CN114737695B - Modularized stable energy-saving building wall structure - Google Patents

Abstract

The application relates to a modularized stable energy-saving building wall structure which comprises a plurality of mutually assembled wallboard main bodies, wherein one side of each wallboard main body is provided with a splicing groove, the inner side wall of each splicing groove is provided with a limiting groove, the other side of each wallboard main body is convexly provided with a splicing block spliced on the splicing groove of the other wallboard main body, each splicing block is hinged with a limiting plate, and the wallboard main body is provided with an adjusting mechanism for adjusting the opening and closing of the limiting plates so that the free ends of the limiting plates are clamped in the limiting grooves. The application has the effect of improving the installation efficiency of the modularized wall body.

Description

Modularized stable energy-saving building wall structure

Technical Field

The application relates to the technical field of modularized building structures, in particular to a modularized stable energy-saving building wall structure.

Background

With the environmental pollution, the national environmental protection and the people's expectations are continuously increased, and the environment-friendly building form is favored, so that the market prospect is wide. Meanwhile, due to possible damage of the traditional brick-concrete structure to cultivated land, related policies have definitely stipulated that the brick-concrete structure cannot be used in a building, and the modularized building is a new mode of green energy-saving building, and has wide application prospect due to further development of superior performance in technology.

The building wall body mainly plays a role in enclosing and separating space. The assembled partition wall system is formed by standardizing and modularizing the light steel joist gypsum board partition wall, assembling and manufacturing a factory or a manufacturing workshop, directly installing the light steel joist gypsum board partition wall to a construction site, enabling the light steel joist gypsum board partition wall to be manufactured and the construction process to be standard and standard, ensuring the quality of a wall body reliably, avoiding waste materials and waste residues in the construction process, and conforming to the environment-friendly energy-saving environment-friendly concept of a new building mode.

With respect to the related art in the above, the inventors consider that there are the following drawbacks: however, the existing modularized wall is locked by bolts, so that the installation steps are complicated, the installation period is prolonged, the construction efficiency of the building is reduced, and further improvement is needed.

Disclosure of Invention

In order to improve the installation efficiency of the modularized wall, the application provides a modularized stable energy-saving building wall structure.

The application provides a modularized stable energy-saving building wall structure, which adopts the following technical scheme:

the utility model provides a stable energy-conserving building wall structure of modularization, includes the wallboard main part of a plurality of mutual assembly, the draw-in groove has been seted up to one side of wallboard main part, and the spacing groove has been seted up to the inside wall of draw-in groove, and the opposite side protrusion of wallboard main part is provided with the grafting piece of the draw-in groove of pegging graft in another wallboard main part, and the grafting piece articulates there is the limiting plate, the wallboard main part is provided with the adjustment limiting plate and opens and shuts so that the free end joint of limiting plate in the adjustment mechanism of spacing groove.

Through adopting above-mentioned technical scheme, under the initial condition, the face of limiting plate is in the face parallel and level state with the wallboard main part, when assembling the polylith wallboard main part, slide the grafting piece of one of them wallboard main part and insert the grafting inslot of another wallboard main part, then through the free end of adjustment mechanism regulation limiting plate take place to rotate around its pin joint for the free end of limiting plate stretches into the limiting groove, thereby effectively reduce the possibility that two adjacent wallboard main parts take place to break away from, thereby can realize installing fast to a plurality of wall bodies, effectively overcome current modularization wall body and install and remove inconvenient not enough, effectively improve the installation effectiveness of modularization wall body.

Preferably, the wallboard main part has been seted up and has been extended to the first installation cavity of plug block, and the mounting groove in first installation cavity has been seted up to the lateral wall of plug block, the limiting plate articulates in the mounting groove inside wall, adjustment mechanism is including rotating the sliding screw that is connected in first installation cavity inner wall, threaded sleeve locates sliding screw and one end articulates in the limiting plate and the other end articulates in sliding screw's articulated pole, the wallboard main part is provided with the pivoted first drive assembly of control first adjusting screw.

Through adopting above-mentioned technical scheme, the both ends of articulated pole articulate respectively in limiting plate and slip screwed pipe, carry out effective restriction to the rotation degree of freedom of slip screwed pipe, drive first adjusting screw through first drive assembly and rotate, because under the screw thread restriction effect, slip screwed pipe takes place to slide along its axial to promote the limiting plate through articulated pole and take place the swing around articulated end, make the free end of limiting plate stretch into the spacing groove.

