CN117926924A - Steel construction assembled house frame construction - Google Patents

Abstract

The invention discloses a steel structure assembled house frame structure, in particular to the technical field of steel structure frames, which mainly comprises an assembling support disc, wherein a positioning screw is fixedly arranged at the top end of the assembling support disc in an embedded manner, a linkage slip ring is vertically and slidably connected to the outer wall of the positioning screw and positioned above the assembling support disc, and a linkage angle fine-tuning mechanism is arranged on the outer wall of the linkage slip ring; the linkage angle fine adjustment mechanism comprises a plurality of concave supporting blocks arranged on the outer wall of the linkage slip ring, and connecting columns are welded on one side of the inner wall of each concave supporting block. According to the invention, the linkage angle fine adjustment mechanism is adopted to lead the linkage slip ring to slide downwards along the outer wall of the positioning screw rod, the concave support blocks drive the connecting columns to enable the hinge rods to move downwards, the outer wall of the linkage support shaft rotates downwards, the plurality of assembly brackets can realize synchronous rotation fine adjustment, the plurality of support points are subjected to synchronous fine adjustment installation according to the installation size, and the fine adjustment installation efficiency of the assembly type steel structure frame is greatly improved.

Description

Steel construction assembled house frame construction

Technical Field

The invention relates to the technical field of steel structure frames, in particular to a steel structure assembled house frame structure.

Background

The steel structure assembled house frame structure has the characteristic of flexible space arrangement, the special non-bearing wall enables the space structure to be larger, households can divide the space layout again according to requirements, and the stability of the structure is not affected; and secondly, as the fabricated steel structure house is made of light materials, the earthquake acting force born by the fabricated steel structure house is reduced, the earthquake resistance is greatly improved, and the safety performance of the house is improved.

In the prior art, the assembled steel structure frame for the building is disclosed as CN114164944A, and is mainly characterized in that the assembled steel structure frame for the building is fixed between a first fixed angle iron and a first support steel frame and between the assembled steel structure frame and a second support steel frame through two groups of first fixing bolts, and the firmness and stability of the steel structure can be ensured by designing and stabilizing the steel structure frame and the door and window height and width adjusting structure, and meanwhile, the assembled steel structure frame for the building can be quickly adjusted according to the change of the design size, so that the overall strength and stability of the frame structure are not influenced, and the working efficiency is greatly improved; the assembled steel structure frame also has the following defects:

in the house assembly construction process, the assembled steel structure frame is transported to the site for assembly after being customized and processed according to the specified size, and the frame is overlong or too short, and needs to polish or weld a single supporting point again, so that the fine adjustment efficiency is low, and a new steel structure assembled house frame structure is needed.

Disclosure of Invention

In order to overcome the above-mentioned drawbacks of the prior art, the present invention provides a steel structure fabricated residential frame structure.

In order to achieve the above purpose, the present invention provides the following technical solutions: the steel structure assembled house frame structure comprises an assembling support disc, wherein a positioning screw is fixedly arranged at the top end of the assembling support disc in an embedded mode, a linkage slip ring is vertically and slidably connected to the outer wall of the positioning screw and positioned above the assembling support disc, and a linkage angle fine-tuning mechanism is arranged on the outer wall of the linkage slip ring; the linkage angle fine adjustment mechanism comprises a plurality of concave supporting blocks arranged on the outer wall of the linkage slip ring, a connecting column is welded on one side of the inner wall of each concave supporting block, a hinge rod is arranged on the outer wall of the connecting column, and a support column is arranged on the inner wall of the hinge rod and close to the bottom end of the hinge rod; a concave linkage block is welded at one end of the support column, a mounting support and a linkage support shaft are sequentially arranged at one side of the concave linkage block from outside to inside, a concave connecting block is welded at one end of the linkage support shaft, and a plurality of concave connecting blocks are welded with the outer wall of the mounting support disc; and the bottom end of the assembly support disc is provided with a linkage lifting fine adjustment assembly.

