CN117702969B - Floor heat-insulating and sound-insulating structure and manufacturing method thereof - Google Patents

Abstract

The floor heat-insulating and sound-insulating structure and the manufacturing method thereof effectively solve the problems that the existing wallboards are poor in connectivity, so that the bearing capacity is weak, and the damping can not be carried out when the existing wallboards are subjected to vibration force; the connecting frame is provided with sound absorbing cotton, a heat preservation pad is arranged below the connecting frame, shock absorption pads are arranged on the heat preservation pad and the sound absorbing cotton, wallboards are respectively arranged at opposite ends of the two shock absorption pads, a first connecting column is arranged on the right side in the connecting frame, a movable plate is arranged in the connecting frame, a clamping mechanism is arranged in the connecting frame, a first piston cylinder is arranged in the connecting frame, a second piston cylinder is arranged in the connecting frame, the first piston cylinder is communicated with the second piston cylinder through a connecting pipe, the left end of the second piston rod is fixedly connected with the second connecting column, a shock absorption sleeve is arranged between the two clamping plates, a fixing shell is arranged in the shock absorption sleeve, a shock absorber is arranged between the two fixing shells, a first shock absorption spring is arranged on the shock absorber, and a second shock absorption spring arranged in the first shock absorption spring is arranged on the shock absorber; the invention has smart structure and convenient use.

Description

Floor heat-insulating and sound-insulating structure and manufacturing method thereof

Technical Field

The invention relates to the technical field of floor heat-insulating and sound-insulating auxiliary devices, in particular to a floor heat-insulating and sound-insulating structure and a manufacturing method thereof.

Background

In the prior art, when the heat-insulating and sound-insulating wallboard is manufactured, the wallboard is arranged into a cavity, then heat-insulating and sound-insulating filler is directly added into the cavity, the mode realizes certain heat insulation and sound-insulating effects, but when the filler is filled, the problem that the cavity is formed due to non-uniform filling and even incomplete filling of parts exists, the sound insulation and the heat-insulating effects are poor, even the existing cavity can amplify sound, the problem that the sound-insulating effect is poor is caused, the connection between wallboards is inconvenient to realize, the bearing capacity between wallboards is poor, relative displacement easily occurs between the wall bodies when people move or carry objects on the wall bodies, the bearing capacity of the edge parts of the wall bodies is poor, and therefore, the wall bodies are easy to deform, and the wall bodies are damaged.

After the wall body is installed, due to the lack of the damping mechanism, when the wall body receives forces in all directions, buffering cannot be timely performed, so that the wall body is easy to damage when the wall body is subjected to strong up-and-down vibration, and the safety and stability of the wall body during use are reduced.

Disclosure of Invention

Aiming at the situation, in order to make up the defects of the prior art, the invention aims to provide the floor heat-insulation sound-insulation structure and the manufacturing method thereof, which effectively solve the problems that the prior wallboards have poor connectivity, so that the bearing capacity is weak, and the damping can not be carried out when the wallboards are subjected to vibration force.

The technical scheme includes that the novel piston rod type sound absorbing device comprises a connecting frame, sound absorbing cotton is arranged on the upper side of the connecting frame, a heat insulating pad is arranged on the lower side of the connecting frame, the upper end of the heat insulating pad is in contact with the lower end of the sound absorbing cotton, shock absorbing pads are respectively arranged on the lower end of the heat insulating pad and the upper end of the sound absorbing cotton, wallboards are respectively arranged on the opposite ends of the two shock absorbing pads, a plurality of first connecting columns which are uniformly distributed along the front-back direction and can move left and right are respectively arranged on the right side in the connecting frame, moving plates are respectively arranged on the left side and the right side in the connecting frame, a plurality of clamping mechanisms which are in one-to-one correspondence with the moving plates are respectively arranged on the left side and the right side in the connecting frame, the clamping mechanisms comprise two clamping plates with opposite openings, two reversing columns and two pull ropes, one ends of the two pull ropes are fixedly connected with the moving plates on the corresponding sides, the two pull ropes are respectively in staggered and fixed connection with the clamping plates on the corresponding sides, a first piston cylinder is arranged in the connecting frame, a first piston rod is connected with the first piston cylinder in a sliding manner, the first piston cylinder is fixedly connected with the corresponding side, a second piston rod is arranged in the connecting frame, the first piston cylinder is fixedly connected with the moving plate on the left side and the corresponding side, a second piston cylinder is fixedly connected with the second piston cylinder, and the piston rod is connected with the second piston cylinder through the second piston rod, and the piston rod;

A plurality of damping sleeves are arranged between the two wallboards, fixing shells are respectively arranged on the upper side and the lower side in the damping sleeves, a damper is arranged between the two fixing shells, a first damping spring is arranged on the damper, and a second damping spring positioned in the first damping spring is arranged on the damper.

