effects of conveniently installing the noise-reducing pad 200, the effects of sound insulation, noise reduction and vibration reduction in the room reduce the impact force of the panel 500 due to the vibration and noise, and the outdoor noise is filtered at the same time, thereby improving the effect of the silence of the indoor environment, the base plate 210 is rectangular, has the function of facilitating the close fit between the inner wall of the concave table 110 and the noise reduction pad 200, thereby improving the sound insulation effect of the noise reduction pad 200, the rectangular frame 220 has the function of facilitating the plug connection with the sound absorption plate 250, the limit edge 230 has the function of facilitating the plug connection with the limit groove 260, thereby improving the mechanical function of the sound absorption plate 250 during installation, improving the stability of the sound absorption plate 250, reducing the risk of the sound absorption plate 250 being vibrated to fall off, the bottom of the base plate 210 is flush with the bottom of the bottom frame 100, has the function of facilitating the improvement of the stability of the mounting structure of the mold wallboard, preventing the noise reduction pad 200 from having gaps with the wall surface, improving the reliability of the mounting structure of the noise reduction pad 200, reducing the falling risk of the noise reduction pad 200, simultaneously improving the heat insulation and sound insulation effects of the noise reduction pad 200 on the wall, the sound absorption plate 250 has the function of sound absorption and the screw hole one 240 has the function of facilitating the connection with the screw two 350, thereby facilitating the fixed connection of the keel 300 and the surface of the base plate 210, the keel 300 positions and fixes the noise-reducing pad 200 and the noise-reducing pad 250, the noise-reducing pad 250 and the noise-reducing pad 200 move and misplacement under the vibration effect during the later use, the stability of the noise-reducing pad 200 is improved, the buckle plate 400 has certain sound insulation and waterproof effects, meanwhile, the vibration-reducing buckle 420 is conveniently and fixedly arranged on the surface of the buckle plate 400 through the installation buckle plate 400, thereby facilitating the fixation of the panel 500 through the vibration-reducing buckle 420, facilitating the disassembly and assembly of the panel by operators, ensuring that the surface of the panel 500 is not required 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, ensuring that the panel 500 is more beautiful, the base 421 has the effect of conveniently installing the elastic buffer 423, the elastic buffer 423 is an energy-absorbing shock-absorbing rod, through the elastic buffer piece 423 and the inner wall of the base 421, when the base 421 is vibrated, the kinetic energy is transferred to the elastic buffer piece 423, the elastic buffer piece 423 generates elastic deformation to consume the energy of vibration, the elastic buffer piece 423 repeatedly deforms and absorbs energy to consume the energy of vibration, thereby reducing the influence of the vibration energy in the environment on the model wall, simultaneously playing the roles of reducing noise and reducing the influence of vibration on the model wall, improving the service life of the model wall, the supporting rod 424 has the functions of conveniently supporting and installing the supporting block 425, the supporting block 425 has the function of conveniently installing the elastic clamping edge 426, the elastic clamping edge 426 has the function of conveniently clamping the panel 500, the T-shaped plate 510 and the U-shaped plate 520 are matched for use, the T-shaped plate 510 and the U-shaped plate 520 are matched for grafting, and the T-shaped plate 510 and the U-shaped plate 520 form a plane, the influence of local vibration on the whole wall body is reduced, the gap between the T-shaped plate 510 and the U-shaped plate 520 is used for isolating the energy in vibration, the vibration transmission speed and the vibration transmission breadth are reduced, the stability of the panel 500 is improved, the clamping columns 530 are connected with the elastic clamping ribs 426 in a matched manner, the effect of conveniently installing the panel 500 is achieved, meanwhile, the effect of disassembling the panel 500 by later operators is facilitated, when the panel 500 is installed, the surface of the panel 500 is only required to be lightly pressed, the clamping columns 530 are gradually inserted into the clamping grooves between the two groups of elastic clamping ribs 426, the clamping columns 530 are locked through the two groups of elastic clamping ribs 426, no mounting trace is left on the surface of the panel 500, the flatness and the integrity of the surface of the panel 500 are improved, the elastic clamping ribs 426 are made of stainless steel elastic materials, the extrusion force is applied to the elastic clamping ribs 426 when the clamping columns 530 are inserted, thereby make elasticity card edge 426 take place the skew to the outside, it is inside to enter into elasticity card edge 426 when joint post 530 head end, the extrusion force disappears, thereby make elasticity card edge 426 reset, make elasticity card edge 426 locking joint post 530 head end, thereby make panel 500 closely install the surface at buckle 400, because T shaped plate 510, U shaped plate 520 and buckle 400 surface have the clearance, make panel 500 when receiving the rain and snow erosion, can carry out the isolation effect of certain degree to the rain and snow, the erosion of rain and snow to wall body itself has been reduced, the effect of protection has to the wall body, vibration in the environment has been reduced simultaneously, the noise has improved indoor personnel's comfort level to the wall body.

