CN115653087A - Green building convenient to quick fixed mounting - Google Patents

Abstract

The invention relates to the technical field of assembly buildings, in particular to a green building convenient to fix and install quickly. The utility model provides a green building convenient to quick fixed mounting, is including assembling building body, assembles the first fixed block that building body rigid coupling has the symmetric distribution, and first fixed block rigid coupling has first spacing sleeve, and first spacing sleeve rotates and is connected with the bull stick, and the lower part rigid coupling of bull stick has the spiral anchor. According to the invention, the spiral anchors and the prefabricated cabin are integrally installed, so that the situation that the interfaces of the spiral anchors and the prefabricated cabin cannot be aligned when the spiral anchors and the prefabricated cabin are independently installed is avoided, the four spiral anchors are simultaneously screwed into the ground to quickly fix the assembled building body, and the rotating rod is limited, so that the spiral anchors are always vertical to the ground of the assembled building in the downward moving process, and the situation that the spiral anchors are independently screwed into the prefabricated cabin to incline is avoided.

Description

Green building convenient to quick fixed mounting

Technical Field

The invention relates to the technical field of assembly buildings, in particular to a green building convenient to fix and install quickly.

Background

"prefabricated cabin" is a time limit for a project short, construction efficiency is high, convenient interim official working house, through spiral anchor foundation assemble the building below adopt built on stilts mode, reduce the tradition face build the place large tracts of land sclerosis and to ploughing the destruction that causes, assemble building wide application in building site, places such as interim website, assemble the building installation, will a plurality of spiral anchor screw in underground earlier, then will "prefabricated cabin" install on the spiral anchor through the bolt.

The prior splicing building has the following problems:

1. mechanical equipment is adopted to screw the spiral anchor into the ground, and in the process of screwing the spiral anchor into the ground, the spiral anchor is inclined when being screwed in due to the formation structure or the error caused by artificial observation, so that the spiral anchor can not be ensured to be perpendicular to the assembled building, and the difficulty in subsequently installing a prefabricated cabin is increased.

2. The screw anchor is firstly screwed and then the 'prefabricated cabin' is placed, an operator needs to use hoisting equipment to adjust the position of the 'prefabricated cabin', a large amount of time is consumed in the process, the workload of the operator is increased, and meanwhile, the quick alignment of the screw anchor and the interface (the threaded connection part of the screw anchor) of the 'prefabricated cabin' cannot be ensured.

3. Through the in-process of mechanical equipment with the screw anchor screw in underground, need apply decurrent pressure to guarantee the screw anchor screw in underground, if the screw anchor rotational speed does not match rather than the speed of lapse, for example the rotational speed is too fast, the screw anchor can be turned out its near earth, thereby destroys stratum structure, is unfavorable for the fixed of screw anchor.

Disclosure of Invention

The invention provides a green building which can prevent soil from turning out and is convenient to fix and install quickly, and aims to solve the technical problems mentioned in the technical background.

The technical scheme of the invention is as follows: the utility model provides a green building convenient to quick fixed mounting, including assembling building body, it has the first fixed block of symmetric distribution to assemble the building body rigid coupling, first fixed block rigid coupling has first stop collar, first stop collar rotates and is connected with the bull stick, the lower part rigid coupling of bull stick has the spiral anchor that is used for the fixed building body of assembling, the bull stick drives spiral anchor perpendicular to and assembles building body downstream, the spiral anchor rotates the screw in underground at the in-process that moves down, building body is assembled to quick the fixed, it is provided with symmetric distribution and is used for the reinforcing mechanism of fixed spiral anchor top earth to assemble building body, first stop collar is provided with and is used for assisting the underground actuating mechanism of spiral anchor screw in, first stop collar is provided with the chucking mechanism that is used for locking the bull stick, it is provided with the supporting component of symmetric distribution to assemble building body, supporting component is used for ajusting and assembles building body.

Preferably, the screw anchor is made of a corrosion-resistant material for increasing the service life of the screw anchor.