Preferably, the side wall of the plug-in block is provided with a liquid flow groove communicated with the first installation cavity, the first installation cavity is internally provided with a capsule storage body, the inner cavity of the capsule storage body is filled with adhesive glue solution, and the sliding screw pipe is fixedly connected with an extrusion plate for crushing the capsule storage body.

Through adopting above-mentioned technical scheme, when sliding the screwed pipe and taking place to slide, drive the stripper plate and slide, thereby will place the storage capsule body of first installation intracavity and extrude and press broken, the bonding glue solution in the storage capsule body flows into the jack groove through the liquid chute, and flow into and fill to the clearance of jack groove and jack block in, bond the jack block and jack block inner wall, further improve the fastness of the installation junction of two adjacent wall body main parts, the stripper plate's position changes that slide, the stripper plate is to storing the capsule body when pressing broken operation, the stock solution chamber that stripper plate and first installation intracavity wall formed has been reduced, be convenient for with bonding glue solution release inflow to the clearance of jack groove and jack block.

Preferably, the extrusion plate is provided with a plurality of first thorn bars which pierce the capsule storage body in a protruding mode, and one end, close to the capsule storage body, of each first thorn bar is provided with a conical head.

Through adopting above-mentioned technical scheme, the extrusion plate protrusion is provided with first thorn pole, and when the extrusion plate was slided towards being close to the capsule body direction of storing, the one end conical head that first thorn pole was close to the capsule body was pricked and is stored up the capsule body, reduced the difficulty that breaks of storing up of capsule body.

Preferably, the inner wall protrusion fixedly connected with a plurality of second thorn poles of jack groove, second thorn pole activity inserts and locates the liquid chute, and the one end that the second thorn pole is close to the storage capsule body is the conical head setting.

Through adopting above-mentioned technical scheme, wherein the grafting piece of a wallboard main part slides and inserts the grafting inslot of another wallboard main part after, and the tip of second thorn pole stretches into first installation intracavity through the flow channel, and the free end of limiting plate takes place to rotate around its pin joint through adjustment mechanism regulation for the free end of limiting plate stretches into the limiting groove, and the slip coil takes place to slide, drives the stripper plate and slides, thereby will store up the capsule body and promote towards being close to the flow channel direction, punctures the capsule body under the combined action of first thorn pole and second thorn pole, reduces the difficult degree of breaking of storing up the capsule body.

Preferably, the first thorn bars and the second thorn bars are arranged in a staggered manner along the height direction of the wallboard main body.

Through adopting above-mentioned technical scheme, a plurality of first thorn poles and second thorn poles are dislocation set along the direction of height of wallboard main part, on the one hand, further improve the degree of rupture of storing up the capsule body, on the other hand, improve the deformation degree of storing up the capsule body, improve the thorn degree of thorn to the bonding glue solution extrusion.

Preferably, the first driving assembly comprises a first driving rod connected to the wallboard main body in a rotating manner, a first bevel gear fixedly sleeved on the first adjusting screw rod, and a second bevel gear fixedly sleeved on the first driving rod and meshed with the first bevel gear, the axis of the first driving rod is perpendicular to the axis of the first adjusting screw rod, and the end part of the first driving rod is exposed out of the wallboard main body.

Through adopting above-mentioned technical scheme, drive the rotation of second bevel gear through first actuating lever to drive first bevel gear and rotate, and then drive first adjusting screw and rotate.

Preferably, the wallboard main part has seted up the second installation chamber, and the jack in the jack groove has been seted up to the inner wall in second installation chamber, the second installation chamber is provided with the promotion screwed pipe that slides and insert and locate the jack, promotes screwed pipe activity butt in the grafting piece outer wall, the wallboard main part is provided with the second drive assembly that the drive promoted screwed pipe to slide.

