CN116575604A - Assembled mounting structure, assembled building and assembling method - Google Patents

Abstract

The invention discloses an assembly type mounting structure, an assembly type building and an assembly method, which relate to the technical field of assembly type buildings and have the technical scheme that: the wall body comprises two wall bodies I and one wall body II, wherein the two wall bodies I are arranged in parallel, the width of the wall body II corresponds to the width between the two wall bodies I, and the wall body II is arranged between the two wall bodies I and forms an I-shaped structure; the second wall body is provided with two side surfaces, and the two side surfaces are respectively propped against the first wall body; the side comprises a plane part and an arc surface part, the plane part and the arc surface part are distributed in the horizontal direction, and the plane parts and the arc surface parts of the two side surfaces are oppositely arranged. The invention is convenient for adjusting the position of the wall body, and improves the installation convenience of the wall body.

Description

Assembled mounting structure, assembled building and assembling method

Technical Field

The invention relates to the technical field of assembly type buildings, in particular to an assembly type mounting structure, an assembly type building and an assembly type method.

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 in the factory, such as floors, wallboards, stairs, balconies and the like, transporting to a building construction site, and assembling and installing the building on site in a reliable connection mode. The fabricated building mainly comprises a prefabricated assembled concrete structure, a steel structure, a modern wood structure building and the like.

In the assembly process of the assembled building, a wall body II is additionally installed between the wall bodies I occasionally, separation is formed through the wall bodies II, an H-shaped distribution structure is formed, space styles in the wall bodies I are two parts in the horizontal direction, and space separation is further achieved. In general, in the structure of the first wall and the second wall, the first wall is installed first, the second wall is installed, and finally the installation sequence of the other wall is installed.

However, in special cases, the first wall may be pre-installed, for example, after the first wall is built, an additional second wall needs to be installed between the first walls, which greatly increases the difficulty in installing the second wall. Because the width of the second wall body and the interval between the first wall bodies are mutually applicable, when the second wall body is installed, the second wall body needs to transversely move to the corresponding position to be installed between the first wall bodies. In the installation process of the second wall body, the second wall body is blocked by friction with the second wall body, and when the second wall body slightly deviates, the corner position of the second wall body is in contact interference with the first wall body to influence the normal installation of the second wall body.

There is therefore a need to propose a new solution to this problem.

Disclosure of Invention

The invention aims to solve the problems and provide an assembled mounting structure which is convenient for adjusting the position of a mounting wall body and improves the mounting convenience of the wall body.

The technical aim of the invention is realized by the following technical scheme: the assembled mounting structure comprises two first walls and one second wall, wherein the two first walls are arranged in parallel, the width of the second wall corresponds to the width between the two first walls, and the second wall is arranged between the two first walls and forms an I-shaped structure; the second wall body is provided with two side surfaces, and the two side surfaces are respectively propped against the first wall body; the side comprises a plane part and an arc surface part, the plane part and the arc surface part are distributed in the horizontal direction, and the plane parts and the arc surface parts of the two side surfaces are oppositely arranged.

The invention is further arranged that a transition position is formed between the plane part and the cambered surface part, and the transition position is positioned in the middle of the side surface and is in a straight line shape which is vertical up and down; the transition position is positioned in the middle of the side face; the cambered surface part and the plane part are tangent at the transition position.

The invention is further provided that the arc surfaces of the two side surfaces are coaxially arranged, and the diameter of the arc surfaces is matched with the width between the two first walls; the distance between the two planar portions is adapted to the width between the two wall bodies.

The invention is further arranged that the first wall body and the second wall body are fixedly connected through a right-angle foot rest; one side of the cambered surface part far away from the cambered surface part is provided with a rounding angle.

The invention is further arranged that one side, close to the side surface, of the second wall body is provided with an arc-shaped slideway, and two ends of the arc-shaped slideway are opened towards the side surface and are provided with two openings; the arc-shaped slide way is internally provided with an arc-shaped supporting rod, the supporting rod is slidably connected in the arc-shaped slide way, and the supporting ends at the two ends of the supporting rod extend out of the opening and are used for being pressed against and supported by a wall body.

The invention is further arranged that the circle center of the arc-shaped slideway is positioned at the transition position, and two openings of the arc-shaped slideway are respectively positioned at the plane part and the arc part; the support rod is semicircular, the support ends are spherical, and the two support ends are mutually propped against the wall body I to limit.