Preferably, the reinforcing mechanism comprises a second fixing block, the second fixing block is fixedly connected to the assembled building body, a second limiting sleeve is sleeved on the outer side of the spiral anchor, the rotating rod is provided with an annular groove, the annular groove is rotatably connected with a limiting disc in sliding connection with the second limiting sleeve, the limiting disc is fixedly connected with a first spring, the first spring is fixedly connected with an extrusion plate in sliding connection with the second limiting sleeve, and the extrusion plate is located above the spiral anchor.

Preferably, actuating mechanism is including first change ring, first change ring rotates to be connected in first stop sleeve, the bull stick is provided with the rectangle spout, first stop sleeve rigid coupling have with rectangle spout sliding connection's first gear, first change ring and first gear all are located between first stop sleeve and the second stop sleeve, the second stop sleeve rigid coupling has the link, the link rotates and is connected with second gear and third gear, second gear distributes and meshes with first gear and third gear, the third gear rigid coupling has the connecting rod, the second gear is provided with the extrusion subassembly that is used for removing the bull stick.

Preferably, the extrusion assembly comprises a rotating shaft, threads are arranged on the lower portion of the rotating shaft, the rotating shaft is in threaded connection with the second gear, a first limiting ring in sliding connection with the upper portion of the rotating shaft is fixedly connected with the first limiting sleeve, a connecting plate is rotatably connected to the upper end of the rotating shaft, and the connecting plate is rotatably connected with the rotating rod.

Preferably, one side of the clamping block, which is close to the rotary rod, is provided with a smooth surface, so that the friction force between the clamping block and the rotary rod is reduced.

Preferably, the clamping mechanism comprises a first wedge block arranged in the circumferential direction, the first wedge block arranged in the circumferential direction is connected to a first limiting sleeve in a sliding mode, the first wedge block is connected with a sliding rod in a penetrating mode in a sliding mode, a limiting groove is formed in the circumferential direction of the rotating rod, a clamping block matched with the limiting groove is fixedly connected to one side, close to the rotating rod, of the sliding rod, a second spring is fixedly connected between the clamping block and the first wedge block, and a limiting assembly for limiting the first wedge block is arranged on the first limiting sleeve.

Preferably, the limiting assembly comprises fixing rods distributed in the circumferential direction, the fixing rods (805) distributed in the circumferential direction are fixedly connected to the first limiting sleeve, the fixing rods distributed in the circumferential direction are connected with a second limiting ring in a sliding mode, the second limiting ring is fixedly connected with a second wedge block distributed in the circumferential direction, the second wedge block is in limiting fit with the first wedge block, the connecting plate is fixedly connected with a limiting rod distributed in the circumferential direction, and the first limiting sleeve is provided with a releasing assembly for releasing the limiting of the sliding rod.

Preferably, the release assembly comprises a rotating sleeve, the rotating sleeve is rotatably connected to the sliding rod, the first limiting sleeve is rotatably connected with a second rotating ring, the outer side surface of the second rotating ring is fixedly connected with a driving ring, and the second rotating ring is fixedly connected with arc-shaped limiting blocks distributed in the circumferential direction.

Preferably, the supporting component comprises a fixing sleeve fixedly connected to the assembled building body, the fixing sleeve is in threaded connection with a threaded rod, and the threaded rod is fixedly connected with a supporting block.

The invention has the beneficial effects that:

1. through installing spiral anchor and "prefabricated cabin" as whole, when having avoided the independent installation, the condition that spiral anchor and "prefabricated cabin" interface can't align through simultaneously with four spiral anchor screw in underground, fixes fast the amalgamation building body, through spacing to the bull stick for the in-process that the spiral anchor moved down all the time with assemble building ground vertical, avoids independent screw in spiral anchor the condition that the slope appears.

2. The rotational speed of screw anchor matches with the speed of lapse for the screw anchor can not turn out underground earth, guarantees the steadiness of near screw anchor earth.

3. Through the earth of extrusion screw anchor top, resistance when increasing the screw anchor rebound guarantees to assemble the steadiness of building body.

4. The screw anchor is fast self-locked after being screwed into the designated position, and the screw anchor is prevented from loosening after the assembly building is installed.

