CN210177786U - Assembled T type module - Google Patents

Abstract

The utility model relates to an assembled T-shaped module, which comprises an assembly plate, two groups of assembly special-shaped plates and a plurality of groups of assembly connecting blocks; the two groups of assembling special-shaped plates are connected to the rear of the assembling plate through a plurality of groups of assembling connecting blocks; two groups of the assembling special-shaped plates are symmetrically arranged; the two groups of assembling special-shaped plates are connected through a plurality of groups of assembling connecting blocks; a cavity is formed between the two groups of the assembling special-shaped plates; the cavity is formed between the two sets of the fitting profiled plates and the fitting plate. The design solves the problem that the brick making raw material of the brick wall structure in the prior scheme is the design of clay. Causes the problems of farmland damage, simple manufacturing process, uneven quality, lack of standard installation mode and the like.

Description

Assembled T type module

Technical Field

The utility model relates to a building module, concretely relates to assembled T type module.

Background

Generally, with the rapid development of national economy, the pace of urbanization construction is continuously accelerated. Governments around the country are also actively conducting the construction of featured towns. Meanwhile, how to build beautiful villages is also set in front of governments in various regions. Under the environment of environmental protection and energy conservation, how to build a characteristic small town and a beautiful country in an environment-friendly way becomes a more prominent contradiction. Building characteristic small towns and beautiful villages inevitably consumes construction consumables, and the construction consumables pollute and destroy the ecological environment. If the problem is not solved, the construction pace is influenced, and further the development of national economy is influenced.

The existing scheme adopts a brick wall structure, and the common brick has high strength, convenient manufacture and wide application. However, the raw materials for making bricks are taken from clay, which damages farmlands. Such a solution is obviously unsuitable for the construction of characteristic towns and beautiful villages. The brick wall structure is built manually one brick by one brick, and the construction speed is low. The manufacturing process of the brick wall structure is simple, and the quality of the bricks is also uneven and cannot be guaranteed. Because the wall is built manually, the quality of the finally formed wall depends on the experience of the worker in building the wall. The lack of standard mounting means and high quality products are problems that are urgently needed to be solved at present.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art, the utility model discloses an assembled T type module to manufacturing process is simple among the solution prior art, and the quality is joined in marriage not neat, lacks the mounting means scheduling problem of standard.

The utility model discloses the technical scheme who adopts as follows:

an assembled T type module which characterized in that:

the assembling device comprises assembling plates, two groups of assembling special-shaped plates and a plurality of groups of assembling connecting blocks; the two groups of assembling special-shaped plates are connected to the rear of the assembling plate through a plurality of groups of assembling connecting blocks; two groups of the assembling special-shaped plates are symmetrically arranged; the two groups of assembling special-shaped plates are connected through a plurality of groups of assembling connecting blocks; a cavity is formed between the two groups of the assembling special-shaped plates; the cavity is formed between the two sets of the fitting profiled plates and the fitting plate.

The further technical scheme is as follows: the assembling plate is made of graphene EPS (expandable polystyrene); the two groups of assembling special-shaped plates are made of graphene EPS (expandable polystyrene) materials; the multiple groups of assembly connecting blocks are made of graphene EPS (expandable polystyrene).

The further technical scheme is as follows: a first boss structure is processed on one side of the assembling plate, and a first groove structure is processed on the other side of the assembling plate; the first boss structure is machined on one side of the assembly special-shaped plate, and the first groove structure is machined on the other side of the assembly special-shaped plate; the shape and the position distribution of the first boss structure are respectively matched with those of the first groove structure.

The further technical scheme is as follows: the assembling plate and the two groups of assembling special-shaped plates are respectively provided with an upper surface and a lower surface; a second boss structure is machined on one surface of the assembling plate at a uniform interval, and a second groove structure is machined on the other surface of the assembling plate at a uniform interval; two sets of the even processing of the one side interval of assembly dysmorphism board has second boss structure, the even processing of another side interval has second groove structure, the shape and the position distribution of second boss structure respectively with the shape and the position distribution of second groove structure match each other.

The further technical scheme is as follows: the second boss structure and the second groove structure are square, round or special-shaped.

The further technical scheme is as follows: the assembling plate and the two groups of assembling special-shaped plates are respectively provided with an outer surface and an inner surface; and a plurality of groups of third boss structures are respectively machined on the outer surface and the inner surface at uniform intervals.

The further technical scheme is as follows: the third boss structure is square, round or special-shaped.

The further technical scheme is as follows: a plurality of groups of assembling connecting block grooves are respectively and horizontally processed on the upper surface of the assembling connecting block at uniform intervals; when the assembled T-shaped module is installed, a steel bar is horizontally placed in the groove of the assembling connecting block; and binding the steel bars with the vertical construction steel bars.

