CN210369294U - Assembly module, L-shaped thin-wall column combined structure and combined building - Google Patents

Abstract

The utility model discloses an assembly module, which comprises an L-shaped structural body, wherein one end of the L-shaped structural body along the bearing direction is provided with a positioning bulge, and the other end of the L-shaped structural body is provided with a positioning groove matched with the positioning bulge on the other L-shaped structural body; the two ends of the L-shaped structure body are provided with mounting structures, and at least one end of each mounting structure is provided with a connecting damping structure. The assembly module utilizes the positioning bulges and the positioning grooves to quickly and accurately carry out alignment installation, thereby improving the assembly accuracy and simultaneously improving the strength of the assembly module against transverse shearing force; the connection damping structure can ensure the strength of the joint of the two and improve the reliability, stability and shock resistance of the whole assembly module. The utility model also provides a L type thin wall column integrated configuration and combination formula building, this structure utilizes modular assembly module to assemble and form, and convenient assembling intensity is guaranteed, can realize the mill prefabrication, has reduced construction cost and intensity of labour, is friendly to the environment.

Description

Assembly module, L-shaped thin-wall column combined structure and combined building

Technical Field

The utility model relates to a building technical field especially relates to a building structure.

Background

The prefabricated building is still in the initial development stage at present in China, and many construction units and designers are not fully satisfactory in the aspects of design, production and construction aiming at the fully-prefabricated building due to the lack of some new building structure standards and calculation software. The assembled building is different from the traditional building in design, and the original design method cannot be directly and completely transferred to the assembled building due to the factors such as the whole design thinking of the assembled building, the processing of production molds, the component production, the site construction and the like, so that the difficulty in component design and production is high.

At present, the domestic assembly type building can only adopt a mode of partially assembling components (such as a floor slab or a wallboard and the like consisting of laminated slabs), the components are firstly processed into semi-finished products in a factory and then are transported to a site for installation and pouring, so the site construction process and personnel are hardly reduced, the integral cost is high, and even the integral cost is higher than that of the traditional building mode. The goal of developing a fabricated building is: 1. the whole standardized design and the module are harmonious, so that various social requirements are met; 2. is suitable for large-scale industrial production; 3. the site operation is quick and convenient, and manpower and equipment are few; 4. the quality of the whole process is controllable; 5. the construction cost is reduced; 6. the labor intensity is reduced; 7. little pollutant emissions during construction and demolition, etc. Therefore, an assembly type building which is simple in structure, convenient to assemble and suitable for being used in different building working condition environments is urgently needed at present to solve the problem.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model provides a simple structure, convenient assembly and stable connection of an assembly type building structure.

The utility model provides a technical scheme that its technical problem adopted does:

an assembly module comprises an L-shaped structural body, wherein one end of the L-shaped structural body along a bearing direction is provided with a positioning bulge, and the other end of the L-shaped structural body is provided with a positioning groove matched with the positioning bulge on the other L-shaped structural body; and mounting structures are arranged at two ends of the L-shaped structure body, and a connecting damping structure is arranged on the mounting structure at least at one end.

As an improvement of the above technical solution, the mounting structure includes an insertion groove arranged along the bearing direction and a limiting hole arranged on the side wall of the L-shaped structural body, the limiting hole is communicated with the insertion groove, and one end of the connecting damping structure is inserted in the insertion groove and can be clamped in the limiting hole.

As an improvement of the technical scheme, the connection damping structure comprises a tenon and a damping wedge, the tenon can be inserted into the insertion groove, and a positioning hole is arranged at a position corresponding to the limiting hole; the damping wedge is inserted in a channel formed by connecting the positioning hole and the limiting hole, and the tenon is locked in the insertion groove.

As an improvement of the technical scheme, the damping wedge comprises a flexible buffer layer and rigid connecting layers arranged on two sides of the flexible buffer layer, and grooves which point to the flexible buffer layer in an inclined mode are formed in the same ends of the rigid connecting layers on the two sides.

As an improvement of the above technical solution, two sets of the positioning protrusions are arranged on two sides of the same end of the L-shaped structural body respectively; the middle part of the positioning bulge protrudes outwards along the bearing direction, and the two sides of the positioning bulge are gradually and smoothly transited with the L-shaped structure body.

As an improvement of the technical scheme, the insertion grooves are arranged on the inner sides of the positioning bulges, and each positioning bulge is correspondingly provided with at least one group of insertion grooves.