Preferably, a plurality of concave supporting blocks are welded with the linkage slip ring, the concave supporting blocks are distributed and arranged at equal intervals in a circular ring, the cross section of each concave supporting block is concave, one end parts of each connecting column and each supporting column penetrate through the hinging rod, and the outer walls of each connecting column and each supporting column are rotationally connected with the hinging rod; the center point of the connecting column is higher than that of the supporting column; the assembly sleeve frame and the concave linkage block are integrally formed through die casting, the outer wall of the linkage support shaft is rotationally connected with the inner wall of the assembly sleeve frame, and the linkage support block with a hexagonal cross section is welded at the top end of the positioning screw rod; the top bottom of linkage sliding ring all is equipped with the spacing spiro ring with positioning screw outer wall threaded connection, two spacing spiro ring sets up about the linkage sliding ring symmetry, and two spacing spiro ring all with positioning screw outer wall threaded connection.

According to the technical scheme, when the fine adjustment is performed, the limiting spiral ring below the linkage sliding ring is rotated, the limiting spiral ring is in threaded connection with the positioning screw rod, when the limiting spiral ring moves downwards, the linkage sliding ring slides downwards along the outer wall guide of the positioning screw rod, the linkage sliding ring drives the concave support blocks to move downwards synchronously, the connecting column enables the hinging rod to move downwards, the supporting column enables the concave linkage blocks to move downwards, the assembly sleeve frame rotates downwards on the outer wall of the linkage support shaft, the concave connecting block provides stable supporting operation for the linkage support shaft, the plurality of assembly sleeve frames can realize synchronous rotation fine adjustment, when the plurality of assembly sleeve frames move to be matched with the point of the steel structure assembly connecting support frame, the mounting bolts are inserted into four hole sites at the top end of the assembly sleeve frame, the limiting spiral ring above the linkage sliding ring is rotated, and the positioning screw rod are in threaded connection downwards to perform fine adjustment.

Preferably, the linkage lifting fine adjustment assembly comprises a connecting support block fixedly arranged at the bottom end of the assembly support disc; the bottom end of the connecting support block is detachably connected with a supporting plate through a bolt, a concave shaft plate with a concave vertical section is welded at the bottom end of the supporting plate, two linkage shafts which are sequentially arranged from left to right are welded on the inner wall of the concave shaft plate, the outer wall of each linkage shaft is rotatably connected with a hinge sleeve plate, and a sleeve slide block is rotatably installed on the inner wall of the hinge sleeve plate and close to the bottom end of the hinge sleeve plate; the front and rear sides of the sleeving sliding block are welded with connecting support shafts, and the outer wall of the hinged sleeving plate is rotatably connected with a sleeving frame plate at a position close to the bottom end of the hinged sleeving plate; a connecting support rod which is connected in a rotating way penetrates through the inner wall of the sleeving frame plate and is close to the bottom end of the sleeving frame plate, a supporting groove plate is welded at one end part of the connecting support rod, and two mounting support blocks with rectangular cross sections are welded at the bottom end of the supporting groove plate; the inner wall of the sleeved sliding block is provided with a linkage screw, two ends of the linkage screw are welded with rotating caps with hexagonal vertical cross sections, and the rotating caps are used for rotating the linkage screw;

the two sides of the concave shaft plate are respectively provided with a concave shaft block, the inner wall of the concave shaft block is provided with a linkage support assembly, one end part of the connecting support shaft penetrates through one side of the inner wall of the hinged sleeve plate and extends to the outside of the sleeved frame plate, the outer wall of the connecting support shaft is respectively in rotary connection with the hinged sleeve plate and the sleeved frame plate, the inner walls of the two sleeved sliding blocks are in threaded connection with the outer wall of the linkage screw rod, and the two threads of the outer wall of the linkage screw rod are opposite and symmetrically arranged; the two rotating caps are symmetrically arranged about the linkage screw.

According to the technical scheme, when fine tuning, the rotary cap rotates the rotatory linkage screw rod, two sleeve joint slider realize being close to each other under the effect of screw thread, sleeve joint slider drives two connection fulcra simultaneously and removes, sleeve joint framed plate and articulated sleeve plate rotate, the bottom of two articulated sleeve plates is close to each other, the support frid can provide stable support operation to two linkage branches, articulated sleeve plate top upwards promotes, the universal driving shaft makes concave axle board shift up, concave axle board drives the backup pad and makes the connection supporting shoe realize synchronous upward movement, carry the assembly supporting disk and make positioning screw shift up, simultaneously the assembly supporting disk carries a plurality of concave connecting blocks to shift up in step, the top of a plurality of assembly supporting frames can realize the upward movement lifting in step.

