CN219343474U - Assembled building capable of being built quickly and stably - Google Patents

Abstract

The utility model provides an assembled building which is built quickly and stably, comprising a prefabricated foundation plate and a wallboard, wherein the lower end of the wallboard is matched with the upper surface of the prefabricated foundation plate, a pouring groove is formed in the prefabricated foundation plate, a plurality of conical through holes are formed in the bottom of the pouring groove, or a plurality of second anchor rods are arranged at the bottom of the pouring groove, and the prefabricated foundation plate is fixed in the foundation groove through the second anchor rods passing through the plurality of conical through holes. The whole prefabricated floor board is more stable, cement pouring is adopted between the wallboards, connection is more stable, welding is not needed again, the wallboard at the later stage is installed more quickly after the foundation is stable, the prefabricated floor board is suitable for large-scale transfer type building, the assembly efficiency is high, the construction speed is high, and the working strength of workers is reduced.

Description

Assembled building capable of being built quickly and stably

Technical Field

The utility model relates to the field of building of assembled buildings, in particular to an assembled building which is built quickly and stably.

Background

The assembled building is formed by transferring a large amount of field operation work in the traditional building mode to a factory, processing and manufacturing building components and accessories (such as floors, wallboards, stairs, balconies and the like) in the factory, transporting to a building construction site, and assembling and installing the building on site in a reliable connection mode.

The assembly type wall body is characterized in that the conventional assembly type building is assembled on a cement frame, the foundation is required to be subjected to pouring construction firstly and then assembled into various wall body structures, the assembly of the assembly type wall body and the foundation is generally screw locking or welding to increase the firm effect, the whole construction efficiency is wasted at the connection position of the assembly type wall body and the foundation, a large amount of time is wasted in the foundation construction process, the connection of the assembly type wall body and the foundation is unstable, the quality is reduced when the mass assembly is caused, and the service life is reduced.

Disclosure of Invention

The utility model mainly aims to provide an assembled building which is built quickly and stably, and solves the problems that the overall construction efficiency is wasted at the connection position of an assembled wall body and a foundation, a large amount of time is wasted in the foundation building process, the assembled wall body and the foundation are connected unstably, the quality is reduced during batch assembly, and the service life is shortened.

In order to solve the technical problems, the utility model adopts the following technical scheme: the utility model provides an assembled building of building is stabilized fast, includes prefabricated floor and wallboard, wallboard lower extreme and prefabricated floor upper surface cooperation, and prefabricated floor is inside to be equipped with to pour the groove, pours tank bottom portion and is equipped with a plurality of conical through-holes, still is equipped with a plurality of second stock, and the second stock passes a plurality of conical through-holes and fixes prefabricated floor at the inside of foundation tank.

In the preferred scheme, the prefabricated ground base plate forms rectangular foundation, and the prefabricated ground base plate includes horizontal ground base plate and indulge the ground base plate, and horizontal ground base plate and indulge pouring groove intercommunication on the ground base plate and form the ring and lead to cell body structure, and pouring inslot portion is used for pouring cement or concrete.

In the preferred scheme, baffle plates are arranged at two ends of the vertical ground base plate, groove bodies are arranged on side surfaces of two ends of the vertical ground base plate, and the groove bodies are communicated with pouring grooves of the horizontal ground base plate.

In the preferred scheme, the side surfaces at two ends of the longitudinal ground base plate are also provided with supporting tables, two ends of the transverse ground base plate are provided with supporting grooves matched with the supporting tables, the supporting grooves are matched with the matched supporting tables, and the second anchor rods penetrate through the transverse ground base plate and the supporting tables.

In the preferred scheme, the pouring groove both sides still are equipped with the mounting groove, and the wallboard lower surface is equipped with the location horizontal bar of cooperation mounting groove, and the location horizontal bar card is inside the mounting groove.

In the preferred scheme, the wallboard bottom still is equipped with the counter weight base, and the location crossband sets up on the counter weight base, still is equipped with first stock between two location crossband.