The invention is further arranged that the outer side of the middle position of the arc-shaped slideway is provided with a containing cavity, the containing cavity is internally provided with a limiting mechanism, and the limiting mechanism is used for maintaining the support rod to slide unidirectionally from the opening of the plane part to the opening of the arc part and limit reversely;

the invention is further arranged that the limiting mechanism comprises a limiting block, the limiting block is arranged in the accommodating cavity, a first ratchet is formed on one side of the limiting block, which faces the supporting rod, and a second ratchet is arranged at a position, close to the limiting block, of the supporting rod; the limiting block is propped against the supporting rod through a spring, and the first ratchet is clamped into the second ratchet to realize unidirectional limiting; the side of holding chamber far away from the arc slide has offered and has led the slide hole, it is connected with the slide bar to lead the slide in the slide hole, and slide bar one end stretches into in the holding groove and with stopper fixed connection, is equipped with the spring between the bottom of the other end and leading the slide hole.

The invention is further arranged that a linkage groove is formed on the sliding rod, and a linkage inclined plane facing the limiting block is arranged in the linkage groove; the second wall body is internally connected with a screw through threads, one end of the screw extends into the linkage groove and is fixedly connected with a linkage block, the outer side of the linkage block is spherical, and the linkage block abuts against the linkage inclined plane to realize guiding limit; and a screw hole matched with the screw thread is formed in the second wall body, and a countersunk hole is formed at one end of the screw hole.

The invention also provides an assembled building, which comprises the assembled mounting structure, and the corresponding assembled building can be formed by combining and constructing the assembled structure.

The invention also provides an assembling method, which adopts the assembling structure to assemble to form the assembled building. In the installation process, the second wall body is in an inclined state between the first wall bodies, and the arc surface parts of the second wall bodies are in contact with the first wall bodies through rotating and swinging the second wall bodies.

In the rotating process, the second wall body rotates around the axis of the second center of the wall body, so that the arc-shaped part can keep the arc-shaped part to be in stable contact with the first wall body in the rotating process, and smooth movement assembly action of the arc-shaped part is formed until the second wall body rotates to be in a vertical state with the first wall body. The plane part of the side surface of the second wall body is mutually propped against and limited with the first wall body, so that the rotation of the second wall body is further limited; and the second wall body is stably supported and limited by the flat parts parallel to the two sides and the first wall body in a flat and attached state.

In summary, the invention has the following beneficial effects:

through the mode of rotatory beat, can install wall body two between two wall bodies one to can confirm the roughly mounted position of wall body two before the installation location, then, through the mode of rotatory beat, make wall body two constantly imbeds the position of fixing between two wall bodies one, and then conveniently install wall body two, need not to adjust the removal by a wide margin at wall body two after the installation is put in place, and then conveniently carry out assembled connection installation to the wall body.

Drawings

FIG. 1 is a schematic view of a fabricated mounting structure according to the present invention;

FIG. 2 is a cross-sectional view at A-A in FIG. 1;

FIG. 3 is a cross-sectional view I of a wall II of the present invention;

FIG. 4 is a schematic diagram of a fabricated mounting structure according to a second embodiment of the present invention;

FIG. 5 is a schematic diagram of a fabricated mounting structure according to the present invention;

FIG. 6 is a schematic diagram of a fabricated mounting structure according to the present invention;

FIG. 7 is a schematic diagram of a fabricated mounting structure according to the present invention;

FIG. 8 is a cross-sectional view II of a wall II of the present invention;

FIG. 9 is a third cross-sectional view of the second wall of the present invention;

FIG. 10 is a schematic view of a wall body II according to the present invention;

fig. 11 is an enlarged view of fig. 10 at a.

Reference numerals: 1. a first wall body; 2. a second wall body; 21. a side surface; 211. a planar portion; 212. an arc surface portion; 213. a transition position; 214. chamfering; 22. an arc-shaped slideway; 221. an opening; 3. a corner bracket; 4. a support rod; 41. a support end; 5. a limiting block; 51. a first ratchet; 52. a second ratchet; 53. a slide bar; 54. a receiving chamber; 55. a slide guiding hole; 56. a spring; 57. a linkage groove; 58. a linkage inclined plane; 6. a screw; 61. a linkage block; 62. a screw hole; 63. a screw head; 64. and (5) sinking the holes.

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.