Preferably, the linkage support assembly comprises a rotating sleeve plate fixedly arranged on the inner wall of the concave shaft block; the outer wall of the rotating sleeve plate is connected with a sliding frame plate in a sliding manner, a connecting shaft rod penetrates through the inner wall of the sliding frame plate and is close to the bottom end of the sliding frame plate, a hinged support plate is welded at one end of the connecting shaft rod, the two hinged support plates are symmetrically arranged relative to the supporting groove plate, and the two hinged support plates are fixedly connected with the supporting groove plate; the number of the rotating sleeve plates is two, concave blocks are welded on adjacent sides of the two rotating sleeve plates, a penetrating shaft is welded on one side of the inner wall of each concave block, the outer wall of each penetrating shaft is rotationally connected with a sleeved linkage supporting block through a bearing, a sleeved rotating rod is welded on one side of each sleeved linkage supporting block, a supporting shaft is arranged on the inner wall of each sleeved rotating rod and close to the top end of each sleeved rotating rod, the outer wall of the support shaft is welded with a limiting ring near the front end position of the support shaft, the sliding frame plate is rotationally connected with the outer wall of the connecting shaft rod, the outer wall of the connecting shaft rod is polished, the number of the sleeved rotating rods is two, one end of the support shaft penetrates through the two sleeved rotating rods, and the two sleeved rotating rods are rotationally connected with the outer wall of the support shaft.

According to the technical scheme, when fine tuning, the concave shaft block carries the rotary sleeve plate to slide along the guide of the inner wall of the sliding frame plate, the sliding frame plate rotates on the outer wall of the connecting shaft rod, the two rotary sleeve plates are assembled to drive the concave block to move when obliquely sliding, the concave block drives the penetrating shaft to enable the sleeve joint linkage support block to move, and the sleeve joint linkage support block drives the sleeve joint rotating rod to rotate on the limiting ring so that the limiting ring and the supporting shaft can be firmly connected together.

The invention has the technical effects and advantages that:

according to the invention, the linkage angle fine adjustment mechanism is adopted to lead the linkage slip ring to slide downwards along the outer wall of the positioning screw rod, the linkage slip ring drives the plurality of concave supporting blocks to synchronously move downwards, the concave supporting blocks drive the connecting columns to downwards move the hinging rods, the concave linkage blocks drive the assembly brackets to downwards rotate on the outer wall of the linkage supporting shaft, the plurality of assembly brackets can realize synchronous rotation fine adjustment, the plurality of assembly brackets can move to the position matched with the point positions of the steel structure assembly connecting brackets, the plurality of fulcrums can be synchronously fine-adjusted and installed according to the installation size, and the fine adjustment installation efficiency of the assembled steel structure frame is greatly improved;

According to the invention, the supporting groove plate and the mounting support block are arranged at the top of the steel structure assembled house bracket by utilizing the linkage lifting fine adjustment assembly, the linkage screw rod drives the two sleeved sliding blocks to mutually approach under the action of threads, the connecting support shaft drives the sleeved frame plate and the hinged sleeve plate to rotate, the bottom ends of the two hinged sleeve plates mutually approach, the connecting support shaft drives the top ends of the hinged sleeve plates to upwards lift, the hinged sleeve plate drives the linkage shaft to upwards move the concave shaft plate, the connecting support block can carry the assembly support disc to upwards move the positioning screw rod, the top ends of the assembly support frames can synchronously realize upwards-moving lifting, synchronous micro-lifting adjustment is realized on the assembly support frames, and the fine adjustment efficiency is higher;