In the preferred scheme, a reinforced steel plate is arranged between the counterweight base and the prefabricated ground base plate, the reinforced steel plate is of a groove body structure, two sides of the reinforced steel plate are arranged on the pouring groove, two ends of the reinforced steel plate are also provided with baffle plates, and the baffle plates are provided with arc-shaped openings;

the first anchor rod is arranged inside the reinforced steel plate, and cement or concrete is filled inside the groove body of the reinforced steel plate.

In the preferred scheme, wallboard one side still is equipped with the side assembly wall, and side assembly wall both ends are equipped with the second draw-in groove, and the wallboard both ends are equipped with first draw-in groove, and connection clamping strip both sides are equipped with the dop, and connection clamping strip both sides pass first draw-in groove and second draw-in groove and connect wallboard and side assembly wall.

In the preferred scheme, the device comprises an assembly portal, an electric sliding frame is arranged on a beam of the assembly portal, a driving box is arranged on one side of the electric sliding frame, a lifting arm which slides up and down is arranged on the driving box, a clamping mechanism is arranged at the lower end of the lifting arm, two support legs of the assembly portal are in rolling connection with a track, a first motor is arranged on one side of each support leg, the first motor is connected with a rolling wheel, and a camera is arranged above the first motor;

the clamping mechanism comprises two groups of opposite clamping devices, the single group of opposite clamping devices comprise clamping jaws of the two opposite clamps and are in sliding connection with the frame, a third motor is arranged on one side of the frame, and the third motor is in threaded connection with the two clamping jaws through a double-screw.

The utility model provides an assembled building which is built quickly and stably, the method is that a prefabricated floor board is adopted, the prefabricated floor board is prefabricated in a factory, a foundation groove for building an address is constructed according to a drawing, the prefabricated floor boards are placed in the foundation groove in a segmented mode, multiple sections of prefabricated floor boards can be connected together, a foundation is not poured again on site, a second anchor rod is inserted into the foundation groove, cement is poured into the prefabricated floor board according to stability, the prefabricated floor board and the second anchor rod are guaranteed to be firmly fixed, the whole prefabricated floor board is more stable, cement pouring is adopted between the prefabricated floor boards, connection is more stable, welding is not needed again, after the foundation is stable, later wallboard installation is quicker, the assembled building is suitable for large-scale conversion type building, the assembly efficiency is high, the construction speed is high, and the working strength of workers is reduced.

Drawings

The utility model is further illustrated by the following examples in conjunction with the accompanying drawings:

FIG. 1 is a diagram of an assembled wall panel of the present utility model;

FIG. 2 is a block diagram of the wallboard installation of the present utility model;

FIG. 3 is a diagram of an assembled construction of a prefabricated floor panel;

FIG. 4 is a structural view of a reinforced steel sheet according to the present utility model;

FIG. 5 is a view showing an assembly and disassembly structure of the reinforcing steel plate and the prefabricated flooring according to the present utility model;

FIG. 6 is a block diagram of an assembly and disassembly flow of an assembled wall of the present utility model;

FIG. 7 is a schematic diagram of a foundation trench layout for building addresses in accordance with the present utility model;

FIG. 8 is a block diagram of an assembled mast in accordance with the present utility model;

FIG. 9 is a block diagram of the clamping mechanism of the present utility model;

FIG. 10 is a side elevational view of the clamping mechanism of the present utility model;