Example 1

The embodiment discloses an assembled mounting structure, as shown in fig. 1 and 2, which comprises two first walls 1 and one second wall 2, wherein the two first walls 1 are arranged in parallel and fixedly mounted on the ground or other building components; the second wall body 2 is arranged between the first wall bodies 1; the width of the two wall bodies 2 corresponds to the width between the two wall bodies 1, and the wall bodies 2 are arranged between the two wall bodies 1 and form an I-shaped structure. The second wall body 2 is provided with two side surfaces 21, the two side surfaces 21 face the first wall body 1 respectively, and after the second wall body 2 is installed, the two side surfaces 21 are respectively in mutual pressing contact with the surface of the first wall body 1 to form a relatively stable installation structure.

As shown in fig. 3 and 4, the side surface 21 is divided into two parts, including a plane part 211 and an arc surface part 212, and the plane part 211 and the arc surface part 212 are horizontally distributed; the planar portions 211 and the arcuate portions 212 of the two side surfaces 21 on both sides of the second wall 2 are disposed in opposite directions.

A transition position 213 is formed between the flat surface portion 211 and the arcuate surface portion 212, and the transition position 213 is located in the middle of the side surface 21 and is in a straight line shape that is vertical up and down. The transition position 213 where the surface of the cambered surface portion 212 and the plane portion 211 are connected with each other forms a tangent arrangement between the cambered surface and the plane, and further forms a smooth transition between the plane portion 211 and the cambered surface portion 212. Further, the transition position 213 is located in the middle of the side surfaces 21, and the transition positions 213 of the two side surfaces 21 are in a coplanar state in the width direction.

The cambered surface parts 212 of the two side surfaces 21 are coaxially arranged, the position of the axis is positioned at the middle position of the inner side of the wall body II 2, and the diameter of the cambered surface parts 212 is matched with the width between the two wall bodies I1; the distance between the two planar portions 211 is adapted to the width between the two walls 1. By rotating around the axis, the two arc surface parts 212 rotate synchronously, the width dimension between the arc surface parts 212 is in a stable state, and the second wall surface can be arranged between the first wall surfaces through the rotating transverse frame.

As shown in fig. 3, a rounded corner 214 is disposed on one side of the arc surface portion 212 away from the arc surface portion 212, and an arc guide is formed between the arc surface portion 212 and the surface of the second wall body 2 through the rounded corner 214, so that the arc surface portion 212 can be improved, the second wall body 2 can be more smoothly rotated into the first wall body 1 in the rotation process, and the smoothness of installation of the second wall body 2 is improved.

The embodiment also discloses an assembly method, which adopts the assembly structure in the embodiment to assemble to form an assembly type building.

In the installation process of the second wall body 2, the second wall body 2 is in an inclined state between the first wall bodies 1, as shown in fig. 4, and at this time, the second wall body 2 can be installed between the first wall bodies 1 and kept in a relatively central position. By pushing the second wall body 2 in a counterclockwise rotation manner, the arc surface 212 of the second wall body 2 is in contact with the first wall body 1.

In the rotation process, the second wall body 2 rotates around the axis of the center of the second wall body 2, so that the arc-shaped part can keep the arc-shaped part 212 to be in stable contact with the first wall body 1 in the rotation process, and a smooth movement assembly action in an arc shape is formed until the second wall body 2 rotates to be in a vertical state with the first wall body 1, as shown in fig. 2.

When the second wall 2 rotates to the state as shown in fig. 2, the plane part 211 of the side surface 21 of the second wall 2 and the first wall 1 are mutually pressed and limited, so that the rotation of the second wall 2 is further limited; moreover, the plane parts 211 parallel to the two sides can be in a flat and attached state with the first wall surface, so that the second wall 2 is stably supported and limited.

Further, as shown in fig. 6, in order to maintain the installation stability between the first wall 1 and the second wall 2, a right-angle foot rest may be installed at the corner position between the first wall 1 and the second wall 2 for fixing; the structure between the first wall body 1 and the second wall body 2 is limited and reinforced by connecting and fixing the first wall body 1 and the second wall body 2 through bolts.

The embodiment also discloses an assembled building, which comprises the assembled structure in the embodiment, and the corresponding assembled building can be formed by combining and constructing the assembled structure.

Example two

This embodiment also discloses another assembly type mounting structure, and on the basis of the above embodiment, the details will be described with reference to fig. 6 to 9.

As shown in fig. 8 and 9, an arc-shaped slideway 22 is arranged on one side of the second wall body 2 close to the side face 21, the arc-shaped slideway 22 is close to a semicircular structure, two ends of the arc-shaped slideway 22 are opened towards the side face 21, and two openings 221 are formed at the side face 21. The arc-shaped supporting rod 4 is arranged in the arc-shaped slideway 22, and the supporting rod 4 and the arc-shaped slideway 22 are also in an adaptive structure, so that the supporting rod 4 is slidably connected in the arc-shaped slideway 22 and can smoothly slide in the arc-shaped slideway 22.