According to the invention, the support plate can synchronously drive the two concave shaft blocks to synchronously move upwards in the upward moving process through the linkage lifting fine adjustment assembly, the concave shaft blocks carry the rotating sleeve plates to guide and slide along the inner wall of the sliding frame plate, the hinged support plates can firmly provide stable support operation for the connecting shaft rod, meanwhile, when the two rotating sleeve plates slide obliquely, the concave blocks drive the penetrating shaft to enable the sleeved linkage support blocks to move, the two rotating sleeve plates can form linkage adjustment support, and a firm linkage support is formed between the two rotating sleeve plates, so that synchronous support is realized through synchronous movement, and the fine adjustment support efficiency of the assembled steel structure frame is effectively improved;

according to the mutual influence of the functions, firstly, synchronous rotation fine adjustment can be achieved for a plurality of assembling supporting frames, then the top ends of the assembling supporting frames can synchronously achieve upward movement and lifting, finally, two rotating sleeve plates can form linkage adjustment support, and a firm linkage support is formed between the two rotating sleeve plates, so that synchronous vertical fine adjustment and angle fine adjustment installation can be achieved for a plurality of assembling supporting frame supporting points according to the installation size, and the fine adjustment installation efficiency of the assembled steel structure frame is greatly improved.

Drawings

Fig. 1 is a schematic view of a front view of a steel structure assembled house frame structure according to the present invention.

Fig. 2 is a schematic view of a vertical cross-section of a steel structure fabricated residential frame structure according to the present invention.

Fig. 3 is a schematic view of a vertical section cut-off partial structure of a joint of a linked slip ring and a positioning screw rod.

Fig. 4 is an enlarged schematic view of the structure of fig. 3a according to the present invention.

Fig. 5 is a schematic view showing the bottom view of a steel structure assembled house frame structure according to the present invention.

Fig. 6 is a schematic view showing a partial structure of a joint portion of the joint support shaft and the socket frame plate according to the present invention.

Fig. 7 is a schematic view showing a partial structure of a vertical section of a joint fulcrum and a hinge sleeve plate according to the present invention.

Fig. 8 is a schematic view of a partial vertical section of the joint of the sliding frame plate and the rotating sleeve plate according to the present invention.

Fig. 9 is an enlarged view of the structure of fig. 8B according to the present invention.

The reference numerals are: 1. assembling a support disc; 2. positioning a screw; 3. a linked slip ring; 4. a concave support block; 5. a connecting column; 6. a hinge rod; 7. a support column; 8. a concave linkage block; 9. assembling a support; 10. a linked support shaft; 11. a concave connecting block; 12. a limiting ring; 13. a linkage support block; 14. limiting a spiral ring; 15. connecting the support blocks; 16. a support plate; 17. a concave shaft plate; 18. a linkage shaft; 19. a hinged sheathing plate; 20. sleeving a sliding block; 21. a connecting support shaft; 22. sleeving a frame plate; 23. a linkage strut; 24. supporting the trough plate; 25. installing a supporting block; 26. a linkage screw; 27. rotating the cap; 28. a concave shaft block; 29. rotating the sleeve plate; 30. sliding the frame plate; 31. a connecting shaft lever; 32. hinging the support plate; 33. a concave block; 34. a through shaft; 35. sleeving the linkage support blocks; 36. sleeving a rotating rod; 37. and a support shaft.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

1-9, A steel construction assembled house frame construction is provided with linkage angle fine setting mechanism, linkage lifting fine setting subassembly, linkage supporting component on this steel construction assembled house frame construction, and the setting of each mechanism and subassembly can be according to the installation dimension, carries out synchronous vertical fine setting and angle fine setting installation to a plurality of assembly sleeve frame 9 fulcrums, and assembled steel construction frame fine setting installation effectiveness improves by a wide margin, and the concrete structure setting of each mechanism and subassembly is as follows:

In this embodiment, as shown in fig. 1-4, the linkage angle fine adjustment mechanism includes a plurality of concave supporting blocks 4 installed on the outer wall of the linkage slip ring 3, a connecting column 5 is welded on one side of the inner wall of each concave supporting block 4, a hinge rod 6 is installed on the outer wall of the connecting column 5, and a supporting column 7 is installed on the inner wall of the hinge rod 6 and near the bottom end position thereof; a concave linkage block 8 is welded at one end of the support column 7, a mounting bracket 9 and a linkage support shaft 10 are sequentially arranged at one side of the concave linkage block 8 from outside to inside, a concave connecting block 11 is welded at one end of the linkage support shaft 10, and a plurality of concave connecting blocks 11 are welded with the outer wall of the mounting bracket 1; the bottom of the assembly support disc 1 is provided with a linkage lifting fine adjustment assembly.