5. The height of the four corners of the bottom surface of the assembled building body from the ground is adjusted, so that the assembled building is placed on the ground flatly.

Drawings

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

Fig. 2 is a partial schematic view of a three-dimensional structure of a first fixing block according to the present invention.

Fig. 3 is a perspective view of the screw anchor of the present invention.

Fig. 4 is a partial cross-sectional view of a three-dimensional structure of a reinforcing mechanism of the present invention.

Fig. 5 is an enlarged schematic perspective view of the present invention at a.

Fig. 6 is a schematic perspective view of the chucking mechanism of the present invention.

FIG. 7 is a perspective view of the release assembly of the present invention.

Fig. 8 is a perspective partial sectional view of a support assembly of the present invention.

Reference numerals: 1-assembled building body, 2-first fixed block, 3-first limiting sleeve, 4-rotating rod, 401-annular groove, 402-rectangular sliding groove, 403-limiting groove, 5-spiral anchor, 601-second fixed block, 602-second limiting sleeve, 603-limiting disc, 604-first spring, 605-extrusion plate, 701-first rotating ring, 702-first gear, 703-connecting frame, 704-second gear, 705-third gear, 706-connecting rod, 707-first limiting ring, 708-rotating shaft, 709-connecting plate, 801-first wedge block, 802-sliding rod, 803-clamping block, 804-second spring, 805-fixing rod, 806-second limiting ring, 807-second wedge block, 808-limiting rod, 809-rotating sleeve, 810-second rotating ring, 811-driving ring, 812-arc limiting block, 901-fixing sleeve, 902-fixing sleeve, 903-threaded rod-supporting block.

Detailed Description

The present invention now will be described more fully hereinafter with reference to the accompanying drawings, in which presently preferred embodiments of the invention are shown. The scope of the present invention will be fully conveyed to the skilled person by the following embodiments.

The utility model provides a green building convenient to quick fixed mounting, as shown in fig. 1-3, including assembling building body 1, it has four first fixed blocks 2 of symmetric distribution to assemble building body 1 through bolted connection, first fixed block 2 welding has first spacing sleeve 3, first spacing sleeve 3 runs through the formula and rotates and be connected with bull stick 4, the lower part rigid coupling of bull stick 4 has the spiral anchor 5 that is used for fixed building body 1 of assembling, bull stick 4 drives spiral anchor 5 and moves down perpendicular to assembling building body 1, spiral anchor 5 rotates the screw in underground at the in-process that moves down, quick fixed building body 1 of assembling, the material of spiral anchor 5 sets up to corrosion-resistant material, avoid spiral anchor 5 to be in the underground humid environment for a long time, lead to its rust, thereby influence the steadiness and the follow-up process of spiral anchor 5 with ground, it is provided with the symmetric distribution and is used for the reinforcement mechanism of fixed spiral anchor 5 top, first spacing sleeve 3 is provided with the actuating mechanism that is used for assisting spiral anchor 5 to screw in screwing in underground, first spacing sleeve 3 is provided with the chucking mechanism that is used for locking bull stick 4, building body 1 is provided with the supporting component that the symmetric distribution, it is used for assembling building body 1 to assemble, it is just to put in earth.

As shown in fig. 2 and 4, the reinforcing mechanism includes a second fixing block 601, the second fixing block 601 is installed on the assembled building body 1 through bolts, a second limiting sleeve 602 sleeved outside the screw anchor 5 is welded on the second fixing block 601, the second limiting sleeve 602 is located below the first limiting sleeve 3, the rotating rod 4 is provided with an annular groove 401, the annular groove 401 is rotatably connected with a limiting disc 603 slidably connected with the second limiting sleeve 602, the limiting disc 603 is located in the second limiting sleeve 602, the limiting disc 603 is fixedly connected with an extrusion plate 605 slidably connected with the second limiting sleeve 602 through a first spring 604, the extrusion plate 605 is located above the screw anchor 5, after the screw anchor 5 is completely screwed into the ground, the extrusion plate 605 is in contact with the ground, the first spring 604 is compressed, soil between the extrusion plate 605 and the screw anchor 5 is extruded, after the screw anchor 5 is assembled, resistance when the screw anchor 5 moves upwards is increased, and stability of the building body 1 is ensured.