The further technical scheme is as follows: the number of the grooves of the plurality of groups of the assembling connecting blocks is 1-3.

The utility model has the advantages as follows:

because the utility model solves the following problems (1) in the prior art that the raw materials for brick making are clay, the farmland can be destroyed when the materials for brick making are taken; (2) the brick making process still adopts an old brick kiln, and the structure is simple and the quality is not ensured; (3) the brick wall is built by workers by adopting a traditional method, and the quality of a final finished product depends on the handcraft and experience of the workers; (4) the brick wall is built by adopting a common brick structure, and cannot play a role in keeping warm and insulating heat; (5) the brick wall is built by workers by adopting a traditional method, the process is complicated, and the construction progress is slow. The utility model designs an assembled T-shaped module, and the design of modular assembly and the scheme of adopting the graphene EPS polyphenyl material as the processing raw material bring the following effects (1) because the graphene EPS polyphenyl material is adopted as the processing raw material, the influence on the environment caused by the farmland not needing to be destroyed is small; (2) the manufacturing process of the assembled T-shaped module is advanced, the structure has guaranteed quality relative to the brick structure, and the mechanical strength is high; (3) the installation method of the assembled T-shaped module is different from the traditional brick wall method, the quality of a final finished product formed by assembling modules is guaranteed, and sound insulation, moisture prevention and moisture prevention are realized; (4) the assembled T-shaped module adopts a graphene EPS (expandable polystyrene) material as a raw material, and the graphene EPS polystyrene has good warm-keeping and heat-insulating effects; (5) compared with the traditional wall building method, the installation method of the assembled T-shaped module has the advantages of simple process, fast construction progress and low labor consumption.

Drawings

Fig. 1 is a top view of the present invention.

Fig. 2 is a front view of the present invention.

Fig. 3 is a side view of the present invention.

Fig. 4 is a top view of the second boss structure of the present invention.

Fig. 5 is a bottom view of the second groove structure of the present invention in a circular shape.

Fig. 6 is a front view of the third boss structure of the present invention.

Fig. 7 is a top view of the third boss structure of the present invention being square.

Fig. 8 is a top view of the assembly connecting block groove of the present invention.

Fig. 9 is a plan view of the two sets of the grooves of the assembly connecting block of the present invention.

Fig. 10 is a top view of the assembly connecting block groove of the present invention with three groups.

In the figure: 1. assembling a plate; 2. assembling a special-shaped plate; 3. assembling a connecting block; 4. a cavity; 5. assembling a connecting block groove; 6. a first fitting plate; 7. a second fitting plate; 8. a first cavity; 9. a second cavity; 10. a first side surface; 11. a second side surface; 12. a first surface; 13. a second surface; 14. a first boss structure; 15. a first groove structure; 16. a second boss structure; 17. a second groove structure; 18. a first outer surface; 19. a first inner surface; 20. and a third boss structure.

Detailed Description

The following describes a specific embodiment of the present embodiment with reference to the drawings.

Fig. 1 is a top view of the present invention, fig. 2 is a front view of the present invention, and fig. 3 is a side view of the present invention. Referring to fig. 1, 2 and 3, the present invention discloses a fabricated T-shaped module. The direction a in fig. 1 is the right side direction of the top view of the present invention, and the direction B in fig. 1 is the front direction of the top view of the present invention. Including assembly plate 1, two sets of assembly dysmorphism boards 2 and multiunit assembly connecting block 3. Preferably, the assembly plate 1 is made of graphene EPS (expandable polystyrene). Preferably, two sets of assembly dysmorphism boards 2 are graphite alkene EPS polyphenyl material. Preferably, the plurality of groups of assembly connecting blocks 3 are made of graphene EPS (expandable polystyrene). Two groups of assembling special-shaped plates 2 are symmetrically processed on the left and the rear sides of the rear part of the assembling type T-shaped module respectively. The fitting profiled plate 2 comprises a first fitting plate 6 and a second fitting plate 7. The first fitting plate 6 and the second fitting plate 7 are integrally formed by press molding. The first fitting plate 6 and the second fitting plate 7 are formed perpendicularly to each other. Two sets of first assembly plates 6 are installed on same water flat line, and two sets of second assembly plates 7 are parallel to each other. A mounting plate 1 is processed at the front of the mounting T-shaped module. The assembly plate 1 is a straight plate, and the assembly plate 1 is parallel to the two groups of first assembly plates 6 respectively. The cavity 4 comprises a first cavity 8 and a second cavity 9. A first cavity 8 is formed between each of the two first assembling plates 6 and the assembling plate 1, and a second cavity 9 is formed between each of the two second assembling plates 7. The multiple groups of assembly connecting blocks 3 are respectively and uniformly processed in the first cavity 8 in a vertical mode at intervals. The two groups of assembly connecting blocks 3 are respectively processed in the second cavity 9 in an up-down horizontal mode at uniform intervals.