Preferably, a pushing plate capable of moving back and forth is arranged in the connecting frame, and a plurality of pushing grooves are formed in the pushing plate and are in contact with the first connecting columns on the corresponding sides of the pushing grooves.

Preferably, the connecting frame is rotationally connected with a front-back axial screw rod, the screw rod is in threaded connection with a push plate on the corresponding side of the screw rod, and a polygonal groove is formed in the front end of the screw rod.

Preferably, a first spring is arranged between the moving plate positioned on the right side on the connecting frame and the connecting frame on the corresponding side.

Preferably, a second spring is arranged between the first connecting column and the connecting frame and between the second connecting column and the connecting frame at the corresponding side.

Preferably, a plurality of abdicating grooves corresponding to the clamping mechanisms one by one are formed in the connecting frame, and tension springs are arranged between the opposite ends of the two clamping plates and the connecting frame at the corresponding sides of the opposite ends.

Preferably, the clamping groove is formed in one end, extending out of the corresponding side connecting frame, of the first connecting column and the second connecting column, the clamping groove is Y-shaped, and the shape of the inner side of the clamping plate is consistent with that of the clamping groove.

Preferably, the inner side of the clamping plate is provided with an anti-slip pad.

Preferably, the free ends of the two pull ropes respectively bypass the reversing columns on the corresponding sides and are in contact with the reversing columns on the corresponding sides.

The invention also provides a manufacturing method of the floor heat-insulating and sound-insulating structure, which comprises the following steps:

S1: firstly, placing a lower wallboard, then integrally arranging a shock pad on the lower wallboard, integrally arranging a heat preservation pad on the shock pad, integrally arranging a connecting frame on the heat preservation pad, arranging sound-absorbing cotton on the connecting frame, arranging a shock pad on the sound-absorbing cotton, and arranging a wallboard on the shock pad;

S2: aligning the assembled two sets of wallboards so that the first connecting column can be inserted into the connecting frame on the right side and the second connecting column can be inserted into the connecting frame on the left side;

S3: then using a tool capable of being inserted into the polygonal groove, inserting the tool into the polygonal groove, rotating the screw rod to enable the first connecting column to be inserted into the clamping mechanism in the right connecting frame, and enabling the second connecting column to be inserted into the clamping mechanism in the left connecting frame, so that connection of two wall structures is achieved;

S4: through the damping mechanism, when the wallboard is vibrated in all directions, stability of the wallboard can be realized, the first damping spring achieves damping effect by delaying compression of the damper, the second damping spring achieves damping effect by delaying reset of the damper, the elastic forces of the first damping spring and the second damping spring are opposite, the first damping spring is in a normal state, and the second damping spring is in a stretching state;

S5: and repeating the steps to finish the connection of the wallboards.

The invention has the beneficial effects that:

The wallboard that is equipped with, inhale the sound cotton, connecting frame and heat preservation pad, can realize wallboard integration setting, realize the sound insulation and the heat preservation effect of wallboard, and this wall body is solid setting, the inhomogeneous problem of filler packing appears avoided, realization heat preservation and sound insulation effect that can be stable, ensure to realize heat preservation and sound insulation effect, first spliced pole that is equipped with, the second spliced pole, the push pedal, the promotion groove, the screw rod, polygonal slot, the fly leaf, the stay cord, the splint, the slipmat, the switching-over post, press from both sides tight groove, first piston cylinder, second piston cylinder, first piston rod, the second piston rod, the connecting pipe, first spring, the second spring, extension spring and the groove of stepping down, can realize the stable connection between wallboard and the wallboard, increase the connection stability between the wallboard, when avoiding the edge to receive the extrusion, can also increase the bearing capacity of wallboard junction, stability and bearing capacity when having increased this wallboard use, the probability of being destroyed is reduced, the damping sleeve that is equipped with, the damping pad, the fixed shell, the bumper absorber, first damping spring and second damping spring can reduce the shock attenuation range of vibration, the amplitude of vibration absorber can be realized in the opposite directions, the vibration damping device is reduced, the amplitude of vibration can be increased when the amplitude is realized to the shock absorber, the amplitude is increased.