FIG. 11 is a lifting structure of the lifting arm of the present utility model;

in the figure: building an address 1; a track 2; assembling a portal frame 3; an operation chamber 301; a foundation trench 4; a building stacking area 5; a first motor 6; a camera 7; a gripping mechanism 8; a jaw 801; a double helical screw 802; a frame 803; a third motor 804; a first gear 805; a second motor 9; a second gear 901; a lifting arm 10; a drive box 11; an electric carriage 12; a wall plate 13; a counterweight base 1301; a first card slot 1302; positioning a cross bar 1303; a first anchor 1304; prefabricating a floor board 14; a lifting groove 1401; a mounting slot 1402; pouring groove 1403; a baffle 1404; a cradle 1405; a horizontal ground substrate 1406; a vertical base plate 1407; bracket 1408; a second anchor rod 15; a lower press plate 1501; a screw 16; a fourth motor 17; a worm 18; a worm wheel 19; a slider 20; filling cement 21; a water pipe 22; a landfill region 23; reinforcing steel plates 24; a baffle 2401; side fitting walls 25; a second card slot 2501; and a connecting clip 26.

Detailed Description

Example 1

As shown in fig. 1-11, a building device for large-scale assembled building, including equipment portal 3, be equipped with electric carriage 12 on the equipment portal 3 crossbeam, electric carriage 12 one side is equipped with drive box 11, is equipped with the lift arm 10 of upper and lower slip on the drive box 11, and the lift arm 10 lower extreme is equipped with and presss from both sides and gets mechanism 8, and two stabilizer blades and track 2 roll connection of equipment portal 3, stabilizer blade one side first motor 6, first motor 6 is connected with the roll wheel, and first motor 6 top is equipped with camera 7. The assembly portal frame 3 collapses on the group of the foundation trench 4, the foundation trench 4 is arranged in a line mode to facilitate batch assembly of the assembly portal frame 3, a plurality of houses can be assembled simultaneously, the clamping mechanism 8 of the assembly portal frame 3 can clamp the wallboard 13 and the prefabricated floor board 14 at will, accurate assembly of the wallboard 13 and the prefabricated floor board 14 is facilitated, constructors are reduced, the assembly efficiency is high, the construction speed is high, and the working strength of workers is reduced.

In a preferred embodiment, the clamping mechanism 8 comprises two sets of opposite clamping devices, the single set of opposite clamping devices comprises two clamping jaws 801 which are in sliding connection with a stand 803, a third motor 804 is arranged on one side of the stand 803, and the third motor 804 is in threaded connection with the two clamping jaws 801 through a double-screw 802. The two jaws 801 of the gripping mechanism 8 are able to grip a building object more stably.

Preferably, the two flights of the twin screw 802 are oppositely threaded. The two jaws 801 can be clamped and opened.

In the preferred scheme, the frame 803 is connected with the lifting arm 10 in a rotating way, a first gear 805 is arranged on the rotating shaft of the frame 803, a second motor 9 is arranged on the lifting arm 10, a second gear 901 is arranged at the output end of the second motor 9, and the second gear 901 is meshed with the first gear 805. Realize the rotation of various positions, make things convenient for the concatenation of various positions.

In the preferred scheme, the driving box 11 drives the lifting arm 10 to slide up and down through a gear rack, a fourth motor 17 is arranged in the driving box 11, a rack is arranged on the lifting arm 10, a gear is arranged on the fourth motor 17, and the gear is meshed with the rack. The lifting arm 10 is driven to slide up and down by meshing with a rack gear.

In the preferred scheme, the driving box 11 drives the lifting arm 10 to slide up and down through a worm gear and a worm, the lifting arm 10 is provided with a concave chute, a screw 16 is arranged in the chute, the driving box 11 is provided with a sliding block 20 matched with the concave chute, a worm wheel 19 is arranged in the sliding block 20, the screw 16 penetrates through the sliding block 20 to be meshed with the worm wheel 19, a worm 18 is arranged at the output end of a fourth motor 17 in the driving box 11, and the worm 18 is meshed with the worm wheel 19. The two ends of the screw 16 are rotatably connected with the two ends of the lifting arm 10. The worm 18 is meshed with the worm wheel 19 to drive the lifting arm 10 to slide up and down.