Two sets of first side surfaces 10 are formed at the left and right ends of the mounting plate 1, respectively. A first boss structure 14 is machined in one set of first sides 10 and a first groove structure 15 is machined in the other set of first sides 10. Two sets of second side surfaces 11 are formed at the two outermost ends of the fitting shaped plate 2, respectively. A first boss structure 14 is machined in one set of second sides 11 and a first groove structure 15 is machined in the other set of second sides 11. The shape and the distribution of the positions of the first boss structures 14 are mutually matched to the shape and the distribution of the positions of the first groove structures 15, respectively. When the assembled T-shaped module is horizontally installed, the module and the module are installed in a matched mode through the first boss structure 14 and the first groove structure 15. The design of the first boss structure 14 and the first groove structure 15 can ensure that the horizontal installation between the modules is firmer, and meanwhile, the construction speed is higher.

Two sets of first surfaces 12 are formed at upper and lower ends of the mounting plate 1, respectively. Second boss structures 16 are uniformly spaced on one set of first surfaces 12, and second groove structures 17 are uniformly spaced on the other set of first surfaces 12. Two sets of second surfaces 13 are formed at upper and lower ends of the fitting shaped plate 2, respectively. Second boss structures 16 are uniformly spaced on one set of second surfaces 13, and second groove structures 17 are uniformly spaced on the other set of second surfaces 13. Preferably, the second boss structure 16 is a square boss structure, a circular boss structure or a special-shaped boss structure. Fig. 4 is the utility model discloses second boss structure is square top view, and it is shown in combination with fig. 4, when second boss structure 16 is square boss structure, through square second boss structure 16 and square second groove structure 17 cooperation installation between the module. Preferably, the second groove structure 17 is a square groove structure, a circular groove structure or a special-shaped groove structure. Fig. 5 is a bottom view of the second groove structure of the present invention in a circular shape. Referring to fig. 5, when the second groove structure 17 is a circular groove structure, the modules are installed by matching the circular second boss structure 16 and the circular second groove structure 17. The shape and the distribution of the positions of the second land structures 16 are mutually matched to the shape and the distribution of the positions of the second groove structures 17, respectively. When the assembled T-shaped module is vertically installed, the module and the module are installed in a matched mode through the second boss structure 16 and the second groove structure 17. The design of second boss structure 16 and second groove structure 17 can make the perpendicular installation between module and the module more convenient, has not had the loaded down with trivial details construction step of ordinary brick wall for the progress of construction.

Fig. 6 is a front view of the third boss structure of the present invention, and fig. 7 is a top view of the third boss structure of the present invention. As shown in fig. 6 and 7, a plurality of sets of first outer surfaces 18 and a plurality of sets of first inner surfaces 19 are formed on the surfaces of the mounting plate 1 and the two sets of mounting profile plates 2, respectively. A plurality of sets of third boss structures 20 are respectively machined on the first outer surface 18 and the first inner surface 19 at uniform intervals. Preferably, the third boss structure 20 is a square boss structure, a circular boss structure or a special-shaped boss structure. The third boss structure 20 machined into the first inner surface 19 may enhance the interface bonding of the concrete when the fabricated T-block installation requires concrete to be poured into the cavity 4. When the first outer surface 18 needs to be machined during installation of the fabricated T-shaped module, the third boss structure 20 machined on the first outer surface 18 can facilitate construction of the mortar protective layer and the decorative layer.

Fig. 8 is the utility model discloses the assembly connection block recess is a set of top view, and fig. 9 is the utility model discloses the assembly connection block recess is two sets of top views, and fig. 10 is the utility model discloses the assembly connection block recess is the top view of three groups. Referring to fig. 8, 9 and 10, the assembly plate 1, the two sets of assembly shaped plates 2 and the plurality of sets of assembly connection blocks 3 are integrally molded. The multiple groups of assembling connection blocks 3 are designed to be of an upper structure and a lower structure, and the multiple groups of assembling connection blocks 3 are respectively processed on the upper part and the lower part of the cavity 4. The grooves 5 of the plurality of groups of assembling connecting blocks are uniformly and horizontally processed on the upper surface of the assembling connecting block 3 at intervals. Preferably, a plurality of groups of assembling connecting block grooves 5 are uniformly and horizontally processed on the upper surface of the assembling connecting block 3 on the upper part of the cavity 4 at intervals. Preferably, the grooves 5 of the plurality of sets of assembly connecting blocks are 1-3 sets. The design of multiunit assembly connecting block 3 plays the effect of connecting assembly plate 1 and two sets of assembly dysmorphism boards 2, plays the effect of structure reinforcing. When the assembled T-shaped module is installed, the construction steel bars are vertically installed on the construction site, and the construction steel bars penetrate through the cavity 4 from top to bottom. The steel bars are horizontally placed in the groove 5 of the assembly connecting block to be bound with the construction steel bars, and then concrete is poured into the cavity 4. The construction design has the characteristics of high mechanical strength, high construction speed, good heat insulation and preservation, sound insulation, moisture prevention and damp prevention and less manpower consumption. The energy-saving and heat-insulating building wall has the advantages that the building is energy-saving and heat-insulating, the common brick wall structure is replaced, the energy consumption ratio is obviously reduced, and the sound insulation and the noise reduction are realized.