In the embodiment, as shown in fig. 1-3, the top end of the positioning screw 2 is welded with a linkage support block 13 with a hexagonal cross section; the top bottom of linkage sliding ring 3 all is equipped with spacing spiro ring 14 with positioning screw 2 outer wall threaded connection, two spacing spiro rings 14 set up about linkage sliding ring 3 symmetry, and two spacing spiro ring 14 all with positioning screw 2 outer wall threaded connection, so that play the supporting role to positioning screw 2 top through linkage supporting plate 13, assembly supporting plate 1 provides stable support to positioning screw 2 simultaneously, moreover linkage supporting plate 13 can play vertical spacing operation to spacing spiro ring 14, and when spacing spiro ring 14 moves down, linkage sliding ring 3 is along positioning screw 2's outer wall guide down-sliding, rotate spacing spiro ring 14 of linkage sliding ring 3 top, spacing spiro ring 14 and positioning screw 2 threaded connection of linkage sliding ring 3 top move down, extrusion locking operation is accomplished on linkage sliding ring 3 top, two spacing spiro ring 14 can finely tune linkage sliding ring 3 vertical position.

In this embodiment, as shown in fig. 2-7, the linked lifting fine adjustment assembly includes a connecting support block 15 fixedly installed at the bottom end of the assembly support plate 1; the bottom end of the connecting support block 15 is detachably connected with a support plate 16 through a bolt, a concave shaft plate 17 with a concave vertical section shape is welded at the bottom end of the support plate 16, two linkage shafts 18 which are sequentially arranged from left to right are welded on the inner wall of the concave shaft plate 17, the outer wall of each linkage shaft 18 is rotationally connected with a hinging sleeve plate 19, and a sleeving sliding block 20 is rotationally arranged on the inner wall of the hinging sleeve plate 19 and close to the bottom end of the hinging sleeve plate; the front and rear sides of the sleeving sliding block 20 are welded with a connecting support shaft 21, the outer wall of the hinging sleeve plate 19 is rotatably connected with a sleeving frame plate 22 near the bottom end of the hinging sleeve plate; a connecting support rod 23 which is connected in a rotating way is penetrated through the inner wall of the sleeving frame plate 22 and is close to the bottom end of the sleeving frame plate, a supporting groove plate 24 is welded at one end part of the connecting support rod 23, and two mounting support blocks 25 with rectangular cross sections are welded at the bottom end of the supporting groove plate 24; the inner wall of the sleeving sliding block 20 is provided with a linkage screw rod 26, two ends of the linkage screw rod 26 are welded with rotating caps 27 with hexagonal vertical section, and the rotating caps 27 are used for rotating the linkage screw rod 26;

The two sides of the concave shaft plate 17 are provided with concave shaft blocks 28, the inner wall of each concave shaft block 28 is provided with a linkage support assembly, one end part of the connecting support shaft 21 penetrates through one side of the inner wall of the hinged sleeve plate 19 and extends to the outside of the sleeved frame plate 22, the outer wall of the connecting support shaft 21 is respectively in rotary connection with the hinged sleeve plate 19 and the sleeved frame plate 22, the inner walls of the two sleeved sliding blocks 20 are in threaded connection with the outer wall of the linkage screw 26, and the two threads of the outer wall of the linkage screw 26 are opposite and symmetrically arranged; the two rotary caps 27 are symmetrically disposed about the link screw 26.

In this embodiment, as shown in fig. 8-9, the linkage support assembly includes a rotating sleeve plate 29 fixedly mounted on the inner wall of the concave shaft block 28; the outer wall of the rotating sleeve plate 29 is connected with a sliding frame plate 30 in a sliding manner, a connecting shaft rod 31 penetrates through the inner wall of the sliding frame plate 30 and is close to the bottom end of the sliding frame plate, a hinged support plate 32 is welded at one end part of the connecting shaft rod 31, the two hinged support plates 32 are symmetrically arranged relative to the supporting groove plate 24, and the two hinged support plates 32 are fixedly connected with the supporting groove plate 24; the number of the rotating sleeve plates 29 is set to be two, concave blocks 33 are welded on adjacent sides of the two rotating sleeve plates 29, a penetrating shaft 34 is welded on one side of the inner wall of each concave block 33, a sleeved linkage supporting block 35 is rotatably connected to the outer wall of each penetrating shaft 34 through a bearing, a sleeved rotating rod 36 is welded on one side of each sleeved linkage supporting block 35, a supporting shaft 37 is mounted on the inner wall of each sleeved rotating rod 36 and close to the top end of each sleeved rotating rod, a limiting ring 12 is welded on the outer wall of each supporting shaft 37 and close to the front end of each supporting shaft, a sliding frame plate 30 is rotatably connected with the outer wall of each connecting shaft 31, the outer wall of each connecting shaft 31 is subjected to polishing and polishing treatment, the number of the sleeved rotating rods 36 is two, one end of each supporting shaft 37 penetrates through the two sleeved rotating rods 36, and the two sleeved rotating rods 36 are rotatably connected with the outer wall of each supporting shaft 37.