Drawings

Fig. 1 is a perspective view of the present invention.

Fig. 2 is a cutaway isometric view of the present invention.

Fig. 3 is a partially cut-away isometric view of the present invention.

Fig. 4 is a cut-away top isometric view of the present invention.

Fig. 5 is a partial cutaway top view of the present invention.

Fig. 6 is a first cut-away top perspective view of the present invention.

Fig. 7 is a first partially cut-away isometric view of the present invention.

Fig. 8 is a front isometric view of a first connector post and a second connector post of the present invention.

Fig. 9 is a front perspective view in full section of a first connector post and a second connector post of the present invention.

Fig. 10 is an enlarged view of a of fig. 2 according to the present invention.

Fig. 11 is an enlarged view of B of fig. 3 according to the present invention.

Fig. 12 is an enlarged view of C of fig. 4 in accordance with the present invention.

Fig. 13 is an enlarged view of D of fig. 5 according to the present invention.

Fig. 14 is an enlarged view of E of fig. 6 in accordance with the present invention.

In the figure: 1. a connection frame; 2. sound absorbing cotton; 3. a thermal insulation pad; 4. a shock pad; 5. a wallboard; 6. a first connection post; 7. a moving plate; 8. a clamping plate; 9. a reversing column; 10. a pull rope; 11. a first piston cylinder; 12. a first piston rod; 13. a second piston cylinder; 14. a second connection post; 15. a damper; 16. a first damper spring; 17. a second damper spring; 18. a push plate; 19. a screw; 20. a first spring; 21. and a second spring.

Detailed Description

The following describes the embodiments of the present invention in further detail with reference to the drawings.

Example 1

When the prior art is used for manufacturing the heat-insulating and sound-insulating wallboard 5, most wallboards 5 are arranged into cavities, and then heat-insulating and sound-insulating fillers are directly added into the cavities, so that although the mode achieves certain heat-insulating and sound-insulating effects, the wallboard 5 is inconvenient to connect, the bearing capacity of the connecting parts among the wallboards 5 is poor, when people move or carry objects on the wall, relative displacement easily occurs between the wall bodies, the bearing capacity of the edge parts of the wall bodies is poor, deformation easily occurs, and the wall bodies are damaged.

The device is shown in fig. 1 to 14, and comprises a connecting frame 1, sound absorbing cotton 2 is arranged on the upper side of the connecting frame 1, a heat insulation pad 3 is arranged on the lower side of the connecting frame 1, the upper end of the heat insulation pad 3 is contacted with the lower end of the sound absorbing cotton 2, shock absorption pads 4 are respectively arranged on the lower end of the heat insulation pad 3 and the upper end of the sound absorbing cotton 2, wallboards 5 are respectively arranged on the opposite back ends of the two shock absorption pads 4, a plurality of first connecting columns 6 which are uniformly distributed along the front-back direction and can move left and right are arranged on the right side in the connecting frame 1, moving plates 7 are respectively arranged on the left side and the right side in the connecting frame 1, the moving plates 7 on the left side on the same connecting frame 1 are positioned above the moving plates 7 on the right side, a plurality of clamping mechanisms which are in one-to-one correspondence with the moving plates 7 are respectively arranged on the left side and the right side in the connecting frame 1, each clamping mechanism comprises two clamping plates 8, two reversing columns 9 and two pull ropes 10, one ends of the moving plates 7 on the corresponding sides are fixedly connected with one another, free ends of the two pull ropes 10 are respectively and fixedly connected with the clamping plates 8 on the corresponding sides in a staggered mode, a first piston cylinder 11 is arranged in the connecting frame 1, a left side and a first piston cylinder 11 axially and a second piston cylinder 11 is arranged in the connecting cylinder 11, the first piston cylinder 11 is fixedly connected with a second piston cylinder 13 and a piston rod 13 through a second piston cylinder 13, the first piston cylinder 13 and a second piston cylinder 13, the piston rod 13 is fixedly connected with the piston rod 13, and a piston rod 13 is fixedly connected with the piston rod 13;

A plurality of damping sleeves are arranged between the two wallboards 5, fixed shells are respectively arranged on the upper side and the lower side in the damping sleeves, a damper 15 is arranged between the two fixed shells, a first damping spring 16 is arranged on the damper 15, and a second damping spring 17 positioned in the first damping spring 16 is arranged on the damper 15.

