CN111305385A

CN111305385A - High-efficient concatenation formula house structure

Info

Publication number: CN111305385A
Application number: CN202010141364.7A
Authority: CN
Inventors: 郑淑琴; 王艳茹; 符彬
Original assignee: Wenzhou University Oujiang College
Current assignee: Mu Xiaocun
Priority date: 2020-03-03
Filing date: 2020-03-03
Publication date: 2020-06-19
Anticipated expiration: 2040-03-03
Also published as: CN111305385B

Abstract

The invention discloses an efficient splicing type housing structure which comprises a plurality of wallboards and a combination device, wherein the wallboards are assembled and connected through the combination device, the combination device comprises a positioning frame and a telescopic frame, the positioning frame is arranged at a combination position on the wallboards, the telescopic frame is coupled with a cloud server, installation drawings are stored in the cloud server, the telescopic frame is controlled to be telescopic, so that a pouring space for pouring concrete is formed in the telescopic frame, and a detection assembly for detecting the positioning frame is arranged on the telescopic frame. According to the efficient splicing type house structure, the wall plates and the combination device are arranged, the house structure can be effectively formed through splicing construction, the combination device is arranged in a mode of combining the positioning frame and the telescopic frame, the pouring position of wall plate splicing can be automatically positioned, and therefore the problem that the assembling position is prone to deviation can be avoided.

Description

High-efficient concatenation formula house structure

Technical Field

The invention relates to a housing structure, in particular to an efficient splicing type housing structure.

Background

The traditional building production mode is a mode of separating a design link from a construction link, starting from the design angle of a target building body and a structure, then conveying the required building materials to a destination, carrying out open-air construction, and completing delivery and acceptance inspection; the industrial production mode of the building is a process from the design and construction integrated production mode to the standardized design to the factory production of components and fittings and then the field assembly.

Therefore, the building industrialization can improve the building precision, and simultaneously, the building speed of the building can be greatly increased, in the field assembly process, the wallboards to be assembled are hoisted by a crane, then a plurality of adjacent wallboards are spliced and combined by a node cast-in-place technology by workers, so that the building of a house is realized, in the way, when the wallboards are combined, a space needing to be poured is reserved among the wallboards, and the reserved space in the prior art is mainly realized by the manual operation of the workers, so that on one hand, the workers are required to repeatedly check the assembly position in the assembly process, on the other hand, the repeated checking is carried out in time, but the problem of deviation of the assembly position is easy to occur due to the artificial relationship.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide the efficient splicing type housing structure capable of accurately and quickly reserving an installation space.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a high-efficient concatenation formula house structure, includes a plurality of wallboard and composite set, through composite set assembled connection between a plurality of wallboard, composite set is including location frame and flexible frame, the combined position of location frame setting on the wallboard, cloud server is coupled to flexible frame, and this cloud server endotheca has the installation drawing to in according to installation drawing content output signal to flexible frame, the flexible frame of control makes the flexible frame form the pouring space that supplies concrete placement, be equipped with the determine module who is used for detecting the location frame on the flexible frame, when determine module detected the location frame, flexible frame stretches out and draws back according to the signal of receiving cloud server and constitutes the pouring space.

As a further improvement of the invention, the telescopic frame comprises a telescopic base and a telescopic supporting rod, the telescopic base is of a hollow frame structure, one end of each telescopic supporting rod is connected to the telescopic base and is combined with the telescopic base to form a cross-shaped frame structure, a pouring film is attached to the inner side wall of the frame structure to form a pouring space, a driving assembly for driving the telescopic supporting rods to stretch is arranged on the telescopic base, and the driving assembly is in wireless communication with the cloud server to receive signals output by the cloud server and then drive the telescopic supporting rods to stretch.

As a further improvement of the invention, the telescopic supporting rod is of a cylinder structure, the driving assembly comprises four air pumps arranged on the telescopic base, and the four air pumps are respectively connected with the telescopic supporting rods in four directions in a one-to-one correspondence manner so as to drive the telescopic supporting rods to stretch.

As a further improvement of the invention, the positioning frame comprises a positioning belt and four detection points distributed on the positioning belt, when the positioning frame is arranged on the wall board, the four detection points are respectively positioned at four corners of the positioning frame, the detection assembly is a detection head fixed on one end of the telescopic support rod opposite to the telescopic base, the detection head is in communication connection with the air pump, when the detection heads detect the detection points in a one-to-one correspondence manner, the detection head outputs signals to the air pump, and the air pump drives the telescopic support rod to stretch and adjust the pouring space.

As a further improvement of the invention, the telescopic base is formed by combining a plurality of connecting rods and connecting nodes, the end parts of the connecting rods are in threaded connection with the connecting nodes, and the end parts of the telescopic supporting rods are in threaded connection with the connecting nodes.

As a further improvement of the invention, a rubber gasket is fixed at one end of the telescopic strut, which is back to the telescopic base, and a through hole for the detection light of the detection head to pass through is formed in the center of the rubber gasket.