The application method of the steel structure assembled house frame in the embodiment is as follows:

Firstly, when the lifting fine adjustment is carried out, an installer inserts and matches the supporting groove plate 24 and the installation support block 25 into the hole sites in the steel structure assembled house bracket by using bolts, the supporting groove plate 24 and the installation support block 25 are installed at the top position of the steel structure assembled house bracket, meanwhile, a plurality of bolts are inserted into the hinged support plate 32, the hinged support plate 32 is fixed at the top position of the steel structure assembled house bracket, the linkage screw 26 is rotated by rotating the rotating cap 27, the linkage screw 26 drives the two sleeved sliding blocks 20 to mutually approach under the action of threads, meanwhile, the sleeved sliding blocks 20 drive the two connecting support shafts 21 to move, the connecting support shafts 21 drive the sleeved frame plates 22 and the hinged sleeve plates 19 to rotate, the bottom ends of the two hinged sleeve plates 19 are mutually close, and the sleeved frame plates 22 are rotated on the outer walls of the linked support rods 23, the supporting groove plates 24 can provide stable supporting operation for the two linked support rods 23, so that the connecting support shafts 21 drive the top ends of the hinged sleeve plates 19 to be lifted upwards, the linkage shaft 18 is driven by the concave shaft plates 17 to move upwards, the concave shaft plates 17 drive the supporting plates 16 to drive the connecting support plates 15 to move under the action of threads, the action of the concave support plates 15 can drive the connecting support plates 15 to move under the action of the supporting plates, and the concave support plates 15 are driven by the supporting plates to realize the synchronous support plates 15 to move, and the supporting plates 11 are driven by the concave support plates to carry the supporting plates 11 to move, and the supporting plates 11 are mounted by the supporting plates and are mounted on the supporting frames 2, and the supporting frames are mounted on the supporting frames 11, and the supporting frames are mounted by the supporting frames and are mounted by a plurality of supporting frames, and 9;

In the synchronous support of the invention, the support plate 16 can synchronously drive the two concave shaft blocks 28 to synchronously move upwards in the upward moving process, the concave shaft blocks 28 carry the rotating sleeve plates 29 to guide and slide along the inner wall of the sliding frame plates 30, meanwhile, the sliding frame plates 30 rotate on the outer wall of the connecting shaft rods 31, the hinged support plates 32 can firmly provide stable support operation for the connecting shaft rods 31, meanwhile, when the two rotating sleeve plates 29 slide obliquely, the assembly support frame 9 drives the concave blocks 33 to move, the concave blocks 33 drive the penetrating shafts 34 to drive the sleeve joint linkage support blocks 35 to move, the sleeve joint linkage support blocks 35 drive the sleeve joint rotating rods 36 to rotate on the limiting rings 12, the limiting rings 12 and the support shafts 37 can be firmly connected together, and the two rotating sleeve plates 29 form firm support operation;