Example 2

Further described in connection with example 1, as shown in the structures of FIGS. 1-11, the method includes:

firstly, leveling the building address 1, and excavating a foundation trench 4 on the building address 1 according to a design drawing after leveling a foundation, wherein the bottom of the foundation trench 4 is leveled;

the constructed foundation trenches 4 are arranged in a line according to a design drawing, and a building stacking area 5 is arranged at the end part of the foundation trench 4 group, and the building stacking area 5 is used for stacking various building materials;

constructing rails 2 on two sides of a foundation trench 4 group, constructing an assembly portal frame 3 on the rails 2, wherein the height of the assembly portal frame 3 is higher than the design height of a house;

the clamping mechanism 8 of the assembly portal 3 firstly lifts the prefabricated ground base plates 14 to be placed in the foundation trench 4, a plurality of prefabricated ground base plates 14 are placed in the foundation trench 4 according to a design drawing, and the prefabricated ground base plates 14 are prefabricated in a factory according to the design drawing;

after grouting cement to stabilize the prefabricated foundation plate 14, the foundation trench 4 is grouted, and then the wallboard 13 is assembled;

the factory transportation wallboard 13 reaches the building stacking area 5, the wallboard 13 is transported in a vertical placement mode, a truck is parked in the building stacking area 5, the assembly portal 3 moves to the position above the building stacking area 5, the lifting arm 10 descends, the wallboard 13 is clamped by the clamping jaw 801 of the clamping mechanism 8, and the lifting arm 10 ascends to lift the whole wallboard 13;

the wallboard 13 reaches the upper part of the prefabricated floor board 14, meanwhile, multi-angle observation is carried out according to the cameras 7 on the supporting legs of the assembling portal 3, the clamping blocks reserved under the wallboard 13 are matched with the clamping grooves on the floor board 14, and manual pouring cement reinforcement is carried out after the matching is finished;

the wallboard 13 is assembled in the installation design sequence, after the first layer of side wallboard 13 is assembled, a two-layer building at the top of the wallboard 13 is assembled, and a lifting arm 10 and a clamping mechanism 8 are used for clamping a cross beam to assemble an upper layer plane of the building.

After the assembly is completed, the assembly portal frame 3 is disassembled, so that the next time of reuse is facilitated.

Example 3

Further describing in connection with embodiments 1-2, as shown in fig. 1-11, a rapid and stable built assembled building comprises a prefabricated ground base plate 14 and a wallboard 13, wherein the lower end of the wallboard 13 is matched with the upper surface of the prefabricated ground base plate 14, a pouring groove 1403 is formed in the prefabricated ground base plate 14, a plurality of conical through holes are formed in the bottom of the pouring groove 1403, a plurality of second anchor rods 15 are further formed in the bottom of the pouring groove 1403, and the prefabricated ground base plate 14 is fixed in the foundation groove 4 through the plurality of conical through holes by the second anchor rods 15. The method is that the prefabricated floor boards 14 are prefabricated in a factory, the prefabricated floor boards 14 are placed inside the foundation grooves 4 in a sectionalized mode after the foundation grooves 4 of the address 1 are constructed according to the drawing, the prefabricated floor boards 14 can be connected together, the foundation is not poured again on site, the second anchor rods 15 are inserted into the foundation grooves 4, the prefabricated floor boards 14 are used for pouring cement into the prefabricated floor boards 14 according to stability, the prefabricated floor boards 14 and the second anchor rods 15 are guaranteed to be firmly and integrally poured, the prefabricated floor boards 14 are more stable, cement pouring is adopted between the wallboard 13, connection is more stable, welding is not needed again, after the foundation is stable, the wallboard 13 in the later stage is installed more quickly, the method is suitable for large-scale conversion type building, assembly efficiency is high, construction speed is high, and working strength of workers is reduced.

In the preferred scheme, the prefabricated flooring 14 forms a rectangular foundation, the prefabricated flooring 14 comprises a horizontal flooring 1406 and a vertical flooring 1407, pouring grooves 1403 on the horizontal flooring 1406 and the vertical flooring 1407 are communicated to form a circular through groove body structure, and cement or concrete is poured inside the pouring grooves 1403. The pouring groove 1403 is used for pouring cement or concrete, so that the horizontal ground base plate 1406 and the vertical ground base plate 1407 are firmly connected with the second anchor rod 15.