As an improvement of the technical scheme, the inner side and the outer side of the end part of the L-shaped structure body are respectively provided with a connecting step, and the positioning bulge is arranged between the connecting steps at the two sides; the end part of the L-shaped structure body, which is positioned at one end of the positioning groove, is provided with a step platform which is matched with the connecting step on the other L-shaped structure body.

As an improvement of the technical scheme, the two side end faces of the L-shaped structure body are provided with connecting grooves and/or positioning steps.

An L-shaped thin-wall column combined structure is formed by splicing at least one group of assembly modules.

As an improvement of the technical scheme, the structure further comprises cross beams which are transversely arranged at two ends of the L-shaped structure body; the both ends of crossbeam are provided with the installation department, be provided with the protruding mounting hole of connecting damping structure of cooperation location on the installation department, the installation department still is provided with the wedge head, arbitrary wedge face of wedge head can cooperate with arbitrary wedge face of wedge head on another crossbeam.

As an improvement of the technical scheme, the upper part of the cross beam is provided with an installation step used for installing the floor slab along the length direction.

A combined building comprises the L-shaped thin-walled column combined structure.

As an improvement of the above technical scheme, the wall structure further comprises a main body frame unit, a floor slab and a retaining wall, wherein the main body frame unit is provided with at least one group, each group of main body frame unit is formed by splicing at least four groups of L-shaped thin-walled column combined structures, two sides of the retaining wall are provided with matched structures matched with two side edges of an L-shaped structure body in the L-shaped thin-walled column combined structure, the upper end and the lower end of the retaining wall are connected with cross beams, and the peripheral side of the floor slab is connected with the cross beams in all the L-shaped thin-walled column.

As an improvement of the technical scheme, the guard wall is provided with a door opening and/or a window opening.

As an improvement of the above technical scheme, a balcony assembly is further mounted on the main body frame unit, and the balcony assembly comprises a balcony member, a balcony vertical edge, a cantilever plate and the assembling module; the balcony vertical edges are arranged on the side edge of the L-shaped structure body, and the lower ends of the balcony vertical edges are connected with the connectors; the both ends of board of encorbelmenting also are provided with L type structure body side complex the connector, the connector lower extreme of board of encorbelmenting is connected with the balcony stile upper end that corresponds one side.

The beneficial effects of the utility model are that:

the assembly module is provided with the positioning protrusions and the positioning grooves at two ends of the L-shaped structure body respectively, so that different L-shaped structure bodies can be conveniently and quickly installed in an aligned mode when being connected with other structures, the assembly accuracy is improved, meanwhile, the positioning protrusions and the positioning grooves can improve the strength of the L-shaped structure body against transverse shearing force, and the L-shaped structure body is guaranteed not to be out of position in later installation and use; in addition, the L-shaped structure bodies are connected with another group of L-shaped structure bodies or an external structure through the connection damping structure, so that the strength of the joint of the L-shaped structure bodies and the external structure is ensured, the damping effect inside the connection damping structure is utilized to reduce the interaction force in different assembling parts and the vibration force in the later use process, and the reliability, the stability and the shock resistance of the whole assembling module are improved. The utility model also provides a L type thin wall post integrated configuration and combination formula building, this structure utilizes the modular assembly module to assemble and form, and convenient assembling intensity is guaranteed, can realize going to the field usage again after the mill prefabrication, has reduced construction cost and intensity of labour, is friendly to the environment.

Drawings

The present invention will be further described with reference to the accompanying drawings and specific embodiments, wherein:

fig. 1 is a first schematic structural diagram of an assembly module according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram ii of an assembly module according to an embodiment of the present invention;

fig. 3 is another schematic structural diagram of an assembly module according to an embodiment of the present invention;

fig. 4 is a schematic view of the assembling structure of two groups of assembling modules in the embodiment of the present invention;

FIG. 5 is an exploded view of the attachment damping structure in an embodiment of the present invention;

fig. 6 is a first schematic structural diagram of an L-shaped thin-walled column assembly according to an embodiment of the present invention;

fig. 7 is a schematic structural diagram ii of an L-shaped thin-walled column assembly according to an embodiment of the present invention;

fig. 8 is a first schematic structural diagram of a cross beam in an embodiment of the present invention;

fig. 9 is a schematic structural diagram of a cross beam in the embodiment of the present invention;

fig. 10 is a schematic structural view of a combined building according to an embodiment of the present invention;

fig. 11 is a front view of a combined building according to an embodiment of the present invention;

FIG. 12 is a cross-sectional view taken along A-A of FIG. 11;

FIG. 13 is a perspective cross-sectional view taken along line B-B of FIG. 11;

figure 14 is an exploded view of a balcony assembly according to an embodiment of the invention.