As shown in fig. 4 and 5, the driving mechanism includes a first rotating ring 701, the first rotating ring 701 is rotatably connected to the lower surface of the first limiting sleeve 3, the rotating rod 4 is provided with a rectangular sliding groove 402, the first limiting sleeve 3 is fixedly connected with a first gear 702 slidably connected to the rectangular sliding groove 402, the first gear 702 drives the screw anchor 5 to rotate through the rotating rod 4, so as to provide power for screwing the screw anchor 5 into the ground, the first rotating ring 701 and the first gear 702 are both located between the first limiting sleeve 3 and the second limiting sleeve 602, the second limiting sleeve 602 is connected to a connecting frame 703 through a bolt, the connecting frame 703 is rotatably connected to a second gear 704 and a third gear 705, the second gear 704 is respectively engaged with the first gear 702 and the third gear 705, a connecting rod 706 is welded to the third gear 705, and the second gear 704 is provided with an extruding assembly for moving the rotating rod 4.

As shown in fig. 4 and 5, the squeezing assembly includes a rotating shaft 708, a thread is disposed at a lower portion of the rotating shaft 708, the rotating shaft 708 is connected to a second gear 704 in a threaded manner, the second gear 704 rotates to drive the rotating shaft 708 to move downward, a first limiting sleeve 3 is fixedly connected to a first limiting ring 707 slidably connected to an upper portion of the rotating shaft 708, the first limiting ring 707 is used for limiting the rotating shaft 708, a connecting plate 709 is rotatably connected to an upper end of the rotating shaft 708, and the connecting plate 709 is rotatably connected to the rotating rod 4.

As shown in fig. 6, the clamping mechanism includes three first wedge blocks 801 arranged in the circumferential direction, the first wedge blocks 801 arranged in the circumferential direction are all connected to the upper portion of the first limiting sleeve 3 in a sliding manner, the first wedge blocks 801 are connected with a sliding rod 802 in a penetrating manner in a sliding manner, three limiting grooves 403 are circumferentially arranged on the rotating rod 4, one side, close to the rotating rod 4, of the sliding rod 802 is welded with a clamping block 803 matched with the limiting grooves 403, one side, close to the rotating rod 4, of the clamping block 803 is arranged to be a smooth surface, the friction force between the clamping block 803 and the rotating rod 4 is reduced, the resistance when the rotating rod 4 rotates is reduced, a second spring 804 is fixedly connected between the clamping block 803 and the first wedge blocks 801, and the first limiting sleeve 3 is provided with a limiting assembly for limiting the first wedge blocks 801.

As shown in fig. 6, the limiting assembly includes three fixing rods 805 distributed circumferentially, the upper portions of the three fixing rods 805 are connected with a second limiting ring 806 in a sliding manner, three second wedge-shaped blocks 807 distributed circumferentially are welded to the second limiting ring 806, the second wedge-shaped blocks 807 are in limiting fit with the first wedge-shaped blocks 801, the three second wedge-shaped blocks 807 move downwards to drive the three wedge-shaped blocks 801 to approach the rotating rod 4, when the limiting groove 403 is aligned with the clamping blocks 803, the second spring 804 resets, the second spring 804 drives the clamping blocks 803 to be clamped into the limiting groove 403, the connecting plate 709 is fixedly connected with a limiting rod 808 distributed circumferentially, and the first limiting sleeve 3 is provided with a releasing assembly for releasing the limiting of the clamping blocks 803 on the sliding rod 802.

As shown in fig. 6 and 7, the release assembly includes a rotating sleeve 809, the rotating sleeve 809 is rotatably connected to the sliding rod 802, the upper portion of the first limiting sleeve 3 is rotatably connected to a second rotating ring 810, a driving ring 811 is welded to the outer side surface of the second rotating ring 810, the second rotating ring 810 is fixedly connected to three arc limiting blocks 812 which are circumferentially distributed, the arc limiting blocks 812 are matched with the rotating sleeve 809, the second rotating ring 810 drives the three arc limiting blocks 812 to rotate, and the three arc limiting blocks 812 drive the three rotating sleeve 809 to be away from the rotating rod 4.