As a further improvement of the invention, the inner side surfaces of the telescopic supporting rod and the connecting rod are coated with adhesive glue for the adhesion of a casting film.

The invention has the advantages that a house structure capable of being spliced can be effectively provided by arranging the wall boards and the combination device, and the processing function of the cloud server can be effectively utilized to carry out automatic alignment and automatic support to form a pouring space by arranging the combination device into the positioning frame and the telescopic frame, so that compared with the prior art in which a manual regulation and control mode is adopted, the accuracy is greatly improved, and the problem of position deviation is not easy to occur.

Drawings

FIG. 1 is a schematic structural view of an efficient tiled housing construction of the present invention;

FIG. 2 is a schematic structural view of the combination device of FIG. 1;

fig. 3 is a schematic structural diagram of the positioning frame in fig. 1.

Detailed Description

The invention will be further described in detail with reference to the following examples, which are given in the accompanying drawings.

Referring to fig. 1 to 3, the high-efficiency splicing type housing structure of the embodiment includes a plurality of wall boards 1 and a combination device 2, the wall boards 1 are assembled and connected by the combination device 2, the combination device 2 includes a positioning frame 21 and a telescopic frame 22, the positioning frame 21 is disposed at a combination position on the wall boards 1, the telescopic frame 22 is coupled with a cloud server 3, an installation drawing is stored in the cloud server 3, so as to output a signal to the telescopic frame 22 according to the content of the installation drawing, the telescopic frame 22 is controlled to be telescopic so as to form a casting space for casting concrete, a detection component 23 for detecting the positioning frame 21 is disposed on the telescopic frame 22, when the detection component 23 detects the positioning frame 21, the telescopic frame 22 is telescopic according to the signal received by the cloud server 3 to form the casting space, in the process of using the housing structure of the embodiment, firstly, the positioning frame 21 is pasted on the wallboard 1 to be assembled, then, the assembly is started, and in the process that the wallboard 1 is hung by a crane for assembly, the detection assembly 23 can carry out detection work, and meanwhile, when the positioning frame 21 is detected, the cloud server 3 can know that the telescopic frame 22 and the positioning frame 21 of the retaining wall are aligned, so that corresponding control signals can be output according to design drawings or design data stored in the positioning frame, the telescopic frame 22 is driven to carry out telescopic action, and finally, the telescopic frame 22 is shaped to form a pouring space for workers to pour concrete into the pouring space, so that the two wallboards 1 are bonded, compared with the mode of manually reserving the space in the prior art, the accuracy is higher, and the problem of deviation is not easy to occur.

As an improved specific embodiment, the telescopic frame 22 includes a telescopic base 221 and a telescopic strut 222, the telescopic base 221 is a hollow frame structure, one end of the telescopic strut 222 is connected to the telescopic base 221, and is combined with the telescopic base 221 to form a cross frame structure, a casting film is attached to an inner side wall of the frame structure to form a casting space, a driving component 223 for driving the telescopic strut 222 to stretch is disposed on the telescopic base 221, the driving component 223 communicates with the cloud server 3 through wireless to receive a signal output by the cloud server 3 and then drive the telescopic strut 222 to stretch, because the existing node cast-in-place mode has four modes of a straight seam, an L seam, a T seam and a cross seam, the embodiment can be effectively applied to the four modes by setting the cross seam, and through the setting of the pouring film, the pouring space can be effectively formed, and simultaneously, the problem that the poured concrete is stuck to the telescopic base 221 and the telescopic supporting rod 222 is avoided after the pouring is finished.

As an improved specific embodiment, the telescopic strut 222 is of a cylinder structure, the driving assembly 223 includes four air pumps 224 mounted on the telescopic base 221, and the four air pumps 224 are respectively connected with the telescopic struts 222 in four directions in a one-to-one correspondence manner, so as to drive the telescopic struts 222 to extend and retract, so that the telescopic struts 222 can extend and retract in an inflation and deflation manner, and the structure is simple and easy to implement.

As an improved specific embodiment, the positioning frame 21 includes a positioning belt 211 and four detection points distributed on the positioning belt 211, when the positioning frame 21 is disposed on the wall panel 1, the four detection points are respectively located at four corners of the positioning frame 21, the detection assembly 23 is a detection head fixed on an end of the telescopic strut 222 facing away from the telescopic base 221, the detection head is in communication connection with the air pump 224, when the detection points are detected by the detection head in a one-to-one correspondence manner, the detection head outputs a signal to the air pump 224, the air pump 224 drives the telescopic strut 222 to telescopically adjust the pouring space, the combination of the four detection points and the detection head is adopted, and the four detection heads are set to indicate that the telescopic frame 22 is opposite to the positioning frame 21 only when the four detection points are detected simultaneously, so that the problem of deviation can be better avoided.