Detailed Description

Referring to fig. 1 to 5, the assembly module of the present invention includes an L-shaped structural body 1, wherein one end of the L-shaped structural body 1 along a bearing direction is provided with a positioning protrusion 11, and the other end is provided with a positioning groove 12 matching with the positioning protrusion 11 on the other L-shaped structural body 1; the two ends of the L-shaped structure body 1 are provided with mounting structures 13, and the mounting structure 13 at least one end is provided with a connecting damping structure 14. The assembly module is the most basic assembly base body in the application, and the assembly base body can be made into any shape type, not only in a straight line shape, a Z shape or an L shape. In the present application, the positioning protrusion 11 does not necessarily need to cooperate with the positioning groove 12 on another set of L-shaped structural body 1, and if the assembly module is used on an existing fixing structure or some prefabricated installation base body, the positioning protrusion 11 can also be connected with an external positioning structure, and the same is true for the positioning groove 12. In order to reduce unnecessary complexity, the assembly modules can be assembled as load-bearing bodies of the assembly building. Two groups of positioning bulges 11 are arranged and are respectively arranged on two side edges of the same end of the L-shaped structure body 1; the middle part of the positioning bulge 11 bulges outwards along the bearing direction, the two sides of the positioning bulge gradually and smoothly transit with the L-shaped structure body 1, the positioning bulge 11 and the L-shaped structure body 1 are integrally prefabricated and molded, a mold can be adopted for manufacturing, and the manufacturing cost is reduced.

Referring to fig. 1 and 2, the mounting structure 13 includes a slot 131 disposed along the load-bearing direction and a limiting hole 132 disposed on the sidewall of the L-shaped structural body 1, the limiting hole 132 is communicated with the slot 131, and one end of the connecting damping structure 14 is inserted into the slot 131 and can be clamped in the limiting hole 132. The insertion grooves 131 are arranged on the inner sides of the positioning protrusions 11, each positioning protrusion 11 is correspondingly provided with at least one group of insertion grooves 131, each positioning protrusion 11 is preferably provided with at least two insertion grooves 131 in the application, and the insertion grooves 131 can be completely arranged on the same side or two sides of the positioning protrusion 11 and can be selected according to structural strength requirements. The insertion groove 131 serves as a joint and serves as a main direct acting surface for stress, so the insertion groove 131 can adopt a rigid sleeve matched with the connecting damping structure 14 and is placed in the L-shaped structure body 1 when the L-shaped structure body 1 is integrally formed and prefabricated. Furthermore, the primary function of the connecting damping structure 14 in this application is to provide a connection and to ensure strength between two sets of interconnected assembly modules. The assembly modules among different groups are matched with each other through the positioning grooves 12 and the positioning protrusions 11, so that the alignment installation can be started conveniently in the installation process, and the alignment trouble is avoided. Because the assembly module in this application is as building subject load-bearing structure, consequently must holistic structure and size all be relevant with the scale of the building floor that needs built when prefabricated, consequently for guarantee intensity, the assembly module must be the size relatively huge, needs mechanical equipment to carry out supplementary assembly simultaneously. Therefore, these large-scale structures are largely difficult to assemble for quick assembly connection and to secure connection strength. The traditional mode is that two adjacent assembly modules are connected to the connecting plate, and intensity can not be guaranteed, and especially horizontal shearing force relies on the intensity of connecting plate to guarantee completely, and it is big to rely on outside factor, is difficult to counterpoint when the connecting plate installation simultaneously. And adopt the design of this application, can advance the counterpoint fast, positioning groove 12 and location arch 11 are owing to be L type structure body 1's partly originally, integrated into one piece has been when prefabricated, consequently structural strength and whole quality are controllable, consequently horizontal shearing force accessible these both cooperations are eliminated, and connect damping structure 14 and be responsible for the effort of assembly structure's bearing direction, also be vertical effort, as long as the intensity of connecting damping structure 14 is suitable or be greater than L type structure body 1's structural strength, the intensity of the assembly body after the assembly can guarantee completely. In the application, the L-shaped structural body 1 is a prefabricated reinforced concrete module, and the connection strength of the connection damping structure 14 is greater than that of the reinforced concrete module, so that the overall strength can be ensured.