The supporting ends 41 at the two ends of the supporting rod 4 can extend out from the opening 221, when the second wall 2 is arranged at the position between the first wall 1 and the second wall 2 is in a state vertical to the first wall 1, the two ends of the supporting rod 4 extend out from the opening 221 and can be pressed against and supported by the first wall 1, so that the supporting rod 4 and the first wall 1 can be stably supported and limited on the surface.

Further, the center position of the arc-shaped slideway 22 is located at the transition position 213, and the two positions are in a coincident state. The arc-shaped support bar 4 is semicircular and the circular position of the support bar 4 coincides with the transition position 213. And, two openings 221 of the arc-shaped slideway 22 are respectively located at the plane part 211 and the arc-shaped part 212, and two ends of the supporting rod 4 can extend out from the openings 221, so that the plane part 211 and the arc-shaped part 212 can be supported by the supporting rod 4, and the wall body two 2 is stably maintained by the supporting rod 4, and the wall body two 1 and the wall body two 2 are kept in a stable fixed state before.

Further, the two supporting ends 41 of the supporting rod 4 form a spherical shape, and the two supporting ends 41 are mutually pressed and limited with the first wall body 1, so that the supporting ends 41 can be kept in stable pressing contact with the first wall body, and can be contacted through a spherical structure, and the smoothness in the process of mutual clamping is kept.

As shown in fig. 6 and 7, in the installation process, the installation is performed according to the assembly method in the above embodiment, first, the second wall 2 is installed between the first walls 1 in an inclined manner, and then the second wall 2 is rotated and swung by the second wall 2, so that the second wall 2 can be gradually rotated and clamped between the first walls 1, and the installation stability between the first walls 1 and the second walls 2 can be further maintained, so as to form the assembly building.

In the rotation process of the second wall 2, firstly, the arc surface 212 of the second wall 2 contacts with the surface of the first wall 1, a certain distance difference is formed between the transition position 213 of the arc surface 212 and the surface of the first wall 1 along the trend of the arc surface, that is, the circle center position of the support rod 4 is not fully pressed against the first wall, the support rod 4 on the side of the plane 211 is pressed against the first wall, the support rod 4 on the side of the arc surface 212 is separated from the first wall, and a relatively loose pressing limiting state is formed between the side 21 of the second wall 2 and the first wall 1.

Along with the continuous rotation action of the wall body II 2, the plane part 211 of the wall body II 2 is in abutting contact with the wall body I, the transition position 213 of the cambered surface part 212 is completely attached to the surface of the wall body I, and the circular position of the support rod 4 is mutually overlapped with the wall body I, so that the support rod 4 and the wall body I are more closely considered, two ends of the support rod 4 and the wall body I can be maintained to be in a stable abutting limiting state, and further the two support rods 4 can be used for carrying out supplementing limiting at the position of the cambered surface part 212, so that the abutting state between the side surface 21 of the whole wall body II 2 and the wall body I is maintained, and the mounting structure stability of the wall body II 2 is maintained.

The embodiment also discloses another assembly type mounting structure, as shown in fig. 10 and 11, a containing cavity 54 is formed outside the middle position of the arc-shaped slideway 22, the containing cavity 54 is communicated with the arc-shaped slideway 22, a limiting mechanism is mounted in the containing cavity 54, and the action between the supporting rod 4 and the arc-shaped slideway 22 is guided and limited by the limiting mechanism, so that the stability of the supporting rod 4 in the action process of being matched with the arc-shaped slideway 22 is maintained.

The limiting mechanism can maintain the one-way sliding of the supporting rod 4 from the opening 221 of the plane part 211 to the opening 221 of the arc part 212, and the limiting mechanism can limit the supporting rod in the reverse direction. The supporting rod 4 extends into the arc-shaped slide way 22 from the opening 221 of the plane part 211, and continuously extends into the arc-shaped slide way 22 along the trend of the arc-shaped slide way 22 until the supporting end 41 of the supporting rod 4 extends out from one position of the opening 221 of the arc-shaped part 212; in this process, the limiting mechanism is in a state of being capable of passing through. When the support rod 4 slides in the opposite direction in the arc-shaped slide way 22, the limiting mechanism plays a role in limiting, and can limit the movement of the support rod 4 to lock the sitting straight of the support rod 4 at a corresponding position.