As shown in fig. 2 and 8, the supporting component includes a fixing sleeve 901, the fixing sleeve 901 is connected to the assembled building body 1 through bolts, the fixing sleeve 901 is connected with a threaded rod 902 through threads, and the threaded rod 902 is welded with a supporting block 903.

When needing this green building of assembling of installation, the operating personnel at first measures this green building installation ground, measures the planarization on this ground, and operating personnel transports this building of assembling to the installation ground through transportation equipment to lift this building of assembling with hoisting equipment, operating personnel adjusts this height of assembling four angular distances in building bottom ground according to the planarization on installation ground afterwards, and concrete operation is as follows: the supporting shoe 903 is rotated to operating personnel, and supporting shoe 903 drives threaded rod 902 and rotates, changes the supporting shoe 903 apart from assembling the distance of building body 1 bottom, and after the regulation is accomplished, operating personnel adjusts all the other three supporting shoes 903 in proper order for this assembly building is levelly and smoothly placed on subaerial.

After the assembly building is placed, an operator enables four spiral anchors 5 to be screwed into the ground through a driving mechanism, for example, one spiral anchor 5 is screwed into the ground, the specific operation is as follows, the operator rotates a connecting rod 706 (the connecting rod 706 is started through other external power equipment, for example, the connecting rod 706 rotates through a coupler), the connecting rod 706 drives a first gear 702 to rotate through a third gear 705 and a second gear 704, the first gear 702 drives the spiral anchors 5 to rotate through a rotating rod 4, in the rotating process of the spiral anchors 5, under the limiting of a first limiting ring 707, the second gear 704 drives a rotating shaft 708 to move downwards, the rotating shaft 708 drives the rotating rod 4 and the spiral anchors 5 to move downwards through a connecting plate 709, the spiral anchors 5 move downwards while rotating, the rotating rod 4 is limited, the spiral anchors 5 are perpendicular to the assembly building ground all the time in the downward moving process, the situation that the spiral anchors are screwed into the spiral anchors individually is prevented from inclining is caused, the transmission ratio between the first gear 702 and the second gear 704 and the pitch of the threads on the rotating shaft 708 are adjusted, the rotating speed of the spiral anchors 5 is matched with the downward moving speed, the spiral anchors 5 cannot roll out of the soil of the underground, and the stability of the earth of the assembly building is ensured, and the earth body of the underground building is increased by adjusting the earth 1.

In the process that the rotating rod 4 moves downwards, the rotating rod 4 drives the limiting disc 603 to move downwards under the limiting effect of the second limiting sleeve 602, the limiting disc 603 drives the extrusion plate 605 to move downwards through the first spring 604, after the spiral anchor 5 is completely screwed into the ground, the extrusion plate 605 is in contact with the ground, in the process that the spiral anchor 5 continues to rotate downwards, the first spring 604 is compressed, soil between the extrusion plate 605 and the spiral anchor 5 is extruded, after the spiral anchor 5 is installed, the resistance of the spiral anchor 5 in the process of moving upwards is increased, and the stability of the assembled building body 1 is guaranteed.