Referring to fig. 3, it should be further noted that in order to reduce the overall weight of the L-shaped structural body 1 in the present application, in the case that the overall strength is satisfied, the middle portion may not be used as a connecting portion for performing grooving, so that the middle portion becomes thinner and the overall L-shaped structural body 1 becomes lighter.

Referring to fig. 1 and 5, the connection damping structure 14 in the present application includes a tenon 141 and a damping wedge 142, the tenon 141 is inserted into the insertion slot 131, and a positioning hole 143 is disposed at a position corresponding to the limiting hole 132; the damping wedge 142 is inserted into the channel formed by the connecting of the positioning hole 143 and the limiting hole 132, and locks the tenon 141 in the insertion groove 131. The connecting damping structure 14 is a fast-assembling module structure, which can be prefabricated in advance, wherein the tenon 141 is used as a main connecting body, and the connection is made by using a metal material, such as Q235, which meets the requirement of structural steel, and of course, a steel material with higher strength can be selected, which is completely determined by actual construction conditions. The positioning holes 143 and the limiting holes 132 are mainly used to facilitate quick connection and locking of the structures to be connected in the assembling process, such as the tenon 141 or another group of L-shaped structural bodies 1 in the present application, but may also be other external connecting members or base bodies. The damping wedge 142 mainly functions to reduce the hard connecting force between the tenon 141 and the L-shaped structural body 1, and also improves the damping capacity of the later-stage assembly body, thereby enhancing the flexibility and toughness of the whole structure. Referring to fig. 4, the damping wedge 142 includes a flexible buffer layer 1421 and rigid connection layers 1422 disposed on two sides of the flexible buffer layer 1421, and the rigid connection layers 1422 on two sides are disposed on the same end and each have a bevel pointing to the flexible buffer layer 1421 obliquely. Wherein, flexible buffer layer 1421 is made for rubber materials, rigid connection layer 1422 can be steel sheet or other high strength alloy material, preferential high strength, manganese steel that the wearability is good, because the interact force between the different L type structure bodies 1 mainly carries out the transmission through tenon 141, and it is must gapped when the installation between tenon 141 and the L type structure body 1, because connection structure's interact force in the later stage use, consequently, there is wearing and tearing, consequently, damping wedge 142 is as spacing and the important part of later stage damping, consequently, its outer joint face must have the interact force with tenon 141, there is wearing and tearing, consequently, choose manganese steel both can guarantee intensity for use, can reduce the structural wear in later stage again. The design can not only meet the concept of 'strong column and weak beam', but also further enhance the effects of buffering, damping and energy consumption on vibration by adopting the structure with the damping wedge 142 and adding the rubber sealing strips among joints of all components.

Referring to fig. 1 to 4, in addition, in order to better match with other external structures, the inner side and the outer side of the end part of the L-shaped structural body 1 are provided with connecting steps 15, and the positioning protrusion 11 is arranged between the connecting steps 15 on the two sides; it should be noted that the height of the connecting step 15 on the outer side of the L-shaped structural body 1 is lower than that of the connecting step 15 on the inner side, which is advantageous for preventing rainwater on the outer side from entering the inside of the L-shaped structural body 1. For better matching, the end part of the L-shaped structural body 1 at one end of the positioning groove 12 is provided with a step platform matched with the connecting step 15 on the other L-shaped structural body 1. In order to better match with other components, such as a wall body, a column body and the like, the two side end faces of the L-shaped structural body 1 are respectively provided with a connecting groove and/or a positioning step 16, and the connecting groove and/or the positioning step 16 is selected according to actual use conditions and a processing mold.