As shown in fig. 11, the limiting mechanism comprises a limiting block 5, the limiting block 5 is arranged in a containing cavity 54, a first ratchet 51 is formed on one side, facing the supporting rod 4, of the limiting block 5, a second ratchet 52 is arranged on the position, close to the limiting block 5, of the supporting rod 4, the first ratchet 51 and the second ratchet 52 are mutually matched, the limiting block 5 abuts against the supporting rod 4 through a spring 56, the first ratchet 51 is clamped into the second ratchet 52 to realize unidirectional limiting, and further forward movable and reverse limiting effects are formed. Can lock the reverse certain direction of bracing piece 4 through this stop gear for between the embedding wall body 1 of wall body two 2 and after the installation is accomplished, the plane portion 211 of side 21 will support each other with wall body 1 and press spacing, and the position department of cambered surface portion 212 carries out further supplementary spacing through bracing piece 4, and then can maintain the positional stability of wall body two 2. In addition, the auxiliary fixing can be carried out between the first wall body 1 and the second wall body 2 through the corner frame 3, so that the installation stability and strength between the first wall body 1 and the second wall body 2 are improved.

A slide guiding hole 55 is formed in one side, far away from the arc-shaped slide way 22, of the accommodating cavity 54, a slide rod 53 is connected to the slide in the slide guiding hole 55, and the slide rod 53 keeps rotating and limiting in the sliding process, so that the stability of sliding motion is maintained. One end of the sliding rod 53 extends into the accommodating groove and is fixedly connected with the limiting block 5, so that stable and synchronous linkage can be formed between the sliding rod 53 and the limiting block 5; a spring 56 is arranged between the other end of the sliding rod 53 and the bottom of the sliding guide hole 55, and the pressure of the limiting block 5 to the periphery of the supporting rod 4 is maintained under the elastic action of the spring 56, so that the first ratchet 51 and the second ratchet 52 are kept in a stable embedded state, and the unidirectional limiting of the supporting rod 4 is kept.

Further, the limiting mechanism is further provided with an unlocking mechanism, the one-way limiting structure of the limiting mechanism can be opened through the unlocking mechanism, and then the supporting rod 4 can realize bidirectional sliding motion again, so that the wall body 1 can be disassembled again, and position adjustment or disassembly and maintenance can be performed.

Specifically, as shown in fig. 10 and 11, the slide bar 53 is provided with a link groove 57, the link groove 57 is inclined, and the link groove 57 is provided with a link inclined surface 58 facing the stopper 5. The unlocking mechanism comprises a screw rod 6, a screw hole 62 is formed in the second wall body 2 in a machining mode, one end of the screw hole 62 is communicated with the sliding guide hole 55, and the screw hole is opposite to the linkage groove 57; the other end of the screw hole 62 is communicated with the outer side surface of the second wall body 2. The screw rod 6 is in threaded connection with the screw hole 62, one end of the screw rod extends into the linkage groove 57, and is fixedly connected with the linkage block 61, the outer side of the linkage block 61 is spherical, and the guide limit is realized by abutting the linkage block 61 against the linkage inclined plane 58; the other end of the screw rod 6 is even one end outside the screw hole 62, and the screw head 63 of the screw rod 6 is sunk into the countersunk hole 64 of the screw hole 62, so that the whole screw rod 6 is not protruded.

By screwing the screw rod 6 inwards, the linkage block 61 at the end part of the screw rod 6 can be mutually abutted against the linkage inclined plane 58, so that the positions of the sliding rod 53 and the limiting block 5 can be limited, the ratchet structures between the limiting block 5 and the supporting rod 4 are separated from each other, the limiting effect of the limiting mechanism on the supporting rod 4 is eliminated, and the supporting rod 4 can be suitable for the swinging action of the wall body two 2 to realize the self-adaptive action. In addition, by screwing out the screw rod 6, the linkage block 61 and the linkage inclined plane 58 can be separated from each other, so that the limit mechanism can work again.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above examples, and all technical solutions belonging to the concept of the present invention belong to the protection scope of the present invention. It should be noted that modifications and adaptations to the present invention may occur to one skilled in the art without departing from the principles of the present invention and are intended to be within the scope of the present invention.