When the invention is used, firstly, the lower wallboard 5 is placed on a plane, then the shock pad 4, the heat preservation pad 3, the connecting frame 1, the sound absorbing cotton 2, the shock pad 4 and the shock absorber 15 are sequentially arranged on the plane, and finally the upper wallboard 5 is arranged;

When a plurality of wallboards 5 are required to be connected, the two wallboards 5 to be connected are placed in a central symmetry mode, the initial state is that the two wallboards 5 are not connected, opposite ends of two clamping plates 8 on the same clamping mechanism are not contacted, a tension spring is in a normal state, a first connecting column 6 and a second connecting column 14 are positioned in a connecting frame 1 on corresponding sides of the connecting frame, and a second damping spring 17 is in a stretching state;

When the wallboards 5 are required to be connected, firstly, the two connecting frames 1 on the two wallboards 5 are aligned, the two connecting frames 1 are contacted, the first connecting column 6 and the second connecting column 14 can be inserted into the clamping mechanisms on the corresponding sides of the connecting frames, then, a tool which can be inserted into a polygonal groove and can rotate the screw 19 is used for being inserted into the polygonal groove, then, the screw 19 is rotated, the screw 19 drives the push plate 18 to move backwards, the push plate 18 pushes the first connecting columns 6 to move rightwards through the pushing grooves, the shape of the pushing grooves can be obtained by referring to fig. 4 of the attached drawings of the specification, the second springs 21 are compressed, and the first connecting columns 6 extend out of the left connecting frames 1 and are inserted into the right connecting frames 1;

after the first connecting column 6 moves rightwards to a certain position, the right end of the first connecting column 6 pushes the moving plate 7 at the corresponding side to move rightwards, the moving plate 7 pulls the right ends of the two pull ropes 10 at the corresponding side to move rightwards, under the action of the two reversing columns 9 at the corresponding side, the pull ropes 10 drive the clamping plates 8 at the corresponding side to move towards the first connecting column 6 at the corresponding side, the two clamping plates 8 move relatively, the tension springs are stretched, and the shape of the inner side of the clamping plate 8 is consistent with the shape of the clamping groove due to the Y-shaped clamping groove, so that the clamping of the first connecting column 6 can be realized;

While the moving plate 7 moves rightwards, the moving plate 7 pushes the first piston rod 12 to move rightwards in the first piston cylinder 11, gas between the first piston rod 12 and the first piston cylinder 11 is pressurized, the gas in the first piston cylinder 11 is discharged into the second piston cylinder 13 through the connecting pipe, the gas discharged into the second piston cylinder 13 pushes the second connecting column 14 to move leftwards through the second piston rod, high-pressure gas or damping liquid can be used instead, the movement modes of the damping liquid and the high-pressure gas are the same, the first piston rod 12 and the second piston rod can be guaranteed to normally move, the second spring 21 is compressed, the second connecting column 14 stretches out of the right connecting frame 1 and is inserted into the left connecting frame 1, the second connecting column 14 contacts with the moving plate 7 after being inserted into the left connecting frame 1 by a certain depth and pushes the moving plate 7 on the corresponding side to move leftwards, and the first spring 20 is compressed;

then the second connecting column 14 pushes the moving plate 7 at the corresponding side to move leftwards, the moving plate 7 drives the two clamping plates 8 to slide relatively through the two pull ropes 10 at the corresponding side, the tension springs are stretched to enable the clamping plates 8 to approach to the second connecting column 14 at the corresponding side, and the shape of the inner side of the clamping plates 8 is consistent with the shape of the clamping grooves due to the fact that the clamping grooves are Y-shaped, so that the clamping of the first connecting column 6 can be realized;

the screw rod 19 continues to rotate, the first connecting column 6 and the second connecting column 14 continue to be inserted into the clamping mechanism on the corresponding sides of the screw rod, the two clamping plates 8 on the same clamping mechanism continue to move relatively, after the push plate 18 moves backwards to a certain position, the first connecting column 6 and the second connecting column 14 are clamped by the two clamping plates 8 on the corresponding sides of the push plate 18, butt joint between the two wallboards 5 is achieved, connectivity and bearing capacity between the wallboards 5 can be greatly improved, stability of the wallboards 5 during use is improved, and then the operation is repeated, so that the wallboards 5 are connected sequentially.

Example 2

After the wall body is installed, due to the lack of the damping mechanism, when the wall body receives forces in all directions, buffering cannot be timely performed, so that the wall body is easy to damage when the wall body is subjected to strong up-and-down vibration, and the safety and stability of the wall body during use are reduced.