The assembly module is provided with the positioning protrusions 11 and the positioning grooves 12 at two ends of the L-shaped structure body 1 respectively, so that the L-shaped structure body 1 can be conveniently and quickly accurately installed in a counterpoint mode when being connected with different L-shaped structure bodies 1 or other structures, the assembly accuracy is improved, meanwhile, the positioning protrusions 11 and the positioning grooves 12 can improve the strength of the L-shaped structure body 1 against transverse shearing force, and the L-shaped structure body 1 is ensured not to be dislocated in later-stage installation and use; in addition, the L-shaped structural body 1 is connected with another group of L-shaped structural body 1 or an external structure through the connecting damping structure 14, so that the strength of the joint of the L-shaped structural body and the external structure can be ensured, the damping effect inside the connecting damping structure 14 can be utilized to reduce the interaction force in different assembling parts and the vibration force in the later use process, and the reliability, the stability and the shock resistance of the whole assembling module are improved. Of course, the cross section of the L-shaped structural body 1 does not necessarily follow the L shape, and may be V-shaped or Z-shaped, so that the installation structure can be maintained in an upright state, and the installation structure different from the straight-line shape can be stabilized by an external auxiliary support. In addition, adopt two L type structure bodies 1 to laminate each other back to back and can obtain the constitutional unit of T type, adopt four L type structure bodies 1 just can obtain a cross constitutional unit, so multilateral on the whole, be fit for using in multiple building, satisfy building major structure's demand and satisfy the condition of production and transportation, installation again. The problems of complexity, repeated labor and unsafety in site construction are solved, the site installation is easier by adopting the structure of the system, the installation process does not need to be supported by an inclined rod, the site pouring and the welding, and the number of workers in the site construction is greatly reduced; especially, the requirement on the technical level of workers is greatly reduced (such as professional technicians as welders and tile workers are not needed), the labor intensity of the workers is greatly reduced, and the dependence on weather is also reduced.

Referring to fig. 6 to 9, the present invention further provides an L-shaped thin-walled column assembly structure, which is formed by assembling at least a set of the assembling modules. The L-shaped thin-wall column combined structure further comprises a cross beam 2, and the cross beam 2 is transversely installed at two ends of the L-shaped structure body 1. Wherein, in this application crossbeam 2's both ends are provided with installation department 21, be provided with the mounting hole 22 that cooperation location is protruding 11 and connection damping structure 14 on the installation department 21, installation department 21 still is provided with wedge head 23, arbitrary wedge face of wedge head 23 can cooperate with arbitrary wedge face of wedge head 23 on another crossbeam 2. It should be noted that, in the present application, the mounting hole 22 specifically further includes a concave portion 221 matching with the positioning protrusion 11 and a through hole 222 matching with the connection damping structure 14 and passing through, for convenience of connection and later matching, a protruding structure 223 similar to the positioning protrusion 11 is provided on the other side of the concave portion 221 corresponding to the cross beam 2, and the through hole 222 penetrates through the concave portion 221 and passes out from one side of the protruding structure 223, so that the connection damping structure 14 passes through the cross beam 2 and is installed on the L-shaped structural body 1 in a consistent manner. In addition, it should be noted that the concave portion 221 cooperates with the positioning protrusion 11 on the L-shaped structural body 1 to well ensure the transverse acting force between the cross beam 2 and the L-shaped structural body 1, and the connection damping structure 14 passes through the cross beam 2 to be connected with the mounting structure 13 in another group or layer of L-shaped structural body 1, so as to realize the connection of the L-shaped thin-wall column combination structure between different layers.

The design of wedge head 23 is for all crossbeams 2 of same level can joint well to a great extent, this because the assembly module is the L type, consequently the inclination of wedge head 23 wedge face sets up according to actual conditions, for example in this application, owing to adopt L type structure body 1 to assemble, consequently mostly be some square integrated configuration, consequently the inclination of wedge head 23 wedge face can be 45 inclination, makes things convenient for the die sinking and the installation in later stage like this. The side of the top of the wedge-shaped head 23 on the inner beam 2a is also provided with a hook head 25 for hooking the end part of the L-shaped structure body 1, wherein the hook head 25 is clamped on the connecting step 15 at the end part of the L-shaped structure body 1, and the connection stability of the whole L-shaped thin-walled column combined structure can be ensured to a certain extent.

In addition, in order to mount other mounting members more favorably, the upper portion of the cross member 2 is provided with a mounting step 24 for mounting the floor 3 in the longitudinal direction, and the mounting step is not limited to the floor 3, and may be a partition plate. And the middle part of the upper and lower sides of the beam 2 is provided with a clamping strip 26 along the length direction, and the clamping strip 26 can be used for installing partition boards used in different spaces between the same layer or prefabricating wall surfaces and the like.

Referring to fig. 10 to 14, the present invention further provides a combined building, which includes the above L-shaped thin-walled column assembly. The L-shaped thin-wall column combined structure is basically adopted to be mutually assembled to form a required building.