Claims (10)

1. The assembled mounting structure comprises two first walls (1) and one second wall (2), wherein the two first walls (1) are arranged in parallel, the width of the second wall (2) corresponds to the width between the two first walls (1), and the second wall (2) is arranged between the two first walls (1) and forms an I-shaped structure; the second wall body (2) is provided with two side surfaces (21), and the two side surfaces (21) are respectively abutted against the first wall body (1); the novel solar cell module is characterized in that the side faces (21) comprise plane parts (211) and cambered surface parts (212), the plane parts (211) and the cambered surface parts (212) are distributed in the horizontal direction, and the plane parts (211) and the cambered surface parts (212) of the two side faces (21) are oppositely arranged.

2. A fabricated mounting structure according to claim 1, wherein a transition position (213) is formed between the planar portion (211) and the cambered surface portion (212), and the transition position (213) is located in the middle of the side surface (21) and is in a straight line shape with vertical top and bottom; the transition point (213) is located in the middle of the side (21); the cambered surface part (212) is tangential to the plane part (211) at a transition position (213).

3. A mounting structure according to claim 2, characterized in that the cambered surface parts (212) of the two side surfaces (21) are coaxially arranged, and the diameter of the cambered surface parts (212) is adapted to the width between the two wall bodies (1); the distance between the two planar parts (211) is adapted to the width between the two wall bodies (1).

4. The assembly type mounting structure according to claim 1, wherein the first wall body (1) and the second wall body (2) are fixedly connected through a right-angle foot rest; one side of the cambered surface part (212) far away from the cambered surface part (212) is provided with a rounding (214).

5. The assembled mounting structure according to claim 1, wherein an arc-shaped slideway (22) is arranged on one side of the second wall body (2) close to the side face (21), and two ends of the arc-shaped slideway (22) are opened towards the side face (21) and are provided with two openings (221); an arc-shaped supporting rod (4) is arranged in the arc-shaped slide way (22), the supporting rod (4) is connected in the arc-shaped slide way (22) in a sliding mode, and supporting ends (41) at two ends of the supporting rod (4) extend out of the opening (221) and are used for supporting the first wall body (1) in a supporting mode.

6. The assembly type mounting structure according to claim 5, wherein the center of the arc-shaped slideway (22) is located at the transition position (213), and two openings (221) of the arc-shaped slideway (22) are located at the plane part (211) and the arc-shaped part (212) respectively; the support rod (4) is semicircular, the support ends (41) form a spherical surface, and the two support ends (41) are mutually propped and limited with the first wall body (1).

7. The assembly type mounting structure according to claim 5, wherein the outer side of the middle position of the arc-shaped slideway (22) is provided with a containing cavity (54), a limiting mechanism is arranged in the containing cavity (54), and the limiting mechanism is used for maintaining the one-way sliding of the supporting rod (4) from the opening (221) of the plane part (211) to the opening (221) of the arc-shaped part (212) and limiting reversely;

the limiting mechanism comprises a limiting block (5), the limiting block (5) is arranged in the accommodating cavity (54), a first ratchet (51) is formed on one side, facing the supporting rod (4), of the limiting block (5), and a second ratchet (52) is arranged at a position, close to the limiting block (5), of the supporting rod (4); the limiting block (5) is propped against the supporting rod (4) through a spring (56), and the first ratchet (51) is clamped into the second ratchet (52) to realize unidirectional limiting; one side of the accommodating cavity (54) far away from the arc-shaped slideway (22) is provided with a sliding guide hole (55), a sliding rod (53) is connected in the sliding guide hole (55), one end of the sliding rod (53) extends into the accommodating groove and is fixedly connected with the limiting block (5), and a spring (56) is arranged between the other end of the sliding rod and the bottom of the sliding guide hole (55).

8. The assembly type mounting structure according to claim 7, wherein the sliding rod (53) is provided with a linkage groove (57), and a linkage inclined plane (58) facing the limiting block (5) is arranged in the linkage groove (57); the wall body II (2) is internally and in threaded connection with a screw rod (6), one end of the screw rod (6) extends into the linkage groove (57) and is fixedly connected with a linkage block (61), the outer side of the linkage block (61) is spherical, and the linkage block (61) abuts against the linkage inclined plane (58) to realize guide limit; screw holes (62) which are in threaded fit with the screw rods (6) are formed in the second wall body (2), and counter-sunk holes (64) are formed in one ends of the screw holes (62).

9. A fabricated building comprising a fabricated mounting structure according to any one of claims 1 to 8.

10. A method of assembling, wherein the fabricated structure of any one of claims 1-8 is used to form a fabricated building.