In the step III, when the invention is used for linkage multi-angle fine adjustment, the top end of the positioning screw rod 2 is supported by the linkage supporting block 13, meanwhile, the assembly supporting plate 1 provides stable support for the positioning screw rod 2, the limiting spiral ring 14 below the linkage sliding ring 3 is rotated, the limiting spiral ring 14 is in threaded connection with the positioning screw rod 2, when the limiting spiral ring 14 moves downwards, the linkage sliding ring 3 guides downwards along the outer wall of the positioning screw rod 2, meanwhile, the linkage sliding ring 3 drives the plurality of concave supporting blocks 4 to move downwards synchronously, the concave supporting blocks 4 drive the connecting columns 5 to enable the hinging rod 6 to move downwards, the hinging rod 6 carries the supporting columns 7 to enable the concave linkage blocks 8 to move downwards, the concave linkage blocks 8 drive the assembly supporting frame 9 to rotate downwards on the outer wall of the linkage supporting shaft 10, meanwhile, the assembly supporting plate 1 plays a role of stabilizing support for the plurality of concave connecting blocks 11, the concave connecting blocks 11 provide stable support operation for the linkage supporting frame 10, so that the plurality of assembly supporting frames 9 can realize synchronous rotation fine adjustment, when the plurality of assembly supporting frames 9 move to be matched with the steel structure assembly connecting frames, the mounting bolts are inserted into four hole sites on the top end of the assembly supporting frames 9, and the steel structure is assembled with the steel structure assembly supporting frames 3 to realize the extrusion supporting frame 3, and the assembly supporting frame is assembled on the top end of the steel structure of the steel spiral ring frame 3, and the assembly supporting frame 3 is assembled by extruding the assembly supporting frame 3, and the assembly supporting frame 3 is arranged on the steel spiral frames, and the sliding ring frame 3, and the assembly supporting frame is arranged.

The foregoing description of the preferred embodiments of the invention is not intended to limit the invention to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and principles of the invention are intended to be included within the scope of the invention.

Claims (10)

1. The utility model provides a steel construction assembled house frame construction, includes assembly dish (1), the top embedding fixed mounting of assembly dish (1) has positioning screw (2), the outer wall of positioning screw (2) just is located the vertical sliding connection in position of assembly dish (1) top and has linkage sliding ring (3), its characterized in that: the outer wall of the linkage slip ring (3) is provided with a linkage angle fine adjustment mechanism;

The linkage angle fine adjustment mechanism comprises a plurality of concave supporting blocks (4) arranged on the outer wall of a linkage slip ring (3), a connecting column (5) is welded on one side of the inner wall of each concave supporting block (4), a hinging rod (6) is arranged on the outer wall of the connecting column (5), and a supporting column (7) is arranged on the inner wall of the hinging rod (6) and close to the bottom end of the hinging rod;

A concave linkage block (8) is welded at one end part of the support column (7), a mounting bracket (9) and a linkage support shaft (10) are sequentially arranged at one side of the concave linkage block (8) from outside to inside, a concave connecting block (11) is welded at one end part of the linkage support shaft (10), and a plurality of concave connecting blocks (11) are welded with the outer wall of the mounting bracket (1);

And the bottom end of the assembly support disc (1) is provided with a linkage lifting fine adjustment assembly.

2. A steel structure fabricated residential frame structure as claimed in claim 1, wherein: the plurality of concave supporting blocks (4) are welded with the linkage slip ring (3), the plurality of concave supporting blocks (4) are distributed and arranged at equal intervals in a circular ring, and the cross section of each concave supporting block (4) is concave.

3. A steel structure fabricated residential frame structure as claimed in claim 1, wherein: one end parts of the connecting column (5) and the supporting column (7) penetrate through the hinging rod (6), and the outer walls of the connecting column (5) and the supporting column (7) are rotationally connected with the hinging rod (6);

The center point of the connecting column (5) is higher than the center point of the supporting column (7);

The assembly sleeve frame (9) and the concave linkage block (8) are integrally formed through die casting, and the outer wall of the linkage support shaft (10) is rotationally connected with the inner wall of the assembly sleeve frame (9).

4. A steel structure fabricated residential frame structure as claimed in claim 1, wherein: a linkage support block (13) with a hexagonal cross section is welded at the top end of the positioning screw (2);

The top bottom of linkage sliding ring (3) all is equipped with spacing spiral ring (14) with positioning screw (2) outer wall threaded connection, two spacing spiral ring (14) are about linkage sliding ring (3) symmetry setting, and two spacing spiral ring (14) all with positioning screw (2) outer wall threaded connection.