Referring to fig. 10 to 13, the beam 2 in the L-shaped thin-walled column composite structure includes an inner beam 2a and an outer beam 2b, that is, the inner beam 2a is installed inside the whole L-shaped thin-walled column composite structure and is used for connecting the inner L-shaped structural body 1 of the whole L-shaped thin-walled column composite structure, and the outer beam 2b is connected with the L-shaped structural body 1 of the outer ring of the whole L-shaped thin-walled column composite structure. The basic structures of the two are the same, and the details are different, which will be described in detail below.

Referring to fig. 10 and 11, the combined building further includes a main frame unit 4, a floor slab 3, and a retaining wall 5, where the main frame unit 4 is provided with at least one group, each group of main frame unit 4 is formed by splicing at least four groups of L-shaped thin-walled column combined structures, when the L-shaped structure body 1 in the assembly module is not L-shaped in cross section, i.e., the assembly module is V-shaped, and when the L-shaped structure body 1 in the assembly module is Z-shaped, the main frame unit 4 may be assembled into a frame structure of the same layer by only three groups, and a detailed description is omitted here, please refer to an assembly manner when the L-shaped structure body 1 is adopted. The main body frame unit 4 is a square structure of a regular hexahedron after the whole installation is completed in the application, and a plurality of main body frame units 4 can be naturally assembled together. As shown in fig. 8, in the same floor building, the four main body frame units 4 are assembled to form the same floor structure of the building.

In addition, referring to fig. 9 to 12, two sides of the retaining wall 5 are provided with a matching structure matching two side edges of the L-shaped structural body 1 in the L-shaped thin-walled column combined structure, the upper end and the lower end of the retaining wall 5 are connected with the cross beam 2, and the peripheral side of the floor slab 3 is connected with the cross beams 2 in all the L-shaped thin-walled column combined structures. The protective walls 5 can be connected between different L-shaped structural bodies 1 or can be vacant, so that the design requirements of different room spaces can be met. The protecting wall 5 is provided with a door opening 7 and/or a window opening 6, the protecting wall 5 is divided into an inner protecting wall and an outer protecting wall, and the protecting wall 5 outside the building main body needs to be effectively protected except for being supported and connected with the main body frame units 4 on different layers, so that external rainwater and other sundries are prevented from entering the building main body. The retaining wall 5 is of a prefabricated structure, patterns can be arranged on the die during prefabrication, and attractiveness is improved.

Referring to fig. 10 and 14, in addition, in order to promote the diversification of the whole combined building, a balcony assembly 8 is further installed on the main body frame unit 4, and the balcony assembly 8 comprises a balcony member 81, a balcony stile 82, a cantilever plate 83 and the assembling module; the two ends of the balcony component 81 are both provided with a connecting head 84 matched with the side edge of the L-shaped structure body 1, the balcony vertical edge 82 is installed on the side edge of the L-shaped structure body 1, and the lower end of the balcony vertical edge is connected with the connecting heads 84; the two ends of the cantilever plate 83 are also provided with the connectors 84 matched with the side edges of the L-shaped structural body 1, and the lower ends of the connectors 84 of the cantilever plate 83 are connected with the upper ends of the balcony vertical edges 82 on one corresponding side. Generally, the balcony assembly 8 is of a modular design, which also facilitates later assembly, and of course some prefabricated stairways, etc., which are not described in detail herein. The assembly module is adopted to assemble the whole combined building, so that the requirements and the difficulty control required when the main structure of the building needs to be built on site can be integrally and well reduced.

The utility model provides a L type thin wall post integrated configuration and modular building, this structure utilize modular assembly module to assemble and form, and convenient assembling intensity is guaranteed, can realize going to the field usage again after the mill prefabrication, has reduced construction cost and intensity of labour, is friendly to the environment. The utility model provides an too much problem of mould that appears in the high-rise building. As is common in conventional buildings, the reduction of the wall beam column size from lower to higher floors to reduce the weight of the higher floors can result in excessive molds during the production of the assembled components, which can be disadvantageous.

The above description is only a preferred embodiment of the present invention, but the present invention is not limited to the above embodiments, and the technical effects of the present invention should be all included in the protection scope of the present invention as long as the technical effects are achieved by any of the same or similar means.