Through adopting above-mentioned technical scheme, after the grafting piece of one wallboard main part slides and inserts the spliced groove of another wallboard main part, through the free end of adjustment limiting plate takes place to rotate around its pin joint of adjustment mechanism regulation limiting plate, after making the free end of limiting plate stretch into the limiting groove, drive through the second actuating assembly and promote the screwed pipe and slide towards being close to the grafting piece direction, thereby promote the wallboard main part reverse one section distance that slides, and then make limiting plate butt in the inner wall of limiting groove, reduce two adjacent wallboard main parts and take place the possibility of rocking, simultaneously, increase the gap between grafting piece outer wall and the grafting groove, be convenient for bond the glue solution inflow and fill to the clearance of grafting groove and grafting piece, moreover, reduce to puncture the back and store up the capsule body adhesion on the second thorn pole, be convenient for bond the outflow of glue solution.

Preferably, the inner wall of the second installation cavity is provided with a sliding groove, the outer wall of the pushing screw tube is provided with a sliding protrusion which is connected with the sliding groove in a protruding mode, the second driving assembly comprises a second driving rod which is connected with the wallboard main body in a rotating mode, a second adjusting screw which is connected with the inner wall of the second installation cavity in a rotating mode, and a transmission part which is connected between the second driving rod and the second adjusting screw, and the second adjusting screw is arranged in a threaded mode through the pushing screw tube.

Through adopting above-mentioned technical scheme, be provided with spout and smooth protruding, realize pushing the slip of screwed pipe and second installation cavity and connect, when second actuating lever rotates and drives second adjusting screw through drive unit and rotate, the pushing the screwed pipe owing to with second adjusting screw threaded connection, realize pushing the tip of screwed pipe to slide and stretch out in the jack to realize the reverse slip of two adjacent wallboard main parts.

Preferably, the transmission part comprises a third bevel gear fixedly sleeved on the second adjusting screw rod and a fourth bevel gear fixedly sleeved on the second driving rod, and the third bevel gear is meshed with the fourth bevel gear.

Through adopting above-mentioned technical scheme, the second actuating lever rotates and drives fourth bevel gear and rotate to drive the second adjusting screw through the third bevel gear and rotate.

In summary, the present application includes at least one of the following beneficial technical effects:

when the plurality of wallboard main bodies are assembled, the plug-in block of one wallboard main body is slipped and inserted into the plug-in groove of the other wallboard main body, then the free end of the limiting plate is regulated by the regulating mechanism to rotate around the hinge point of the limiting plate, so that the free end of the limiting plate stretches into the limiting groove, the possibility that two adjacent wallboard main bodies are separated is effectively reduced, the plurality of wall main bodies can be quickly installed, the defect of inconvenience in mounting and dismounting the existing modularized wall is effectively overcome, and the mounting efficiency of the modularized wall is effectively improved;

the sliding screw tube slides and drives the extrusion plate to slide, so that the capsule storage body placed in the first installation cavity is extruded and crushed, the adhesive glue solution in the capsule storage body flows into the inserting groove through the liquid flow groove and flows into a gap filled between the inserting groove and the inserting block, the inserting block and the inner wall of the inserting groove are adhered, the firmness of the installation joint of two adjacent wall bodies is further improved, the position of the extrusion plate is subjected to sliding change, the extrusion plate performs crushing operation on the capsule storage body, and meanwhile, the liquid storage cavity formed by the extrusion plate and the inner wall of the first installation cavity is reduced, so that the adhesive glue solution is pushed out and flows into the gap between the inserting groove and the inserting block;

after the grafting block of one wallboard main body slides and inserts the grafting groove of another wallboard main body, the free end of regulating limiting plate rotates around its pin joint through adjustment mechanism, make the free end of limiting plate stretch into the spacing groove after, drive the promotion screwed pipe through the second drive assembly and slide towards being close to the grafting block direction, thereby promote the wallboard main body reverse slip, and then make limiting plate butt in the inner wall of spacing groove, reduce adjacent two wallboard main bodies and take place the possibility that rocks, simultaneously, increase the gap between grafting block outer wall and the grafting groove, be convenient for bond the glue solution inflow and fill to the clearance of grafting groove and grafting block.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a modular stable energy-efficient building wall structure.

Fig. 2 is a schematic view of the connection structure of two adjacent wallboard bodies.

Fig. 3 is a schematic structural view of the adjusting mechanism.

Fig. 4 is a schematic structural view of the transmission member.

Fig. 5 is a schematic structural view of the pressing plate.