Through the damper who sets up, can realize when wallboard 5 receives the vibration of each direction, realize the stability of wallboard 5, first damping spring 16 realizes the shock attenuation effect through delaying the pressurized of bumper shock absorber 15, the slow reduction of second damping spring 17 through delaying bumper shock absorber 15 realizes the shock attenuation effect, first damping spring 16 is opposite with the elasticity of second damping spring 17, first damping spring 16 is in normal condition, second damping spring 17 is in tensile state, if dismantle two wallboards 5, the reverse direction rotates screw 19 can.

Example 3

The invention also provides a manufacturing method of the floor heat-insulating and sound-insulating structure, which comprises the following steps:

s1: firstly, placing a lower wallboard 5, then integrally arranging a shock pad 4 on the lower wallboard 5, integrally arranging a heat preservation pad 3 on the shock pad 4, integrally arranging a connecting frame 1 on the heat preservation pad 3, arranging sound-absorbing cotton 2 on the connecting frame 1, arranging the shock pad 4 on the sound-absorbing cotton 2, and arranging the wallboard 5 on the shock pad 4;

S2: aligning the assembled two sets of wallboards 5 so that the first connecting column 6 can be inserted into the right connecting frame 1 and the second connecting column 14 can be inserted into the left connecting frame 1;

S3: then using a tool capable of being inserted into the polygonal groove, inserting the tool into the polygonal groove, rotating the screw 19 to enable the first connecting column 6 to be inserted into the clamping mechanism in the right connecting frame 1, and enabling the second connecting column 14 to be inserted into the clamping mechanism in the left connecting frame 1, so that connection of two wallboard 5 structures is achieved;

S4: through the damping mechanism, when the wallboard 5 is vibrated in all directions, the stability of the wall body can be realized, the first damping spring 16 can realize the damping effect by delaying the compression of the damper 15, the second damping spring 17 can realize the damping effect by delaying the reset of the damper 15, the elastic forces of the first damping spring 16 and the second damping spring 17 are opposite, the first damping spring 16 is in a normal state, and the second damping spring 17 is in a stretching state;

S5: the manufacturing and connection of the wall panel 5 can be completed by repeating the above steps.

In the present invention, the damper 15 is a conventional one and will not be described in detail here.

The wall body is solid, the problem of uneven filling of filler is avoided, the effect of heat preservation and sound insulation can be stably realized, the effect of heat preservation and sound insulation is ensured, the first connecting column, the second connecting column, the push plate, the pushing groove, the screw rod, the polygonal groove, the moving plate, the pull rope, the clamping plate, the anti-slip pad, the reversing column, the clamping groove, the first piston cylinder, the second piston cylinder, the first piston rod, the second piston rod, the connecting pipe, the first spring, the second spring, the tension spring and the abdicating groove are arranged, stable connection between the wall plate and the wall plate can be realized, the connection stability between the wall plate is increased, the damage caused when the edge is extruded is avoided, the bearing capacity of the wall plate at the connection position can be increased, the stability and the bearing capacity of the wall plate at the time of use are improved, the probability of being damaged is reduced, the damping sleeve, the damping pad, the fixed shell, the first damping spring and the second damping spring can be realized, the damping sleeve can be used for reducing the vibration amplitude of vibration by the first damping device, and the damping device can be used for reducing the vibration amplitude of vibration by a plurality of directions, and the damping device can be used for reducing vibration amplitude.

Therefore, the floor heat-insulating and sound-insulating structure and the manufacturing method thereof can effectively solve the problems that the existing wallboards are poor in connectivity, so that the bearing capacity is weak, and the floor boards cannot be buffered when subjected to vibration force.

Claims (4)