Claims (15)

1. An assembly module, characterized by: the L-shaped structure comprises an L-shaped structure body, wherein one end of the L-shaped structure body along the bearing direction is provided with a positioning bulge, and the other end of the L-shaped structure body is provided with a positioning groove matched with the positioning bulge on the other L-shaped structure body; and mounting structures are arranged at two ends of the L-shaped structure body, and a connecting damping structure is arranged on the mounting structure at least at one end.

2. An assembly module according to claim 1, wherein: the mounting structure comprises an insertion groove arranged along the bearing direction and a limiting hole arranged on the side wall of the L-shaped structure body, the limiting hole is communicated with the insertion groove, and one end of the damping structure is inserted into the insertion groove and can be clamped in the limiting hole.

3. An assembly module according to claim 2, wherein: the connecting damping structure comprises a tenon and a damping wedge, the tenon can be inserted into the insertion groove, and a positioning hole is formed in the position corresponding to the limiting hole; the damping wedge is inserted in a channel formed by connecting the positioning hole and the limiting hole, and the tenon is locked in the insertion groove.

4. An assembly module according to claim 3, wherein: the damping wedge comprises a flexible buffer layer and rigid connection layers arranged on two sides of the flexible buffer layer, and grooves which point to the flexible buffer layer in an inclined mode are formed in the same end, located on the rigid connection layers on the two sides, of the flexible buffer layer.

5. An assembly module according to claim 2, wherein: two groups of positioning bulges are arranged on the two sides of the same end of the L-shaped structure body respectively; the middle part of the positioning bulge protrudes outwards along the bearing direction, and the two sides of the positioning bulge are gradually and smoothly transited with the L-shaped structure body.

6. An assembly module according to any one of claims 2 to 5, wherein: the plug-in slots are arranged on the inner sides of the positioning bulges, and each positioning bulge is correspondingly provided with at least one group of plug-in slots.

7. An assembly module according to any one of claims 1 to 5, wherein: the inner side and the outer side of the end part of the L-shaped structure body are both provided with connecting steps, and the positioning bulge is arranged between the connecting steps on the two sides; the end part of the L-shaped structure body, which is positioned at one end of the positioning groove, is provided with a step platform which is matched with the connecting step on the other L-shaped structure body.

8. An assembly module according to any one of claims 1 to 5, wherein: and the two side end faces of the L-shaped structure body are provided with connecting grooves and/or positioning steps.

9. An L type thin wall post integrated configuration which characterized in that: formed by mutually splicing at least one set of assembled modules according to any one of claims 1-8.

10. An L-shaped thin wall column composite structure according to claim 9, wherein: the L-shaped structure body is characterized by also comprising cross beams which are transversely arranged at two ends of the L-shaped structure body; the both ends of crossbeam are provided with the installation department, be provided with the protruding mounting hole of connecting damping structure of cooperation location on the installation department, the installation department still is provided with the wedge head, arbitrary wedge face of wedge head can cooperate with arbitrary wedge face of wedge head on another crossbeam.

11. An L-shaped thin walled column composite structure according to claim 10 wherein: and the upper part of the cross beam is provided with an installation step used for installing a floor slab along the length direction.

12. A modular building, its characterized in that: comprising an L-shaped thin walled column assembly according to any of claims 9 to 11.

13. A modular building according to claim 12, characterised in that: still include main part frame unit, floor and revetment, main part frame unit is provided with at least one set ofly, and every main part frame unit of group is formed by four at least groups L type thin wall post integrated configuration concatenations, the both sides of revetment are provided with the cooperation structure on L type structure body both sides limit in the cooperation L type thin wall post integrated configuration, the upper and lower both ends and the crossbeam of revetment are connected, the week side and the crossbeam in all L type thin wall post integrated configuration of floor are connected.

14. The modular building of claim 13, wherein: and a door opening and/or a window opening are/is arranged on the protective wall.

15. The modular building of claim 13, wherein: a balcony assembly is further mounted on the main body frame unit, and the balcony assembly comprises balcony members, balcony stiles, cantilever slabs and the assembly module as claimed in any one of claims 1 to 8; the balcony vertical edges are arranged on the side edge of the L-shaped structure body, and the lower ends of the balcony vertical edges are connected with the connectors; the both ends of board of encorbelmenting also are provided with L type structure body side complex the connector, the connector lower extreme of board of encorbelmenting is connected with the balcony stile upper end that corresponds one side.

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