In a preferred embodiment, baffle plates 1404 are arranged at two ends of the vertical ground base plate 1407, groove bodies are arranged on side surfaces of two ends of the vertical ground base plate 1407, and the groove bodies are communicated with pouring grooves 1403 of the horizontal ground base plate 1406. The ring-shaped through groove body structure can be formed, and pouring cement can flow to various positions.

In a preferred embodiment, the lateral surfaces at two ends of the vertical ground substrate 1407 are further provided with a supporting table 1405, two ends of the horizontal ground substrate 1406 are provided with supporting grooves 1408 matched with the supporting table 1405, the supporting grooves 1408 are matched with the matching supporting table 1405, and the second anchor rods 15 penetrate through the horizontal ground substrate 1406 and the supporting table 1405. The assembly is simpler and more convenient, and the technology for positioning and assembling more quickly is realized.

In the preferred scheme, pouring groove 1403 both sides still are equipped with mounting groove 1402, and wallboard 13 lower surface is equipped with the location cross-bar 1303 of cooperation mounting groove 1402, and location cross-bar 1303 card is inside mounting groove 1402. The wallboard 13 lower surface is equipped with the location cross-bar 1303 of cooperation mounting groove 1402, and wallboard 13 installation location is fixed afterwards, and location cross-bar 1303 also plays the effect of strengthening the connection.

In the preferred scheme, wallboard 13 bottom still is equipped with counter weight base 1301, and location cross bar 1303 sets up on counter weight base 1301, still is equipped with first stock 1304 between two location cross bars 1303. There is a first anchor 1304 that serves to more securely bond to the reinforced steel panel 24.

In the preferred scheme, a reinforced steel plate 24 is arranged between a counterweight base 1301 and a prefabricated ground substrate 14, the reinforced steel plate 24 is of a groove body structure, two sides of the reinforced steel plate 24 are arranged on a pouring groove 1403, two ends of the reinforced steel plate 24 are also provided with baffle plates 2401, and the baffle plates 2401 are provided with arc openings; the arc-shaped opening facilitates the injection of cement slurry. The first anchor 1304 is provided inside the reinforcing steel plate 24, and the inside of the tank of the reinforcing steel plate 24 is filled with cement or concrete.

In a preferred scheme, one side of the wallboard 13 is further provided with a side assembly wall 25, two ends of the side assembly wall 25 are provided with second clamping grooves 2501, two ends of the wallboard 13 are provided with first clamping grooves 1302, two sides of the connecting clamping strips 26 are provided with clamping heads, and two sides of the connecting clamping strips 26 penetrate through the first clamping grooves 1302 and the second clamping grooves 2501 to connect the wallboard 13 with the side assembly wall 25. The connection between the wall panel 13 and the side fitting wall 25 is more stable.

In the preferred scheme, the device comprises an assembly portal 3, an electric sliding frame 12 is arranged on a beam of the assembly portal 3, a driving box 11 is arranged on one side of the electric sliding frame 12, a lifting arm 10 which slides up and down is arranged on the driving box 11, a clamping mechanism 8 is arranged at the lower end of the lifting arm 10, two support legs of the assembly portal 3 are in rolling connection with a track 2, a first motor 6 on one side of each support leg is connected with a rolling wheel, and a camera 7 is arranged above the first motor 6;

the clamping mechanism 8 comprises two sets of opposite clamping devices, a single set of opposite clamping devices comprises two clamping jaws 801 which are in sliding connection with a rack 803, a third motor 804 is arranged on one side of the rack 803, and the third motor 804 is in threaded connection with the two clamping jaws 801 through a double-screw 802.

Example 4

Further described in connection with example 3, as shown in the structures of FIGS. 1-11, the method includes: firstly, leveling the building address 1, then excavating a foundation trench 4 on the building address 1 according to a design drawing after leveling the foundation, and leveling the bottom of the foundation trench 4.