In the present embodiment, the components described are mounted in a boss structure, a groove structure, or the like, but the present invention is not limited thereto, and other mounting methods may be used as long as the functions thereof can be exerted.

In the present embodiment, the member described is made of graphene EPS polyphenylene, but the member is not limited to this, and may be made of other materials within a range capable of performing the function thereof.

In the present embodiment, the number of components described is two, more, 1 to 3, and the like, but the number is not limited to this, and may be other numbers within a range capable of functioning.

In the present specification, terms such as "square", "circular" and "irregular" are used, and terms such as "square", "circular" and "irregular" that are not precise may be in a state of substantially "square", "circular" and "irregular" or other states within a range in which the functions thereof can be exerted.

The above description is for the purpose of explanation and not limitation of the invention, which is defined in the claims, and any modifications may be made without departing from the basic structure of the invention.

Claims (9)

1. An assembled T type module which characterized in that: comprises an assembly plate (1), two groups of assembly special-shaped plates (2) and a plurality of groups of assembly connecting blocks (3); the two groups of the assembling special-shaped plates (2) are connected to the rear of the assembling plate (1) through a plurality of groups of assembling connecting blocks (3); two groups of the assembling special-shaped plates (2) are symmetrically arranged; the two groups of the assembling special-shaped plates (2) are connected through a plurality of groups of assembling connecting blocks (3); a cavity (4) is formed between the two groups of the assembling special-shaped plates (2); the cavity (4) is formed between the two sets of the fitting profiled plates (2) and the fitting plate (1).

2. The fabricated T-module of claim 1, wherein: the assembling plate (1) is made of graphene EPS (expandable polystyrene); the two groups of assembling special-shaped plates (2) are made of graphene EPS (expandable polystyrene); the multiple groups of assembly connecting blocks (3) are made of graphene EPS (expandable polystyrene).

3. The fabricated T-module of claim 1, wherein: a first boss structure (14) is processed on one side of the assembling plate (1), and a first groove structure (15) is processed on the other side of the assembling plate; one side of the assembly special-shaped plate (2) is provided with the first boss structure (14), and the other side of the assembly special-shaped plate is provided with the first groove structure (15); the shape and the position distribution of the first boss structures (14) are matched with those of the first groove structures (15) respectively.

4. The fabricated T-module of claim 1, wherein: the assembling plate (1) and the two groups of assembling special-shaped plates (2) are respectively provided with an upper surface and a lower surface; second boss structures (16) are machined on one surface of the assembling plate (1) at uniform intervals, and second groove structures (17) are machined on the other surface of the assembling plate at uniform intervals; two sets of the even processing of the one side interval of assembly dysmorphism board (2) has second boss structure (16), the even processing of another side interval has second groove structure (17), the shape and the position distribution of second boss structure (16) respectively with the shape and the position distribution of second groove structure (17) match each other.

5. The fabricated T-module of claim 4, wherein: the second boss structure (16) and the second groove structure (17) are square, round or special-shaped.

6. The fabricated T-module of claim 1, wherein: the assembly plate (1) and the two groups of assembly special-shaped plates (2) are respectively formed with an outer surface and an inner surface; and a plurality of groups of third boss structures (20) are respectively machined on the outer surface and the inner surface at uniform intervals.

7. The fabricated T-module of claim 6, wherein: the third boss structures (20) are respectively square, round or special-shaped.

8. The fabricated T-module of claim 1, wherein: a plurality of groups of assembling connecting block grooves (5) are respectively and horizontally processed on the upper surface of the assembling connecting block (3) at uniform intervals; when the assembled T-shaped module is installed, a steel bar is horizontally placed in the groove (5) of the assembling connecting block; and binding the steel bars with the vertical construction steel bars.

9. The fabricated T-module of claim 8, wherein: the number of the grooves (5) of the assembling connecting blocks is 1-3.

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