As an improved specific embodiment, the telescopic base 221 is formed by combining a plurality of connecting rods and connecting nodes, the ends of the connecting rods are in threaded connection with the connecting nodes, the ends of the telescopic struts 222 are in threaded connection with the connecting nodes, so that the telescopic base 221 and the telescopic struts 222 can be detached in a threaded connection manner, wherein in the using process of the combination device 2, on the premise that a casting film forms a casting space, corresponding shaping plates are additionally arranged to effectively shape the cast concrete, therefore, the connecting rods and the telescopic struts 222 in the embodiment can be applied to the orientation plates in a manner that grooves for embedding and fixing the edges of the shaping plates can be formed in the connecting rods and the telescopic struts 222, so that after the casting is completed and the concrete is dried, the telescopic base 221 and the telescopic struts 222 can be completely detached and then the casting film is pulled from the concrete, and then filling the concrete by using additional concrete, so that the node cast-in-place operation can be effectively finished.

As an improved specific embodiment, one end of the telescopic strut 222, which faces away from the telescopic base 221, is fixed with a rubber gasket 2221, a through hole for passing detection light of the detection head is formed in the center of the rubber gasket 2221, and by setting the rubber gasket 2221, the telescopic strut 222 has a larger friction force when pushing against the wall board 1, so as to avoid the problem of slipping.

As a specific embodiment of the improvement, the inner side surfaces of the telescopic strut 222 and the connecting rod are coated with adhesive for adhering a casting film, so that the connection between the telescopic strut 222 and the connecting rod and the casting film can be effectively realized, and the telescopic strut can be effectively detached after the casting is completed.

In conclusion, the housing structure of this embodiment, through setting up the setting by the composite set 2 of locating frame 21 and the combination of flexible frame 22, alright effectual realization automation adjustment pouring space's effect, therefore compare in prior art and adopt artificial mode, the problem of position offset appears in the avoidance that can be better.

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 embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the invention may occur to those skilled in the art without departing from the principle of the invention, and are considered to be within the scope of the invention.

Claims

1. The utility model provides a high-efficient concatenation formula house structure, includes a plurality of wallboard (1) and composite set (2), through composite set (2) assembled connection, its characterized in that between a plurality of wallboard (1): composite set (2) are including locating frame (21) and flexible frame (22), locating frame (21) sets up on the integrated position on wallboard (1), cloud server (3) are coupled to flexible frame (22), have stored the installation drawing in this cloud server (3), in order according to installation drawing content output signal to flexible frame (22), control flexible frame (22) is flexible to make the flexible frame form the pouring space that supplies concrete placement, be equipped with on flexible frame (22) and be used for detecting detection assembly (23) of locating frame (21), when detection assembly (23) detected locating frame (21), flexible frame (22) are flexible according to the signal that receives cloud server (3) and are constituted the pouring space.

2. An efficient tiled residential structure as claimed in claim 1, characterized in that: flexible frame (22) are including flexible base (221) and telescopic strut (222), flexible base (221) is the frame construction of fretwork, the one end of telescopic strut (222) is all connected on flexible base (221), makes up into crisscross frame construction with flexible base (221), and this frame construction's inside wall facing is equipped with the pouring film to constitute the pouring space, be equipped with on flexible base (221) and be used for driving flexible drive assembly (223) of telescopic strut (222), drive assembly (223) are through wireless and cloud server (3) communication to drive telescopic strut (222) are flexible behind the signal of receiving cloud server (3) output.

3. An efficient tiled residential structure as claimed in claim 2, characterized in that: the telescopic support rod (222) is of an air cylinder structure, the driving assembly (223) comprises four air pumps (224) arranged on a telescopic base (221), and the four air pumps (224) are respectively connected with the telescopic support rods (222) in four directions in a one-to-one correspondence mode to drive the telescopic support rods (222) to stretch.

4. A high efficiency tiled dwelling structure as in claim 3, wherein: the utility model discloses a flexible casting pouring device, including locating band (211) and four check points of distribution on locating band (211), when locating band (21) set up on wallboard (1), four check points are in respectively on the four corners of locating band (21), detecting element (23) are for fixing the detection head of flexible branch (222) flexible base (221) one end dorsad, detect head and air pump (224) communication connection, when detecting the first one-to-one and detect the check point, detect first output signal to air pump (224) in, air pump (224) drive flexible branch (222) flexible adjustment pouring space.

5. An efficient tiled residential structure as claimed in claim 4, characterized in that: the telescopic base (221) is formed by combining a plurality of connecting rods and connecting nodes, the end portions of the connecting rods are in threaded connection with the connecting nodes, and the end portions of the telescopic support rods (222) are in threaded connection with the connecting nodes.

6. An efficient tiled residential structure as claimed in claim 5, characterized in that: one end of the telescopic support rod (222), which faces away from the telescopic base (221), is fixed with a rubber gasket (2221), and a through hole for the detection head to detect light is formed in the center of the rubber gasket (2221).

7. An efficient tiled residential structure as claimed in claim 6, characterized in that: and the inner side surfaces of the telescopic support rod (222) and the connecting rod are coated with adhesive glue for adhering a cast film.