The constructed foundation trenches 4 are arranged in a line according to a design drawing, and a building stacking area 5 is provided at the end of the foundation trench 4 group, and the building stacking area 5 is used for stacking various building materials.

And constructing rails 2 on two sides of the foundation trench 4 group, constructing an assembly portal frame 3 on the rails 2, wherein the height of the assembly portal frame 3 is higher than the design height of a house.

The clamping mechanism 8 of the assembly portal frame 3 firstly lifts up the prefabricated floor boards 14 to be placed in the foundation trench 4, a plurality of prefabricated floor boards 14 are placed in the foundation trench 4 according to a design drawing, and the prefabricated floor boards 14 are prefabricated in a factory according to the design drawing.

The lifting sequence of the clamping mechanism 8 for assembling the portal frame 3 is as follows: first, the vertical ground base plate 1407 is placed in the foundation trench 4, and the assembling gantry 3 controls the butt joint of the two ends of the horizontal ground base plate 1406 and the supporting table 1405 of the vertical ground base plate 1407, and the vertical ground base plate 1407 and the horizontal ground base plate 1406 are spliced by adjustment.

After the vertical floor 1407 and the horizontal floor 1406 are spliced, the foundation trench 4 is filled with concrete to a lower filling height than the prefabricated floor 14.

The second anchor rod 15 is inserted into the foundation groove 4 by utilizing a hydraulic vibration hammer through the prefabricated ground base plate 14, a distance is directly reserved between a lower pressing plate 1501 at the upper end of the second anchor rod 15 and the bottom of the pouring groove 1403, after the second anchor rod 15 is inserted, concrete is poured into the pouring groove 1403 by utilizing a pouring machine, the poured concrete also enters into a conical hole in the pouring groove 1403, and the second anchor rod 15 is fixedly arranged on the prefabricated ground base plate 14.

Pouring concrete is poured into the pouring groove 1403 to a certain height by utilizing a pouring machine, the reinforced steel plate 24 is placed on the pouring groove 1403, the bottom surface of the reinforced steel plate 24 is attached to the concrete, and the anchor rod on the bottom surface of the reinforced steel plate 24 is inserted into the concrete to increase stability.

After the concrete inside the pouring groove 1403 is cured, the assembling portal frame 3 starts to assemble the wallboard 13, the positioning cross bar 1303 at the bottom of the wallboard 13 is matched with the mounting groove 1402 on the prefabricated floor board 14, and after the wallboard 13 is mounted on the prefabricated floor board 14, the gap between the wallboard 13 and the reinforced steel plate 24 is filled with concrete, so that the wallboard 13 is connected with the prefabricated floor board 14 more stably.

The assembly portal 3 starts to install the side assembly wall 25, the positioning cross bars 1303 at the bottom of the side assembly wall 25 are matched with the installation grooves 1402 on the prefabricated floor boards 14, and after the completion, the gaps between the side assembly wall 25 and the reinforced steel plates 24 are filled with concrete.

The assembly gantry 3 lifts the connection clip 26, and the connection clip 26 is clipped into the first clip groove 1302 and the second clip groove 2501 between the side assembly wall 25 and the wallboard 13, so as to firmly connect the side assembly wall 25 and the wallboard 13.

The above embodiments are only preferred embodiments of the present utility model, and should not be construed as limiting the present utility model, and the scope of the present utility model should be defined by the claims, including the equivalents of the technical features in the claims. I.e., equivalent replacement modifications within the scope of this utility model are also within the scope of the utility model.

Claims (10)

1. An assembled building of quick stable construction, characterized by: including prefabricated floor (14) and wallboard (13), wallboard (13) lower extreme and prefabricated floor (14) upper surface cooperation, prefabricated floor (14) are inside to be equipped with pour groove (1403), pour groove (1403) bottom and be equipped with a plurality of toper through-holes, still be equipped with a plurality of second stock (15), and second stock (15) pass a plurality of toper through-holes and fix prefabricated floor (14) inside foundation ditch (4).