Reference numerals illustrate: 1. a wallboard main body; 11. a first mounting cavity; 12. a second mounting cavity; 13. a third mounting cavity; 14. a chute; 15. pushing the spiral tube; 16. a sliding protrusion; 2. a plug-in groove; 21. a limit groove; 22. a second spike; 3. a plug block; 31. a liquid flow groove; 32. a capsule storage body; 33. a limiting plate; 4. an adjusting mechanism; 41. a first adjusting screw; 42. a sliding screw; 43. a hinge rod; 44. an extrusion plate; 45. a first spike; 5. a first drive assembly; 51. a first driving lever; 52. a first bevel gear; 53. a second bevel gear; 6. a second drive assembly; 61. a second adjusting screw; 62. a second driving lever; 63. a transmission member; 631. a third bevel gear; 632. and a fourth bevel gear.

Detailed Description

The application is described in further detail below with reference to fig. 1-5.

The embodiment of the application discloses a modularized stable energy-saving building wall structure, which comprises a plurality of mutually assembled wallboard main bodies 1, wherein one side of each wallboard main body 1 is provided with a splicing groove 2, and two opposite inner side walls of each splicing groove 2 are respectively provided with a limiting groove 21. The other side of the wallboard main body 1 is convexly provided with a plug-in block 3 which is plugged in a plug-in groove 2 on the other wallboard main body 1, and a liquid flow groove 31 (refer to fig. 3) is formed on the side wall of the plug-in block 3, which is close to the plug-in groove 2.

Referring to fig. 2 and 3, the wall plate main body 1 is provided with a second installation cavity 12, a third installation cavity 13 and a first installation cavity 11 extending to the plug block 3, the first installation cavity 11 is communicated with the liquid flow groove 31, and the third installation cavity 13 is located between the first installation cavity 11 and the second installation cavity 12. The mounting groove that communicates in first installation cavity 11 has all been seted up to the both sides wall of grafting piece 3, and grafting piece 3 articulates there is limiting plate 33, and limiting plate 33 articulates in the inside wall of mounting groove, and wallboard main part 1 is provided with the adjustment mechanism 4 that adjusts limiting plate 33 and opens and shuts so that the free end joint of limiting plate 33 in limiting groove 21.

Referring to fig. 3 and 4, the adjusting mechanism 4 includes a first adjusting screw 41, a sliding screw 42, and a hinge lever 43, the first adjusting screw 41 is rotatably connected to the inner wall of the first mounting chamber 11, and one end of the first adjusting screw 41 extends to the third mounting chamber 13. The sliding screw tube 42 is coaxially sleeved on the first adjusting screw rod 41, two hinging rods 43 are correspondingly arranged, one end of each hinging rod 43 is hinged to the limiting plate 33, and the other end of each hinging rod is hinged to the outer wall of the sliding screw tube 42. The wall panel body 1 is provided with a first driving assembly 5 for controlling rotation of the first adjusting screw 41, and the first driving assembly 5 includes a first driving lever 51, a first bevel gear 52, and a second bevel gear 53. The first driving rod 51 is rotationally connected to the side wall of the third installation cavity 13, the first bevel gear 52 and the second bevel gear 53 are arranged in the third installation cavity 13, the first bevel gear 52 is coaxially and fixedly sleeved on the first adjusting screw 41, the second bevel gear 53 is coaxially and fixedly sleeved on the first driving rod 51, the axis of the first driving rod 51 is perpendicular to the axis of the first adjusting screw 41, the end part of the first driving rod 51 is exposed out of the wallboard main body 1, a rotation stopping groove is formed in one end, far away from the second bevel gear 53, of the first driving rod 51, and a worker can conveniently insert the rotation stopping groove by using a specific tool to control the rotation of the first driving rod 51.

Referring to fig. 4 and 5, the first mounting cavity 11 is internally provided with a capsule storage body 32, an inner cavity of the capsule storage body 32 is filled with adhesive glue solution, an end part of the sliding screw tube 42 is fixedly connected with a squeeze plate 44 for crushing the capsule storage body 32, and the capsule storage body 32 is positioned at one side of the squeeze plate 44 close to the liquid flow groove 31. The extrusion plate 44 is provided with a plurality of first thorn bars 45 that will store up the capsule body 32 and pierce near the lateral wall protrusion of storing up the capsule body 32, and a plurality of first thorn bars 45 distribute the setting along the direction of height of wallboard main part 1, and the one end that first thorn bars 45 are close to storing up the capsule body 32 is the conical head setting. The inner wall protrusion fixedly connected with a plurality of second thorn poles 22 of jack-in groove 2, a plurality of second thorn poles 22 are along the direction of height distribution setting of wallboard main part 1, and the one end that second thorn pole 22 is close to the storage capsule body 32 is the conical head setting, and second thorn pole 22 activity inserts and locates liquid chute 31, and a plurality of first thorn poles 45 and second thorn pole 22 are dislocation set along the direction of height of wallboard main part 1.