When the clamping mechanism is used for screwing the spiral anchor 5 into the ground, the rotating rod 4 is locked, in the process that the connecting plate 709 moves downwards, the connecting plate 709 drives the limiting rod 808 to move downwards, the limiting rod 808 is contacted with the second limiting ring 806 to drive the limiting rod 808 to move downwards, the second limiting ring 806 drives the three second wedge-shaped blocks 807 to move downwards, the three second wedge-shaped blocks 807 drive the three first wedge-shaped blocks 801 to gradually approach the rotating rod 4, the second spring 804 is compressed, the three clamping blocks 803 press the outer side face of the rotating rod 4, as the smooth faces are arranged at the sides of the clamping blocks 803 close to the rotating rod 4, the friction between the clamping blocks 803 and the rotating rod 4 is reduced, the resistance when the rotating rod 4 rotates is reduced, when the limiting groove 403 is aligned with the clamping blocks 803, an operator stops rotating the connecting rod 706, the second spring 804 resets, the second spring 804 drives the clamping blocks 803 to be clamped into the limiting groove 403, the clamping block 803 drives the rotating sleeve 809 to be close to the arc-shaped limiting block 812 through the sliding rod 802, the rotating rod 4 is limited, the spiral anchor 5 is screwed into a designated position for rapid self-locking without the traditional operation of locking by bolts, the locking time of the spiral anchor 5 is saved, and meanwhile, the situation that the spiral anchor 5 is loosened after the assembly building is installed is avoided, the assembly building is installed, because the spiral anchor 5 is made of stainless steel materials, the spiral anchor 5 is prevented from being in an underground humid environment for a long time and rusting, so that the stability of the spiral anchor 5 and the ground is influenced and the subsequent dismantling process is avoided, in sum, the four spiral anchors 5 are screwed into the ground simultaneously to rapidly fix the assembly building body 1, the spiral anchor 5 is always kept vertical to the ground of the assembly building body 1 in the screwing process, and the self-locking is carried out in the screwing process of the spiral anchor 5 into the ground simultaneously, reduce the installation time of assembling the building, improved the installation effectiveness.

After this assembly building uses the completion, operating personnel rotates drive ring 811, drive ring 811 drives second rotating ring 810 and rotates, second rotating ring 810 drives three arc stopper 812 and rotates, three arc stopper 812 drives three rotation cover 809 and keeps away from bull stick 4, rotation cover 809 drives chucking piece 803 through slide bar 802 and removes the spacing to bull stick 4, second spring 804 is compressed, operating personnel antiport connecting rod 706 afterwards, bull stick 4 drives spiral anchor 5 and unscrews ground, operating personnel removes this assembly building, this assembly building is used the completion, through demolising fast, cyclic utilization, the wasting of resources and environmental destruction have been avoided.

Although the present invention has been described in detail with reference to the above embodiments, it will be apparent to those skilled in the art from this disclosure that various changes or modifications can be made herein without departing from the principles and spirit of the invention as defined by the appended claims. Therefore, the detailed description of the embodiments of the present disclosure is to be construed as merely illustrative, and not limitative of the remainder of the disclosure, but rather to limit the scope of the disclosure to the full extent set forth in the appended claims.

Claims (10)

1. The utility model provides a green building convenient to quick fixed mounting which characterized in that: the building body assembling device comprises an assembling building body (1), the assembling building body (1) is fixedly connected with first fixed blocks (2) which are symmetrically distributed, the first fixed blocks (2) are fixedly connected with first limiting sleeves (3), the first limiting sleeves (3) are rotatably connected with rotating rods (4), the lower portions of the rotating rods (4) are fixedly connected with spiral anchors (5) used for fixedly assembling the building body (1), the rotating rods (4) drive the spiral anchors (5) to be perpendicular to the assembling building body (1) to move downwards, the spiral anchors (5) rotate in the ground in the downward moving process, the building body (1) is quickly and fixedly assembled, the assembling building body (1) is provided with reinforcing mechanisms which are symmetrically distributed and used for fixing soil above the spiral anchors (5), the first limiting sleeves (3) are provided with driving mechanisms used for assisting the spiral anchors (5) to rotate in the ground, the first limiting sleeves (3) are provided with clamping mechanisms used for locking the rotating rods (4), the building body (1) is provided with symmetrically distributed support assemblies, and the support assemblies are used for placing and assembling the building body (1).

2. A green building to facilitate quick secure installation as claimed in claim 1, wherein: the screw anchor (5) is made of corrosion-resistant materials and used for prolonging the service life of the screw anchor (5).

3. A green building for facilitating quick fixed installation as claimed in claim 1, wherein: the reinforcing mechanism comprises a second fixing block (601), the second fixing block (601) is fixedly connected to the assembled building body (1), a second limiting sleeve (602) sleeved on the outer side of the spiral anchor (5) is fixedly connected to the second fixing block (601), a rotating rod (4) is provided with an annular groove (401), the annular groove (401) is rotatably connected with a limiting disc (603) in sliding connection with the second limiting sleeve (602), the limiting disc (603) is fixedly connected with a first spring (604), the first spring (604) is fixedly connected with an extrusion plate (605) in sliding connection with the second limiting sleeve (602), and the extrusion plate (605) is located above the spiral anchor (5).