2. The rapid and stable building fabricated building of claim 1, wherein: the prefabricated ground base plates (14) form a rectangular foundation, the prefabricated ground base plates (14) comprise transverse ground base plates (1406) and longitudinal ground base plates (1407), pouring grooves (1403) on the transverse ground base plates (1406) and the longitudinal ground base plates (1407) are communicated to form a circular through groove body structure, and cement or concrete is poured in the pouring grooves (1403).

3. A rapid and stable building fabricated according to claim 2, wherein: baffle plates (1404) are arranged at two ends of the vertical ground base plate (1407), groove bodies are arranged on the side surfaces of the two ends of the vertical ground base plate (1407), and the groove bodies are communicated with pouring grooves (1403) of the horizontal ground base plate (1406).

4. A rapid and stable building fabricated building according to claim 3, wherein: the side surfaces of the two ends of the vertical ground base plate (1407) are also provided with supporting tables (1405), the two ends of the horizontal ground base plate (1406) are provided with supporting grooves (1408) matched with the supporting tables (1405), the supporting grooves (1408) are matched with the matching supporting tables (1405), and the second anchor rods (15) penetrate through the horizontal ground base plate (1406) and the supporting tables (1405).

5. The rapid and stable building fabricated building of claim 1, wherein: the two sides of the pouring groove (1403) are also provided with mounting grooves (1402), the lower surface of the wall board (13) is provided with positioning cross bars (1303) matched with the mounting grooves (1402), and the positioning cross bars (1303) are clamped inside the mounting grooves (1402).

6. The rapid and stable building fabricated building of claim 5, wherein: the wallboard (13) bottom still is equipped with counter weight base (1301), and location crossband (1303) set up on counter weight base (1301), still are equipped with first stock (1304) between two location crossband (1303).

7. The rapid and stable building fabricated building of claim 5, wherein: a reinforced steel plate (24) is arranged between the counterweight base (1301) and the prefabricated ground base plate (14), the reinforced steel plate (24) is of a groove body structure, two sides of the reinforced steel plate (24) are arranged on the pouring groove (1403), two ends of the reinforced steel plate (24) are also provided with baffle plates (2401), and the baffle plates (2401) are provided with arc openings;

the first anchor rod (1304) is arranged inside the reinforced steel plate (24), and cement or concrete is filled in the groove body of the reinforced steel plate (24).

8. The rapid and stable building fabricated building of claim 1, wherein: the wallboard (13) one side still is equipped with side assembly wall (25), and side assembly wall (25) both ends are equipped with second draw-in groove (2501), and wallboard (13) both ends are equipped with first draw-in groove (1302), and connection draw-in bar (26) both sides are equipped with the dop, and connection draw-in bar (26) both sides pass first draw-in groove (1302) and second draw-in groove (2501) and connect wallboard (13) and side assembly wall (25).

9. The rapid and stable building fabricated building of claim 1, wherein: including equipment portal (3), be equipped with electric carriage (12) on equipment portal (3) crossbeam, electric carriage (12) one side is equipped with driving box (11), is equipped with upper and lower gliding lifting arm (10) on driving box (11), and lifting arm (10) lower extreme is equipped with and presss from both sides and gets mechanism (8), and two stabilizer blades and track (2) roll connection of equipment portal (3), stabilizer blade one side first motor (6), first motor (6) are connected with the roll wheel, and first motor (6) top is equipped with camera (7).

10. The rapid and stable building fabricated building of claim 9, wherein: the clamping mechanism (8) comprises two groups of opposite clamping devices, the single group of opposite clamping devices comprise two clamping jaws (801) which are in sliding connection with the frame (803), a third motor (804) is arranged on one side of the frame (803), and the third motor (804) is in threaded connection with the two clamping jaws (801) through a double-screw (802).

Images