Referring to fig. 3 and 4, the inner wall of the second installation cavity 12 is provided with a jack communicated with the plugging groove 2, the jack is located above the second thorn rod, the second installation cavity 12 is provided with a pushing screw 15 which is slidably inserted into the jack, and the pushing screw 15 is movably abutted against the outer wall of the plugging block 3. The inner wall of the second installation cavity 12 is provided with a chute 14, and the outer wall of the pushing screw tube 15 is convexly provided with a sliding protrusion 16 which is connected with the chute 14 in a sliding way. The wallboard main body 1 is provided with a second driving component 6 for driving the pushing screw 15 to slide, and the second driving component 6 comprises a second driving rod 62 rotatably connected to the inner wall of the third mounting cavity 13, a second adjusting screw 61 rotatably connected to the inner wall of the second mounting cavity 12, and a transmission part 63 connected between the second driving rod 62 and the second adjusting screw 61, wherein the second adjusting screw 61 is coaxially threaded through the pushing screw 15.

The transmission part 63 comprises a third bevel gear 631 and a fourth bevel gear 632, the third bevel gear 631 and the fourth bevel gear 632 are both arranged in the third installation cavity 13, one end of the second adjusting screw 61 extends into the third installation cavity 13, the third bevel gear 631 is coaxially and fixedly sleeved on the second adjusting screw 61, the fourth bevel gear 632 is coaxially and fixedly sleeved on the second driving rod 62, and the third bevel gear 631 is meshed with the fourth bevel gear 632. The end of the second driving rod 62 far away from the fourth bevel gear 632 is provided with a rotation stopping groove, so that a worker can insert the rotation stopping groove with a specific tool to control the rotation of the second driving rod 62. In the initial state, the end face of the pushing screw 15, which is close to the plug-in block 3, is flush with the inner wall of the plug-in groove 2.

The implementation process of the modularized stable energy-saving building wall structure provided by the embodiment of the application comprises the following steps: in the initial state, the face of limiting plate 33 is in the face parallel and level state with wallboard main part 1, when assembling polylith wallboard main part 1, insert the grafting piece 3 of one of them wallboard main part 1 in the grafting groove 2 of another wallboard main part 1 in the slip to make grafting piece 3 lateral wall butt in the inside wall of grafting groove 2, then drive the rotation of second bevel gear 53 through rotating first actuating lever 51, thereby drive first bevel gear 52 and rotate, and then drive first adjusting screw 41 and rotate, thereby realize sliding screw 42 takes place to slide along its axial, thereby promote limiting plate 33 through articulated pole 43 and take place the swing around the articulated end, make the free end of limiting plate 33 stretch into spacing groove 21.

The sliding screw tube 42 slides and drives the extrusion plate 44 to slide, so that the capsule storage body 32 placed in the first installation cavity 11 is extruded and is pierced under the combined action of the first piercing rod 45 and the second piercing rod, and the adhesive glue solution in the capsule storage body 32 flows into the inserting groove 2 through the liquid flow groove 31 and flows into the gap filled in the inserting groove 2 and the inserting block 3; then, the second driving rod 62 is rotated to drive the fourth bevel gear 632 to rotate, thereby driving the second adjusting screw 61 to rotate through the third bevel gear 631, thereby driving the pushing screw 15 to slide towards the direction close to the plug-in block 3, thereby pushing the wallboard main body 1 to slide reversely for a distance, further enabling the limiting plate 33 to be abutted against the inner wall of the limiting groove 21, reducing the possibility of shaking of two adjacent wallboard main bodies 1, simultaneously, increasing the gap between the outer wall of the plug-in block 3 and the plug-in groove 2, facilitating the adhesive glue solution to flow into the gap filled in the plug-in groove 2 and the plug-in block 3, and in addition, reducing the adhesion of the capsule storage body 32 on the second thorn rod after puncture, and facilitating the outflow of the adhesive glue solution.