4. A green building to facilitate quick secure installation as claimed in claim 3, wherein: the driving mechanism comprises a first rotating ring (701), the first rotating ring (701) is rotatably connected to a first limiting sleeve (3), a rotating rod (4) is provided with a rectangular sliding groove (402), a first gear (702) in sliding connection with the rectangular sliding groove (402) is fixedly connected to the first limiting sleeve (3), the first rotating ring (701) and the first gear (702) are both located between the first limiting sleeve (3) and a second limiting sleeve (602), a connecting frame (703) is fixedly connected to the second limiting sleeve (602), the connecting frame (703) is rotatably connected to a second gear (704) and a third gear (705), the second gear (704) is respectively meshed with the first gear (702) and the third gear (705), a connecting rod (706) is fixedly connected to the third gear (705), and the second gear (704) is provided with an extrusion assembly for moving the rotating rod (4).

5. A green building to facilitate quick fixed installation as claimed in claim 4, wherein: the extrusion assembly comprises a rotating shaft (708), threads are arranged on the lower portion of the rotating shaft (708), the rotating shaft (708) is in threaded connection with a second gear (704), a first limiting ring (707) in sliding connection with the upper portion of the rotating shaft (708) is fixedly connected to a first limiting sleeve (3), a connecting plate (709) is rotatably connected to the upper end of the rotating shaft (708), and the connecting plate (709) is rotatably connected with a rotating rod (4).

6. A green building to facilitate quick fixed installation as claimed in claim 5, wherein: the clamping mechanism comprises a first wedge-shaped block (801) arranged in the circumferential direction, the first wedge-shaped block (801) arranged in the circumferential direction is connected to a first limiting sleeve (3) in a sliding mode, the first wedge-shaped block (801) is connected with a sliding rod (802) in a penetrating mode in a sliding mode, a limiting groove (403) is formed in the circumferential direction of a rotating rod (4), a second spring (804) is fixedly connected between a clamping block (803) matched with the limiting groove (403) and the first wedge-shaped block (801) and fixedly connected to one side, close to the rotating rod (4), of the sliding rod (802), and a limiting assembly for limiting the first wedge-shaped block (801) is arranged on the first limiting sleeve (3).

7. A green building to facilitate quick secure installation as claimed in claim 6, wherein: one side of the clamping block (803) close to the rotary rod (4) is set to be a smooth surface, so that the friction force between the clamping block (803) and the rotary rod (4) is reduced.

8. A green building to facilitate quick secure installation as claimed in claim 6, wherein: spacing subassembly is including dead lever (805) of circumference distribution, the equal rigid coupling of dead lever (805) of circumference distribution in first spacing sleeve (3), the dead lever (805) sliding connection of circumference distribution has second spacing ring (806), second spacing ring (806) rigid coupling has second wedge (807) of circumference distribution, second wedge (807) and first wedge (801) spacing cooperation, connecting plate (709) rigid coupling has spacing pole (808) of circumference distribution, first spacing sleeve (3) are provided with and remove the subassembly of relieving that chucking piece (803) is spacing to slide bar (802).

9. A green building to facilitate quick secure installation as claimed in claim 8, wherein: the release assembly comprises a rotating sleeve (809), the rotating sleeve (809) is rotatably connected to the sliding rod (802), the first limiting sleeve (3) is rotatably connected with a second rotating ring (810), the outer side surface of the second rotating ring (810) is fixedly connected with a driving ring (811), and the second rotating ring (810) is fixedly connected with arc-shaped limiting blocks (812) which are distributed in the circumferential direction.

10. A green building to facilitate quick secure installation as claimed in claim 1, wherein: the supporting component comprises a fixing sleeve (901), the fixing sleeve (901) is fixedly connected with the assembled building body (1), the fixing sleeve (901) is in threaded connection with a threaded rod (902), and the threaded rod (902) is fixedly connected with a supporting block (903).

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