5. A steel structure fabricated residential frame structure as claimed in claim 1, wherein: the linkage lifting fine adjustment assembly comprises a connecting support block (15) fixedly arranged at the bottom end of the assembly support disc (1);

The bottom end of the connecting support block (15) is detachably connected with a support plate (16) through a bolt, a concave shaft plate (17) with a concave vertical section shape is welded at the bottom end of the support plate (16), two linkage shafts (18) which are sequentially arranged from left to right are welded on the inner wall of the concave shaft plate (17), the outer wall of each linkage shaft (18) is rotationally connected with a hinging sleeve plate (19), and a sleeving sliding block (20) is rotationally arranged on the inner wall of the hinging sleeve plate (19) and close to the bottom end of the hinging sleeve plate;

the front and rear sides of the sleeving sliding block (20) are welded with a connecting support shaft (21), and the outer wall of the hinging sleeve plate (19) is rotationally connected with a sleeving frame plate (22) near the bottom end of the hinging sleeve plate;

A linkage supporting rod (23) which is connected in a rotating way is penetrated through the inner wall of the sleeve joint frame plate (22) and is close to the bottom end of the sleeve joint frame plate, a supporting groove plate (24) is welded at one end part of the linkage supporting rod (23), and two mounting supporting blocks (25) with rectangular cross sections are welded at the bottom end of the supporting groove plate (24);

The inner wall of the sleeve joint sliding block (20) is provided with a linkage screw rod (26), two ends of the linkage screw rod (26) are welded with rotating caps (27) with hexagonal vertical cross sections, and the rotating caps (27) are used for rotating the linkage screw rod (26);

both sides of the concave shaft plate (17) are provided with concave shaft blocks (28), and the inner wall of each concave shaft block (28) is provided with a linkage support assembly.

6. A steel structure fabricated residential frame structure as claimed in claim 5, wherein: one end of the connecting support shaft (21) penetrates through one side of the inner wall of the hinged sleeve plate (19) and extends to the outside of the sleeved frame plate (22), and the outer wall of the connecting support shaft (21) is respectively connected with the hinged sleeve plate (19) and the sleeved frame plate (22) in a rotating mode.

7. A steel structure fabricated residential frame structure as claimed in claim 5, wherein: the inner walls of the two sleeved sliding blocks (20) are in threaded connection with the outer wall of the linkage screw rod (26), and the two threads of the outer wall of the linkage screw rod (26) are opposite and symmetrically arranged;

The two rotating caps (27) are symmetrically arranged about the linkage screw (26).

8. A steel structure fabricated residential frame structure as claimed in claim 5, wherein: the linkage support assembly comprises a rotating sleeve plate (29) fixedly arranged on the inner wall of the concave shaft block (28);

the outer wall of the rotating sleeve plate (29) is connected with a sliding frame plate (30) in a sliding manner, a connecting shaft rod (31) penetrates through the inner wall of the sliding frame plate (30) and is close to the bottom end of the sliding frame plate, a hinged support plate (32) is welded at one end part of the connecting shaft rod (31), the two hinged support plates (32) are symmetrically arranged relative to the supporting groove plate (24), and the two hinged support plates (32) are fixedly connected with the supporting groove plate (24);

The number of the rotating sleeve plates (29) is two, concave blocks (33) are welded on adjacent sides of the rotating sleeve plates (29), a penetrating shaft (34) is welded on one side of the inner wall of each concave block (33), a sleeved linkage supporting block (35) is rotatably connected to the outer wall of each penetrating shaft (34) through a bearing, a sleeved rotating rod (36) is welded on one side of each sleeved linkage supporting block (35), a supporting shaft (37) is installed on the inner wall of each sleeved rotating rod (36) and close to the top end of each supporting shaft, and a limiting ring (12) is welded on the outer wall of each supporting shaft (37) and close to the front end of each supporting shaft.

9. A steel structure fabricated residential frame structure as claimed in claim 8, wherein: the sliding frame plate (30) is rotationally connected with the outer wall of the connecting shaft rod (31), and the outer wall of the connecting shaft rod (31) is polished.

10. A steel structure fabricated residential frame structure as claimed in claim 8, wherein: the number of the sleeve joint rotating rods (36) is two, one end part of the supporting shaft (37) penetrates through the two sleeve joint rotating rods (36), and the two sleeve joint rotating rods (36) are both rotationally connected with the outer wall of the supporting shaft (37).