The above embodiments are not intended to limit the scope of the present application, so: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims (3)

1. The utility model provides a stable energy-conserving building wall structure of modularization which characterized in that: the wall board comprises a plurality of wall board main bodies (1) which are mutually assembled, wherein one side of each wall board main body (1) is provided with an inserting groove (2), the inner side wall of each inserting groove (2) is provided with a limiting groove (21), the other side of each wall board main body (1) is provided with an inserting block (3) which is inserted into each inserting groove (2) on the other wall board main body (1) in a protruding mode, each inserting block (3) is hinged with a limiting plate (33), and the wall board main body (1) is provided with an adjusting mechanism (4) which is used for adjusting the limiting plates (33) to open and close so that the free ends of the limiting plates (33) are clamped in the limiting grooves (21); the wallboard comprises a wallboard main body (1), a first mounting cavity (11) extending to an inserting block (3) is formed in the wallboard main body (1), a mounting groove communicated with the first mounting cavity (11) is formed in the side wall of the inserting block (3), a limiting plate (33) is hinged to the inner side wall of the mounting groove, an adjusting mechanism (4) comprises a first adjusting screw (41) rotatably connected to the inner wall of the first mounting cavity (11), a sliding screw (42) sleeved on the first adjusting screw (41) in a threaded mode, and a hinging rod (43) with one end hinged to the limiting plate (33) and the other end hinged to the sliding screw (42), and a first driving assembly (5) for controlling the first adjusting screw (41) to rotate is arranged on the wallboard main body (1); the side wall of the plug-in block (3) is provided with a liquid flow groove (31) communicated with the first installation cavity (11), a capsule storage body (32) is arranged in the first installation cavity (11), the inner cavity of the capsule storage body (32) is filled with adhesive glue solution, and the sliding screw tube (42) is fixedly connected with a squeeze plate (44) for crushing the capsule storage body (32); the extruding plate (44) is convexly provided with a plurality of first thorn rods (45) for piercing the capsule storage body (32), and one end of each first thorn rod (45) close to the capsule storage body (32) is provided with a conical head; the inner wall of the inserting groove (2) is fixedly connected with a plurality of second thorn rods (22) in a protruding mode, the second thorn rods (22) are movably inserted into the liquid flow grooves (31), and one ends, close to the capsule storage bodies (32), of the second thorn rods (22) are arranged in a conical head mode; the first thorn rods (45) and the second thorn rods (22) are arranged in a staggered manner along the height direction of the wallboard main body (1); the first driving assembly (5) comprises a first driving rod (51) rotatably connected to the wallboard main body (1), a first bevel gear (52) fixedly sleeved on the first adjusting screw (41) and a second bevel gear (53) fixedly sleeved on the first driving rod (51) and meshed with the first bevel gear (52), the axis of the first driving rod (51) is perpendicular to the axis of the first adjusting screw (41), and the end part of the first driving rod (51) is exposed out of the wallboard main body (1); the wallboard is characterized in that a second installation cavity (12) is formed in the wallboard main body (1), the inner wall of the second installation cavity (12) is provided with a jack communicated with the inserting groove (2), the second installation cavity (12) is provided with a pushing screw tube (15) which is inserted into the jack in a sliding mode, the pushing screw tube (15) is movably abutted to the outer wall of the inserting block (3), and the wallboard main body (1) is provided with a second driving assembly (6) for driving the pushing screw tube (15) to slide.

2. A modular stable energy efficient building wall structure according to claim 1, wherein: the inner wall of second installation cavity (12) has seted up spout (14), and the outer wall protrusion of promotion screwed pipe (15) is provided with the smooth protruding (16) of connection in spout (14) that slides, second drive assembly (6) are including rotating second actuating lever (62) that are connected in wallboard main part (1), rotate second adjusting screw (61) that are connected in second installation cavity (12) inner wall and connect in transmission part (63) between second actuating lever (62) and second adjusting screw (61), second adjusting screw (61) screw thread wears to locate promotion screwed pipe (15).

3. A modular stable energy efficient building wall structure according to claim 2, wherein: the transmission part (63) comprises a third bevel gear (631) fixedly sleeved on the second adjusting screw (61) and a fourth bevel gear (632) fixedly sleeved on the second driving rod (62), and the third bevel gear (631) is meshed with the fourth bevel gear (632).