1. The utility model provides a floor heat preservation sound insulation structure, including connecting frame (1), connecting frame (1) upside is equipped with inhales sound cotton (2), connecting frame (1) downside is equipped with heat preservation pad (3), its characterized in that, heat preservation pad (3) upper end and inhale sound cotton (2) lower extreme and contact, heat preservation pad (3) lower extreme and inhale sound cotton (2) upper end are equipped with shock pad (4) respectively, two shock pads (4) are equipped with wallboard (5) respectively mutually opposite ends, right side is equipped with a plurality of first spliced pole (6) that follow fore-and-aft direction equipartition and can control the removal in connecting frame (1), the left and right sides is equipped with movable plate (7) respectively in connecting frame (1), the movable plate (7) of same connecting frame (1) upside is located the movable plate (7) top on right side, the left and right sides are equipped with a plurality of clamping mechanism with movable plate (7) one-to-one respectively, clamping mechanism includes splint (8), two switching-over posts (9) and two stay cords (10) opposite, two corresponding movable plate (10) are equipped with a first piston cylinder (11) of piston rod (11) of a piston rod (11) are connected in a fixed connection in a left and right side respectively, the left end of the first piston rod (12) is fixedly connected with a moving plate (7) at the corresponding side of the first piston rod, a second piston cylinder (13) positioned below the first piston cylinder (11) is arranged in the connecting frame (1), the first piston cylinder (11) and the second piston cylinder (13) are communicated through a connecting pipe, a second piston rod is slidably connected in the second piston cylinder (13), and the left end of the second piston rod is fixedly connected with a second connecting column (14);

A plurality of damping sleeves are arranged between the two wallboards (5), fixed shells are respectively arranged at the upper side and the lower side in the damping sleeves, a damper (15) is arranged between the two fixed shells, a first damping spring (16) is arranged on the damper (15), and a second damping spring (17) positioned in the first damping spring (16) is arranged on the damper (15);

A pushing plate (18) capable of moving forwards and backwards is arranged in the connecting frame (1), a plurality of pushing grooves are formed in the pushing plate (18), and the pushing grooves are contacted with the first connecting columns (6) at the corresponding sides of the pushing grooves;

the connecting frame (1) is rotationally connected with a screw rod (19) in the front-back axial direction, the screw rod (19) is in threaded connection with a push plate (18) at the corresponding side of the screw rod, and a polygonal groove is formed in the front end of the screw rod (19);

a first spring (20) is arranged between the moving plate (7) positioned on the right side of the connecting frame (1) and the connecting frame (1) on the corresponding side;

A second spring (21) is arranged between the first connecting column (6) and the second connecting column (14) and the connecting frame (1) at the corresponding side;

A plurality of abdication grooves which are in one-to-one correspondence with the clamping mechanisms are formed in the connecting frame (1), and tension springs are arranged between the opposite ends of the two clamping plates (8) and the connecting frame (1) at the corresponding sides of the opposite ends;

The clamping groove is formed in one end, extending out of the corresponding side connecting frame (1), of the first connecting column (6) and the second connecting column (14), the clamping groove is Y-shaped, and the shape of the inner side of the clamping plate (8) is consistent with that of the clamping groove.

2. A floor thermal insulation and sound insulation structure according to claim 1, characterized in that the inner side of the clamping plate (8) is provided with an anti-slip pad.

3. A floor insulation and sound insulation structure according to claim 1, wherein the free ends of the two pull ropes (10) respectively bypass the reversing columns (9) on the corresponding sides and are contacted with the reversing columns (9) on the corresponding sides.

4. A method for manufacturing a floor thermal and sound insulation structure, according to any one of claims 1-3, characterized in that: the method specifically comprises the following steps:

S1: firstly, placing a lower wallboard (5), then integrally arranging a shock pad (4) on the lower wallboard (5), integrally arranging a heat preservation pad (3) on the shock pad (4), integrally arranging a connecting frame (1) on the heat preservation pad (3), arranging sound-absorbing cotton (2) on the connecting frame (1), arranging the shock pad (4) on the sound-absorbing cotton (2), and arranging the wallboard (5) on the shock pad (4);

S2: aligning the assembled two sets of wallboards (5) so that the first connecting column (6) can be inserted into the right connecting frame (1), and the second connecting column (14) can be inserted into the left connecting frame (1);

S3: then a tool capable of being inserted into the polygonal groove is used for being inserted into the polygonal groove, the screw (19) is rotated, the first connecting column (6) is inserted into the clamping mechanism in the right connecting frame (1), and the second connecting column (14) is inserted into the clamping mechanism in the left connecting frame (1), so that the connection of two wallboard (5) structures is realized;

S4: through the damping mechanism, when the wallboard (5) is vibrated in all directions, the stability of the wall body can be realized, the first damping spring (16) is pressed by the delay damper (15) to realize the damping effect, the second damping spring (17) is reset by the delay damper (15) to realize the damping effect, the elastic forces of the first damping spring (16) and the second damping spring (17) are opposite, the first damping spring (16) is in a normal state, and the second damping spring (17) is in a stretching state;

s5: and (5) connecting the wallboards by repeating the steps.