Further, the sound absorbing plate 250 is rectangular, the bottom of the sound absorbing plate 250 is provided with a limit groove 260, the inner side of the limit groove 260 is uniformly provided with a filling groove 270, the inner wall of the filling groove 270 is filled with sound insulation cotton 280, the sound insulation 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 groove I311, the top of the main keel 310 is clamped with an auxiliary keel 320, the bottom surface of the auxiliary keel 320 is uniformly provided with a groove II 321, the groove II 321 is matched and clamped with the groove I311, the center positions of the surfaces of the groove I311 and the groove II 321 are respectively provided with a bolt hole II 340, the inner wall of the bolt hole II 340 is in threaded connection with a bolt II 350, the end parts of the main keel 310 and the auxiliary keel 320 are provided with a bolt hole II 330, the periphery of 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 center positions of the keel positioning grooves 120 are fixedly connected with bolts, the center positions of the bolts are provided with bolt holes I130, the ends of the main joist 310 and the auxiliary joist 320 are respectively inserted into the inner wall of the joist positioning groove 120, the screw hole II 330 is fixedly connected with the screw hole I130 through a bolt, the filling groove 270 has the function of conveniently installing the sound insulation cotton 280, the inside of the sound insulation cotton 280 is provided with a dense cavity, the sound insulation cotton 280 is provided with the functions of absorbing sound and reducing noise, the inside of the sound insulation cotton 280 is provided with the cavity for blocking the transmission efficiency of sound waves, thereby reducing the influence of noise in the environment on the room, blocking and interfering the sound waves in the sound wave transmission process, improving the sound absorption and noise reduction effect of the sound insulation cotton 280, the main joist 310 and the auxiliary joist 320 are matched for use, having the function of conveniently fixing the sound insulation pad 200 and the sound absorption plate 250, preventing the sound insulation pad 200 and the sound absorption plate 250 from deviating in use, causing the sound insulation pad 200 and the sound absorption plate 250 to fall off, the working stability of the noise reduction pad 200 and the sound absorbing plate 250 is improved, the bottom frame 100 and the noise reduction 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 connection fit between the main keel 310 and the auxiliary keel 320 is improved, the balance of fixing the noise reduction pad 200 in all directions is improved, the second bolt 350 is in threaded connection with the second bolt hole 340 and the first screw hole 240, the main keel 310, the auxiliary keel 320 and the base plate 210 are conveniently and fixedly connected, the second screw hole 330 is arranged, the main keel 310 and the auxiliary keel 320 are conveniently and fixedly installed in the keel positioning groove 120 through bolts, the second screw hole 330 is convenient for installing the main keel 310 and the auxiliary keel 320 on the inner wall of the keel positioning groove 120 through bolts, the keel positioning groove 120 is convenient for installing the main keel 310 and the auxiliary keel 320, and the top surfaces of the main keel 310 and the auxiliary keel 320 are flush with the surface of the concave table 110.

Further, the bottom frame 100 is provided with the snap plate mounting grooves 150 uniformly around the surface, the snap plate 400 is provided with the hanging lugs 410 uniformly around the surface, the hanging lugs 410 are matched and connected with the snap plate mounting grooves 150, the hanging lugs 410 are fixedly connected with the snap plate mounting grooves 150 through bolts, the snap plate mounting grooves 150 are particularly provided with the function of conveniently mounting the snap plate 400, the snap plate is connected into the mounting grooves 150 through the hanging lugs 410, and then the snap plate 400 is fixedly mounted on the surface of the bottom frame 100 through bolts.

The application process of the invention is as follows: the method comprises the steps of measuring the surface of a wall body, typesetting a wall body, punching holes at proper positions on the surface of the wall body, fixedly mounting a bottom frame 100 on the surface of the wall body through a first bolt 140, uniformly filling an inner wall of a filling groove 270 on the bottom surface of a sound absorbing plate 250 with soundproof cotton 280, inserting the sound absorbing plate 250 into a rectangular frame 220 on the surface of a silencing pad 200, enabling a limit rib 230 and a limit groove 260 to be matched and inserted, mounting the silencing pad 200 and the sound absorbing plate 250 together on the inner wall of a concave table 110, enabling the inner wall of a bottom substrate 210 of the silencing pad 200 to be attached to the surface of the wall body, sequentially mounting a main keel 310 and an auxiliary keel 320 into a keel positioning groove 120, enabling a first groove 311 and a second groove 321 to be embedded in one-to-one correspondence, fixedly mounting head ends of the main keel 310 and the auxiliary keel 320 to the inner wall of the keel positioning groove 120 through bolts, the second bolt 350 is then connected with the second bolt 340 and the first bolt 240 in a threaded manner, so that the main joist 310, the auxiliary joist 320 and the inner wall of the base plate 210 are fixedly connected, the lugs 410 around the buckle 400 are inserted into the buckle mounting grooves 150, the lugs 410 are fixedly connected with the inner wall of the buckle mounting grooves 150 through bolts, the mounting base 421 is fixedly arranged on the top surface of the buckle 400 through the third bolt 422, the outer wall of the elastic buffer 423 is elastically connected with the inner wall of the top of the base 421, the supporting rod 424 is then connected with the inner wall of the elastic buffer 423 in a threaded manner, the supporting block 425 is fixedly arranged on the top of the supporting rod 424, the T-shaped plate 510 and the U-shaped plate 520 are sequentially taken out, the clamping columns 530 at the bottoms of the T-shaped plate 510 and the U-shaped plate 520 are aligned with the elastic clamping ribs 426 respectively, the surfaces of the T-shaped plate 510 and the U-shaped plate 520 are knocked by rubber hammers, the knocked positions are located above the clamping columns 530, so that the elastic clamping columns 530 squeeze the elastic clamping ribs 426, the head end of the clamping column 530 presses the elastic clamping ribs 426 towards the left and right sides, so that the elastic clamping ribs 426 deflect, the clamping column 530 is inserted into the elastic clamping ribs 426, and the installation of the T-shaped plate 510 and the U-shaped plate 520 is completed.

The above description is only of the preferred embodiments of the present invention, and any person skilled in the art may modify the present invention or make modifications to the present invention equivalent thereto using the technical solutions described above. Therefore, any simple modification or equivalent made according to the technical solution of the present invention falls within the scope of the protection claimed by the present invention.

Claims (7)

1. The utility model provides a compound power consumption shock attenuation assembled T word mould wall body of meshing, includes underframe frame (100), underframe frame (100) are fretwork rectangle structure, on underframe frame (100) are all around through bolt one (140) fixed mounting to the wall body outer wall, concave station (110) are seted up on underframe frame (100) surface, concave station (110) inner wall fixed mounting amortization pad (200), its characterized in that: the noise reduction pad (200) comprises a base plate (210), a rectangular frame (220) is fixedly connected to the top of the base plate (210), a limit rib (230) is fixedly connected to the inner wall of the rectangular frame (220), the bottom of the base plate (210) is flush with the bottom of the bottom frame (100), a first screw hole (240) is uniformly formed in the surface of the base plate (210), a sound absorption plate (250) is inserted into the top of the noise reduction pad (200), a keel (300) is fixedly installed at the top of the noise reduction pad (200), the sound absorption plate (250) is rectangular, a limit groove (260) is formed in the bottom of the sound absorption plate (250), a filling groove (270) is uniformly formed in the inner side of the limit groove (260), soundproof cotton (280) is uniformly distributed on the inner wall of the filling groove (270), the keel (300) comprises a first main keel (310), a 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 auxiliary keel (320), a second groove (321) is uniformly matched with the first groove (311) and the second groove (311) is uniformly matched with the second groove (311), bolt hole two (340) inner wall threaded connection bolt two (350), screw two (330) are seted up to main joist (310) and auxiliary joist (320) tip, bottom frame (100) surface fixed mounting buckle board (400), buckle board (400) surface even fixed mounting damping buckle (420), damping buckle (420) meshing connection panel (500), damping buckle (420) include base (421), base (421) are through bolt three (422) fixed mounting at buckle (400) surface, base (421) are the arch, base (421) inner wall elastic connection elastic buffer (423), elastic buffer (423) top fixed mounting bracing piece (424), bracing piece (424) top fixed connection supporting shoe (425), supporting shoe (425) top fixed mounting elastic clamping edge (426).

2. The meshing type composite energy-consumption and shock-absorption assembled T-shaped formwork wall body according to claim 1, wherein the panel (500) comprises a T-shaped plate (510) and a U-shaped plate (520), and clamping columns (530) are fixedly arranged on the bottom surfaces of the T-shaped plate (510) and the U-shaped plate (520).

3. The meshing type composite energy-consumption and shock-absorption assembled T-shaped formwork wall body according to claim 2, wherein 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 meshing type composite energy-consumption and shock-absorption assembled T-shaped formwork wall body according to claim 1, 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).

5. The meshing type composite energy-consumption and shock-absorption assembled T-shaped formwork wall body according to claim 4, wherein a bolt is fixedly connected to the central position of the keel positioning groove (120), and a first bolt hole (130) is formed in the central position of the bolt.

6. The meshing type composite energy-consumption and shock-absorption assembled T-shaped formwork wall body according to claim 5, wherein the ends of the main joist (310) and the auxiliary joist (320) are respectively inserted into the inner wall of the joist positioning groove (120), and the screw hole II (330) and the screw hole I (130) are fixedly connected through bolts.

7. The meshing type composite energy-consumption and shock-absorption assembled T-shaped formwork wall body according to claim 1, wherein buckle plate mounting grooves (150) are uniformly formed in the periphery of the surface of the bottom frame (100), hanging lugs (410) are uniformly and fixedly mounted on the periphery of the buckle plate (400), the hanging lugs (410) are matched and spliced with the buckle plate mounting grooves (150), and the hanging lugs (410) are fixedly connected with the buckle plate mounting grooves (150) through bolts.